Rothe Erde GmbH Slewing Bearing
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Transcript of Rothe Erde GmbH Slewing Bearing
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5grease sample
analysis
bearing wear measurement
depression measurement/tilting clearance measurement
comment to the customer
comparisionto reference
sample
comparisionto basic
measurement
result
normal increased wear extrem wear
Rothe Erde Slewing Rings.Bearing Inspection Offshore Cranes.
A ThyssenKruppTechnologies
companyRothe Erde
TKKD 125
Re-seal the sampling ports withthe plugging elements.
Re-seal the end of the tubeafter grease removal.
Cut off the tube at the markedpoint and seal also the cutpoint (Fig. 9).
Place the sample into an ap-propriately identified samplecontainer and send it to RE.
RE will send the collected greasesamples to a qualified institute foranalysis. The result and the REcomments will be passed on tothe customer.
The measured axial reduction ortilting clearances are entered intothe table together with the result
Fig. 9:Production of the sample sections. Slewing Rings General Diagnosis.
Fig. 10: Wear curves
1) limit values see tables 1 through 3.
of the later grease sample analy-sis. Allocation of these valuespermits to make statements onthe actual condition of the race-way system.
Wear Curves
The two diagrams show the prin-ciple of bearing wear progression(Fig. 10). Maximum permissiblewear indication 2 % FE-content(20.000 ppm).
Test Certificate for Rothe Erde Slewing Rings
Rothe Erde GmbHTremoniastrasse 5-11D-44137 DortmundPhone: +49 (2 31) 186 - 0Fax: +49 (2 31) 1 86 - 25 00E-mail: [email protected]: www.rotheerde.com
9.02
/1.0
Thi
s pu
blic
atio
n m
ay n
ot b
e re
prod
uced
in w
hole
or
in pa
rts,
with
out p
erm
issi
on. A
ll rig
hts
rese
rved
. Prin
ted
in G
erm
any.
Customer: Application: Location:
RE drawing-no.: RE-order-no.: Year of manufacture:
Date
Service-hours 0
Repeated measurements (every 12 months)
Measuring point Basic 1 2 3 4 5 6 7measurement
1Boom
180 offset
2Boom
180 offset
3Boom
180 offset
4Boom
180 offset
1
2
3
4
5
6
Grease type
Greasing systemQuantity/interval
Remarks
Gre
ase-
sam
ple
no.
Fe-m
agn.
par
ticle
(%)
runn-inginpe-riod
normal wear in-creasedwear
extremwear
Schematic limit)1
Schematic limit
Fe M
agne
tic p
artic
le (
Wei
ght %
)B
ase
valu
eA
xial
mov
emen
t/w
ear
(mm
)
working hours
time
time
www.bergab.ru [email protected] . (495)-228-06-21, (495) 223-3071
www.bergab.ru [email protected] . (495)-228-06-21, (495) 223-3071
-
2 Bearing Inspection
Rothe Erde slewing rings aredesigned according to customer-specified loads and applications.
To determine the condition of abearing and thereby its expec-ted service lifethe slewing ringsshould be subjected to periodicinspections during their operatinglife.
Wear Measurement
For assessing the condition of abearing, we recommend that itsnormal wear rate is determined.The wear present in the racewaysystem shows itself by a changein the axial motion of the bearing.Depending on the individual con-ditions, wear can be determinedeither by measuring the tiltingclearance or by axial reductionmeasurements. Another meansof wear assessment is by greasesample analysis.
Tilting Clearance Measurement
For equipment allowing this, werecommend to measure the tiltingclearance in order to determinethe wear. The first measurementmust be performed when theequipment is put into operationin order to obtain a base valuefor subsequent repeat measure-ments.
Check the bolts. The measuringpoints have to be marked aroundthe circumference while the boomis kept in a specified position. Themeasurements are then takenbetween the lower mating struc-ture and the bearing bolted to thesuperstructure (Fig. 1).
The measurements should be ta-ken as close to the bearing aspossible in order to minimize theeffect of elastic deformations inthe system.
