Other Products - Quality Transmission Components

Other Products - Quality Transmission Components

Spur
Gears
Other Products
Helical
Gears
Page 588
Internal
Gears
Page 592
KGCU
Gear Assembly Kit
m 1.667
Page 364
Racks
m 0.4~1
Page 584
Catalog Number of Stock Gears
The Catalog Number for KHK stock gears is based on the simple formula listed below. Please order KHK gears by specifying the Catalog
Numbers.
(Example)
Other Products
K S V 20 - 200
Total Length (200 mm)
Major Diameter (20 mm)
CP Racks
& Pinions
KQSGA • KQSG
Master Gears (Spur Gear)
m 2, 2.5
Miter
Gears
Page 580
KSV • KSVI
Involute Spline Shafts,
Spline Bushings
Bevel
Gears
P2.09~12.56
KGC • KGC-I
Gear Couplings
Type (Involute spline shafts)
Material (S45C)
Material
S
S45C

Type
RT
Pawls and Ratchets
KGC Gear Coupling
V
Involute Spline
Feature Icons
RoHS Compliant
Product
Stainless Product
Re-machinable
Product
Resin Product
Finished Product
Copper Alloy
Product
Heat Treated
Product
Injection Molded
Product
Ground Gear
Black Oxide coated
Product
Screw
Gears
Pawls & Ratchets
Other
Bevel
Worm
Products Gearboxes Gear Pair
KSRT • KSRTB • KSRT-C
579
KSRT • KSRTB • KSRT-C
Miter
Gears
CP Racks
& Pinions
Racks
Internal
Gears
Helical
Gears
Spur
Gears
Ratchets • Pawls

Characteristics of Pawls and Ratchets
Bevel
Gears
Screw
Gears
Other
Bevel
Worm
Products Gearboxes Gear Pair
Bending strength of Ratchets
The allowable transmission forces F b (N) of ratchets is the value calculated by the following formula.
• A simple structure used to restrict the rotational direction in one-way.
• The tips of pawls and the teeth of ratchets are induction
hardened and therefore have superior durability.

580

Features
Points to observe during use
• No secondary operations can be performed on tooth areas
including the bottom land (approx. 1 to 2 mm), due to gear
teeth induction hardened.
• The pawls are designed to prevent reverse rotation. They are not suitable for use as driving ratchets or driving rotation.
• KSRT2/ 3-C is manufactured using a lost wax casting method.
• Regarding KSRTB ratchets with hubs, please note the
direction of teeth, viewing from the hub side. KHK can produce ratchets which have the teeth pointed in the opposite
direction as a custom order item.
F b=σ b •
1
b • e2
1
•
•
6
h
SF
Also, the KSRT Ratchet's allowable torque T (N • m) for bending
strength is calculated by the following formula.
T = F b • rf
Where
σ b = Bending stress (Assumed 225.55MPa)
b = Face width E (mm)
e = Root length (mm)
e=Depth of teeth (h) × tan 60 -
h = Depth of teeth (H) (mm)
S F = Safety factor (Assumed 2)
rf =Tooth root radius (m)
→ rf =
Outside dia. D-(2 • h)
2000
Assembly example: Stock Gears Sample Units

