KR20130052227A - Protective device of rocket engine combustion chamber - Google Patents

Abstract

PURPOSE: A rocket engine combustion chamber protecting device is provided to prevent damage to a rocket engine combustion chamber by a periodic engine inspection and to improve convenience. CONSTITUTION: A rocket engine combustion chamber protecting device(100) comprises a central shaft(110), a mounting unit(120), and plug units(130,140). The mounting unit is installed in the upper part of the central shaft, maintains a mounting force of the protecting device, and attaches or detaches the protecting device without damage to an inner wall of the combustion chamber. The plug unit is installed in the central shaft and protects the combustion chamber from foreign materials and contaminant.

Description

PROTECTIVE DEVICE OF ROCKET ENGINE COMBUSTION CHAMBER}

The present invention relates to a rocket engine combustion chamber protection device that can protect the combustion chamber inside the rocket engine from foreign matters, and more particularly, it is possible to prevent damage to the combustion chamber during frequent inspection of the combustion chamber inside the rocket engine and at the same time, to provide convenience. Rocket engine combustion chamber protection device.

In general, rocket engines are finally fired through the parts production stage, engine assembly and certification test stage, engine assembly and assembly after projectile certification test stage, and pre-launch launch operation stage.

In order to launch a rocket, a number of verification tests are performed for a long time and long-term storage if necessary.In this process, the inside of the engine combustion chamber where a plurality of injector nozzles is located is protected from foreign substances, pollutants such as moisture, oil, and salt. There is a need.

1 is a view showing a state of protecting a rocket engine combustion chamber using a conventional rocket engine combustion chamber protection device.

Referring to FIG. 1, the rocket engine combustion chamber protection device 20 is provided in a plug type as shown to protect the rocket engine combustion chamber 10. The rocket engine combustion chamber protection device 20 is a plastic-based disc-shaped structure having a thickness that can withstand a specific design pressure, and has been used by silicon bonding an edge portion in contact with the inner wall of the rocket engine combustion chamber 10.

However, conventionally, the rocket engine combustion chamber protection device 20 is removed in the state in which the rocket engine combustion chamber protection device 20 is silicon-bonded to the inner wall of the rocket engine combustion chamber 10 at every periodic engine internal inspection. Silicon bond treatment is performed on the inner wall of the rocket engine combustion chamber 10.

Because of this, the inner wall of the rocket engine combustion chamber 10 may be damaged in the process of removing or replacing the rocket engine combustion chamber protection device 20, and there is a hassle that needs to be bonded again using a silicon bond.

Even if the rocket engine combustion chamber 10 is not damaged, a part of the silicon bond remains on the inner wall of the combustion chamber, so that a second problem (eg, local thermal damage) with the combustion gas may not be excluded when the rocket engine is ignited.

Accordingly, an object of the present invention is to provide a rocket engine combustion chamber protection device capable of preventing damage to the rocket engine combustion chamber and improving convenience at every periodic engine internal inspection.

In addition, an object of the present invention is to provide a rocket engine combustion chamber protection device for preventing the rocket engine from being damaged during the ignition of the rocket engine due to the residue generated in the process of mounting and detaching the rocket engine combustion chamber protection device.

The rocket engine combustion chamber protection device of the present invention for achieving the above object, the central axis; A plug unit installed on the central shaft and in close contact with an inner wall of the rocket engine combustion chamber; And a mounting unit disposed above the plug unit on the central axis to maintain the close contact force of the plug unit when the rocket engine combustion chamber protection device is mounted in the rocket engine combustion chamber.

The mounting unit,

A seating member, a plurality of rotating wheel supporting members which are hinged to the seating member and provided to be rotatable up and down, installed at an outer end of each of the rotating wheel supporting members, and rotating wheels for rolling the inner wall of the rocket engine combustion chamber; And an elastic member connected to each of the rotary wheel support members and the seating member so as to elastically support the respective rotation wheel support members.

