Db58 Tier II
description
Transcript of Db58 Tier II
Printed in Jan. 2003 PS-MMA0300-E1A
OPERATION and MAINTENANCE MANUAL
DIESEL ENGINE
DB58 DB58S DB58T DB58TI DB58TIS
65.99897-8079
DB58/T/TI/TIS Operation and Maintenance Manual
Printed in Jan. 2003 PS-MMA0300-E1A
FOREWORD This maintenance manual is designed to serve as a reference for DAEWOO Heavy Industries Ltd's (here after DAEWOO’s) customers and distributors who wish to gain basic product knowledge on DAEWOO's DB58, DB58S, DB58T, DB58TI and DB58TIS Diesel engine. This economical and high-performance diesel engine (6 cylinders, 4 strokes, in-line, direct injection type) has been so designed and manufactured to be used for the overland transport or industrial purpose. That meets all the requirements such as low noise, fuel economy, high engine speed, and durability. To maintain the engine in optimum condition and retain maximum performance for a long time, CORRECT OPERATION and PROPER MAINTENANCE are essential. In this manual, the following symbols are used to indicate the type of service operations to be performed.
Removal Adjustment
Installation Cleaning
Disassembly Pay close attention-Important
Reassembly Tighten to specified torque
Align the marks Use special tools of manufacturer's
Directional Indication Lubricate with oil
Inspection Lubricate with grease
Measurement During engine maintenance, please observe following instructions to prevent environmental damage;
Take old oil to an old oil disposal point only. Ensure without fail that oil will not get into the sea or rivers and canals or the
ground. Treat undiluted anti-corrosion agents, antifreeze agents, filter element and
cartridges as special waste. The regulations of the relevant local authorities are to be observed for the
disposal of spent coolants and special waste. If you have any question or recommendation in connection with this manual, please do not hesitate to contact our head office, dealers or authorized service shops near by your location for any services. For the last, the content of this maintenance instruction may be changed without notice for some quality improvement. Thank you.
DAEWOO Heavy Industries & Machinery LTD.
Aug. 2003
DB58/T/TI/TIS Operation and Maintenance Manual
Printed in Jan. 2003 PS-MMA0300-E1A
CONTENTS
1. GENERAL INFORMATION
1.1 Engine specifications 1 1.2. Engine power 2 1.3. Performance curve 3 1.4. Engine assembly 7 1.5. Safety regulations 13
2. TECHNICAL INFORMATION 2.1. Engine model and serial number 17 2.2. Engine type 18 2.3. Engine timing 18 2.4. Valves 18 2.5. Lubrication system 18 2.6. Air cleaner 21 2.7. Fuel system 22 2.8. Cooling system 25 2.9. V-belt tension check and adjust 28 2.10. Valve clearance and adjustment 29 2.11. Cylinder compression pressure 30 2.12. Injection nozzle 31 2.13. Battery 31 2.14. Starting motor 31 2.15. Diagnosis and remedy 32
3. MAINTENANCE
3.1. Engine Disassembly 42 3.2. Engine Inspection 63 3.3. Reassembly 88 3.4. Electrical Equipments 107
4. Commissioning and Operation
4.1. Preparation 114 4.2. Starting and operation 115 4.3. Inspections after starting 117 4.4. Operation in winter time 117 4.5. Maintenance and care 119 4.6. Cooling system 121 4.7. Valve clearance and adjustment 122 4.8. Injection timing 124 4.9. Tightening the cylinder head bolts 127 4.10. Cylinder compression pressure 128 4.11. Injection nozzle 128
DB58/T/TI/TIS Operation and Maintenance Manual
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4.12. Fuel injection pump 129 4.13. Feed pump strainer 129 4.14. Separator 129 4.15. Air bleeding 130 4.16. Belts 130
5. Maintenance of Major Components
5.1. Lubrication system 133 5.2. Cooling system 137 5.3. Fuel system 142 5.4. Turbocharger 172 5.5. Air Intake System 180
6. Special Tool List 183 ● Appendix 184 ● WORLDWIDE NETWORK
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General information
1. GENERAL INFORMATION 1.1. Engine specifications
Engine Model Items DB58/S DB58T DB58TI DB58TIS
Engine type 4 cycle in-line
Naturally aspirated
4 cycle in-line,Water-cooled
Turbo charged
4 cycle in-line, Water-cooled type
Turbo charged & intercooled Combustion chamber type Direct injection type Cylinder liner type Dry type Timing gear system Gear driven type No. of piston ring 2 Compression 1 ring, oil ring No. of cylinder-bore x stroke (mm) 6 – 102 × 118 Total piston displacement (cc) 5,785 Compression ratio 17.5 : 1 18.5 Engine dimension (length X width X height) (mm) 1,173x666x793 1,172x724x912 1,184x657x934 1,184x690x970
Engine weight (kg) 450 480 505 480 Rotating direction (from fly wheel) counter clockwise Fuel injection order 1 – 5 - 3 – 6 - 2 – 4 Fuel injection timing (B.T.D.C static) 15° or 18° 13° 11° Injection pump type Bosch in-line A type Governor type Mechanical governor RSV type Injection nozzle type Multi-hole type (5 hole) Multi-hole type (6 or 7 hole)Fuel injection pressure (kg/cm2) 220 185 190 Compression pressure (kg/cm2) 28 (at 200 rpm) Intake & exhaust valve clearance (at cold) (mm) 0.4
Open at 28° B.T.D.C (DB58S : 17°) Intake valve Close at 62° A.B.D.C (DB58S : 51°) Open at 70° B.B.D.C (DB58S : 60°) Exhaust valve Close at 28° A.T.D.C (DB58S : 18°)
Lubrication method Pressurized circulation Oil pump type Gear type Oil filter type Full-flow, cartridge type Lubricating oil capacity (oil pan) (lit) 14.5(13) or 20.5(19) Oil cooler type Water cooled Water pump Belt driven impeller type Cooling Method Pressurized circulation Cooling water capacity(engine only) (lit) 12 Thermostat type Wax pallet type (71 ∼ 85°C or 82 ∼95°C) Cooling fan 7-Ø457 blower, Ø595, Ø625 or 8-Ø685 sucker Alternator voltage – capacity (V - A) 24 – 60 or 24 - 50 Starting Motor (voltage – output) (V - kW) 24 – 4.5
Battery (capacity) (V - AH) 24 - 120
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General information
1. 2. Engine power
Production tolerance : ±5%
Engine model Performance
Model Suffix Injection
timing (BTDC°)
Power (PS/rpm)
Torque (kg.m/rpm)
Low idle (rpm)
High idle (rpm) Remark
EARDA 88.5/1,800 35.5/1,600 950-1,000 2,000~2,030EAREA 113/2,200 38/1,600 850-900 2,370~2,470EAREB 775-825 2,370~2,470EARFE
20
860±25 2,420±25 EARFI/J 16 EARFH 18
92/2,200 32/1,600 800±25 2,420±50
EARFF 20 850±25 2,420±25 EARFG 18 EARFK 16
102/2,200 35.5/1,600800±25 2,420±50
EARLA/B 18 108/2,200 37.5/1,600 975±25 2,420±50
DB58
EARLC 16 98~102/2,200 38.0/1,600 975±25 2,420±50
-
ECRFA 102/2,200 37/1,600 ECRFB 90/2,200
2,420±50 DB58S ECRFC
15 94/2,400
33/1,600 800±25
2,640±50 TIER-II
EATEA 18 44/1,600 925~975 2,370~2,470EATEE 1,100±25 2,240±50 EATEH
13 132/2,200
45/1,600 950-980 2,370~2,470
EATEB 18 825~875 2,035±50 EATEF 13
111/1,850 1,050±10 2,035±50
EATED 18 114/1,950 45/1,700
1,150±25 2,140±50 EATEG 120/2,050 45/1,600 1,150±25 2,255±50 EATEI
13 100+2/1,850 39.0/1,700 1,050±10 2,035±50
EATLA 18 139/2,300 45.5/1,600 875~925 2,480±50
DB58T
EATLB 13 132/2,200 45.0/1,600 975±25 2,420±50
TIER-I
EAOEA EAOED
13 150/2,000 57/1,600 1,150±25 2,200±50
EAOEB 13 160/2,200 2,420±50 EAOEC 13 155/2,100
1,200±25 2,310±50
EAOLA/B 13 145/2,000 58/1,600
975~1,025 2,370~2,470
DB58TI
EAOEE 13 160/2,000 59/1,600 1,150±25 2,200±50
-
ECOEA 11 173/2,000 68/1,400 1,250~1,275 2,200~2,250ECOEB 11 157/1,950 62/1,400 1,200~1,225 2,150~2,200ECOEC 11 162/2,200 2,370~2,470ECOEG 11 158/2,100
60/1,500 1,200~1,225 2,260~2,360
ECOED 11 135/2,200 50/1,400 1,100~1,125 2,420~2,470ECOEE 11 154/2,000 60,1,500 1,200±25 2,200±50 ECOEF 11 124/1,950 48/1,400 1,150~1,175 2,095~2,195ECOLA 13 165/2,200 73/1,400 1,075~1,125 2,370~2,470
TIER-IIDB58TIS
ECOLB 11 145/2,200 63/1,500 1,100±25 2,420±50
* Note : All data are based on operation without cooling fan at DIN 6270B
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General information
1. 3. Performance curve 1. 3.1. Performance curve (DB58)
Performance DIN 6270B DIN 6270A
Output (rated) 96 kW (130PS) / 2,800 rpm
85 kW (115PS) / 2,800 rpm
Torque (min) 370 N.m (38.0 kg.m) / 1,600 rpm
Fuel consumption (min) 218 g/kW.h (160 g / PS.h)
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General information
1. 3.2. Performance curve (DB58T)
Performance DIN 6270B DIN 6270A
Output (rated) 104 kW (142PS) / 2,500 rpm
90 kW (122PS) / 2,500 rpm
Torque (min) 450 N.m (46.0 kg.m) / 1,600 rpm
Fuel consumption (min) 211 g/kW.h (155 g / PS.h)
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General information
1. 3.3. Performance curve (DB58TI)
Performance DIN 6270B DIN 6270A
Output (rated) 112 kW (152PS) / 2,200 rpm
102 kW (138PS) /2,200 rpm
Torque (min) 539 N.m (55.0 kg.m) / 1,600 rpm
Fuel consumption (min) 204 g/kW.h (150 g / PS.h)
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General information
1. 3.4. Performance curve (DB58TIS)
Performance DIN 6270B
Output (rated) 126.5 kW (172PS) /2,200 rpm
Torque (min) 696 N.m (71 kg.m) / 1,400 rpm
Fuel consumption (rated) 217.5 g/kW.h (160 g / PS.h)
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General information
1.4. Engine assembly 1.4.1. Engine sectional view (DB58TI/TIS : air to water type)
1. Oil spray nozzle 18. Piston pin 2. Connecting rod 19. Thermostat 3. Cylinder liner 20. Intake valve 4. Oil cooler 21. Exhaust valve 5. Piston 22 Breather 6. Swirl chamber 23. Inter cooler 7. Fuel injection pipe 24. Rocker arm 8. Fuel injection nozzle 25. Oil filler cap 9. Valve cotter 26. Cylinder head cover 10. Valve spring 27. Cylinder head 11. Valve stem seal 28. Push rod 12. Valve guide 29. Vibration damper 13. Oil pan 30. Oil drain plug 14. Oil pump strainer 31. Crank shaft 15. Oil pump 32. Cam shaft 16. Cooling water pump 33. tappet 17. Cooling water pump pulley
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13 14 15 29 30 31 32 33
20 21 22 23 24 25
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General information
1.4.2. Engine sectional view (DB58TIS : air to air type)
1. Oil spray nozzle 17. Cooling water pump pulley 2. Connecting rod 18. Piston pin 3. Cylinder liner 19. Thermostat 4. Oil cooler 20. Intake valve 5. Piston 21 Exhaust valve 6. Swirl chamber 22. Breather 7. Fuel injection pipe 23. Rocker arm 8. Fuel injection nozzle 24. Oil filler cap 9. Valve cotter 25. Cylinder head cover 10. Valve spring 26. Cylinder head 11. Valve stem seal 27. Push rod 12. Valve guide 28. Vibration damper 13. Oil pan 29. Oil drain plug 14. Oil pump strainer 30. Crank shaft 15. Oil pump 31. Cam shaft 16. Cooling water pump 32. tappet
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2 3 4
5
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7 8 9 10 11 12 20 21 22 23 24
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General information
1.4.3. Engine assembly views (1) DB58
1 Oil filter 10 Cooling fan idler 19 Push rod chamber cover
2 Lifting hook 11 Crank shaft pulley 20 Flywheel housing 3 Oil cooler 12 Vibration damper 21 Fly wheel 4 Intake manifold 13 Oil drain plug 22 Oil pan 5 Priming pump 14 Cooling water pump 23 Starter 6 Fuel injection pump 15 Alternator 24 Cylinder head cover 7 Fuel injection pipe 16 Fan drive mounting 25 Fuel injection nozzle
8 Water outlet 17 Oil level gauge 26 Fuel filter 9 Cooling fan 18 Exhaust manifold
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2
3 4 5 6 7 8
16 17 18 24 25 26
13
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22 23
19
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General information
(2) DB58T
1 Engine pick-up sensor 11 Vibration damper 20 Oil filler cap 2 Lifting hook 12 Oil filter 21 Push rod chamber cover 3 Oil cooler 13 Oil drain plug 22 Flywheel housing 4 Intake manifold 14 Air pipe 23 Fly wheel 5 Priming pump (turbo charger to intake manifold) 24 Oil pan 6 Fuel injection pump 15 Cooling water pump 25 Starter 7 Fuel injection pipe 16 Alternator 26 Oil level gauge
8 Water outlet 17 Breather 27 Cylinder head cover 9 Cooling fan 18 Turbo charger 28 Fuel injection nozzle
10 Crank shaft pulley 19 Exhaust manifold 29 Fuel filter
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3 4 5 6 7 8
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15
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12 13
17 18 19 20 26 27 28
24 25
21
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General information
(3) DB58TI/TIS
1 Fuel filter 10 Oil filter 19 Flywheel housing
2 Oil cooler 11 Oil pan 20 Fly wheel 3 Intake manifold 12 Oil drain plug 21 Starter 4 Priming pump 13 Cooling water pump 22 Turbo charger 5 Fuel injection pump 14 Alternator 23 Oil level gauge 6 Fuel injection pipe 15 Water outlet 24 Air pipe 7 Cooling fan 16 Exhaust manifold (turbo charger to intercooler)
8 Crank shaft pulley 17 Oil filler cap 25 Fuel injection nozzle 9 Vibration damper 18 Push rod chamber cover 26 Intercooler
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2 3 4 5 6
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10 11 1215 16 17 22 23 24 25 26
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General information
(4) DB58TIS
1 Flywheel housing 10 Oil pan 20 Water outlet 2 Lifting hook 11 Oil drain plug 21 Air pipe 3 Oil filler cap 12 Fuel injection pump (turbocharger to intercooler) 4 Fuel filter 13 Fuel feed pump 22 Turbo charger 5 Intake manifold 14 Priming pump 23 Exhaust manifold 6 Air pipe 15 Cooling water pump 24 Crank shaft pulley (intercooler to manifold) 16 Air heater 25 Starter
7 Breather 17 Thermostat housing 26 Push rod chamber cover 8 Cooling fan 18 Water pump pulley 27 Oil level gauge 9 Oil filter 19 Alternator 28 Fuel injection pipe
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3 4 5 6 7 17 18
8
1915
9 10 11 12 13 14
27 28 2321 20
24 25 26
16
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Safety regulations
1.5. Safety regulations 1.5.1. General notes
Day-to-day use of power engines and the service products necessary for running them presents no problems if the persons occupied with their operation, maintenance and care are given suitable training and think as they work. This summary is a compilation of the most important regulations. These are broken down into main sections which contain the information necessary for preventing injury to persons, damage to property and pollution. In addition to these regulations those dictated by the type of engine and its site are to be observed also.
IMPORTANT. If, despite all precautions, an accident occurs, in particular through contact with caustic acids, fuel penetrating the skin, scalding from oil, antifreeze being splashed in the eyes etc., consult a doctor immediately.
1.5.2. Regulations designed to prevent accidents
a) During commissioning, starting and operation Before putting the engine into operation for the first time, read the operating instructions carefully and familiarize yourself with the "critical" points. If you are unsure, ask your DAEWOO representative.
For reasons of safety we recommend you attach a notice to the door of the engine room prohibiting the access of unauthorized persons and that you draw the attention of the operating personal to the fact that they are responsible for the safety of persons who enter the engine room.
The engine must be started and operated only by authorized personnel. Ensure that the engine cannot be started by unauthorized persons.
When the engine is running, do not get too close to the rotating parts. Wear close-fitting clothing.
Do not touch the engine with bare hands when it is warm from operation risk of burns.
Exhaust gases are toxic. Comply with the installation instructions for the installation of DAEWOO diesel engines which are to be operated in enclosed spaces. Ensure that there is adequate ventilation and air extraction.
Keep vicinity of engine, ladders and stairways free of oil and grease. Accidents caused by slipping can have serious consequences.
b) During maintenance and care
Always carry out maintenance work when the engine is switched off. If the engine has to be maintained while it is running, e.g. changing the elements of change-over filters, remember that there is a risk of scalding. Do not get too close to rotating parts.
Change the oil when the engine is warm from operation.
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Safety regulations
CAUTION There is a risk of burns and scalding. Do not touch oil drain valve or oil filters with bare hands.
Take into account the amount of oil in the sump. Use a vessel of sufficient size to
ensure that the oil will not overflow. Open the coolant circuit only when the engine has cooled down. If opening while
the engine is still warm is unavoidable, comply with the instructions In the chapter entitled "Cooling".
Neither tighten up nor open pipes and hoses (lube oil circuit, coolant circuit and any additional hydraulic oil circuit) during the operation. The fluid which flow out can cause injury.
Fuel is inflammable. Do not smoke or use naked lights in its vicinity. The tank must be filled only when the engine is switched off.
Keep service products (anti-freeze) only in containers which can not be confused with drinks containers.
Comply with the manufacturer's instructions when handling batteries.
CAUTION Accumulator acid is toxic and caustic. Battery gases are explosive.
c) When carrying out checking, setting and repair work
Checking, setting and repair work must be carried out by authorized personnel only. Use only tools which are in satisfactory condition. Slip caused by the worn open-
end wrench could lead to Injury. When the engine is hanging on a crane, no-one must be allowed to stand or pass
under it. Keep lifting gear in good condition. When checking injectors, do not put your hands under the jet of fuel.
Do not inhale at atomized fuel. When working on the electrical system disconnect the battery earth cable first.
Connect it up again last in prevent short circuits. 1.5.3. Regulations designed to prevent damage to engine and premature wear
(1) Never demand more of the engine than it was designed to yield for its intended purpose. Detailed information on this can be found in the sales literature. The injection pump must not be adjusted without prior written permission of DAEWOO.
(2) If faults occur, find the cause immediately and have it eliminate in order to prevent more serious of damage.
(3) Use only genuine DAEWOO spare parts. DAEWOO will accept no responsibility for damage resulting from the installation of other parts which are supposedly "just as good".
(4) In addition to the above, note the following points. Never let the engine run when dry, i.e. without lube oil or coolant. Use only
DAEWOO-approved service products. (engine oil, anti-freeze and anticorrosion
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Safety regulations
agent) Pay attention to cleanliness. The Diesel fuel must be free of water. See
"Maintenance and care". Have the engine maintained at the specified intervals. Do not switch off the engine immediately when it is warm, but let it run without
load for about 5 minutes so that temperature equalization can take place. Never put cold coolant into an overheated engine. See "Maintenance and care". Do not add so much engine oil that the oil level rises above the max. marking
on the dipstick. Do not exceed the maximum permissible tilt of the engine. Serious damage to the engine may result if these instructions are not adhered to.
Always ensure that the testing and monitoring equipment (for battery charge, oil pressure, and coolant temperature) function satisfactorily.
Comply with instructions for operation of the alternator. See "Commissioning and operation".
Do not let the water pump run dry. If there is a risk of frost, drain the water when the engine switched off.
1.5.4. Regulations designed to prevent pollution
a) Engine oil, filter element, fuel filter Take old oil only to an oil collection point. Take strict precautions to ensure that oil
does not get into the drains or into the ground. The drinking water supply may be contaminated. Oil and fuel filter elements are classed as dangerous waste and must be treated as
such.
b) Coolant Treat undiluted anti-corrosion agent and / or antifreeze as dangerous waste. When disposing of spent coolant comply with the regulations of the relevant local
authorities. 1.5.5. Notes on safety in handling used engine oil
Prolonged or repeated contact between the skin and any kind of engine oil decreases the skin. Drying, irritation or inflammation of the skin may therefore occur. Used engine oil also contains dangerous substances which have caused skin cancer in animal experiments. If the basic rules of hygiene and health and safety at work are observed, health risks are not to the expected as a result of handling used engine oil.
<Health precautions>
Avoid prolonged or repeated skin contact with used engine oil. Protect your skin by means of suitable agents (creams etc.) or wear protective
gloves. Clean skin which has been in contact with engine oil.
- Wash thoroughly with soap and water, A nailbrush is an effective aid.
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Safety regulations
- Certain products make it easier to clean your hands. - Do not use petrol, Diesel fuel, gas oil, thinners or solvents as washing agents.
After washing apply a fatty skin cream to the skin. Change oil-soaked clothing and shoes. Do not put oily rags into your pockets.
Ensure that used engine oil is disposed of properly. - Engine oil can endanger the water supply -
For this reason do not let engine oil get into the ground, waterways, the drains or the sewers. Violations are punishable. Collect and dispose of used engine oil carefully. For information on collection points please contact the seller, the supplier or the local authorities.
1.5.6. General repair instructions
1. Before performing service operation, disconnect the grounding cable from the battery for reducing the chance of cable damage and burning due to short-circuiting.
2. Use covers for preventing the components from damage or pollution. 3. Engine oil and anti-freeze solution must be handled with reasonable care as they
cause paint damage. 4. The use of proper tools and special tools where specified is important to efficient and
reliable service operation. 5. Use genuine DAEWOO parts necessarily. 6. Used cotter pins, gaskets, O-rings, oil seals, lock washer and self-lock nuts should
be discarded and new ones should be prepared for installation as normal function of the parts can not be maintained if these parts are reused.
7. To facilitate proper and smooth reassemble operation, keep disassembled parts neatly in groups. Keeping fixing bolts and nut separately is very important as they vary in hardness and design depending on position of installation.
8. Clean the parts before inspection or reassembly. Also clean oil ports, etc. using compressed air to make certain they are free from restrictions.
9. Lubricate rotating and sliding faces of parts with oil or grease before installation. 10. When necessary, use sealer on gaskets to prevent leakage. 11. Carefully observe all torque specifications for bolts and nuts. 12. When service operation is completed, make a final check to be sure service has
been done properly.
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Technical information
2. TECHNICAL INFORMATION 2.1. Engine model and serial number
The engine model and serial number is located on the engine as illustrated. These numbers are required when requesting warranty and ordering parts. They are also referred to as engine model and serial number because of their location.
