SU589552A1 - Device for shaping pulsed load to impact test stand - Google Patents

Description

The invention relates to a testing technique and can be used to test the working bodies of shock-vibration building machines.

Devices are known for generating a pulse load to an impact test bench, which is an elastically-plastic deformable element, for example, in the form of a plate or a cone, lying on a rigid base 1. When the platform hits the test sample, the plate is compressed. impulse load, the shape of which is determined by the material and geometry of the deformable element.

A disadvantage of this device is the impossibility of carrying out tests for repeated impacts due to plastic deformations in the plate.

The closest to the invention to the technical essence is a device for forming an impulse load to a shock test stand, containing a chamber filled with a mobile medium (liquid). The chamber is divided by a piston at the bottom of the cavity, connected by a channel to the throttle, the throttle is controlled by programmer 2. When the platform hits, but the piston rod flows from one cavity of the chamber to

the other is through the channel through the throttle bore. The hit parameters are changed by the programmer.

This device is unsuitable for generating a load that simulates the operating load of the working bodies of shock-vibration building machines, which is of a random nature, since it is impossible to ensure the change in the characteristics of throttles with a sufficient frequency.

The aim of the invention is to simulate the operational load of the working bodies of shock-vibration building machines.

This goal is achieved due to the fact that the camera of the proposed device for shaping a pulsed load is made with movable side walls, biased in a primary direction toward their surface, and the moving medium is formed by a ball of different diameter.

The drawing shows schematically the described device.

The device for forming the impulse load to the impact test bench contains a chamber 2 mounted on a rigid base 1, having movable side walls 3 and 4, spring-loaded in a direction perpendicular to their surface by unary elements 5 and 6. Inside the chamber there are balls 7 of different diameters, forming walkers environment.

 The device works as follows. The test body 8 of the shock-vibration construction machine is mounted on the glows 7 and the vibratory hammer 9 mounted on the frame 10 is inserted. In the period between the blows, due to the presence of movable side walls 3 and 4, spring-loaded with elastic elements 5 and 6, the balls are “agitated”

7, perceiving shock-vibration load. The resulting balls. 7 may occupy an arbitrary position under the working body

8. This leads to the fact that each subsequent blow is applied to the medium of a different profile and a different rigidity.

Thus, due to the use of movable spring-loaded walls 3 and 4 and balls 7 constituting a moving medium, the device makes it possible to simulate randomly operating loads.

Claims (2)

1. G. Batuev, et al., Engineering Methods for Studying Impact Processes. M., “Mechanical Engineering, 1969, p. 131 - 132. 2. USSR author's certificate No. 503156, cl. G 01 M 7/00, 1971.