Shaft Extension; Radial And Axial Forces; Sample Calculation Of The Belt Pre-Tension - Siemens SIMOTICS S-1FT7 Configuration Manual

Mechanical properties

3.6 Shaft extension

3.6 Shaft extension
The shaft extension at the DE is cylindrical according to DIN 748 Part 3, IEC 60072-1.
Standard: Plain shaft (without keyway)
Option: Keyway and feather key (half key balancing)
For fast acceleration levels and reversing operation, we recommend that you use friction-
locked shaft-hub coupling.
3.7

Radial and axial forces

As a result of the bearing arrangement, as described in Chapter "Bearing versions
(Page 52)" the motor is designed for vectored forces. Forces such as these occur, e.g. for a
belt drive.
All radial forces always involve vectored forces.
NOTICE
Motor damage caused by rotating forces
Rotating forces can result in bearing motion and in turn damage the motor.
• Rotating forces are not permissible.
3.7.1

Sample calculation of the belt pre-tension

Note
Carefully comply with the guidelines provided by the belt manufacturer
• Carefully comply with the guidelines provided by the belt manufacture when configuring
the motor for radial forces at the shaft extension.
• Adjust the belt tension using the appropriate measuring instruments.
F
= 2 •
V
Table 3- 13
Formula abbrevia-
tions
F
V
M
0
54
M c d
• /
0 R
Explanation of the formula abbreviations
Unit
N
Nm
F F
≤
V R, perm
Description
Belt pretension
Motor static torque
Configuration Manual, 09/2018, A5E45099423B AA
S-1FT7 synchronous motors