SU978679A1 - Installation for strength testing of aircraft structural components - Google Patents

Abstract

INSTALLATION FOR TESTING THE STRENGTH OF ELEMENTS OF AIRCRAFT CONSTRUCTIONS, comprising a base, a working chamber placed on the test object, and associated with a pressure compensator made in the form of a movable cylinder with the invention relates to an experimental technique for the study of the elastic properties of structures, namely, frames and structures, for the study of the elastic properties of structures, in the form of a moving cylinder with the invention, to an experimental technique for the study of the elastic properties of structures, namely, cylinders with a flexible cylinder. strength tests of aircraft structural elements. A known strength testing apparatus comprising a rigid base and working chambers located on a test object and connected to a pressure compensator by means of a lever system. The closest to the technical essence of the known is the installation for testing the strength of structural elements of aircraft, comprising a base, a working chamber placed on the test object, and connected by means of a lever system with compensation-pressure torus, made in the form of a moving cylinder with a piston a media separator telescopically connected to the PESHOSH tsht ifmmm & iBLIOTEN piston media separator telescopically connected with a container filled with liquid in contact with the piston a medium separator dividing the internal volume of the cylinder into two cavities, one of which is connected to a vacuum source, the other is communicated with the atmosphere, characterized in that, in order to simplify the design and increase reliability by reducing the number of operating components requiring sealing, The working chamber is formed by a cavity of a movable cylinder connected to a vacuum source, and the liquid container is connected to the base by means of a hinged and movable in the vertical plane of the support. A container filled with liquid in contact with the piston separator of the media, dividing the internal volume of the cylinder into two cavities, one of which is connected to a vacuum source, the other is connected to the atmosphere. A disadvantage of the known installations is the lack of reliability due to the complexity of the structures. The purpose of the invention is to simplify the design and increase reliability by reducing the number of working links that require sealing. The goal is achieved by the fact that in an installation for testing the strength of structural elements of aircraft, containing a base, a working chamber placed on the test object and connected to a pressure compensator made in the form of a movable cylinder

Description

a piston separator of media telescopically connected with a container filled with liquid in contact with a piston separator of media dividing the internal volume of the cylinder into two cavities, one of which is connected to a vacuum source, the other is connected to the atmosphere, the working chamber is formed by a cavity of a mobile cylinder connected with a vacuum source, and a liquid container is connected to the base by means of a hinged and movable 8 vertical plane of the support.

The drawing shows a schematic diagram of the installation,

The unit for testing the strength of the structures of aircraft consists of a pressure compensator 1 connected to the test object 2 and mounted on a rigid base 3 via a movable hinge joint A.

The pressure compensator 1 consists of a movable cylinder B, telescopically connected with a container 6 filled with liquid.

The movable cylinder 5 is provided with a piston separator of media 7, which divides the volume of the cylinder 5 into two cavities, one of which 8 is made open from the end and fixed on the surface of the test object 2.

The cavity 8 is communicated through the throttles 9 by the channel 10 with the atmosphere and the gas line 11 with a vacuum source 12. Another cavity of the cylinder 5 is in communication with the atmosphere.

The installation works as follows.

When the source of the supply 12 is turned on through the gas line 11, a vacuum is created in the cavity 8 of the movable cylinder 5 of the pressure compensator 1. The resulting pressure drop inside and outside the cavity 8 acts on the test object 2, the surface of which is one of the walls of the chamber 8, creating thereby a self-balanced load ensuring local loading of the test object 2.

At the same time vacuum in the cavity 8

leads to the fact that the piston separator media 7 under the action of the pressure difference, the scientific research institute will move in the direction of the test object 2. A vacuum is created in the container

6 pressure compensator 1.

Since the container 6 is connected to the rigid base 3 and must have a constant volume of liquid filling it, the cylinder 5 will move in the direction of the object to be opened 2 and the compensator length will be reduced. The cylinder 5 face part is bonded with the test object 2. Therefore, its movement causes a bending deformation of the test object. With

this causes a tension force in the walls of the pressure compensator 1. The amount of tension in the pressure compensator 1 for a given stiffness of the test object 2 is determined by the value of the vacuum in the cavity 8.

The magnitude of the vacuum in the cavity 8 of the cylinder 5 and, therefore, the magnitude of the load applied to the test object 2, regulate the throttles 9 in the channel 10 and the gas line 11.

- This is how the general loading of the test object 2 takes place.

The presence of the hinge-movable unit 4 ensures the rotation of the compensator of the displacement 1 during the deformation of the test object 2 and thus the application of the load to the test object in the direction normal to its surface.

Thus, the invention will allow

improve the reliability of the installation and simplify the design while ensuring loading of the test object with continuous monitoring of its deformation.

Claims (1)

INSTALLATION FOR STRENGTH TESTING OF ELEMENTS OF CONSTRUCTIONS OF AIRCRAFT, containing a base, a working chamber, placed on the test object, and connected with a pressure compensator made in the form of a movable cylinder with a piston separator of media, telescopically connected with a container filled with a liquid in contact with the piston section dividing the internal volume of the cylinder into two cavities, one of which is connected to the rarefaction source, the other is connected to the atmosphere, which is because, in order to simplify design and increase reliability by reducing the number of working links requiring sealing, in it the working chamber is formed by the cavity of the movable cylinder connected to the rarefaction source, and the reservoir with the liquid is connected to the base by means of a hinged and movable support in the vertical plane.