The first measurement should beperformed when the equipmentis put into operation in order toobtain a base value for subse-quent repeat measurements.
Fig. 2:Loading principle for axial reductionmeasurement (see also Rothe Erde maincatalogue).
3 Maximum permissible increaseof the bearing clearances
4
The dial gauges should have anaccuracy of 0.01 mm. Start withapplying the maximum backwardmoment and set the dial gaugesto zero. Then apply a forwardturning moment with load uptake,if necessary.
Slew the superstructure to themarked positions and repeat themeasurement procedure. Whenall positions have been measu-red, record the base values ob-tained in tabular form (test certi-ficate).
The measurements should be re-peated every twelve months asa minimum and under identicalconditions as the base measure-ment. The difference between thevalues measured and the basevalues represents the wear thathas occurred.
The measurements should be re-peated every twelve months asa minimum and under identicalconditions as the base measure-ment. The difference between thevalues measured and the basevalues represents the wear thathas occurred.
If the wear is found to have heavi-ly increased, the time intervalsbetween measurements shouldbe shortened.
If the acceptable wear values(tables 1, 2 and 3) are exceeded,please consult Rothe Erde.
Axial Reduction Measurement
In cases where it is not possibleto measure the tilting clearancewe recommend the axial reduc-tion measurement. Here, the cen-ter of gravity of the load combi-nation is to be within the trackdiameter of the bearing. The loa-ding principle is shown in Fig. 2.
Fig. 1:Three-row roller bearing slewing ring basictest setup for tilting clearance measure-ment.
Fig. 4:Grease sampling set.
Fig. 5:Example for three-row roller bearing slewingring with grease sampling ports.
Fig. 6:Single row ball bearing slewing ring withgrease sampling port Fig. 6.
Fig. 7:Principle of grease sampling.
Fig. 8:Main working range.
Check the bolts. Mark the respec-tive measuring positions aroundthe circumference while keepingthe boom in a specified position.
The measurements are takenbetween the lower mating struc-ture and the bearing ring boltedto the superstructure (Fig. 3).
Record the base values obtainedin tabular form and allocate themto the respective base measure-ments (test certificate).
The axial reduction measurementshould be repeated every twelvemonths as a minimum, alwaysunder identical conditions.
Fig. 3:Three-row roller bearing slewing ring basictest setup for axial reduction measurement.
Supporting raceway
Retaining raceway
offset by 180
45 45
4545
1
23
45
6
boom
In case of heavy wear the timeintervals between measurementsshould be shortened. If the devia-tion from the base measurementexceeds the maximum valuesshown in tables 1 through 3,please consult Rothe Erde. Tocontrol slewing rings, a basemeasurement has to be perfor-med when putting it into operati-on (measurement of the axial re-duction or the tilting clearance)and entered into the table. Copyto RE. In parallel, first greasesamples have to be taken. Stategrease type. Complete certificate.
An additional measurement ofthe axial reduction resp. the tiltingclearance has to be effected eve-ry 12 months. Thereafter, 6 grea-se samples have to be taken.It is thus possible to control thebearing continuously.Together with every slewing ring,the customer receives a greasesampling set. (Fig. 4). After thegrease sample analysis, onefurther set is put at disposal.
Grease sample collection Remove the sealing elements
from the sampling ports(Figs. 5 and 6).
The sampling port of the sup-porting raceway is under theboom.
Three-row bearings have oneadditional port for the retainingraceway offset by 180.
Slew the boom into the mainworking direction.
Insert flexible clear plastic tube,which is divided into sectionsof 120 mm length each andpositively connected to the suc-tion system into the boreholeup to the raceway area (Fig. 7)
While rotating the slewing ringslowly, collect the grease sam-ples 1, 2 and 3 from the sup-porting raceway always at adistance of approx. 45.
Analogously, collect the greasesamples 4, 5 and 6 from theretaining raceway (Fig. 8).
