RU181812U1 - Pneumatic bench for testing equipment for strength under the influence of vertical loads - Google Patents

Abstract

The utility model relates to testing equipment, in particular to devices for impact tests, typical during transportation of various instruments and equipment. The pneumatic stand contains a support base with a means of acting on the movable platform fixed thereon, intended for securing the test object, guides rigidly connected to the support base, a lower damper located between the movable platform and the means of acting on it. As a means of influence, the stand is equipped with a double-acting controlled pneumatic cylinder that provides the movement of the movable platform along the cylindrical guides by means of a rod connected to the movable platform. On cylindrical guides linear bearings are installed, equipped with flanges for attachment to a movable platform. The stand further comprises a control unit of the pneumatic cylinder, upper dampers of a given stiffness placed on cylindrical guides above the movable platform, restricting the movement of the movable platform. Technical result: obtaining desired positive and negative shock loads in one cycle of the stand, the stand in automatic mode, reducing test time, more accurate reproduction of the shock load. 2 s.p. f-ly, 1 ill.

Description

The utility model relates to testing equipment, in particular, to devices for testing the impact of various instruments and equipment.

The greatest application in testing equipment and equipment for impact loads is found on systems based on mechanical (pile drivers) stands (ballistic, with falling tables, etc.).

The closest analogue is the “Test bench for structural strength and the method of its assembly and adjustment” (patent RU 2249803), consisting of a support base, a movable platform, guide racks, rigidly connected to the support base, spring block, lower damper, which allows to exclude high-frequency fluctuations.

The use of such a stand for testing equipment for transport loads is complicated by the fact that for impacts of the same force it is necessary to raise the movable platform to the same height. As a rule, lifting is carried out manually, therefore, when the number of strokes is 12-20 thousand, the test time is very significant.

The technical problem that the utility model solves (the utility model problem) is to create a device that allows to qualitatively and automatically test impact devices and equipment, while eliminating the increased impact on devices, both in amplitude and in the number of strokes .

The technical result of the claimed solution is to obtain the specified positive and negative shock loads in one cycle of the stand, the stand in automatic mode, reducing test time, more accurate reproduction of the shock load.

The technical result is achieved in that the pneumatic bench for testing the equipment for strength when exposed to vertical loads contains a support base with a means of acting on a movable platform fixed on the support base, designed to fix the test object, guides rigidly connected to the support base, a lower damper located between movable platform and means of influence on it.

According to a utility model, as a means of exposure, the stand is equipped with a double-acting controlled pneumatic cylinder that provides the movement of the moving platform along the cylindrical guides by means of a rod connected to the moving platform. On cylindrical guides linear bearings are installed, equipped with flanges for attachment to a movable platform. The stand also contains a control unit of the pneumatic cylinder, upper dampers of a given stiffness placed on cylindrical guides above the movable platform, restricting the movement of the movable platform.

The control unit of the pneumatic cylinder may contain a master oscillator and an electro-pneumatic distributor connected to the pneumatic cylinder by air ducts and connected to the compressor.

The upper dampers can be made interchangeable.

The utility model is illustrated by the following drawing (Fig. 1), in which:

1 - supporting base;

2 - pneumatic cylinder;

3 - electro-pneumatic distributor;

4 - generator;

5 - a rod of a pneumatic cylinder;

6 - movable platform;

7 - tested equipment;

8 - guides;

9 - linear bearings;

10 - upper dampers;

11 - lower damper;

12 - compressor;

13, 14 - air ducts.

The bench for testing the equipment for strength (Fig. 1) consists of a support base 1 with a double-acting pneumatic cylinder 2 mounted on it. The pneumatic cylinder 2 is controlled by an electro-pneumatic distributor 3. The frequency of the impacts is set by the generator 4. The rod 5 of the pneumatic cylinder is fixed in the central part of the movable platform 6. The movable platform 6, with the tested equipment 7 attached to it, moves vertically along cylindrical guides 8, rigidly connected to the supporting the base of 1 stand. In the lower part of the movable platform 6, linear bearings 9 are installed, equipped with flanges for attachment to the movable platform.

The use of linear bearings 9 eliminated the skew during movement of the platform and ensured a backlash-free vertical movement of the moving platform 6 along the cylindrical guides 8.

On the cylindrical guides 8 in the upper part, removable upper dampers 10 are installed, which allow to obtain brake pulses of positive loads of the required amplitude and duration. A replaceable lower damper 11 of the same stiffness is installed in the upper part of the pneumatic cylinder 2 and serves to generate brake pulses of negative loads of the same shape and amplitude as the positive load pulses formed by the replaceable upper dampers 10.

The operation of the claimed device is as follows. Compressed air (up to 8 atm.) From the compressor 12 is supplied to an electro-pneumatic distributor 3, which switches the air supply alternately to the upper and lower working chambers of the pneumatic cylinder 2 through the air ducts 13 and 14. The electro-pneumatic distributor 3 is controlled by a master oscillator 4. The switching frequency is set depending on test requirements. When air is supplied to the lower working chamber of the pneumatic cylinder 2, the rod 5 with the movable platform 6, together with the test equipment 7 mounted on the platform, moves up. When air is supplied to the upper working chamber of the pneumatic cylinder 2, the movable platform 6 moves down. The set shock frequency is up to 7 Hz.

The shape and magnitude of the loads are controlled by a vibration sensor (not shown in the figure). The vibration sensor is mounted on a movable platform 6. The vibration sensor signals are processed by a spectrum analyzer.

The necessary shape, duration and amplitude of positive and negative braking pulses is achieved by changing the air pressure in the electro-pneumatic distributor 3 and using dampers of a certain stiffness. The vertical loads up to 120g on this stand.

This design of the shock stand allows you to get a more accurate reproduction of the shock load, creating the necessary impact at the same time in two opposite directions, which also allows to halve the test time.

This will allow better testing of instruments and equipment for impact, excluding increased impact on instruments, both in amplitude and in the number of strokes. Tests are carried out automatically.

The use of this pneumatic bench, along with the achieved technical result, also allowed to reduce the size and cost of the structure, as well as to abandon the complex and expensive control equipment.

The cost of transport tests is reduced by eliminating the use of an expensive electrodynamic stand,

Claims (3)

1. A pneumatic bench for testing equipment for strength under the influence of vertical loads, containing a support base with a means of acting on a movable platform fixed thereon, designed to secure the test object, guides rigidly connected to the support base, a lower damper located between the movable platform and the tool impact on it, characterized in that, as a means of exposure, the stand is equipped with a controlled double-acting pneumatic cylinder, providing e of the movable platform along the cylindrical guides by means of a rod connected with the movable platform, linear bearings are installed on the cylindrical guides, equipped with flanges for attaching to the movable platform, the stand also contains a pneumatic cylinder control unit, upper dampers of a given stiffness placed on cylindrical guides above the movable platform, limiting movement of a movable platform. 2. The stand according to claim 1, characterized in that the control unit of the pneumatic cylinder contains a master oscillator and an electro-pneumatic distributor connected to the pneumatic cylinder by air ducts and connected to the compressor. 3. The stand according to claim 1, characterized in that the upper dampers are removable.

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