CS244889B1 - Apparatus for testing of compensating fittings - Google Patents

Abstract

The purpose of the device is to simplify the device for lifetime tests of wave and elastic or telescoping compressors comprising from frames in which it is fixed by one end-sealed test armature into which a pressure medium supply is provided. Listed The purpose is achieved by having it in the frame (1) a potential energy accumulator (8) is located located at the other end of the fitting being tested / 6 /.

Description

The invention relates to a device for testing compensation valves, such as bellows and flexible or telescopic compensators.

Known devices for testing bellows or compensators by cycling during life tests consist, for example, of a frame in which one end of a test-fit sealed compensation valve is fixed, into which a pressure medium supply is provided.

In the frame there is also a reversible slide mechanism fastened to the other end of the fitting. This device must meet the following conditions: it must exert a force sufficient to achieve the desired relative displacement of the valve ends, this force must act centrally and parallel to the axis of displacement of the valve under test, the device shall have sufficient rigidity.

The equipment must be designed individually for each case. The disadvantage of this device is that it is time consuming and costly for large forces.

Disadvantages of the known solution are essentially eliminated by the invention, which is a device for testing compensating fittings, such as bellows and flexible or telescopic compensators, consisting of a frame in which a one end sealed test armature is fixed to which a pressure medium supply is provided and its nature consists in that the frame contains a potential energy accumulator located at the other end of the tested valve.

The higher effect of the invention is achieved by simplifying the testing apparatus and hence its low cost.

An example of a particular embodiment of the compensating armature testing device according to the invention is shown schematically in the attached drawing, which is a front sectional view of the armature test device, which in this case is a flexible compensator, the potential energy reservoir in this case being a weight.

The device according to the invention consists of a frame 2 formed by two vertical rods 2 connected at the lower ends by a lower bar 2 ^{and at the} upper ends by an upper bar 4. Between the rods 2 a lower arm 2 is mounted vertically on the lower bar 2.

A potential energy accumulator 2 formed by a weight eným guided by the rods ulož is mounted on the upper blind bottom £ of the tested armature £. The potential energy accumulator 2 may further comprise a compression spring (not shown) disposed between the upper blanking bottom 2 and the upper crossbar or a flexible gas bag (not shown) filled with compressed gas disposed similarly to the compression spring.

In the baffle 2 and in the bottom blind bottom 5 a pressure medium supply 10 is provided to the interior of the valve to be tested connected via a throttle valve 11 between the first shut-off valve 12 and the second shut-off valve 13.

The inlet of the first shut-off valve 12 is connected to the pressure medium source 14, while the outlet of the second shut-off valve 13 is connected to the pressure medium waste 15. The pressure medium source 21 and waste medium waste 15 are further interconnected by a return branch (not shown).

Prior to measurement, the first shut-off valve 12 and the second shut-off valve 13 are closed.

At the start of the test, the first shut-off valve 12 opens. The pressure medium begins to penetrate the throttle valve 11 into the interior of the test valve 6.

Due to the pressure difference outside and inside the tested valve 6 and due to its elasticity, the tested valve 8 begins to extend until the axial force generated by the difference in pressure outside and inside the tested valve 6 equals the effect of the sum of forces from the potential energy accumulator or if, for example, the upper one does not hit the upper base 7 of the tested armature 7, it sends the upper stops not shown.

In the event that the pressure in the valve 6 to be tested does not fall below a certain minimum value during the test, a relief valve, not shown, with a blanked outlet port set to the appropriate minimum pressure, is placed downstream of the second shut-off valve 13. The throttle valve II only serves to limit the speed of movement of the upper blanking bottom T.

The described opening and closing of the first shut-off valve 12 and the second shut-off valve 13 can be carried out manually or by a control (not shown) controlled by an appropriately set programmer.

After completion of the prescribed number of cycles or after failure of the tested fitting, the tested fitting £ is removed and replaced for the new test by a new tested fitting 2 ·

The device according to the invention can be used for life tests of both flexible compensators and telescopic compensators and bellows and other fittings, their parts or other devices with a linear functional movement, which can be used to induce this movement by changes in internal pressure.

Claims (1)

Apparatus for testing compensating fittings, such as bellows and flexible or telescopic expansion joints, consisting of a frame in which a one end sealed test fitting is mounted in which a pressure medium supply is provided, characterized in that an accumulator is placed in the frame (1). (8) potential energy stored at the other end of the tested armature (6).