360

No. of teeth (z) 
KSRT • KSRTB
Application
Helical
Gears
* The illustration is a design example, not a design for machinery or a device in actual use.
Spur
Gears
Ratchets & Pawls
Example: KSRT Ratchets used as a free-fall prevention mechanism of a lift device*
KSRT-C Pawls
KSRT Ratchet
CP Racks
& Pinions
Miter
Gears
Bevel
Gears
KSRT Ratchet
Screw
Gears
Motor
Other
Bevel
Worm
Products Gearboxes Gear Pair
Lifting Device
Racks
Internal
Gears
KSRT-C Pawls
Example: ratchets used for complete reverse prevention of worm gears *
581
KSRT • KSRTB
Pitch 2.09~12.56
Ratchets
E
H
Angle of teeth
60°
Material
S45C
Heat treatment
Induction hardened teeth
J
Spur
Gears
Specifications
A
Tooth hardness 50~60HRC
Helical
Gears
T4
Catalog No.
Pitch
KSRT2/3-50
KSRT2/3-60
KSRT2/3-80
KSRT2/3-90
KSRT2/3-100
KSRT1-50
KSRT1-60
KSRT1-80
KSRT1-90
KSRT1-100
2.09
3.14
No. of teeth
50
60
80
90
100
50
60
80
90
100
Shape
T4
T4
Bore
Hub dia.
A
B
10
10
12
12
12
12
15
15
15
15
Outside dia.
Face width
Hub width
D
E
F
—
—
33.3
40
53.3
60
66.6
50
60
80
90
100
Total length Depth of teeth Center distance Mounting distance
G
H
6
—
6
12
—
12
1.6
I
1
15.67
19
25.67
29
32.33
23.4
28.4
38.4
43.4
48.4
6.28
30
40
50
60
T4
15
15
15
15
—
60
80
100
120
15
—
15
3.1
61.23
66.23
72.28
79.14
26.9
36.9
46.9
56.9
KSRT3-30
KSRT3-40
KSRT3-50
9.42
30
40
50
T4
15
20
20
—
90
120
150
20
—
20
5
76.32
85.15
95.52
40
55
70
KSRT4-30
KSRT4-40
KSRT4-50
12.56
30
40
50
T4
20
20
20
—
120
160
200
25
—
25
7.4
10
10
12
12
12
12
15
15
15
15
25
30
35
40
40
35
40
50
50
50
33.3
40
53.3
60
66.6
50
60
80
90
100
KSRTB2/3-50
KSRTB2/3-60
KSRTB2/3-80
KSRTB2/3-90
KSRTB2/3-100
KSRTB1-50
KSRTB1-60
KSRTB1-80
KSRTB1-90
KSRTB1-100
2.09
3.14
50
60
80
90
100
50
60
80
90
100
T9
T9
6
10
16
1
12
12
24
1.6
95.74
108.03
122.37
52.6
72.6
92.6
33.84
35.51
39.48
41.73
44.11
45.48
48.24
54.73
58.35
62.16
15.67
19
25.67
29
32.33
23.4
28.4
38.4
43.4
48.4
KSRTB2-30
KSRTB2-40
KSRTB2-50
KSRTB2-60
6.28
30
40
50
60
T9
15
15
15
15
50
60
60
65
60
80
100
120
15
14
29
3.1
61.23
66.23
72.28
79.14
26.9
36.9
46.9
56.9
KSRTB3-30
KSRTB3-40
KSRTB3-50
9.42
30
40
50
T9
15
20
20
75
80
85
90
120
150
20
16
36
5
76.32
85.15
95.52
40
55
70
KSRTB4-30
KSRTB4-40
KSRTB4-50
12.56
30
40
50
T9
20
20
20
90
90
100
120
160
200
25
18
43
7.4
[Caution on Product Characteristics]
[Caution on Secondary Operations]
95.74
108.03
122.37
a Regarding KSRTB ratchets with hubs, please note the direction of teeth, viewed from the hub side. QTC can produce ratchets that have teeth pointed in the opposite direction as a custom order item.
