SU1751649A1 - Threaded connection testing device - Google Patents

Abstract

Usage: when testing threaded connections for fastening stability and testing fatigue resistance bolts. Invention: on base 1 mounted on the table of vibrator 2, support legs 3 are fastened. Racks 3 are hingedly mounted with power elements 4, the flanges of which are interconnected test threaded connections. Conical washers are installed between the flanges. The vibrator table 2 is indicated by oscillations whose excitation frequency is set to coincide with the resonant frequency of the bending oscillations of the power elements 4. 1 Cpfl. 2 Il.

Description

The invention relates to the field of testing and measurement and can be used for testing threaded connections for fastening stability and testing bolts for fatigue resistance ™.

A known sample for testing threaded joints for fatigue, comprising a rod with a threaded section, on which two nuts are made, made of two half-rings and the bandage 1 tightening them.

The main disadvantage of this invention is that a specially manufactured specimen is subjected to tests, and not a full-scale compound.

Also known is a stand for testing threaded joints for tightening stability under variable load, comprising an installation mechanism and a composite shaft connected in series with each other by means of test threaded joints. The loadings are carried out with the help of a spring with a unit for changing the preloading, and the composite

the shaft is set to rotate 2. With this invention, field parts of a threaded joint can be tested.

However, in the well-known solution, the loading is carried out in the mode of forced application of a load, with a drive rotational speed which is relatively low, taking into account the need to create considerable forces. In addition, the load value is preset and cannot be changed without interrupting the test, while monitoring stability of the pulling is impossible without interrupting the test.

The aim of the invention is to improve the accuracy of tests and their performance.

This goal is achieved due to the fact that the known device for testing threaded connections, comprising support columns mounted on the base, two identically coaxially arranged and cantilever contra-accessories.

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The ends are on racks of transmitting power elements with the means of their rigid connection between themselves at the oppositely facing ends, made with mounting holes for the test threaded joints, as well as the loading mechanism, equipped with conical washers; the loading mechanism is made in the form of a vibrator mounted under the base, the opposite ends of the transmitting power elements are hinged on the racks. The means of rigid connection are made in the form of flanges, the installation holes in which are located on their periphery parallel to the axes of the transmitting power elements, and conical washers are installed between the flanges. Each transmitting force element can be made with a variable cross section, decreasing in the direction of the flange.

Supplying the device with a selector allows loading at the resonant frequencies of flexural vibrations, which significantly shortens the test time. The hinge fixing of the power elements on the racks ensures the creation of maximum stresses precisely in the test pieces. The presence of conical washers in the threaded joint ensures the necessary tension of the bolts, i.e. forms a cycle asymmetry. The combination of distinctive features provides the ability to vary the loads and monitor the threaded connections under test directly during the tests.

The drawing shows the proposed device, side view.

The device contains a base 1 mounted on a table of a vibrator 2. On a base 1, support columns 3 are fixed, in which force elements 4 are hingedly mounted, the flanges of which are interconnected by test threaded connections consisting of bolts 5, nuts 6 and conical washers 7

The device works as follows.

The base 1 is installed on the table of the vibrator 2. The elements 4 are installed in the stands 3 and are threaded together with threaded connections to be tested with a calibrated tightening force. Moreover, based on the purpose of the test, the bolts 5 may differ in design or manufacturing technology. Then the vibrator table 2, for example, an electrodynamic shaker, is oscillated, and the oscillation excitation frequency is set so that it coincides with the resonant frequency of the bending oscillations of the power elements 4. The magnitude of the effective loads is controlled and monitored by the amplitude of movements of the elements 4, elements 4 or

bolts 5 can be glued on resistance strain gages. Actual loads can be changed directly during the tests, for example, to determine the maximum loads at which

operability is lost, and the opening of the joint or the destruction of the bolt 5 causes a change in the resonant frequency, which can be fixed immediately.

The force elements 4 can be made with a variable cross section, decreasing towards the flange.

Compared to the prototype, the test performance using the present invention increases by approximately

30-40%, and accuracy - by 50-60%. At the same time, the technological capabilities of the device are expanded.

Claims (2)

1. Device for testing threaded connections containing mounted on the basis of the supporting pillars, two identically coaxially arranged and cantilever-mounted opposite ends on the racks of transmitting power elements with means of their rigid connection between each other at opposite ends, made with mounting holes for test threaded joints, as well as a loading mechanism, which differs from the fact that, in order to increase the test accuracy and their performance, it is equipped with conical washers, the loading mechanism is made in the form of a vibrator mounted under the base, the opposite ends of the transmitting power elements are hinged on the uprights, the means of rigid communication are made in the form of flanges, the mounting holes in which are located along their periphery parallel to the axes of the transmitting power elements, conical washers are installed between the flanges. 2. Device pop. 1, characterized by the fact that each transmitting power the element is made with a variable cross section decreasing towards the flange.