KPR KPRF Module 1 3 K Plastic Racks Brass Racks (196).pdf · Thinning)' on Page 193. ③ Dimensions...

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Module 1 ～ 3KPR・KPRFPlastic Racks

Specifications

Precision grade KHK R 001 grade 5 ＊

Gear teeth Standard full depth

Pressure angle 20°

Material MC901

Heat treatment ―

Tooth hardness (115 ～ 120HRR)

SW SW

A B

CD

R1

BA

πm πm

CD

RF

Catalog No. Module No. of teeth ShapeTotal length Face width Height Height to pitch line Allowable force (N) Allowable force (kgf) Weight

(kg)A B C D Bending strength Bending strength

KPRF1.5-1000KPRF2-1000KPRF2.5-1000KPRF3-1000

m1.5m2m2.5m3

212160128106

RFRFRFRF

999.031005.311005.31

999.03

15202530

20253035

18.52327.532

209 371 580 835

21.3 37.9 59.2 85.2

0.320.540.801.11

Catalog No. ModuleEffective

no. of teethShape

Total length Face width Height Height to pitch line Allowable force (N) Allowable force (kgf) Weight

(kg)A B C D Bending strength Bending strength

KPR1-500 m1 159 R1 505 10 12 11 92.8 9.46 0.064KPR1.5-500KPR1.5-1000 m1.5 105

212 R1 5051010 15 20 18.5 209 21.3 0.160

0.330KPR2-500KPR2-1000 m2 79

159 R1 5051010 20 25 23 371 37.9 0.270

0.540KPR2.5-500KPR2.5-1000 m2.5 63

127 R1 5051010 25 30 27.5 580 59.2 0.400

0.810KPR3-500KPR3-1000 m3 52

105 R1 5051010 30 35 32 835 85.2 0.560

1.120

SW: Sawing surface

[Caution on Product Characteristics] ① The allowable forces shown in the table are the calculated values according to the assumed usage conditions. Please see 90 for more details.

② The backlash of racks differ depending on the size of the mating pinion. Please calculate the backlash from the backlash value of the mating pinion. Also, please refer to the data in the section called 'Backlash of Rack Tooth (Amount of Tooth Thinning)' on Page 193.

③ Dimensions of Plastic Racks vary due to temperature and humidity. A 10°C rise in the ambient temperature will cause 0.45 mm increase in the length per 1000 mm. A 2% moisture absorption will cause approx. 5 mm increase in the length per 1000 mm. Please see the section “Design of Plastic Gears” in separate technical reference book. (Page 101).

④ The straightness deviation of Plastic Racks is less than 5mm per meter. However, for Plastic Racks with the total length of 1000 mm, the value may exceed 5 mm due to age deterioration. You may correct this error by using the bottom surface as the reference when attaching the racks.

[Caution on Secondary Operations] ① Please read “Caution on Performing Secondary Operations” (Page 194) when performing modifications and/or secondary operations for safety concerns.

② Plastic gears are susceptible to the effects of temperature and moisture. Dimensional changes may occur while perform-ing secondary operations and during post-machining operations. It is recommended to modify mounting holes and the attaching portions at the same time when stringing racks together.

Plastic Racks

＊ The precision grade of this product is equivalent to the value shown in the table.

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Brass Racks

Module 0.5、0.8、1KBSR

Brass RacksSpecifications

Precision grade KHK R 001 grade 4


Pressure angle 20°

Material Free cutting brass（C3604）

Heat treatment ―

Tooth hardness (more than 80HV)

CD

A B

SW SW

R1


no. of teethShape


(kg)A B C D Bending strength Surface durability Bending strength Surface durability

KBSR0.5-300KBSR0.8-300KBSR1-300

m0.5m0.8m1

190118

94

R1R1R1

303303303

346

91010

8.59.29

28.7 61.3

115

―――

2.93 6.25

11.7

―――

0.0660.0950.14

SW: Sawing surface

[Caution on Product Characteristics] ① The allowable forces shown in the table are the calculated values according to the assumed usage conditions. Please see Page 190 for more details.


[Caution on Secondary Operations] ① Please read “Caution on Performing Secondary Operations” (Page 194) when performing modifications and/or secondary operations for safety con-cerns.

225225

Recommended Mating Pinions

KSUS･KSUSA Stainless Steel Spur Gears


KBSS　Brass Spur Gears

126 127

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Catalog Number

No. of teeth

ShapeBore Hub dia. Pitch dia. Outside dia. Face width Hub width Total Length Allowable torque (N·m) Allowable torque (kgf·m) Backlash

(mm)

Weight

(kg)AH7 B C D E F G Bending strength Surface durability Bending strength Surface durability

KSUS1-15 15S3

8

17 15 17

10

20 302.04 0.12 0.21 0.013

0.08~0.18

0.037KSUS1-16 16 18 16 18 2.26 0.14 0.23 0.015 0.044 KSUS1-18 18 20 18 20 2.71 0.18 0.28 0.019 0.057KSUS1-20 20

S1

16 20 22

10 20

3.18 0.23 0.32 0.024 0.032KSUS1-22 22 18 22 24 3.65 0.29 0.37 0.029 0.042KSUS1-24 24 20 24 26 4.13 0.35 0.42 0.036 0.052KSUS1-25 25 20 25 27 4.37 0.38 0.45 0.039 0.055KSUS1-28 28 23 28 30 5.11 0.48 0.52 0.049 0.073KSUS1-30 30 25 30 32 5.60 0.56 0.57 0.057 0.086KSUS1-32 32 26 32 34 6.11 0.64 0.62 0.066 0.096KSUS1-35 35 26 35 37 6.87 0.78 0.70 0.079 0.11 KSUS1-36 36 28 36 38 7.12 0.82 0.73 0.084 0.12 KSUS1-40 40

10

35 40 42 8.15 1.03 0.83 0.11 0.16 KSUS1-42 42 35 42 44 8.66 1.14 0.88 0.12 0.17KSUS1-45 45 35 45 47 9.44 1.32 0.96 0.13 0.19KSUS1-48 48 35 48 50 10.2 1.51 1.04 0.15 0.20 KSUS1-50 50 35 50 52 10.8 1.65 1.10 0.17 0.22KSUS1-55 55 40 55 57 12.1 2.01 1.23 0.21 0.27 KSUS1-56 56 40 56 58 12.3 2.09 1.26 0.21 0.28 KSUS1-60 60 40 60 62 13.4 2.42 1.37 0.25 0.31KSUS1-64 64 45 64 66 14.5 2.77 1.47 0.28 0.36KSUS1-70 70 50 70 72 16.1 3.34 1.64 0.34 0.44KSUS1-75 75 55 75 77 17.4 3.86 1.77 0.39 0.52KSUS1-80 80 60 80 82 18.7 4.42 1.91 0.45 0.60KSUS1-90 90 60 90 92 21.4 5.67 2.19 0.58 0.70 KSUS1-100 100

1260 100 102 24.1 7.08 2.46 0.72 0.82

KSUS1-120 120 60 120 122 29.6 10.4 3.01 1.06 1.09

Stainless Steel Spur GearsModule 1KSUS

Specifications

Precision grade JIS grade N8 (JIS B1702-1: 1998)*

Gear teeth Standard full depthPressure angle 20°

Material SUS303Heat Treatment —Tooth hardness (less than 187HB)

* The precision grade of J Series products is equivalent to the value shown in the table.

S1

FEG

A DC

S3

[Caution on Product Characteristics] ① The allowable torques shown in the table are calculated values according to the assumed usage conditions. Please see 4 for more details.

② The backlash values shown in the table are the theoretical values for the backlash in the normal direction of a pair of identical gears in mesh.

G

A B C D

E F

[Caution on Secondary Operations] ① Please read "Cautions on Performing Secondary Operations" (Page 26) when performing modifications and/or secondary operations for safety concerns.

② Avoid performing secondary operations that narrow the tooth width, as it affects precision and strength.

[Caution on J series]

Bore H7 * The product shapes of J Series items are identified by background color.Keyway Js9 8 10 12 14 15 16 17 18 19 20 22 25 28 30 32 35 Screw size － 4×1.8 5×2.3 6×2.8 8×3.3 10×3.3

Catalog Number M5 M4 M5 M6 M8KSUS1-15 J BORE S3TKSUS1-16 J BORE S3TKSUS1-18 J BORE S3TKSUS1-20 J BORE S1TKSUS1-22 J BORE S1TKSUS1-24 J BORE S1TKSUS1-25 J BORE S1TKSUS1-28 J BORE S1T S1K S1KKSUS1-30 J BORE S1T S1K S1KKSUS1-32 J BORE S1T S1K S1K S1KKSUS1-35 J BORE S1T S1K S1K S1KKSUS1-36 J BORE S1T S1K S1K S1K S1K S1KKSUS1-40 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1-42 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1-45 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1-48 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1-50 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1-55 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1-56 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1-60 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1-64 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1-70 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1-75 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1-80 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1-90 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1-100 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1-120 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K

Stainless Steel Spur Gears

KSUS

FEG

A DC

J

S3T S1T

G

A B C D

E FJ

S1K

G

A B C D

E FJ

① As available-on-request products, these require a lead-time for shipping within 2 working days (excludes the day or-dered), after placing an order.

② Number of products we can process for one order is 1 to 20 units. For quantities of 21 or more pieces, we need to quote price and lead time.

③ Keyways are made according to JIS B1301 standards, Js9 tolerance.④ Certain products which would otherwise have a very long tapped hole are counterbored to reduce the length of the tap. ⑤ For products having a tapped hole, a set screw is included.⑥ When using S3T and S1T set screws for fastening gears to a shaft, only use this method for applications with light load

usage. For secure fastening, please use dowel pins in combination.

To order J Series products, please specify: Catalog No. + J + BORE.

