SU567109A1 - Arresting device for a shock testing stand - Google Patents

Description

one

The invention relates to a test apparatus, in particular to devices for testing products for the effect of shock loads.

Braking devices for a shock test stand are known, which contain a weight freely suspended on the weight and a damper mounted on it, which receives shock 1.

However, after the impact, the mass moves along the 1PO circle with the center at the point of suspension, which limits the size of the braking path and makes it impossible to obtain a relatively smooth braking with a low level of braking force.

Also known braking devices containing a moving in the direction of impact mass and damper 2.

In this case, the length of the braking path is practically unlimited, and the braking force can be quite small. However, the capabilities of the device in terms of reproducing a variety of pulses of braking force are limited by the fact that in order to maintain a given braking force on a long braking distance, the damper must have a sufficiently large stroke, which increases its dimensions, mass, and design complexity. To reproduce the various laws of inhibition, either a dem

a very complex structure, or a set of dampers of different design, each of which, taking into account the requirements for the stroke size, also has a complex structure.

The proposed brake device differs from the known ones in that in order to expand the operational capabilities it is equipped with additional alternating masses and dampers moving in the direction of impact.

The drawing shows schematically a test bench with the proposed brake device.

The bench contains guides 1, a carriage 2 placed on them with the tested article 3 and a braking device made in the form of alternating masses 4 and dampers 5 moving in the direction of impact.

The carriage 2, moving along the guides 1, reaches the first of the dampers 5 and through it collides with the first of the masses 4. In this case, part of the speed of the carriage 2 is lost and the braking impulse begins to act on the product 3. Further braking occurs when the collision of the carriage 2 with the second and subsequent masses 4 through the dampers 5.

The progress of each of the dampers 5 of the proposed device is significantly less than the stroke of the damper of known devices and other

equal conditions. This makes it possible to use simple gaskets made of soft material instead of complex hydraulic or pneumatic devices as dampers.

The given law of the braking force can be obtained by the appropriate choice of the values of each of the masses 4 and the parameters of the dampers 5 and is also easily changed by changing these values. In this case, laws can be obtained that are unattainable on the known brake devices with one mass and a damper.

Thus, the expansion of the operational capabilities of the impact test bench improves the quality of the tested products due to a more complete imitation of the operating conditions during the tests.

Claims (2)

1. Batuyev G.S. and others. Engineering methods for the investigation of shock processes. M., “Mechanical Engineering, 1969, p. 28, Fig. five. 2. USSR author's certificate №315075. cl. G 01M 7/00, 1969.