SU717597A1 - Device for impact testing of articles - Google Patents

Description

The invention relates to testing equipment, in particular to devices for testing products for impact.

A device is known for testing the product for impact, consisting of a housing, a working table, a cam with a drive and shock absorbers, gaskets fixed between the table and the housing, and the test products are rigidly attached to the desktop [1]. 10

The action of the device is based on the free fall of the table, after lifting it to a predetermined height with the cam and subsequent braking on the shock-absorbing pads. The impact of mechanical loading on the product in the two most dangerous directions is carried out by moving and fixing the products on the desktop.

This device has low test performance due to the need to reinstall and fix the products on the desktop to change the impact impact board and the low reproducibility of impact parameters.

Closest to the invention in technical essence is a device for testing products for impact, containing a shock exciter, a waveguide in the form of a straight rod and in acoustic contact with the tord of the latter device for mounting test products made in the form of a rod [2].

However, such a device also has poor performance! tests, due to the fact that for loading products in two mutually perpendicular directions, it is necessary to reinstall the device and fix it in one of the positions in acoustic contact with the end of the waveguide. In addition, this device makes it possible to test products with simultaneous and sequential impact in two mutually perpendicular directions, which impedes its functionality.

To increase the test performance and expand the functionality, the proposed device is equipped with a second waveguide of the same cross section, which is made in the entrance of a curved rod with flat ends and placed in relation to the first waveguide so that their ends form an Angle 90® between themselves with a hammer in the form of a ball in contact with the ends of both waveguides, and located mutually perpendicular to the elastic, with these limiters of movement of the device for mounting the test products, made in the form of a cube, two faces of which th are in acoustic contact with the second ends of the waveguides, and two opposite faces interacting with an elastic limiters, the exciter stroke set to act on the ball at an acute; angle to the ends of the waveguides.

In addition, the radius of curvature of the second waveguide can be equal to half the length of the Forward waveguide, and the second waveguide can be made of material, the speed of sound in which is 1.5-1.6 times higher than the speed of sound in the material of the first waveguide.

The drawing shows a schematic diagram of the proposed device.

It contains a shock exciter 1, the first waveguide 2 in the form of a straight rod, the device 3 for fastening products 4, made in the form of a cube, the second waveguide 5 in the form of a curved rod, the drummer 6 in the form of a ball located mutually, perpendicularly elastic restraints 7 Movements of the device 3. The drummer 6 is in contact with the ends 8 and 9 of the waveguides 2 and 5, the two faces of the cube are in acoustic contact with the second ends 10 and 11 of the waveguides 2 and 5, and its two opposite faces interact with the elastic limiters

7. The radius of curvature of the second waveguide 5 is equal to half the length of the first waveguide 2. If, according to the test conditions, it is necessary to obtain a consistent impact in two mutually perpendicular directions, waveguides 2 and 5 are made of the same material, and if the waveguide 5 is simultaneous, they use material, the speed of sound in which 1.5-1.6 times higher than the speed of sound in the material of Waveguide 2.

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The device operates as follows.

The shock exciter is set so that it acts on the striker 6 5 at an acute angle to the ends 8 and 9 of the waveguides 2 and 5. When striking the striker 6, a compression wave is generated in each of the waveguides 2 and 5. Since the length of waveguide 5 is greater than the length of waveguide 2, 10, if they are made of the same material, the compression war in waveguide 2 earlier reaches the plane of acoustic contact of this waveguide with the face of the cube than the compression wave in waveguide 5. Thus, 15 products 4 are sequential impact in two mutually perpendicular directions. When a waveguide 5 is made of a material whose sound speed is 1.5-1.6 20 times higher than the speed of sound in the material of the waveguide 2, the propagation time of the shock wave along the waveguides is the same, as a result of which the products 4 undergo practically simultaneous double exposure ²⁵ vii in two mutually perpendicular directions.

Claims (2)

Haiipweeted that its functionality is now possible. In order to improve the performance of the tests and expand the functionality, the proposed device is equipped with a second waveguide of the same cross section which is made in the form of a curved rod with flat ends and placed in relation to the first one in such a way that their ends form an angle 90 between themselves with a drummer in contact. with the ends of both waveguides, and located tightly perpendicularly elastic constraints on the movement of the device for fastening the tested products, made in the form of a cube, two faces cerned are in acoustic contact with the second ends of the waveguides, and two opposite Gry interact e .uprugimi limiters, the impact exciter mounted possibility nost1 w w effect on an acute; Angle to the ends of the waveguides. In addition, the radius of curvature of the second waveguide can be equal to half the length of the HLW of the direct waveguide, and the second waveguide can be made of a material whose sound speed is 1.5–1.6 times higher than the sound velocity of the material of the first waveguide. The drawing is a schematic diagram of the proposed device. It contains an udf exciter 1, the first, a waveguide 2 in the form of a direct mode, a fixture 3 for fastening products 4, made in the form of, a second waveguide S In the form of a curved rod, a drummer 6 in the form of a ball and mutually arranged perpendicular 7 The movements of device 3. The impactor b contacts the ends 8 and 9 of waveguides 2 and 5, the two edges of the coil are in acoustic contact with the second ends of MI and 11 and 11 of the waveguides 2 and 5, and the two opposite sides of it coagulate with limiting 7 The radius of curvature of the second wave oestrus 5 rav.en half the length of the first waveguide 2. If, according to the CONDITIONS of the tests, it is necessary to obtain, after completing, a second impact in two mutually perpendicular directions, waveguides 2 and 5 are made of the same material, and if simultaneous - waveguide 5 are made of the material, the speed of sound in which , 5-1.6 times higher than the speed of sound in the material of Waveguide 2. The device works as follows. The impact agent is installed so that it acts on the drummer 6 at an acute angle to the ends 8 and 9 of the waveguides 2 and 5. When striking the drummer 6 in each of the waveguides 2 and 5, a compression wave is created. Since the length of the waveguide 5 is longer than the length of the waveguide 2, if they are made of the same material, the compression war in the waveguide 2 earlier reaches the plane of acoustic contact of this waveguide with the cube face than the compression wave in waveguide 5. Thus, the products 4 are subjected to successive shock when the waveguide 5 is made of a material in which the speed of sound is 1.5-1.6 times higher than the speed of sound in the material of waveguide 2, the transit time of the shock wave V.OLNY is the same in waveguides the result is that the products 4 are exposed to almost simultaneous effects in two mutually perpendicular directions. Claims. -: -,. - -----....; -; , -. 1. A device for testing products for shock, containing a shock driver, a waveguide in the form of a straight rod, and being in close contact with the end of the latter, a device for fastening test products, characterized in that, in order to increase the production of testing and extending functional functions possibilities, it is equipped with a second waveguide of the same section, which is made in the form of a curved rod with flat endsM and is positioned relative to the first waveguide so that their ends form between each other ol 90, a striker in the form of a ball in contact with the ends of both waveguides, and located and mutually perpendicularly elastic restraints on the movement of the fixture for fixing the tested products, in the form of a cube with two edges in acoustic contact, with the second ends of the waveguides, and the two opposite faces interact with resilient boundaries, and the pathogen is set up with the possibility of acting on the ball at an acute angle to the ends of the waves.