SU1093936A1 - Stand for testing articles for alternating impact loads - Google Patents

Abstract

1. STAND FOR TESTING A PRODUCT ON AN ELEVATED TRANSFORMABLE SHOCK LOADS, - containing a frame, traverses fixed on the frame, movably mounted on the frame and rigidly connected, with a drummer with a hammer of a shock impulse and a shock absorber located between the drummer and the shock absorber movable platform fastening the ism of products and a device for acceleration of the striker fixed on the cross-arms and a brake, in order to increase the accuracy of the tests by ensuring the identity of the first and second half n shock pulse amplitude and duration, it is provided with a shock absorber disposed between the cross member and on which is fixed a brake, the moving mass adapted to be taken with cross aimodeyst vi. 2. The stand according to claim 1, is different from that it is equipped with additional shock absorbers located on both sides of the movable mass in the direction of impact.

Description

The invention relates to a test technique, in particular, to stands for the installation of products on an alternating shock load. A stand for testing products is known for alternating shock loads containing movable drums with a shock pulse shaper, a shock absorber and a platform for tested products located between them, a striker and an accelerator for accelerating and a brake. Drummer and shock absorber made in the form of carts. In the event of a change in the mass of the test product, the weight of the shock absorber is changed with the help of replaceable weights Cl3. However, when testing products of different weights, it is necessary to adjust the weight of the shock absorber. In addition, the shock absorber and drummer are rectified in the form of individual carts, which leads to an increase in the metal intensity of the stand and creates difficulties in its maintenance. The closest to the invention to the technical essence is a stand for testing products on alternating shock loads containing a frame, traverses fixed on the frame, movably mounted on the frame and rigidly interconnected drummer with a shock pulse former and a shock absorber located between the drummer and damper a movable platform for fastening the tested products and a device for accelerating the striker mounted on the cross-arms and a brake C2. The disadvantage of this stand is that due to the loss of energy in the shock pulse shaper and in the shock absorber, as well as losses when moving the moving elements of the stand, the amplitude and duration of the second half-wave of the shock pulse are less than the amplitude and duration of the first half-wave of the pulse, which reduces the accuracy of the tests, as it is necessary under the test conditions to ensure the identity of the first and second. half-waves of the shock pulse in amplitude and duration. the invention is an increase in test accuracy by ensuring the identity of the first and second semi-water shock pulse in amplitude and duration. This goal is achieved by having a test bench for alternating shock loads containing a frame, traverses fixed on a frame, movably mounted on a frame and rigidly connected between a drummer with a shock pulse former and a shock absorber located between the drummer and shock absorber attaching the tested products and a device for accelerating the striker and a brake mounted on the cross-arms, provided with a brake located between the shock absorber and the cross-arm on which the brake is mounted Viznogo mass made with the ability to interact with the crosshead. In addition, the stand is equipped with additional shock absorbers located on both sides of the moving mass in the direction of impact. FIG. 1 schematically shows the proposed stand, a general view; in fig. 2 - the same, top view. The stand contains frame 1, traverse plates 2 and 3 fixed on frame 1, movably mounted on frame 1 and rigidly interconnected drummer 4 with shaper impulse former 5 and shock absorber b, located between impactor 4 and shock absorber b, movable platform 7 for fastening the subjects products (not shown) and mounted on the cross-arms 2 and 3, the device 8 for accelerating the striker 4 and the brake 9. The stand is also equipped with a ring-shaped formula located between the shock absorber b and the cross-arm 3 on which the brake 9 is fixed with the interaction with the crossmember 3. On both sides of the moving mass 10 are additional shock absorbers 11. The rigidly interconnected drummer 4 and shock absorber b form a movable frame 12. The stand works as follows .; The drummer 4 is brought to the device 8 to accelerate the drummer 4. The platform 7 with the tested products is installed in such a position that a platform between the platform 7 and the former 5 of the shock pulse has a gap equal to the acceleration path of the drummer 4 and the shock absorber rigidly connected with it. Mobile oil 10 is brought to touch by additional dampers 11 shock absorbers b. Then, the device 8 is started up, which reports the predetermined speed to the frame 12 and the moving mass 10. The shock pulse shaper 5, located on the impactor 4, comes into contact with the platform 7. The first impact cycle occurs, after completion of which the impactor 4 transfers its energy to the platform 7 and frame 12 loses speed and platform 7 begins to move. At the same time, the moving mass 10 separates from the shock absorber b and continues to move with the initially acquired speed until it hits the additional shock absorbers 11 against the yoke 3. As a result of this collision, the moving weight 10 changes its direction of movement and, moving backwards, the impact An additional shock absorber 1 1 and 11 o shock absorber 6 is provided. As a result, frame 12 acquires an additional shock pulse before the second shock cycle of the shock absorber b with the platform 7 moving in opposite directions.

After the impact of the shock absorber b and the platform 7, the latter stops, and the frame 12 is moved to the right where the shock absorber b comes in contact with the brake 9, which dampens the speed of the frame 12.

As a result of the collision with the shock absorber b, the mobile mass 10 begins to move to the right again and, having hit the traverse 3 a second time and bounced off it, it has time to extinguish the energy of the frame 12 with the brake 9 to apply a secondary shock to the shock absorber 6, thereby

its additional braking frame 12

The magnitude of the movable mass 10 of the stand is determined by calculation and experimentally and is specified during the debugging of the stand. The ratio of the moving mass 10 and the mass of the frame 12 depends on the actual energy loss during the collisions of the frame 12, platform 7 and the moving mass 10, as well as during their movement. This ratio is practically in the range of 0.15-0.22 by weight of the frame 12.

Introduction to the design of the mobile unit allows you to compensate for the loss of energy during the operation of the stand and to ensure the identity of the first and second half-waves, the shock pulse both in amplitude and duration of action, which improves the accuracy of impact tests. ..

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Claims (2)

1. STAND FOR TESTING PRODUCTS FOR SIGNIFICANT VARIABLE SHOCK LOADS - comprising a frame, traverses mounted on the frame, movably mounted on the frame and ₄ rigidly interconnected with a drummer with a shock pulse shaper and a shock absorber, a movable product platform between the drummer and shock absorber for attaching the test and a device for accelerating the striker and a brake mounted on the traverses, so that in order to increase the accuracy of the tests by ensuring the identity of the first and second half-waves the shock pulse in amplitude and duration, it is equipped with a movable mass located between the shock absorber and the traverse, on which the brake is fixed, made with the possibility of interaction with the traverse. 2. The stand according to claim 1, characterized in that it is equipped with additional shock absorbers located on both sides of the movable mass in the direction of impact. 9969601 ⁿ HS