KR101408721B1 - Turbo pump fixture - Google Patents

Abstract

A turbo pump fixing device according to an embodiment of the present invention comprises: a first supporting body fixed to a turbo pump; a second supporting body coupled to the first supporting body, and fixed to a combustor; and a shaft connecting the first supporting body and the second supporting body mutually, and enabling the first supporting body to relatively rotate against the second supporting body, wherein the first supporting body and the second supporting body have clearances formed at the coupling portions thereof in the length direction of the shaft and having predetermined lengths. According to the present invention, the first supporting body and the second supporting body connecting the turbo pump and the combustor are installed to be rotatable through the shaft and have the regular clearances at the coupling portions thereof, thereby preventing the separation of the turbo pump and stably supporting and fixing the turbo pump by dispersing vibration through rotation and by dispersing a thermal contraction load, wherein the vibration is due to the operation of the turbo pump, and the thermal contraction load is dispersed when the first supporting body moving through the clearances in case of the thermal contraction of the turbo pump absorbs the thermal contraction.

Description

[0001] Turbo pump fixture [0002]

The present invention relates to a turbo pump fastening device applied to a liquid rocket engine.

In space launch vehicles, the engine generates propulsive force when launching space launch vehicles, float space launch vehicles, and liquid rocket engines are generally used.

In such a liquid rocket engine, a type of power cycle is classified according to the generation and transmission structure of the power required to supply the propellant to the combustor, and a turbo pump type is typically used.

The turbo pump system uses a turbo pump to achieve high propellant pressures, thereby supplying the propellant to the combustor and is being applied to most of the currently used liquid rocket engines.

At this time, the turbo pump can be applied to the liquid rocket engine by being supported by a combustor arranged adjacent to the turbo pump so that structural detachment or separation does not occur due to vibration generated during driving.

However, this has a problem in that heat shrinkage due to the liquid oxygen at the cryogenic temperature occurs in the upper part of the turbo pump, so that it is practically difficult to apply and even if the turbo pump is fixed to the combustor, other structural defects can be caused in assembling the engine.

In order to solve this problem, a method of installing a turbo pump by designing the turbo pump not to be supported by a combustor but by being structurally able to withstand itself, even if vibration occurs, has been applied.

However, there is a problem in stability because there is no way to supplement the turbo pump when a structural defect of the turbo pump itself occurs.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a turbo pump and a combustor, And the first support body moved by the turbo pump can be displaced when the turbo pump is thermally shrunk to form a clearance, thereby stably supporting and fixing the turbo pump to the combustor.

A turbo pump fixing apparatus according to an embodiment of the present invention includes a first support fixed to a turbo pump, a second support coupled to the first support and fixed to the combustor, and a second support fixed to the first support, Wherein a clearance of a predetermined length in the longitudinal direction of the shaft is formed at a coupling portion between the first support and the second support, The predetermined length may be a displacement length of the first support moved due to deformation of the turbo pump during heat shrinkage of the turbo pump.

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A turbo pump fixing apparatus according to another embodiment of the present invention includes a first support fixed to a turbo pump, a second support coupled to the first support and fixed to the combustor, and a second support fixed to the first support, And the first support and the second support are coupled to each other, and the first support and the second support are rotatable relative to the second support, and a clearance of a predetermined length in the longitudinal direction of the shaft is formed at the joint between the first support and the second support , And the shaft may be installed inside the first support and the second support through the first support and the second support.

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A turbo pump fixing apparatus according to another embodiment of the present invention includes a first support fixed to a turbo pump, a second support coupled to the first support and fixed to the combustor, and a second support fixed to the first support, And a shaft for connecting the first support and the second support to each other and allowing the first support to pivot relative to the second support, wherein a clearance of a predetermined length in the longitudinal direction of the shaft is formed at a joining portion of the first support and the second support And the shaft may be coupled to the shaft to adjust the clearance of the first support in the longitudinal direction of the shaft.