J=5mm

J=5mm J=5mm

Series

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Catalog Number

No. of teeth

ShapeBore Hub dia. Pitch dia. Outside dia. Face width Hub width Total Length Allowable torque (N·m) Allowable torque (kgf·m) Backlash

(mm)

Weight

(kg)AH7 B C D E F G Bending strength Surface durability Bending strength Surface durability

KSUS1.5-15 15

S1

8

18 22.5 25.5

15 14 29

6.89 0.43 0.70 0.044

0.10~0.22

0.063 KSUS1.5-16 16 20 24 27 7.63 0.50 0.78 0.051 0.076KSUS1.5-18 18 22 27 30 9.16 0.65 0.93 0.066 0.097 KSUS1.5-20 20 24 30 33 10.7 0.82 1.09 0.084 0.12 KSUS1.5-22 22 26 33 36 12.3 1.01 1.26 0.10

0.12~0.26

0.15KSUS1.5-24 24 28 36 39 13.9 1.23 1.42 0.13 0.17 KSUS1.5-25 25 30 37.5 40.5 14.8 1.35 1.50 0.14 0.20KSUS1.5-28 28

10

36 42 45 17.2 1.71 1.76 0.17 0.26KSUS1.5-30 30 38 45 48 18.9 1.98 1.93 0.20 0.29KSUS1.5-32 32 40 48 51 20.6 2.27 2.10 0.23 0.33KSUS1.5-35 35 42 52.5 55.5 23.2 2.74 2.36 0.28 0.39KSUS1.5-36 36 45 54 57 24.0 2.91 2.45 0.30 0.42 KSUS1.5-40 40

12

45 60 63 27.5 3.62 2.80 0.37 0.48KSUS1.5-42 42 45 63 66 29.2 4.01 2.98 0.41

0.14~0.32

0.51KSUS1.5-45 45 45 67.5 70.5 31.9 4.64 3.25 0.47 0.57 KSUS1.5-48 48 45 72 75 34.5 5.31 3.52 0.54 0.62KSUS1.5-50 50 50 75 78 36.3 5.79 3.70 0.59 0.71 KSUS1.5-55 55 55 82.5 85.5 40.7 7.08 4.15 0.72 0.86 KSUS1.5-56 56 55 84 87 41.6 7.36 4.24 0.75 0.88 KSUS1.5-60 60

15

60 90 93 45.2 8.51 4.61 0.87 1.01 KSUS1.5-64 64 60 96 99 48.8 9.75 4.97 0.99 1.12 KSUS1.5-70 70 70 105 108 54.2 11.8 5.52 1.20 1.39 KSUS1.5-75 75 70 112.5 115.5 58.7 13.6 5.99 1.39 1.54KSUS1.5-80 80 80 120 123 63.2 15.6 6.45 1.59 1.83KSUS1.5-90 90 80 135 138 72.3 20.1 7.37 2.05

0.18~0.382.18

KSUS1.5-100 100 80 150 153 81.4 25.2 8.30 2.57 2.58 KSUS2-15 15

S1 12

24 30 34

20

16 36

16.3 1.05 1.67 0.11

0.12~0.26

0.13 KSUS2-16 16 26 32 36 18.1 1.22 1.85 0.12 0.16KSUS2-18 18 30 36 40 21.7 1.59 2.21 0.16 0.22KSUS2-20 20 32 40 44 25.4 2.01 2.59 0.20 0.26KSUS2-22 22 36 44 48 29.2 2.48 2.98 0.25

0.14~0.30

0.33KSUS2-24 24 38 48 52 33.0 3.01 3.37 0.31 0.39KSUS2-25 25 40 50 54 35.0 3.30 3.57 0.34 0.43 KSUS2-28 28 45 56 60 40.9 4.18 4.17 0.43 0.55KSUS2-30 30 50 60 64 44.8 4.83 4.57 0.49 0.65KSUSA2-32 32

S5 15 ―

64 68

― ―

48.9 5.53 4.98 0.56 0.47 KSUSA2-35 35 70 74 54.9 6.67 5.60 0.68 0.57KSUSA2-36 36 72 76 57.0 7.08 5.81 0.72 0.61KSUSA2-40 40 80 84 65.2 8.85 6.65 0.90 0.76KSUSA2-42 42 84 88 69.3 9.81 7.07 1.00

0.18~0.36

0.84KSUSA2-45 45 90 94 75.5 11.4 7.70 1.16 0.96 KSUSA2-48 48 96 100 81.8 13.0 8.34 1.33 1.10 KSUSA2-50 50 100 104 86.0 14.2 8.77 1.44 1.20 KSUSA2-55 55 110 114 96.5 17.3 9.84 1.77 1.45 KSUSA2-56 56 112 116 98.7 18.0 10.1 1.83 1.51KSUSA2-60 60 120 124 107 20.8 10.9 2.13 1.74 KSUSA2-64 64 128 132 116 23.9 11.8 2.44 1.98KSUSA2-70 70 140 144 128 29.0 13.1 2.96 2.37

Module 1.5, 2KSUS/KSUSA

Stainless Steel Spur GearsSpecifications



Material SUS303Heat Treatment —Tooth hardness (less than 187HB)

* The precision grade of J Series products is equivalent to the value shown in the table.

S1

A C D

E

S5

[Caution on Product Characteristics] ① The allowable torques shown in the table are calculated values according to the assumed usage conditions. Please see Page 24 for more details.

② The backlash values shown in the table are the theoretical values for the backlash in the normal direction of a pair of identical gears in mesh.

G

A B C D

E F


② Avoid performing secondary operations that narrow the tooth width, as it affects precision and strength.

[Caution on J series]

Bore H7 * The product shapes of J Series items are identified by background color.Keyway Js9 8 10 12 14 15 16 17 18 19 20 22 25 28 30 32 35 40 45 50 Screw size － 4×1.8 5×2.3 6×2.8 8×3.3 10×3.3 12×3.3 14×3.8

Catalog Number M5 M4 M5 M6 M8 M10 ―KSUS1.5-15 J BORE S1TKSUS1.5-16 J BORE S1TKSUS1.5-18 J BORE S1T S1KKSUS1.5-20 J BORE S1T S1K S1KKSUS1.5-22 J BORE S1T S1K S1K S1KKSUS1.5-24 J BORE S1T S1K S1K S1K S1K S1KKSUS1.5-25 J BORE S1T S1K S1K S1K S1K S1K S1KKSUS1.5-28 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1.5-30 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1.5-32 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1.5-35 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1.5-36 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1.5-40 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1.5-42 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1.5-45 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1.5-48 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1.5-50 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1.5-55 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1.5-56 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1.5-60 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K

Stainless Steel Spur Gears

KSUS/KSUSA

S1T

G

A B C D

E FJ

S1K

KSUS1.5-64 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1.5-70 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1.5-75 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1.5-80 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1.5-90 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS1.5-100J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS2-15 J BORE S1KKSUS2-16 J BORE S1KKSUS2-18 J BORE S1K S1K S1K S1K S1KKSUS2-20 J BORE S1K S1K S1K S1K S1K S1KKSUS2-22 J BORE S1K S1K S1K S1K S1K S1K S1K S1KKSUS2-24 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS2-25 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS2-28 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUS2-30 J BORE S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1K S1KKSUSA2-32 J BORE S5K S5K S5K S5K S5K S5K S5K S5K S5K S5KKSUSA2-35 J BORE S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5KKSUSA2-36 J BORE S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5KKSUSA2-40 J BORE S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5KKSUSA2-42 J BORE S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5KKSUSA2-45 J BORE S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5KKSUSA2-48 J BORE S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5KKSUSA2-50 J BORE S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5KKSUSA2-55 J BORE S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5KKSUSA2-56 J BORE S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5KKSUSA2-60 J BORE S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5KKSUSA2-64 J BORE S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5KKSUSA2-70 J BORE S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K S5K

A C D

E

S5K

G

A B C D

E FJ

① As available-on-request products, these require a lead-time for shipping within 2 working days (excludes the day ordered), after placing an order.② ③ ④

Number of products we can process for one order is 1 to 20 units. For quantities of 21 or more pieces, we need to quote price and lead time. Keyways are made according to JIS B1301 standards, Js9 tolerance. Certain products which would otherwise have a very long tapped hole are counterbored to reduce the length of the tap.

⑤ For products having a tapped hole, a set screw is included.⑥ When using S1T set screws for fastening gears to a shaft, only use this method for applications with light load usage. For

secure fastening, please use dowel pins in combination.

To order J Series products, please specify: Catalog No. + J + BORE.

J = Half of hub length (F)

J = Half of hub length (F)

Series

158 159158 159

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Brass Spur Gears

Socket head screw Allowable torque (N·m) Allowable torque (kgf·m) Backlash

(mm)

Weight

(kg)Catalog Number

Size J Bending strength Bending strength

M3 2.50.058 0.0059

0~0.10

0.0054 KBSS0.5-15A0.065 0.0066 0.0062 KBSS0.5-16A0.078 0.0079 0.0079 KBSS0.5-18A

—M3M3

—2.52.5

0.091 0.0093 0.00430.0098 0.0091

KBSS0.5-20KBSS0.5-20AKBSS0.5-20B

M3 3.50.10 0.011 0.0054 KBSS0.5-22A0.12 0.012 0.0063 KBSS0.5-24B

— — 0.12 0.013 0.0077 KBSS0.5-25

M3 3.50.13 0.013 0.0072 KBSS0.5-26A0.14 0.014 0.0075 KBSS0.5-27A0.15 0.015 0.0097 KBSS0.5-28A

—M3M3M4

—3.53.53.5

0.16 0.016

0.0110.010 0.0099 0.0092

KBSS0.5-30KBSS0.5-30AKBSS0.5-30BKBSS0.5-30C

M3 3.5 0.22 0.022 0.018 KBSS0.5-38A—M4

—3.5

0.23 0.024 0.0200.021

KBSS0.5-40KBSS0.5-40B

M3M4

3.53.5

0.31 0.031 0.033 0.032

KBSS0.5-50AKBSS0.5-50B

M4 3.5

0.38 0.039 0.052 0.051


0.46 0.047 0.058 KBSS0.5-70A

0.54 0.055 0.065 0.065


M3 40.20 0.020

0~0.10

0.0067 KBSS0.8-15A0.22 0.022 0.0082 KBSS0.8-16A

—M3M4

—44

0.31 0.032 0.0140.013 0.012


M4 4 0.36 0.036 0.018 KBSS0.8-22AM4 4 0.40 0.041 0.021 KBSS0.8-24B— — 0.43 0.043 0.024 KBSS0.8-25M4 4 0.50 0.051 0.028 KBSS0.8-28A

G

A B C D

E FJ

S1T

G

A B C D

E F

S1


② Avoid performing secondary operations that narrow the tooth width, as it affects preci-sion and strength.

③ When using a product with secondary operations applied, please be careful of runoutand deformation as the tooth width is thin.