Table 1: Double-row ball bearing slewing rings (standard series KD 320)
Track diameterup to mm
Ball diameter mm
permissible increase in bearing clearance mm100012501500175020002250250027503000325035003750400045005000550060006500700075008000
1.81.9
1.81.92.0
1.92.02.12.2
1.92.02.12.22.3
2.02.12.22.32.42.5
2.12.22.32.42.52.62.72.8
2.52.62.72.82.93.03.13.23.33.43.53.6
2.82.93.03.13.23.33.43.53.63.73.83.94.04.2
3.43.53.63.73.83.94.04.14.24.34.44.54.74.95.15.3
3.63.73.83.94.04.14.24.34.44.54.64.74.95.15.35.55.75.9
4.04.14.24.34.44.54.64.74.85.05.25.45.55.75.96.16.36.5
18 20 22 25 30 35 40 45 50 60 70
Table 2: Single-row ball bearings (4-point bearings) double four-point contact bearingsand standard series KD 210
Ball diameter mm
permissible increase in bearing clearance mm100012501500175020002250250027503000325035003750400045005000550060006500700075008000
1.4 1.41.5
1.41.51.6
1.51.61.71.71.8
1.71.71.71.81.92.02.0
1.92.02.02.12.22.32.32.42.52.6
2.12.22.32.32.42.52.62.62.72.82.93.0
2.52.62.62.72.82.92.93.03.13.23.23.33.33.53.73.94.1
2.72.82.92.93.03.13.23.23.33.43.53.63.84.04.24.54.64.8
3.03.13.23.23.33.43.53.53.63.73.94.14.34.64.74.95.15.3
20 22 25 30 35 40 45 50 60 70
Table 3: Roller bearing slewing rings
roller diameter mm
permissible increase in bearing clearance mm400500630800
10001250150020002500315040005000600070008000
Track diameterup to mm
Trackdiameterup to mm
0.200.200.250.250.300.400.50
16 20
0.220.220.270.270.320.420.520.62
25
0.240.240.290.290.340.440.540.640.74
28
0.260.310.310.360.460.560.660.760.85
32
0.280.330.330.380.480.580.680.780.880.98
36
0.310.360.360.410.510.610.710.810.911.011.111.21
40
0.380.380.430.530.630.730.830.931.031.131.23
50
0.600.700.800.901.001.101.201.301.40
60
0.901.001.101.201.301.401.501.60
70
1.101.101.201.301.401.501.601.70
80
1.101.211.321.431.541.651.761.87
90
1.331.451.751.691.811.932.05
100
1.601.751.902.052.202.35
45
0.460.560.660.760.860.961.061.161.261.36
www.bergab.ru [email protected] . (495)-228-06-21, (495) 223-3071
www.bergab.ru [email protected] . (495)-228-06-21, (495) 223-3071
-
2 Bearing Inspection
Rothe Erde slewing rings aredesigned according to customer-specified loads and applications.
To determine the condition of abearing and thereby its expec-ted service lifethe slewing ringsshould be subjected to periodicinspections during their operatinglife.
Wear Measurement
For assessing the condition of abearing, we recommend that itsnormal wear rate is determined.The wear present in the racewaysystem shows itself by a changein the axial motion of the bearing.Depending on the individual con-ditions, wear can be determinedeither by measuring the tiltingclearance or by axial reductionmeasurements. Another meansof wear assessment is by greasesample analysis.
Tilting Clearance Measurement
For equipment allowing this, werecommend to measure the tiltingclearance in order to determinethe wear. The first measurementmust be performed when theequipment is put into operationin order to obtain a base valuefor subsequent repeat measure-ments.
Check the bolts. The measuringpoints have to be marked aroundthe circumference while the boomis kept in a specified position. Themeasurements are then takenbetween the lower mating struc-ture and the bearing bolted to thesuperstructure (Fig. 1).
The measurements should be ta-ken as close to the bearing aspossible in order to minimize theeffect of elastic deformations inthe system.
The first measurement should beperformed when the equipmentis put into operation in order toobtain a base value for subse-quent repeat measurements.
