KR20120045736A - Sealing plug for a rocket engine chamber - Google Patents

Abstract

PURPOSE: A sealing plug for a combustor of a rocket engine is provided to prevent structural damages to a wall of a combustor caused by the sealing plug because the sealing plug is made of rubber. CONSTITUTION: A sealing plug for a combustor of a rocket engine(200) comprises a rubber tube, a pipe(203), a limiter(211), a first cap, a second cap and a pressure gauge(209). The rubber tube has a gas injection port(202) with a third cap. A check valve with a spring is attached to the pipe. The limiter is connected to the check valve by a supporter. The first and second caps seal the both ends of the pipe. The pressure gauge checks the internal pressure of the tube.

Description

Rocket engine combustor hermetic plug {SEALING PLUG FOR A ROCKET ENGINE CHAMBER}

The present invention relates to a rocket engine combustor hermetic plug, and more particularly, a function of sealing the external moisture, air, foreign substances, and the like into the combustor of the rocket engine, and the internal pressure when purging the inside of the combustor at low pressure. This invention relates to a rocket engine combustor hermetic plug, a multi-purpose hermetic retainer that performs a plug role in the combustor neck when performing the function of discharging the surplus pressure generated in the combustion chamber and the gas tightness test of the combustor interior.

In general, in the case of liquid propellant rocket engines, conducting a leak test to verify the engine itself and the connection to the supply system before the engine combustion test is an essential element of a series of tests, and in general, enlarges the nozzle of the engine. The mounting part is installed at the end of the part, and the airtight device is fastened to this part.

When transporting, storing, and operating such a rocket engine, an airtight plug has been used to keep the internal environment of the combustor of the rocket engine in a safe state and to seal the inside of the combustor from the air during the airtight test.

An example in which such a conventional hermetic plug is applied is a plug for a combustor of an RD-151 rocket engine of Naro 1 stage, as shown in FIG. 1.

Referring to FIG. 1, a conventional hermetic plug includes a roller 11 having a rod 10 as an axis, and having a constant bearing force, and a level 13 connected to a spring 12. It consists of a limiter 14 which prevents the plug from going into the combustor any more, and a conical plate 16 which is finished with a sealing ring 15.

The hermetic plug of this structure is very convenient to be mounted in the combustor, and by tightening the nut 17 to change the spring tension, the plug can be forced out of the combustor at the desired combustor internal pressure. If the pressure inside the combustor is slightly higher than atmospheric pressure, a gap is formed in the hermetic ring 15 and the chamber 18 to reduce the internal pressure.

In addition, when the rocket engine is stored and prepared for launch, the conical plate 16 equipped with the hermetic ring 15 blocks moisture, air, or foreign matter from the atmosphere.

However, the conventional hermetic plug has a lot of iron materials as a whole, the structure is complicated, there is a problem that is not suitable when transporting the rocket engine to the road because the hermetic plug can come out of the combustor by the impact.

In addition, since the internal pressure of the combustor is discharged, it cannot be used for the airtight test, and there is a problem in that an expert tuning operation is required to exactly match the shape of the rocket engine.

In addition, the conventional hermetic plug was used only at the ignition preparation stage and the ignition stage of the rocket engine, and there was a problem in that an additional cylindrical hermetic plug was used in the transfer and hermetic testing stage.

Accordingly, an object of the present invention is to solve the above problems, and prevents foreign matter such as moisture and air from entering the combustor from the atmosphere during the transport and storage of the rocket engine and the rocket engine start-up stage, and structural defects of the rocket engine. Serves as a hermetic plug when conducting hermetic tests for verification or assembling review; In the preparation stage for launching a rocket engine, it is possible to perform purge while maintaining a constant surplus pressure inside the combustor, and when the rocket engine is ignited, it is pushed out of the combustor by high pressure and high temperature so that the rocket engine can operate normally. It is an object of the present invention to provide a rocket engine combustor hermetic plug which opens the combustor.

The rocket engine combustor hermetic plug according to the present invention comprises: a tube made of rubber material having a gas inlet with a third stopper; A pipe with a check valve incorporating a spring; First and second plugs capable of sealing both ends of the pipe; And a pressure gauge capable of checking the internal pressure of the tube.

