SU1074219A1 - Bed for strength testing of structural components - Google Patents

Abstract

STAND TESTING THE STRENGTH OF STRUCTURE ELEMENTS, containing a loading device and an adapter for fixing the test object — on a rigid base / characterized in that, in order to improve the performance of the stand and reduce material costs, the adapter is designed as a beam consisting of pivotally connected links connected by adjustable rods with a rigid base and provided with a flexible element for fastening the test object mounted on the beam with the possibility of movement in relation to it ..

Description

The invention relates to an experimental technique for studying the elastic properties of structures, namely, stands for testing the strength of structural elements.

It is known for testing the strength of an aircraft structure as a whole, containing a loading device made in the form of canvas holes attracted to the surface of the test object and connected by means of a lever system through hydraulic force activators with a rigid base.

The disadvantage of such a stand is that for testing individual units, for example, a wing, needles; string feathers, steering surfaces, elements; mechanization and others.

the aircraft as a whole is necessary in order to correctly reproduce the boundary conditions for fixing the tested unit in the structure.

In this connection, the time and cost of preparing and conducting such tests. These are very significant.

The closest known technical solution is the stand for tested | on the strength of structural elements containing a loading device, an adapter for fixing the test object on a rigid base.

The disadvantage of this test bench is that it has an adapter, imitating the rigidity, of a part of the structure to which the test object is attached under natural conditions. can only be used to test this particular object. In the case of a change of test object, the adapter must also be replaced. The purpose of the invention is to improve the operational characteristics of the stand and reduce the material costs of retrofitting the stand. The goal is achieved by the fact that in the test bench for the strength of structural elements containing a loading device and an adapter for fixing the test object on a rigid base, the adapter is made in the form of a beam consisting of hinged links connected by adjustable bars with a rigid base, and equipped with a flexible element for fastening the test object mounted on the beam with the possibility of limited movement relative to it, Figure 1 shows a diagram of the stand after installation of the test subject on the fig. 2 - the same, after changing the boundary conditions for fixing the test object, in fig. 3 - section aa on fig.t. The bench contains a rigid base t on which the beam 2, which consists of links 3, is interconnected by means of hinges. The link 3 of the beam 2 is connected to a rigid base 1 by adjustable bars, made, for example, in the form of screw jacks 5. The beam 2 has additional links with the base 1 in the form of plates 6 with rectangular grooves fixed with bolts. To link m 3 beams. the flexible element 7 is attached by means of a bolted joint, and its fastening at three points 8 is hinged and at other points 9 is movable relative to the beam 2, provided by the presence of rectangular grooves in the flexible element 7. Through the flexible element 7, the beam 2 is rigidly connected the test object 10, which with the help of the loading device 11 is connected with the rigid base 1. The stand operates as follows. Before loading the test object 10, the bolts connecting the plates 6 with the rigid base 1 and the glue are loosened. cue element 7 with units of 3 beams 2. Next, the rotation of the screw jacks 5 units 3 in lomayuscheys, hinged beam 2 is displaced in a predetermined manner relative pervonachalno-, th position. The flexible element 7 associated with beam 2 will be bent. Together with the flexible element 7, the object 10 is also bent, rigidly attached to it along the root section. In this case, the movement of the links 3 of the beam 2 is carried out in such a way that the neutral axis of the flexible element 7 (or the neutral axis of the root section of the test object 10 coinciding with it) at points 8 corresponds to the specified value. At the remaining points 9, the flexible element 7 will occupy some intermediate position. Then, all the bolts connecting both the beam 2 by means of the plates 6 with the rigid base 1 and the bolts securing the flexible element 7 with the links 3 of the beam 2 are tightened. Thus, the deformed state simulates the specified boundary conditions for attaching the test object. Next, If load system applies software loads to the test object 10. At the same time, in the root and adjacent sections, the corresponding conditions will be reproduced stresses that are in process (the tests can be experimentally determined. After the tests have been completed in the manner described, the boundary conditions for fixing the test object can be changed and the experiment is repeated. Thus, supplying the stand with an adapter made in the form of a multi-tier beam allows you to test the structure on the same stand with simulating different boundary conditions for fixing it on a rigid base. Moreover, the stand can be used and for testing other objects in which the dimensions of the root section do not exceed the dimensions of the beam, only the flexible element will be replaceable, thereby greatly improving the operating characteristics of the stand in part Iren its ability to change the boundary conditions during the experiment.

At the same time, the material costs of preparation and

testing, since the same stand will be used repeatedly to test different designs.

1

I k

07 (/ r2 f

g.

Claims (1)

STAND FOR TESTING FOR STRENGTH OF STRUCTURAL ELEMENTS, contents 'loading device' and adapter for fixing the test object on a rigid base, characterized in that, in order to improve the operational characteristics of the stand and reduce material costs for 'its readjustment, the adapter is made' in the form of a beam consisting of pivotally connected links connected by adjustable rods with a rigid base, and equipped with a flexible element for mounting the test object mounted on a beam with possibly limited to move relative to it.