Fig. 2:Loading principle for axial reductionmeasurement (see also Rothe Erde maincatalogue).
3 Maximum permissible increaseof the bearing clearances
4
The dial gauges should have anaccuracy of 0.01 mm. Start withapplying the maximum backwardmoment and set the dial gaugesto zero. Then apply a forwardturning moment with load uptake,if necessary.
Slew the superstructure to themarked positions and repeat themeasurement procedure. Whenall positions have been measu-red, record the base values ob-tained in tabular form (test certi-ficate).
The measurements should be re-peated every twelve months asa minimum and under identicalconditions as the base measure-ment. The difference between thevalues measured and the basevalues represents the wear thathas occurred.
The measurements should be re-peated every twelve months asa minimum and under identicalconditions as the base measure-ment. The difference between thevalues measured and the basevalues represents the wear thathas occurred.
If the wear is found to have heavi-ly increased, the time intervalsbetween measurements shouldbe shortened.
If the acceptable wear values(tables 1, 2 and 3) are exceeded,please consult Rothe Erde.
Axial Reduction Measurement
In cases where it is not possibleto measure the tilting clearancewe recommend the axial reduc-tion measurement. Here, the cen-ter of gravity of the load combi-nation is to be within the trackdiameter of the bearing. The loa-ding principle is shown in Fig. 2.
Fig. 1:Three-row roller bearing slewing ring basictest setup for tilting clearance measure-ment.
Fig. 4:Grease sampling set.
Fig. 5:Example for three-row roller bearing slewingring with grease sampling ports.
Fig. 6:Single row ball bearing slewing ring withgrease sampling port Fig. 6.
Fig. 7:Principle of grease sampling.
Fig. 8:Main working range.
Check the bolts. Mark the respec-tive measuring positions aroundthe circumference while keepingthe boom in a specified position.
The measurements are takenbetween the lower mating struc-ture and the bearing ring boltedto the superstructure (Fig. 3).
Record the base values obtainedin tabular form and allocate themto the respective base measure-ments (test certificate).
The axial reduction measurementshould be repeated every twelvemonths as a minimum, alwaysunder identical conditions.
Fig. 3:Three-row roller bearing slewing ring basictest setup for axial reduction measurement.
Supporting raceway
Retaining raceway
offset by 180
45 45
4545
1
23
45
6
boom
In case of heavy wear the timeintervals between measurementsshould be shortened. If the devia-tion from the base measurementexceeds the maximum valuesshown in tables 1 through 3,please consult Rothe Erde. Tocontrol slewing rings, a basemeasurement has to be perfor-med when putting it into operati-on (measurement of the axial re-duction or the tilting clearance)and entered into the table. Copyto RE. In parallel, first greasesamples have to be taken. Stategrease type. Complete certificate.
An additional measurement ofthe axial reduction resp. the tiltingclearance has to be effected eve-ry 12 months. Thereafter, 6 grea-se samples have to be taken.It is thus possible to control thebearing continuously.Together with every slewing ring,the customer receives a greasesampling set. (Fig. 4). After thegrease sample analysis, onefurther set is put at disposal.
Grease sample collection Remove the sealing elements
from the sampling ports(Figs. 5 and 6).
The sampling port of the sup-porting raceway is under theboom.
Three-row bearings have oneadditional port for the retainingraceway offset by 180.
Slew the boom into the mainworking direction.
Insert flexible clear plastic tube,which is divided into sectionsof 120 mm length each andpositively connected to the suc-tion system into the boreholeup to the raceway area (Fig. 7)
While rotating the slewing ringslowly, collect the grease sam-ples 1, 2 and 3 from the sup-porting raceway always at adistance of approx. 45.
Analogously, collect the greasesamples 4, 5 and 6 from theretaining raceway (Fig. 8).