A turbo pump fixing apparatus according to another embodiment of the present invention includes a first support fixed to a turbo pump, a second support coupled to the first support and fixed to the combustor, and a second support fixed to the first support, And a shaft for connecting the first support and the second support to each other and allowing the first support to pivot relative to the second support, wherein a clearance of a predetermined length in the longitudinal direction of the shaft is formed at a joining portion of the first support and the second support The first support and the second support may include a support portion fixed to the turbo pump and the combustor, and a coupling portion extending from the support portion and having the shaft inserted therein.

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A turbo pump fixing apparatus according to another embodiment of the present invention includes a first support fixed to a turbo pump, a second support coupled to the first support and fixed to the combustor, and a second support fixed to the first support, And a shaft for connecting the first support and the second support to each other and allowing the first support to pivot relative to the second support, wherein a clearance of a predetermined length in the longitudinal direction of the shaft is formed at a joining portion of the first support and the second support The first support and the second support are coupled through a connecting member, and the first support and the second support are respectively coupled to the connecting member through the shaft and can be pivotable about the axis.

And a bearing installed between the shaft and the connection member for supporting the shaft and receiving the load acting on the shaft to rotate the shaft.

And a bushing installed between the shaft and the bearing and frictionally bearing the bearing.

The coupling member includes a first support coupling portion that is coupled to the first support through the shaft at one side thereof and a second support coupling portion that extends from the first support coupling portion and is coupled to the second support through the shaft, And the first support coupling portion and the second support coupling portion may have a rotation center axis parallel to each other.

The second support member coupling portion may be divided into a plurality of openings extending from the first support member coupling portion and coupled with the plurality of second support members.

According to the present invention, the first support and the second support for connecting the turbo pump and the combustor are rotatably provided through the shaft, and a constant clearance is formed at the joint between the first support and the second support, The first support body is moved through the clearance to absorb the heat shrinkage to disperse the heat shrinkage load to prevent the turbo pump from coming off and to support the turbo pump in a stable manner It is possible to have an effect that can be achieved.

1 is a perspective view of a turbo pump fixing apparatus according to an embodiment of the present invention.
2 is a schematic cross-sectional view of a turbo pump fixing apparatus according to an embodiment of the present invention.
3 is a use state diagram of a turbo pump fixing apparatus according to an embodiment of the present invention.
4 is a perspective view of a turbo pump fixing apparatus according to an embodiment of the present invention.
5 is a schematic perspective view showing a first support of a turbo pump fixing apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of a turbo pump fixing apparatus according to an embodiment of the present invention. FIG. 2 is a schematic cross-sectional view of a turbo pump fixing apparatus according to an embodiment of the present invention. A state of use of the fixing device. FIG. 4 is a perspective view of a turbo pump fixing apparatus according to an embodiment of the present invention, and FIG. 5 is a schematic perspective view illustrating a first support of a turbo pump fixing apparatus according to an embodiment of the present invention.

1 to 3, a turbo pump fixing apparatus 100 according to an embodiment of the present invention (hereinafter referred to as a 'turbo pump fixing apparatus 100') includes a first support body 10 and a second support body 20 ).

The first support body 10 is attached and fixed to the turbo pump 200 and the second support body 20 is coupled to the first support body 10 and attached to and fixed to the combustor 300.

Here, the turbo pump 200 and the combustor 300 are briefly described. The turbo pump 200, to which the first support body 10 is attached, generates thrust by burning several tons of propellant per second, and supplies fuel and oxidant to the engine And consists of an inducer, an impeller, a turbine, and the like, and is disposed in the liquid rocket engine.

Meanwhile, the combustor 300 to which the second support body 20 is attached is disposed adjacent to the turbo pump 200, and is connected to the turbo pump 200 through the coupling of the first support body 10 and the second support body 20. ).

More specifically, the first support body 10 and the second support body 20 extend from the support portions 11 and 21 and the support portions 11 and 21 attached to and fixed to the outer surface of the turbo pump 200 and the combustor 300, And engaging portions 13 and 23 into which the shaft 40 is inserted.