KBSS

Spur GearsModule 0.5, 0.8KBSS

Specifications



Pressure angle 20°

Material Free cutting brass (C3604)

Heat Treatment －Tooth hardness (80HV or more)

Catalog Number Module No. of teeth ShapeBore Hub dia. Pitch dia. Outside dia. Face width Hub width Total Length Keyway

AH7 B C D E F G Width × Depth

KBSS0.5-15A

m0.5

15S3T 3

8.5 7.5 8.5

3

11 14

—

KBSS0.5-16A 16 9 8 9KBSS0.5-18A 18 10 9 10


20S1S3TS3T

434

8.51111

10 117

1111

101414

KBSS0.5-22A 22S1T

3 9 11 12

7 10

KBSS0.5-24B 24 4 10 12 13KBSS0.5-25 25 S1 4 11 12.5 13.5KBSS0.5-26A 26

S1T3 10 13 14

KBSS0.5-27A 27 3 10 13.5 14.5KBSS0.5-28A 28 3 12 14 15

KBSS0.5-30KBSS0.5-30AKBSS0.5-30BKBSS0.5-30C

30

S1S1TS1TS1T

4345

13121212

15 16

KBSS0.5-38A 38 S1T 4 16 19 20

KBSS0.5-40KBSS0.5-40B

40S1S1T

45

1718

20 21


50

S1T

45

22 25 26


6056

28 30 31

KBSS0.5-70A 70 5 28 35 36


8056

28 40 41

KBSS0.8-15A

m0.8

15S1T 4

9 12 13.6

4 8 12 —

KBSS0.8-16A 16 10 12.8 14.4


20S1S1TS1T

545

13.51212

16 17.6

KBSS0.8-22A 22S1T

5 15 17.6 19.2KBSS0.8-24B 24 5 16 19.2 20.8KBSS0.8-25 25 S1 5 17 20 21.6KBSS0.8-28A 28 S1T 5 18 22.4 24

GE F

J

A C D

S3T

[Caution on Product Characteristics] ① For products having a tapped hole, a set screw is included.② The allowable torques shown in the table are calculated values according to the assumed usage conditions. Please see

Page 24 for more details.③ The backlash values shown in the table are the theoretical values for the backlash in the normal direction of a pair of

identical gears in mesh.④ If the bore diameter is less than φ 4, the bore tolerance class is H8. If the bore diameter is φ 5 or φ 6, and the hole

length (total length) exceeds 3 times the diameter, then the class is also H8.

* The precision grade of products with a module of less than 0.8 is equivalent to the value shownin the table.

160 161160 161

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Brass Spur GearsG

A B C D

E FJ

S1T


(mm)

Weight

(kg)Catalog Number

Size J Bending strength Bending strength

—M3

—4 0.55 0.056

0~0.10

0.0340.035

KBSS0.8-30KBSS0.8-30A

— — 0.79 0.081 0.046 KBSS0.8-40

M4 41.05 0.11 0.081 KBSS0.8-50A1.31 0.13 0.099 KBSS0.8-60B

M3M4

4

0.47 0.048

0.08~0.18

0.035 0.034

KBSS1-15AKBSS1-15B

M3M4 0.52 0.053 0.016

0.015 KBSS1-16AKBSS1-16B

M4 0.62 0.063 0.021 KBSS1-18B

M3M4M4

0.73 0.074 0.028 0.027 0.026

KBSS1-20AKBSS1-20BKBSS1-20C

M4 0.83 0.085 0.033 KBSS1-22AM4 0.94 0.10 0.040 KBSS1-24BM4 1.00 0.10 0.047 KBSS1-25AM4 1.17 0.12 0.060 KBSS1-28AM4M4 1.28 0.13 0.065

0.058 KBSS1-30BKBSS1-30D

M4 1.86 0.19 0.10 KBSS1-40AM4M4 2.46 0.25 0.14

0.13 KBSS1-50AKBSS1-50C

G

A B C D

E FJ

S1K

KBSS

GE F

J

A C D

S3T

Spur GearsModule 0.8, 1KBSS

Specifications

Precision grade JIS grade N8 (JIS B1702-1: 1998)


Pressure angle 20°

Material Free cutting brass (C3604)

Heat Treatment －Tooth hardness (80HV or more)



KBSS0.8-30KBSS0.8-30A

m0.8

30 S1S1T

54 20 24 25.6

4 8 12 —KBSS0.8-40 40 S1 5 20 32 33.6KBSS0.8-50A 50

S1T5 28 40 41.6

KBSS0.8-60B 60 6 28 48 49.6

KBSS1-15AKBSS1-15B

m1

15 S3T 45 17 15 17

6

15 21

—

KBSS1-16AKBSS1-16B

16

S1T

45 12 16 18

8 14

KBSS1-18B 18 6 15 18 20

KBSS1-20AKBSS1-20BKBSS1-20C

20456

16 20 22

KBSS1-22A 22 6 18 22 24KBSS1-24B 24 6 20 24 26KBSS1-25A 25 5 22 25 27KBSS1-28A 28 6 25 28 30

KBSS1-30BKBSS1-30D

30 S1TS1K

610 25 30 32 —

4 x 1.8

KBSS1-40A 40 S1T 6 28 40 42 —KBSS1-50AKBSS1-50C

50 S1TS1K

610 28 50 52 —

4 x 1.8


② Avoid performing secondary operations that narrow the tooth width, as it affects preci-sion and strength.

③ When using a product with secondary operations applied, please be careful of runoutand deformation as the tooth width is thin.

[Caution on Product Characteristics] ① For products having a tapped hole, a set screw is included.② The allowable torques shown in the table are calculated values according to the assumed usage conditions. Please see



length (total length) exceeds 3 times the diameter, then the class is also H8.

226 227

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Module 1 ～ 6KSRO・KSROSSteel Round Racks

Specifications



Pressure angle 20°

Material S45C

Heat treatment -

Tooth hardness (less than 95HRB)

Surface treatment Black oxide coating

A

dD

SW SW

R2

A100

dD

SW SW

R7


no. of teethShape

Total length Outside dia. Height to pitch line Allowable force (N) Allowable force (kgf) Weight

(kg)A dh9 D Bending strength Surface durability Bending strength Surface durability

KSRO1-500 m1 159 R2 505 10 9 800 121 81.6 12.3 0.29KSRO1.5-500 m1.5 105 R2 505 15 13.5 1800 288 184 29.3 0.65KSRO2-500KSRO2-1000 m2 79

159 R2 5051010 20 18 3200 530 326 54.0 1.16

2.31KSRO2.5-500KSRO2.5-1000 m2.5 63

127 R2 5051010 25 22.5 5000 848 510 86.5 1.81

3.61KSRO3-500KSRO3-1000 m3 52

105 R2 5051010 30 27 7200 1240 735 127 2.60

5.20KSRO4-500KSRO4-1000 m4 39

79 R2 5051010 40 36 12800 2270 1310 232 4.62

9.24KSRO5-1000 m5 63 R2 1010 50 45 20000 3620 2040 369 14.4


no. of teethShape



KSROS1-500KSROS1.5-500KSROS2-500KSROS2.5-500KSROS3-500

m1m1.5m2m2.5m3

12885645142

R7R7R7R7R7

505505505505505

1015202530

913.51822.527

800 1800 3200 5000 7200

121 288 530 848

1240

81.6 184 326 510 735

12.3 29.3 54.0 86.5

127

0.290.661.171.832.64



③ Tolerance of “d” dimension of KSRO6-1000 is h10. [Caution on Secondary Operations]

SW: Sawing surface

Round Racks

KSURO

Stainless Steel Round RacksSpecifications



Pressure angle 20°

Material SUS303

Heat treatment ―

Tooth hardness (less than 187HB)

A

dD

SW SW


no. of teethShape





[Caution on Secondary Operations] ① Please read “Caution on Performing Secondary Operations” (Page 194) when performing modifications and/or secondary operations for safety concerns.

SW: Sawing surface

KSURO1-500 m1 159 R2 505 10 9 382 67.9 39.0 6.93 0.29KSURO1.5-500 m1.5 105 R2 505 15 13.5 859 162 87.6 16.5 0.65KSURO2-500KSURO2-1000 m2 79

159 R2 5051010 20 18 1530 298 156 30.4 1.15

2.30 KSURO2.5-500KSURO2.5-1000 m2.5 63

127 R2 5051010 25 22.5 2390 477 243 48.7 1.79

3.59 KSURO3-500KSURO3-1000 m3 52

105 R2 5051010 30 27 3440 700 351 71.4 2.58

5.17

R2

Module 1 ～ 3

Stainless Steel Round Racks


KSUS･KSUSA　Stainless Steel Spur Gears

① Please read “Caution on Performing Secondary Operations” (Page 194) when performing modifications and/or secondary operations for safety concerns.

② Please avoid hardening of Round Racks. It causes contortion and deformation, and straightening processes can hardly be applied.


KSS Steel Spur Gears

74 7574 75

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Spur GearsModule 0.5KSS

GE F

J

A C D

Specifications



Material S45CHeat Treatment —Tooth hardness (less than 194HB)Surface treatment Black oxide coating



KSS0.5-15A

m0.5

15

S3T

3 8.5 7.5 8.5

5

11 16

—

KSS0.5-16A 16 3 9 8 9

KSS0.5-18A 18 4 10 9 10

KSS0.5-20AKSS0.5-20B 20 3

4 11 10 11

KSS0.5-21A 21 4 11.5 10.5 11.5

KSS0.5-22A 22 4 12 11 12

KSS0.5-24AKSS0.5-24B 24 4

5 13 12 13

KSS0.5-25B 25 5 13.5 12.5 13.5

KSS0.5-27A 27 4 14.5 13.5 14.5

KSS0.5-28A 28

S1T

4 12 14 15

7 12

KSS0.5-30AKSS0.5-30BKSS0.5-30C

30456

13 15 16

KSS0.5-32A 32 5 14 16 17

KSS0.5-35A 35 5 15 17.5 18.5

KSS0.5-36A 36 5 16 18 19

KSS0.5-40AKSS0.5-40B 40 5

6 18 20 21

KSS0.5-45A 45 5 20 22.5 23.5

KSS0.5-50AKSS0.5-50B 50 5

6 22 25 26

KSS0.5-54A 54 5 25 27 28

KSS0.5-60AKSS0.5-60B 60 6

8 28 30 31

KSS0.5-70AKSS0.5-70B 70 6

8 28 35 36

KSS0.5-80AKSS0.5-80B 80 6

8 28 40 41

KSS0.5-90A 90 8 28 45 46

KSS0.5-96A 96 8 28 48 49

KSS0.5-100A 100 8 28 50 51

KSS0.5-120A 120 8 28 60 61

S3T

[Caution on Product Characteristics] ① The key groove used is a JIS B 1301 normal type (Js9) and a set screw is included for products with a tapped hole.② The allowable torques shown in the table are calculated values according to the assumed usage conditions. Please see



length (total length) exceeds 3 times the diameter, then the class is also H8.⑤ When using S3T and S1T set screws for fastening gears to a shaft, only use this method for applications with light load

usage. For secure fastening, please use dowel pins in combination.

