SU1096513A1 - Impact-vibration load testing stand - Google Patents

Abstract

STAND FOR PRODUCT TESTS. ON SHOCK-VIBRATION LOADS, containing a base, an exciter mounted on the base, a table for placing the item under test. connected to the moving part of the vibration exciter by means of flat springs, and a device for providing the table with a shock pulse in a direction perpendicular to the direction of vibration, including a spring-loaded striker and an eccentric mechanism for charging and lowering the striker, characterized in that, in order to increase the reliability of the stand by reducing the side shock loads acting on the flat springs and the moving part of the vibration exciter, it is equipped with a rod with an anvil, one end of which is pivotally i connected to the table, and pivotally reinforced on the basis of a damper connected to the second end of the rod, and the striker is installed with the ability to interact with the anvil of the rod.

Description

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/////// The invention relates to a test technique, in particular, to stands for testing products for the impact of shock vibration loads. A stand for testing a LI device for shock-vibration loads is known, which contains a base, an exciter installed on a mobile part of the stand by means of flat springs, tables for mounting test items, made with the possibility of reciprocal collision, and a drive for colliding tables made in the form of the moving part of the vibration exciter and the rotating cam interacting with the tables, the profile of which is chosen from the condition of simultaneous movement of the tables in opposite directions and their subsequent movement Free T 1 The disadvantage of this stand is its low reliability in operation, due to the fact that the flat springs are used at the same time as carrying elements of the tables and as elements that form a shock pulse. The closest to the invention to the technical essence is a stand for testing products for impact no-vibration loads, comprising a base, an exciter mounted on the base, a table for placing the tested product, connected to a moving part by exciter vibrator via flat springs, and a device for communicating to the table shock pulse in the direction perpendicular to the direction of vibration, including a spring-loaded striker and an eccentric mechanism for charging and lowering the striker 23. In a known stand, the conditions of work The flat springs are less stressed, since they have been removed from the function of the shaping of the shock pulse, which is created by striking the striker on a table that is freely mounted on the flat springs. However, even in this wall, when a shock pulse is applied to the table on flat springs and the moving part of the vibration exciter, the lateral shock load acts, prematurely removing the indicated stand elements from the front. The aim of the invention is to increase the reliability of the operation of the stand by reducing the lateral shock loads. acting on the flat springs and the moving part of the vibrostimulator. This goal is achieved by having a test bench; shock vibration loads, containing a base, an exciter mounted on the base, a table for placing the test product, connected to the moving part of the exciter by means of flat springs, and a device for informing the table of the shock pulse in the direction perpendicular to the direction of vibration, including a spring-loaded pendant and an eccentric mechanism for cocking and lowering the striker, equipped with a rod with an anvil, one end of which is a ball:; connected to the table, and hinged on the base of the damper The head is connected to the second end of the shaft, and the head is mounted to interact with the anvil of the stem. With such a stand, the table is connected through the rod and damper to the base, which provides the possibility of transmitting a powerful shock to the product under test while simultaneously protecting the flat springs and the vibration exciter from premature breakdowns, since it is possible to strike at a small table deflection and extinguish all the energy of the shock pulse not on flat springs and vibration exciter, but on the damper and onovaniyah stand. The drawing shows the proposed stand for testing products for shock and vibration loads. The stand contains a base 1, an exciter 2, on the platform 3 of which, using flat springs 4, a table 5 is installed to accommodate the test article 6, a device for informing the table 5 of a shock pulse, including a hammerhead 8 spring-loaded 8, an eccentric mechanism 9 for charging and lowering striker 8, stem 10 with anvil 11, pivotally connected to table 5, and a hydraulic damper 12 connected to the other end of rod 10, hingedly mounted on base 1 .. An adjusting nut 13 serves to change the compression of spring 7. On the anvil 11, a removable elastic gasket 14 is installed. The hydraulic damper 12 includes a piston 15 dividing its volume into two cavities. interconnected by means of a channel 16 and controlled throttles 17, and a locking ring 18. The stand for testing products for shock-vibration loads works as follows. When the vibration platform 2 is turned on, the platform 3 and the associated table 5 with the product 6 begin to perform vertical oscillations, and the rod 10 and the damper 12 perform angular oscillations around the hinge connecting the damper 12 to the base 1. The shock load includes an exentric mechanism 9. At This, due to the change in the eccentric mechanism 9, the spring 7 is compressed and shifted to the left together with the striker 8. When the eccentric mechanism 9 is further rotated, the striker 8 collapses and blows through the gasket 14 along the anvil 11, due to his table 5 and 6, the product obtained through the rod 10 impact vozdeyst Vie. The offset of the table 5 is determined by the elastic deformation of the slug 14 and the hydraulic resistance of the damper 12. The magnitude of the shock amplitude is formed by changing the elastic deflection of the spring 7, which is set by changing the position of the adjusting nut 13 1 7 and a lopoly fiber, using appropriate elastic proklldok 14. The movement of the rod 10 n the initial position occurs due to the use of elastic forces P11 PKLPD and 14 and flat springs 4, as well as due to the use of the action of the eccentric mechanism 9, which automatically retracts the stem 10 and the initial state: to the left until the stop stops col 18 to the wall of the damper 12. TaKiiM, stop ring 18 and eccentric mechanism 19 permanently maintains table 5 in a predetermined fixed state and ensures that alternating lateral loads are perceived, which can occur during tests on the stand of products 6 having an offset center of gravity. The proposed stand provides the ability to excite and transfer to the test product adjustable shock loads and damping the resulting lateral forces by the damper and the eccentric mechanism of the stand, which protects the moving part of the exciter and flat springs securing the table to the platform from premature breakdowns and ensures reliable operation.

Claims (1)

STAND FOR PRODUCT TESTS ON SHOCK-VIBRATION LOADS, containing a base mounted on the base of the vibration exciter, a table for placing the test product connected to the movable part of the vibration exciter via flat springs, and a device for communicating the shock impulse to the table in the direction perpendicular to the direction of vibration, including a spring-loaded striker and an eccentric mechanism platoon descent and descent, characterized in that, in order to. increase the reliability of the stand by reducing lateral impact loads acting on flat springs and the moving part of the vibration exciter, it is equipped with a rod with an anvil, one end of which is pivotally connected to the table _β , and pivotally mounted on the base with a damper connected to the second end of the rod, and the firing pin is installed with the possibility of interaction with the anvil of the rod. P