In addition, it characterized in that it further comprises a spring tension regulator for adjusting the tension of the spring built in the check valve.

In addition, the tube is made of a soft material, the opening of the gas inlet to reduce the internal pressure of the tube, the volume of the tube is reduced so that the tube passes through the combustor neck into the combustor, the gas When the gas is injected through the inlet, the tube is increased in volume to be in close contact with the combustor wall to maintain the airtight inside the combustor.

In addition, the check valve is characterized in that when the low pressure purge (purge) inside the combustor in the ignition preparation step of the rocket engine, the excess pressure in the combustor to discharge to the outside.

In addition, when the rocket engine is ignited to increase the internal pressure of the combustor and a high temperature environment is formed, the tube may be burned or pushed out of the combustor to enable normal operation of the combustor.

In addition, by adjusting the tension of the spring inside the check valve by the spring tension regulator, the internal pressure of the combustor discharged by the pipe is adjusted.

In addition, the limiter designates the insertion limit position when the tube is inserted into the combustor, so that the tube is properly inserted into the combustor, and the pressure inside the combustor is increased, so that the tube can come out of the combustor. When the pipe hits the combustor wall surface, it serves to prevent the combustor wall surface from being broken.

As described above, the airtight plug of the rocket engine combustor according to the present invention is not only improves reliability but also economical operation by using the same plug until the rocket engine is manufactured, transported, stored, and fired after the airtight test. The advantage is that it is possible.

In addition, the structure other than the tube has the advantage that can be used regardless of the type of rocket engine.

In addition, since the hermetic plug is made of rubber, there is an advantage in that it is less likely to cause structural damage to the combustor wall.

In addition, there is an advantage that it can be used in other machinery that requires airtightness.

1 is a view showing a conventional rocket engine combustor hermetic plug.
Figure 2 shows a rocket engine combustor hermetic plug according to the present invention.

Hereinafter, the rocket engine combustor hermetic plug according to the present invention will be described in detail with reference to the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to a client's or operator's intention or custom. Therefore, the definition should be based on the contents throughout this specification.

Like numbers refer to like elements throughout the drawings.

2 is a view showing a rocket engine combustor hermetic plug according to the present invention.

Referring to FIG. 2, the rocket engine combustor hermetic plug 200 according to the present invention is a rubber tube 201 which is in close contact with the combustor wall 210 and maintains hermeticity, and purges the inside of the combustor by the launch preparation operation of the rocket engine. It consists of a pipe 203 provided with a check valve 205 to enable it.

Here, the pipe 203 serves to discharge excess pressure in the hermetic plug 200.

In addition, the check valve 205 is connected to the pipe 203 and is connected to the limiter 211 by a support 212.

Here, when the tube 201 is inserted into the combustor, the limiter 211 designates the insertion limit position so that the tube 201 is properly inserted into the combustor, and the pressure inside the combustor is increased. When the tube 201 exits the combustor, the pipe 203 collides with the combustor wall 210 to prevent the combustor wall 210 from being damaged.

This hermetic plug 200 has the same shape as the shape of the combustor wall 210 to prevent foreign matter, including air, from entering the combustor from the atmosphere.

Opening the gas inlet 202 to reduce the internal pressure of the tube 201 in order to install the tube 201 in the neck portion of the combustor, the volume of the tube 201 is reduced, the tube 201 ) Passes through the combustor neck and enters the combustor, and when gas is injected through the gas inlet 202, the tube 201 increases in volume and adheres to the combustor wall 210 to maintain airtightness inside the combustor. . At this time, the third stopper 208 makes the internal pressure of the tube 201 constant, and the internal pressure of the tube 201 can be confirmed through the removable pressure gauge 209.

In addition, when performing the airtight test of the rocket engine, the flow through the pipe 203 is blocked by blocking the first plug and the second plug (206, 207). The internal pressure of the tube 201 at the time of performing the airtight test of the rocket engine (or the combustor) is much larger than the pressure at the time of transport or storage, and is set according to the airtight test pressure.

