SU728024A1 - Stand for testing gears using open-loop scheme - Google Patents

Description

one ,. The invention relates to mechanical engineering, namely, to testing equipment, and can be used in testing according to the open-loop scheme of gearboxes with a vertical arrangement of output elements. A stand for testing gearboxes according to the open-loop scheme is known, which contains a base, a drive and a load device designed for kinematic connection with the gearbox under test 1. A disadvantage of the known stand is that it does not allow to smoothly adjust the load corresponding to the moment of static resistance and inertial moment . rotating masses. The aim of the invention is to improve the accuracy of adjustment with the vertical position of the output elements of the test gear. This goal is achieved by the fact that the load device is made in the form of a disk connected coaxially to the output elements of a disk associated with them, the stand is equipped with a disk located coaxially with the axis and an annular hinge interacting with it and the disk axial displacement mechanism. In addition, the mechanism of axial movement of the disk is equal levers located around the circumference of the latter and two-arm levers that are charlically mounted on the base, one of the arms carrying rollers and screw devices interacting with the disk, interacting with other arms, and the disk is equipped with weights evenly spaced along the circumference of the latter. FIG. 1 shows a test rig for testing the gearboxes; in fig. 2 is a view A of FIG. in fig. 3 - view B of FIG. 1. The stand contains a base I p mounted on it a drive 2 and a load e 3 device, which are associated with the gear under test 4. The loading device is made S in the form of a disk 5 with weights 6 evenly spaced around the circumference of the latter. - The disk 5 rests on three rollers 7 and an annular bolster 8 friction slider. The axial movement mechanism of the w disk is

articulated with the base 1 two shoulders levers 9, one of the shoulders of which is carried by the rollers 7, and screw devices 10 connected with the other arms of the levers 9 for adjusting the force of pressing the rollers 7 to the disk 5. In the radial direction the disk 5 is fixed. by means of centering rollers 11. The connection between the load device 3 and the output elements of the test gear 4 is carried out by means of a toothed connection 12.

The stand works as follows. The test gear 4 is secured on the base 1. With the help of gear connection 12, the gear 4 is connected to the load device 3. The input shaft of the gear box is connected to the drive gear 2, which provides different speeds and accelerations of rotation of the input shaft and, accordingly, the disk 5 load device 3. Installing on the disk 5 different combinations of interchangeable goods 6, load the test gear 4 with loads corresponding to the moments of inertia of the rotating masses. The load corresponding to the moments of static resistance is achieved due to rolling friction between disk 5 and rollers 7 and sliding friction between disk 5 and support 8. In the case when disk 5 rests only on rollers 7, the moment of friction is minimal, and when Caption 8 - maximum. To obtain the minimum friction moment, it is necessary using devices 10 to press rollers 7 to disk 5 with an effort equal to the weight of disk 5 with weights 6. To obtain maximum friction moment it is necessary to use devices 10 to lower rollers 7 down, thereby reducing the pressure of rollers 7 to - Disk 5 To Zero. At the same time, the entire weight of the disk 5 with weights 6 falls on the follower 8. Devices 10, providing a smooth change in the force of pressing the rollers 7 to the disk 5, make it possible to obtain a smooth change in the moment of static resistance and, accordingly, the loads determined by it within the limits of the minimum ( close to zero) to the maximum. Connection of the tested gearbox 4 with the load device

3 by means of gear connection 12 without intermediate gears (elements) eliminates distortions of test results caused by changes in the compliance and torsional rigidity of the system due to intermediate gears and the presence of backlashes in them.

This embodiment of the stand design allows for a smooth change in the applied load when the test gear is vertically positioned and, thus, increases the accuracy of its adjustment.

Claims (3)

1. A stand for testing open-loop gearboxes containing a base, Driving and loading devices designed for kinematic connection with the gearbox under test, characterized in that, in order to increase the accuracy of adjustment when the output elements of the test gearbox are vertically arranged, the load device is designed as a coaxial output box, the gearbox elements and the disk associated with them. , the stand is equipped with an annular support and an axial movement mechanism coaxially aligned with the disk axis. 2. A stand according to claim 1, characterized in that the mechanism for the axial movement of the disc is uniformly circumferentially disposed and hingedly mounted on the base of the levers, one of the arms of which carries rollers interacting with the disc and screw devices that interact with other shoulders. 3. Stand popp, 1 and 2 distinguish-. due to the fact that the disk is supplied with goods evenly spaced around the circumference of the latter. Sources of information taken into account when examining 1. USSR author's certificate N 301588, cl. G 01 M 13/02, 1968 (prototype).