That is, each of the first support body 10 and the second support body 20 may include support portions 11 and 21 and engagement portions 13 and 23.

The first support body 10 and the second support body 20 are attached and fixed to the turbo pump 200 and the combustor 300 respectively by using the support portions 11 and 21, (13, 23).

At this time, the first support body 10 is coupled to the second support body 20 so as to be rotatable.

More specifically, the first supporting body 10 and the second supporting body 20 are connected to each other inside the first supporting body 10 and the second supporting body 20, and the first supporting body 10 is connected to the second supporting body 20 And a shaft 40 for relatively rotating is provided. That is, the shaft 40 is provided on the inner side of the first support body 10 and the second support body 20 through the first support body 10 and the second support body 20 so that the first support body 10, And serves as a hinge so as to be rotatable relative to the support.

In other words, the second support body 20 is fixedly attached and fixed at all times without flow due to the driving characteristics of the combustor 300, and the first support body 10 is attached and fixed to the turbo pump 200, A vibration or a deformation of the shape occurs due to the driving characteristics of the driving unit 200, and thus, a flow occurs.

Therefore, even if the first support body 10 and the second support body 20 are coupled through the shaft 40, only the first support body 10 can be rotated through the shaft 40.

A clearance w is formed in a longitudinal direction of the shaft 40 at a coupling portion where the first support body 10 and the second support body 20 are coupled.

The first support body 10 and the second support body 20 are rotatably coupled via a shaft 40 and a shaft 40 coupled to the inside of the first support body 10 and the second support body 20, The first support body 10 and the second support body 20 are coupled to each other so as to have a clearance w in the longitudinal direction.

At this time, the clearance w formed at the joining portion of the first support body 10 and the second support body 20 is formed at a predetermined interval.

More specifically, on the upper side of the turbo pump 200 coupled with the first support body 10, the thermal shrinkage 40 is generated in the turbo pump 200 by the cryogenic liquid oxygen. Therefore, the upper side of the turbo pump 200 coupled with the first support body 10 is deformed due to the generation of the heat shrinkage 40.

Therefore, the predetermined length may be the displacement length of the first support body 10 which is moved due to the deformation of the turbo pump 200 at the time of heat shrinkage 40 of the turbo pump 200.

That is, the turbo pump 200 in which the heat shrinkage 40 is generated deforms in shape, so that the first support body 10 attached to the turbo pump 200 is moved together with the deformation of the turbo pump 200, The first supporting body 10 and the second supporting body 20 are coupled to each other at a position where the first supporting body 10 is moved, (w).

At this time, the shaft 40 coupled to the inside of the first and second support bodies 10 and 20 so that the first support body 10 and the second support body 20 are coupled to each other, Structure.

More specifically, the shaft 40 may further comprise an adjusting member 40a which is fastened to the shaft 40 to adjust the clearance w of the first support 10 in the longitudinal direction of the shaft 40. [

Illustratively, the shaft 40 may be provided with a bolt, and the adjusting member 40a may be provided with a nut that is fastened to the end side of the bolt to perform tightening or loosening.

Accordingly, the heat shrinkage 40 of the turbo pump 200 and the deformation and vibration occurring during driving are grasped and the clearance w is adjusted to match the heat shrinkage 40 and the first support body 10, the second support body 20, It is possible to prevent a load from being applied to the shaft 40.

The first support body 10 and the second support body 20 can be coupled and rotated by using the shaft 40 and the clearance w can be formed in the longitudinal direction of the shaft 40, Can be stably fixed to the combustor 300.

The turbo pump fixing device 100 is installed between the shaft 40 and the first support body 10 to support the shaft 40 and receives a load acting on the shaft 40 to rotate the shaft 40 And may further include a bearing 50.

At this time, a clearance w may be formed between the bearing 50 and the first support 10 coupled to the outside of the bearing 50. That is, the first support 10, the second support 20, and the bearing 50 may be coupled to the shaft 40 so as to have a clearance w in the longitudinal direction of the shaft 40.