The seating member is characterized in that it comprises a plurality of extensions having a coupling portion fitted on the central axis and a pair of extension plates extending radially outward from the coupling portion.

The rotating wheel support member is disposed so that a portion is inserted between the pair of extension plates, it is characterized in that the hinge is coupled to the outer end of the pair of extension plates.

On the central axis is characterized in that the protruding radially outward of the support jaw in which the coupling portion is seated.

The plug unit includes a first plug unit disposed below the mounting unit,

The first plug unit,

The first and second sliding ring members are spaced apart from each other on the central axis, the elastic member disposed between the first and second sliding ring members on the central axis, and the first sliding ring member And a first plug module provided to extend toward an inner wall side of the rocket engine combustion chamber, and a connecting rod connecting the first plug module and the second sliding ring member to each other.

The elastic member is supported by a pressing protrusion whose lower end protrudes radially outward of the central axis,

The pressing protrusion may be disposed above the first sliding ring member to compress the elastic member when the first plug module is in close contact with an inner wall of the rocket engine combustion chamber.

The first plug module,

A circular plate seated on the first sliding ring member, the outer end of which is bent so as to have an inclined surface having a lower light-negotiation shape, and an outer end inner side of the circular plate so that the outer end of the circular plate can maintain an inclined surface; An annular ring disposed in and provided to surround the outer end of the circular plate, characterized in that it comprises an annular rubber ring made of a rubber material to prevent damage when contacted with the inner wall of the rocket engine combustion chamber.

The plug unit further includes a second plug unit disposed below the first plug unit to be in close contact with the inner wall of the rocket engine combustion chamber together with the first plug unit.

The second plug unit,

A third sliding ring member fitted on the central shaft, an elastic member disposed below the third sliding ring member on the central shaft, and a third sliding ring member seated on the third sliding ring member to be in close contact with an inner wall of the rocket engine combustion chamber. It characterized in that it comprises a second plug module.

The lower end of the central shaft is equipped with a nut member and a stopper made of a plastic material surrounding the outer surface of the nut member,

The elastic member is characterized in that one end is in contact with the third sliding ring member and the other end is in contact with the nut member.

The second plug module is seated on the third sliding ring member, the outer end of the circular plate is bent to have an inclined plane of the light beam, and the outer end of the circular plate so as to maintain the inclined surface An annular ring disposed inside the outer end of the plate, and provided to surround the outer end of the circular plate, made of a rubber material comprising an annular rubber ring to prevent damage when contacted with the inner wall of the rocket engine combustion chamber It is characterized by.

As described above, the rocket engine combustion chamber protection device of the present invention, as the rotation wheel of the mounting unit and the annular rubber ring of the plug unit come into contact with the inner wall of the rocket engine combustion chamber during periodic inspection of the rocket engine, may damage the rocket engine combustion chamber. It can prevent.

And the rocket engine combustion chamber protection device of the present invention has a good convenience because it can maintain the mounting force when mounted by the mounting unit.

In addition, the rocket engine combustion chamber protection device of the present invention can prevent the rocket engine from being damaged during ignition of the rocket engine since no residue such as silicon remains in the process of mounting and detaching the rocket engine combustion chamber.

1 is a view showing a state of protecting a rocket engine combustion chamber using a conventional rocket engine combustion chamber protection device.
2 is a perspective view showing a rocket engine combustion chamber protection device of the present invention.
3 is a side view and a cross-sectional view showing a rocket engine combustion chamber protection device of the present invention.
4 is a view showing an extract of the mounting unit of the rocket engine combustion chamber protection device shown in FIG.
FIG. 5 is a view illustrating an extract of a first plug unit of the rocket engine combustion chamber protection device illustrated in FIG. 3.
6 is a view showing an extract of the second plug unit of the rocket engine combustion chamber protection device shown in FIG.
7 is a diagram illustrating a process of mounting the rocket engine combustion chamber protection device of the present invention.