b Due to heat treating, some deformation of the bore may occur. It may be necessary to ream the bore to bring to the stated dimensions.
c Due to gear teeth induction hardened, no secondary operations can be performed on tooth areas including the bottom land (approx. 1 to 2 mm).
KSRT-C
Pitch 2.09~12.56
Pawls
(N)
Specifications
Angle of teeth
Material
S45C
Heat treatment
Induction hardened teeth
P
M
60°
60°
FD
(L)
Tooth hardness 50~60HRC
* FD has die-forged finish.
582
J
33.84
35.51
39.48
41.73
44.11
45.48
48.24
54.73
58.35
62.16
KSRT2-30
KSRT2-40
KSRT2-50
KSRT2-60
K
Internal
Gears
Racks
CP Racks
& Pinions
Miter
Gears
Bevel
Gears
Screw
Gears
Other
Bevel
Worm
Products Gearboxes Gear Pair
D
I
T5
52.6
72.6
92.6
KSRT • KSRTB
Ratchets
G
Spur
Gears
F
J
H
Helical
Gears
D
A
B
I
(kg)
Catalog No.
0.31
0.42
0.61
0.73
0.84
1.50
1.99
3.00
3.52
4.02
0.035
0.053
0.096
0.12
0.15
0.16
0.24
0.44
0.56
0.70
KSRT2/3-50
KSRT2/3-60
KSRT2/3-80
KSRT2/3-90
KSRT2/3-100
KSRT1-50
KSRT1-60
KSRT1-80
KSRT1-90
KSRT1-100
29.0
49.2
70.8
94.3
2.96
5.02
7.22
9.61
0.28
0.53
0.85
1.24
KSRT2-30
KSRT2-40
KSRT2-50
KSRT2-60
92.6
158
229
9.44
16.1
23.3
0.86
1.58
2.54
KSRT3-30
KSRT3-40
KSRT3-50
226
385
559
23.0
39.3
57.0
1.89
3.53
5.66
KSRT4-30
KSRT4-40
KSRT4-50
CP Racks
& Pinions
3.07
4.10
6.00
7.11
8.24
14.7
19.5
29.4
34.5
39.4
Racks
Weight
Shear strength of keyways
0.31
0.42
0.61
0.73
0.84
1.50
1.99
3.00
3.52
4.02
0.067
0.10
0.16
0.21
0.24
0.24
0.34
0.61
0.73
0.87
KSRTB2/3-50
KSRTB2/3-60
KSRTB2/3-80
KSRTB2/3-90
KSRTB2/3-100
KSRTB1-50
KSRTB1-60
KSRTB1-80
KSRTB1-90
KSRTB1-100
29.0
49.2
70.8
94.3
2.96
5.02
7.22
9.61
0.47
0.82
1.14
1.59
KSRTB2-30
KSRTB2-40
KSRTB2-50
KSRTB2-60
92.6
158
229
9.44
16.1
23.3
1.40
2.17
3.22
KSRTB3-30
KSRTB3-40
KSRTB3-50
226
385
559
23.0
39.3
57.0
2.75
4.38
6.72
KSRTB4-30
KSRTB4-40
KSRTB4-50
Screw
Gears
3.07
4.10
6.00
7.11
8.24
14.7
19.5
29.4
34.5
39.4
Miter
Gears
Allowable torque (kgf • m)
Shear strength of keyways
Bevel
Gears
Allowable torque (N • m)
Internal
Gears
T9
KSRT-C
Pawls
Catalog No.
KSRT2/3-C
KSRT1-C
KSRT2-C
KSRT3-C
KSRT4-C
[Caution on Product Characteristics]
Shape
T5
K
5
8
10
12
13
(L)
(8)
(10)
(12.5)
(15)
(18)
M
30
39
55
65
80
(N)
(38)
(49)
(67.5)
(80)
(98)
P
6
12
15
20
25
Weight
(kg)
Other
Bevel
Worm
Products Gearboxes Gear Pair
E
0.020
0.057
0.13
0.23
0.38
a The pawls are designed to prevent reverse rotation. They are not suitable for use as driving
ratchets or driving rotation.
b KSRT2/3-C is manufactured using a lost wax casting method.
583
KGC • KGC-I
Miter
Gears
CP Racks
& Pinions
Racks
Internal
Gears
Helical
Gears
Spur
Gears
Gear Couplings