Table 1: Double-row ball bearing slewing rings (standard series KD 320)
Track diameterup to mm
Ball diameter mm
permissible increase in bearing clearance mm100012501500175020002250250027503000325035003750400045005000550060006500700075008000
1.81.9
1.81.92.0
1.92.02.12.2
1.92.02.12.22.3
2.02.12.22.32.42.5
2.12.22.32.42.52.62.72.8
2.52.62.72.82.93.03.13.23.33.43.53.6
2.82.93.03.13.23.33.43.53.63.73.83.94.04.2
3.43.53.63.73.83.94.04.14.24.34.44.54.74.95.15.3
3.63.73.83.94.04.14.24.34.44.54.64.74.95.15.35.55.75.9
4.04.14.24.34.44.54.64.74.85.05.25.45.55.75.96.16.36.5
18 20 22 25 30 35 40 45 50 60 70
Table 2: Single-row ball bearings (4-point bearings) double four-point contact bearingsand standard series KD 210
Ball diameter mm
permissible increase in bearing clearance mm100012501500175020002250250027503000325035003750400045005000550060006500700075008000
1.4 1.41.5
1.41.51.6
1.51.61.71.71.8
1.71.71.71.81.92.02.0
1.92.02.02.12.22.32.32.42.52.6
2.12.22.32.32.42.52.62.62.72.82.93.0
2.52.62.62.72.82.92.93.03.13.23.23.33.33.53.73.94.1
2.72.82.92.93.03.13.23.23.33.43.53.63.84.04.24.54.64.8
3.03.13.23.23.33.43.53.53.63.73.94.14.34.64.74.95.15.3
20 22 25 30 35 40 45 50 60 70
Table 3: Roller bearing slewing rings
roller diameter mm
permissible increase in bearing clearance mm400500630800
10001250150020002500315040005000600070008000
Track diameterup to mm
Trackdiameterup to mm
0.200.200.250.250.300.400.50
16 20
0.220.220.270.270.320.420.520.62
25
0.240.240.290.290.340.440.540.640.74
28
0.260.310.310.360.460.560.660.760.85
32
0.280.330.330.380.480.580.680.780.880.98
36
0.310.360.360.410.510.610.710.810.911.011.111.21
40
0.380.380.430.530.630.730.830.931.031.131.23
50
0.600.700.800.901.001.101.201.301.40
60
0.901.001.101.201.301.401.501.60
70
1.101.101.201.301.401.501.601.70
80
1.101.211.321.431.541.651.761.87
90
1.331.451.751.691.811.932.05
100
1.601.751.902.052.202.35
45
0.460.560.660.760.860.961.061.161.261.36
www.bergab.ru [email protected] . (495)-228-06-21, (495) 223-3071
www.bergab.ru [email protected] . (495)-228-06-21, (495) 223-3071
-
2 Bearing Inspection
Rothe Erde slewing rings aredesigned according to customer-specified loads and applications.
To determine the condition of abearing and thereby its expec-ted service lifethe slewing ringsshould be subjected to periodicinspections during their operatinglife.
Wear Measurement
For assessing the condition of abearing, we recommend that itsnormal wear rate is determined.The wear present in the racewaysystem shows itself by a changein the axial motion of the bearing.Depending on the individual con-ditions, wear can be determinedeither by measuring the tiltingclearance or by axial reductionmeasurements. Another meansof wear assessment is by greasesample analysis.
Tilting Clearance Measurement
For equipment allowing this, werecommend to measure the tiltingclearance in order to determinethe wear. The first measurementmust be performed when theequipment is put into operationin order to obtain a base valuefor subsequent repeat measure-ments.
Check the bolts. The measuringpoints have to be marked aroundthe circumference while the boomis kept in a specified position. Themeasurements are then takenbetween the lower mating struc-ture and the bearing bolted to thesuperstructure (Fig. 1).
The measurements should be ta-ken as close to the bearing aspossible in order to minimize theeffect of elastic deformations inthe system.
The first measurement should beperformed when the equipmentis put into operation in order toobtain a base value for subse-quent repeat measurements.
Fig. 2:Loading principle for axial reductionmeasurement (see also Rothe Erde maincatalogue).