Hereinafter, a rocket engine combustion chamber protection device of the present invention will be described in detail with reference to the accompanying drawings. At this time, the rocket engine combustion chamber in which the rocket engine combustion chamber protection device of the present invention is adopted has a shape in which the diameter of the neck is small, that is, the diameter decreases from the top to the lower side, and the diameter increases again.

2 and 3, the rocket engine combustion chamber protection device (hereinafter referred to as 'protection device' 100) of the present invention, the central shaft 110, and is installed on the central shaft 110 above. Mounting unit 120 to maintain the mounting force of the protection device 100 of the present invention and to allow the attachment and detachment of the protection device 100 without damaging the inner wall of the rocket engine combustion chamber (see Fig. 1), It is installed on the central shaft 110 includes a plug unit to protect the rocket engine combustion chamber 10 from foreign substances and contaminants. Here, the plug unit may include a first plug unit 130 and a second plug unit 140.

Specifically, the central shaft 110 has a shape that extends vertically long, serves to maintain the skeleton of the protective device 100 of the present invention. A support jaw 111 protruding outward in a radial direction is formed on the upper outer surface of the central shaft 110 to support the mounting unit 120. And a nut member 112 for supporting the lower end of the elastic member 145 of the second plug unit 140 to be described later is provided on the lower outer surface of the central shaft 110, the outer surface of the nut member 112 of the present invention When the protection device 100 is separated, the stopper 113 made of a plastic material is inserted to protect the engine when it collides with the engine.

The mounting unit 120 maintains the mounting force of the protective device 100 of the present invention as described above, and at the same time serves to mount and detach the protective device 100 without damaging the inner wall of the rocket engine combustion chamber 10. Do it.

As shown in FIG. 4, the mounting unit 120 includes a seating member 121 seated on the support jaw 111 of the central shaft 110, and a plurality of rotating wheels hinged to the seating member 121. Support member 122, the rotary wheel 123 is provided on the outer end of each of the rotary wheel support member 122, the elastic member 124 for elastically supporting each of the rotary wheel support member 122, and the seating member ( It includes a nut member 125 for fixing the 121 on the central shaft (110).

The seating member 121 includes a coupling portion 121a having a shaft hole fitted on the central shaft 110 as shown, and a plurality of extension portions 121b extending radially from the coupling portion 121a. . At this time, each extension portion 121b includes a pair of extension plates extending in a state spaced apart from each other in the outer direction of the coupling portion.

The plurality of rotating wheel support members 122 are disposed in a state of being inserted between the pair of extension plates of each extension 121b. Each of the rotary wheel support members 122 is hinged to the fixed end of each extension plate is provided to be rotated up and down about the fixed end. At this time, each of the rotary wheel support member 122 is hinged at the fixed end and the middle portion of the pair of extension plates.

It is hinged to the fixed end of the pair of extension plates to be provided so as to be rotatable up and down about the fixed end of the pair of extension plates of each extension (121b).

The rotary wheel 123 is installed at the outer end of each rotary wheel support member 122 as described above. The rotary wheel 123 is rolled along the inner wall of the rocket engine combustion chamber 10 when mounting or detaching the protection device 100 of the present invention in the rocket engine combustion chamber 10. Accordingly, the protection device 100 of the present invention can prevent damage to the inner wall of the combustion chamber when it is mounted on or detached from the rocket engine combustion chamber 10.

The elastic member 124 is disposed between the engaging portion 121a of the seating member 121 and each of the rotating wheel supporting members 122. One end of the elastic member 124 is connected to the coupling portion 121a and the other end is connected to the inner end of each rotation wheel support member 122 to elastically support each rotation wheel support member 122.

The nut member 125 serves to fix the seating member 121 without being separated on the central shaft 110 as described above. To this end, the nut member 125 is axially coupled to the central shaft 110 at the upper side of the seating member 121.

The plug unit includes a first plug unit 130 and a second plug unit 140 disposed below the first plug unit 130 as described above, and the rocket engine combustion chamber 10 Protects).

