SU1635034A1 - Stand for running in worm gears - Google Patents

Abstract

The invention relates to mechanical engineering and can be used in manufacturing factories of worm gearboxes. The purpose of the invention is to increase the productivity of the running-in time by providing a pulsating load. The stand for running-in of worm gearboxes works in a closed circuit. In this case, the torque from the driving motor 1 branches into two branches and passes through one worm gear 5 through one kinematic chain to the rotor 8, and from the second worm gear 5 through the other kinematic chain, torque flows to the stator 10. on the shaft in bearings 11. The interaction between the rotor 8 and the stator 10 is electromagnetic, since Energizer 9 is an electric machine. The force-driver 9 can also operate in the generator mode with counter-rotation of the rotor 8 and the stator 10. The pulsating mode of operation of the electric machine - force-driver 9 - makes it possible to shorten the running-in time of the gearboxes. 1 il. "/)

Description

The invention relates to mechanical engineering and can be used in factories manufacturing worm gearboxes. 5

The purpose of the invention is to increase the performance of the worm gear reducers by providing a pulsating load.

The drawing shows a kinematic diagram of the stand.

The stand for running in of worm gearboxes contains a drive electric motor 1, the shaft of which is connected by a belt drive 2 to the intermediate shaft 3, which is connected through the couplings 4 to the high-speed shafts of the worm gearboxes

5. The low-speed shaft of one of the gearboxes through gear 6 and clutch 7 is connected jq to the shaft of the rotor 8 of the exciter

9, made in the form of an electric machine. The stator 10 of the electric machine is installed in the bearings 11 and through the clutch 7 and the gear 6 is connected to a low-speed 25 shaft of the second gearbox. Electricity to the stator 10 is supplied through the sliding contacts 12.

The stand works as follows.

After the installation of two worm gearboxes 5 on the stand, a closed kinematic chain is formed in which the exciter 9 provides loading of the gears of the gears at a given moment, and the drive motor provides rotation of the elements of the closed circuit with a given frequency. When power is supplied to the exciter 9, a torque M acts between its rotor and stator, which acts from the rotor through gear 6 to the worm wheel of one gearbox 5, and from the stator to the worm wheel of another gearbox 5. If the gearboxes are self-driving45; contact, no torque is transmitted to shaft 3.

If the gearboxes are non-self-locking, then the moment is transmitted to the shaft 3 from two sides with different signs. In this case, all kinematic chains of the stand are twisted by the moment M and the floor is loaded with different gearing profiles. When shaft 3 is driven by a drive motor in the direction of arrow A, gearbox 5 is run in traction mode, and another gearbox 5 is driven in inverse traction mode (power is transmitted from the worm wheel to the worm) if the gearboxes are non-self-braking, and in the brake mode, if the gearboxes are self-braking. When the shaft 3 rotates in the direction of arrow K, the running-in modes of the gearboxes change.

To burn in other gear profiles, it is necessary to reverse the moment of the exciter 9. So ka / the exciter 9 is an electric machine, i.e. Since it is electrically controlled, it is possible to provide both smooth regulation of torque in a wide range, and obtaining a pulsating moment during a pulsed supply of electricity to an electric machine. The pulsating loads supplied to running gears from the electric machine will allow running-in to produce faster.

Claims (1)

Claim A stand for running in of worm gearboxes containing a drive motor and an adjustable exciter kinematically connected to each other in a closed circuit via worm gearboxes, characterized in that, in order to increase productivity by providing a pulsating load, the exciter is made in the form of an electric machine, the stator of which is installed with the possibility of rotation around its axis and has a shaft designed to connect with one of the gears, and the rotor shaft of the electric machine is designed to connect with rugim gear.