3 Maximum permissible increaseof the bearing clearances
4
The dial gauges should have anaccuracy of 0.01 mm. Start withapplying the maximum backwardmoment and set the dial gaugesto zero. Then apply a forwardturning moment with load uptake,if necessary.
Slew the superstructure to themarked positions and repeat themeasurement procedure. Whenall positions have been measu-red, record the base values ob-tained in tabular form (test certi-ficate).
The measurements should be re-peated every twelve months asa minimum and under identicalconditions as the base measure-ment. The difference between thevalues measured and the basevalues represents the wear thathas occurred.
The measurements should be re-peated every twelve months asa minimum and under identicalconditions as the base measure-ment. The difference between thevalues measured and the basevalues represents the wear thathas occurred.
If the wear is found to have heavi-ly increased, the time intervalsbetween measurements shouldbe shortened.
If the acceptable wear values(tables 1, 2 and 3) are exceeded,please consult Rothe Erde.
Axial Reduction Measurement
In cases where it is not possibleto measure the tilting clearancewe recommend the axial reduc-tion measurement. Here, the cen-ter of gravity of the load combi-nation is to be within the trackdiameter of the bearing. The loa-ding principle is shown in Fig. 2.
Fig. 1:Three-row roller bearing slewing ring basictest setup for tilting clearance measure-ment.
Fig. 4:Grease sampling set.
Fig. 5:Example for three-row roller bearing slewingring with grease sampling ports.
Fig. 6:Single row ball bearing slewing ring withgrease sampling port Fig. 6.
Fig. 7:Principle of grease sampling.
Fig. 8:Main working range.
Check the bolts. Mark the respec-tive measuring positions aroundthe circumference while keepingthe boom in a specified position.
The measurements are takenbetween the lower mating struc-ture and the bearing ring boltedto the superstructure (Fig. 3).
Record the base values obtainedin tabular form and allocate themto the respective base measure-ments (test certificate).
The axial reduction measurementshould be repeated every twelvemonths as a minimum, alwaysunder identical conditions.
Fig. 3:Three-row roller bearing slewing ring basictest setup for axial reduction measurement.
Supporting raceway
Retaining raceway
offset by 180
45 45
4545
1
23
45
6
boom
In case of heavy wear the timeintervals between measurementsshould be shortened. If the devia-tion from the base measurementexceeds the maximum valuesshown in tables 1 through 3,please consult Rothe Erde. Tocontrol slewing rings, a basemeasurement has to be perfor-med when putting it into operati-on (measurement of the axial re-duction or the tilting clearance)and entered into the table. Copyto RE. In parallel, first greasesamples have to be taken. Stategrease type. Complete certificate.
An additional measurement ofthe axial reduction resp. the tiltingclearance has to be effected eve-ry 12 months. Thereafter, 6 grea-se samples have to be taken.It is thus possible to control thebearing continuously.Together with every slewing ring,the customer receives a greasesampling set. (Fig. 4). After thegrease sample analysis, onefurther set is put at disposal.
Grease sample collection Remove the sealing elements
from the sampling ports(Figs. 5 and 6).
The sampling port of the sup-porting raceway is under theboom.
Three-row bearings have oneadditional port for the retainingraceway offset by 180.
Slew the boom into the mainworking direction.
Insert flexible clear plastic tube,which is divided into sectionsof 120 mm length each andpositively connected to the suc-tion system into the boreholeup to the raceway area (Fig. 7)
While rotating the slewing ringslowly, collect the grease sam-ples 1, 2 and 3 from the sup-porting raceway always at adistance of approx. 45.
Analogously, collect the greasesamples 4, 5 and 6 from theretaining raceway (Fig. 8).