Engine serial No. (example 1 : DB58) DB58 3 00001 FA
Engine serial No. (example 2 : DB58) DB58S 3 00001 FA
Engine serial No. (example 3 : DB58T) DB58T 3 00001 EA
Engine serial No. (example 4 : DB58TI) DB58TI 3 00001 BA
Engine serial No. (example 5 : DB58TIS) DB58TIS 3 00001 EC
Engine number
Engine suffix(EARFA) Serial no. Production year(2003) Engine model
Engine suffix(EATEA) Serial no. Production year(2003) Engine model
Engine suffix(EAOEB) Serial no. Production year(2003) Engine model
Engine suffix(ECOEC)Serial no. Production year(2003) Engine model
<Name plate : EPA & CARB>
Engine suffix(ECRFA) Serial no. Production year(2003) Engine model
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Technical information
2.2. Engine type
The Engines DB58, DB58S, DB58T, DB58TI, DB58TIS are in-line vertical, water-cooled, 6-cylinder four stroke diesel engines with direct injection. DB58 is natural aspiration, DB58T is turbo-charged, DB58TI, DB58TIS are turbo-charged and inter-cooled engine.
2.2.1. Cylinder block
The cylinder block is a single piece of alloy cast iron. To increase its stiffness, it is extended to a level below the crankshaft center line. The engine has replaceable dry cylinder liners and common cylinder heads with struck-in valve seat rings and replaceable valve guides,
2.2.2. Piston con-rod / crankshaft
The forged crankshaft is a integrate type (Counterweight is integrated with crank shaft body). Radial oil seal on crankshaft and flywheel are provided to seal the flywheel housing inside penetrations. The con-rods (connecting rods) are die-forged and can be removed through the top of the cylinders together with the pistons. Crankshaft and connecting rods run in steel-backed lead bronze ready-to fit type bearings.
2.3. Engine timing
Camshaft, oil pump, PTO(power take off) pump and injection pump are driven by a gear train arranged at the front end.
Idle gear (Z = 51)
Camshaft gear (Z = 50)
Crankshaft gear (Z = 25)
Injection pump gear (Z = 50)
Oil pump drive gear (Z = 12)
P.T.O drive gear(Z=24)Allowable torque :12kg.m
Oil pump gear (Z = 9)
P.T.O gear (Option)(Z = 25)
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Technical information
2.4. Valves
The overhead valves are actuated via chilled cast iron tappets, push rods and rocker arms from the camshaft.
2.5. Lubrication system
The engine is equipped with force-feed lubrication. The pressure is produced by a gear pump whose drive gear is in direct mesh with the camshaft gear at the middle of cylinder block. The oil pump draws the oil from the oil sump and delivers it through the oil cooler and oil filter to the main distributor gallery and from there to the main bearings, big-end bearings and camshaft bearings as well as to the small-end bearings and the rocker arms. The injection pump and turbo charger are also connected to the engine lubricating system. The cylinder block walls and timing gears are splash-lubricated. The lube oil is cleaned in a full-flow oil filter.
2.5.1. Recommend of lubricating oil
Initial factory fill is high quality break-in oil for API Service. During the break-in period (50 hours), frequently check the oil level. Somewhat higher oil consumption is normal until piston rings are seated. The oil level should be maintained in the safe range between the Min. and Max. marks on the dipstick. The safe range between the marks represents approximately 3 liters. To obtain the best engine performance and engine life, grade of engine oil is recommended. Engine oils are specified by API Service, letter designations and SAE viscosity numbers. If the specified motor oil is not available, use a reputable brand of engine oil labeled for API Service CH-4 and SAE
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viscosity 30 or 15W40. Refer to oil identification symbol on the container. Engine oil should be changed at the specified intervals.
Oil filter cartridge should be changed simultaneously. - First oil change : 50 hr operating
First oil change After 50hr operation
DB58 DB58T DB58TI
every 200 Hour Construction equipments
DB58S DB58TIS every 250 Hour
The following oils are also recommended
Engine oil capacity Recommend oil
Oil pan Engine model Max.(liter)
Min. (liter)
Total (liter) SAE No. API No.
Fork lift 13 11 14.5 DB58 DB58T DB58TI Excavator 19 16 20.5
SAE 15W40 above CD or CE
Fork lift 19 14 20.5 DB58S DB58TIS
Excavator 19 16 20.5
SAE10W40 SAE15W40
ACEA-E2 or ACEA-E3(API CH-4)
* If long oil change intervals are to be used, ACEA-E3 oil must be used.
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2.5.2. Oil cooler
An oil cooler is provided between the oil filter and the cylinder block. This cooler is a flat tube type with turbulence inserts and operated by the coolant.
2.5.3. Oil filter
Check for oil pressure and oil leaks, and repair or replace the oil filter if necessary.
Change the oil filter cartridge simultaneously at every replacement of engine oil.
2.6. Air cleaner
In case that elements are deformed, damaged or if the air cleaner has a crack, replace it. By the definite interval, the elements must be cleaned and replaced.
Head, oil filter
Cartridge, Oil filter
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2.7. Fuel system
The fuel is delivered by the fuel feed pump via the fuel filter to the injection pump and from there to the injection nozzles.
The fuel is sprayed into the cylinders through nozzles fitted in screw-fit injection nozzle holders in the cylinder heads. Excessively delivered fuel and leak fuel from the nozzle flow through the return pipe back to the tank. A strainer is arranged ahead of the fuel feed pump.
2.7.1. Injection pump
The in-line injection pump is driven via gears from the crankshaft. It is connected to the force feed lubricating system of the engine and consequently maintenance-free. The governor flange-mounted on the pump casing is a variable range governor designed to keep the speed set of varying load.
Supply
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2.7.2. Fuel filter
This fuel filter has two functions not only oil filtering but also water separating
Before entering the suction chamber of the injection pump, the fuel is cleaned in a strainer of fuel feed pump and a fuel filter.
Drain water in filter with loosening the drain plug under filter manually from time to time.
The fuel filter element should be replaced at every 200 hours.
2.7.3. Fuel requirements
DAEWOO diesel engines was designed to use Number 2-D diesel fuel or equivalent that meets specification DIN 51601-DK. For maximum fuel economy, Number 2-D fuel whenever possible. When temperatures are below -7 °C (20 °F), use Number 1-D fuel. If Number 1-D fuel is not available, the mixture of one kerosene to two gallons of Number 2-D fuel can be used. Once kerosene has been added, the engine should be run for several minutes to mix the fuel.
2.7.4. How to select fuel oil Fuel quality is an important factor in obtaining satisfactory engine performance, long engine life, and acceptable exhaust emission levels. DAEWOO engines are designed to operate on most diesel fuels marketed today. In general, fuels meeting the properties of ASTM Designation D975 (grades 1-D and 2-D) have provided satisfactory performance. The ASTM 975 specification, however, does not in itself adequately define the fuel characteristics needed for assurance of fuel quality. The properties listed in the fuel oil selection chart below have provided optimum engine performance. Grade 2-D fuel is normally available for generator service. Grade 1-D fuel should not be used in pleasure craft engines, except in an emergency.
Head, fuel filter
Cartridge, fuel filter
Water drain plug
Seal ring
Air bleeding plug
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Fuel Oil Selection Chart
General Fuel Classification
ASTM Test
No. 1 ASTM 1-D
No. 2 ASTM 2-D
DIN 51601
Gravity, °API #) D 287 40 ~ 44 33 ~ 37 0.815 ~ 0.855
Flash Point Min. °F (°C)
D 93 100 (38) 125 (52) 131 (55)
Viscosity, Kinematic CST 100 °F (40 °C )
D 445 1.3 ~ 2.4 1.9 ~ 4.1 1.8 ~ 10
Cloud Point °F #) D 2500 See Note 1) See Note 1) See Note 1)
Sulfur Content wt%, Max.
D 129 0.5 0.5 0.15
Carbon Residue on 10%, wt%, Max.
D 524 0.15 0.35 0.1
Accelerated Stability Total Insolubles
mg/100 ml, Max. #) D 2274 1.5 1.5
Ash, wt%, Max. D 482 0.01 0.01
Cetane Number, Min. +) D 613 45 45 > 45
Distillation Temperature, ℉(℃)
IMP, Typican #) 10% Typical #) 50% Typical #) 90% +) End Point #)
D 86
350(177) 385(196) 45(218)
500 (260) Max.550(288) Max.
375(191) 430(221) 510(256)
625(329) Max. 675(357) Max.
680(360)
Water & Sediment %, Max.
D 1796 0.05 0.05 0.05
#) Not specified In ASTM D 975 +) Differs from ASTM D 975 NOTE 1) The cloud point should be 6 °C (10 °F) below the lowest expected fuel temperature
to prevent clogging of fuel fitters by crystals.
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2.8. Cooling system The engine has a liquid-cooling system. The fresh water pump is a maintenance-free by V-belt from the crankshaft pulley. Depending on the agreed extent of delivery and the design of the engine, the coolant circuit can be equipped with temperature monitors which, in the event of loss of coolant, shut the engine down.
Check the coolant level of the expansion tank by removing the expansion tank filler cap, and add coolant if necessary.
When injecting antifreeze solution, first drain out the old coolant from the cylinder block and radiator, and then clean them with cleaning solution.
Be sure to mix soft water with antifreeze solution.
2.8.1 Cooling system (Type -1)
2.8.2 Cooling system (Type -2)
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2.8.3. Coolant pressure cap
Check the pressure valve opening pressure using a expansion tank cap tester. Replace the filler cap assembly if the measured valve does not reach the specified limit. (pressure valve opening pressure : 0.9 kg/cm2)
NOTE Because it is dangerous to open the pressure cap quickly when coolant is hot, after lowering the inside pressure of the tank by slow-opening at first open it fully.
2.8.4. Anti-freeze
The anti-freeze, 50% of the whole coolant, is always to be used to prevent the cooling system from the corrosion. And in winter the amount of anti-freeze shown in the following table should be used in accordance with the ambient temperature. As the individual freezing points corresponding to the proportions of antifreeze in the table are subject to change slightly according to the kind of antifreeze, you must follow the specifications provided by the antifreeze manufacturer.
Ambient
Temperature (°C) Cooling water (%) Anti-freeze (%)
Over -10 -10 -15 -20 -25 -30 -40
85 80 73 67 60 56 50
15 20 27 33 40 44 50
As the ratio of antifreeze in the mixture decrease each time new coolant is added to make up for the loss coolant resulting from engine operation, Check the mix ratio with every replenishment of coolant, and top up as necessary.
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2.8.5. Cooling water Regarding the engine cooling water, the hard water must be used (Do not use the
soft water). The engine cooling water can be used diluting it with antifreezing solution 40% and
the additive for rust prevention (DCA4) 3 ∼ 5 %. The density of above solution and additive must be inspected every 500 hours to
maintain it properly.
NOTE The proper density control of antifreezing solution and rust preventing additive will be able to prevent the rusting effectively and maintain the stable quality of engine. For the improper control might give the fatal damage to the cooling water pump and cylinder liners, detail care is needed.
Since DB58 cylinder liner is dry type, particularly the cooling water control should be applied thoroughly.
The density of antifreezing solution and additive for rust prevention is able to be confirmed by the cooling water test kit. (Fleetguard CC2602M)
How to use the cooling water test kit (1) When the cooling water temp. of engine is in the range of 10 ∼ 55 °C,
loosen the plug for cooling water discharge and fill the plastic cup about a half. NOTE: In taking the cooling water sample, if the water in auxiliary tank were taken, it is hard to measure the accurate density. Take the cooling water sample necessarily loosening the cooling water discharge plug.
(2) At the state of a test paper soaked in the sampled water, after taking the paper
out through water agitation, shake off the water. (3) Wait for about 45 sec. till the color change of test paper. NOTE: However, it should not elapse longer than 75 sec, and if it did, the hue would change.
(4) Make the numerical value by comparing the test paper which hue has
changed with the color list of label on storage bottle. (5) By comparing the hue changed into yellowish green or so with the green color
indication of test paper storage bottle, confirm the density. (Then, the density indication must be in the hue range of 33% to 50%).
(6) The brown at the middle of test paper and the lower pink color indication represent the additive state for rust prevention, and the proper range is that the meeting numerical value of brown (vertical) and pink color (horizontal) locates in the range of 0.3 to 0.8 at the color list of label on the test paper storage bottle.
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(7) In case of less than 0.3, replenish the additive for rust prevention (DCA4), and in case of more than 0.8, pour out the cooling water about 50% and then readjust the density after refilling with clean fresh water.
2.9. V-belt tension check and adjust
V-Belt By the finger-pressure the belt is pressed by 10mm ∼ 15mm between the fan pulley and the alternator pulley in normal condition. For the adjustment of the tension, loosen the adjusting bolts which support the alternator, adjust the tension and tighten the bolts again.
Poly belt
Poly belt will be properly tensioned if the deflection force “F” is applied midway between the belt`s tangent points with the pulley. T = 0.015 x S (about 1.5mm per 100mm)
2.10. Intercooler(Air to air)
The intercooler is air to air type and has a large cooling fan capacity. The intercooler
life and performance depends on the intake air condition greatly. Fouled air pollutes
and clogs the air fins of intercooler. As a result of this, the engine output is
decreased and engine malfunction is occurred. So you always check whether the
intake air systems like air filter element are worn or polluted.
Air/air intercooler with radiator (combined radiator)
Air flow by cooling fan Hot air by turbo charger compressor Cooled air to intake manifold (max. 50°C)
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2.11. Valve clearance and adjustment
NOTE: The cylinder head bolts were previously tightened with the torque wrench. Therefore it is not necessary to retighten the cylinder head bolts before adjusting the valve clearance.
Rocker arm screw
lock nut torque 2.6 ±0.5kg.m
After letting the #1 cylinder's piston come at the compression top dead center by turning the crankshaft, adjust the valve clearances. Loosen the lock nuts of rocker arm adjusting screws and push the feeler gauge of specified value between a rocker arm and a valve stem and adjust the clearance with adjusting screw respectively and then tighten with the lock nut.
As for the valve clearance, adjust it when in cold, as follows.
Model Intake Valve Exhaust Valve
DB58 DB58S DB58T DB58TI DB58TIS
0.4 mm 0.4 mm
1) Rotate the crankshaft to overlap the intake and the exhaust valves of #6, then
#1 cylinder become the compression state of top dead center. 2) Therefore adjust the valve clearance corresponding to “ ” of lower
figure. At this time there are no force on the push rods of #1 cylinder. 3) Rotating the crankshaft by one revolution, #6 cylinder become the compression
state of top dead center. 4) Thereafter adjust the valve clearances corresponding to “ ” of lower
figure.
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5) After reinsuring the valve clearances, retighten if necessary. No. 1 cylinder is located at the side where flywheel was installed.
2.12. Cylinder compression pressure
Stop the engine after warming up, and take out preheating plug and injection pipe.
Install the special tool
(compression gauge adapter) at the preheating plug hole, and connect the compression pressure gauge there.
Check the compression pressure
at gauge several times until highest compression reading is reached.
Standard value 28kg/cm2 overLimit value 24kg/cm2 Difference between each cylinder
Within ± 10 %
Condition : Water temperature 75°C.
Cooling fan Cylinder no. Exhaust valve Intake valve Fly wheel
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2.13. Injection nozzle
Install a nozzle on the nozzle tester. If the inspected injection pressure is less than the specified value, adjust using
the adjusting shims.
Engine model Injection nozzle pressure
DB58, DB58S, DB58T 220 kg/cm2
EAOEA/B/C/D, EAOLA/B 185 kg/cm2 DB58TI EAOEF 200 kg/cm2 ECOLA 185 kg/cm2 DB58TIS ECOEA/B/C/D/E/F/G, ECOLB 190 kg/cm2
Check the atomizing state and replace it if abnormal. 2.14. Battery
Inspect for any leakage of electrolytic solution owing to battery crack, and replace the battery in case of poor condition.
Inspect for amount of electrolytic solution, and replenish if insufficient. Measure the gravity of electrolytic solution, if less than specified value (1.12 ∼
1.28), replenish. 2.15. Starting motor
In case of engine maintenance, clean pinion and ring gear thoroughly putting in the fuel, and coat them with grease. Also, in case of washing engine room and so forth, inspect the wiring state being careful for water not to get in.
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2.16. Diagnosis and remedy
The following description summarizes the probable cause of and remedy for general failure by item.
Immediate countermeasures should be taken before a failure is inflamed if any symptom is detected.
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Condition Causes Remedies
1) Starting difficult
(1) Compression pressure Valve's poor shut, stem distortion Repair or replace
Valve spring damage Replace valve spring
Cylinder head gasket's leak Replace gasket
Wear of piston, piston ring or liner Adjust
2) Idle operation abnormal Injection timing incorrect Adjust
Air mixing at injection pump Remove air
3) Engine output insufficient
(1) Continuous output Insufficient Valve clearance incorrect Adjust
Valve tightness poor Repair
Cylinder head gasket's leak Replace gasket
Wear, stick, damage of piston ring Replace piston ring
Injection timing incorrect Adjust
Fuel injection amount insufficient Adjust injection pump
Nozzle injection pressure improper or stuck Adjust or replace
Supply pump's function lowered Repair or replace
Fuel pipe system clogged Repair
Air suction amount insufficient Clean or replace air cleaner
Turbocharger poor Repair or replace
(2) Output insufficient
when in acceleration
Compression pressure insufficient Disassemble engine
Injection timing incorrect Adjust
Fuel injection amount insufficient Adjust injection pump
Injection pump timer's function insufficient Repair or replace
Nozzle injection pressure, injection angle
improper
Repair, replace
Supply pump's function lowered Repair or replace
Air intake amount insufficient Clean or
replace air cleaner
4) Overheating Engine oil insufficient or poor Replenish or replace
Cooling water insufficient Replenish or replace
Fan belt loosened, worn, damaged Adjust or replace
Cooling water pump's function lowered Repair or replace
Water temperature regulator's operation
poor
Replace
Valve clearance incorrect Adjust
Exhaust system's resistance increased Clean or replace
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Condition Causes Remedies
5) Engine noisy For noises arise compositely such as rotating
parts, lapping parts etc., there is necessity to
search the cause of noises accurately.
(1) Crankshaft
As the wear of bearing or crankshaft
progress, the oil clearances increase.
Replace bearing & grind
crankshaft
Lopsided wear of crankshaft Grind or replace
Oil supply insufficient due to oil passage
clogging
Clean oil passage
Stuck bearing Replace bearing & grind
(2) Connecting rod and
Connecting rod bearing
Lopsided wear of connecting rod bearing Replace bearing
Lopsided wear of crank pin Grind crankshaft
Connecting rod distortion Repair or replace
Stuck bearing Replace & grind crankshaft
Oil supply insufficiency as clogging at oil
passage progresses
Clean oil passage
(3) Piston, piston pin &
piston ring
Piston clearance increase as the wear of
piston and piston ring progresses
Replace piston &
piston ring
Wear of piston or piston pin Replace
Piston stuck Replace piston
Piston insertion poor Replace piston
Piston ring damaged Replace piston
(4) Others Wear of crankshaft, thrust bearing Replace thrust bearing
Camshaft end play increased Replace thrust plate
Idle gear end play increased Replace thrust washer
Timing gear backlash excessive Repair or replace
Valve clearance excessive Adjust valve clearance
Abnormal wear of tappet, cam Replace tappet, cam
6) Fuel Consumption excessive Injection timing incorrect Adjust
Fuel injection amount excessive Adjust injection pump
7) Oil consumption excessive excessive
(1) Oil level elevated Clearance between cylinder liner & piston Replace
Wear of piston ring, ring groove Replace piston, piston ring
Piston ring's damage, stick, wear Replace piston ring
Piston ring opening's disposition improper Correct position
Piston skirt part damaged or abnormal wear Replace piston
Oil ring's oil return hole clogged Replace piston ring
Oil ring's contact poor Replace piston ring
(2) Oil level lowered Looseness of valve stem & guide Replace in set
Wear of valve stem seal Replace seal
Cylinder head gasket’s leak Replace gasket
(3) Oil leak Looseness of connection parts Replace gasket, repair
Various parts' packing poor Replace packing
Oil seal poor Replace oil seal
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2.17. Engine inspection 2.17.1. Stopping engine
After checking the engine for any unusual condition at the idling speed, then turn the key switch to the stop the engine.
2.17.2. General engine inspection cycle
In order to insure maximum, trouble-free engine performance at all times, regular inspection, adjustment and maintenance are vital.
Daily inspections in below figure should be checked every day. The following maintenance details should be executed thoroughly at regular
internals. О : Check & adjust ● : Replace
Inspection Daily Every50hrs
Every200hrs
Every 400hrs
Every 600hrs
Every1200hrs Remark
Check for leakage(hoses, clamp) О Check the water level О Change the coolant water ●
Adjust the V-belt tension О Every 2,000hrs
Cooling System
Clean the radiator О Check for leakage О Check the oil level gauge О
Change the lubricating oil ● 1st ●
Lubrication System
Replace the oil filter cartridge ● 1st ●
Check the leakage for intercooler(hoses, clamp) О Intake &
Exhaust System Clean and change
the air cleaner element О clean ●
Check the leakage fuel line О Clean the fuel strainer of fuel feed pump О
Remove sediment from fuel tank О Drain the water in separator О Replace the fuel filter element ●
Check fuel injection timing О When necessary
Fuel System
Check the injection nozzles О When necessary
Check the state of exhaust gas О
Check the battery charging О
Check the compression pressure О When necessary
Engine Adjust
Adjust Intake/Exhaust valve clearance О
1st When necessary
2.18. Use of original parts for repair and replacement For engine is being mechanically harmonized with many parts, only when the original parts that the manufacture recommends to use is used, the engine trouble would be preventively maintained and capable to keep up the maximum performances. For the analogous parts not the original parts are poor in qualities and gives ill performance, it may rather bring early engine failure.
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3. Maintenance 3.1. Engine Disassembly 3.1.1. Major part fixing nuts and bolts
1) Cylinder head cover
(Unit : kg.m)
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2) Cylinder block
(Unit : kg.m)
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3) Oil pan and level gauge
(Unit : kg.m)
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4) Camshaft and rocker arm
(Unit : kg.m)
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5) Crankshaft, piston and flywheel
(Unit : kg.m)
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6) Thermostat and housing
(Unit : kg.m)
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(Unit : kg.m)
7) Intake and exhaust manifold
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(Unit : kg.m)
8) Intake and exhaust manifold
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(Unit : kg.m)
9) Intake and exhaust manifold
2.9
2.6±0.5
3.1±0.5
3.8±0.7
3.8±0.7
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(Unit : kg.m)
9) Timing gear case and flywheel housing
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(Unit : kg.m)
10) Oil cooler, oil filter and oil pump
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(Unit : kg.m)
11) Fuel system
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12) Engine repair parts
1 Cover to timing gear case gasket 12 Oil filter cover gasket 2 Gear case to cylinder block gasket 13 Oil cooler gasket 3 Timing gear case oil seal 14 Intake manifold gasket 4 Flywheel housing gasket 15 Oil pan gasket 5 Crank shaft rear oil seal 16 Turbocharger gasket
6 Cylinder head gasket 17 Turbocharger outlet gasket
7 Cylinder head cover gasket 18 Water pump gasket 8 Valve guide oil seal 19 Water pump housing gasket
9 Tappet chamber cover gasket 20 Exhaust manifold gasket 10 Air heater gasket 21 Thermostat gasket 11 Thermostat housing gasket 22 Oil pump hole cover gasket
1 2 3
4 5
6 7
8 9 10
11 12 13 14 15
16 17 18 1920 21 22
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3.1.2. Main structure parts (1)
1. Rubber hose (Coolant by-pass) 9. Oil pump driving pinion ▲2. Rocker arm shaft assembly 10. Nut 3. Push rod ▲11. Crankshaft pulley and dust cover 4. Cylinder head bolt ▲12. Taper bushing ▲5. Cylinder head assembly 13. Timing gear cover 6. Cylinder head gasket 14. Oil thrower 7. Coolant pump assembly ▲15. Fly wheel 8. Tappet chamber cover
2) Rocker arm shaft Loosen the rocker arm shaft fixing bolts a little in numerical sequence as specified.