Features

• There are many ways to couple shafts to transmit power. We have developed
Tolerance torques of the gear couplings are determined in accordance
these standardized gear couplings of our own design. They are easier to con-
with the shear strength of the keys. Allowable shear force of keys F (N)
nect or disconnect than chain couplings.
are calculated from the following formula.
• The gear teeth of the inner hubs are crowned to allow for up to 5° of shaft angle
offset.
Bevel
Gears
Strength of Gear Couplings
Characteristics of Gear Couplings
F= b•L•σ•
• Due to induction hardened gear teeth, these couplings have excellent durability. All
surfaces are plated (Trivalent-chromate).
1
s
Additionally, allowable torques (T) of the inner hubs of the gear coupling,
• The units are machined complete with keyways, set screw holes and finished
versus shear force of keys, can be calculated from the formula below.
bores and are ready for immediate installation. We also offer minimum bore
Other
Bevel
Worm
Products Gearboxes Gear Pair
Screw
Gears
models for users who want to perform their own secondary operations.

Inner hub
b : Key Length (mm)→ Set at –2 mm from the total length of the inner hub
L
Inner hub
of the KGC Gear Coupling
: Allowable Shear Force of keys→Set at 49MPa (5kgf/mm2)
Snap Ring Groove
σ : Safety Factor→Optionally set
s : Bore size (mm)→Bore size A of the inner hub of the KGC Gear Coupling
d
Caution: Safety Factor (S) must be set at a value between 1 to 3, depending on the load types or the coupling displacement.
• If you require one set of KGC2-30, you will need one KGC2-I (outer
ring) and two KGC2-30 (inner hubs). These components may also be purchased separately. Therefore, please specify set or each when ordering.
• Inner hubs come with snap rings, S type products have prepared mini-
mum bores and finished products come with set screws.
• Due to the gear teeth being induction hardened, no secondary operations can
be performed on tooth areas including the bottom land (approx. 1 to 2 mm).
584
F•d
2000
: Key Width (mm)→Keyway width of inner hubs of the KGC Gear Coupling
Points to observe during use
Outer ring
T =
KGC
Gear Couplings
Assembly Example: KHK Stock Gears Sample Unit
Turning table
KGC Outer ring
KGC Inner hub
Other
Bevel
Worm
Products Gearboxes Gear Pair
Screw
Gears
Module 2 to 2.5
Bevel
Gears
Miter
Gears
CP Racks
& Pinions
Racks
Internal
Gears
Helical
Gears
Spur
Gears
Application
Motor
Specific usage for turning the work having no shafts or bores.
585
KGC
Module 2~2.5
Gear Couplings (Inner hub)
G
Gear teeth
Standard full depth
Pressure angle
20° (Crowing)
Material
S45C
Heat treatment
Tooth surface induction
hardened
E
F
K
Tooth hardness 50~60HRC
A
B
M
L
D
C
Helical
Gears
Spur
Gears
Specifications
Miter
Gears
CP Racks
& Pinions
Racks
Internal
Gears
T2
Catalog No.
KGC1-12S
KGC1-20
KGC1-22
KGC1-25
Module
m2
Bore
Hub dia.
Pitch dia.
Outside dia.
Face width
Hub width
Total length
A
B H7
C
D
E
F
G
Size
T2
TK
TK
TK
12
20
22
25
45
50
54
10
25
35
—
M5
M6
M6
—
10
10
10
20
30
32
35
40
70
80
84
15
40
55
—
M6
M10
M10
M10
—
13
13
13
13
20
45
50
90
105
110
20
45
65
—
M10
M10
—
20
20
No. of
teeth
Shape
25
KGC2-20S
KGC2-30
KGC2-32
KGC2-35
KGC2-40