Table 1: Double-row ball bearing slewing rings (standard series KD 320)
Track diameterup to mm
Ball diameter mm
permissible increase in bearing clearance mm100012501500175020002250250027503000325035003750400045005000550060006500700075008000
1.81.9
1.81.92.0
1.92.02.12.2
1.92.02.12.22.3
2.02.12.22.32.42.5
2.12.22.32.42.52.62.72.8
2.52.62.72.82.93.03.13.23.33.43.53.6
2.82.93.03.13.23.33.43.53.63.73.83.94.04.2
3.43.53.63.73.83.94.04.14.24.34.44.54.74.95.15.3
3.63.73.83.94.04.14.24.34.44.54.64.74.95.15.35.55.75.9
4.04.14.24.34.44.54.64.74.85.05.25.45.55.75.96.16.36.5
18 20 22 25 30 35 40 45 50 60 70
Table 2: Single-row ball bearings (4-point bearings) double four-point contact bearingsand standard series KD 210
Ball diameter mm
permissible increase in bearing clearance mm100012501500175020002250250027503000325035003750400045005000550060006500700075008000
1.4 1.41.5
1.41.51.6
1.51.61.71.71.8
1.71.71.71.81.92.02.0
1.92.02.02.12.22.32.32.42.52.6
2.12.22.32.32.42.52.62.62.72.82.93.0
2.52.62.62.72.82.92.93.03.13.23.23.33.33.53.73.94.1
2.72.82.92.93.03.13.23.23.33.43.53.63.84.04.24.54.64.8
3.03.13.23.23.33.43.53.53.63.73.94.14.34.64.74.95.15.3
20 22 25 30 35 40 45 50 60 70
Table 3: Roller bearing slewing rings
roller diameter mm
permissible increase in bearing clearance mm400500630800
10001250150020002500315040005000600070008000
Track diameterup to mm
Trackdiameterup to mm
0.200.200.250.250.300.400.50
16 20
0.220.220.270.270.320.420.520.62
25
0.240.240.290.290.340.440.540.640.74
28
0.260.310.310.360.460.560.660.760.85
32
0.280.330.330.380.480.580.680.780.880.98
36
0.310.360.360.410.510.610.710.810.911.011.111.21
40
0.380.380.430.530.630.730.830.931.031.131.23
50
0.600.700.800.901.001.101.201.301.40
60
0.901.001.101.201.301.401.501.60
70
1.101.101.201.301.401.501.601.70
80
1.101.211.321.431.541.651.761.87
90
1.331.451.751.691.811.932.05
100
1.601.751.902.052.202.35
45
0.460.560.660.760.860.961.061.161.261.36
www.bergab.ru [email protected] . (495)-228-06-21, (495) 223-3071
www.bergab.ru [email protected] . (495)-228-06-21, (495) 223-3071
-
5grease sample
analysis
bearing wear measurement
depression measurement/tilting clearance measurement
comment to the customer
comparisionto reference
sample
comparisionto basic
measurement
result
normal increased wear extrem wear
Rothe Erde Slewing Rings.Bearing Inspection Offshore Cranes.
A ThyssenKruppTechnologies
companyRothe Erde
TK
KD 125
Re-seal the sampling ports withthe plugging elements.
Re-seal the end of the tubeafter grease removal.
Cut off the tube at the markedpoint and seal also the cutpoint (Fig. 9).
Place the sample into an ap-propriately identified samplecontainer and send it to RE.
RE will send the collected greasesamples to a qualified institute foranalysis. The result and the REcomments will be passed on tothe customer.
The measured axial reduction ortilting clearances are entered intothe table together with the result
Fig. 9:Production of the sample sections. Slewing Rings General Diagnosis.
Fig. 10: Wear curves
1) limit values see tables 1 through 3.
of the later grease sample analy-sis. Allocation of these valuespermits to make statements onthe actual condition of the race-way system.
Wear Curves
The two diagrams show the prin-ciple of bearing wear progression(Fig. 10). Maximum permissiblewear indication 2 % FE-content(20.000 ppm).
