RU2691992C1 - Leak testing method of articles - Google Patents

Abstract

FIELD: test technology.

SUBSTANCE: invention relates to leak testing of devices and can be used for leak testing of valves of combustion chambers of liquid-propellant rocket engines. Substance: in critical sections of interconnected combustion chambers there installed are sealed plugs with closed unions. Control gas pressure is created at valve inlet. One opens the union on one of the plugs of combustion chambers. Discharge tube is connected to the open union. Discharge tube is lowered into the container with liquid. Common leakage of control gas by sealing elements of valves is determined. After that nipples are opened on the rest plugs of combustion chambers. Offtake tubes are connected to open unions. All discharge tubes are immersed into vessel with liquid at the same depth. Control gas leakage is measured separately for each off-take tube. Non-tight valve is determined from maximum reading.

EFFECT: reduction of labor costs.

3 cl, 2 dwg

Description

The invention relates to a testing technique and can be used to check the tightness of the sealing elements of the valves of the combustion chambers of the rocket engine.

A known method of testing products for tightness, consisting in the fact that the test product is placed in a closed shell, create an overpressure of the test gas in the product and judging by the pressure or concentration of gas in a closed volume, the degree of tightness of the product is judged, USSR certificate No. 237431, 24.11 .1967, IPC G01M 3/00.

The disadvantage of this method is low accuracy, which is caused by a low rate of pressure change in large volumes.

Closest to the present invention is a method of testing products for tightness, which consists in the fact that the critical sections connected to each other, the combustion chambers (CS) install sealed plugs with closed fittings, create pressure test gas at the inlet of the valves, open the fitting on one of the plugs KS, attached to the open fitting of the outlet tube, the outlet tube is immersed in a container with liquid and determine the total leakage of the test gas on the sealing elements of the valves. Industry standard OST 92-4291-75, 1975, pp. 10-15 (prototype).

The disadvantage of this method is that it allows you to determine the total leakage of the valves and does not allow to determine a leaky valve, if the total leakage is more than acceptable.

The objective of the invention is to determine a leaky valve with a total leakage of the test gas through the valve seals exceeding the allowable one.

This task is achieved by opening the nozzles on the remaining CS plugs, connecting the discharge tubes with the open fittings, immersing all the discharge tubes in the liquid container to the same depth, measuring leaks through them, and determining the unpressurized valve by the maximum indication.

Figure 1 shows a diagram of the device for implementing the proposed method on a four-chamber LRE

The device contains a pneumatic panel 1 with a valve 2, check valves 4, 8, 12 and 16, connected by an outlet with internal cavities KS 5, 9, 13 and 17, airtight plugs with fittings 6, 10, 14 and 18, installed in critical sections of the COP, a pipeline 3 connecting the internal cavities of the compressor station to each other, outgoing tubes 7, 11, 15 and 19, connected to open unions on hermetic plugs of the compressor station 6, 10, 14 and 18, and a container 20 with a liquid.

The proposed method is implemented as follows.

From the pneumatic panel 1 through valve 2 create at the inlet of valves 4, 8, 12 and 16 an overpressure of the test gas, immerse the discharge pipes 7, 11, 15 and 19c in the container with liquid 20 at the same depth.

If there are leaks through the sealing elements of the valves, gas bubbles form and evenly come off on the sections of the discharge tubes. By the size or magnitude of them or by their total volume, the leakage value is measured separately for each discharge tube and the leaking valve is determined by the maximum reading.

When helium gas is used as a control gas (Figure 2), the gas content of the internal cavities of the combustion chambers is determined by means of a probe 22 connected to a helium leak detector 21 and through a maximum reading a leaking valve is detected through the openings of the plugs of combustion chambers 6, 10, 14, 18.

In the absence of a helium leak detector on the test bench, when determining the gas content of the internal cavities of the combustion chambers, the helium samples of the same volume, for example, using medical syringes, are taken out of the open fittings of the plugs of the combustion chambers, followed by determination of helium samples. The amount of helium in the selected samples is determined by a chromatograph or a helium leak detector, and a leaking valve is determined by the maximum readings of the instruments.

Using the described method of leak testing will allow the engine to detect leaks in the valve, which will significantly reduce labor costs compared to removing the valves from the engine and then measuring leakage through them.

Claims (3)

1. The method of testing the tightness of the valves of the LRE combustion chambers, which consists in that sealed plugs with closed fittings are installed in the critical sections of interconnected combustion chambers (CS), create a control gas pressure at the inlet of the valves, open the fitting on one of the CS plugs, an outlet tube is connected to an open socket, the outlet tube is immersed in a container with liquid, and the total leakage of the test gas is determined by the sealing elements of the valves, characterized in that they open the socket for the rest of x plugs COP, the extraction pipes are connected with connecting pipes open, diverting all tubes immersed in a container of liquid to the same depth measured separately for each discharge tube test gas leak and determine the maximum value readings leaky valve. 2. The method according to claim 1, characterized in that when using helium as a control gas, the gas content of the internal cavities of the combustion chambers is additionally determined by means of a probe connected to a helium leak detector. 3. The method according to p. 2, characterized in that when determining the gas content of the internal cavities of the combustion chambers, the same helium samples of the same volume, for example, with medical syringes, are simultaneously taken through the openings of the plugs of the combustion chambers.

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