SU728020A1 - Stand for testing articles for impact-vibration loads - Google Patents

Description

The invention relates to a testing technique, in particular, to test units for testing products for shock vibration loads. Known two-dimensional seismic bench. Containing two damping exciters with mutually perpendicular lines of action, a mobile guide device interacting with one of the exciters, and a platform for mounting the test object, associated with another activator and having the possibility of moving the last exciter relative to the guide device 1. The disadvantage of this test bench is the ability to perform shock vibration test. The closest in technical essence to the invention is a stand for testing products for shock-vibration loads, comprising a base, an exciter, a platform associated with an exciter, and a device for creating an impact load; ki, including the colliding elements and the actuator 2. The test article is placed on a platform connected by a brush to a vibration exciter that is a hydraulic cylinder connected to a pulsator. The impact load is created by striking the anvil of the striker attached to the brush that moves with the first hydraulic cylinder relative to the second hydraulic cylinder, which is external to the first and rigidly attached to the base. To move the inner cylinder together with the stem and platform relative to the outer cavity of the latter, they are connected to a hydraulic actuator. The disadvantage of this stand is that it does not allow the product to be tested for the combined effect of shock and vibration, the directions of which do not coincide. In addition, when creating a shock load, the base of the stand is subjected to high dynamic loads. The aim of the invention is to test the products with a load with orthogonal impact and

vibrating components and reducing dynamic loads on the base.

The goal is achieved by the fact that the colliding elements are made as mounted on the platform with the ability to move into

the direction perpendicular to the direction of oscillation, two tables for installing products located symmetrically with respect to the longitudinal axis of the exciter of oscillations and connected to the platform by means of elastic elements, and the drive is designed as a rotating cam mounted on the platform and interacting with the tables tables in opposite directions and their subsequent release.

FIG. 1 schematically shows the stand, general view; in fig. 2 shows an embodiment of a test stand for heavy products; in fig. Figure 3 shows the design of the table guides.

The items I to be tested are mounted on tables 2, on which brackets with rollers 3 are fixed. Tables 2, using elastic elements 4, which, in particular, are made in the form of flat springs, are connected to platform 5 mounted on the oscillator 6 exciter (for example, standard vibrator VEDS-200-A). The latter is installed in the bed 7 together with the fan 8 on the shock absorber 9. The bed 7 and the shock absorber 9 are mounted on the base 10.

The device for creating a shock load includes tables 2 with elastic elements 4 and a drive in the form of a rotating cam 12 mounted on the platform 5 by means of a Kronschtein 11, interacting with the rollers 3. The shaft of the cam 12 is connected to a worm gear and a driving motor (not shown) . The formation of impact impulses is carried out with the help of dampers 13, made in the form of rubber caps, pressed with steel plates to the sides of the tables 2. The cam 12 profile is selected from the condition of simultaneous movement of the tables in opposite directions and their subsequent release.

For testing heavy items, another option is provided to connect tables 2 with platform 5 (Fig. 2). This option is characterized by the implementation of elastic elements 4 in the form of cylindrical springs and the installation of tables 2 in rolling guides, in which the rollers 14 and 15 are clamped between the tables 2 and platform 5 by means of a clamping bar 16. This connection provides high rigidity, the transmission of high-frequency pulses from the exciter 6 fluctuations and a small coefficient of action.

The stand works as follows.

The test products 1 set on the tables 2 symmetrically to the axis of the exciter 6 vibrations. The oscillator and cam drive 12 are turned on. When the cam 12 rotates, the rollers 3 will roll along its profile and move the tables 2. The cam 12 will slide off the rollers 3 and the tables 2 will strike each other. The frequency of impacts is regulated by the revolutions of the drive engine, and the decrease in impacts by changing the cam profile 12.

The bench designed for testing heavy items (Fig. 2) works in a similar way.

The described bench allows to increase the reliability of tests, since it provides more accurate reproduction of workloads.

Claims (2)

1. USSR author's certificate N 283641, cl. G 01 M 7/00; 1969. 2. USSR author's certificate N 203991, cl. G 01 M 7/00, 1969 (prototype).  //and: eleven s 0