SU1439462A1 - Installation for testing specimens of materials for cyclic axial loads - Google Patents

Abstract

The invention relates to a test apparatus, in particular to installations for testing samples of materials for cyclic shock loads. The purpose of the invention is to enhance the functionality of the installation by providing a shock interaction between a group of samples with a change in the direction of the impact. The installation comprises a housing with a guide 2, a frame 4 and a drive. In order to provide a shock interaction between a group of samples with a striking direction of impact, the frame movement actuator is made in the form of wheels 12, t3, interacting with frame 4, three rs: geeks installed with a gap, and a GEZE element with a thickened section. B placed samples 9-11 with grippers. When the drive is turned on, the flexible element, when passing through its section in the gap, mezvuda rolikamt alternately transfers torque to the wheels 12 and 13, which causes a back-and-forward movement of the frame to the impact with the stops 3 s of the front end lG; loads 5 and 6. The cyclic impact interaction of the samples with each other and the frame is realized. The installation can be used in the study of the strength of the C.OUSTB of various products and Samples under laboratory conditions. 3 il. and you

Description

FI.1

The invention relates to testing equipment, to installations for aspiratsh samples of materials on cyclic loads.

The purpose of the invention is to expand fuzzing capabilities by providing impact interaction between a group of samples with a change in the direction of the impact.

FIG. Figure 1 shows the setup for testing specimens for 1-click shock axial loads; in fig. 2 is a view A of FIG. one; in fig. 3 is a section BB in FIG. 2

A guide 2 is fixed on the housing 1, which is provided with lugs 3 at both ends.

The frame 4 is placed in the guide 2 with the possibility of sliding between

stops. / On the supports there are installed shapers 5 and 6 loads that can be executed in the form of springs. Zakatov 7 and 8 for samples 9-11 thawed samples 9-11 with grippers 7 and 8 in the direction of mold rotep 6. When the frame strikes the former, the frame moves in the opposite direction and strikes the group of samples, moving the inertia of the samples in the same direction . By this time, the flexible element section 20 approaches the gap between the rollers 14 and 16 and, upon entering it, rotates the roller 16 and the wheel 12, which causes the frame 4 to move in the direction of the former 6. The frame moves the samples in motion and, after braking the samples again collide with each other and with the end of the frame and get hit in the opposite direction. This ends the cycle of beating the legs of the legs about the interaction.

Impact interaction is carried out without gfimeneni load cells, when the frame does not have a rebound after stopping it with the butt end.

in frame 4 with the possibility of gliding; 25 Formers, made, for example, in

the form of springs, regulate the magnitude of the shock pulse. Length plot 18 podbira35

40

Nin The mechanism for moving the frame is embodied in the form of two wheels 12 and 13 mounted on the housing and interacting with external opposites. With the frame, rollers 14 and 15, mounted on axles of wheels 12 and 13, roller 16, mounted on a housing with a gap between rollers 12 and 13, two drums 17 and 18, mounted on the housing parallel to the rollers and connected with flexible element. 19 having a thickened portion 20. The drum 17 is connected to a rotational drive 21. The flexible member is made, for example, of a steel tape with a thickened area of Rubber to improve the frictional interaction conditions. The gap between the rollers 14 and 16 and between the rollers 15 and 16 is selected from the condition of providing frictional engagement when passing the thickened portion 20 of the flexible element 19 between them.

The installation works in the following way.

The drive 21 is turned on and the flexible element 19 is driven by means of the reels 17 and 18. The thickened UT.SHASTKA 20 flexible element, when passing in the gap between the rollers 15 and 16, rotates the roller 16, the xx 13 and moves the frame 4 to the board shaper 5 load. The frame accelerates and moves 45 times.

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55

so that the frame at the moment of impact on the end of the cage moves by inertia, –i. When one of the wheels rotates, the second wheel also rotates due to constant contact with the frame, but there is no torque at the second wheel, since there is no contact between the flexible element and the second wheel roller. destruction of one or several samples, and then the experiment is repeated with the same patterns, but with a new order of placing them along the length of the frame or with new grips, which in these experiments play the role of shock absorbers. Also change the size and weight of aztsov and examined the effect of these factors on the rate povrezhtsaemosti samples or articles.

The installation allows to perform studies of the strength properties of samples of materials and products subjected to -. There are 1С1clic shock loads that are in contact with each other. The results of the tests on the proposed installation are found to be used in the development of measures to protect products from damage during transportation,

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so that the frame at the time of impact on the end of the cage moves by inertia, -i .e, so that section 18 by this moment Bischel from the gap between the respective rollers. When one of the wheels rotates, the second wheel also rotates due to constant contact with the frame, but there is no torque at the second wheel, since there is no contact between the flexible element and the second wheel roller. destruction of one or several samples, and then the experiment is repeated with the same patterns, but with a new order of placing them along the length of the frame or with new grips, which in these experiments play the role of shock absorbers. Also change the size and weight of aztsov and examined the effect of these factors on the rate povrezhtsaemosti samples or articles.

The installation allows to perform studies of the strength properties of samples of materials and products subjected to -. There are 1С1clic shock loads that are in contact with each other. The results of the tests on the proposed installation are found to be used in the development of measures to protect products from damage during transportation,

work under shock loads, as well as in determining the energy intensity of grinding minerals in crushing plants.

Claims (1)

Invention Formula A device for testing material samples for cyclic shock axial loads, comprising a housing, a guide fixed on the housing, stops placed at the ends of the guide, a frame placed in the guide, a rotational drive, a associated mechanism for moving the frame between the stops and Grips and samples associated with the frame, characterized in that, in order to expand the functionality of the installation by providing 39h62. shock loading checks with a change in the direction of the impact of not only one, but also a group of interacting samples; the grippers are mounted in a frame with the possibility of peremegenich in the axial direction; the frame moving mechanism is made in the form of two wheels mounted on the housing and Q interacts with the outer surface of the Ramga walls, parallel to the axis of the grippers, three rollers, two of which are mounted on the axles of the respective wheels with a gap relative to the third, mounted on the body between them, two drums mounted on the body and connected to the drive rotation, and a flexible element, enveloping the drums and having a thickened Section 20, designed for friction interaction with rollers. Phie.g