Rockwell Automation VPL-xxxx Kinetix VP Low-inertia Servo Motor 063…165 mm Frame User Manual
Page 22
22 Kinetix VP Low-inertia Servo Motor with 063…165 mm Frame Size
Rockwell Automation Publication VPL-IN001C-EN-P - November 2013
Radial Load Force Ratings (maximum) for Non-brake Motors (kgf)
(1)
(2)
(100…165 mm frame size)
(1)
1 kgf = 9.8 N (2.2 lbf).
(2)
An asterisk (*) next to a load rating indicates a load rating measured at an rpm value that is less than the value listed for that column.
Mo
to
r C
at.
No
.
RP
M
50
0
75
0
10
00
15
00
20
00
25
00
30
00
35
00
40
00
45
00
50
00
55
00
60
00
65
00
70
00
VP
L-
A1
00
1C
7
9.
1
–6
2.
8
–4
9.
8
–4
4.
6
*
––––––––
VP
L-
A1
00
1M
–––5
4.
9
–4
6.
3
–––3
8.
0
–––3
3.
6
–
VP
L-
A1
00
2C
8
7.
9
–6
9.
7
–5
5.
4
–4
8.
4
––––––––
VP
L-
A1
00
2F
––6
9.
7
60
.9
––4
8.
4
–––4
0.
8
––––
VP
L-
A1
00
3C
93
.6
–7
4.
3
64
.9
–5
6.
7 *
–––––––––
VP
L-
A1
00
3E
93
.6
–7
4.
3
–5
9.
0
–––4
7.
8 *
––––––
VP
L-
A1
00
3F
–––6
4.
9
–5
4.
8
––4
6.
8
––4
2.
1
–––
VP
L-
A1
15
2B
98
.8
–7
8.
4
68
.5
–6
0.
8 *
–––––––––
VP
L-
A1
15
2E
98
.8
–7
8.
4
–6
2.
2
––5
2.
7 *
–––––––
VP
L-
A1
15
2F
––7
8.
4
–6
2.
2
–5
4.
4
–––4
5.
9
––––
VP
L-
A1
15
3C
1
06
.4
–8
4.
5
73
.8
–6
4.
0
*
–––––––––
VP
L-
A1
30
3B
13
2.
9
–1
05
.5
92
.2
84
.4
*
––––––––––
VP
L-
A1
30
3E
––1
05
.5
–8
3.
7
–7
3.
1
–6
6.
5
–––––
VP
L-
A1
30
4A
14
0.
2
12
2.
5
11
2.
2 *
–9
5.
2 *
––––––––––
VP
L-
A1
30
4D
1
40
.2
–1
11
.3
–8
8.
3
–7
7.
2
––––––––
VP
L-
A1
30
6C
15
0.
0
–1
28
.3
*
10
7.
7 *
94
.5
––––––––––
VP
L-
B1
00
1M
––––4
9.
8
–4
3.
5
–3
9.
6
–––3
4.
6
––
VP
L-
B1
00
2E
8
7.
9
–6
9.
7
–5
5.
4
––4
6.
8
*
–––––––
VP
L-
B1
00
2M
–––6
0.
9
––4
8.
4
––4
2.
2
––3
8.
4
––
VP
L-
B1
00
3C
93
.6
–7
4.
3
64
.9
–5
4.
8
–––––––––
VP
L-
B1
00
3F
––7
4.
3
64
.9
––5
1.
5
–––4
4.
2 *
––––
VP
L-
B1
00
3T
–––6
4.
9
–5
4.
8
–––4
5.
0
––––3
8.
9
VP
L-
B1
15
2C
9
8.
8
–7
8.
4
68
.5
–5
9.
8
*
–––––––––
VP
L-
B1
15
2F
––7
8.
4
–6
2.
2
54
.4
––4
7.
5
–––––
VP
L-
B1
15
2T
–––6
8.
5
–5
7.
8
––4
9.
4
––––4
2.
0
–
VP
L-
B1
15
3E
1
06
.4
–8
4.
5
–6
7.
0
––5
7.
3
*
–––––––
VP
L-
B1
15
3F
––8
4.
5
–6
7.
0
–5
8.
6
–––4
9.
4
––––
VP
L-
B1
30
3C
1
32
.9
–1
05
.5
92
.2
–8
0.
5
*
–––––––––
VP
L-
B1
30
3F
––1
05
.5
–8
3.
7
–7
4.
0
*
–6
6.
5
––––––
VP
L-
B1
30
4C
14
0.
2
–1
11
.3
99
.5
*
–8
6.
2 *
–––––––––
VP
L-
B1
30
4E
––1
11
.3
97
.2
–8
4.
3
*
–7
3.
3
–––––––
VP
L-
B1
30
6C
1
50
.0
–1
19
.1
–1
00
.8
*
87
.7
–––––––––
VP
L-
B1
30
6F
––1
19
.0
–9
4.
5
–8
2.
6
––7
3.
5
*
–––––
VP
L-
B1
65
1C
16
1.
3
–1
28
.0
–1
08
.3
*
–9
1.
4 *
––––––––
VP
L-
B1
65
1F
––1
28
.0
–1
01
.6
–8
8.
7
–––7
6.
1
*
––––
VP
L-
B1
65
2C
18
0.
7
–1
43
.4
12
5.
3
––1
03
.0
*
––––––––
VP
L-
B1
65
2F
––1
43
.4
12
5.
3
–1
05
.7
––9
0.
4
––––––
VP
L-
B1
65
3C
19
2.
4
–1
52
.7
13
6.
5 *
–1
15
.7
*
–––––––––
VP
L-
B1
65
3D
––1
52
.7
13
9.
9*
12
5.
5*
–1
05
.9
––––––––
VP
L-
B1
65
4B
20
0.
1
17
4.
8
–1
52
.5
*
12
9.
4 *
––––––––––
VP
L-
B1
65
4D
––1
58
.8
13
8.
8
12
6.
1
–1
10
.1
––––––––