First, the first plug unit 130 is disposed below the mounting unit 120 on the central shaft 110, as shown in FIG. The first plug unit 130 includes first and second sliding ring members 131 and 135 fitted in the state spaced apart from each other on the central shaft 110, and first and second sliding rings spaced apart from each other on the central shaft 110. An elastic member 137 disposed between the members 131 and 135, a first plug module seated on the first sliding ring member 131 to substantially block an inner wall of the rocket engine combustion chamber 10, and a second sliding ring member And a connecting rod 136 connecting the 135 and the first plug module to each other.

The first and second sliding ring members 131 and 135 are fitted to be spaced apart from each other on the central shaft 110 as described above.

As described above, the elastic member 137 is disposed between the first and second sliding ring members 131 and 135 on the central shaft 110. The elastic member 137 is compressed or tensioned in the process of mounting on the rocket engine combustion chamber 10 to provide a mounting force for mounting the protective device 100 of the present invention. That is, the elastic member 137 is a pressing protrusion 114 protruding radially outward of the central shaft 110 when the user pushes the central shaft 110 upward to mount the protection device 100 of the present invention. ) And is tensioned again when the user does not apply a force to push up the central shaft 110.

The first plug module includes a circular plate 132 seated on the first sliding ring member 131, an annular ring 133 for maintaining the shape of the outer end of the circular plate 132, and a circular plate. An annular rubber ring 134 is provided to surround the outer end of the 132.

The circular plate 132 is seated on the first sliding ring member 131 as described above. The outer end of this circular plate 132 is bent to have an inclined surface in the form of a lower light image.

The annular ring 133 is provided inside the outer end of the circular plate 132 so that the outer end of the circular plate 132 maintains the inclined surface of the lower light-negotiation shape as described above.

The annular rubber ring 134 is provided to surround the outer end of the circular plate 132 as described above. The annular rubber ring 134 is a portion which is substantially in close contact when the protection device 100 of the present invention is mounted to the rocket engine combustion chamber 10, and is provided with a rubber material to prevent damage to the rocket engine combustion chamber 10. do.

The connecting rod 136 is connected to each end of the second sliding ring member 135 and the circular plate 132. The connecting rod 136 is the elastic member 137 by restricting the second sliding ring member 135 to which one end of the elastic member 137 is connected to move upwards or more when the protective device 100 of the present invention is mounted. ) Is compressed.

As shown, the second plug unit 140 is disposed below the first plug unit 130 on the central shaft 110. As shown in FIG. 6, the second plug unit 140 includes a third sliding ring member 141 fitted on the central shaft 110, and a third sliding ring member 141 on the central shaft 110. A second plug seated on the elastic member 145 disposed between the nut member 112 installed at the lower end of the central shaft 110 and the third sliding ring member 141 to block the inner wall of the rocket engine combustion chamber 10. Contains modules

In this case, the second plug module includes a circular plate 142, an annular ring 143, and an annular rubber ring 144, and includes a third sliding ring member 141, an elastic member 145, and a second plug. Since the module is the same as the configuration of the first plug unit, a detailed description thereof will be omitted.

Hereinafter, a process of mounting the rocket engine combustion chamber protection device of the present invention having the configuration as described above will be described in detail with reference to the accompanying drawings.

First, in order to mount the rocket engine combustion chamber protection device 100 in the rocket engine combustion chamber 10, the protection device 100 is inserted into the rocket engine combustion chamber 10 as shown in FIG. At this time, the rocket engine combustion chamber 10 has a shape in which the diameter of the neck is small, that is, the diameter decreases from the top to the bottom, and the diameter increases again. In addition, the protection device 10 is inserted into the rocket engine combustion chamber 10 in a state in which the second plug unit 140 is disassembled from the central shaft 110.

In addition, as shown in FIG. 7B, when the protection device 100 is continuously inserted into the rocket engine combustion chamber 10 as described above, each of the rotating wheels 123 of the mounting unit 120 is a rocket. The inner wall of the engine combustion chamber 10 is brought into contact with and rolled. At the same time, the rotary wheel support member 122 on which each of the rotating wheels 123 is supported is rolled along the inner wall of the rocket engine combustion chamber 10, so that each of the rotating wheels 123 is supported. The end is moved upward while being rotated to face downward.

