Main Characteristics of Our HIRTH Couplings
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Main characteristics of our HIRTH couplings: Design and calculation guide: In consequence of the inclination of the tooth faces, an axial force Fa must be applied, due to the peripheral force Fu of the driving torque M. This axial force is: This axial force must be absorbed with a safety coefficient of v = 1,8 to 3, due to outside systems which tend to compress the couplings. Pressure calculation: In a compression situation, with a suitable Fva load and with no transmission of force, this load is equally distributed on both faces on the tooth. Therefore, there is no resulting bending stress. But when transmitting torque M, pressure rises on one face of the tooth and diminishes on the other. The maximum pressure is calculated as follows:
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Karakteristike HIRT-ovih spojnica
Transcript of Main Characteristics of Our HIRTH Couplings
Main characteristics of our HIRTH couplings:
Design and calculation guide: In consequence of the inclination of the tooth faces, an axial force Fa must be applied, due to the peripheral force Fu of the driving torque M.This axial force is:
This axial force must be absorbed with a safety coefficient of v = 1,8 to 3, due to outside systems which tend to compress the couplings.
Pressure calculation: In a compression situation, with a suitable Fva load and with no transmission of force, this load is equally distributed on both faces on the tooth.Therefore, there is no resulting bending stress. But when transmitting torque M, pressure rises on one face of the tooth and diminishes on the other. The maximum pressure is calculated as follows:
COUPLING Ø <= 400:
COUPLING Ø > 400:
Standard series (mm):
