RU2088900C1 - Press testing samples for compression - Google Patents

Abstract

FIELD: testing equipment. SUBSTANCE: press includes bedframe 1 with supports 2 and cross-piece 3, hinge unit with hemispherical hinges 9 and 10, and pivot. Press also has bushing 15 embracing one of supports 2 with capability of turn about 1, additional bushing 16 aimed for attachment to outer surface of first bushing 15 or to body of hinge unit and rod 17. One end of rod is put into hole of additional bushing 16 for reciprocating motion and turn about its axis. Its other end is intended for rigid fixing on body of hinge unit or on outer surface of first bushing 15. Press in addition has frame 12 spring-loaded relative to body of hinge unit. Hemispherical hinge mounted on side of bedframe 1 is positioned in this frame 12. press is fitted with additional hinge units and hemispherical hinges of various dimensions. EFFECT: improved functional efficiency. 2 cl, 1 dwg

Description

 The invention relates to the field of testing equipment, in particular, to devices for compression testing.

A device for testing materials for compression, containing the base, vertical buildings with a traverse installed on them with the possibility of its movement, as well as loading plates [1]
The disadvantage of this device is its low accuracy due to the lack of compensation for the non-parallelism of the support faces of the sample. The test load affects only part of the surface of its supporting planes, with which the loading plates interact.

 As a prototype, a device for a press was adopted for compression testing of samples of materials [2] containing a base, vertical posts, a crosshead and a hinge assembly.

 The disadvantage of this device is the inability to compensate for inaccuracies in the manufacture of the bed: spatial mismatch of the upper axis of the press (traverse) and the lower axis (bed). This reduces the accuracy of the test results, since the conditions are created under which the loading of the sample, in addition to compression forces, is affected by forces whose magnitude and direction cannot be determined.

 The purpose of the invention is to increase the accuracy of the test results of samples of different sizes and strengths by ensuring the maximum possible combination of the axes of the press and the hinge assembly.

 The goal is achieved by the fact that the press is equipped with a sleeve covering one of the uprights with the possibility of rotation around it, an additional sleeve designed to be fixed on the outer surface of the first sleeve or on the hinge assembly body, and a rod, one end of which is installed in the hole of the additional sleeve with the possibility of return - translational movement and rotation around its axis, the other end is intended for rigid fastening on the hinge assembly body or on the outer surface of the first sleeve, respectively.

 The press is equipped with a frame spring-loaded relative to the body of the hinge assembly, and a hemispherical hinge mounted on the side of the bed is placed in this frame.

 The press can be equipped with additional hinge assemblies with various hemispherical joints.

 The drawing shows a press, on the bed 1 of which racks 2 are installed, the upper parts of which are connected by a traverse 3. In its hole there is a rod 4 on which a clamping unit consisting of a support washer 5 and a union nut 6. is suspended. The hinge assembly of the press is mapped from the housing 7 and placed therein a thrust bearing 8 and two hemispherical hinges 9 and 10. The hemispherical 10 mounted on the side of the bed is inserted into the central hole 11 of the frame 12 suspended by springs 13 to the housing 7. The working part of the hemispherical 10 is made in accordance with the configuration and dimensions of the test sample, for example, rectangle 14.

 On one of the racks 2 is installed covering her sleeve 15, having the ability to rotate around it. An additional sleeve 16 is installed on the outer surface of this sleeve, into the hole of which a rod 17 is inserted with the possibility of rotation of its axis and reciprocating movement along it. Its opposite end is fixed to the hinge assembly body. A variant is also possible in which an additional sleeve 16 is mounted on the housing 7 of the hinge assembly, and the free end of the shaft 17 is fixed on the outer surface of the sleeve 15. A tightening screw 18 is placed in the sleeve 16. A power hydraulic cylinder 19 is placed on the press frame 1, on the plunger of which there is a support prism 20. Several independent hinge assemblies 21 with different sizes of hemispherical joints designed for testing samples of 22 different sizes can be installed on the press stand 2.

 Press works as follows.

 When the drive is turned on under oil pressure, the plunger of the power hydraulic cylinder 19 with the sample 22 mounted on the reference prism begins to rise up to the stop in the reference plane of the hemispherical 10, which, under the action of the load, rotates around two horizontal axes until it is fully aligned with the face of the sample, acting as a parallelism compensator. The upper hemisphere 9 compensates for the non-perpendicularity of the support plane of the crosshead 3 axis press. Subsequently, the test load is increased until the ultimate strength of the sample is reached.

 If it is necessary to test a sample of a different size, for example, a cube instead of a prism, use another hinge assembly designed for this size. To install it, unscrew the union nut 6 and take the released hinge assembly out of the working area, turning it around the vertical strut 2 of the press. Then, by turning around it, another hinge assembly 22 is introduced into the working area and centered relative to the axis of the power hydraulic cylinder 19. For this, the screw 18 is loosened and the hinge assembly body is released for its possible movement along the sleeve 16 and rotation around its axis until the required alignment is achieved. After that, with the help of a screw 18 and a union nut 6, the entire system is fixed in this position.

 In the proposed press, due to the possibility of adjusting the position of the axis of the hinge assembly, it becomes possible to ensure the alignment of the test system, which significantly increases the accuracy of determining the strength of the samples (up to 10%). In addition, the presence of a set of hinge assemblies with parameters of spherical hinges ensures the accuracy of test results for various sizes and degree of samples.

Claims (2)

 1. A press for testing samples for compression, comprising a bed, racks installed on it, a crosshead and a hinge assembly made in the form of a housing and a thrust bearing and two hemispherical joints placed in it, characterized in that the press is provided with a sleeve covering one of the racks with the possibility of rotation around it, an additional sleeve designed to be fixed on the outer surface of the first sleeve or on the hinge assembly body, and a rod, one end of which is installed in the hole of the additional sleeve with the possibility of return but-translate and rotate around its axis and the other end thereof for rigid attachment to the body of the hinge assembly or in the outer surface of the first sleeve.  2 Press according to claim 1, characterized in that it is equipped with a frame spring-loaded relative to the hinge body, and a hemispherical hinge mounted on the side of the bed is placed on this frame.  3. The press according to claim 1, characterized in that it is equipped with additional hinge assemblies with different sizes of hemispherical hinges.