SU957030A1 - Device for testing articles for impact load - Google Patents

Description

(54) DEVICE FOR TESTING PRODUCTS ON SHOCK LOAD

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The invention relates to a test apparatus, namely, devices for testing products for impact load.

A device for testing products for impulse loads is known, which contains an electrodynamic impulse exciter with a drive, on the movable part of which a test product is installed, a measuring transducer, an indicator, a control unit, a driver of parameters connected to the control unit and the impulse driver of the load 1.

The device allows testing of products by adjusting the parameters of a pulse load, however, obtaining measurement information from a dual device is difficult, which is a drawback of the device. The device also does not allow testing the products according to the program.

The closest to the invention in its technical essence is a device for testing products for impact load, containing a shock driver with a drive platform for fixing products, a mechanism for generating load parameters.

serially connected measuring transducer and programmer, including a memory unit and a switch, a control unit and a switch, the inputs of which are connected to the control unit and the program unit, and the output to the control input of the drive of the percussion driver 2.

The device allows to carry out software tests by automatically changing the parameters of the shock load; however, when changing the duration of the shock load, the device does not provide constant load amplitude, which reduces the accuracy of the test results.

The aim of the invention is to improve the accuracy of the tests.

This goal is achieved by the fact that, in a device for testing products, a shock load containing a shock driver with a drive, a platform for fixing products, a mechanism for generating load parameters, a serially connected measuring transducer and a programmer, including a memory unit and a switch, a control unit and a switch, the inputs of which are connected to the control unit and the program block, and the output to the control input of the drive of the shock driver, the memory block of the programmer is made as a sequence connected pulse generator, the input of which is connected to the output of the measuring converter, and the counter, and the shift register, the outputs of which are connected to the switch, and the switch is connected between the counter and the recorder, and its second output is connected to the control input of the mechanism for forming the load parameters.

FIG. 1 is a block diagram of the device; in fig. 2 - the form of reproducible loads.

The device contains a shock driver 1, a drive 2, a platform 3 for fixing the product 4, serially connected measuring transducer 5, pulse shaper 6, counter 7, switch 8 and shift register 9, control unit 10, switch I, to whose inputs control unit 10 is connected and a shift register 9, a command driver 12 connected to a control input of the load parameter generation mechanism 13. The elements of the block diagram, labeled 6-9, make up the programmer. The output of the switch 8 is connected to the driver of 12 commands. The shock exciter 1, made in the form of a rotary scraper (not indicated), which loads the platform 3 with the help of the impactor 14. For changing the load parameters, there are various thickness and elasticity removable pads 15 moved by the parameter forming mechanism 13.

The device works as follows.

In the initial position, the counter 7 is in the zero state. In the first cell of the 9 shift register, the unit is recorded, and in the others, the zeros. The unit level from the first cell of the shift register 9 arrives at the control input of the switch 11, which ensures the passage of a command from the control unit 10, according to which the parameter formation mechanism 13 sets the gasket 15 with maximum rigidity and, therefore, with a minimum shock pulse duration. The signal taken from the measuring transducer 5, having passed through the shaper 6, will be fed to the input of the counter 7. On the output bus 1 of the counter 7, the signal that will shift the unit in the register 9 by one clock is sent. E. On its output bus 2 on Wits unit level, and on the other - zero. At the same time, the shaper of 12 teams will work and will change the gasket 15

on less tough. The unit potential is fed to the input of the switch 11, which connects a higher control voltage from the output of the unit 10 to the input of the drive 2. Thereby, the amplitude of the shock load is stabilized with a varying duration.

The shock load mode (Fig. 26) corresponds to the position of the switch 8 in which the signal from the bus "1 counter 7 arrives at the input of the shift register 9, and the input of the driver 12 is turned off, which prevents the strip 15 from changing and thus the pulse duration during the step increase amplitudes.

The shock load mode (Fig. 2d) corresponds to the position of the switch 8, at which the control signal at the input of the formation mechanism 13 comes after the n-th counting pulse, the number of which corresponds to the number of beats of the same amplitude of the B series.

The invention improves the accuracy of the tests by controlling the amplitude and duration of the shock load.

Claims (2)

1. Klyuev V. V. Instruments and systems for measuring the vibration of noise and shock. Prince 2, M., “Mechanical Engineering, 1978, p. 361. 2. USSR author's certificate for application number 2635598, cl. G 01 M 7/00, 1978 (prototype). Tfv 2TGZH s IG