m2
40
T2
TK
TK
TK
KGC3-20S
KGC3-45
KGC3-50
m2.5
42
T2
TK
TK
[Caution on Product Characteristics]
Bevel
Gears
[Caution on Secondary Operations]
KGC-I
Screw
Gears
Module 2~2.5
E
Specifications
Gear teeth
Standard full depth
Pressure angle
20°
Material
S45C
Heat treatment
Tooth surface induction
hardened
A
C
D
Other
Bevel
Worm
Products Gearboxes Gear Pair
L
a S-type products are of minimum bore depth. Keyways are made according to JIS B1301 standards, Js 9 tolerance.
b For products with a snap ring and a tapped hole, a set screw is included as an accessory.
c The allowable torques in the table are obtained from the shear strength of keyways. The shear strength of keyway is assumed to be 49MPa (5kgf/mm2).
d Since trivalent-chromate treatment is applied, changes may occur in the dimensions of the bore, keyway etc., decreasing by a few μ m.
a Due to the gear teeth being induction hardened, no secondary operations can be performed on tooth areas including the bottom land (approx. 1 to 2 mm).
Gear Couplings (Outer ring)
Tooth hardness 50~60HRC
T1
Catalog No.
KGC1-I
KGC2-I
KGC3-I
Module
m2
m2
m2.5
No. of teeth Shape
25
40
42
T1
Internal dia.
Pitch dia.
Outside dia.
Face width
Backlash
A
C
D
E
(mm)
(kg)
46
76
100
50
80
105
68
105
145
25
36
48
0.40~0.60
0.33
1.03
2.96
[Caution on Secondary Operations] a Due to the gear teeth being induction hardened, no secondary operations can be performed on tooth areas
including the bottom land (approx. 1 to 2 mm).
586
Set Screw
Weight
KGC
Gear Couplings (Inner hub)
N
G
J
Helical
Gears
M
D
C
L
Spur
Gears
F
K
A
B
E
L
M
23
1.95
42.5
Total Width of Gear Coupling
Keyway
Allowable torque (N • m) Allowable torque (kgf • m)
Backlash
Weight
N
Width×Depth
Shear strength of keyways Shear strength of keyways
(mm)
(kg)
0.40~0.60
0.43
0.37
0.35
0.32
KGC1-12S
KGC1-20
KGC1-22
KGC1-25
KGC2-20S
KGC2-30
KGC2-32
KGC2-35
KGC2-40
KGC3-20S
KGC3-45
KGC3-50
73
—
5 x 2.3
7x3
7x3
—
68.7
98.1
137
—
7.00
10.0
14.0
—
245
294
392
490
—
25.0
30.0
40.0
50.0
0.40~0.60
1.66
1.48
1.42
1.36
1.23
—
785
883
—
80.0
90.0
0.40~0.60
3.43
2.74
2.56
2.7
67
115
42
3.2
86.5
135
—
12 x 3.3
12 x 3.3
 For products not categorized in our Stock Gear series', custom gear
production services is available. For details see page VI.
Screw
Gears
Gear Couplings (Outer ring)
Other
Bevel
Worm
Products Gearboxes Gear Pair
KGC-I
Bevel
Gears
Miter
Gears
37
—
7x3
10 x 3.3
10 x 3.3
10 x 3.3
Catalog No.
Racks
K
CP Racks
& Pinions
C-Shaped Snap Ring Groove
Internal
Gears
TK
587
KSV • KSVI
Miter
Gears
CP Racks
& Pinions
Racks
Internal
Gears
Helical
Gears
Spur
Gears
Involute Spline Shafts & Bushings

Features
Characteristics of Gear Couplings
 The
• KSV and KSVI series are made according to the automotive involute
The design concept of the spline surface strength is the same as that
of a key. Here is the formula for the allowable transmission force (N) of
spline.
spline standard, JIS D 2001: 1959 (FLAT ROOT SIDE FIT, Backlash
0.06 to 0.15)
• Involute spline shafts and bushings are thermal refined to have good
Bevel
Gears
abrasion-resistance.
• Spline bushings may be made in CAC (bronze) type material as a
special custom order item.
Other
Bevel
Worm
Products Gearboxes Gear Pair
Screw
Gears

