RU88661U1 - DEVICE FOR CHECKING VESSEL LEAKAGE - Google Patents

Abstract

A device for checking the tightness of vessels, containing a tank with a floating piston moved by compressed air, characterized in that the tank is connected to a source of compressed air on both sides of the floating piston by pipelines, and on the liquid side it is connected by a pipe through the table top of the test bench on which the ends of the pipelines are attached from a liquid level gauge, pressure gauge and a source of compressed air, while on the countertop there is a seat for the test container, made in this way, h Oba ends aforementioned piping located inside the test vessel, and all the pipes are fitted with shut-off valves.

Description

The utility model relates to various technological processes and can be used to control the integrity of vessels.

By design features, the utility model is close to a device for controlling hydraulic jacks of a crane, which contains a spool valve with working chambers, a distribution valve and hydraulic locks, while the control cavity of the spool valve is connected to the piston cavity of the jack connected directly to one of the spool chambers and to the other - through the throttle (AS USSR No. 316642 with a priority of 16 02.1970 g).

The analogue has a complex structure, which is its drawback.

Another analogue selected as a prototype is a hydraulic jack containing a power cylinder, a pneumatic pump and a hydraulic tank connected to a source of compressed air, while the hydraulic tank is made in the form of a cylinder with a floating piston transmitting compressed air pressure to a liquid (A.S. USSR No. 316643, with priority dated 19.03.1970).

However, to return the fluid to the hydraulic tank, manual action on the actuator is necessary, which is a disadvantage of the prototype.

The objective of the utility model is to simplify the design and ensure the return of fluid to the flex tank by means of compressed air pressure on the fluid.

The problem is solved in that in the proposed device containing a hydraulic tank with a floating piston moved by compressed air, the hydraulic tank is connected to a source of compressed air on both sides of the floating piston, and on the liquid side it is connected by a pipeline through the table top of the test bench, on which the pipelines from the liquid level gauge, pressure gauge and source of compressed air, while on the countertop there is a seat under the test container, made in such a way that the ends of the above water pipes were inside the tested capacity, i.e. inside the seat, and all pipelines are equipped with shut-off valves.

The essence of the utility model is illustrated by a drawing, which schematically shows: 1 - a hydraulic tank, 2 - a floating piston, 3 - an air pipe, 4 - a table top of a test bench with a seat 5, 6 - a hydraulic pipe, 7 - a liquid level gauge, 8 - a pipeline, 9 - a pressure gauge, 10 ... 14 valves, 15 - pressure reducing valve, 16 - test vessel. Compressed air comes from the factory compressed air system.

The device operates as follows. In the initial state - as shown in the drawing, the test vessel 16 is mounted on the table top of the stand 4, all valves are closed.

Beginning of work. We open the valves sequentially, 11 12 and 10. Compressed air enters the hydraulic tank 1 through the valve 10. The piston 2 moves towards the liquid and drives it into the vessel 16. When the vessel is completely filled, determined by the level gauge 7, we close the valve 12. After reaching a certain pressure on the pressure gauge 9 we close the valve 10. We maintain for the set time.

Continuation of work. We open the valves 13 and 14. The fluid from the vessel 16 is forced out by compressed air into the hydraulic tank 1, raising the floating piston 2 to its original position. Close the valves 11 and 13, open the valve 12. Remove the vessel 16 from the test bench.

After which the process is repeated with the next vessel.

Thus, the task is solved by the proposed utility model, while a quality check of the manufactured vessels for tightness is carried out.

Claims (1)

A device for checking the tightness of vessels, containing a tank with a floating piston moved by compressed air, characterized in that the tank is connected to a source of compressed air on both sides of the floating piston by pipelines, and on the liquid side it is connected by a pipe through the table top of the test bench on which the ends of the pipelines are attached from a liquid level gauge, pressure gauge and a source of compressed air, while on the countertop there is a seat for the test container, made in this way, h Oba ends aforementioned piping located inside the test vessel, and all the pipes are fitted with shut-off valves.