SU1388752A1 - Centrifugal installation for testing a group of samples - Google Patents

Abstract

The invention relates to test equipment, to installations for testing a group of specimens for bending with a bend. The purpose of the invention is to improve manufacturability by providing programmed loading of samples with axial and bending loads.

Description

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On platforms 4 and 20, in the form of a spacer of wheels, radially mounted pairs of coaxial grippers 5 and 7, 12 and 13, 14 and 15, in which samples 6.16 and 17 are fixed. Active grippers 5.12 and 14 are fixed on platform 4 , and passive grippers 7, 13 and 15 are associated with centrifugal weights 8 “Platforms 4 and 20 are mounted on shaft 2 and interact with the hydraulic cylinder 9, on the side surface of which circular teeth 11 are executed. During rotation

Shaft 2, samples 6, 16 and 17 are loaded, and the type of load depends on the position of the sample — sample 6 is bent, sample 17 is compressed, and sample 16 is stretched and bent. By applying pressure from the source 10 to the hydraulic cylinder 9, it is moved by turning the platforms according to a predetermined program. The type of load on the samples varies. The picnic movement of the rod 19 allows cyclically changing the type of load on the samples. 1 il.

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The invention relates to testing equipment, to installations for testing a group of plant samples on a bend.

The purpose of the invention is the expansion of technological capabilities by providing programmed loading of the faces with both axial and bending loads.

The drawing shows the scheme of the proposed installation

The installation contains a base 1, 15 mounted on it a vertical shaft 2 with a drive 3 rotation, a platform 4, interacting with the shaft 2 and rigidly connected to the active gripper 5 of sample 6, the passive gripper 7 20 connected to the centrifugal load 8, the hydraulic cylinder 9 double-acting action is connected to pressure source 10 located at base 1.

Platform 4 is made in the form of a pr-25 ring wheel mounted on a vertical shaft 2 and can be rotated in a plane passing through the axis of rotation of the shaft. The vertical shaft 2 is made hollow and in its cavity 30 along the axis of rotation of the shaft is placed a hydraulic cylinder 9, on the outer surface of which circular teeth 11 are made, which engage with platform 4, and the shaft is connected to the housing. A pair of 5 grippers 5 and 7, 12 and 13, 14 and 15 according to the number of test samples 6,16 and 17 are placed on the platform radially

In addition, the rod 18 of the hydraulic cylinder 9 is connected, if necessary, s.pulsator 19.

Several platforms can be connected to the vertical shaft 2, for example, an additional platform 20 with similar grippers, specimens and loads placed on it. For convenience of mounting the platforms on the shaft 2 there is a platform 21 with a protective casing 22. The pulsator 19 is hydraulic and operates from a source 23 of variable flows.

The installation works as follows.

The actuator 3 is turned on and the shaft 2 is driven by rotation, with platforms 4 and 20 placed on it. Samples 6.16 and 17 placed on platform 4 and similar samples on platform 20 are loaded with centrifugal forces generated by loads 8. 6 is loaded with a bending load j, sample 17 is a compressive load, and sample 16 is jointly subjected to tensile and bending loads. When the shaft 2 rotates, the hydraulic cylinder 9 remains stationary, the teeth of the wheels of the platforms 4 and 20 slide along the circular teeth on the surface of the hydraulic cylinder. The positions of the platforms with respect to their rotation axes do not change. To change the types of load on the samples, pressure is applied to one of the cavities of the hydraulic cylinder from the pressure source 10. Axial movement of the hydroshirtor 9 relative to its rod 18 and rotation of the wheels of platforms 4 and 20 relative to their axes of rotation occur. As a result, there is a change in the relative position of the samples with grippers, in which the arrangement of the passive and active grips in each pair relative to the axis of rotation of the shaft 2o changes. , sample 16 instead of bending stretching, is loaded first by stretching, and then with further rotation of the platform — stretching with bending, but with the opposite direction of bending. guide nagruzki.Izmenenie load occurs simultaneously but in all the samples and on all platforms. Rotation of the platform leads to a gradual change in the relative position of the samples so that the samples occupy the position of adjacent samples and are subjected to the same kind of load. After changing the type of load, the samples remain for a given time at a given load or, depending on the test task, the loads on the samples are changed by changing the speed of rotation of the shaft 2 o

To impose a pulsating nipple on continuously acting loads of various types, the rod 18 is connected to the pulsator 19. When applying the sign-type belt flows from the source 23, the rod 18 reciprocates relative to a fixed point on its axis, resulting in wheels of platforms 4 and 20 make reciprocating rotations around their axis. Pairs of grips with samples and weights make return turns within a given angle, as a result of which the pulsating load acts on the samples. The change in types of load is carried out in the same way as

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in the mode of smoothly varying or constant loads, i.e. by applying pressure to one of the cavities of the hydraulic cylinder 9.

A typical hydropulsator or cam drive pulsator is used to create pulsating stem movements. The number of platforms, the number of samples on each platform and the relative position of the samples on the platform, as well as the loads on the active grippers are selected in accordance with the actual simulated work pattern of the power complex and with the actual distribution of loads on its elements.

F o rm ula invention

A centrifugal unit for testing a group of samples, containing a base, a rotating shaft mounted on it, centrifugal weights, corresponding passive grippers attached to them, a platform interacting with the shaft, active grips fixed to it, correspondingly passively interacting with the platform, double-acting hydraulic cylinder a pressure source communicating with a hydraulic cylinder, which is characterized in that, in order to expand technological capabilities by providing software loading the samples with both axial and bending loads, the platform is made in the form of a sprocket wheel mounted on the shaft so that it can be rotated in a plane passing through its axis; an axial cavity is made in the shaft in which the hydraulic cylinder is placed, on its side surface the bodies are made circular to interact with the teeth of the platform, the hydraulic cylinder rod is connected to the base, and the axes of the pairs of grippers are located in the plane of the platform in radial directions.

Claims (1)

A centrifugal installation for testing a group of samples, containing a base, a shaft mounted on it with a rotation drive, centrifugal weights, corresponding passive grippers fixed to them, a platform interacting with the shaft, active grips fixed to it, coaxial with the corresponding passive, double-acting hydraulic cylinder interacting with the platform with a rod and a pressure source connected to the hydraulic cylinder, characterized in that, in order to expand technological capabilities by providing software loading the samples with both axial and bending loads, the platform is made in the form of a spur gear mounted on the shaft with the possibility of rotation in a plane passing through its axis, an axial cavity is made in the shaft in which the hydraulic cylinder is placed, circular on the side surface of its body teeth for interaction with the platform teeth, the hydraulic cylinder rod is connected to the base, and the axis of the pair of grippers are located in the plane of the platform in radial directions.