SU842735A1 - Device for testing pressure controllers - Google Patents

Description

(54) DEVICE FOR TESTING REGULATORS PRESSURE

one

The invention relates to automation, specifically to automatic stands, intended for producing a lifetime of membrane pneumatic devices, in particular, pressure regulators used in industry and everyday life for extracting fuel gas from cylinders.

Devices are known where the working parts of the test regulators are subjected to mechanical movements on the stands, however, this requires a partial revision of the products before the tests, which is not always possible or desirable 1.

The closest in technical essence to the present invention is a device for testing pressure regulators, containing a sealed vessel with connecting pipes, connected through the inlet and outlet pipes, each with an electromagnetic valve, with a pressure source and with the atmosphere, respectively.

The disadvantage of the device is that it lacks the means to periodically monitor the test objects during the testing process and, consequently, insufficient functionality.

The purpose of the invention is to reduce test time by providing test parameters during the test and extending the functionality.

This goal is achieved by the fact that the device contains bubble chambers and closures, each of which is installed in one of the connecting pipes, the input of each bubble chamber

connected to a sealed vessel, and the output - with one of the connecting pipes to the gate.

Such an embodiment of the device makes it possible to check the leaktightness and output parameters of the tested regulators during the test, without removing them from the device, which significantly shortens the test duration.

FIG. 1 shows a device - a longitudinal section; in fig. 2 - portable element; in fig. 3 - wiring diagram.

The device contains a closed sealed vessel formed by cylinder 1 with flange covers 2 and 3, equipped with inlet 4 and outlet 5 nozzles:

overlapped normally closed solenoid valves 6 and 7, placed inside the cylinder, also equipped with connecting pipes 8, to which regulators 9 are attached.

The cylinder 1 is rotatably fixed on the supporting frame 10 by means of the inlet and outlet nozzles and is provided with a feed connector 11.

On the frame is fixed counter 12.

Outside the cylinder, bubble chambers 13 are fixed, connected by means of tubes to the cylinder cavity and connecting nozzles 8, each of which has a gate 14.

The inlet fittings of the regulators 9 are screwed onto the nipples 15 connected by brackets 16 to the flange of the lid 3. Holes 15 are formed in the nipples 15 for connecting the nozzles 17 of the conduit 18 of the input working pressure or removable plugs 19.

The device works as follows.

The regulators 9 are connected to the connecting pipes 8 of the cylinder 1 and fixed 58 on the nipples 15. The test pressure is supplied through the clamp 11 with the solenoid valve 6 closed and the valves open 14. Alternately closing the valves 14, check the tightness of each regulator 9 and its connections with a connecting nipple 8. The leaktightness indicator is the absence of air bubbles in the transparent chambers 13 filled with water. After the leak check, the locks 14 open.

In the automatic mode of operation of the device, its electromagnetic valves 6 and 7 alternately connect the cavity of the cylinder 1 either to test pressure or to the atmosphere.

At the same time, the regulators 9 are filled with air and their working elements — membranes, actuators, and closures — move. After depressurization, the movable parts of the regulators occupy the initial position, completing one cycle of operation.

Through a predetermined cycle of operation, an intermediate control of the tested regulators is performed. At the same time, the tightness (according to the described method) and the parameters of the outlet pressure are checked.

The nipples 15 of each regulator are alternately attached to the tip 17 of the pipeline 18. To the outlet nozzle 5 with the open 6 and closed 7 solenoid valves, attach the nozzle 20 connected to the pressure gauge 21 and the calibrated nozzle 22.

By applying to the input of each regulator the inlet working pressure from the pipeline 18, the parameters of the outlet pressure are checked by the gauge 21 at a given flow rate through the nozzle 22.

After an intermediate check of the test parameters of the cyclical regulators continue in the described sequence.

 The number of intermediate checks of tightness and parameters of the regulators is established by the normative-technical documentation for the tested products.

When using the device, it is possible to control the tightness of the tested regulators both immediately after connecting them to the distribution chamber, and during testing after a certain number of cycles has been developed. This check is performed by means of a single device and does not require the removal of regulators or the use of additional equipment or instruments.

It is possible to check the parameters of the output pressure of the regulator directly on the device.

The economic effect of its use is achieved due to a significant (up to 50%) reduction in the time of testing.

Claims (2)

1. USSR author's certificate number 635466, cl. G 05 D 16/00, 1976. 2. USSR author's certificate according to application No. 2570139 / 18-24, cl. О 05 D 16/00, 10.01.78 (prototype). fug. / fe Fg / 2.E