SU977978A1 - Device for impact testing - Google Patents

Description

 shock pulses of various shapes, amplitudes and durations.

The drawing shows the proposed device.

The device contains a barrel 1 with a piston 2 installed in it, which serves to fasten the test article 3, an actuator for accelerating the piston 2, made in the form of a high pressure chamber 4 communicated with the stool 1 by the piston bore 5 through channel b with a fast-acting valve 7. Chamber

4, in turn, is connected to a pressure source (not shown) through the opening 8. The device also includes means for generating a shock pulse, which is a system of openings 9 made in the barrel along its entire length,

in the parts which are fitted with plugs 10, and in others - throttles 11. In addition, the device also contains a trap 12 of the piston 2 mounted opposite the barrel 1, and the holder 13 of the piston 2 with an adjustable response force.,

The device works as follows.

Before testing, solving the thermodynamic equations for a variable amount of gas and the equation of piston 2 for a given law for changing the pressure of a gas in a volume formed by a moving piston 2, determine the area of holes for gas release into the pre-piston cavity 5 from a high-pressure chamber 4 and its release into the atmosphere as a function of the coordinates of the movement of the piston 2. In accordance with this calculation, plugs 10 are installed in one part of the openings 9, and chokes 11 in another part,

When in the initial position of the piston-b 2 is with the test product 3 high pressure, the channel 6 nepev; pfi T valve 7, the piston 2 is fixed to the holder 13, through the hole 8 into the chamber 4 is supplied with gas under pressure, when reaching a predetermined pressure hole 8 overlaps. When valve 7 is triggered, gas from the high-pressure chamber 4 enters the pre-piston cavity 5. At a certain cavity pressure

5, the holder 13 releases the piston 2 which, under the action of a pressure force, moves along the barrel 1, opening "asg holes 9 with throttles 11,

adjacent to the high-pressure chamber 4. In this case, the inflow of gEa to the pre-piston cavity 5 increases, the piston 2 continues to accelerate. At the point in time when the gas pressure on the piston 2 reaches its maximum value, the formation of the leading edge of the pulse is completed. Upon further movement, the piston 2 sequentially opens the throttles 11, which communicate the sub-piston cavity 5 with the atmosphere. The pressure in cavity 5 drops. By the time the piston 2 leaves the barrel 1, the acceleration impulse formation process is completed. When exiting the barrel 1, the piston 2 falls into the trap 12,

If it is necessary to reproduce the pulse with other parameters and another form, reinstall the plugs 10 and the inductors 11 in accordance with the preliminary calculation. J The proposed device has a simple design and allows reproducing shock pulses of various Htjx forms, both symmetrical and asymmetrical, with different parameters.

In addition, the reconfiguration of the device is carried out in a simple way, namely, by rearranging the plugs and dropping the mudflows in the openings of the trunk of the device.

Claims (2)

1. USSR author's certificate number 777532, cl. G 01 M 7/00, 1976. 2. Author's certificate. USSR № 129861, cl. G 01 M 7/00, 1959 (prototype).