588
Points to observe during use
• Be sure not to bend shafts or break teeth when performing
secondary operations on KSV Involute Spline shafts.
• When using KSVI Spline Bushings with sliding movement,
lubrication is necessary on the sliding surface. To prevent
scuffing, it is recommended to apply lubricating grease. If
used in applications where oil contamination is not desirable, solid lubrication is recommended.
surface strength of Spline
F=η • z • hw • l • σ
And the formula of allowable torque T (N • m) of spline with respect to
the surface strength.
T=
F • dw
2000
In designing a spline shafts, besides considering the surface strength, we
should take into account the torsional and bending stresses of the spline.
Here
η : Contact ratio of surface→0.75 (assumed)
z : Number of teeth→number of teeth (z) of spline from the table
hw : Contact depth of tooth→1.485
l : Contact length of spline→Total length (A) of involute spline bushing
σ : Allowable surface stress of spline→19.61MPa (2kgf/mm2) (assumed)
dw : Contact diameter (mm)→Tip diameter of spline shaft D - hw
KSV
Involute Spline Shafts & Bushings
CP Racks
& Pinions
Racks
Internal
Gears
Helical
Gears
Spur
Gears
Application
KSV Involute Spline Shaft
Slide Bar
Other
Bevel
Worm
Products Gearboxes Gear Pair
KSV Involute Spline Bushing
Screw
Gears
Bevel
Gears
Miter
Gears
Assembly Example: Stock Gears Sample Unit
KSV Involute Spline Shafts are used in shift transmission mechanisms
589
KSV
Module 1.667
Involute Spline Shafts
Spur
Gears
Specifications
Stub teeth
Gear teeth
Pressure angle 20°
G
E
F’
S45C
Material
F
d
D
d
Helical
Gears
Heat treatment Thermal refined
Tooth hardness 200~270HB
Catalog No.
KSV17-170
KSV20-200
KSV25-250
KSV30-300
[Caution on Secondary Operations]
Module
m1.667
No. of teeth
8
10
13
16
Outside dia. Shaft dia.
Shape
D
TA
TA
TB
TB
d ++ 00 .. 21 55
16.67
19.67
24.67
29.67
13
15
20
25
Face width Shaft length (R) Shaft length (L) Total length
Backlash
Weight
E
F
F'
G
(mm)
(kg)
135
165
220
270
20
20
—
—
15
15
30
30
170
200
250
300
0.06~0.15
0.06~0.15
0.06~0.15
0.06~0.15
0.26
0.43
0.88
1.55
a Be sure not to bend shafts or break teeth when performing secondary operations on KSV Involute Spline shafts.
Miter
Gears
CP Racks
& Pinions
Racks
Internal
Gears
TA
KSVI
Module 1.667
Bevel
Gears
Involute Spline Bushings
Other
Bevel
Worm
Products Gearboxes Gear Pair
Stub teeth
Pressure angle
20°
Material
S45C
Heat treatment
Thermal refined
Tooth hardness
200~270HB
E
A
D
Screw
Gears
Specifications
Gear teeth
T1
Catalog No.
KSVI17-40
KSVI20-45
KSVI25-55
KSVI30-65
[Caution on Product Characteristics]
Module
m1.667
No. of teeth
8
10
13
16
Shape
T1
Internal dia. Outside dia.
Face width
A
D
E
13.7
16.7
21.7
26.7
40
45
55
65
25
30
38
45
Allowable torque (N • m) Allowable torque (kgf • m)
Surface durability
Surface durability
33.2
59.6
125
222
3.38
6.08
12.8
22.6
Backlash
Weight
(mm)
(kg)
0.06~0.15
0.06~0.15
0.06~0.15
0.06~0.15
0.21
0.31
0.57
0.93
a The allowable torques are calculated based on “The surface strength of Spline” .