Illustratively, the bearing 50 may be provided with a spherical bearing 50 capable of performing an operation of the bearing 50 sufficiently even when an external force is transmitted from an object of a heavy load, such as the turbo pump 200. It is preferable that the spherical bearing 50 is used in the turbo pump fixing device 100 because the bearing capacity of the spherical bearing 50 is larger than that of the spherical ball bearing 50 in which the ball in the form of a roller is arranged in the circumferential direction of the rotating shaft . However, the type of the bearing 50 can be changed as needed for use.

3 to 5, the turbo pump fixing apparatus 100 according to the embodiment of the present invention includes a connecting member 30.

Between the first support body 10 and the second support body 20 is provided a connection member 30 which is respectively coupled to the first support body 10 and the second support body and connects the first support body 10 and the second support body .

That is, the first support body 10 and the second support body 20 can be coupled through the connecting member 30.

More specifically, the first support body 10 and the second support body 20 can be respectively coupled to the connecting member 30 via the shaft 40 and pivotable about the shaft 40.

The connecting member 30 includes a first supporting portion 31 coupled to the first supporting portion 10 through a shaft 40 and a second supporting portion connecting portion 31 extending from the first supporting portion engaging portion 31, And a second support engaging portion 33 coupled to the second support body 20 via the shaft 40.

The first support body 10 is coupled to the first support body engagement portion 31 of the connecting member 30 via the shaft 40 and the second support body 20 is extended from the first support body engagement portion 31 And can be pivoted about the shaft 40 by being coupled to the second support body coupling portion 33 via the shaft 40. [

At this time, the first support member engaging portion 31 and the second support member engaging portion 33 may have parallel rotation center axes, and the second support member engaging portion 33 may have a plurality of And may be divided and joined to a plurality of second support bodies 20.

The turbo pump 200 is fixed to the combustor 300 through the plurality of second supports 20 attached to the combustor 300 by extending from the first support body 10 to the turbo pump 200 Can be fixed.

Meanwhile, the shaft 40 coupled with the first and second supports 10 and 20 may have a structure capable of adjusting the clearance w.

More specifically, the shaft 40 is fastened to the shaft 40 to fasten or unfasten the first support 10 and the second support 20 to the connecting member 30 in the longitudinal direction of the shaft 40 The adjustment member 40a may be formed of a metal plate.

Illustratively, the shaft 40 may be provided with a bolt, and the adjusting member 40a may be provided with a nut that is fastened to the end side of the bolt to perform tightening or loosening.

Thus, the first support body 10 and the second support body 20 can be fixed to the connecting member 30.

The turbo pump fixing apparatus 100 according to the embodiment of the present invention is installed between the shaft 40 coupled with the first support body 10 and the connecting member 30 and the connecting member 30, And a bearing 50 for supporting the shaft 40 and receiving the load acting on the shaft 40 to rotate the shaft 40.

The turbo pump fixing device 100 according to the embodiment of the present invention may further include a bushing 60 installed between the shaft 40 and the bearing 50 to frictionally bear the bearing 50.

Illustratively, the bushing 60 is cylindrically joined to the outside of the bearing 50 to become the friction surface of the bearing 50, so that the bearing 50 can support the transmitted load and minimize friction.

The functions and effects of the constructions of the turbo pump fixing apparatus 100 according to the embodiment of the present invention described above will be described.