* The precision grade of products with a module of less than 0.8 is equivalent to the value shown in the table.

Steel Spur Gears


(mm)

Weight

(kg)Catalog Number

Size J Bending strength Surface durability Bending strength Surface durability

M3

2.5

0.46 0.022 0.047 0.0022

0~0.10

0.0056 KSS0.5-15AM3 0.51 0.025 0.052 0.0025 0.0064 KSS0.5-16AM3 0.61 0.032 0.063 0.0033 0.0076 KSS0.5-18AM3M3 0.72 0.040 0.073 0.0041 0.010

0.0095 KSS0.5-20AKSS0.5-20B

M3 0.77 0.044 0.079 0.0045 0.011 KSS0.5-21AM3 0.83 0.049 0.084 0.0050 0.012 KSS0.5-22AM3M4

2.53 0.93 0.059 0.095 0.0060 0.014

0.013 KSS0.5-24AKSS0.5-24B

M4 3 0.99 0.064 0.10 0.0065 0.014 KSS0.5-25BM3 2.5 1.10 0.075 0.11 0.0076 0.018 KSS0.5-27AM3

3.5

1.16 0.081 0.12 0.0082 0.011 KSS0.5-28AM3M4M4

1.27 0.093 0.13 0.00950.013 0.012 0.011

KSS0.5-30AKSS0.5-30BKSS0.5-30C

M4 1.38 0.11 0.14 0.011 0.014 KSS0.5-32AM4 1.55 0.13 0.16 0.013 0.017 KSS0.5-35AM4 1.61 0.14 0.16 0.014 0.019 KSS0.5-36AM4M4 1.84 0.17 0.19 0.017 0.024

0.023 KSS0.5-40AKSS0.5-40B

M4 2.14 0.21 0.22 0.022 0.030 KSS0.5-45AM4M4 2.43 0.27 0.25 0.027 0.038

0.037 KSS0.5-50AKSS0.5-50B

M4 2.67 0.32 0.27 0.032 0.047 KSS0.5-54AM4M5 3.03 0.39 0.31 0.040 0.058

0.055 KSS0.5-60AKSS0.5-60B

M4M5 3.63 0.55 0.37 0.056 0.068

0.065 KSS0.5-70AKSS0.5-70B

M4M5 4.24 0.72 0.43 0.074 0.079

0.077 KSS0.5-80AKSS0.5-80B

M5 4.85 0.93 0.49 0.095 0.090 KSS0.5-90AM5 5.21 1.06 0.53 0.11 0.099 KSS0.5-96AM5 5.46 1.16 0.56 0.12 0.10 KSS0.5-100AM5 6.68 1.70 0.68 0.17 0.14 KSS0.5-120A

G

A B C D

E FJ

S1T

[Caution on Secondary Operations] ① Please read "Cautions on Performing Secondary Operations" (Page 26) when perform-ing modifications and/or secondary operations for safety concerns.

② Avoid performing secondary operations that narrow the tooth width, as it affects pre-cision and strength.

KSS

24 25

Please select the most suitable products by carefully considering the characteristics of items and contents of the product ta-bles. It is also important to read all applicable "CAUTION" notes shown below before the final selection.

① Basically, all spur gears, internal gears and racks can bepaired as long as the module and pressure angle match. Products with different materials, tooth widths, or meth-ods of cutting the teeth can be mated.

② When using a pinion with an internal gear with a smalldifference in the numbers of teeth, there are possibili-ties of involute interference, trochoid interference andtrimming interference. See the internal gear interferenceportion of the technical section to avoid problems in as-sembling these items. (Page 182)

Selection Hints

1. Caution in Selecting the Mating GearsThe gear strength values shown in the product pages were computed by assuming a certain application environment. Therefore, they should be used as reference only. We recom-mend that each user computes their own values by applying the actual usage conditions. Also, KSUSF F-loc hub spur gears, KDSF F-loc hub spur gears and various F series that use the friction coupling method to fasten the gear shaft need addi-tional consideration for starting torque.The table below contains the assumptions established for various products in order to compute gear strengths.

2. Caution in Selecting Gears Based on Gear Strength

Catalog Number

Item

KMSGA KMSGB

KSSGSKSSG

KSSAG

KSSS,KSS KSSA,KSSY KSSAY,KSSR

KSUS KSUSA KSUSF

KBSS KKSG KKS KNSUKPU KPS KPSA

KDSF KDS

Formula NOTE 1 Formula of spur and helical gears on bending strength (JGMA401-01) The Lewis formulaNo. of teeth of mating gears Same number of teeth (30 for KSSGS, KSSS, KSSR) Racks ―Rotational speed 600rpm 100rpm 100 rpmDesign life (durability) Over 107cycles ―Impact from motor Uniform load Allowable bending stress (kgf/mm2)Impact from load Uniform load

1.38 (40℃

with No Lubrication)

1.15 (40℃


m 0.5 4.0m 0.8 4.0m 1.0 3.5(40℃ with

Grease Lubrication)

Direction of load BidirectionalAllowable bending stress at root σFlim (kgf/mm2) NOTE 2 47 24.5 19 (24.5) Note 3 19 (24.5) Note 4 10.5 4 30 32Safety factor SF 1.2

Formula NOTE 1 Formula of spur and helical gears on surface durability (JGMA402-01)Kinematic viscosity of lubricant 100cSt(50℃)Gear support Symmetric support by bearings Note 5 Supported on one endAllowable Hertz stress σHlim (kgf/mm2) 166 99 90 (62.5) Note 3 49 (62.5) Note 4 41.3 ― 112 79Safety factor SH 1.15

■ Calculation of Bending Strength of Gears

■ Calculation of Surface Durability (Except where it is common with bending strength)

[NOTE 1] The gear strength formula is based on JGMA (Japanese Gear Manufacturers Association) specifications, "MC Nylon Technical Data" by Nippon Polypenco Limited and "Duracon Gear Data" by Polyplastic Co. The units for the rotational speed (rpm) and the stress (kgf/mm2) are adjusted to the units needed in the formula.

[NOTE 2] The allowable bending stress at the root σ Flim is calculated from JGMA401-01, and set to 2/3 of the value in the consideration of the use of planetary-, idler-, or other gear systems, loaded in both directions.

[NOTE 3] For KSSG Ground Spur Gears, with module 0.8 or less, thermal refining is applied. Allowable bending stress and allowable hertz stress values are shown in parentheses.[NOTE 4] For KSSS Spur Pinion Shafts, with module over 1.5, tooth induction hardening is not applied. Allowable bending stress and allowable hertz stress values are shown in parentheses.[NOTE 5] KSSS Spur Pinion Shafts with module 1 or less (KSA configuration) are set to cantilever support as they are single shaft types.

Spur Gears Spur Gears

When selecting KHK standard gears, glance over the Cautions on Product Characteristics and Cautions on Performing Secondary Operations in the respective dimension tables.

① Products not listed in this catalog or materials, modules, number of teeth and the like not listed in the dimensionaltables can be manufactured as custom items. Please see Page 16 for more details about custom-made orders.

② The color and shape of the product images listed on the dimension table page of each product may differ from the actual product. Be sure to confirm the shape in the dimension table before selection.

③ The details (specifications, dimensions, prices, etc.) listed in the catalog may be changed without prior notice.Changes are announced on the KHK website.

KHK Technical Information

The most important factor in selecting gears is the gear strength.

■ Definition of Bending Strength of Gears

The allowable bending strength of a gear is defined as the al-lowable tangential force at the pitch circle based on the mutu-ally allowable root stress of two meshing gears under load.

Example of failure due to insufficient bending strength

■ Definition of Surface Durability

The surface durability of a gear is defined as the allowable tan-gential force at the pitch circle, which permits the force to be transmitted safely without incurring surface failure. The allowable gear tooth load of a gear is defined as the allowable tangential force at the pitch circle based on the mutual gear tooth strength of two meshing gears under load.

Example of wear due to insufficient surface durability

Step 1 Determine the actual load torque applied to the gear and the gear type suitable for the purpose.

Step 2 Select provisionally from the allowable torque table of the Master Catalog based on the load torque.

■ For provisional selection from the Master Catalog

Step 3 We recommend that each user computes their own values by applying the actual usage conditions to determine the suitability of the gear strength.

Calculate the strength formally using the vari-ous gear strength formulas.Please see Page 71 of our technical reference book for more details.

Strength confirmation is simple when using the website.

(2) Bending strength formula

(10.4)

(10.5)

(10.6)

(10.7)

(3) Calculating various coefficients

In order to satisfy the bending strength, the nominal circum-ferential force Ft on the meshing pitch circle must be less than or equal to the allowable circumferential force Ftlim on the meshing pitch circle calculated by the permissible bending stress at root.

Alternatively, the bending stress at root σF obtained from the nominal circumferential force Ft on the meshing pitch circle must be less than or equal to the permissible bending stress at root σFlim.

The permissible circumferential force Ftlim (kgf) on the meshing pitch circle is obtained by the following equation.

The bending stress at root (kgf/mm2) is obtained by the following equation.

26 27

Application Hints

Spur Gears Spur Gears

① If reboring, it is important to pay special attention to lo-cating the center in order to avoid runout.

② The reference datum for gear cutting is the bore. There-fore, use the bore for locating the center. If it is too dif-ficult to do for small bores, the alternative is to use onespot on the bore and the runout of the side surface.

③ If reworking using scroll chucks, we recommend the use of new or rebored jaws for improved precision. Please exer-cise caution not to crush the teeth by applying too muchpressure. Any scarring will cause noise during operation.

④ The maximum bore size is dictated by the requirementthat the strength of the hub is to be higher than that ofthe gear teeth. The maximum bore size should be 60%to 70% of the hub diameter (or tooth root diameter),and 50% to 60% for keyway applied modifications.

⑤ In order to avoid stress concentration, round the keywaycorners.