b It is essential to apply lubricant on contact surface of the spline shaft and the hub. To prevent scuffing, it is recommended to
apply lubricating grease. If used in applications where oil contamination is not desirable, solid lubrication is recommended.
 For products not categorized in our Stock Gear series', custom gear
production services with short lead times is available. For details see page VI.
590
Involute Spline Bushings
Miter
Gears
KSVI
Bevel
Gears
CP Racks
& Pinions
Racks
Internal
Gears
Helical
Gears
Spur
Gears
F
Screw
Gears
G
Other
Bevel
Worm
Products Gearboxes Gear Pair
E
d
D
KSV
Involute Spline Shafts
TB
591
KQSGA • KQSG
Module 0.4~1
Master Gears (Spur Gear)
G
SK3
Heat treatment
Vacuum Hardening
G
G
S5
Catalog No.
KQSGA0.4
KQSGA0.45
KQSGA0.5
KQSGA0.55
KQSGA0.6
KQSGA0.65
KQSGA0.7
KQSGA0.75
KQSGA0.8
KQSGA0.9
KQSGA1.0
[Caution on Product Characteristics]
Catalog No.
KQSG0.4
KQSG0.45
KQSG0.5
KQSG0.55
KQSG0.6
KQSG0.65
KQSG0.7
KQSG0.75
KQSG0.8
KQSG0.9
KQSG1.0
[Caution on Product Characteristics]
Module
No. of teeth
0.4
0.45
0.5
0.55
0.6
0.65
0.7
0.75
0.8
0.9
1
100
88
80
72
66
62
58
54
50
44
40
Shape
S5
Hub dia.
Pitch dia.
Outside dia.
Face width
Hub width
Total length
AH7
B
C
D
E
F
G
—
40.0
39.6
40.0
39.6
39.6
40.3
40.6
40.5
40.0
39.6
40.0
40.8
40.5
41.0
40.7
40.8
41.6
42.0
42.0
41.6
41.4
42.0
10
—
10
10
Produced as custom order products, these gears requires a lead-time for shipping (from the factory) 20 working-days after placing an order. Please allow additional shipping time to get to your local distributor.
Module
No. of teeth
0.4
0.45
0.5
0.55
0.6
0.65
0.7
0.75
0.8
0.9
1
100
88
80
72
66
62
58
54
50
44
40
Shape
S0
Bore
Hub dia.
Pitch dia.
Outside dia.
Face width
Hub width
Total length
AH7
B
C
D
E
F
G
40.0
39.6
40.0
39.6
39.6
40.3
40.6
40.5
40.0
39.6
40.0
40.8
40.5
41.0
40.7
40.8
41.6
42.0
42.0
41.6
41.4
42.0
12.7
0.8
14.3
12.7
22.5
Produced as custom order products, these gears requires a lead-time for shipping (from the factory) 20 working-days after placing an order. Please allow additional shipping time to get to your local distributor.
High Precision Master Gears for meshing test machine.
Master Gears are high precision gears used in meshing test
machines. We proudly provide master gears with technologies
acquired through our experience in manufacturing standard gears.
* These gears are not for power transmission.
*
Meshing Pitch Inspection Data is included for these products.
Master Gears are available by request
We accept orders even for gears with special specifications,
such us Helical Gears. Please feel free to contact us.



S0
Bore
Available Production
592
G
Module: 0.4 to 1
Number or Teeth: can be designated as you request.
Pressure Angles: Available for various sizes, such as 14.5°, 20° and 22.5°.
C
20°
Material
D
Pressure angle
G
B
Standard full depth
B
Gear teeth
E
A
Spur
Gears
Other
Bevel
Worm
Products Gearboxes Gear Pair
Screw
Gears
Bevel
Gears
Miter
Gears
CP Racks
& Pinions
Racks
Internal
Gears
Helical
Gears
Precision grade JIS grade M00 (JIS B 1751)
G
G
Specifications