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5) Cylinder head
Loosen the cylinder head bolts a little in the numerical order shown in the figure.
11) Crankshaft pulley Use an appropriate wrench (54 mm) to remove the crankshaft pulley nut.
12) Taper bushing Use the taper bushing remover to remove the crankshaft end taper bushing.
15) Flywheel Loosen the flywheel bolts a little in the numerical order as specified.
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3.1.3. Main structure parts (2)
1. Oil cooler 9. Timing gear case 2. Oil pan 10. Idler gear shaft 3. Oil pump and coupling ▲11. Crank shaft bearing cap 4. Flywheel housing 12. Crank shaft bearing (lower part) 5. Piston and connecting rod 13. Thrust bearing ▲6. Idler gear 14. Crank shaft ▲7. Cam shaft 15. Crank shaft bearing (upper part) 8. Tappet
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6) Idler gear
Measure the following points before disassembly.
<Idler gear end play>
Standard Limit
0.058 ∼ 0.115 mm 0.2 mm
<Timing gear back lash> Standard Limit
0.10 ∼ 0.17 mm 0.3 mm
Includes the crankshaft gear, the camshaft gear and the idler gear
7) Camshaft Measure the following points before disassembly.
<Cam Gear End Play>
Standard Limit
0.050 ∼ 0.114 mm 0.2 mm
11) Crankshaft bearing cap Measure the crankshaft endplay at the thrust bearing (center main bearing) before disassembly.
<Crankshaft End Play>
Standard Limit
0.15 ∼ 0.33 mm 0.4 mm
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3.1.4. Rocker arm disassembly
1. Bracket 2. Rocker arm
3. Spring 4. Rocker arm shaft
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Engine disassembly
3.1.5. Cylinder head disassembly
1. Exhaust manifold and gasket 7. Spring seat (upper) 2. Intake manifold and gasket 8. Valve spring 3. Coolant outlet pipe 9. Spring seat (lower) 4.Thmostat 10.Valve 5. Thermostat housing and gasket 11. Valve stem oil seal ▲6. Valve cotter
Importance 6) Valve cotter
Use the valve spring compressor to remove the valve cotter.
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3.1.6. Piston and connecting rod disassembly
▲1. Piston rings 4. Piston ▲2. Snap ring 5. Connecting rod bearing ▲3. Piston pin and connecting rod
IMPORTANT: Remove any carbon deposits from the upper part of the cylinder bore. This will prevent damage to the piston and the piston rings when they are removed from the cylinder bore.
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1) Piston rings Use a piston ring remover to remove the piston rings. Do not attempt to use other tools. Stretching piston ring will result in reduced piston ring tension.
2) Snap ring Use a pair of snap ring pliers to remove the snap ring.
3) Piston pin Tap the piston pin out with a hammer and brass bar.
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3.2. Engine Inspection 3.2.1. Cylinder block
Clean the cylinder block thoroughly and make a visual inspection for cracks or damage.
Replace if cracked or severely damaged, and correct if slightly damaged. Check oil and water flow lines for restriction or corrosion. Make a hydraulic test to check for any cracks or air leaks.
(Hydraulic test) : Stop up each outlet port of water/oil passages in the cylinder block, apply air pressure of about 5kg/cm2 against the inlet ports, then immerse the cylinder block in water for about 3 minute to check any leaks. (Water temperature : 70 °C)
3.2.2. Cylinder head
1) Inspection Carefully remove carbon from the lower lace of the cylinder head using
nonmetallic material to prevent scratching of the valve seat faces. Check the entire cylinder head for very fine cracks or damage invisible to
ordinary sight using a hydraulic tester or a magnetic flaw detector.
2) Distortion at the lower face Measure the amount of distortion
using a straight edge and a feeler gauge at six positions (A ∼ F) as shown in the right figure.
If the measured value exceeds the standard value, retrace the head with grinding paper of fine grain size to correct such defect.
If the measured value exceeds the maximum allowable limit, replace the cylinder head.
<Lower face warpage and height>
Standard Limit
Warpage 0.2 mm or less 0.3 mm
Thickness : t 89.95 ∼ 90.05 mm 89.65 mm
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3) Flatness
Measure flatness of the intake/exhaust manifolds fitting surfaces on the cylinder head using a straight edge and a feeler gauge.
Standard Limit 0.05 mm 0.2 mm
4) Hydraulic test
Hydraulic test method for the cylinder head is same as that for cylinder block.
3.2.3. Valve stem and valve guide clearance 1) Measuring method - Ι
After install dial gauge needle on the inserted valve stem, set up calibrator to “0”. (as shown in figure)
Move valve head from side to side. Record total dial indicator reading. This valve is the clearance between the valve stem and valve guide.
Valve and guide set must be replaced if measured value exceed the specified limit
<Valve stem clearance (T.I.R)>
Standard Limit
Intake side 0.039 ∼ 0.071mm 0.20mm
Exhaust side 0.064 ∼ 0.096mm 0.25mm
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2) Measuring method – II
Measure valve stem outside diameter.
Measure valve guide inside diameter by using of caliper calibrator of telescoping gauge.
The difference between the valve stem outside diameter and the valve guide inside diameter is the valve stem clearance.
3) Valve guide replacement
Removal of valve guide Pull out the valve guide, by using
hammer and valve guide remover, from bottom of cylinder head.
Install of valve guide The height from the bottom of the
cylinder head to the edge of valve guide top should be 14.1mm.
4) Valve depression Install the valve① to the cylinder
head②. Measure valve depression by
using the depth gauge or calibrator from the bottom of cylinder head.
Seat insert and valve must be replaced if the measured value exceed the specified limit.
If the valve is replaced, the valve guide must be also replaced.
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Standard Limit
Intake and exhaust valve depression
1.0 mm 2.5mm
5) Valve contact width
Inspect the valve contact faces for the roughness and unevenness. Make valve contact surfaces smooth.
Measure the width of valve contact.
Standard
Valve contact width, Intake 2.4mm Valve contact width, Exhaust
1.6mm
6) Valve seat replacement
Arc weld entire inside circumference① of the valve seat②. (see figure)
Cool valve seat for a few minutes. This will make removal of the valve seat easier.
Pull out the valve seat by using the inner extractor.
Carefully remove the carbon and other foreign material from the cylinder head insert bore.
7) Valve seat installation
Carefully place Jig①. Caution: The smooth face of jig must contact the valve seat.
Assemble valve insert by slowly pressing it against the jig with the bench press. (The amount of needed pressure is more than 2,500kg.)
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IMPORTANT: Do not press the valve seat excessively with the bench press. It may damage the valve seat.
8) Valve seat correction Remove the carbon deposits
from the valve seat surface. Remove the rough areas by
using valve cutter. (30°, 90° or 150°) Do not cut the valve seat too much.
Angle Location Standard
Intake valve seat 90°
Exhaust valve seat 90°
IMPORTANT: Use an adjustable valve cutter pilot. Do not allow the cutter pilot to wobble inside the valve guide.
Spread compound on the surface of valve seat.
Insert valve into valve guide. Lap the valve and valve seat with
the lapping tool. Check that valve contact width is
correct.
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Check that the entire surface of
valve seat is in contact with the valve.
3.2.4. Valve spring 1) Valve spring free length
Measure the valve spring with the vernier caliper.
Replace the spring if the measured value is less than the specified limit.
Standard LimitExhaust and intake valve spring free length
53.65 mm 52 mm
2) Valve spring inclination
Measure the valve spring inclination by the using of square.
Replace the valve spring if the measured value exceed the specified limit.
Standard Limit Valve spring Inclination
2.5 mm 3.5 mm
3) Valve spring tension
Measure the valve tension by using spring tester.
Replace the valve spring if the measured value exceed the specified limit.
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Standard Limit
Valve spring tension at 44mm set length
22.5 kg 20.0 kg
3.2.5. Tappet
Check the valve tappets for excessive wear, damage or abnormalities.
Measure the outside diameter of tappet with the micrometer.
Standard Limit
Tappet outside diameter
∅27.96 ∼ ∅27.98mm ∅27.92mm
Measure the clearance between tappets and cylinder motion parts by the using dial indicator.
Standard Limit
Tappet and tappet bore clearance
0.020 ∼ 0.054mm 0.1mm
3.2.6. Push rod
Measure the run out of push rod with the feeler gauge.
Roll the push rod along a smooth flat surface as shown in the figure.
Limit
Push rod of run-out 0.2mm
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3.2.7. Rocker arm correction
Check the valve stem contact part of rocker arm.
Grind contact surface with an oil stone if it is irregularly contacted.
Replace the rocker arm if it is extremely damaged.
1) Rocker arm and shaft Check the disassembled parts for
wear, damage and abnormalities.
2) Rocker arm shaft outside diameter
Measure the outside diameter of rocker arm with the micrometer.
Replace shaft if measured value exceed the specified limit.
Standard Limit
diameter of
rocker arm shaft∅18.98-∅19.00 mm ∅18.85 mm
3) Rocker arm and shaft clearance Measure the inside diameter of
rocker arm bushing with the vernier caliper.
Measure the out side diameter of rocker arm shaft. Replace the rocker arm or rocker arm shaft if measured value exceed the specified limit.
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Standard Limit
Diameter of rocker
Arm bushing
∅19.02 ∼
∅19.05mm
∅19.07
mm
Standard Limit
Rocker arm bushing and rocker arm shaft clearance
0.02 ∼ 0.07 mm
0.2 mm
Check the rocker arm oil port
whether alien substance is in it or not.
Clean the rocker arm oil port with compressed air if necessary.
3.2.8. Idler gear and shaft
Replace the idler gear shaft if the measured value exceeds the specified limit.
Standard Limit
Diameter of
idler gear shaft
∅44.945 ∼ ∅44.975
mm ∅44.9 mm
Measure the inside diameter of idler gear with the dial indicator,
Standard Limit
Clearance of idle gear and shaft
0.045 ∼ 0.105
mm 0.2 mm
3.2.9. Camshaft Use the jig to install or overhaul
camshaft bearing in cylinder block. Measure the clearance between
the cam journal and the camshaft bearing.
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Standard Limit Clearance of cam journal and cam bearing
0.03 ∼ 0.09 mm 0.15 mm
Align the camshaft bearing oil port
with the mating oil port (machined on the cylinder block).
Measure the cam lobe with the
micrometer. Replace the camshaft if the measured values exceed the specified limit.
Standard Limit
Cam lobe height (C-D), In 7.44 mm 6.94 mm
Cam lobe height (C-D), Ex 7.71 mm 7.21 mm
Cam journal diameter ∅56.0 mm ∅55.6 mm
Set up the camshaft on a measuring
stand. Measure the run out of camshaft with
the dial indicator. Record the measured value (T.I.R) Replace the camshaft if the measured value exceeds the specified limit.
Limit
Camshaft run-out 0.12 mm
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3.2.10. Cylinder liner
1) Cylinder liner bore measurement Measure the bore at measuring
position① in line with the crankshaft③ and across the crankshaft②.
Measured position: 20 mm from the top of liner. (max. wear portion)
Replace the cylinder liner if the measured value exceeds specified limit.
Standard Limit
Diameter of
cylinder liner bore ∅102.017∼∅102.046 mm ∅102.20 mm
CAUTION: The casting liner is specially honed without the chrome plating inside, so that chrome plated ring (top ring and oil ring) must be used.
2) Cylinder liner inspection Set up the straight square along
the top edge of cylinder liner. Measure liner projection with the
feeler gauge.
Standard
Cast liner 0.02 ∼ 0.07 mm Cylinder liner
projection Steel liner 0.015 ∼ 0.115mm
The difference in the liner
projection height between any two adjacent cylinders must NOT exceed 0.3mm
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3) Cylinder liner replacement
Set the cylinder liner remover to the cylinder liner.
Check that cylinder liner remover shaft ankle is firmly gripping the cylinder liner bottom edge.
Slowly turn the remover shaft handle counter-clockwise to pull the cylinder liner free.
IMPORTANT: Take care not to damage the cylinder body upper face when remove the cylinder liner.
3.2.11. Cylinder block 1) Grade selection of cylinder liner
Select a grade from the outside diameter of the cylinder liner and inside diameter of block combination.
Determine a grade of the cylinder liner after measuring the inside diameter of the cylinder block.
Loose fitting cylinder liners (the liner is too small for the cylinder bore) will adversely affect engine cooling efficiency and may lead to serious engine damage. Cylinder liners which are too large for the cylinder bore will be difficult to install.
2) Cylinder block bore measurement
Measure at measuring point① across the positions W- W, X-X, Y-Y and Z-Z. Measuring point① diameter : 115 mm
Calculate average value of four measurements to determine the correct cylinder liner grade.
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Grade marking Cylinder block bore diameter
1 ∅105.090 ∼ ∅106.000 mm
2 ∅106.000 ∼ ∅106.010 mm
3) Cylinder liner outside diameter Measure the liner outside
diameter at ①, ② and ③
measuring point across X-X, Y-Y. Measuring Points :
① 20.0 mm ② 105.0 mm ③ 185.0 mm
Calculate the average value of 6 measurements to determine the correct cylinder liner grade.
Combination of the cylinder bore and the cylinder liner outside diameter.
Steel liner (tightness)
Cast iron liner(clearance)
Cylinder liner fitting clearance 0.001 ∼ 0.019mm 0.005 ∼ 0.026mm
<Cylinder bore and liner outside diameter>
(A) Steel cylinder liner Grade Cylinder bore Cylinder liner outside diameter
1 ∅105.001 ∼ ∅105.010mm ∅105.011 ∼ ∅105.020mm
2 ∅105.011 ∼ ∅105.020mm ∅105.021 ∼ ∅105.030mm
3 ∅105.021 ∼ ∅105.030mm ∅105.031 ∼ ∅105.040mm
(B) Cast iron cylinder liner
Cylinder liner diameter
② position ①, ③ position Grade marking
∅102.020 ∼ ∅102.031mm ∅102.017 ∼ ∅102.035mm 1 ∅D
(Inner diameter) ∅102.031 ∼ ∅102.042mm ∅102.028 ∼ ∅102.046mm 2
∅105.973 ∼ ∅105.984mm ∅105.970 ∼ ∅105.988mm A ∅E
(Outer diameter) ∅105.984 ∼ ∅105.995mm ∅105.981 ∼ ∅105.999mm B
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Cylinder liner diameterPart no of cylinder
liner grade Outer Inner Marking
65.01201-0068 1 A 1A
65.01201-0069 1 A 1B
65.01201-0070 2 B 2A
65.01201-0071 2 B 2B
4) Cylinder liner assembly Carefully wipe away any foreign
material from the cylinder liner inside and outside surfaces and the cylinder bore.
Cleanly wash cylinder liner and bore surfaces with new kerosene or diesel oil.
Use a clean rag to remove all traces of kerosene or diesel oil from cylinder liner and bore surfaces.
Insert the cylinder liner into cylinder block from the top of the cylinder block.
Set the cylinder liner installer to the top of the cylinder liner.
Position the cylinder body so that the installer center is directly beneath the bench press shaft center.
Check that the cylinder liner is set perpendicular to the cylinder.
Use the bench press to apply an initial seating force of 500kg to the cylinder liner.
Use the bench press to apply a final seating force of 2,500kg to fully seat the cylinder liner.
After installing the cylinder liner, measure the cylinder liner projection.
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5) Piston grade selection
”Piston grade” refers to the piston diameter and the cylinder liner bore combination.
Selection of the proper piston grade will ensure efficient engine operation, free from cylinder liner and piston problems.
Measure the cylinder liner bore after installing the cylinder liner. Determine the appropriate piston grade after measuring cylinder liner bore.
6) Cylinder liner bore measurement
Loacte the two measuring points. Cylinder liner measuring point
- ① : 20mm - ② : 105mm
Measure cylinder liner bore at measuring points ① and ② in four different directions (X-X, Y-Y, W-W and Z-Z).
Calculate the average value of the 8 measurements.
Standard
Cylinder liner bore ∅102.020 ∼ ∅102.042 mm
CAUTION: It is most important to use correct piston-liner combination. Incorrect combination will result in piston seizure. Always measure the cylinder bore and select the appropriate piston grade.
3.2.12. Piston 1) Piston outside diameter
Piston outside diameter vary depending on the piston type to be used.
Measure the piston outside diameter ② (see figure).
<Piston grade>
Grade Limit
A ∅101.953 ∼ ∅101.967 mm
B ∅101.963 ∼ ∅101.977 mm
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<Cylinder liner bore and piston>
Clearance 0.053 ~ 0.077 mm
CAUTION: The cylinder liner-piston kit clearances are preset. However, the cylinder liner installation procedure may result in slight decreases in the cylinder liner bore clearances. Always measure the cylinder liner bore clearance after installation to be sure that it is correct.
2) Piston ring and piston groove clearance Measure the piston ring and the
piston ring groove clearance with a feeler gauge.
Measure it at several points around the piston.
Replace the piston ring If the measured value exceeds the specified limit.
<Piston ring and piston groove clearance>
Standard Limit
Top ring 0.070 ∼ 0.120 mm 0.20
2nd ring 0.050 ∼ 0.085 mm 0.15
Oil ring 0.030 ∼ 0.070 mm 0.15
3) Piston ring gap
Insert the piston ring horizontally (in the position it will assume if it were installed to the piston) into the cylinder liner.
Push the piston ring with an inverted piston into the cylinder liner until it reaches measuring point ① or ②.
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The cylinder liner diameter is the smallest at these two points. Do not allow the piston ring to slant to one side or the other. It must be perfectly horizontal. Cylinder liner measuring point
- ① : 10mm - ② : 130mm
Measure piston ring gap with a feeler gauge. The piston ring must be replaced if the measured value exceeds the specified
limit.
Standard Limit
Top ring gap 0.25-0.45 mm 1.50 mm 2nd ring gap 0.40-0.60 mm 1.50 mm Oil ring gap 0.20-0.40 mm 1.50 mm
4) Piston pin
Measure piston pin outside diameter with micrometer at several points.
Replace the piston pin if the measured value exceeds the specified limit.
Standard Limit
Piston pin
outside diameterØ35.000 ∼ Ø35.005mm ∅34.95 mm
5) Piston pin hole
Measure diameter of the piston pin hole with inside dial gauge.
Standard
Piston pin and piston clearance Ø35.010 ∼ Ø35.018 mm
6) Piston pin and piston pin hole clearance Determine the clearance between
the piston pin and the piston pin hole by calculating the difference between the piston pin hole diameter and the piston pin outside diameter.
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Limit
Piston pin and piston pin
hole clearance 0.005 ∼ 0.018 mm
If an inside dial indicator is not
available, use the following procedure to check the piston pin fit. (1) Heat piston to approximately
60°C with the piston heater. (2) Push strongly against the
piston pin with your thumb. The piston pin fitting should feel tight.
3.2.13. Maintenance of cylinder block, cylinder liner and piston
To maintain the engine in optimum condition and retain maximum performance for a long time, the cylinder block, cylinder liner and piston which have the same grade marking number (the same size tolerance) should be assembled. The marking number (the part’s grade) and marking position is as follows.
Cylinder block a) Marking number ; 1 or 2
(Size grade for of cylinder bore diameter)
b) Marking position ; Top of the cylinder block side surface
Cylinder liner a) Marking number; 1A, 1B, 2A or 2B
b) Marking position ; Cylinder liner
lower surface
Marking
Can used the piston A grade
Can used the cylinder block 1 grade
1A
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Piston
a) Marking number ; A or B (Size grade for piston outer diameter)
b) Marking position ; Center of the piston upper surface
Assembly process of cylinder block, cylinder liner and piston (1) Check the marking number (1 or 2) of cylinder block. (Top of side surface) (2) Then assemble the liner whose first digit of the marking (1A, 1B, 2A, 2B) is just
the same with it on the cylinder block. (3) Assemble the piston whose marking is just same with the second digit (A or B)
of the assembled cylinder liner’s marking.
3.2.14. Connecting rod 1) Connecting rod alignment
Measure the parallelism between the connecting rod big end hole and small end hole with a connecting rod aligner.
Replace the connecting rod if the measured value exceeds the specified limit.
Standard Limit
Connecting rod
parallelism 0.05mm or less 0.20 mm
2) Piston pin and bush clearance
Measure an inside of connecting rod bushing and outside of piston pin with the caliper gauge and micrometer. Replace a connecting rod bush or
piston pin if the measured value exceeds the specified.
Standard Limit
Piston pin and
bushing clearance 0.012 ∼ 0.030mm 0.05 mm
3) Connecting rod bush replacement
Connecting rod bush removal 1) Clamp the connecting rod in a vise. 2) Pull out connecting rod bush by using a brass bar with a bench press or a
hammer.
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Connecting rod bush assembly
(1) Use special jig to assemble the connecting rod bush.
IMPORTANT: Align the connecting rod bush oil hole with the connecting rod oil hole.
(2) Use a piston pin hole grinder① fitted with a reamer② or an adjustable pilot reamer to ream the piston pin hole.
Standard
Connecting rod bushinside diameter
Ø35.017 ∼ Ø35.030 mm
4) Connecting rod bearing Inspection
Fit the connecting bearing lower half into the connecting rod bearing cap.
Check the tension of the connecting rod bearing lower half. If the tension is insufficient, the bearing must be replaced.
Tighten the connecting rod and the bearing cap to the specified torque.
A type B type
Connecting rod
bolt torque 12 0±0.25kg.m 9.75±0.25kg.m
A type : B type : or
TY 11
TY12
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Measure the inside diameter of
the connecting rod bearing with an inside dial gauge.
Standard Connecting rod bearing diameter
Ø63.974 ∼ Ø64.005 mm
3.2.15. Crankshaft 1) Crankshaft and bearing inspection
Check the crankshaft journal surfaces and pin surfaces for excessive wear and damage.
Check oil seal fitting surfaces of the crankshaft front and rear ends for excessive wear and damage.
Replace or repair the crankshaft if any excessive wear or damage is discovered.
Check the crankshaft oil ports for obstructions. Clean oil port with high pressure air if necessary.
2) Crankshaft journal and pin diameter Measure the crankshaft journal
outside diameter with the micrometer across ①-① and ②-②.
Measure crankshaft journal outside diameter at two points ③ and ④ by using the micrometer.
Repeat step 1 and 2 to measure the crankshaft outside diameter. The crankshaft must be reground if the measured value of the crank pin outside diameter and/or crankshaft journal diameter exceeds the specified limit.
Standard
Crankshaft journal outside diameter
Ø79.905 ∼ Ø79.925mm
Standard
Crankshaft pin outside diameter
Ø63.924 ∼ Ø63.944 mm
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Measure the crankshaft journal outside diameter (and/or crankshaft pin outside
diameter) and bearing inside diameter to determine the bearing clearance.
