SU957037A1 - Reduction box testing method - Google Patents

Description

(54) STAND FOR TESTING GEARS

one

The invention relates to mechanical engineering, in particular to testing equipment, and can be used for testing gearboxes, preferably with a limited angle of rotation of the output shafts, according to the scheme of a closed loop with dynamic loading.

Known. a stand for testing gearboxes according to a closed-loop scheme, which contains a drive and a differential intended for connection to the shafts of the tested gears, mounted on the differential gear case a pulley covering its flexible thread connected by tension mechanisms with the base of the stand 1.

The disadvantage of this bench lies in the impossibility of reproducing dynamic loads.

Closest to the invention is a stand for testing gearboxes according to a closed loop scheme, comprising a drive, a shaft designed to connect the like shafts of the tested gearboxes, a differential to connect other shafts of the tested gearboxes, a loader, and a lever, one arm of which is connected to

the differential case, another - with a loader. The loader is made in the form of a hydraulic jack and a controlled hydraulic system 2 connected to it.

The disadvantage of the well-known test bench lies in its difficulty in conducting tests with dynamic loads, due to the presence of a complex hydraulic system, controlling the force on the rod of the hydraulic jack and the magnitude of the displacement of the rod at the required time points.

The aim of the invention is to simplify the design when testing with dynamic load.

This goal is achieved by the fact that in 15 test benches for testing gearboxes according to a closed loop scheme containing an actuator, a shaft designed to connect the same shaft of tested gearboxes, a differential to connect other shafts of the tested gearboxes, the loader and lever, one arm of which is connected to the differential case the other is with a loader, the latter is made in the form of a pin with eccentric weight, is kinematically connected with the shaft and pivotally connected to the lever arm.

FIG. 1 shows a stand, general view; in fig. 2 is a view A of FIG. one.

The stand contains a drive 1 mounted on frame 2, a shaft 3 connected to shafts 4 and 5 of the same name, test gears 6 and 7, a differential 8, for example conical, connected to other shafts 9 and 10 gears tested 6 and 7 and mounted on frame 2 can be rotated around one of the main axes, coaxially with shafts 9 and 10. Lever 11, one arm connected to the differential housing 8, the other is pivotally connected to the loader, being a pulley 12 with eccentric weight 13. Mounted on shaft 3 an additional pulley 14 is associated with a flexible neras 12 pulley the thread 15, covering them in several turns.

The stand works as follows.

In the case of testing gearboxes, when, for example, the direction of rotation of shafts 4 and 9 of gearbox 6 coincide, and shafts 5 and 10 opposite gearbox 7, when drive 1 is turned on, shafts 9 and 10 rotate in different directions and cause rotation of shafts 4 and 5 of tested gearboxes 6 and 7 together with the shaft 3 (in one direction) with which the additional pulley 14 fastened on it rotates one branch of the flexible non-expandable thread 15 onto it and another branch escapes from it, which in turn causes one branch to escape non-expandable flexible yarn 15 from yarn 12 and set Another branch falling onto it, causing the pulley 12 to rotate. Together with the pulley 12, the eccentric weight 13 rotates.

The rotation of the eccentric load 13 around the axis of the pulley 12 constantly changes the shoulder H and thus the magnitude of the moment unfolding the differential housing 8, i.e. the load of the gearboxes 6 and 7 changes.

When the lever 11 is installed along the vertical axis O-O, the load varies along a sinusoidal symmetrical cycle; when the lever 11 is installed at an angle J., the load may be with an asymmetric or pulsating cycle.

The adjustment of the maximum load values can be made by changing the weight of the load 13 or the size of the shoulder H its position relative to the axis of the pulley 12.

If it is necessary to test gears with one direction of rotation of the input and output shafts, the connection of the input shafts is supplied with a device for changing the direction of rotation of one of the shafts, for example, another differential (not shown).

The proposed stand design provides for the testing of gearboxes the required modes of dynamic loads, eliminating the need to use a controlled hydraulic system, and thus allows us to simplify the design of the stand in tests with dynamic loads.

Claims (2)

1. Davydov B. L. and others. Reducers. Moscow-Kiev, Mashgiz, 1963, p. 433, FIG. 177. 2. In the same place 432, FIG. 176 (prototype).