Subsequently, when the above operation is continuously performed, the annular rubber ring 134 of the first plug unit 130 is in close contact with the inner wall of the rocket engine combustion chamber 10 as shown in FIG. Is not moved to. On the other hand, the central shaft 110 and the mounting unit 120 are continuously moved upwards, whereby the elastic member 137 of the first plug unit 130 is applied to the pressing protrusion 114 formed on the central shaft 110. Is compressed by.

In addition, when the protection device of the present invention is continuously pushed upward, as shown in FIG. 7 (d), the rotating wheel is spaced apart from the inner wall of the rocket engine combustion chamber to maintain the rotating wheel supporting member in a horizontal state. Here, maintaining the rotating wheel supporting member in a horizontal state is performed while the elastic member elastically supporting the rotating wheel supporting member returns to its original state.

After the rotating wheel supporting member is maintained in the horizontal state as described above, as shown in FIG. 7E, the protection device of the present invention is stopped from being pushed upward. As a result, the central shaft 110 and the mounting unit are moved downward by the restoring force of the elastic member of the first plug unit. In this process, the rotating wheel of the mounting unit is rolled downward in contact with the inner wall of the rocket engine combustion chamber again, and when rolled over a predetermined portion, the roll is no longer rolled.

After that, the first plug unit and the rotating wheel are firmly positioned in the rocket engine combustion chamber, and the second logging unit is assembled to the central shaft 110 as shown in FIG. Assembling the nut member and the stopper at the lower end of the central shaft 110 is completed the mounting of the protective device of the present invention.

On the other hand, the process of detaching the protection device of the present invention mounted on the rocket engine combustion chamber for periodic inspection as follows.

Firstly, the nut member and the stopper installed on the central shaft 110 are removed, and the second logging unit is subsequently removed. When the user grasps the central shaft 110 and pulls it downward, the first logging unit is moved downward, and the rotating wheel slides downward along the inner wall of the rocket engine combustion chamber. In this process, the rotating wheel is slid along the inner wall of the rocket engine combustion chamber until it becomes horizontal by the tension of the elastic member.

In addition, the process of detaching the protection device of the present invention mounted on the rocket engine combustion chamber during the ignition of the engine, which is the main purpose of the rocket, is as follows.

First, when an engine is ignited and combustion gas is generated, the pressure inside a combustion chamber is raised by generation | occurrence | production of this combustion gas. As a result, the rotating wheel slides downward along the inner wall of the rocket engine combustion chamber, and the first and second logging units maintain a hermetic state with the inner wall of the rocket engine combustion chamber, respectively, and are freely spaced apart.

10: rocket engine combustion chamber 100: rocket engine combustion chamber protection device
110: central axis 111: support jaw
112: nut member 113: cap
114: pressure projection 120: mounting unit
121: mounting member 121a: coupling portion
121b: extension 122: rotation wheel support member
123: rotation wheel 124: elastic member
130: first plug unit 131: first sliding ring member
132: circular plate 133: annular ring
134: annular rubber ring 135: second sliding ring member
136: connecting rod 137: elastic member
140: second plug unit 141: third sliding ring member
142: circular plate 143: annular ring
144: annular rubber ring 145: elastic member

Claims (11)