3) Crankshaft journal and bearing clearance If the bearing clearance exceeds the specified limit, the crankshaft must be
reground and/or the bearing must be replaced.
Standard LimitMain bearing
clearance 0.025 ∼ 0.090 mm 0.11 mm
Standard Limit
Rod bearing
clearance 0.03 ∼ 0.073 mm 0.10 mm
4) Crankshaft bearing diameter
Install the main bearing cap with bearings to the cylinder block with the specified torque and facing the arrow mark on the bearing cap toward front. Place them in order of punched cylinder numbers.
Measure the main bearing diameter with an inside dial gauge.
Main bearing cap torque
24.1±1kg.m
Main bearing diameter Ø80 mm
5) Crankshaft run-out
Mount the crankshaft on a set of V-blocks.
Set the dial gauge to the center of the crankshaft journal.
Gently rotate the crankshaft in the normal direction of engine rotation.
Read the dial indicator (TIR) as you turn the crankshaft.
The crankshaft must be replaced if the measured value exceeds
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the specified limit.
Standard Limit
Crankshaft run-out 0.05 mm 0.40 mm
If the repaired crankshaft
generated a crack, replace it.
6) Main bearing and con-rod bearing tension Check to see if the bearing has
enough tension, and set bearing into its regular position with the finger pressure.
7) Crankshaft regrinding Pay close attention to the
following steps in order to ensure the reground-crankshaft reliability.
Undersize bearing Availability
0.25 mm 0.50 mm
<Crankshaft regrinding procedure>
(1) Grind the crankshaft journal part and pin part.
(2) Fillet the crankshaft journal and crank pin radius to a minimum of R3.5±0.2. There must be no stepping around the fillet area.
(3) Finish the crankshaft journal, crank pin and oil hole corners to a smooth surface having a chamfer radius of 1mm.
Crankshaft Journal and crank pin roughness
0.4µ or less
(4) Measure the clearance between
crankshaft journal and crank pin. (5) Measure the crankshaft run-out.
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8) Crankshaft grinding limit
Classification Limit
Crank journal outside Diameter
∅79.419 mm
Crank pin outside Diameter
∅63.424mm
Undersize bearings (0.25 and 0.5 mm) are available to compensate for
excessive clearance between the crankshaft journal bearing and the crankshaft. Regrinding of the crankshaft to fit the undersize bearings is required.
Standard Limit
Main bearing clearance
0.039 ∼ 0.098 mm 0.11 mm
Standard Limit
Connecting rod bearing
0.03 ∼ 0.073 mm 0.10 mm
9) Crankshaft gear replacement
Visually inspect the crankshaft gear.
Replace the crankshaft gear as following steps if excessive wear or damage is discovered.
(1) Disassemble the crankshaft
gear by using the crankshaft remover.
(2) Replace new part. (3) Heat the crankshaft gear for at
least 10 minutes to 120oC (4) Use the crankshaft gear
installer to install the crankshaft gear.
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3.2.16. Flywheel and flywheel housing
1) Ring gear inspection Inspect the ring gear. If the ring gear teeth are broken
or excessively worn the ring gear must be replaced.
2) Ring gear replacement Strike around the edges of the
ring gear with a hammer and chisel to remove it.
3) Ring gear installation
Heat the ring gear evenly with a gas burner to invite thermal expansion. Pay attention that temperature of ring gear is not exceeded 200°C.
Use a hammer to install the ring gear when it is sufficiently heated.
4) Oil seal replacement (rear)
Use a pry bar to remove the flywheel housing oil seal.
Assemble the oil seal to flywheel housing by using the oil seal assemble jig.
5) Oil seal replacement (front)
Use an adapter and a hammer to remove the crankshaft front end oil seal.
Assemble the oil seal to flywheel housing by using the oil seal assemble jig.
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3.3. Engine Reassembly
3.3.1. Piston and connecting rod assembly
▲1. Piston ▲4. Piston ring ▲2. Piston Pin and connecting rod ▲5. Connecting rod bearing ▲3. Snap ring 6. Connecting rod bolt
1) Piston Use a piston heater to heat piston
to approximately 60°C.
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2A) Connecting rod
Install the piston and connecting rod with setting the marks as illustrated.
Assemble the piston pin into the piston and connecting rod bushing.
3) Snap ring
Assemble the snap rings by using snap ring flyer.
Check that the piston moves smoothly on the piston pin.
4) Piston ring
Assemble the piston ring by using piston ring assembly jig.
Systematically assemble piston rings as follows: (1) Oil ring (2) 2nd compression ring (3) 1st compression ring Rightly assemble the 1st and 2nd compression rings that the marked side must be facing ”up”. Oil ring may be assembled any way because it is not indicated.
Lubricate the surface of piston ring with engine oil.
Check it whether piston rings are smoothly rotating in the piston ring grooves.
5) Connecting rod bearing
Assemble the connecting rod bearing to the big end and the cap. Lubricate the bearing with engine oil. Assemble the connecting rod and connecting rod bearing, and tighten cap bolt
as the specified torque.
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3.3.2. Cylinder head assembly parts
▲1. Valve stem oil seal 7. Thermostat housing and gasket ▲2. Intake and exhaust valve 8. Thermostat 3. Spring seat (lower) 9. Cooling water outlet ▲4. Intake and exhaust valve spring ▲10. Intake manifold and gasket ▲5. Spring seat (upper) ▲11. Exhaust manifold and gasket ▲6. Valve cotter
1) Valve stem oil seal Lubricate the oil seals and valve
stem sealing area with engine oil. Assemble the valve stem oil seal
by using oil seal installer.
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2) Intake and exhaust valves
Place the cylinder head on a flat wooden surface.
Lubricate valve stem with the engine oil.
Assemble the valves to the intake or exhaust valve guides.
4) Intake and exhaust valve springs Assemble the valve spring with
their painted end facing top.
5) Spring seat 6) Valve cotter
Use a spring compressor to push the valve spring into position.
Install the spring seat split collar.
Set the spring seat split collar by tapping lightly around the head of the collar with a rubber hammer.
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10) Intake manifold and gasket
Assembly the intake manifold gasket. The intake manifold gasket must be installed with its unchamfered corner facing “up” and to the front of the engine.
Assemble the intake manifold. Tighten the intake manifold bolts
to the specified torque a little at a time in the numerical order. (see figure)
Intake manifold bolt torque
2.2 kg.m
11) Exhaust manifold and gasket Install the exhaust manifold
gasket. The “TOP” mark must be facing
up.
Install the exhaust manifold Tighten the exhaust manifold
bolts to the specified torque a little at a time in the numerical order. (see figure)
Exhaust manifold bolt torque
2.2 kg.m
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3.3.3. Rocker arm and shaft assembly
▲1. Rocker arm shaft 2. Spring
3. Rocker arm 4. Bracket
1) Rocker arm shaft The rocker arm shaft must be
installed with the oil holes facing up.
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3.3.4. Main components
▲2. Crankshaft bearing (lower) ▲ 9. Idler gear shaft ▲3. Crank shaft ▲10. Idler gear ▲4. Thrust washer ▲11. Piston and connection rod ▲5. Crank shaft bearing (upper) and cap ▲12. Oil pump and coupling ▲6. Timing gear case ▲13. Flywheel housing 7. Tappet ▲14. Oil pan ▲8. Camshaft ▲15. Oil cooler
* The tappet must be installed before the camshaft installation.
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2) Crankshaft bearing (lower)
There is no oil hole and oil groove on the lower bearing. But opposite upper bearing has oil hole and oil groove.
3) Crankshaft Assemble the crankshaft gear in
front side. CAUTION: Make sure the part number of crankshaft because its counterweight size may be different depending upon engines.
4) Thrust washer Assemble thrust washer with the
oil groove side facing the crankshaft sliding face.
5) Crankshaft bearing cap Lubricate the bearing cap bolts
with engine oil. Assemble the bearing caps to
the crankshaft. The arrow mark must be pointing to the front of the engine.
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Tighten the bearing cap bolts to
the specified torque a little at a time in the numerical order. (see figure)
Crankshaft bearing cap bolt torque
24.0±1kg.m
Check that the crankshaft turns
smoothly by manually rotating it.
6) Timing gear case Tighten timing gear case bolt to
the specified torque.
Timing gear case bolt torque
2.2 kg.m
Apply silicon to the indicated
area. (see figure) 8) Camshaft
Tighten thrust plate bolt through the camshaft gear hole.
Thrust plate bolt torque
2.2 kg.m
Camshaft gear bolt torque
13 kg.m
9) Idler gear shaft Assemble an idler gear shaft by
using the thrust collar fixing bolt as a guide.
The oil hole must be facing the camshaft.
Lubricate the idle gear shaft with engine oil.
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10) Idler gear
Assemble the idle gear. Set the timing marks “A”, ”B”, and ”C” as shown in the figure.
Tighten the idle gear bolts seating the thrust collar to the specified torque.
The thrust collar must be installed with the chamfered side facing the front of the engine.
Idle gear bolt torque 4.4 kg m
11) Piston and connecting rod
Set the piston ring gaps as shown in the figure.
Lubricate the piston, the piston ring and the connecting rod bearings with engine oil.
Position the piston front mark towards the front of the engine.
Use the piston ring compressor to compress the piston rings.
Push the piston in until it makes contact with the crank pin by using a hammer grip. At the same time, rotate the crankshaft until the crank pin reaches its highest point.
Set the bearing cap cylinder
number marks and the connecting rod cylinder number marks.
Lubricate the connecting rod cap bolt threads and setting face with MoS2 grease.
Tighten the connecting rod cap bolts to
the specified torque. Refer to the following table.
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Torque 12±0.25kg.m 9.75±0.25kg.m
Bolt head
12) Oil pump assembled Lubricate the oil pump with the
specified engine oil. Install the oil pump with the
coupling. Tighten the oil pump bolts to the
specified torque.
Oil pump bolt torque 5.0 kg.m
13) Flywheel housing Apply silicon to the shaded area.
(see figure) Install the flywheel housing. Tighten the flywheel housing bolts to the specified torque.
M14 x 1.5 13 kg.m
M14 x 1.5 18 kg.m
14) Oil pan Apply liquid gasket to the area
indicated by the arrows in the figure.
Install the gasket and oil pan. Tighten the oil pan bolts to the
specified torque.
Oil pan bolt torque 2.2 kg m
TY 11 TY
12
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15) Oil cooler
Assemble the oil cooler with gasket after applying sealant to the oil cooler gasket.
Tighten the oil cooler bolts to the specified torque. in the numerical order (see figure)
Oil Cooler Torque 2.2 kg m
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3.3.5. Major component assembly
▲1. Flywheel 9. Oil pump driving pinion ▲2. Crankshaft pulley nut 10. Push rod ▲3. Tappet chamber cover 11. Taper bushing ▲4. Water pump 12. Crankshaft pulley and dust cover ▲5. Cylinder head gasket 13. Timing gear cover ▲6. Cylinder head bolt 14. Oil thrower ▲7. Cylinder head 15. Rubber hose ▲8. Rocker arm shaft Assembly
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1) Flywheel
Lubricate the flywheel bolt with engine oil.
Install the flywheel.
Tighten the flywheel bolts to the specified torque in the numerical order. (see figure)
Flywheel Bolt torque 18 kg.m
2) Injection pump
Align the injection pump gear "C" timing mark with the idler gear “C” timing mark.
Tighten the injection pump bolts to the specified torque.
Injection Pump Bolt Torque 2.2 kg.m
3) Crankshaft pulley nut Tighten the crankshaft pulley nut
to the specified torque by using a wrench.
Crankshaft pulley nut torque 60 kg.m
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3) Tappet chamber cover
Apply silicon to the tappet chamber cover gasket.
Assemble the tappet chamber cover and tighten the bolts to the specified torque.
Tappet chamber cover bolt torque
2.2 kg.m
4) Water pump Apply silicon to the pump gasket
before installing the water pump.
5) Cylinder head gasket The gasket “TOP" mark should
be faced up and "FRONT" mark is towards the front of the engine.
6) Cylinder head bolts 7) Cylinder head
Carefully place the cylinder head on the cylinder block.
Tighten the cylinder head bolts to the specified steps and torque in the numerical order as figure and following table.
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Bolt type Torque
hexagonal bolt 1st step : 7.0kg.m
2nd step: 11.5+0.5kg.m
Dodecagonal bolt
1st step : 4.4 kg.m
2nd step : 90°
3rd step : 90°
<12-gonal bolt limited value>
Standard(mm) Limit(mm) 115 116.2 102 103.2
Apply engine oil to the cylinder
head bolts threads and setting faces.
8) Rocker arm shaft assembly
Tighten the rocker arm bolts to the specified torque a little at a time in the numerical order. (see figure)
Rocker arm shaft bracket bolt
torque 3.1 kg m
Lubricate the rocker arm and the rocker arm shaft with engine oil.
Adjust valve clearance.
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3.3.6. External parts
1 Flywheel housing 10 Oil pan 20 Water outlet
2 Lifting hook 11 Oil drain plug 21 Air pipe 3 Oil filler cap 12 Fuel injection pump (turbocharger to intercooler) 4 Fuel filter 13 Fuel feed pump 22 Turbo charger 5 Intake manifold 14 Priming pump 23 Exhaust manifold 6 Air pipe 15 Cooling water pump 24 Crank shaft pulley (intercooler to manifold) 16 Air heater 25 Starter
7 Breather 17 Thermostat housing 26 Push rod chamber cover 8 Cooling fan 18 Water pump pulley 27 Oil level gauge 9 Oil filter 19 Alternator 28 Fuel injection nozzle
1
22
2
1
3 4 5 6 7 17 18
8
1915
9 10 11 12 13 14
27 28 2321 20
24 25 26
16
22
▲
▲▲
▲
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1) Cylinder head cover
Tighten the cylinder head cover bolts to the specified torque a little at a time in the sequence. (see figure)
Cylinder head cover bolt torque 2.2 kg m
Fan belt Adjust the fan belt tension.
2) Starter Tighten the starter bolts to the
specified torque after install the starter to the flywheel housing.
Starter fixing nuts torque 2.2 kg m
3) Injection nozzle Install the injection nozzle with
the injection nozzle gaskets.
Injection nozzle nuts torque 2.2 kg.m
Be careful not to damage the
nozzle tips.
4) Fuel injection pipe Install the fuel injection pipes①
and tighten the bolts to the specified torque.
Injection pipe torque 3.0 kg.m
Carefully position and set the
Seal ring Injection nozzle
O-ring
Spring washerHex nut
1
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clips②. It is very important that each clip be positioned correctly. An improperly positioned clip will result in objectionable fuel pulsing noise and injection pipe breakage.
Install the fuel return pipes③.
5) Oil filter Install the oil filter assembly with
tightening the bolts securely.
Oil filter assembly mounting bolts torque
5.0 kg.m
6) Fuel pipe Install the fuel pipe and tighten the fuel
pipe joint bolts to the specified torque. Take care not to interchange the check valves and joint bolts.
Fuel pipe joint bolt
torque 1.7 kg.m
7) Fuel hose
Install the fuel filter hoses and tighten the hollow screws to the specified torque
Fuel filter hose bolt
torque 4.2 kg.m
Head, oil filter
Cartridge, Oil filter
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8) Intake pipe
Install the intake pipe and tighten the intake pipe flange bolts to the specified torque.
Intake pipe flange bolt
torque 2.2 kg m
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3.4. Electrical Equipments 3.4.1. Wiring circuit
a) Glow plug system (type - 1)
b) Glow plug system (type - 2)
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c) Air heater system (type - 3)
3.4.2. Starting of winter
Operation 1 : Turn the key switch to the HEAT position, then the pilot lamp lights
up for about 20 seconds When the pilot lamp is extinguished, do operation 2
Behavior - When the coolant temperature is below 10 °C in cold weather, you’d better operate the pre-heating system (Air heater)
- If the pre-heating is not necessary, the pre-heating system is not operated with the pilot lamp.
Operation 2 : After checking the pilot lamp, turn the key switch to the START position to crank the engine, at once.
Behavior - When the key switch is placed in the START position, air heater is continuously heated to facilitate starting operation and to reduce white smoke during 30 seconds automatically.
- If the coolant temperature is above 15 °C, air eater needs not be heated.
Operation 3 : After the engine is cranked, convert the key switch to the ON position. Behavior - As the engine is cranked, air heater is heated for 30 seconds (after-
heating) to reduce and to element quickly white smoke.
CAUTION : 1. Preheating devices are attached to the engine for improving the
starting abilities at extremely low temperature. 2. Do not actuate the starter for longer than 10 seconds. If starting fails
regardless of the preheating, start the preheating again after 30 seconds.
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3.4.3. Alternator
The alternator is fitted with integral silicon rectifiers. A transistorized regulator mounted on the alternator body interior limits the alternator voltage. The alternator should not be operated except with the regulator and battery connected in circuit to avoid damage to the rectifier and regulator. a) 24V x 45A Alternator
The alternator is maintenance-free, nevertheless, it must be protected against dust and, above all, against moisture and water.
24V × 45A
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NOTE: Operate the alternator according to the instructions given in the chapter.
1 Hex nut 13 Frame 2 Pulley 14 Bushing 3 Fan 15 Needle bearing 4 Collar 16 Rectipier 5 Bearing ass`y 17 Screw 6 Rotor ass`y 18 Regulator 7 Stator ass`y 19 Brush set ass`y 8 Cover 20 Brush holder 9 Pin 21 Spring
10 Stud bolt 22 Brush 11 Insulator 23 Brush 12 Bolt 24 Baffle
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b) 24V x 60A Alternator
Wiring Diagram
24V × 60A
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3.4.4. Starting motor The sliding-gear starter motor is flanged to the rear of the flywheel housing on the left-hand side. As parts of every engine overhaul, the starter pinion and ring gear should be cleaned with a brush dipped in fuel and then a coat of grease should be applied again.
Always protect starter motor against moisture.
WARNING: Always disconnect the battery earth cable before starting work on the electrical system. Connect up the earth cable last, as there is otherwise a risk of short-circuits.
24Vx4.5kW
“30” Terminal(M10x1.5)
“50” Terminal (M5x0.8)
Wiring Diagram
3050
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1. Yoke assembly 14. Coil spring
2. Bush holder assembly 15. Pinion starter
3. End frame 16. Pinion stop nut
4. Through bolt 17. Snap ring
5. Armature assembly 18. Snap ring
6. snap retainer 19. Snap retainer
7. Idle gear 20. Coil spring
8. Clutch roller 21. Housing
9. Retainer 22. Terminal cap
10. Coil spring 23. Screw 11. Steel ball 24. Cover 12. Clutch assembly 25. Through bolt 13. Clutch shaft 26. Magnet switch assembly
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4. Commissioning and Operation 4.1. Preparation
At the time of initial commissioning of a new or overhauled engine make sure to have observed the "Technical Information for the installation DAEWOO generator engines".
Oil filler neck on cylinder head cover
Before daily starting of the engine, check the fuel, coolant and oil level, replenish if necessary. The notches in the dipstick indicate the highest and lowest permissible oil levels. The oil required in the sump is specified in the "Engine Specification”.
NOTE The oil required to fill the oil fillers and pipes depends upon the engine and use and must be determined individually at the time of initial commissioning. (Make the Max and Min. marks of the determined quantity on the oil level gauge.)
Cleanliness
Ensure outmost cleanliness when handling fuels, lubricants and coolants 4.1.1. Starting
For engine starting, please confer the instruction.
NOTE: 1. Preheating devices are attached to the engine for improving the starting
abilities at extremely low temperature. 2. Do not actuate the starter for longer than 10 seconds. If starting fails
regardless of the preheating, start the preheating again after 30 seconds.
a) Pre-heating system Operation 1: Turn the key switch to the HEAT position, then the pilot lamp lights up
for about 20 seconds When the pilot lamp is extinguished, do operation 2
Behavior - When the coolant temperature is below 10 °C in cold weather, you’d better operate the pre-heating system (Glow plug)
- If the pre-heating is not necessary, the pre-heating system is not operated with the pilot lamp.
Operation 2: After checking the pilot lamp, turn the key switch to the START position to crank the engine, at once.
Behavior - When the key switch is placed in the START position, glow plug is continuously heated to facilitate starting operation
- If the coolant temperature is above 10 °C, glow plug needs not be heated. Operation 3: After the engine is cranked, convert the key switch to the ON position.
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b) Audible Alarm The generator gauge panel for DB58 series engine is equipped with an audible alarm to alert the operator to the following:
* Low engine oil pressure * Engine coolant overheat
The alarm horn will sound when the ignition is turned on and continue to sound until the engine is started and minimum oil pressure is obtained. This provides a functional test of warning system. Should engine coolant overheat occur, the alarm horn will sound and the engine is stopped by stop solenoid at the same time automatically. Proceed as follows:
First, quickly observe the coolant temperature gauge for engine coolant overheat and/or needle oscillation indicating low coolant. If the temperature gauge indicates engine coolant overheat, throttle back to idle speed IMMEDIATELY and cut off the main circuit breaker of the generator control panel. Do not restart engine until cause for the alarm has been found and corrected. Refer to "Diagnosis and remedy" in Trouble Shooting Chart. If the coolant temperature gauge indicates low coolant, add some amount of required coolant to fill radiator. If cause for the alarm cannot be found, contact your DAEWOO dealer.
4.2. Starting and operation 4.2.1. Operation of a new engine (Break-In)
Because the sliding surfaces of a new engine are not lapped enough, the oil film can be destroyed easily by overload or overspeed and the engine life-time may be shortened. Therefore the following things must be obeyed by all means.
Up to the first 150 hours (2,000km)
Engine should be run at fast idling until the temperature of the engine becomes normal operating condition.
Overload or continuous high speed operation should be avoided. High speed operation with no load should be prevented. Abrupt start and stop of the engine should be avoided. Engine speed must be under 70% of its maximum speed. Maintenance and inspection must be accomplished thoroughly.
4.2.2. Check points for break-in
During the break-in (the initial running of the engine) period, be particularly observant as follows: a) Check engine oil level frequently. Maintain oil level in the safe range, between the
"min." and “max." marks on dipstick.
Note: If you have a problem getting a good oil level reading on dipstick, rotate dipstick 180° and re-insert for check.
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When adding engine oil, refer to Lubrication Section.
b) Watch the oil pressure warning lamp. If the lamp blinks, it may be the oil pick-up
screen is not covered with oil. Check oil dipstick. Add oil to the oil pan, if required. Do not overfill. If level is correct and the status still exists, see your DEALER for possible switch or oil pump and line malfunction.
Note: Oil pressure will rise as RPM increases, and fall as RPM decreases. In addition, cold oil will generally show higher oil pressure for any specific RPM than hot oil. Both of these conditions reflect normal engine operation.
c) Watch the engine water temperature gauge and be sure there is proper water
circulation. The water temperature gauge needle will fluctuate if water level in expansion tank is too low. At the end of the break-in period, remove break-in oil and replace the oil filter element. Fill oil pan with recommended engine oil. Refer to Lubricating System.
Engine oil should be changed at the specified intervals.
Oil filter cartridge should be changed simultaneously. - First oil change : 50 hr operating
First oil change After 50hr operation
DB58 DB58T DB58TI
every 200 Hour Construction equipments
DB58S DB58TIS every 250 Hour
The following oils are also recommended
Recommend oil Engine model
SAE No. API No.
