SU1567905A1 - Bed for impact tests - Google Patents

Abstract

This invention relates to a testing technique. The aim of the invention is to improve the accuracy of reproduction of a half-sine shock pulse by means of migearization of the braking force. The bench contains a base 1, a feeding platform 2 for mounting the test article 3, a braking device with a rigid non-linear force characteristic located between the platform and the base. A platform 9 is fixed on the platform in which the mass 12 is elastically suspended on the elastic element 11. When braking, the mass moves in the direction of movement of the platform. The force in the elastic element acts on the platform 6 in the direction opposite to the force of the braking device, which makes it possible to bring the braking force closer to linear. 2 Il.

Description

The invention relates to test equipment, namely, stands for shock tests.

The purpose of the invention is to increase the accuracy of reproducing a half-sinusoidal shock pulse by linearizing the braking force.

In FIG. I presented a stand, a general view; in FIG. 2 is a diagram illustrating the linearization of the braking force (1 rigid power characteristic of the brake device (real), II predetermined linear power characteristic, III power characteristic of the elastic element).

The stand contains a base 1, a falling platform 2 for installing the test product 3, guides 4 for a platform 2. A brake device with a rigid nonlinear power characteristic located between the platform 2 and the base I, including a cylinder 5 with flexible side walls, elastic modules 6, rigidly connected with the end face of the cylinder 5, the piston 7, in which the hole 8 is made for supplying gas to the cavity of the cylinder 5 from the device (not shown) for adjusting the gas pressure.

The stand is also equipped with bodies 9 and 10 fixed on the platform 2 and elastically suspended on the elastic elements 11 in the bodies 9 and 10 by masses 12, which can move in the direction of movement of the platform 2 during braking.

The stand works as follows.

At the initial moment of braking, the kinetic energy of the platform 2 moving at a speed Vo and mass 12 passes into the potential energy of deformation of the braking device with stiffness C, and elastic elements 11 with stiffness

In this case, elastic forces arise due to deformation of the braking device? ”, VA / ⁷ | = C | X | and deformation of the elastic element 1 I F2 = C2X2, which act on platform 5 in opposite directions (see Fig. 2), where and X2 are the current coordinates of platform 2 of mass mi and mass t2 12 in a fixed FtOiX \ and mobile (associated with mass 12) coordinate systems, respectively. The numerical values of the ¹⁰ parameters C2 and m _{2 are} selected so that the current values of the force F _2i always compensate for the deviation l \ Fh of the force Λι from the linear law, i.e., that the conditions

AFu = F ₂ „e _e = e _n _g ₂₁ .

The stand allows, by adjusting the power characteristics of a real braking device (linearizing the characteristics of ²⁰ ticks), to more accurately approximate the shape of the shock pulse to a half-sinusoidal shape.

Claims (1)

Claim 25 Impact test bench, comprising a base, a feeding platform for installing the test product and a brake device with a rigid nonlinear power characteristic located between the platform and the base, characterized in that in order to increase the accuracy of reproducing a half-sinusoidal shock pulse by linearizing the braking force, it is equipped with the casing and a mass elastically suspended in the casing, having the ability to move in the direction of movement of the platform during braking. Composition ntel V. Meshkovsky .am about;> A. Dolinch '1 ehred I.- Veres Corrector L. Patai Sunset 13Ϊ6 Circulation 439 'Subscription WRITE! I wasp gift <'gvenshio of the committee on inventions and discoveries at the State Committee for Science and Technology 113035. Moscow. W -35, Raushskaya nab., D. 4/5 I 1? > And 1 H <: g 1 0 Scientific Research Institute "Patent", Uzhhorod, st. Gagarin. 101