2. Cautions on Performing Secondary Operations

In order to use KHK stock gears safely, carefully read the Application Hints before proceeding.If there are questions or you require clarifications, please contact our technical department or your nearest distributor. TEL: (646) 396-GEAR FAX: (516) 437-6700 E-mail: [email protected]

Induction Hardening

If you apply induction hardening to the gear teeth of S45C products, you need to designate the hardness and where to apply the heat treatment. Below is an example of common specifications and KHK’s specifi-cations for hardening:

● Common Specifications for Heat TreatmentHardening location: Gear tooth surface or tooth

surface and tooth rootHardness: Within the range of 45 to 60 HRC and

10 HRC width (Example: 48 to 58 HRC)

● KHK’s Specifications for Heat TreatmentHardened location: Tooth surface, or Tooth sur-

face and Tooth rootHardness: 50 to 60 HRC

* Hardness and Depth of Gear-teeth Induction HardeningThe hardening method and the state of the hard-ened teeth area vary depending on the size ofgears.Since different hardening treatment is appliedin accordance with the module and number ofteeth, the hardness level you designate is referredto as the hardness of the reference diameter. Forsome of our products, the hardness at tooth tip /root may not be equal to the hardness you desig-nated.As to the effective case depth for S45C, it is spec-ified by JIS, as "The distance from the surface ofthe case to the area with hardness HV450." Thecase depth differs from area to area of a tooth.

⑥ To avoid problems of reduced gear precision andother manufacturing difficulties, do not attempt tomachine the gears to reduce face widths.

⑦ When induction-hardening S45C products, thermalstress cracks may appear. Also, note that the preci-sion grade of the product declines by 1 or 2 grades,as deformation on material may occur. If you requiretolerance for bore or other parts, machining is neces-sary after heat treatment.

Lathe Operations

Tapping & Keyway Slotting

1. Cautions on Handling

① KHK products are packaged one by one to preventscratches and dents, but if you find issues such as rust,scratches, or dents when the product is removed fromthe box after purchase, please contact the supplier.

② Depending on the handling method, the product may be-come deformed or damaged. Resin gears and ring gearsdeform particularly easily, so please handle with care.

KHK Technical Information

set screws, or applying flats to the shaft, in case of fas-tening only with set screws.There are also methods of secure settings using a Me-cha-Lock, a POSI-LOCK, or a Spannring, which are parts for engaging the hole and the axis.

Poor tooth contact and pitting

Gear oil (equivalent to JIS gear oil category 2 No. 3) The design conditions were load torque at 278 rpm, 42.5 kg/m (12 kW), 1.5 times the allowable bending strength, and 3 times the allowable surface durability torque. The pitting occurred on the poor tooth contact area after 60 hours of continuous operation.

④ Verify that the two shafts are parallel. Incorrect assembly will lead to uneven teeth contact which will cause noise and wear. (Check the assembly by painting a thin layer of red lead primer or the like on the gear teeth, meshing them together and rotating them.)

■ Test example: Abrasion occurred on KSSG3-30 due to poor edge contact (only 30% with proper contact).

② The table below indicates the tolerance on the totallength of KHK stock spur gears. Please refer to this datawhen designing gear boxes or other components.

③ Spur gears produce no thrust forces; however, be sureto fasten them firmly with stepped shafts, or collars, toprevent shifting toward the shaft.Keyways are generally used in fastening gears to a shaft,and they should be secured by applying drilled holes for

① KHK stock spur gears are designed to give the properbacklash when assembled using the center distance giv-en by the formula below (center distance tolerance ofH7 – H8). For the backlash of each product, please referto the dimension table.Backlash may be adjusted by changing the center dis-tance of mating gears. For more information, please con-sult the technical section on gear backlash (page 56) inour separate technical reference book.

Wherea : Center distancem : ModuleZ1 : No. of teeth of pinionZ2 : No. of teeth of gear

a=m(Z1+Z2)/2

4. Cautions on Starting

3. Points of Caution during Assembly

■ Total Length Tolerance for Spur and Helical Gears

① Check the following items before starting.• Are the gears installed securely?• Is there uneven tooth contact?• Is there adequate backlash?

Be sure to avoid zero-backlash.• Has proper lubrication been supplied?

② If gears are exposed, be sure to attach a safety cover toensure safety. Also, be careful not to touch rotating gears.

③ Gears can be lubricated with the "grease lubrication meth-od", "splash lubrication method (oil bath method)", or "forced lubrication method (circulation lubrication method)".For initial operation, the lubricant may deteriorate mark-edly, so check the condition of the lubricant after starting.For more technical information, please see the section "Gear Lubrication" (Page 112) of our technical reference book.

④ If there is any abnormality such as noise or vibrationduring startup, check the gears and assembly condition."High gear accuracy", "smooth gear teeth surface" and"correct tooth contact" are some of the measures againstgear noise. For more technical information, please seethe section "Gear Noise and Countermeasures" (Page119) of our technical reference book.

KHK considers safety a priority in the use of our products.When handling, adding secondary operations, assembling, and operating KHK products, please be aware of the following issues in order to prevent accidents.

Warning: Precautions for preventing physical and property damage

Caution Cautions in Preventing Accidents

1. When using KHK products, follow relevant safety regulations (Occupational Safety and Health Regulations, etc.).2. Pay attention to the following items when installing, removing, or performing maintenance and inspection of the product.

① Turn off the power switch.② Do not reach or crawl under the product.③ Wear appropriate clothing and protective equipment for the work.

1. Before using a KHK product, read the precautions in the catalog carefully in order to use it correctly.2. Avoid use in environments that may adversely affect the product.3. Our products are manufactured under a superior quality control system based on the ISO9000 quality management system; if you

notice any malfunctions upon purchasing a product, please contact the supplier.

Total Length (mm) Tolerance

30 or less 0－ 0.10

31 to 100 0－ 0.15

Over 100 0－ 0.20

[Note] The following products are excluded from this table: Spur pinion shafts, Injection molded spur gears, F-loc hub spur gears, and MC nylon products.

188 189

■ Rack Drive Linear Guide ■ Film Sealer

Example of table moving device that uses rack & pinion KSR rack used for positioning

Racks Racks

KHK stock racks are made for high precision linear motion applications. We offer a large selection of racks ranging from module 0.5 to 10 and lengths from 100 to 2000 mm. The following table lists the main features.

Features

Catalog NumberNote 1 Module

Total length mm Parentheses

show no. of teethMaterial Heat

Treatment

Tooth Surface Finish

Gear accuracy KHK R 001 Note 3Parentheses show

JIS B 1702-1

Features

KMRGF/KMRGFD 1.5 to 3 500 SCM415 Tooth area carburized Ground 1

A ground rack made of carburized chromoly steel.Our highest-performance rack, with accumulated pitch error of 10μm or less. J Series products are also available.

KKRGF-HKKRGFD-H 1.5 to 3 500, 1000 SCM440

Thermal refined, gear teeth induc-tion hardened

Ground 1 Heat treated ground gears with high precision and strength has ex-cellent cost-performance ratio. J Series products are also available.

KKRG/KKRGF KKRGD 1 to 3 100, 500,

1000 SCM440 Thermal refined Ground 1 High strength and abrasion-resistant for precision

linear motion.KKSRG/KKSRGF KKSRGFD/KKSRGFK 0.5 to 6 100, 300,

500, 1000 S45C Gear teeth induction hardened NOTE 2

Ground 3 Reasonably priced ground racks with abrasion-resistant characteristics. J Series products are also available.

KKRF-H/KKRFD-H 1.5 to 5 1000 SCM440Thermal refined, gear teeth induc-tion hardened

Cut 5 A high-strength, long-life, tough hardened rack suitable for compact designs. J Series products are also available.

KSRF-HKSRFD-H 1.5 to 6 1000 S45C Gear teeth induction

hardened Cut 5 Stable hardened racks with high strength, long life span are reasonably priced. J Series products are also available.

KSRF-HLKSRFD-HL 1.5 to 6 1000, 1500,

2000 S45C Gear teeth laser hardened Cut 4 Hardened racks with high strength due to the laser hardened tooth

surfaces and with a low price tag. J Series products are also available.

KKRF/KKRFD 1.5 to 5 500, 1000 SCM440 Thermal refined Cut 4 Increased strength with SCM440 material which is

thermal refined. J Series products are also available.

KSRAF/KSRAFDKSRAFK 1.5 to 4 1000 S45C — Cut 4

This gear rack has the same tooth height and face width sizes, more compact and reasonably priced in compari-son to SRF Racks J Series products are also available.

KSR/KSRFKSRFD/KSRFK 0.5 to 10 100, 300, 500,

1000, 1500, 2000 S45C — Cut 4 Low cost, large selections of modules and number of teeth. J Series products are also available.

KSUR/KSURFKSURFD 1 to 4 500, 1000 SUS304 Solution

treated Cut 5 Suitable for food machinery due to SUS304’s rust resistant qualities.

KDRF/KDRFDKDRFK 1 to 3 500, 1000 Polyacetal — Cut 5 Plastic racks with little dimensional change, absorb lesser wa-

ter than MC Nylon racks. J Series products are also available.

KPR/KPRF 1 to 3 500, 1000 MC901 — Cut 5 Light-weight products made of MC Nylon can be used without lubrication.

KBSR 0.5 to 1 300Free cutting brass (C3604)

— Cut 4 Small pitch racks made of free-cutting brass (C3604), excellent workability and high rust resistance.

KSRO/KSROS 1 to 6 500, 1000 S45C — Cut 4 Convenient in applications where the rack has the reciprocal motion. S Type is easy to install.

KSURO 1 to 3 500, 1000 SUS303 — Cut 5 Same dimensions as SRO racks, except in stainless steel. Use where rust-resistance is required.

KDR 0.8 to 2 2000 Duracon (M25-44) — Injection

Molded 8 Used in applications due to its flexibility, where metal racks do not have this attribute. Pinions and accessories are also available.

KRHG/KRHGF 1 to 3 100, 500, 1000 SCM440 Thermal

refined Ground 1 Excellent products with high precision and strength, and low noise and abrasion characteristics. J Series products are also available.

KSRH/KSRHFKSRHFD 2 to 3 100, 500,

1000 S45C — Cut 5 Effective in reducing noise and vibration due to larg-er contact ratio of helical gears.

KSRHEF 1.5 to 6 1000 S45C — Cut 4 General-purpose helical racks with product dimensions and helix angle (19° 31’ 41”) according to EU specifications.

[NOTE 1] The catalog numbers in the above tables with a suffix of F have both ends machined so that they can be butted against each other to make any desired length. The items with (D) and (K) have mounting screw holes for easier assembly.

[NOTE 2] Products with module less than 0.8 are thermal refined, without their gear teeth being induction hardened.[NOTE 3] Precision grade standard of racks are set by KHK. Please see "Precision of Racks" in Selection Hints section for details.