DB58 DB58T DB58TI
SAE 15W40 above CD or CE
DB58S DB58TIS
SAE15W40 SAE10W40
ACEA-E2 or ACEA-E3 (API CH-4)
* If long oil change intervals are to be used, ACEA-E3 oil must be used.
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4.3. Inspections after starting It is advisable to operate an engine at idling until the engine reaches up to normal
operating temperature. Engine should be stopped if the color, the noise or the odor of exhaust gas is not
normal. Confirm the following things through warning lamps and gauge panel.
- Pressure of lubricating oil The normal pressure comes up to 100 kPa (1.0 bar) at idling and 300 ~ 480 kPa (3.0 ~ 4.8 bar) at maximum speed. If the pressure fluctuates at idling or does not reach up to the expected level at high speed, shut down the engine immediately and check the oil level and the leakage.
- Temperature of cooling water The cooling water temperature should be 80 ~ 95 °C in normal operating conditions. Abnormally high cooling water temperature could cause the overheating of engine and the sticking of cylinder components. And excessively low cooling water temperature increases the fuel consumption, accelerates the wears of cylinder liners and shortens the engine life-time.
NOTE: When engine is overheated, do not stop the engine immediately. Lower the engine load and run the engine and its cooling systems continuously.
4.4. Operation in winter time
Pay special attention to the freezing of cooling water and the viscosity of lubricating oil. 4.4.1. Prevention against the freeze of cooling water
When not using anti-freeze, completely discharge the whole cooling water after engine running. The freeze of cooling water causes the fatal damages of the engine. Because the anti-freeze is used to prevent cooling water from freeze, consult "The amount of anti-freeze".
4.4.2. Prevention against excessive cooling
Drop of thermal efficiency caused by excessive cooling increases fuel consumption, therefore prevent the engine from excessive cooling. If the temperature of coolant does not reach to normal condition (80 ~ 95 °C) after continuous operation, examine the thermostat or the other cooling lines.
4.4.3. Lubricating oil
As cold weather leads to the rise of oil viscosity, engine speed becomes unstable after starting. Therefore the lubricating oil for winter should be used to prevent this unstability. Refer to Lubrication System section.
Cooling water drain valve
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4.4.4. Starting of engine in winter
It is necessary to preheat engine satisfactorily under 10 °C (50 °F) in winter. Refer to Starting.
4.4.5. Tuning the engine The purpose of an engine tune-up is to restore power and performance that's been lost through wear, corrosion or deterioration of one or more parts or components. In the normal operation of an engine, these changes can take place gradually at a number of points, so that it's seldom advisable to attempt an improvement in performance by correction of one or two items only. Time will be saved and more lasting results will be obtained by following a definite and thorough procedure of analysis and correction of all items affecting power and performance. Economical, trouble-free operation can better be ensured if a complete tune-up is performed once every years, preferably in the spring. Components that affect power and performance to be checked are:
Components affecting fuel injection ;
Nozzle, delivery valve, fuel filter, water separator, etc. Components affecting Intake & exhaust ;
Air filter, inter-cooler, turbo, silencer, etc. Components affecting lubrication & cooling ;
Air & oil filter, anti- freeze, etc.
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4.5. Maintenance and care 4.5.1. Periodical inspection and maintenance
In order to insure maximum, trouble-free engine performance at all times, regular inspection, adjustment and maintenance are vital.
Daily inspections in below figure should be checked every day. The maintenance should be executed thoroughly at regular internals.
(refer to appendix “General Engine Inspection Cycle”.) 4.5.1. Exchanging of lubrication oil
Engine oil and the oil filter are important factors affecting engine life. They affect ease of starting, fuel economy, combustion chamber deposits and engine wear. Refill and drain oil pan every 200 hours of operation or 6 months whichever occurs first. At the end of the break-in period (50 hours), change the oil sump oil and replace the oil filter.
4.5.2. Oil level Check the oil level in the engine sump daily with a dipstick.
The notches in dipstick must indicate the oil level between the max. and the min. permissible.
The oil level should be checked with the engine horizontal and only after it has been shut down for about 5 minutes.
Examining the viscosity and the contamination of the oil smeared at the dipstick replace the engine oil if necessary.
IMPORTANT: Do not add so much engine oil that the oil level rises above the max. marking on the dipstick. Over lifting will result in damage to the engine.
4.5.3. Oil exchange procedure
While the oil is still hot, exchange oil as follows: Take out the oil dip dipstick. Remove the drain valve from oil
pan, then drain out the engine oil into a container.
Oil drain valve
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Refill with new engine oil at the oil
filler neck on the head cover and the lubricating oil in accordance with the oil capacity of the engine through oil filler. Be careful about the mixing of dust or contaminator during the supplement of oil. Then confirm that oil level gauge indicates the vicinity of its maximum level.
For a few minutes, operate the engine at idling in order to circulate oil through lubrication system.
Thereafter shut down the engine. After waiting for about 10 minutes measure the quantity of oil and refill the additional oil if necessary.
4.5.4. Replacement of oil filter cartridge
At the same times of oil exchanges, replace the oil filter cartridge.
IMPORTANT: Don't forget tightening the drain valve after having drained engine oil.
Loosen the oil filter by turning it
counter-clockwise with a filter wrench.
With a rag wipe clean the fitting face of the filter body and the oil filter body so that new oil filter cartridge can be seated properly.
Lightly oil the O-ring and turn the oil filter until sealing face is fitted against the O-ring. Turn 1-1/4 turns further with the filter wrench.
IMPORTANT: It is strongly advisable to use DAEWOO genuine oil filter cartridge for replacement.
Cylinder head cover
Oil filler cap
Head, oil filter
Cartridge, Oil filter
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4.6. Cooling system
The coolant must be changed at intervals of 1,200 hours operation or six months whichever comes first. If the coolant is being fouled greatly, it will lead an engine overheat or coolant blow off from the expansion tank.
4.6.1. Coolant draining
Remove the pressure cap. Open the drain valve at the
radiator lower part to drain the coolant as the right figure.
Loosen the coolant drain plug of the cylinder block and oil cooler.
CAUTION: When removing the pressure filler cap while the engine is still hot, cover the cap with a rag, then turn it slowly to release the internal steam pressure This will prevent a person from scalding with hot steam spouted out from the filler port.
4.6.2. Cleaning of the cooling inside system circuit
(by authorized specialist personnel) When the cooling system circuit are fouled with water scales or sludge particles, the cooling efficiency will be lowered. Investigations have shown that in many cases the poor condition of the coolant and /or the cooling system accounts for damage to the water pump mechanical seal, The poor condition of the cooling system is normally due to use of unsuitable or no anti-freezing
Cooling water drain valve
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agents and corrosion inhibitor or defect, not early enough replaced covers for filler neck and working valves. If twice in a short time the water pump of an engine develops leases or the coolant is heavily contaminated (dull, brown, mechanically contaminated, grey or black sings of a leakage on the water pump casing) clean the cooling system prior to removing that water pump as follows.
a) Drain coolant. b) Remove thermostats, so that the whole cooling system is immediately flown
through when cleaned. c) Fill the cooling system with a mixture of potable water and 1.5% by volume of
cleaner. (Henkel P3T5175) d) Warm up engine under load. After a temperature of 60°C is reached, run engine
for a further 15 minutes. e) Drain cleaning fluid. f) Repeat steps c) and d). g) Flush cooling system. h) Replace drain plug by drain plug with a bore of 8mm diameter. i) Fill cooling system with hot water. j) Run engine at idle for 30 minutes. At the same time continuously replenish the
water leaking from the bore in drain plug by adding fresh water.
CAUTION: Periodically clean the circuit interior with a cleaner.
4.7. Valve clearance and adjustment
NOTE: The cylinder head bolts were previously tightened with the torque wrench. Therefore it is not necessary to retighten the cylinder head bolts before adjusting the valve clearance.
Rocker arm screw
lock nut torque 2.6 kg.m
After letting the #1 cylinder's piston come at the compression top dead center by turning the crankshaft, adjust the valve clearances. Loosen the lock nuts of rocker arm adjusting screws and push the feeler gauge of specified value
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between a rocker arm and a valve stem and adjust the clearance with adjusting screw respectively and then tighten with the lock nut. As for the valve clearance, adjust it when in cold, as follows.
Model Intake Valve Exhaust Valve
DB58 DB58S DB58T DB58TI DB58TIS
0.4 mm 0.4 mm
1) Rotate the crankshaft to overlap the intake and the exhaust valves of #6, then
#1 cylinder become the compression state of top dead center. 2) Therefore adjust the valve clearance corresponding to “ ” of lower
figure. At this time there are no force on the push rods of #1 cylinder. 3) Rotating the crankshaft by one revolution, #6 cylinder become the compression
state of top dead center. 4) Thereafter adjust the valve clearances corresponding to “ ” of lower
figure. 5) After reinsuring the valve clearances, retighten if necessary.
No. 1 cylinder is located at the side where flywheel was installed.
Cooling fan Cylinder no. Exhaust valve Intake valve Fly wheel
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4.8. Injection timing
CAUTION: Take care to avoid entry of dust or foreign particles into the pump interior when the timing adjustment is made.
<Check procedure> Align the crankshaft pulley TDC mark with the pointer.
Remove the inspection hole cover at the front of the injection pump on the timing gear case cover.
Check the alignment between the
pointer④ on the injection pump gear nut lock plate and the projection area mark③ on the injection pump gear case.
If it is in misalignment, recheck with turning the crankshaft pulley one more turn to repeat the foregoing procedure to mark sure that it is in alignment.
Check the alignment of the notched lines① and ②. (These notched lines were aligned at the factory to set the injection pump body and the mounting flange.) Next, inspect the crank angle position of the injection timing.
<Check procedure> Turn the crankshaft pulley counterclockwise about 30° crank angle.
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Disconnect the injection pipe from the No.1 plunger. This will allow you to visually check the full injection starting flow at No. 1 plunger.
Remove the delivery valve holder①, the valve seat②, valve spring③, and the delivery valve④ from the No.1 plunger.
Assemble the delivery holder① and tighten it to the specified torque. Do not reassemble the delivery valve, the delivery valve spring and the valve seat. These parts will be reassembled later.
Hold the fuel control lever at the fully open position.
Slowly turn the crankshaft pulley clockwise, at the same time, continue to feed the fuel with pumping the priming pump. When the fuel stop to flow out from the No.1 delivery valve holder, stop the pump instantaneously. This crank angle position is the injection starting of the engine.
Observe and make sure that mark (injection starting angle line αo) on the crankshaft pulley is aligning with the pointer. Blow out the remaining fuel from the delivery valve holder. Make sure that there is no fuel being delivered from the priming pump.
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Fuel injection timing angle
DB58/S DB58T DB58TI DB58TIS
Fuel injection timing (BTDC) α° α° α° α°
- Refer to the 1. 2. Engine power
Remove the delivery valve holder from the No.1 plunger
Reassemble the delivery valve internal parts to the delivery valve holder.
Reassemble the delivery valve holder assembly to the No.1 plunger and tighten it to the specified toque.
Delivery valve holder torque 4.25 kg m
Assemble the No.1 cylinder injection pipe and tighten it to the specified torque.
Injection pipe nut torque 3.1 kg m
INPORTANT: 1) Do not overtighten the injection pump body. The injection pump body is
made of aluminum. 2) Overtighten will distort the injection pump body shape and adversely affect
control rack operation.
<Adjusting procedure> Align the pointer and the specified timing mark on the crank pulley. Perform the steps of “checking procedure” of Injection Timing. Loosen the 4 injection pump fixing nuts.
Timing adjustment
To advance the timing Pivot the injection pump at the pump drive shaft toward out. To retard the timing Pivot the injection pump at the pump drive shaft toward in. (toward the cylinder block)
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IMPORTANT: The 1 mm misalignment between the two setting mark lines corresponds to about 2o in crank angle.
Do a fine injection pump position adjustment, while continue the pumping operation to feed the fuel, and stop to pivot the injection pump when the fuel stop to flow out from the No. 1 delivery valve holder.
Tighten the four injection pump fixing nuts. Once remove the No. 1 delivery valve holder, and reassemble the delivery valve, spring and the valve holder with the specified torque.
Install the No.1 injection pipe and tighten it to the specified torque. 4.9. Tightening the cylinder head bolts
The cylinders head bolts are to be tightened in the sequence shown in the illustrations. First tighten the bolts slightly, then slightly more again and finally tighten with a torque wrench as follows.
The tightening by excessive torque may cause the damages of the cylinder head gaskets, the flanges of cylinder liners and the cylinder head bolts, therefore obey the regular torque.
Bolt type Torque
hexagonal bolt 1st step : 7.0kg.m 2nd step: 11.5+0.5kg.m
dodecagonal bolt
1st step : 4.4kg.m 2nd step : 90° 3rd step : 90°
<Dodecagonal bolt limited value>
Standard(mm) Limit(mm) 115 116.2 102 103.2
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4.10. Fuel injection pump
Check the housing crack, damage etc. and replace it if abnormal.
Check if the idle operation and speed regulating lever's sealing is removed.
The adjustment and testing of fuel injection pump should necessarily be done at the test bench.
4.11. Feed pump strainer
Release joint bolt A. Remove the strainer with a
screwdriver and wash the strainer with clean diesel fuel.
4.12. Separator (Add if necessary) Check water level of the separator. Release the plug at the bottom to eliminate water when water level (floating) reaches the warning point.
Elimination plug torque 1.2 kg.m
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4.13. Air bleeding
Loosen the priming pump cap(1) on the Injection pump.
Loosen the hollow screw for air bleed(2).
Operate the priming pump until there are no more bubbles visible in the fuel being discharged from the fuel filter fuel return eye bolt.
Retighten the hollow screw. Operate the priming pump several times and check for fuel leakage around the injection pump and the fuel filter.
4.14. Belts
The tension of the belts should be checked after every 2,000 hours of operation. 1) Change the belts if necessary
If in the case of a multiple belt drive, wear or differing tensions are found, always replace the complete set of belts.
2) Checking condition Check belts for cracks, oil, overheating and wear.
3) Testing by hand
V-belt By the finger-pressure the belt is pressed by 10-15mm between the pulleys in normal condition.(Pressed mid-way between the belt pulleys) A more precise check of the V-belt tension is possible only by using a V-belt tension tester.
Poly belt
Poly belt will be properly tensioned if the deflection force “F” is applied mid-way between the belt’s tangent points with the pulley.
T = 0.015 x S(about 1.5mm per 100mm) T = 0.015 x *S (mm) (T : Deflection , S : Span)
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*
C : Distance of pulleys (mm), D : Large pulley diameter (mm), d : Small pulley diameter (mm)
4) Measuring tension
① Lower indicator arm (1) into the scale.
Apply tester to belt at a point midway between two pulleys so that edge of contact surface (2) is flush with the V- belt.
Slowly depress pad (3) until the spring can be heard to disengage. This will cause the indicator to move upwards. If pressure is maintained after the spring has disengaged a false reading will be obtained! ② Reading of tension
Read of the tensioning force of the belt at the point where the top surface of the indicator arm (1) intersects with the scale.
Before taking readings make ensure that the indicator arm remains in its position.
V-belt tension Tensioning forces on the tester
new installation Type Drive belt width
InstallationAfter 10 min.running time
When servicing afterlong running time
M 9.5 mm 50 kg 45 kg 40 kg A 11.8 mm 55 kg 50 kg 45 kg B 15.5 mm 75 kg 70 kg 60 kg C 20.2 mm 75 kg 70 kg 60 kg
2)( 2
2 dDCS −−= (mm)
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Poly belt tension
No of rib (PK type) Force(kgf)
3 20 - 27 4 27 - 36 5 34 – 45 6 41 – 57 7 48 – 66 8 59 - 73
5) Tensioning and changing belts
Loosen fixing bolts and nuts. Adjust the alternator until belts
have correct tensions. Retighten fixing bolts and nuts.
To change the belts loosen fixing
bolts and nuts. Then push the alternator toward water pump pulley by hand.
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5. Maintenance of Major Components 5.1. Lubrication system 5.1.1. Oil pump
1) Disassembly
1. Oil suction pipe 4. Pinion Gear
2. Cover and dowel 5. Pinion gear shaft 3. Drive shaft and gear
5
4
3
1
2
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2) Inspection Visually inspect the disassembled
parts for the excessive wear and damage.
Correct or replace the parts if the wear or damage is discovered during inspection.
3) Oil Pump Drive Gear
Use a feeler gauge to measure the clearance between the oil pump cover (oil pump case) inside surface and the drive gear.
If the clearance exceeds the specified limit, the drive gear and/or the oil pump cover must be replaced.
Limit
0il pump cover and drive gear clearance
0.18 mm
4) Oil pump pinion gear
Use a feeler gauge to measure the clearance between the oil pump case cover inside surface and the pinion gear.
If the clearance exceeds the
specified limit, the pinion gear and/or the oil pump cover must be replaced.
Limit
0il pump cover and pinion gear clearance
0.12 mm
5) Oil pump reassembly
To assemble, follow the disassembly procedures in reverse order.
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5.1.2. Oil cooler 1) Disassembly
1. Oil cooler element 4. O-ring 2. Gasket 5. By-pass valve spring 3. By-pass plug 6. By-pass valve
2) Inspection
Correct or replace the part if the wear or damage is discovered during inspection.
3) Oil cooler element
Install the oil cooler element to the oil cooler, then tighten the oil cooler element fixing bolts to the specified torque.
Oil cooler element fixing bolts torque
2.2 kg.m
4) Oil cooler reassembly To assemble, follow the disassembly procedures in reverse order.
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5.2. Cooling system 5.2.2. Water pump
1) Disassembly 1. Pulley flange ▲5. Impeller
▲2. Snap ring 6. Pump housing ▲3. Unit bearing 7. Cover
4. Mechanical seal 8. Gasket (1) Impeller
Remove the impeller by using the jig.
(2) Unit bearing
Remove the unit bearing by using a bench press and a suitable remover.
6
1
2
3
4
5
7
8
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(3) Mechanical seal
Remove the mechanical seal by using a suitable remover.
(4) Hub
Remove the hub by using a bench press and a suitable rod.
(5) Snap ring
Remove the snap ring by using a pair of the snap ring plier.
2) Inspection (1) Unit bearing
Correct or replace the part if the wear, defect or other damage is discovered during inspection.
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3) Water pump reassembly
(1) Unit bearing Lubricate the bearing with
multipurpose grease. Use a bench press to
assemble the unit bearing at the pump.
(2) Snap Ring
Use a pair of snap ring plier to install the snap ring.
(3) Hub
Use a bench press and a bar to install the hub.
(4) Mechanical seal
Apply sealant to the seal unit outer periphery before installation.
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Use a bench press and a bar
to install the seal unit into the pump body.
(5) Impeller
Use a bench press to install the impeller to the shaft.
Use a feeler gauge to measure the clearance between the impeller and the pump body.
Clearance
between impeller and pump body
0.3 ~ 0.8mm
(6) Pulley
Install the pulley and tighten the pulley bolts to the specified torque.
Pulley fixing bolts
torque 2.2 kg.m
5.2.2. Thermostat
Correct or replace thermostat if the wear, defect or other damage is discovered during inspection.
Valve Temperature Lift
Close 71°C 82°C
Standard 85°C 95°C 10mm
Maximum 110°C 110°C less 16mm
Fan flange
Pulley
Cooling fan
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5.3. Fuel system 5.3.1. Fuel filter
1) Cartridge type
2) Paper element type
1. Drain plug 5.Fuel filter element 2. Center bolt 6.Spring seat 3. Fuel filter body 7.spring 4. Body cover gasket
Water drain plug
Cartridge, fuel filter
Fuel filter head
Air vent plug
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3) Inspection
Make the necessary adjustments, repairs and part replacements if excessive wear or damage is discovered during inspection.
4) Fuel filter reassembly
To reassemble the fuel filter, follow the disassembly procedure in the reverse order.
5.3.2. Injection nozzle
1) Disassembly
1. Nozzle holder body 7. Push rod spring 2. Seal ring 8. Spring seat 3. Injection pipe connector 9. Nozzle adjusting screw ▲4. Injection nozzle 10.Cap nut gasket 5. Retaining nut 11. Nozzle holder cap nut 6. Nozzle holder push rod
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2) Injection nozzle
Remove the nozzle assembly from the nozzle body. Keep the parts separately to maintain the proper needle valve to body combination.
3) Inspection Make the necessary adjustments, repairs and parts replacements if excessive wear or damage is discovered during inspection.
(1) Push rod spring Check the push rod spring for
wear, weakness and corrosion. (2) Nozzle holder push rod
Check the nozzle holder push rod curvature.
Check the nozzle holder push rod and needle valve contact surface for excessive wear and poor contact.
(3) Injection nozzle
Check the injection nozzle needle valve, the valve seat, and the injection nozzle hole for carbon deposits. If carbon deposits are present, the injection nozzle and the needle valve must be replaced.
Hold the nozzle body vertically. Pull the needle valve about one-third of the way out of the nozzle body. Release the needle valve.
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Check that the needle valve falls back into the nozzle body as far as the valve seat. If the needle does not fall back into the nozzle body as far as the valve seat, the injection nozzle and the needle valve must be replaced.
3) Reassembly
(1) Injection pipe connector
Injection pipe connector torque
5.5 kg.m
(2) Injection nozzle
There must be no oil on the contact surface of the injection nozzle and the injection nozzle holder. Clean these contact surface with diesel fuel before installation.
The nozzle dowel pin must be aligned with the dowel hole in the nozzle holder body.
(3) Retaining nut
Clamp the injection nozzle in a vise.
Tighten the retaining nut to the specified torque by using a wrench.
Nozzle retaining nut
Torque 7 kg.m
(4) Nozzle holder cap nut
Clamp the injection nozzle in a vise.
Tighten the nozzle holder cap nut to the specified torque by using a wrench.
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Nozzle holder cap nut
torque 4.5 kg.m
(5) Nozzle adjusting screw (injection starting pressure check)
Attach the injection nozzle holder to the injection nozzle tester.
Loosen the adjustment screw①.
Check the injection nozzle starting pressure and the spray condition by operating the injection tester.
<spray condition check> Operate the injection nozzle tester hand lever 4 to 6 times while looking for abnormal injection nozzle spray conditions. (See figure) (1) Correct (Good) (2) Incorrect (Bad - orifice) (3) Incorrect (Bad - dripping)
Adjust the injection nozzle starting pressure.
Turn the adjusting screw clockwise while operating the injection nozzle tester handle.
CAUTION: Keep away your skin from the tester because pressure of nozzle tester is very high when inject.
