SU1479838A1 - Device for dynamic tests of objects - Google Patents

Abstract

The invention relates to a testing technique, specifically to devices for dynamic testing of enclosures when exposed to pressure pulses in a liquid. The purpose of the invention is to improve accuracy, reduce labor intensity. The device comprises a liquid reservoir 2, means 5 for creating a pulse pressure in the liquid, vertically mounted string guides 10, 11 connected to the bottom 12 of the reservoir 2 and the base 1, a rigid frame 7 mounted for movement along the string guides 10, 11. The frame 7 is fitted with elastic stretchings 8, 9 for securing the test shell 4. The device is equipped with a flexible suspension 6 of the test shell 4 connected to the frame 7. The elastic stretches 8, 9 allow the test shell 4 to be fixed with escheni after the stress pulse pressure, which reduces the effect of the test equipment on the parameters of mechanical loading shell and increases test accuracy. The use of a rigid frame 7 and string guides 10, 11 allows the installation and equipment of the test shell 4 outside the tank 2 without mounting the liquid from the latter, which reduces the labor intensity. 1 il.

Description

one

The invention relates to testing equipment, more specifically to devices for dynamic testing (Claddings when exposed to external pulse pressure, and can be used to study the dynamic stability of shells.

The purpose of the invention is to increase accuracy and reduce labor intensity.

The drawing shows a diagram of the device.

The device comprises a base 1, a reservoir 2 with a liquid 3, used for placing the test shell 4 of the means 5 for creating a pressure pulse in the liquid 3 and a flexible suspension 6 for the shell 4, a rigid frame 7, elastic stretches 8 and 9 for mounting the shell 4 inside the frame 7 and vertical string guides 10 and 11 for the frame 7, fixed by the lower ends on the bottom 12 of the tank 2, the upper ends on the base 1. The flexible hanger 6 is connected to the frame 7.

Test shell 4 for testing in liquid 3 can be equipped with sealing end caps 13 and 14, and for measuring dynamic deformations, strain gauges 15 and 16 are installed in the middle part of shell 4. The cavity 17 of shell 4 is connected with a pumping system 18 via pipeline 18 of air. As means 5 for generating a pressure impulse in a liquid 3, a high-voltage gage mounted along the axis of the shell 6 from its lower end is used, and the source

high voltage (not shown). The impulse pressures occurring in the liquid 3 are measured with a pressure sensor 19.

The device works as follows.

The test shell 4, for example, cylindrical, sealed

With the help of end caps 13 and 14, they are installed with elastic stretches 8 and 9 in the frame 7. Installation and equipment of the shell 4 before the tests are carried out outside the tank 2.

5 Then the frame 7 with the shell installed is moved along the string guides 10 and 11 until the shell 4 is immersed at a predetermined depth in liquid 3 and at a predetermined distance from

0 discharge With a high voltage discharge in liquid 3, a short-term pressure pulse occurs. As a result, the test shell 4 is exposed to external hydrostatic

tic and pulse dynamic pressure. The magnitude of the external hydrostatic pressure is controlled by the depth of the immersion of the shell 4 in the liquid 3, as well as by

pumping air from the cavity 17 of the shell 4 through the pipeline 18. Signals from the strain gauges 15 and 16 are recorded using a measurement system, such as electronic

or loop oscilloscopes.

The device allows for securing the shell 4 in the liquid 3 with the possibility of displacement in different directions after loading with a pulse pressure. The possibility of displacement is provided by making the fastening points of the casing 4 to the frame 7 in the form of elastic stretches 8 and 9, which reduces the effect of the test tool on the mechanical loading parameters of the casing 4 and improves the accuracy of determining its dynamic deformations. The use of a rigid frame 7 with string guides 10 and 11 reduces the laboriousness of the tests, since preparatory operations for mounting the casing 4 prior to the tests and between experiments can be performed outside tank 2 without draining the liquid from the tank.

79838

Claims (1)

Apparatus of the Invention A device for the dymic testing of casings comprising a base , a fluid reservoir for accommodating the test shell, means for generating a pressure pulse in the liquid, and a flexible shell suspension, characterized in that JQ in order to increase accuracy and reduce labor intensity, it is equipped with a rigid frame, elastic stretches that serve to install the shell inside the frame, vertical 15 string guides for the frame, fixed lower ends at the bottom of the tank, upper ends on the base, and a flexible suspension connected to the frame.