Test Certificate for Rothe Erde Slewing Rings
Rothe Erde GmbHTremoniastrasse 5-11D-44137 DortmundPhone: +49 (2 31) 186 - 0Fax: +49 (2 31) 1 86 - 25 00E-mail: [email protected]: www.rotheerde.com
9.02
/1.0
Thi
s pu
blic
atio
n m
ay n
ot b
e re
prod
uced
in w
hole
or
in pa
rts,
with
out p
erm
issi
on. A
ll rig
hts
rese
rved
. Prin
ted
in G
erm
any.
Customer: Application: Location:
RE drawing-no.: RE-order-no.: Year of manufacture:
Date
Service-hours 0
Repeated measurements (every 12 months)
Measuring point Basic 1 2 3 4 5 6 7measurement
1Boom
180 offset
2Boom
180 offset
3Boom
180 offset
4Boom
180 offset
1
2
3
4
5
6
Grease type
Greasing systemQuantity/interval
Remarks
Gre
ase-
sam
ple
no.
Fe-m
agn.
par
ticle
(%)
runn-inginpe-riod
normal wear in-creasedwear
extremwear
Schematic limit)1
Schematic limit
Fe M
agne
tic p
artic
le (
Wei
ght %
)B
ase
valu
eA
xial
mov
emen
t/w
ear
(mm
)
working hours
time
time
www.bergab.ru [email protected] . (495)-228-06-21, (495) 223-3071
www.bergab.ru [email protected] . (495)-228-06-21, (495) 223-3071
-
5grease sample
analysis
bearing wear measurement
depression measurement/tilting clearance measurement
comment to the customer
comparisionto reference
sample
comparisionto basic
measurement
result
normal increased wear extrem wear
Rothe Erde Slewing Rings.Bearing Inspection Offshore Cranes.
A ThyssenKruppTechnologies
companyRothe Erde
TK
KD 125
Re-seal the sampling ports withthe plugging elements.
Re-seal the end of the tubeafter grease removal.
Cut off the tube at the markedpoint and seal also the cutpoint (Fig. 9).
Place the sample into an ap-propriately identified samplecontainer and send it to RE.
RE will send the collected greasesamples to a qualified institute foranalysis. The result and the REcomments will be passed on tothe customer.
The measured axial reduction ortilting clearances are entered intothe table together with the result
Fig. 9:Production of the sample sections. Slewing Rings General Diagnosis.
Fig. 10: Wear curves
1) limit values see tables 1 through 3.
of the later grease sample analy-sis. Allocation of these valuespermits to make statements onthe actual condition of the race-way system.
Wear Curves
The two diagrams show the prin-ciple of bearing wear progression(Fig. 10). Maximum permissiblewear indication 2 % FE-content(20.000 ppm).
Test Certificate for Rothe Erde Slewing Rings
Rothe Erde GmbHTremoniastrasse 5-11D-44137 DortmundPhone: +49 (2 31) 186 - 0Fax: +49 (2 31) 1 86 - 25 00E-mail: [email protected]: www.rotheerde.com
9.02
/1.0
Thi
s pu
blic
atio
n m
ay n
ot b
e re
prod
uced
in w
hole
or
in pa
rts,
with
out p
erm
issi
on. A
ll rig
hts
rese
rved
. Prin
ted
in G
erm
any.
Customer: Application: Location:
RE drawing-no.: RE-order-no.: Year of manufacture:
Date
Service-hours 0
Repeated measurements (every 12 months)
Measuring point Basic 1 2 3 4 5 6 7measurement
1Boom
180 offset
2Boom
180 offset
3Boom
180 offset
4Boom
180 offset
1
2
3
4
5
6
Grease type
Greasing systemQuantity/interval
Remarks
Gre
ase-
sam
ple
no.
Fe-m
agn.
par
ticle
(%)
runn-inginpe-riod
normal wear in-creasedwear
extremwear
Schematic limit)1
Schematic limit
Fe M
agne
tic p
artic
le (
Wei
ght %
)B
ase
valu
eA
xial
mov
emen
t/w
ear
(mm
)
working hours
time
time
www.bergab.ru [email protected] . (495)-228-06-21, (495) 223-3071
www.bergab.ru [email protected] . (495)-228-06-21, (495) 223-3071