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5.3.3. Parts no of injection system
1) Injection pump assembly
Engine model Part no. Suffix
DB58 65.11101-7380 EARDA/EAREA/B/EARFA/B/C/D/E/F/H/I/J EARLA/B/C
DB58S 65.11101-7399 ECRFA/B/C/ECRLA
65.11101-7655 EATEA/B/C/D/EATLA DB58T
65.11101-7375 EATEE/F/G/H/I/J/EATLB 65.11101-7327 EAOEA/D/E/F 65.11101-7374 EAOEB/C/G DB58TI 65.11101-7353 EAOLA/B 65.11101-7391 ECOEA/B 65.11101-7389A ECOEC/D/E/F/G 65.11101-7392 ECOLA
DB58TIS
65.11101-7390 ECOLB
2) Injection nozzle assembly
Engine model Part no. Suffix
DB58 DB58T 65.10101-7295
EARDA/EAREA/B EARFA/B/C/D/F/G/K/EARLA/B/C EATEA/B/C/D/E/F/G/H/I/J/EATLA/B
DB58 DB58S 65.10101-7086 EARFE/H/I/J
ECRFA/B/C/ECRLA
65.10101-7058 EAOEA/B/C/D/E/G/EAOLA/B DB58TI DB58TIS 65.10101-7092 EAOEF/ECOEA/B
DB58TIS 65.10101-7091 ECOEC/D/E/F/G/ECOLB
3) Injection pipe assembly
Engine model Part no. Suffix
DB58 DB58S 65.10301-6144
EARDA/EAREA/B EARFA/B/C/D/E/F/G/H/I/J/K EARLA/B/C/ECRFA/B/C/ECRLA
DB58T 65.10301-6289 EATEA/B/C/D/E/F/G/H/I/J/EATLA/B
DB58TI 65.10301-6072 EAOEA/B/C/D/E/F/G/EAOLA/B
DB58TIS 65.10301-6088 65.10301-6089 ECOEA/B/C/D/E/F/G/ECOLA/B
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5.3.4. Injection pump calibration
1) DB58 engine (1) Injection pump assembly : 65.11101-7380 (101605-996F DOOWON)
- Injection pump : KP-PES6A95C410RS2000 (101062-8300) - Governor : KP-EP/RSV200-1450AQ43A311 (105419-1340) - Plunger and barrel : 131151-3200, 131100-7900 - Delivery valve : 131160-1120 - Feed pump : KP-FP/KS-A (105220-6290) - Prestroke : 3.6±0.05mm - Coupling : 156639-9820
(2) Nozzle holder assembly : 65.10101-7295 (105160-4650 DOOWON) (3) Nozzle : 65.10102-6044 (105025-138A DOOWON) (4) Injection pipe : 65.10301-6144 (5) Injection order : 1 – 5 – 3 – 6 – 2 – 4
Nozzle & holder ass’y 105780-8140 Opening pressure :175kg/cm2
Injection pipe(IDxODxL) - φ2.0 x φ6.0 – 600 mm (A) Test condition for injection pump
Test oil ISO4113 Temperature : 40 ±5°C 65.10102-6044 Nozzle (5 x φ0.27)
Nozzle & holder ass’y 65.10101-7295 220 kg/cm2 (B) Engine standard parts
Injection pipe(IDxODxL) 65.10301-6144 φ1.6xφ6.0x580mm Rack diagram and setting valve at each point : Specification of standard pump(65.11101-7380)
Injection Q`ty on RIG (mm3 / 1,000st) Check
Point
Rack position(mm)
Pumpspeed (rpm)
(A) Test condition for inj. pump
(B) Engine standard parts
Press.(mmHg)
A 8.8 1,100 55.0 ±1 59.4 ±2 - B 9.1 800 (56.0) ±2 62.7 - C ≈6.7 415 8.0 ±1.3 - D - 100 100 ±10 -
Boost pressure : zero boost
Fuel injection pump
Plunger φ9.5 Left hand 20 lead retraction pressure 43mm3/st(φ6x1.5mm)
t=0.99 Max. pump speed (limit plunger bouncing)
2,290 rpm opening pressure 25.9 kgf/cm2
Holder delivery valve with damping valve
-
Delivery valve
Spring k=1.63 kgf/mm
Governor
Governor weight 740 g Lever ratio (min. speed / max. speed) 1 : 1.2 / 1 : 1.2
Governor spring k=12 kgf/mm Idling sub spring k=2.1 kgf/mm
Start spring k=0.005 kgf/mm Adapter spring k=11 kgf/mm
Feed pump
Max. operating pressure 3.4 kgf/cm2 Piston spring k=0.735 kgf/mm
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6) Rack diagram and setting valve at each point
a) DB58 : EARDA
Check Point Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 8.8 1,100 58.0 ±1 - B 9.1 800 (56.0) ±2 - C ≈6.7 415 8.0 ±1.3 - D - 100 100 ±10 -
b) DB58 : EAREA
Check Point Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 8.8 1,100 61.0 ±1 - B 9.1 800 (59.0) ±2 - C ≈6.7 415 8.0 ±1.3 - D - 100 100 ±10 -
c) DB58 : EAREB/RFE/RFI/RFJ/RFH
Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 8.8 1,100 50.0 ±1 - B 9.1 800 (50.0) ±2 - C ≈6.7 415 8.0 ±1.3 - D - 100 100 ±10 -
d) DB58 : EARFF Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 8.8 1,100 55.0 ±1 - B 9.1 800 (56.0) ±2 - C ≈6.7 415 8.0 ±1.3 - D - 100 100 ±10 -
e) DB58 : EARLA/B Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 8.8 1,100 58.0 ±1 - B 9.1 800 (58.0) ±2 - C ≈6.7 415 8.0 ±1.3 - D - 100 100 ±10 -
f) DB58 : EARLC
Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 8.8 1,100 55.0 ±1 - B 9.1 800 (59.0) ±2 - C ≈6.7 415 8.0 ±1.3 - D - 100 100 ±10 -
g) Rack curve of standard injection pump (65.11101-7380)
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2) DB58 engine (EARFG/EARFK) 1. Injection pump assembly : 65.11101-7398 (101605-996G DOOWON)
- Injection pump : KP-PES6A95C410RS2000 (101062-8300) - Governor : KP-EP/RSV200-1450AQ43A311 (105419-134A) - Plunger and barrel : 131151-3200, 131100-7900 - Delivery valve : 131160-1120 - Feed pump : KP-FP/KS-A (105220-6290) - Prestroke : 3.6±0.05mm - Coupling : 156639-9820
2. Nozzle holder assembly : 65.10101-7295 (105160-4650 DOOWON) 3. Nozzle : 65.10102-6044 (105025-138A DOOWON) 4. Injection pipe : 65.10301-6144 5. Injection order : 1 – 5 – 3 – 6 – 2 – 4
Nozzle & holder ass’y 105780-8140 Opening pressure :175kg/cm2
Injection pipe(IDxODxL) - φ2.0 x φ6.0 – 600 mm (A) Test condition for injection pump
Test oil ISO4113 Temperature : 40 ±5°C 65.10102-6044 Nozzle (5 x φ0.27)
Nozzle & holder ass’y 65.10101-7295 220 kg/cm2 (B) Engine standard parts
Injection pipe(IDxODxL) 65.10301-6144 φ1.6xφ6.0x580mm Rack diagram and setting valve at each point : Specification of standard pump(65.11101-7380)
Injection Q`ty on RIG (mm3 / 1,000st) Check
Point
Rack position(mm)
Pumpspeed (rpm)
(A) Test condition for inj. pump
(B) Engine standard parts
Press.(mmHg)
A 8.9 1,100 58.0 ±1 - B 9.2 800 (59.0) ±2 - C ≈6.6 400 8.0 ±1.3 - D - 100 100 ±10 -
Boost pressure : zero boost
Fuel injection pump
Plunger φ9.5 Left hand 20 lead retraction pressure 43mm3/st(φ6x1.5mm)
t=0.99 Max. pump speed (limit plunger bouncing)
2,290 rpm opening pressure 25.9 kgf/cm2
Holder delivery valve with damping valve
-
Delivery valve
Spring k=1.63 kgf/mm
Governor
Governor weight 740 g Lever ratio (min. speed / max. speed) 1 : 1.2 / 1 : 1.2
Governor spring k=12 kgf/mm Idling sub spring k=3.0 kgf/mm
Idle spring k=1.9 kgf/mm Start spring k=0.005 kgf/mm
Adapter spring k=11 kgf/mm
Feed pump
Max. operating pressure 3.4 kgf/cm2 Piston spring k=0.735 kgf/mm
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Maintenance of major components
6) Rack curve of standard injection pump (65.11101-7380)
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Maintenance of major components
3) DB58S engine (ECRFA/B/C) 1) Injection pump assembly : 65.11101-7399 (101605-996X DOOWON)
- Injection pump : KP-PES6A95C410RS2000 (101062-830A) - Governor : KP-EP/RSV200-1450AQ43A311 (105419-1340) - Plunger and barrel : 131151-3200, 131100-7900 - Delivery valve : 131160-1120 - Feed pump : KP-FP/KS-A (105220-6290) - Prestroke : 3.6±0.05mm - Coupling : 156639-9820
2) Nozzle holder assembly : 65.10101-7086 (105160-465B DOOWON) 3) Nozzle : 65.10102-6056 (105025-138B DOOWON) 4) Injection pipe : 65.10301-6144 5) Injection order : 1 – 5 – 3 – 6 – 2 – 4
Nozzle & holder ass’y 105780-8140 Opening pressure :175kg/cm2
Injection pipe(IDxODxL) - φ2.0 x φ6.0 – 600 mm (A) Test condition for injection pump
Test oil ISO4113 Temperature : 40 ±5°C 65.10102-6056 Nozzle (5 x φ0.22)
Nozzle & holder ass’y 65.10101-7086 220 kg/cm2 (B) Engine standard parts
Injection pipe(IDxODxL) 65.10301-6144 φ1.6xφ6.0x580mm Rack diagram and setting valve at each point : Specification of standard pump(65.11101-7380)
Injection Q`ty on RIG (mm3 / 1,000st) Check
Point
Rack position(mm)
Pumpspeed (rpm)
(A) Test condition for inj. pump
(B) Engine standard parts
Press.(mmHg)
A 10.1 1,100 58.0 ±1 - B ≈6.8 400 8.0 ±1.3 - C 10.7 700 (68.0) - D - 100 100 ±10 -
Boost pressure : zero boost
Fuel injection pump
Plunger φ9.5 Left hand 20 lead retraction pressure 59mm3/st(φ6x1.5mm)
t=0.09 Max. pump speed (limit plunger bouncing)
2,290 rpm opening pressure 25.9 kgf/cm2
Holder delivery valve with damping valve
-
Delivery valve
Spring k=1.63 kgf/mm
Governor
Governor weight 740 g Lever ratio (min. speed / max. speed) 1 : 1.2 / 1 : 1.2
Governor spring k=12 kgf/mm Idling sub spring k=2.1 kgf/mm
Idle spring k=1.9 kgf/mm Start spring k=0.005 kgf/mm
Adapter spring k=11 kgf/mm
Feed pump
Max. operating pressure 3.4 kgf/cm2 Piston spring k=0.735 kgf/mm
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Maintenance of major components
6) Rack curve of standard injection pump (65.11101-7399)
a) DB58S : ECRFA
Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 10.1 1,100 58.0 ±1 - B ≈6.8 400 8.0 ±1.3 - C 10.7 700 (68.0) - D - 100 100 ±10 -
b) DB58S : ECRFB
Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 8.8 1,100 73.5 ±1.5 - B 9.1 800 9.4 ±1.3 - C ≈6.7 415 (63) - D - 100 (43.6) ±10 -
c) DB58S : ECRFC
Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 8.8 1,100 73.5 ±1.5 - B 9.1 800 9.4 ±1.3 - C ≈6.7 415 (63) - D - 100 (43.6) ±10 -
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Maintenance of major components
4) DB58T engine (EATEA/B//D/TLA)
(1) Injection pump assembly : 65.11101-7655 (101605-9760 DOOWON) - Injection pump : KP-PES6A95C410RS2000 (101062-9040) - Governor : KP-EP/RSV200-1350AQ49A311(105411-1820) - Plunger and barrel : 131151-3200, 131100-7900 - Delivery valve : 131110-4320 - Feed pump : KP-FP/KS-A (105220-6410) - Prestroke : 3.4±0.05mm - Coupling : 156639-4220
(2) Nozzle holder assembly : 65.10101-7295 (105160-4650 DOOWON) (3) Nozzle : 65.10102-6044 (105025-138A DOOWON) (4) Injection pipe : 65.10301-6289 (5) Injection order : 1 – 5 – 3 – 6 – 2 – 4
Nozzle & holder ass’y 105780-8140 Opening pressure :175kg/cm2
Injection pipe(IDxODxL) - φ2.0 x φ6.0 – 600 mm (A) Test condition for injection pump
Test oil ISO4113 Temperature : 40 ±5°C 65.10102-6044 Nozzle (5 x φ0.27)
Nozzle & holder ass’y 65.10101-7295 220 kg/cm2 (B) Engine standard parts
Injection pipe(IDxODxL) 65.10301-6289 φ1.8xφ6.0x580mm Rack diagram and setting valve at each point : Specification of standard pump(65.11101-7655)
Injection Q`ty on RIG
(mm3 / 1,000st) Check
Point
Rack
position
(mm)
Pump
speed
(rpm) (A) Test condition
for inj. pump
(B) Engine
standard parts
Press.
(mmHg)
A 9.1 1,100 73.5 ±2.5 67.1 ±2 Above 300
B 5.7 550 9.4 ±1.3 - C 9.1 800 (63) 68.1 Above 300
D 9.1-0.25 500 (43.6) ±2 58.1 - E - 100 65
Boost pressure : zero boost
Fuel injection pump
Plunger φ9.5 Left hand 20 lead retraction pressure 51mm3/st(φ6x1.8mm)
Max. pump speed
(limit plunger bouncing)2,290 rpm opening pressure 17.0 kgf/cm2
Holder delivery valve
with damping valve -
Delivery valve
Spring k=1.78 kgf/mm
Governor
Governor weight 740 g Lever ratio (min. speed / max. speed) 1 : 1.2 / 1 : 1.2
Governor spring k=10 kgf/mm Idling sub spring k=2.1 kgf/mm
Start spring k=0.005 kgf/mm Boost compensator spring k=0.6 kgf/mm
Feed pump
Max. operating pressure 3.4 kgf/cm2 Piston spring k=0.735 kgf/mm
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Maintenance of major components
6) Rack diagram and setting valve at each point
a) DB58T : EATEA Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 8.8 1,100 73.5 ±1.5 - B 9.1 800 9.4 ±1.3 - C ≈6.7 415 (63) - D - 100 (43.6) ±2 -
b) DB58T : EATEB
Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 8.8 1,100 73.5 ±1.5 - B 9.1 800 9.4 ±1.3 - C ≈6.7 415 (63) - D - 100 (43.6) ±10 -
c) DB58T : EATED
Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 8.8 1,100 72.0 ±1.5 - B 9.1 800 9.4 ±1.3 - C ≈6.7 415 (62) - D - 100 (42) ±10 -
c) DB58T : EATLA
Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 8.8 1,100 73.5 ±1.5 - B 9.1 800 9.4 ±1.3 - C ≈6.7 415 (63) - D - 100 (43.6) ±10 -
e) Rack curve and boost pressure of standard injection pump(65.11101-7655)
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Maintenance of major components
5) DB58T engine (EATEE/F/G/H/I/EATLB) (1) Injection pump assembly : 65.11101-7375 (101605-9720 DOOWON)
- Injection pump : KP-PES6A95C410RS2000 (101062-8250) - Governor : KP-EP/RSV200-1350AQ49A311(105411-1940) - Plunger and barrel : 131151-3200, 131100-7900 - Delivery valve : 131110-4320 - Feed pump : KP-FP/KS-A (105220-6410) - Prestroke : 3.4±0.05mm - Coupling : 156639-7620
(2) Nozzle holder assembly : 65.10101-7295 (105160-4650 DOOWON) (3) Nozzle : 65.10102-6044 (105025-138A DOOWON) (4) Injection pipe : 65.10301-6289 (5) Injection order : 1 – 5 – 3 – 6 – 2 – 4
Nozzle & holder ass’y 105780-8140 Opening pressure :175kg/cm2
Injection pipe(IDxODxL) - φ2.0 x φ6.0 – 600 mm (A) Test condition for injection pump
Test oil ISO4113 Temperature : 40 ±5°C 65.10102-6044 Nozzle (5 x φ0.27)
Nozzle & holder ass’y 65.10101-7295 220 kg/cm2 (B) Engine standard parts
Injection pipe(IDxODxL) 65.10301-6289 φ1.8xφ6.0x580mm Rack diagram and setting valve at each point : Specification of standard pump(65.11101-7375)
Injection Q`ty on RIG
(mm3 / 1,000st) Check
Point
Rack
position
(mm)
Pump
speed
(rpm) (A) Test condition
for inj. pump
(B) Engine
standard parts
Press.
(mmHg)
A 9.1 1,100 73.5 ±1.5 67.1 ±2 Above 300
B 5.7 550 9.4 ±1.3 - C 9.1 800 (63) 68.1 Above 300
D 9.1-0.25 500 (43.6) ±2 58.1 - E - 100 65
Boost pressure : zero boost
Fuel injection pump
Plunger φ9.5 Left hand 20 lead retraction pressure 51mm3/st(φ6x1.8mm)
Max. pump speed
(limit plunger bouncing) 2,290 rpm opening pressure 17.0 kgf/cm2
Holder delivery valve
with damping valve -
Delivery valve
Spring k=1.78 kgf/mm
Governor
Governor weight 740 g Lever ratio (min. speed / max. speed) 1 : 1.2 / 1 : 1.2
Governor spring k=10 kgf/mm Idling sub spring k=2.1 kgf/mm
Idling spring k=2.6 kgf/mm Start spring k=0.005 kgf/mm
Boost compensator spring k=0.6 kgf/mm - -
Feed pump
Max. operating pressure 3.4 kgf/cm2 Piston spring k=0.735 kgf/mm
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Maintenance of major components
6) Rack diagram and setting valve at each point
a) DB58 : EATEE/TEH/TLB Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 8.8 1,100 73.5 ±1.5 Above 300 B 9.1 800 9.4 ±1.3 - C ≈6.7 415 (63) Above 300 D - 100 (43.6) ±2 -
b) DB58 : EATEF
Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 8.8 1,100 73.5 ±1.5 Above 300 B 9.1 800 9.4 ±1.3 - C ≈6.7 415 (63) Above 300 D - 100 46.6 ±10 -
c) DB58 : EATEG
Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 8.8 1,100 72.0 ±1.5 Above 300 B 9.1 800 9.4 ±1.3 - C ≈6.7 415 (60) Above 300 D - 100 53 ±10 -
d) DB58 : EATEI
Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 8.8 1,100 67.0 ±1.5 Above 300 B 9.1 800 9.4 ±1.3 - C ≈6.7 415 (57) Above 300 D - 100 50 ±10 -
e) Rack curve and boost pressure of standard injection pump(65.11101-7374)
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Maintenance of major components
6) DB58TI engine (EAOEA/D/E/F) (1) Injection pump assembly : 65.11101-7327 (101605-9880 DOOWON)
- Injection pump : KP-PES6AD100B410R (101062-8260) - Governor : KP-EP/RSV200-1350AQ49A311(105411-2240) - Plunger and barrel : 131150-2600, 131100-8600 - Delivery valve : 131110-5520 - Feed pump : KP-FP/KS-AD (105220-6490) - Prestroke : 3.8±0.05mm - Coupling : 156639-8820
(2) Nozzle holder assembly : 65.10101-7058 (105160-466A DOOWON) : EAOEA/D/E 65.10101-7092 (105160-5420 DOOWON) : EAOEF
(3) Nozzle : 65.10102-6054 (105025-139A DOOWON) : EAOEA/D/E 65.10102-6064 (105025-4200 DOOWON) : EAOEF
(4) Injection pipe : 65.10301-6072 (5) Injection order : 1 – 5 – 3 – 6 – 2 – 4
Nozzle & holder ass’y 105780-8140 Opening pressure :175kg/cm2
Injection pipe(IDxODxL) - φ2.0 x φ6.0 – 600 mm (A) Test condition for injection pump
Test oil ISO4113 Temperature : 40 ±5°C 65.10102-6054 Nozzle (6 x φ0.235) Nozzle & holder ass’y
(EAOEA/D/E) 65.10101-7058 185 kg/cm2 65.10102-6064 Nozzle (7 x φ0.22) Nozzle & holder ass’y
(EAOEF) 65.10101-7092 200 kg/cm2 (B) Engine standard parts
Injection pipe(IDxODxL) 65.10301-6072 φ1.8xφ6.0x580mm Rack diagram and setting valve at each point : Specification of standard pump(65.11101-7327)
Injection Q`ty on RIG (mm3 / 1,000st) Check
Point
Rack position(mm)
Pumpspeed (rpm)
(A) Test condition for inj. pump
(B) Engine standard parts
Press.(mmHg)
A R1(9.8) 1,000 97.5 ±1.5 80.7 ±2
B ≈6.9 550 22.0 ±1.5 C (R1) 750 (63) 86.4 E - 100 70
Boost pressure : zero boost
Fuel injection pump Plunger φ10 Left hand 20+50 lead retraction pressure 59mm3/st(φ6x2.1mm) Max. pump speed (limit plunger bouncing)
2,100 rpm opening pressure 20.8 kgf/cm2
Holder delivery valve with damping valve
-
Delivery valve
Spring k=1.63 kgf/mm
Governor Governor weight 740 g Lever ratio (min. speed / max. speed) 1 : 1.2 / 1 : 1.2 Governor spring k=10 kgf/mm Idling sub spring k=2.1 kgf/mm Idling spring k=2.6 kgf/mm Start spring k=0.005 kgf/mm Boost compensator spring k=0.6 kgf/mm - - Feed pump Max. operating pressure 3.4 kgf/cm2 Piston spring k=0.735 kgf/mm
100+
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Maintenance of major components
6) Rack diagram and setting valve at each point
a) DB58TI : EAOEA/OED Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 8.8 1,100 97.5 ±1.5 - B 9.1 800 22.0 ±1.5 - C ≈6.7 415 (93.5) - D - 100 75 ±5.0 -
b) DB58TI : EAOEE
Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 8.8 1,100 104.5 ±1.5 - B 9.1 800 22.0 ±1.5 - C ≈6.7 415 (100) - D - 100 75 ±5.0 -
c) Rack curve of standard injection pump(65.11101-7374)
Rack curve
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Maintenance of major components
7) DB58TI engine (EAOEB/OEC)
(1) Injection pump assembly : 65.11101-7374 (101605-983X DOOWON) - Injection pump : KP-PES6AD100B410R (101062-8260) - Governor : KP-EP/RSV200-1350AQ49A311(105411-2240) - Plunger and barrel : 131150-2600, 131100-8600 - Delivery valve : 131110-5520 - Feed pump : KP-FP/KS-AD (105220-6490) - Prestroke : 3.8±0.05mm - Coupling : 156639-8820
(2) Nozzle holder assembly : 65.10101-7058 (105160-466A DOOWON) (3) Nozzle : 65.10102-6054 (105025-139A DOOWON) (4) Injection pipe : 65.10301-6072
(5) Injection order : 1 – 5 – 3 – 6 – 2 – 4
Nozzle & holder ass’y 105780-8140 Opening pressure :175kg/cm2
Injection pipe(IDxODxL) - φ2.0 x φ6.0 – 600 mm (A) Test condition for injection pump
Test oil ISO4113 Temperature : 40 ±5°C 65.10102-6054 Nozzle (5 x φ0.28)
Nozzle & holder ass’y 65.10101-7058 185 kg/cm2 (B) Engine standard parts
Injection pipe(IDxODxL) 65.10301-6289 φ1.8xφ6.0x580mm Rack diagram and setting valve at each point : Specification of standard pump(65.11101-7374)
Injection Q`ty on RIG (mm3 / 1,000st) Check
Point
Rack position(mm)
Pumpspeed (rpm)
(A) Test condition for inj. pump
(B) Engine standard parts
Press.(mmHg)
A 9.6 1,100 95.0 ±1.5 80.8 ±2 Above 350
B ≈6.9 550 22.0 ±1.5 - C R1(9.6) 500 (85.0) 76.7 Above 350
E - 100 77
Boost pressure : zero boost
Fuel injection pump
Plunger φ10 Left hand 20+50 lead retraction pressure 59mm3/st(φ6x2.1mm)
Max. pump speed (limit plunger bouncing)
2,100 rpm opening pressure 20.8 kgf/cm2
Holder delivery valve with damping valve
-
Delivery valve
Spring k=1.63 kgf/mm
Governor
Governor weight 740 g Lever ratio (min. speed / max. speed) 1 : 1.2 / 1 : 1.2
Governor spring k=10 kgf/mm Idling sub spring k=2.1 kgf/mm