In the rocket engine combustion chamber protection device 100 for protecting the rocket engine combustion chamber 10,
The rocket engine combustion chamber protection device 100,
Central axis 110;
A plug unit installed on the central shaft 110 and in close contact with an inner wall of the rocket engine combustion chamber 10; And
A mounting unit 120 disposed above the plug unit on the central shaft 110 to maintain the adhesion of the plug unit when the rocket engine combustion chamber protection device 100 is mounted to the rocket engine combustion chamber 10. Rocket engine combustion chamber protection device comprising a. The method of claim 1,
The mounting unit 120,
The seating member 121,
A plurality of rotating wheel support members 122 hinged to the seating member 121 and rotatably provided up and down;
A rotary wheel 123 installed at an outer end of each of the rotary wheel support members 122 to roll an inner wall of the rocket engine combustion chamber 10;
And an elastic member (124) connected to each of the rotary wheel support members (122) and the seating member (121) to elastically support the respective rotation wheel support members (122). The method of claim 2,
The seating member 121 has a coupling portion 121a fitted on the central shaft 110 and a pair of extension plates extending radially outwardly of the central shaft 110 from the coupling portion 121a. Rocket engine combustion chamber protection device comprising a plurality of extensions (121b) having. The method of claim 3,
The rotating wheel support member 122 is disposed so that a portion is inserted between the pair of extension plates, the rocket engine combustion chamber protection device, characterized in that the hinge is coupled to the outer end of the pair of extension plates. The method of claim 3,
The rocket engine combustion chamber protection device, characterized in that protruding radially outward of the support jaw (111) on which the coupling portion (121a) is seated on the central shaft (110). The method of claim 1,
The plug unit includes a first plug unit 130 disposed below the mounting unit 120,
The first plug unit 130,
First and second sliding ring members 131 and 135 fitted in the state spaced apart from each other on the central shaft 110;
An elastic member 137 disposed between the first and second sliding ring members 131 and 135 on the central shaft 110;
A first plug module seated on the first sliding ring member 131 and provided to extend toward an inner wall of the rocket engine combustion chamber 10;
And a connecting rod (136) connecting the first plug module and the second sliding ring member 135 to each other. The method according to claim 6,
The elastic member 137 is supported by a pressing protrusion 114, the lower end of which protrudes radially outward of the central shaft 110,
The pressing protrusion 114 is disposed on the upper side of the first sliding ring member 131 to compress the elastic member 137 when the first plug module is in close contact with the inner wall of the rocket engine combustion chamber 10. A rocket engine combustion chamber protection device. The method according to claim 6,
The first plug module,
A circular plate 132 seated on the first sliding ring member 131, the outer end of which is bent so as to have an inclined surface having a lower light narrow shape;
An annular ring 133 disposed inside the outer end of the circular plate 132 so that the outer end of the circular plate 132 can maintain an inclined surface;
It is provided to surround the outer end of the circular plate 132, it is made of a rubber material characterized in that it comprises an annular rubber ring 134 to prevent damage when contacted with the inner wall of the rocket engine combustion chamber 10 Rocket engine combustion chamber protection device. The method according to claim 6,
The plug unit further includes a second plug unit 140 disposed below the first plug unit 130 to be in close contact with the inner wall of the rocket engine combustion chamber 10 together with the first plug unit 130. ,
The second plug unit 140,
A third sliding ring member 141 fitted on the central shaft 110;
An elastic member 145 disposed below the third sliding ring member 141 on the central shaft 110;
And a second plug module seated on the third sliding ring member (141) to be in close contact with the inner wall of the rocket engine combustion chamber (10). 10. The method of claim 9,
A nut member 112 and a stopper 113 made of a plastic material surrounding an outer surface of the nut member 112 are mounted at a lower end of the central shaft 110.
The elastic member (145) is rocket engine combustion chamber protection device, characterized in that one end is in contact with the third sliding ring member (141) and the other end is in contact with the nut member (112). 10. The method of claim 9,
A second plug module is seated on the third sliding ring member 141, the outer end of the circular plate 142 is bent so as to have an inclined surface of the light beam detective;
An annular ring 143 disposed inside the outer end of the circular plate 142 so that the outer end of the circular plate 142 maintains an inclined surface;
It is provided to surround the outer end of the circular plate 142, it is made of a rubber material characterized in that it comprises an annular rubber ring 144 to prevent damage when contacted with the inner wall of the rocket engine combustion chamber 10 Rocket engine combustion chamber protection device.

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