SU1147939A1 - Stand for article dynamic testing - Google Patents

Abstract

STAND FOR DYNAMIC TESTS OF EQUIPMENT, containing a frame, impact force actuator, fastening elements of the ends of the test item. The LIA, associated with one of the fastening elements for transferring the impact load on the product to shock, yields an anism of pre-static loading of the product and attached at one end to the dynamome p, which in order to approximate the conditions of testing elastic elements, for example, compensators to operational, the mechanism of pre-static loading of the product includes two plates installed perpendicular to the axis of the pull to install the test product between them, the first of which are En with t: go, and the second with a dynamo, connected to the second fastening element of the slide, which is installed in the direction of E of their second plate with the possibility of moving in its plane, a device for crossing and fixing the slide, associated with the second amp; the fastening element is a lever for tightening the specimen and a device for fixing the lever on the slider, and the plates are interconnected by guides parallel to the axis of the thrust rod.

Description

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WITH

The invention relates to testing equipment, namely, stands for dynamic testing of products, for example, elastic elements of compensators. A stand for dynamic testing of products is known, containing a frame, a shock energizer, elements for attaching the ends of the test product, associated with one of the fastening elements for transmitting a shock tensile load on the product and a single dynamometer CO, however, this stand is not allows to carry out impact tests of products without their prior static loading, which is associated with the absence of this mechanism of static loading. The closest to the technical essence of the invention is a dynamic test of products, comprising a frame, a shock force carrier, fastening elements of the ends of the test product, associated with one of the fastening elements for transferring the shock tensile load to the product and the mechanism of preliminary static loading. No product and attached at one end to the bed dynamometer. The pre-static loading mechanism is made in the form of a pair of screw nuts, which allows creating only tensile static load t23. The disadvantage of this test bench is that it is impossible to test products, for example, elastic KowieHcaTopoB elements, which are preloaded with static shear and twisting loads, which leads to a mismatch of test conditions with operational ones. The purpose of the invention is to approximate the test conditions of elastic elements, such as compensators, to operational ones. The goal is achieved by the fact that a stand for dynamic testing of products, containing a frame, a shock force carrier, fasteners for the ends of the tested product, connected with one of the attachment elements of the pull for transferring the shock tensile load to the product, a preliminary static loading mechanism the end to the frame of the dynamometer, the mechanism of the preliminary static loading of the product includes two plates installed perpendicular to the axis of the thrust to be installed between them of the test product, The first of which is connected to the thrust and the second to the dynamometer connected to the second fastening element of the slider, which is mounted in the guides of the second plate with the ability to move its plane, a device for moving and fixing the slider connected to the second fastening element twisting the specimen and the device for fixing the lever on the slider, and the plates are interconnected by guides parallel to the axis of the rod. Pre-static loading is provided by moving and fixing the slide, which creates a shear load, and turning and fixing the lever, which creates a twisting load. FIG. 1 shows a stand, a general view of FIG. 2 — mechanism of preliminary static loading of the product, general view; in fig. 3 is a view A of FIG. 2; in fig. 4 is a view B in FIG. 2. The stand contains a frame 1 with a shock actuator installed in it in the form of a flywheel 2 containing an outrigger head 3. On the base 1 a dynamometer 4 is hinged at one end, through the flywheel 5 of pre-static loading with test item 6 installed in it at the lower end The discontinuous element 7 of the design section is connected to a ha 8, which interacts with the striker 3 of the flywheel 2. On the base 1, under the mechanism 5, a stop 9 is installed, which is adjustable in height. The prestatic loading mechanism 5 includes the first plate 10 and the second plate 11 mounted perpendicular to the axis 8, respectively connected to the rupture element 7 and the dynamometer 4. The plates 10 and 11 are connected to each other by means of guides 12 parallel to the axis of the rod 8. In the plane of the plate 11, straight lines 13 are formed, in which a slider 14 is installed, interacting with screws 15. The slider 3 1D comprises a lever 16 with a lock 17. On the guides 13 and the slider 14, the linear scales 18 and the angle scale 19 with holes 20, risks 21 are respectively implemented. The plate 10 and the slider 14 contain the fastening elements 22 and 23 of the ends of the product 6, the Stand works as follows. The spatial orientation of the article 6 of elastic material in the mechanism 5 is preliminarily carried out. The product 6, for example, of a cylindrical shape is placed between the plate 10 and the slider 14, is installed in the fastening elements 22 and 23 which are aligned coaxially and fixed on the plate 1Q. with the help of a discontinuous member 7. With the help of the lever 16, a predetermined twist of the product 6 is carried out - an angular turn of the upper end relative to the lower one around the longitudinal axis, which is provided with a lock 17 and is controlled on a scale of 19 Upper The end of the product 6 is fixed in the slider 14 by the nut 24. By moving the slide 14 with screws 15, the specified misalignment of the upper and lower ends of the product 6 is ensured. The misalignment value is monitored on a scale of 18. After this, the product 6 and the mechanism 5 are installed in the power chain of the stand , and direction 12 should be oriented parallel to the direction of action of the test force. On the dynamic test stand, it is possible to determine the performance of the product 6 in a given range of tensile forces, as well as the fact ec 9 Kie force degradation product 6 under tension. In the first case, a breakdown element 7 is used for the design section, which provides a range of specified test loads. In the second case, the rupture element 7 can not be used or it can be chosen to be obviously stronger than the tested product 6. In either case, the actual tensile forces during testing are determined using a dynamometer 4, the speed of application of the test force, as well as the mechanical energy required by the flywheel 2, while the position of the stop 9 is chosen so that in the event of the destruction of the product 6 tons ha 8 out of contact with the striker 3 of the flywheel 2 before the impact of the plate 10 of the mechanism 5 against the stop 9 occurs, which prevents raises the destruction of the plate Yu with further rotation of the flywheel 2 until its complete stop. In addition to testing the mechanical characteristics of materials, which, as a rule, are carried out on special samples, the stand can be used to determine the performance of technical devices containing elements made of elastic materials, which are in a complex deformed state during operation and are subjected to this dynamic loads (damping devices, elastic elements of compensators, etc.). Consequently, the range of reproducible conditions expands and the range of application of the stand increases.

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Claims (1)

STAND FOR DYNAMIC TESTS OF PRODUCTS, containing a bed, shock exciter, fastening elements of the ends of the test article. a link associated with one of the fastening elements to a rod for transferring an impact tensile load to the product, a mechanism for pre-static loading of the product and a dynamometer attached at one end to the bed, characterized in that, in order to approximate the test conditions of elastic elements, for example, expansion joints to operational , the mechanism of preliminary static loading of the product includes two plates installed perpendicular to the thrust axis for installing the test product between them, the first of which is connected to oh, and the second with a dynamometer, a slider connected to the second fastening element, which is installed in the guides of the second plate with the possibility of moving in its plane, a device for moving and fixing the slider, a lever for twisting the sample connected to the second fastening element, and a device for fixing the lever on a slider, and the plates are interconnected by guides parallel to the axis of the thrust.