● For safe handling and to prevent damage such as deformation, KHK stock racks have round chamfering at the corners of the topland of the gear tooth.This rounded chamfered shape is patented by KHK. It is also effective for reducing noise.

● Black products are KHK stock gears that have an applied black oxide coating for rust resistance;this “blackness” is a product characteristic of KHK stock gears.

KSHE 1.5 to 6 (18 to 30) S45C — Cut (N8) A product designed so that the helix angle is 19° 31’ 41” and the distance of the pinion traveled in one turn is an integer (mm).

■ Racks

■ Pinion

Application ExamplesKHK stock racks & pinions are adopted in driving devices for all kinds of linear motion systems, including transport devices.

■ Automatic packaging machine manufactured by Toyota Machinery Co., Ltd. ■ Dremax Long Strip Cutter

KSUR stainless steel rack used for film winding tension part KPR plastic rack used for feeding Long Strip Cutter

■ Lathe Auto Loader ■ Lathe Gantry Loader

KSRO Round Rack used as a workpiece storage device (lifting/lowering table) KKRG Ground Rack used as a workpiece conveying device

■ Packaging Machine

KSR Rack used for label feeding KSRO Round Rack used for extruders (can also become a lifting/lowering device by setting up vertically)

Technical Information

■ Extruder (design example)

* Not a design for machinery or a device in actual use.

Motor

Pinions

Round Rack

BaseBase

Sintered Metal Bushings

Sintered Metal Bushings

Extru

sion

190 191

Please select the most suitable products by carefully considering the characteristics of items and contents of the product ta-bles. It is also important to read all applicable "CAUTION" notes shown below before the final selection.

Selection Hints

①

②

With the exception of helical racks, KHK stock racks can mate with any spur gears of the same module. Products with different tooth width can also be mated as a pinion. There are limited choices of mating gears for KKRHG/KKRHGF, KSRHEF, and KSRH Ground Helical Racks and Helical Racks. Be sure to check the helix direction (right or left) when selecting.

1. Caution in Selecting the Mating Gears

Allowable bending strength and surface durability values shown in product tables were computed by assuming a certain application en-vironment. They should be used as reference only. We recommend that each user computes their own values by applying the actual usage conditions. The table below contains the assumptions estab-lished for various products in order to compute gear strengths.

[NOTE 1] The gear strength formula is based on JGMA (Japanese Gear Manufacturers Association) specifications, "MC Nylon Technical Data" by Nippon Polypenco Limited and "Duracon Gear Data" by Polyplastic Co.The units for the rotational speed (rpm) and the stress (kgf/mm2) are adjusted to the units needed in the formula.

[NOTE 2] The allowable bending stress at the root σ Flim is calculated from JGMA401-01, and set to 2/3 of the value in the consideration of the use of planetary-, idler-, or other gear systems, loaded in both directions.

2. Caution in Selecting Gears Based on Gear Strength

Pinion (L) & Rack (R)

Pinion (R) & Rack (L)

■ Mating Helical Gear Selection Chart ( ○ Allowable × Not allowable)

Catalog Number

Item

KMRGFKMRGFD

KKRGF-HKKRGFD-HKKRF-HKKRFD-H

KKRG/KKRGFKKRGD/KKRHG

KKRHGF/KKRHGFD

KKRF/KKRFD

KSRG/KSRGFKSRGFD/KSRGFKKSRF-H/KSRFD-H

KSRF-HLKSRFD-HL

KSRAF/KSRAFDKSRAFK/KSR/KSRF

KSRFD/KSRFK/KSRO KSROS/KSRH/KSRHF

KSRHFD/KSRHEF

KSURKSURFKSURFDKSURO

KBSR

KSH

E KDRFKDRFDKDRFK

KPRKPRF KDR

Formula NOTE 1 Formula of spur and helical gears on bending strength (JGMA401-01) The Lewis formulaNo. of teeth of mating gears 30 Racks (30)Rotational speed 100rpm (100 rpm)Design life (durability) Over 107cycles Allowable bending stress (kgf/mm2)Impact from motor Uniform load

1.0 (40℃


1.15 (40℃


m 0.8 4.0m 1.0 3.5m 1.5 1.8 NOTE 4m 2.0 1.2(40℃ with Grease Lubrication)

Impact from load Uniform loadDirection of load BidirectionalAllowable bending stress at root σHlim (kgf/mm2) NOTE 2 47 32 20 NOTE 3 10.5 4 30Safety factor SF 1.2

Formula NOTE 1 Formula of spur and helical gears on surface durability (JGMA402-01)Kinematic viscosity of lubricant 100cSt (50℃)Gear support Supported on one end.Allowable Hertz stress σHlim (kgf/mm2) 166 112 79 90 NOTE 4 80 52.5 41.3 - 49 112Safety factor SH 1.15

■ Calculation of Bending Strength of Gears

■ Calculation of Surface Durability (Except where it is common with bending strength)

Catalog Number and Direction of

Helix

KKRHGKKRHGF KSRHEF KSRH/KSRHF

KSRHFDRH LH RH RH LH

KKHGLH ○ × × × ×RH × ○ × × ×

KSHE LH × × ○ × ×

KSHLH × × × ○ ×RH × × × × ○

Racks Pinions Racks

Racks Racks Technical Information

The most important factor in selecting gears is the gear strength.

■ Definition of Bending Strength of Gears

The allowable bending strength of a gear is defined as the al-lowable tangential force at the pitch circle based on the mutu-ally allowable root stress of two meshing gears under load.

Example of failure due to insufficient bending strength

■ Definition of Surface Durability

The surface durability of a gear is defined as the allowable tan-gential force at the pitch circle, which permits the force to be transmitted safely without incurring surface failure. The allowable gear tooth load of a gear is defined as the allowable tangential force at the pitch circle based on the mutual gear tooth strength of two meshing gears under load.

Example of wear due to insufficient surface durability

Step 1 Determine the actual load torque applied to the gear and the gear type suitable for the purpose.

Step 2 Select provisionally from the allowable torque table of the Master Catalog based on the load torque.

■ For provisional selection from the Master Catalog

204

Sp

urG

ears

Hel

ical

Gea

rsIn

tern

alG

ears

Rac

ksC

P R

acks

& P

inio

nsM

iter

Gea

rsB

evel

Gea

rsS

crew

Gea

rsW

orm

Gea

r P

airs

Bev

elG

earb

oxes

Oth

erP

rod

ucts

SW G G

G

G GSW

A B

CD

R1

Specifications



Pressure angle 20°

Material SCM440

Heat treatment Thermal refining only

Tooth hardness 225～ 285HB

Catalog No. Module No. of teeth ShapeTotal length Face width Height Height to pitch line Mounting hole dimensions No. of

mounting holes

Mountingscrew sizeA B C D E F G

KRGD1-500KRGD1.5-500KRGD2-500KRGD2.5-500KRGD3-500

m1m1.5m2m2.5m3

159106

806453

RDRDRDRDRD

499.51499.51502.65502.65499.51

1015202530

1520253035

1418.52327.532

68

101214

39.7539.7541.3241.3239.75

140140140140140

44444

M4M5M6M8M10

Catalog No. Module No. of teeth ShapeTotal length Face width Height Height to pitch line Allowable force (N) Allowable force (kgf) Weight


KRGF1-1000 KRGF1.5-1000KRGF2-1000KRGF2.5-1000KRGF3-1000

m1m1.5m2m2.5m3

318212160128106

RFRFRFRFRF

999.03999.03

1005.311005.31

999.03

1015202530

15 20253035

1418.52327.532

1530345061309580

13800

6411440256040105770

156352625977

1410

65.3147261408588

1.492.183.635.437.53


no. of teethShape



KRG1-100KRG1-500 m1 29

159 R1 98505 10 15 14 1530 641 156 65.3 0.11

0.55KRG1.5-100KRG1.5-500 m1.5 20

105 R1 101505 15 20 18.5 3450 1440 352 147 0.22

1.10KRG2-100KRG2-500 m2 14

79 R1 98505 20 25 23 6130 2560 625 261 0.35

1.82KRG2.5-100KRG2.5-500 m2.5 11

63 R1 100505 25 30 27.5 9580 4010 977 408 0.54

2.73KRG3-100KRG3-500 m3 9

52 R1 101505 30 35 32 13800 5770 1410 588 0.76

3.81

SW: Sawing surface

[Caution on Secondary Operations] ① Please read “Caution on Performing Secondary Operations” (Page 196) when performing modifications and/or second-ary operations for safety concerns. KHK Quick-Mod Gears, the KHK's system for quick modification of KHK stock gears is also available.



③ After attaching the racks to the base, please fasten with dowel pins. Clamping only with mounting screws could possibly cause the screws to be broken, due to a heavy load. For details, please see the assembly method to the mounting base on Page 197.

Module 1～ 3KRG・KRGF・KRGD

Thermal Refined Ground Racks

Step 3 We recommend that each user computes their own values by applying the actual us-age conditions to determine the suitability of the gear strength.

Calculate the strength formally using the vari-ous gear strength formulas.Please see Page 71 of our technical reference book for more details.

[NOTE 3] For KSRG, or KSRGF Ground Racks, with a module less than m 0.8, the allowable bending stress and allowable hertz stress are respectively 24.5 (kgf/mm2) and 62.5 (kgf/mm2).[NOTE 4] The values for DR m 1.5 racks were assumed by KHK. Usage conditions for KSSDR (DR Rack Pinion) are the same as for the SSCP Pinion, shown on Page 241.

When selecting KHK standard gears, glance over the Cautions on Product Characteristics and Cautions on Performing Secondary Operations in the respective dimension tables.

①

②

③

Products not listed in this catalog or materials, modules, number of teeth and the like not listed in the dimensional tables can be manufactured as custom items. Please see Page 16 for more details about custom-made orders.The color and shape of the product images listed on the dimension table page of each product may differ from the actual product. Be sure to confirm the shape in the dimension table before selection.The details (specifications, dimensions, prices, etc.) listed in the catalog may be changed without prior notice.

(2) Bending strength formula

(10.4)

(10.5)

(10.6)

(10.7)

(3) Calculating various coefficients

In order to satisfy the bending strength, the nominal circum-ferential force Ft on the meshing pitch circle must be less than or equal to the allowable circumferential force Ftlim on the meshing pitch circle calculated by the permissible bending stress at root.

Alternatively, the bending stress at root σF obtained from the nominal circumferential force Ft on the meshing pitch circle must be less than or equal to the permissible bending stress at root σFlim.