In addition, in the ignition preparation step of the rocket engine, a low pressure purge is performed with nitrogen (or helium) inside the combustor, in which the first stopper and the second stopper 206 and 207 are opened, and the surplus pressure inside the combustor As a result, the check valve 205 opens, and the nitrogen (or helium) is drawn out.

In addition, when the rocket engine is ignited and the pressure inside the combustor becomes high and a high temperature is formed, the tube 201 is drawn out of the combustor, and the neck of the combustor is opened to enable normal operation of the rocket engine. When the tube 201 exits the combustor, the check valve 205 must be located at the back of the combustor neck to prevent damage to the nozzle from the check valve 205 and the surface is angled. Made of soft material

A spring 204 is mounted inside the check valve 205, and the spring 204 is tensioned by a spring tension regulator 213 mounted to the outside of the hermetic plug 200. The check valve 205 serves to discharge the increased pressure inside the combustor to the outside of the combustor, and whether the rocket engine lies horizontally or vertically, regardless of the attitude of the rocket engine, an external atmosphere is introduced into the combustor. It serves to prevent incoming.

Here, by adjusting the tension of the spring 204 in the check valve 205 by the spring tension regulator 213, it is possible to adjust the pressure in the combustor discharged by the pipe 203.

The rocket engine combustor hermetic plug according to the present invention can be transported, stored and fired through a hermetic test after the rocket engine is manufactured, so that the same plug can be used until not only to increase reliability but also to operate economically. In addition, the rest of the structure can be used regardless of the type of rocket engine. In addition, since the hermetic plug is made of rubber, it is less likely to cause structural damage to the combustor wall. It can also be used for other machinery requiring airtightness.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, Various changes, modifications or adjustments to the example will be possible. Therefore, the scope of protection of the present invention should be construed as including all changes, modifications, and adjustments that fall within the spirit of the technical idea of the present invention.

200: hermetic plug 201; tube
202: gas inlet 203: pipe
204: spring 205: check valve
206: first plug 207: second plug
208: third plug 209: pressure gauge
210: burner wall 211: limiter
212: support 213: spring tension regulator

Claims (7)

As a combustor hermetic plug for rocket engines,
A tube 201 made of a rubber material having a gas inlet 202 with a third stopper 208;
A pipe 203 to which a check valve 205 with a spring 204 is attached is attached;
A limiter 211 connected to the check valve 205 by a support 212;
First and second stoppers (206, 207) capable of sealing both ends of the pipe (203);
The rocket engine combustor hermetic plug, characterized in that it comprises a pressure gauge (209) for checking the internal pressure of the tube (201).
The rocket engine combustor hermetic plug according to claim 1, further comprising a spring tension regulator (213) for adjusting the tension of the spring (204) embedded in the check valve (205).
According to claim 1, wherein the tube 201 is made of a soft material, the opening of the gas inlet 202 to reduce the internal pressure of the tube 201, the volume of the tube 201 is reduced The tube 201 enters the combustor through a combustor neck, and when gas is injected through the gas inlet 202, the tube 201 increases in volume and is in close contact with the combustor wall 10 so as to be in the combustor. A rocket engine combustor hermetic plug, characterized by maintaining hermeticity.
The rocket engine of claim 1, wherein the check valve 205 discharges the surplus pressure in the combustor to the outside when performing the low pressure purge in the combustor in the ignition preparation stage of the rocket engine. Combustor air tight plug.
The method of claim 1, wherein the tube 201 is burned or pushed out of the combustor to enable normal operation of the combustor when the rocket engine is ignited to increase the internal pressure of the combustor and a high temperature environment is formed. Rocket engine combustor hermetic plug.
The combustor according to claim 1 or 2, wherein the tension of the spring (204) inside the check valve (205) is adjusted by the spring tension regulator (213). A rocket engine combustor hermetic plug, wherein the pressure is controlled.
2. The limiter 211 according to claim 1, wherein the limiter 211 designates an insertion limit position when the tube 201 is inserted into the combustor so that the tube 201 is properly inserted into the combustor. When the pressure of the tube 201 comes out of the combustor, the pipe 203 collides with the combustor wall 210 and serves to prevent the combustor wall 210 from being damaged. Rocket engine combustor airtight plug.

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