Idling spring k=2.6 kgf/mm Start spring k=0.005 kgf/mm
Boost compensator spring k=0.6 kgf/mm - -
Feed pump
Max. operating pressure 3.4 kgf/cm2 Piston spring k=0.735 kgf/mm
105
+−
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Maintenance of major components
6) Rack diagram and setting valve at each point
a) DB58TI : EAOEB Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 9.6 1,100 95.0 ±1.5 Above 350
B ≈6.9 550 22.0 ±1.5 - C R1(9.6) 500 (85.0) Above 350 E - 100 77 -
b) DB58TI : EAOEC
Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 9.6 1,100 97.0 ±1.5 Above 350
B ≈6.9 550 22.0 ±1.5 - C R1(9.6) 500 (87.0) Above 350 E - 100 77 -
c) Rack curve and boost pressure of standard injection pump (65.11101-7374)
Rack curve
Boost pressure
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Maintenance of major components
8) DB58TI engine (EAOLA/OLB)
(1) Injection pump assembly : 65.11101-7353 (101609-9130 DOOWON) - Injection pump : KP-PES6AD100B410R (101062-8260) - Governor : KP-EP/RSV200-1350AQ49A311(105411-2350) - Plunger and barrel : 131150-2600, 131100-8600 - Delivery valve : 131110-5520 - Feed pump : KP-FP/KS-AD (105220-6490) - Prestroke : 3.8±0.05mm - Coupling : 156639-8820
(2) Nozzle holder assembly : 65.10101-7058 (105160-466A DOOWON) (3) Nozzle : 65.10102-6054 (105025-139A DOOWON)
(4) Injection pipe: : 65.10301-6072 (5) Injection order: : 1 – 5 – 3 – 6 – 2 – 4
Nozzle & holder ass’y 105780-8140 Opening pressure :175kg/cm2
Injection pipe(IDxODxL) - φ2.0 x φ6.0 – 600 mm (A) Test condition for injection pump
Test oil ISO4113 Temperature : 40 ±5°C 65.10102-6054 Nozzle (5 x φ0.28)
Nozzle & holder ass’y 65.10101-7058 185 kg/cm2 (B) Engine standard parts
Injection pipe(IDxODxL) 65.10301-6072 φ1.8xφ6.0x580mm Rack diagram and setting valve at each point : Specification of standard pump(65.11101-7353)
Injection Q`ty on RIG (mm3 / 1,000st) Check
Point
Rack position(mm)
Pumpspeed (rpm)
(A) Test condition for inj. pump
(B) Engine standard parts
Press.(mmHg)
A 9.2 1,100 88 ±1.5 71.5 ±2 Above 500
B ≈7.0 488 22.0 ±2.0 - C R1(9.8) 750 (92.0) 83.4 Above 500
D R1-0.6 550 (72.0) ±2.0 - E - 100 80.0±10 -
Boost pressure : zero boost
Fuel injection pump
Plunger φ10 Left hand 20+50 lead retraction pressure 59mm3/st(φ6x2.1mm)
Max. pump speed (limit plunger bouncing)
2,100 rpm opening pressure 20.8 kgf/cm2
Holder delivery valve with damping valve
-
Delivery valve
Spring k=1.63 kgf/mm
Governor
Governor weight 740 g Lever ratio (min. speed / max. speed) 1 : 1.2 / 1 : 1.2
Governor spring k=10 kgf/mm Idling sub spring k=2.1 kgf/mm
Idling spring k=2.6 kgf/mm Start spring k=0.005 kgf/mm
Angleich spring k=5.4 kgf/mm Boost compensator spring k=0.6 kgf/mm
Feed pump
Max. operating pressure 3.4 kgf/cm2 Piston spring k=0.735 kgf/mm
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Maintenance of major components
6) Rack diagram and setting valve at each point
a) DB58TIS : EAOLA/OLB Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A 9.2 1,100 88 ±1.5 Above 500 B ≈7.0 488 22 ±2.0 - C R1(9.8) 750 (92) Above 500 D R1-0.6 550 (72) ±2.0 - E - 100 80±10
b) Rack curve and boost pressure of standard injection pump (65.11101-7353)
Rack curve
Boost pressure
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Maintenance of major components
9) DB58TIS engine (ECOEA/OEB)
(1) Injection pump assembly : 65.11101-7391 (101605-830A DOOWON) - Injection pump : KP-PES6AD100B410R (101062-826A) - Governor : KP-EP/RSV200-1350AQ49A311(105411-2340) - Plunger and barrel : 131150-2600 131100-8600 - Delivery valve : 131160-3620 - Feed pump : KP-FP/KS-AD (105220-6490) - Prestroke : 3.8±0.05mm - Coupling : 156639-882C
(2) Nozzle holder assembly : 65.10101-7092 (105160-5420 DOOWON) (3) Nozzle : 65.10102-6064 (105025-4200 DOOWON) (4) Injection pipe: : 65.10301-6088, 65.10301-6089 (5) Injection order: : 1 – 5 – 3 – 6 – 2 – 4
Nozzle & holder ass’y 105780-8140 Opening pressure :175kg/cm2
Injection pipe(IDxODxL) - φ2.0 x φ6.0 – 600 mm (A) Test condition for injection pump
Test oil ISO4113 Temperature : 40 ±5°C 65.10102-6064 Nozzle (7 x φ0.22)
Nozzle & holder ass’y 65.10101-7092 190 kg/cm2 (B) Engine standard parts
Injection pipe(IDxODxL) 65.10301-6088,6089 φ1.8xφ6.0x912mm Rack diagram and setting valve at each point : Specification of standard pump(65.11101-7391)
Injection Q`ty on RIG (mm3 / 1,000st) Check
Point
Rack position(mm)
Pumpspeed (rpm)
(A) Test condition for inj. pump
(B) Engine standard parts
Press.(mmHg)
A R1(10.6) 1,000 112 ±1.5 92
B 6.7 550 22 ±2.0 - C 6.7 550 (103) Above 400
D (R1-0.9) 550 (84) 82 - E - 100 95±10 -
Boost pressure : zero boost
Fuel injection pump
Plunger φ10 Left hand 20+50 lead retraction pressure 59mm3/st(φ6x2.1mm)
Max. pump speed (limit plunger bouncing)
2,100 rpm opening pressure 20.8 kgf/cm2
Holder delivery valve with damping valve
-
Delivery valve
Spring k=1.63 kgf/mm
Governor
Governor weight 740 g Lever ratio (min. speed / max. speed) 1 : 1.2 / 1 : 1.2
Governor spring k=10 kgf/mm Idling sub spring k=2.1 kgf/mm
Idling spring k=2.6 kgf/mm Start spring k=0.005 kgf/mm
Boost compensator spring k=0.6 kgf/mm
Feed pump
Max. operating pressure 3.4 kgf/cm2 Piston spring k=0.735 kgf/mm
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6) Rack diagram and setting valve at each point
a) DB58TIS : ECOEA Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A R1(10.6) 1,000 112 ±1.5 - B 6.7 550 22 ±2.0 - C 6.7 550 (103) Above 400 D (R1-0.9) 550 (84) - E - 100 95±10
b) DB58TIS : ECOEB
Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A R1(10.6) 1,000 105 ±1.5 - B 6.7 550 22 ±2.0 - C 6.7 550 (96) Above 400 D (R1-0.9) 550 (81) - E - 100 95±10
c) Rack curve and boost pressure of standard injection pump (65.11101-7391)
Rack curve
Boost pressure
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10) DB58TIS engine (ECOEC/D/E/F/G) (1) Injection pump assembly : 65.11101-7389A (101605-810A DOOWON)
- Injection pump : KP-PES6AD100B410R (101062-826A) - Governor : KP-EP/RSV200-1350AQ49A311(105411-2240) - Plunger and barrel : 131150-2600, 131100-8600 - Delivery valve : 131110-5520 - Feed pump : KP-FP/KS-AD (105220-6490) - Prestroke : 3.8±0.05mm - Coupling : 156639-882C
(2) Nozzle holder assembly : 65.10101-7091 (105160-5330 DOOWON) (3) Nozzle : 65.10102-6061 (105025-4000 DOOWON)
(4) Injection pipe: : 65.10301-6088, 65.10301-6089 (5) Injection order: : 1 – 5 – 3 – 6 – 2 – 4
Nozzle & holder ass’y 105780-8140 Opening pressure :175kg/cm2
Injection pipe(IDxODxL) - φ2.0 x φ6.0 – 600 mm (A) Test condition for injection pump
Test oil ISO4113 Temperature : 40 ±5°C 65.10102-6061 Nozzle (6 x φ0.235)
Nozzle & holder ass’y 65.10101-7091 190 kg/cm2 (B) Engine standard parts
Injection pipe(IDxODxL) 65.10301-6088,6089 φ1.8xφ6.0x912mm Rack diagram and setting valve at each point : Specification of standard pump(65.11101-7389)
Injection Q`ty on RIG
(mm3 / 1,000st) Check
Point
Rack
position
(mm)
Pump
speed
(rpm) (A) Test condition
for inj. pump
(B) Engine
standard parts
Press.
(mmHg)
A R1(10.3) 1,100 109 ±1.5 85.8 ±2 Above 450
B 6.6 600 22 ±2.0 - C R1 500 (97) 95.2 Above 450
D (R1-1.5) 500 (61) 69.9 - E - 100 96±10 -
Power
Boost pressure : zero boost
Fuel injection pump
Plunger φ10 Left hand 20+50 lead retraction pressure 59mm3/st(φ6x2.1mm)
Max. pump speed
(limit plunger bouncing) 2,100 rpm opening pressure 20.8 kgf/cm2
Holder delivery valve
with damping valve -
Delivery valve
Spring k=1.63 kgf/mm
Governor
Governor weight 740 g Lever ratio (min. speed / max. speed) 1 : 1.2 / 1 : 1.2
Governor spring k=10 kgf/mm Idling sub spring k=2.1 kgf/mm
Idling spring k=2.6 kgf/mm Start spring k=0.005 kgf/mm
Boost compensator spring k=0.6 kgf/mm
Feed pump
Max. operating pressure 3.4 kgf/cm2 Piston spring k=0.735 kgf/mm
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6) Rack diagram and setting valve at each point a) DB58TIS : ECOEC
Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A R1(10.3) 1,100 109 ±1.5 Above 450 B 6.6 600 22 ±2.0 - C R1 500 (97) Above 450 D (R1-1.5) 500 (61) - E - 100 96±10
b) DB58TIS : ECOED
Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A R1(10.3) 1,100 91 ±1.5 Above 450 B 6.6 600 22 ±2.0 - C R1 500 (81) Above 450 D (R1-1.5) 500 (53) - E - 100 96±10
c) DB58TIS : ECOEE
Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A R1(10.3) 1,100 113 ±1.5 Above 450 B 6.6 600 22 ±2.0 - C R1 500 (101) Above 450 D (R1-1.5) 500 (61) - E - 100 96±10
d) DB58TIS : ECOEF
Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A R1(10.3) 1,100 95 ±1.5 Above 450 B 6.6 600 22 ±2.0 - C R1 500 (84) Above 450 D (R1-1.5) 500 - - E - 100 96±10
e) DB58TIS : ECOEG
Check Point
Rack position (mm)
Pump speed (rpm)
Injection Q`ty on RIG (mm3 / 1,000st)
Pressure (mmHg)
A R1(10.3) 1,100 111 ±1.5 Above 450 B 6.6 600 22 ±2.0 - C R1 500 (99) Above 450 D (R1-1.5) 500 (61) - E - 100 96±10
f) Rack curve and boost pressure of standard injection pump(65.11101-7389)
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11) DB58TIS engine (ECOLA) (1) Injection pump assembly : 65.11101-7392 (101605-840A DOOWON)
- Injection pump : KP-PES6AD105B410RS2 (101061-882B) - Governor : KP-EP/RSV200-1350AQ49A311(105411-224A) - Plunger and barrel : 131151-2700 131100-7800 - Delivery valve : 131110-8820 - Feed pump : KP-FP/KS-ADS (105210-5280) - Prestroke : 4.3 ±0.05mm - Coupling : 156639-8820
(2) Nozzle holder assembly : 65.10101-7092 (105160-5420 DOOWON) (3) Nozzle : 65.10102-6064 (105025-4200 DOOWON) (4) Injection pipe: : 65.10301-6088, 65.10301-6089 (5) Injection order: : 1 – 5 – 3 – 6 – 2 – 4
Nozzle & holder ass’y 105780-8140 Opening pressure :175kg/cm2
Injection pipe(IDxODxL) - φ2.0 x φ6.0 – 600 mm (A) Test condition for injection pump
Test oil ISO4113 Temperature : 40 ±5°C 65.10102-6061 Nozzle (7 x φ0.22)
Nozzle & holder ass’y 65.10101-7091 185 kg/cm2 (B) Engine standard parts
Injection pipe(IDxODxL) 65.10301-6088,6089 φ1.8xφ6.0x912mm Rack diagram and setting valve at each point : Specification of standard pump(65.11101-7392)
Injection Q`ty on RIG (mm3 / 1,000st) Check
Point
Rack position(mm)
Pumpspeed (rpm)
(A) Test condition for inj. pump
(B) Engine standard parts
Press.(mmHg)
A R1(10.6) 1,100 128 ±1.5 88 ±2 Above 450
B 6.8 550 20 ±1.5 - C R1 550 (130) Above 450
D (R1-1.6) 1,100 (95) 86 - E - 100 110±10 -
Boost pressure : zero boost
Fuel injection pump
Plunger φ10.5 Left hand 20+40 lead retraction pressure 70mm3/st(φ6x2.5mm)
t=0.11mm Max. pump speed (limit plunger bouncing)
1970 rpm opening pressure 23.1 kgf/cm2
Holder delivery valve with damping valve
-
Delivery valve
Spring k=1.63 kgf/mm
Governor
Governor weight 740 g Lever ratio (min. speed / max. speed) 1 : 1.2 / 1 : 1.2
Governor spring k=10 kgf/mm Idling sub spring k=2.1 kgf/mm
Idling spring k=2.6 kgf/mm Start spring k=0.005 kgf/mm
Boost compensator spring k=0.35 kgf/mm
Feed pump
Max. operating pressure 3.4 kgf/cm2 Piston spring k=0.735 kgf/mm
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(6) Rack curve
a) Rack curve and boost pressure of standard injection pump(65.11101-7392)
Rack curve
Boost pressure
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12) DB58TIS engine (ECOLB)
(1) Injection pump assembly : 65.11101-7390 (101605-820A DOOWON) - Injection pump : KP-PES6AD100B410R (101062-8260) - Governor : KP-EP/RSV200-1350AQ49A311(105411-2350) - Plunger and barrel : 131150-2600, 131100-8600 - Delivery valve : 131110-5520 - Feed pump : KP-FP/KS-AD (105220-6490) - Prestroke : 3.8±0.05mm - Coupling : 156639-882C
(2) Nozzle holder assembly : 65.10101-7091 (105160-5330 DOOWON) (3) Nozzle : 65.10102-6061 (105025-4000 DOOWON) (4) Injection pipe: : 65.10301-6088, 65.10301-6089 (5) Injection order: : 1 – 5 – 3 – 6 – 2 – 4
Nozzle & holder ass’y 105780-8140 Opening pressure :175kg/cm2
Injection pipe(IDxODxL) - φ2.0 x φ6.0 – 600 mm (A) Test condition for injection pump
Test oil ISO4113 Temperature : 40 ±5°C 65.10102-6061 Nozzle (6 x φ0.235)
Nozzle & holder ass’y 65.10101-7091 190 kg/cm2 (B) Engine standard parts
Injection pipe(IDxODxL) 65.10301-6088,6089 φ1.8xφ6.0x912mm Rack diagram and setting valve at each point : Specification of standard pump(65.11101-7390)
Injection Q`ty on RIG (mm3 / 1,000st) Check
Point
Rack position(mm)
Pumpspeed (rpm)
(A) Test condition for inj. pump
(B) Engine standard parts
Press.(mmHg)
A 9.8 1,100 97 ±1.5 76.6 ±2 Above 500
B ≈6.8 550 22 ±2.0 - C R1(10.1) 600 (92) 97 Above 500
D (R1-1.5) 600 (58) - E - 100 72±10 -
Boost pressure : zero boost
Fuel injection pump
Plunger φ10 Left hand 20+50 lead Retraction pressure 59mm3/st(φ6x2.1mm)
Max. pump speed (limit plunger bouncing)
2,100 rpm opening pressure 20.8 kgf/cm2
Holder delivery valve with damping valve
-
Delivery valve
Spring k=1.63 kgf/mm
Governor
Governor weight 740 g Lever ratio (min. speed / max. speed) 1 : 1.2 / 1 : 1.2
Governor spring k=10 kgf/mm Idling sub spring k=2.1 kgf/mm
Idling spring k=2.6 kgf/mm Start spring k=0.005 kgf/mm
Boost compensator spring k=0.6 kgf/mm
Feed pump
Max. operating pressure 3.4 kgf/cm2 Piston spring k=0.735 kgf/mm
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(6) Rack curve and boost pressure of standard injection pump(65.11101-7390)
Rack curve
Boost pressure
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13) Injection pump
1. Pump housing 56. Shim 117a. Connection bolt 2. Cover assembly 61. Plunger spring 118a. Gasket 3. Bolt, cover 62. Seat, spring(upper) 121. Plug screw 4. O-ring 63. Seat, spring(lower) 122. Gasket 5. Gasket 67. Control rack 130. Connect 16. Screw, plug 68. Stop bolt 130a. Adapter 18. Bolt, stud 76. Pinion 131a. Bolt 20. Spring washer 77. Sleeve 132a. Gasket 21. Nut 78. Bolt 133a. Gasket 23. O-ring 90. Camshaft 145. Plug screw 30. Plunger 91.91a. Taper roller bearing 146 Gasket 36. Delivery valve 92.92a Camshaft ring 152. Connection bolt 37. Delivery valve spring 93.93a. Shim 154. Packing 40. Delivery valve holder 95. Center bearing 191. Bracket 45. Lock plate assembly 101a. Bearing cover 192. O-ring 49. O-ring 104a Bolt 194. Washer 55. Tappet 112a. Woodruf key 195. Spring washer 115a. Adapter 196. Nut
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14) Governor
1. Governor housing 80. Cover 182. Lever shaft 4. Plate 82. Bolt 183. Collar 6. Adapter 83. Bolt 190. Control lever 7. Bolt 100.Fly wheel 192. Nut 9. Spring 101. Woodruf key 195. Return spring 10. Bolt 102. Spring washer 198. Spring washer 13. Nut 103. Nut 201. O-ring 19. Adapter 117. Sleeve 202. Bush 20. Bolt 118. Shim 203. Shim 21. Gasket 130. Governor spring 205. Shaft lever 35. Governor cover 132. Starting spring 207. Support lever 38. Tension lever bolt 136. Nut 211. Snap ring 39. Nut 137. Gasket 220. Damper spring 44. Stop bolt 138. Cap 236. Gasket 46. Cap 140. Idle spring 239. Gasket 47. Plug 141. Nut 240. Lead seal 48. Adjusting bolt 150. Speed setting lever 241. Wire, lead seal 49. Nut 170. Guide lever 255. Bracket 50. Stop bolt 173. Split pin 331. Angleich spring 51. Bolt 174. Floating lever link 332. Connection nut 52. Bolt 181. Tension lever
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5.4. Turbocharger 5.4.1. Main data and specifications
1) Main data and specifications
Specification DB58T DB58TI DB58TIS
Turbocharger Model HOLSET 3539678
HOLSET 3539678
HOLSET 3598337
Air pressure at compressor outlet 1.3 kg/cm2 1.50 kg/cm2 1.70 kg/cm2
Air suction volume 11.5 m3/min 12.5 m3/min 13.5 m3/min at maximum output
Speed of turbine revolution 95,00 rpm 100,000 rpm 105,000 rpm
Maximum allowable speed 127,500 rpm 127,500 rpm 127,500 rpm
Max. allowable temperature of exhaust gas at turbine inlet 750 °C
750 °C
750 °C
Lubricating system External oil supply External oil supply External oil supply
Weight 9.7 kg 9.7 kg 9.7 kg
2) Construction
1. Impeller casing A. Air inlet 2. Turbine casing B. Gas outlet 3. Bearing casing C. Gas inlet 4. Impeller D. Oil supply 5. Turbine E. Oil return
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3) Construction
4 Bearing housing 32 O-ring 67 Hex bolt 5 Turbine housing 33 Oil baffle 74 Actuator ass`y 6 Turbine wheel ass`y 34 Inlet baffle 75 Hose clamp 7 Compressor wheel 36 Thrust collar 77 Actuator clip 8 Compressor housing 38 Heat protector cover 80 Cover plate 11 Journal bearing 43 Oil seal plate 81 Hose 12 Thrust bearing 46 Gasket 82 Elbow 13 Piston ring seal(turbine) 57 Hex bolt 83 Hex nut 16 Piston ring seal 61 Lock nut 88 Clamp plate 22 Retainer ring 64 Snap ring 91 Retaining ring 31 Oil stopper
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3) Operating principle
The turbocharger is a system designed to make use of the engine exhaust gas energy to charge high-density air into the cylinders, thereby to increase the engine output.
5.4.2. General descriptions
The engine output is determined by the fuel delivery volume and engine efficiency. To burn the supplied fuel completely to change into effective power for the engine, the volume of air enough to burn the fuel completely should be supplied into the cylinders. Therefore, the engine output is determined substantially by the cylinder capacity, and a greater volume of compressed air is charged into cylinders of given capacity, the greater engine output can be obtained as a greater volume of air charged into the cylinders burns so much more fuel. As explained, the compressing of air to supply into the cylinders is called "Supercharging" and the making use of the energy of exhaust gas discharged from the combustion chamber to charge the compressed air into the cylinders is called "Turbocharging".
5.4.3. Functions
1) Turbine Exhaust gas discharged from the combustion chamber distributes its own energy to the turbine blades while passing the inside of the turbine housing, with the result that the turbine shaft can get rotating force. This is the operating principle of 'turbine', which is mounted with seal rings and heat protector to prevent exhaust gas from affecting the bearings adversely.
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2) Compressor
The compressor, which is connected to the turbine over the one and same shaft to form a rotating body, takes in and compresses ambient air with rotating force transmitted from the turbine shaft. Then, the compressed air is delivered to the intake stake. This is the operating principle of the compressor.
3) Bearings
(1) Thrust bearing The turbine wheel creates thrust force. Therefore, exercise care so that the shaft is not deviated from its the original position due to this thrust.
(2) Journal bearing
This journal bearing of floating type forms a dual oil film on both the inside and outside of the bearing so that the bearing can rotate independently. As the dual oil film plays a role as a damper, the sliding speed of the bearing surface becomes lower than the rotating speed of the shaft, resulting in assurance of stability in its movement.