The permissible circumferential force Ftlim (kgf) on the meshing pitch circle is obtained by the following equation.

The bending stress at root (kgf/mm2) is obtained by the following equation.

192 193

The precision standards of KHK stock racks are established by us.The table below indicates the tolerance ranges of our racks.

3. Cautions on Selecting Racks By Precision

■ Precision Grades of Racks (KHK R 001) Unit: μm

Grade

Pitch E

rror

Over m0.4 to 1CP2.5

Over m1 to 1.6CP5

Over m1.6 to 2.5－

Over m2.5 to 4CP10

Over m4 to 6CP15

Over m6 to 10CP20

Rack Length (nominal)

1000 or less

1001 up to 2000

1000 or less

1001 up to 2000

1000 or less

1001 up to 2000

1000 or less

1001 up to 2000

1000 or less

1001 up to 2000

1000 or less

1001 up to 2000

1

S.P.E. 10 － 10 12 11 12 11 13 13 14 14 16

T.T.E. 10 － 11 13 12 14 13 15 14 16 16 18

T.C.E. 28 － 29 33 30 35 32 37 35 40 40 45

2

S.P.E. 14 － 14 17 15 17 16 18 18 20 20 23

T.T.E. 16 － 16 19 17 19 18 21 20 24 24 27

T.C.E. 39 － 41 48 43 49 46 53 50 57 58 64

3

S.P.E. 20 － 20 24 21 25 23 26 25 29 29 32

T.T.E. 22 － 24 28 25 29 27 31 30 34 34 40

T.C.E. 56 － 57 67 60 70 64 74 71 80 81 91

4

S.P.E. 28 － 29 33 30 35 32 37 35 40 40 45

T.T.E. 33 － 34 42 38 43 40 46 44 50 51 57

T.C.E. 79 － 81 95 85 99 91 105 100 115 115 130

5

S.P.E. 39 － 41 48 43 49 46 53 50 57 58 64

T.T.E. 49 － 51 59 53 62 57 69 66 75 76 85

T.C.E. 110 － 115 135 120 140 130 145 140 160 160 180

8

S.P.E. 206 206 212 212 219 219 －－－－－－

T.T.E. 330 330 339 339 350 350 －－－－－－

T.C.E. －－－－－－－－－－－－

[NOTE] ① Since the pitch accuracy of racks may vary due to humidity, the precision grades are evaluated at the bottom surface of the product, at the temperature of 20℃ . The dimensions of the KHK KPR Plastic Racks may vary widely due to humidity. Therefore, the total composite error is assumed to be excluded

from this accuracy standard. Please refer in our separate technical reference book to "Design of Plastic Gears" (Page 100) for change in dimensions.

② For the accuracy of KCP Rack, convert KCP to m (module) when reference is made to the data in the table. (m =KCP/ π ).

■ Pitch inspection and a sample report using Karl Zeiss UMC-550 Coordinate Measuring Machine. (KHK R 001 Grade 1)

① Pitch Errors of Racks (KHK R 001)

Our precision grades for pitch errors are established by referring to JIS Standards. The precision grades are set from 1 to 8, in accordance with the tolerance of a single pitch error (S.P.E.), adjacent tooth-to-tooth error (T.T.E.), and the total composite error (T.C.E.) for each module and length.

Racks Racks Technical Information

Less than 0.03mmMeasurement po-sition of extruded material1.0mm

Face width

■ Tolerance on Face Width and Height

Precision grade(KHK R 001)

Face widthGrade 1 Grade 2 Grades 3 to 5 *

6 or less

0－ 0.05

0－ 0.10

0－ 0.18

7 to 10 0－ 0.10

0－ 0.22

11 to 18 0－ 0.10

0－ 0.27

19 to 30 0－ 0.15

0－ 0.33

31 to 50 0－ 0.15

0－ 0.39

51 to 90 0－ 0.15

0－ 0.46

■ Maximum Curvature Values (Flatness Tolerance L)

[NOTE] Dimensional tolerance of hardened products is that prior to hardening.Dimensional tolerance for plastic racks is the value obtained when ma-chining is performed, and may increase slightly due to aging.* KBSR products are not applicable.

Precision Grade(KHK R 001)

Length (nominal)Grades 1 & 2 Grade 3 Grades 4 & 5

500 0.05 0.1 0.2

1000 0.1 0.2 0.3

1500 －－ 0.3

2000 －－ 0.4

Product Type Module Dimensional Tolerance

F Type End Machined Product

m0.5 － 0.1－ 0.3

m0.8 (CP2.5) － 0.1－ 0.5

m1 up to 2.5 － 0.2－ 0.6

m2.5 or more － 0.2－ 0.8

FRCP and DR Flexible Racks Uniform ± 10

Products other than the above Uniform ＋ 3－ 2

[NOTE] The straightness tolerances of round racks are 0.15/500 mm and 0.2/1000 mm.Plastic racks change over time so are excluded from this precision standard.

■ Tolerance on Total Length

[NOTE] For Type-F racks with machined ends, the dimensional tolerance is a calculated value according to assumed usage conditions, without con-sideration of pitch errors and aged deterioration.

■ Backlash of Rack Teeth (Amount of Tooth Thinning)

Precision grade(KHK R 001)

Module (m)Pitch (CP)

Grade 1 & 2 Grade 3Grade 4 Grade 5

Excludes thermal refined racks Includes thermal refined racks Hardened Products Stainless Steel/Helical Racks Plastic Products

m0.5 － 0 to 0.07 0 to 0.08 －－－－m0.8, CP2.5 0 to 0.06 0 to 0.08 0 to 0.09 －－－－m1 0 to 0.06 0 to 0.10 0 to 0.11 －－ 0 to 0.13 0 to 0.20m1.5, CP5 0 to 0.06 0 to 0.10 0.04 to 0.13 0.04 to 0.15 0.02 to 0.17 0.04 to 0.15 0 to 0.21m2 0 to 0.06 0 to 0.10 0.05 to 0.14 0.05 to 0.16 0.03 to 0.18 0.05 to 0.16 0 to 0.22m2.5 0 to 0.06 0 to 0.10 0.06 to 0.16 0.06 to 0.18 0.04 to 0.20 0.06 to 0.18 0 to 0.24m3, CP10 0 to 0.06 0 to 0.10 0.07 to 0.18 0.07 to 0.20 0.05 to 0.22 0.07 to 0.20 0 to 0.27m4 － 0 to 0.10 0.08 to 0.22 0.08 to 0.24 0.06 to 0.26 0.08 to 0.24 －m5, CP15 － 0 to 0.10 0.09 to 0.24 0.09 to 0.26 0.07 to 0.28 0.09 to 0.26 －m6, CP20 － 0 to 0.10 0.10 to 0.28 － 0.08 to 0.32 －－m8 －－ 0.13 to 0.32 －－－－m10 －－ 0.15 to 0.34 －－－－

Unit: mm

[NOTE] The values shown in the table are amount of tooth thinning. The theoretical backlash of assembled rack and pinion is given by:

Amount of tooth thinning of the rack : See above tableAmount of tooth thinning of the pinion : Take 1/2 of backlash given in the product table

Rack & pinion backlash = Amount of tooth thinning of the rack + Amount of tooth thinning of the pinion

② Precision of Rack Blanks

③ Backlash of Rack Teeth

( )( )( )( )

Unit: mm

Unit: mmUnit: mm

Note) Some products use an extruded material and the center of the 4 surfaces of the material may be slightly dented.

194 195

Racks Racks

In order to use KHK stock racks safely, carefully read the Application Hints before proceeding. If there are questions or you re-quire clarifications, please contact our technical department or your nearest distributor.▪ TEL: 81-48-254-1744 FAX: 81-48-254-1765 E-mail: [email protected]

① Secondary operations can be performed on all KHK stockracks except for the racks with their gear teeth inductionhardened. To avoid problems of gear precision, do notreduce the face width. The precision of ground racks andracks with mounting holes may drop if you do not exercise extreme caution during installation or while modifying.

② Pitch lines of racks are controlled by using the bottom sur-face as the reference datum and over-pin measurementson tooth thickness. If you machine the bottom surfaces,the precision of the racks may be affected.

③ When connecting two racks, the machining of the mat-ing ends requires careful consideration in terms of thepitch (p) accuracy. The meshing will be poor if the pitchstraddling the connection has a positive tolerance. Werecommend a minus tolerance on pitch of at the con-nection.The below is an indication of pitch tolerance for each module.

④ To use dowel pins to secure racks, attach the racks to thebase and drill both simultaneously.

⑤ KHK stock racks made of S45C and SCM440 (except forground racks) can be induction hardened. However, theprecision of pitch is decreased.

⑥ To be able to handle parts safely, all burrs and sharp cor-ners should be removed after the secondary operationsare done.

⑦ If you are going to modify the gear by gripping theteeth, please exercise caution not to crush the teethby applying too much pressure. Any scarring will causenoise during operation.

① KHK stock racks are designed to give the proper normaldirection backlash when assembled using the mountingdistance given by the formula below (mounting dis-tance tolerance of H7 to H8 required). The backlash val-ues are given in the table on Page 193. Make sure thatthe mounting distance stays constant for the length ofthe rack.

② KKRG type of KHK stock ground racks have four surfacesground parallel with high precision. To maintain trueangle, they should be mounted on high precision bases(within 10μm recommended) as shown below. It is evenpossible to correct for the angular errors of racks by com-pensating the mounting base. With recent increases inthe requirement for zero backlash linear drives, such ac-curate assembly as shown is becoming more important.

③

④

⑤

If the racks are not secured properly to the base, they could shift during operation and cause unexpected problems. It is very important to insure firm mounting by the use of dowel pins or similar devices. Machined end type racks such as KSRF and KSRFD series have the pitch tolerance of -0.05 to -0.4mm at the end face. If you try to connect the racks without any space, the pitch at the connection will be too small and will cause problems. Please follow the following diagrams for assembly. With KSRFD etc., if using more than 10 racks connected together to form a rack with mounting holes machined along a length of 1 meter, the pitch precision and machining precision may cause the rack and base mount-ing holes to deviate, leading to set screw interference with the counterbored hole and preventing mounting. When using a rack for long lengths such as 10 meters or 20 meters, have the mounting holes additionally ma-chined into long holes.

Pinion

Rack

Application Hints

2. Cautions on Performing Secondary Operations

3. Points of Caution during Assembly

Mounting distance a = Height of pitch line of rack + Pitch radius of pinion

[NOTE] Pinions are assumed to be stan-dard stock spur gears (x=0).

Module Pitch (p) Tolerance

m0.5 1.57 － 0.05－ 0.15

m0.8 2.51 － 0.05－ 0.25

m1 3.14－ 0.1－ 0.3m1.5 4.71

m2 6.28m2.5 7.85

－ 0.1－ 0.4

m3 9.42m4 12.57m5 15.71m6 18.85m8 25.13m10 31.42

p = π·m p : Reference pitchπ : Pim : Module

Unit: mm

p

Technical InformationSR2-100 (joining rack)

Mounting base

0.2 to 0.6SRFD2-1000

Reamer hole

SRFD2-1000

How to mount racks on a mounting base (For SRFD2-1000)

1. Pitch alignmentPlace SRFD2-1000 on the mounting base, align SR2-100 and temporarily tighten the bolt.

2. Securing to the mounting baseTap with a plastic hammer, bring it into close contact with the mounting base, and further tighten the bolt.(When using a metal hammer, be careful not to damage the gear teeth by using a stiffening plate, etc.)

3. Run the pinion and check the following ① Is there abnormal noise or vibration? ② Is the backlash appropriate? ③ Is there poor edge contact of

gear teeth?

SRFD2-1000 is designed to have a gap of 0.2 to 0.6 mm.

SR2-100 (joining rack)

SRFD2-1000SRFD2-1000

Mounting base

4. Secure fixation to the mounting base We recommend that you tap the knock pin so that the rack does not shift due to vibration, etc. ① Simultaneously machine reamer holes

Drill

Knock pin② Drive the knock pin

KSRFD2-1000

Tighten again after tapping the knock pin.It can be marked with a pen to find looseness.

Stiffening Plate

105.3

Dimensions Table F Value x 2

KHK considers safety a priority in the use of our products.When handling, adding secondary operations, assembling, and operating KHK products, please be aware of the following issues in order to prevent accidents.

Warning: Precautions for preventing physical and property damage

Caution Cautions in Preventing Accidents

1. When using KHK products, follow relevant safety regulations (Occupational Safety and Health Regulations, etc.).2. Pay attention to the following items when installing, removing, or performing maintenance and inspection of the product.

① Turn off the power switch.② Do not reach or crawl under the product.③ Wear appropriate clothing and protective equipment for the work.

1. Before using a KHK product, read the precautions in the catalog carefully in order to use it correctly.2. Avoid use in environments that may adversely affect the product.3. Our products are manufactured under a superior quality control system based on the ISO9000 quality management system; if you

notice any malfunctions upon purchasing a product, please contact the supplier.

Joining Rack

[NOTE] Joining gauge racks for helical racks must have the opposite hand from the racks. Please use 100 mm long racks as a joining gauge rack, or alternatively the rack of the same specifications on hand.

d1. Cautions on Handling

① KHK products are packaged one by one to preventscratches and dents, but if you find issues such as rust,scratches, or dents when the product is removed fromthe box after purchase, please contact the supplier.

② Depending on the handling method, the product may be-come deformed or damaged. Long racks and resin racksdeform particularly easily, so please handle with care.

4. Cautions on Starting

① Check the following items before starting.• Are the gears installed securely?• Is there uneven tooth contact?• Is there adequate backlash? Be sure to avoid zero-backlash.• Has proper lubrication been supplied?

② If gears are exposed, be sure to attach a safety cover to ensure safety. Also, be careful not to touch rotating gears.

③ Gears can be lubricated with the "grease lubrication method", "splash lubrication method (oil bath method)", or "forced lubrication method (circulation lubrication method)".

For initial operation, the lubricant may deteriorate markedly, so check the condition of the lubricant after starting.For more technical information, please see the section "Gear Lubrication" (Page 112) of our technical reference book.

④ If there is any abnormality such as noise or vibrationduring startup, check the gears and assembly condition."High gear accuracy", "smooth gear teeth surface" and"correct tooth contact" are some of the measures againstgear noise. For more technical information, please seethe section "Gear Noise and Countermeasures" (Page119) of our technical reference book.

KSR2-100 (joining rack)

Mounting Base

0.2 to 0.6

Reamer hole

KSRFD2-1000

How to mount racks on a mounting base (For SRFD2-1000)

1. Pitch alignmentPlace KSRFD2-1000 on the mounting base, align KSR2-100 and temporarily tighten the bolt.

2. Securing to the mounting baseTap with a plastic hammer, bring it into close contact with the mounting base, and further tighten the bolt.(When using a metal hammer, be careful not to damage the gear teeth by using a stiffening plate, etc.)

3. Run the pinion and check the following① Is there abnormal noise or vibration?② Is the backlash appropriate?③ Is there poor edge contact of

gear teeth?

KSRFD2-1000 is designed to have a gap of 0.2 to 0.6 mm.

KSR2-100 (joining rack)

KSRFD2-1000

Mounting base


4. Secure fixation to the mounting baseWe recommend that you tap the knock pin so that the rack does not shift due to vibration, etc.① Simultaneously machine reamer holes

Mounting base


Drill

Knock pin② Drive the knock pin

Mounting base


Tighten again after tapping the knock pin.It can be marked with a pen to find looseness.

Stiffening Plate

105.3

Dimensions Table F Value x 2

As an example of Rack Joining, we recommend the following method.

How to mount racks on a mounting base (For KSRFD2-1000)

KSRFD2-1000KSRFD2-1000

KSRFD2-1000

KSRFD2-1000 KSRFD2-1000

KSRFD2-1000 KSRFD2-1000

Mounting BaseMounting Base

Mounting Base

Mounting Base

196 197

Racks Racks

Laser Hardened Racks

● Lasers used for hardening gear teethIn this environmentally friendly hardening method, powerful light provides in-

stantaneous hardening and cooling water is not required due to diffusion of heat.

● Hardening is possible wherever laser irradiation isLasers excel at spot hardening. As long as the laser can be irradiated, even the

inside of bores can be hardened.

● Less distortion due to burning during hardeningAs the laser hardens necessary areas in spots, distortion due to burning can be

minimized.

Technical Information

Since racks are a simple mechanism, the material, hardening, strength and precision can be designed ac-cording to the environment.They are also inexpensive, with parts that can be purchased separately for replacement.In the designing process, please refer to Features of Racks & Pinions and Ball Screws in the table below.

Table

Stroke

Ball screw nutBall screw shaft

Support unit (support side)Nut bracket

Linear guide

Base

Motor

Support unit (fixed side)

CouplingMotor bracket

● Features of Racks & Pinions

Stroke

Base

Table Motor Motor

TableLinear guide

Motor bracket

Rack

Pinion Pinion Rack

Advantages Details

Few component parts Since it does not have parts such as balls and retainers, there is less risk of accidentally falling apart during assembly and disassembly.

Supports heavy loads Racks with large module can be used for heavy loads.

Compact products can be manufactured Since it can be made smaller than products with ball screws, it can be used compactly for light loads.

High transmission efficiency High transmission efficiency of about 98% (excluding lubrication oil stirring resistance and bearing resistance).

High feed speed If the pinion diameter is large, it supports high-speed feeding.

No length limit Screws can only be up to about 2 m to avoid excessive bending, but racks can be joined together and used at greater lengths.

Flexible production is available Materials, hardening, shapes and the like can be designed flexibly, allowing easy adjustment to the machine.

High-precision products can be manufactured Gear grinding can be provided to minimize pitch error.

Can be used for food-related machinery MC nylon and stainless steel products can be manufactured.

Disadvantages Details

Backlash is presentBacklash is required for smooth rotation.Backlash may become a problem in forward/reverse rotation positioning.

Lubrication is required Metal racks require lubrication. Plastic racks do not require lubrication at light loads, but their precision is lower.

● Features of Ball ScrewsAdvantages Details

High transmission efficiency Transmission efficiency of 90% or higher.

High-precision products can be manufactured High-precision ball screws can be manufactured by grinding.

High feed speed High-speed feed is possible with high-lead ball screws.

No backlash The use of pressure eliminates backlash.

Disadvantages Details

Length is limited Since the screw deflects, about 2 meters is the practical limit.

Hard to manufacture special products Since it is hard to manufacture special products, machines must be adjusted to the shape of the ball screw.

Lasers enable hardening

that barely changes the

precision grade.

Rack downsizing

Catalog Numbers (Comparison Example)

Material Heat TreatmentAllowable force kgf Precision

KHK R 001Series nominal total length mm

Bending strength Surface durability

KSRF3-1000 S45C None (raw material) 879 186 Grade 4 300,500,1000,1500,2000

KKRF3-1000 SCM440 Thermal refined 1410 421 Grade 4 500,1000

KSRF3-1000HL S45C Laser hardened 879 407 Grade 4 1000,1500,2000

KSRF3-1000H S45C Induction hardened 799 468 Grade 5 1000

KKRF3-1000H SCM440Thermal refined / induction hardened

1280 725 Grade 5 1000

KMRGF 3-500 (2 units) SCM415 Carburized 2070 1900 Grade 1 500

Comparison table per series (module 3, rack length: 1,000 mm)

The H Series, KHK stock racks with induction hardened gear teeth, and the KHL Series, with laser hardening, are available.

The graph below simulates the downsizing of KHK stock racks. It is possible to reduce the module (size) with equivalent trans-mission power, or to reduce the price likewise. Please select a product that fits your needs.

Increased strength leads to smaller size

KSRF8-1000 39.7kgKKRF4-1000H 12.9kgMass reduced ⇒ 26.8 kg

The surface durability can be increased by hardening the gear teeth. By increasing the strength thus, the angular dimensions of modules and racks can be re-duced. This helps reduce the cost.

■ Example of rack downsizing

■ Comparison table of permissible transmission force of hardened racks

m8 rack angular dimension

75mm

75m

m

40mm

45m

mm4 rack angular dimension

0

500

1000

1500

2000

2500Surface durability

Hardened Rack KSRF-H/KKRF-H/KSRF-HL SeriesConventional Rack KSRF/KKRF Series

Allowable force (kgf)

Comparison of Racks & Pinions and Ball Screws

KSRF1.5

KSRF1.5-HL

KK KKK K K

K KK K

KK

KK K

K KK K K

KKKK K KK

KKK K

K

KPR KPRF Module 1 3 K Plastic Racks Brass Racks (196).pdf · Thinning)' on Page 193. ③ Dimensions...

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Transcript of KPR KPRF Module 1 3 K Plastic Racks Brass Racks (196).pdf · Thinning)' on Page 193. ③ Dimensions...