4) Sealing-compressor shaft
The compressor is of a dual construction type composed of seal plate and seal ring to prevent the leak of compressed air or lubricating oil.
5.4.4. Precautions for operation
1) Precautions for operation of engine The following precautions should be observed when starting, operating, or stopping the engine:
Operations Precautions Reasons When starting the engine
1) Check oil level
2) Crank the engine with starter to check the increase in oil pressure(until the needle of pressure gauge starts to move or pressure indicator lamp is actuated) before starting the engine.
2) Abrupt starting of the engine causes the engine to rotate with oil not being distributed not only to each part but also to the turbocharger, resulting in abnormal wear or seizure on the bearing due to insufficient supply of oil.
3) When having replaced oil, oil filter element, or lubricating parts, or when having stopped the engine for extended period of time, or in a cold place, loosen the oil pipe connections and operate the starter motor until oil is discharged. After completing
3) In the case of the engine stopped for extended time or in a cold place, oil fluidity within the pipes can be deteriorated
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the operation, be sure to retighten the oil pipe connections portion before starting the engine.
Immediately after starting
1) Run the engine at idle for 5 minutes after starting off.
1) Applying load abruptly If load is abruptly applied with the engine and turbocharger rotating unsmoothly, such parts that a sufficient amount of oil has not reached can be seized up.
2) Check each part for leakage of oil, gas, and air, and take proper measure.
2) Leakage of oil, gas, and air (especially, oil leak) causes drop in oil pressure and loss of oil results in seizure of the bearing.
During operation Check the followings: 1) Oil pressure At idle: 0.8 kg/cm2
or more At full load: 3.0∼4.8 kg/cm2
1) Excessively low oil pressure causes unusual wear or seizure of the bearing. Too high pressure causes oil leakage.
2) If unusual sound or vibration is heard or felt, reduce engine revolutions slowly and locate the cause.
2) The engine Is operated continuously with unusual sound or vibration not corrected, it can be damaged beyond repair.
When stopping the engine
1) Run the engine at idle for 5 minutes before stopping.
1) If the engine is put to a stop after being operated at high load, heat from the red-hot turbine blades is transmitted to the bearing portion and burns oil to cause seizure of the bearing metal and rotating shaft.
5.4.5. Walk-around check and servicing
As the condition of turbocharger depends greatly on how well the engine is serviced, it is very important to maintain the engine in accordance with the specified maintenance procedure. 1) Intake system
Pay particular attention to the air cleaner when servicing the intake system. In the case of wet-type air cleaner, if the level of oil surface is lower than specified, cleaning effect is poor; if too high, the cleaner draws in oil to foul the case. Especially, if the rotor is fouled, the sophisticatedly-tuned balance is broken to create vibration and to cause seizure and unusual wear to the bearing. Therefore, it is very important to use a good quality air cleaner all the time. In the case of dry-type air cleaner, it is essential to clean it to reduce intake resistance as much as possible.
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2) Exhaust system
Pay particular attention to prevent gas leaks and seizure when servicing the exhaust system because leakage of exhaust gas from discharge pipes, turbocharger fixing portions, etc. lowers charging effect. As such components as turbine chamber that becomes red-hot during operation use heat resisting steel nuts, do not interchange these nuts with ordinary steel nuts. In addition, apply anti-seizure coating to fixing nuts on the portions as designated.
3) Lubricating system
Pay particular attention to oil quality and oil filter change intervals when servicing the lubricating system. Deteriorated engine oil affects adversely not only the engine but torso the turbocharger. Suggested engine oils for the turbocharger-mounted engine are as follows:
Recommend oil Engine
model SAE No. API No.
DB58 DB58T DB58TI
SAE 15W40 above CD or CE
DB58S DB58TIS
SAE15W40SAE10W40
ACEA-E2 or ACEA-E3(API CH-4)
5.4.6. Periodical checking and servicing
Make it a rule to check the turbocharger assembly for condition and contamination periodically.
1) Guide for checking the rotor for rotating condition
The inspection of the rotor assembly for rotating condition should be performed by the degree of unusual sound. If a sound detecting bar is used, install its tip on the turbocharger housing and increase the engine revolutions slowly. If a high-pitch sound is heard continuously, it means that the rotor assembly is not normal. In this case, as the metal bearing and rotor are likely to be in abnormal conditions, the turbocharger should be replaced or repaired.
2) Guide for checking rotor end play
Disassemble the turbocharger from the engine, then check the rotor axial play and radial play. When disassembling the turbocharger, be sure to plug the oil inlet and outlet ports with taps, etc.
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(1) Rotor axial play
(2) Rotor radial play
(3) If the measured axial and radial plays are beyond the limit of wear, replace or
repair the turbocharger. 3) Guide for disassembling/cleaning and checking the turbocharger
First, disassemble the turbocharger from the engine and clean/check it with the oil inlet and outlet plugged with tape and so on.
4) Precautions for reassembling the turbocharger onto the engine
For reassembly of the turbocharger or handling it after reassembly operation, be sure to observe the following precautions: Especially, exercise extreme care to prevent foreign matters from entering the inside of the turbocharger.
(1) Lubricating system
Before reassembling the turbocharger onto the engine, inject new oil in the oil inlet port and lubricate the journal and thrust bearings by rotating them with hand .
Clean not only the pipes installed between the engine and oil inlet port but also the oil outlet pipe and check them for damage or foreign matters.
Assemble each joint on oil pipes securely to prevent oil leaks.
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(2) Intake system
Check the inside of the intake system for foreign matters. Assemble each joint on the intake duct and air cleaner securely to prevent
air leaks. (3) Exhaust system
Check the inside of the exhaust system for foreign matters. Be sure to use heat resisting steel bolts and nuts. Do not interchange them
with ordinary steel bolts and nuts when performing reassembly operation. Apply anti-seizure coating to the bolts and nuts.
Assemble each joint on the exhaust pipes securely to prevent gas leaks. 5.4.7. Diagnostics and troubleshooting
Complaints Possible causes Corrections
1) Air cleaner element clogged Replace or clean
2) Restrictions in air duct Check and correct
3) Leakage at intake manifold Check and correct
4) Turbocharger seized up and not rotating Disassemble/repair
or replace
5) Turbine blades and compressor blades coming in
contact with each other or damaged
Disassemble/repair
or replace
1. Excessive black smoke
6) Exhaust piping deformed or clogged Check and correct
1) Oil leak into turbine and compressor Disassemble/repair
or replace
2. Excessive white smoke
2) Worn or damaged seal ring due to excessive wear
of bearing
Disassemble/repair
or replace
1) Gas leak at each part of exhaust system Check and correct
2) Air cleaner element restricted Replace or clean
3) Turbocharger fouled or damaged Disassemble/repair
or replace
3. Low engine output
4) Leakage at discharge port on compressor side Check and correct
1) Rotor assembly coming in contact Disassemble/repair
or replace
2) Unbalanced rotation of rotor Disassemble/repair
or replace
3) Seized up Disassemble/repair
or replace
4. Unusual sound or vibration
4) Each joint loosened Check and correct
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Maintenance of major components
5.5. Air Intake System 5.5.1. Maintenance
(only when engine is switched off) Empty the dust bowl (7) regularly. The bowl should never be filled more than halfway with dust. On slipping off the two clamps (3), the dust bowl can be removed. Take off the cover (6) of the dust bowl and empty. Be careful to assemble cover and bowl correctly. There is a recess in the cover rim and a lug on the collector which should register. Where the filter is installed horizontally, watch for “top” mark on cleaner bowl.
5.5.2. Changing filter element
On removing the hexagon nut, take out the dirty cartridge and renew or clean.
Wipe the cleaner housing with a damp cloth, in particular the sealing surface for the element.
NOTE: Do not allow dirt to get into the clean air end.
1. Connection port, fouling indicator 2. Cleaner housing 3. Clamp 4. Element 5. Hexagon nut 6. Cover 7. Dust bowl
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Maintenance of major components
5.5.3. Cleaning filter elements
By compressed air (wear goggles) - For the purpose, the air gun should
be fitted with a nozzle extension which is bent 90° at the discharge end and which is long enough to reach down inside to the bottom of the element.
- Moving the air gun up and down, blow out the element from the inside (maximum 500kPa - 5 bar) until no more dust comes out of the filter pleats.
By washing - Before washing, the element should
be precleaned by means of compressed air, as described above.
- Then allow the element to soak in lukewarm washing solvent for 10 minutes, and then move it to and for in the solvent for about 5 minutes.
- Rinse thoroughly in clean water, shake out and allow drying at room temperature. The cartridge must be dry before it is reinstalled.
- Never use steam sprayers, petrol (gasoline), alkalis or hot liquids etc. to clean the filter elements.
Knocking out dirt by hand - In emergencies, when no compressed air or cleaning agent is available, it is
possible to clean the filter cartridge provisionally by hitting the end disk of the cartridge with the ball of one's thumb.
- Under no circumstances should the element be hit with a hard object or knocked against a hard surface to loosen dirt deposits.
Checking the filter cartridge - Before reinstalling the cartridge, it
must be checked for damage e.g. to the paper pleats and rubber gaskets, or for bulges and dents etc. in the metal jacket.
- Cracks and holes in the paper pleating can be established by inspecting the cartridge with a flashlight.
- Damaged cartridges should not be reused under any circumstances. In cases of doubt, discard the cartridge and install a new one.
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Special tools
6. Special Tool List
No. Part No. Figure Tool Name Remark
1 EU.2-0529
Compression gauge adapter
2 EF122-249
Valve spring compressor
3 EF.122-265
Crankshaft gear punch
4 EF.122-253
Crankshaft pilot bearing remover
5 EF.122-251
Pilot bearing punch
6 EF.122-262A
Crankshaft rear oil seal installer
7 EF.122-255
Crankshaft front oil seal installer
8 EF.122-289
Valve stem oil seal installer
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Special tools
No. Part No. Figure Tool Name Remark
9 E1.03901-0124
Piston insert sleeve
10 EF.122-281
Cylinder liner remover
11 EF122-261
Cylinder liner installer
12 EU.1-0022
Pulley bush puncher
13 EU.2-0328
Pulley bush puller
14 60.99901-0027
Feeler gauge
15 T7610001E
Snap ring plier
16 T7621010E
Piston ring plier
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Appendix
1) Tightening torque for major parts Major Parts Screw
(Diameter x pitch)Strength
(grade) Tightening
Torque Remarks
Cylinder head bolt M12 x 1.5 10.9T
DB58/S/T/TI
1st : 4.4 kg.m
2nd : 150°
(Angle method)
DB58TIS
1st : 4.4 kg.m
2nd : 90°
3rd 90°
(Angle method)
Connecting rod bearing cap bolt M12 x 1.5 12.9T 9.75 kg.m
Crankshaft main bearing cap bolt M16 x 2 12.9T 24.0 kg.m
Flywheel housing fixing bolt
M14 x 1.5
M16 x 1.5
10.9T
10.9T
13 kg.m
16 kg.m
Flywheel fixing bolt M16 x 1.5 10.9T 18 kg.m
Crankshaft pulley fixing nut M36 x 1.5 8.8T 60 kg.m
Oil spray nozzle hollow screw
(Relief valve assembly) M10 x 1.25 - 2.1 kg.m
2) Tightening torque for fuel injection pump system Major Parts Screw
(Diameter x pitch)Strength
(grade) Tightening
Torque Remarks
Injection nozzle nut M28 x 1.5 - 7.0 kg.m
Injection pump bracket bolt M10 8.8T 4.4 kg.m
Injection pump coupling bolt - - 6.0 ~ 6.5 kg.m
Injection pump driving gear nut M24 x 1.5 8.8T 25.0 kg.m
Injection pipe nut M14 x 1.5 8.8T 3.0 kg.m
Injection pump delivery valve holder - - 11.0 ~ 12.0 kg.m
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3) Standard bolt tightening torque table Refer to the following table for bolts other then described above
Degree of strength
3.6 4.6 4.8 5.6 5.8 6.6 6.8 6.9 8.8 10.9 12.9
(4A) (4D) (4S) (5D) (5S) (6D) (6S) (6G) (8G) (10K) (12K)
Limit value for elasticity (kg/mm2)
20 24 32 30 40 36 48 54 64 90 108
Diameter x
pitch (mm)
Tightening torque (kg.m) M5 0.15 0.16 0.25 0.22 0.31 0.28 0.43 0.48 0.5 0.75 0.9 M6 0.28 0.30 0.45 0.4 0.55 0.47 0.77 0.85 0.9 1.25 0.5 M7 0.43 0.46 0.7 0.63 0.83 0.78 1.2 1.3 1.4 1.95 2.35M8 0.7 0.75 1.1 1 1.4 1.25 1.9 2.1 2.2 3.1 3.8 M8x1 0.73 0.8 1.2 1.1 1.5 1.34 2.1 2.3 2.4 3.35 4.1 M10 1.35 1.4 2.2 1.9 2.7 2.35 3.7 4.2 4.4 6.2 7.4 M10x1 1.5 1.6 2.5 2.1 3.1 2.8 4.3 4.9 5 7 8.4 M12 2.4 2.5 3.7 3.3 4.7 4.2 6.3 7.2 7.5 10.5 12.5M12x1.5 2.55 2.7 4 3.5 5 4.6 6.8 7.7 8 11.2 13.4M14 3.7 3.9 6 5.2 7.5 7 10 11.5 12 17 20 M14x1.5 4.1 4.3 6.6 5.7 8.3 7.5 11.1 12.5 13 18.5 22 M16 5.6 6 9 8 11.5 10.5 17.9 18.5 18 26 31 M16x1.5 6.2 6.5 9.7 8.6 12.5 11.3 17 19.5 20 28 33 M18 7.8 8.3 12.5 11 16 14.5 21 24.2 25 36 43 M18x1.5 9.1 9.5 14.5 12.5 18.5 16.7 24.5 27.5 28 41 49 M20 11.5 12 18 16 22 19 31.5 35 36 51 60 M20x1.5 12.8 13.5 20.5 18 25 22.5 35 39.5 41 58 68 M22 15.5 16 24.5 21 30 26 42 46 49 67 75 M22x1.5 17 18.5 28 24 34 29 47 52 56 75 85 M24 20.5 21.5 33 27 40 34 55 58 63 82 92 M24x1.5 23 25 37 31 45 38 61 67 74 93 103Others :
1. The above torque rating have been determined to 70% or so of the limit value for bolt elasticity.
2. Tension is calculated by multiplying tensile strength by cross section of thread. 3. Special screws should be tightened to 85% or so of the standard value.
For example, a screw coated with MoS2 should be tightened to 60% or so of the standard value.
4) Tightening torque for hollow screw(4-hole) Material M8 M10 M12 M14 M16 M18 M22 M26 M30 M38SM25C - 1.6 2.5 3.5 4.5 5.5 9.0 13.0 18.0 30.0
★ SUM22L 0.8 1.8 3.0 4.0 5.5 6.5 11.0 16.0 20.0 35.0STS304 0.8 1.8 3.0 4.0 5.5 6.5 11.0 16.0 20.0 35.0★: Adopted in DAEWOO engine
186
5) Engine assembly DB58-Fork lift – RFJ
a) DB58-Fork lift : EARFJ
187
b) DB58T- Excavator : EATEI
188
c) DB58TI – Excavator : EAOLB
189
d) DB58TIS – Excavator : ECOEB
190
e) DB58TIS – Excavator : ECOEG
Parts Center
Applications for Daewoo Engine
Worldwide Network
Parts center 85-1 Palgok Ei-dong, Sangnok-gu Ansan-shi Kyunggi-do, Korea Tel. : 82-31-400-2206 Fax. : 82-31-400-2255 http://www.dhiltd.co.kr , http://cs.dhiltd.co.kr
Applications for Daewoo Engine
■ Automotive & Industrial Engines ■ Marine Propulsion Engines
Model Power
kW(PS)/rpm Model
Power kW(PS)/rpm
Model Power kW(PS)/rpm Model Power kW(PS)/rpm
For Vehicle
D1146 D1146TI DE08TIS GE08TI DE12 DE12T
133(181)/2,500 158(215)/2,200 176(240)/2,300 191(260)/2,300 169(230)/2,200 220(300)/2,200
DE12TI DE12TIS GE12TI DV15T DV15TI DV15TIS
250(340)/2,100 250(340)/2,100 250(340)/2,100 272(370)/2,300 309(420)/2,100 309(420)/2,100
For Industrial
DC23 DC24 DC24T DB33 DB33A DB58 DB58S DB58T DB58TI
37(50)/3,000 41(56)/3,000 41(55)/2,600 53(72)/3,000 46(63)/2,300
96(130)/2,800 75(102)/2,200 104(142)/2,500 112(152)/2,200
D1146 D1146T D1146TI DE08TIS DE12T DE12TI DE12TIS DV15T
115(156)/2,200 140(190)/2,200 162(220)/2,200 151(205)/1,900 188(255)/2,000 213(290)/2,000 238(323)/2,000 238(324)/2,300
L034 L034TIH MD136 MD136T MD136TI L086TIH L086TIM MD196T MD196TI
51(70)/3,000 88(120)/3,000 118(160)/2,200 147(200)/2,200 169(230)/2,200 210(285)/2,100 232(315)/2,300 206(280)/2,000 235(320)/2,000
L126TIH L126TIM V158TIH V158TIM V180TIH V180TIM V222TIH V222TIM
265(360)/2,000 294(400)/2,100 353(480)/1,800 397(540)/2,100 441(600)/1,800 478(650)/2,100 530(720)/1,800 588(800)/2,100
■ Generator Set Engines (G-Drive & G-Pac)
Power (Output ISO 3046) Power(Output ISO 3046)
@ 1,800rpm @ 1,500rpm @ 1,800rpm @ 1,500rpm
Power (Stand-by) Power (Prime) Power (Stand-by) Power (Prime) Power (Stand-by) Power (Prime) Power (Stand-by) Power (Prime)Model
kW(PS) kW(PS) kW(PS) kW(PS)
Model
kW(PS) kW(PS) kW(PS) kW(PS)
DC23-2 DC23-1 DC23 DC24 DC24T DB33 P034TI DB58 D1146 D1146T P086TI-1 DE12T
13(17) 18(25) 24(33) 25(34) 32(43) 35(47) 60(82) 70(95)
105(143) 138(187) 191(303) 199(270)
11(15) 17(23) 22(30) 23(31) 29(39) 32(43) 55(75) 64(87) 96(130) 125(170) 174(279) 180(245)
15(11) 16(22) 19(26) 21(28) 26(36) 29(39) 48(65) 59(80) 85(116)
118(160) 164(270) 166(226)
14(10) 15(20) 18(24) 18(25) 24(32) 26(35) 42(57) 54(73) 77(105) 107(145) 149(420) 151(205)
P086TI P126TI-1 P126TI P126TI-2 P158LE-2 P158LE-1 P158LE P180LE-1 P180LE P222LE-1 P222LE
223(260) 288(392) 298(405) 342(465) 361(491) 402(546) 443(602) 498(677) 540(734) 625(850) 649(883)
205(237) 262(356) 278(378)
- 329(447) 366(498) 402(547) 454(617) 497(676) 563(765) 591(803)
199(223) -
272(370) -
321(437) 362(492) 414(563) 442(601) 496(674) 552(750) 574(781)
177(203) -
241328) -
293(399) 327(444) 363(494) 403(548) 443(602) 496(675) 532(723)
■ Marine Auxiliary Engines
Power (Output ISO 3046) Power
(Output ISO 3046) Power
(Output ISO 3046) Power
(Output ISO 3046) Model kW(PS) @ 1,500rpm
Model kW(PS) @ 1,500rpm
Model
kW(PS) @ 1,800rpm Model
kW(PS) @ 1,800rpmAD034F AD136F AD136TIF AD196TF AD126TIF AD180TIF
26(35) 77(105) 121(165) 155(210) 206(280) 357(485)
AD034TIF AD136TF AD086TIF AD196TIF AD158TIF AD222TIF
42(57) 107(145) 151(205) 173(235) 302(410) 446(606)
AD034S AD136S AD136TIS AD196TS AD126TIS AD180TIS
32(43) 93(126) 143(195) 181(246) 247(336) 441(600)
AD034TIS AD136TS AD086TIS AD196TIS AD158TIS AD222TIS
55(75) 125(170) 186(253) 199(270) 353(480) 530(720)
■ Generator Sets ■ Marine Generator Sets Generator Set Model Power (kW/kVA) Power (kW/kVA)
1800rpm(60Hz) 1500rpm(60Hz) 1800rpm(60Hz) 1500rpm(60Hz)Power
(Stand-by) Power (Prime)
Power (Stand-by)
Power (Prime) Power (Prime) Power (Prime)
Power (Stand-by)
Power (Prime)
Suffix
Engine Model
kW/kVA kW/kVA kW/kVA kW/kVA
Generator Set
Engine Model
kW/kVA kW/kVA
PNM PNB PNJ PNK PND PNE PNL PNI PNZ PNS PNY
DB33 AD034TI AD136
AD136T AD136TI AD086TI AD196TI AD126TI AD158TI AD180TI AD222TI
24/30 50/63
80/100 104/130 132/165 172/215 176/220 224/280 328/410 400/500 500/625
20/25 36/45 68/85 96/120 108/135 136/170 160/200 192/240 276/345 332/415 408/510
■ Power Units
Model Power
kW(PS)/rpm Model
Power kW(PS)/rpm
DW10E
DW15E
DW20E
DW26E
DW50E
DW60E
DW85E
DW115E
DW170E
DW200E
DW260E
DW275E
DW320E
DW360E
DW400E
DW450E
DW500E
DW600E
DW10
DW15
DW20
DW26
DW50
DW60
DW85
DW115
DW170
DW200
DW260
DW275
DW320
DW360
DW400
DW450
DW500
DW600
PIG
PIH
PIF
PJF
PII
PJM
PIA
PJB
PJJ
PJK
PIE
PJE
PIL
PIW
PIQ
PIZ
PIS
PIY
PIO
PIM
PIN
DC23-2
DC23-1
DC23
DC24
DC24T
DB33
P034TI
DB58
D1146
D1146T
P086TI-1
DE12T
P086TI
P126TI-1
P126TI
P158LE-2
P158LE-1
P158LE
P180LE-1
P180LE
P222LE
10/13
15/19
20/25
20/25
26/33
26/33
50/63
60/75
85/106
115/144
170/212
170/213
200/250
260/325
275/344
320/400
360/450
400/500
450/563
500/625
600/750
9/11
14/17
18/23
18/23
24/30
24/30
45/56
55/69
77/96
105/131
155/194
155/194
182/228
235/294
250/313
290/362
327/409
364/455
409/511
445/556
541/676
9/11
13/17
16/20
16/20
22/27
22/27
40/50
48/60
70/88
101/126
145/181
145/181
176/220
-
242/303
282/353
320/400
370/463
396/495
440/550
528/660
8/10
12/15
14/18
14/18
20/24
20/25
36/45
44/55
64/80
92/115
132/165
132/165
160/200
-
220/275
256/320
288/360
320/400
360/450
400/500
480/600
PU024 PU024T PU034 PU066
32(44)/2,800 40(55)/2,600 50(68)/3,000 85(116)/2,800
PU086 PU086T PU086TI
116(160)/2,200 151(205)/2,200213(290)/2,200