3, the supporting portion 11 of the first supporting body 10 of the turbo pump fixing device 100 according to the embodiment of the present invention includes a turbo pump 200 for generating heat shrinkage 40 by cryogenic liquid oxygen And the support portion 21 of the second support body 20 is attached to the combustor 300. [ The shaft 40 is provided inside the engaging portions 13 and 23 extending from the support portions 11 and 21 of the first support body 10 and the second support body 20 attached to the turbo pump 200 and the combustor 300, Is inserted and the first support 10 and the second support 20 are coupled through the shaft 40. The second support body 20 is fixed to the combustor 300 and the first support body 10 can be coupled with the second support body 20 via the shaft 40 to be relatively rotatable relative to the second support body 20 have. At this time, a bearing 50 is further coupled between the shaft 40 and the first support 10 to assisting the rotation of the first support 10 when the shaft 40 is engaged. After the coupling of the first support 10, the second support 20, the bearing 50 and the shaft 40 is completed, the adjustment member 40a is coupled to the shaft 40, The first support body (20) is moved by the deformation of the turbo pump (200) at the time of heat shrinkage (40) of the turbo pump (200) 10 so that a clearance w is formed as long as the displacement length of the first and second plates 10, 10. Accordingly, the vibration generated during the operation of the turbo pump 200 is dispersed through the rotation and the first support body 10 is moved through the clearance w during the heat shrinkage 40 of the turbo pump 200, The turbo pump 200 can be supported and fixed stably by preventing the turbo pump 200 from being disengaged by dispersing the load of the heat shrinkage 40 by absorbing the turbo pump 40.

While the present invention has been particularly shown and described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And all changes and modifications to the scope of the invention.

100. Turbo-pump fixing device
10. First support
20. Secondary support
11, 21. Support
13,
30. Connecting member
31. First support member coupling portion
33. Second support member coupling portion
40. Axis
40a. Adjusting member
50. Bearing
60. Bushing
200. Turbo Pump
300. Combustor
w. Play

Claims (12)

delete A first support fixed to the turbo pump, and
A second support coupled to the first support and secured to the combustor, and
The first support and the second support are connected to each other and the first support is rotatable relative to the second support,
/ RTI >
Wherein a clearance of a predetermined length in the longitudinal direction of the shaft is formed at an engagement portion between the first support and the second support,
The predetermined length is
Wherein the displacement amount of the first support body is shifted due to deformation of the turbo pump during heat shrinkage of the turbo pump. A first support fixed to the turbo pump, and
A second support coupled to the first support and secured to the combustor, and
The first support and the second support are connected to each other and the first support is rotatable relative to the second support,
/ RTI >
Wherein a clearance of a predetermined length in the longitudinal direction of the shaft is formed at an engagement portion between the first support and the second support,
Wherein the shaft is installed inside the first support and the second support through the first support and the second support. delete A first support fixed to the turbo pump, and
A second support coupled to the first support and secured to the combustor, and
The first support and the second support are connected to each other and the first support is rotatable relative to the second support,
/ RTI >
Wherein a clearance of a predetermined length in the longitudinal direction of the shaft is formed at an engagement portion between the first support and the second support,
Wherein the shaft further comprises an adjustment member coupled to the shaft to adjust the clearance of the first support in the longitudinal direction of the shaft. A first support fixed to the turbo pump, and
A second support coupled to the first support and secured to the combustor, and
The first support and the second support are connected to each other and the first support is rotatable relative to the second support,
/ RTI >
Wherein a clearance of a predetermined length in the longitudinal direction of the shaft is formed at an engagement portion between the first support and the second support,
Wherein the first support and the second support include a support portion fixed to the turbo pump and the combustor, and a coupling portion extending from the support portion and having the shaft inserted therein. delete A first support fixed to the turbo pump, and
A second support coupled to the first support and secured to the combustor, and
The first support and the second support are connected to each other and the first support is rotatable relative to the second support,
/ RTI >
Wherein a clearance of a predetermined length in the longitudinal direction of the shaft is formed at an engagement portion between the first support and the second support,
Wherein the first support and the second support are coupled through a connecting member,
Wherein the first support and the second support are coupled to the connecting member through the shaft and are rotatable about the axis. 9. The method of claim 8,
And a bearing installed between the shaft and the connecting member for supporting the shaft and receiving a load acting on the shaft to rotate the shaft. The method of claim 9,
And a bushing installed between the shaft and the bearing and frictionally bearing the bearing. 9. The method of claim 8,
The connection member includes a first support coupling portion at one side thereof, which is coupled to the first support through the shaft, and
And a second support body coupling portion extending from the first support body coupling portion and formed on the other side and coupled with the second support body via the shaft,
Wherein the first support coupling portion and the second support coupling portion have a rotation center axis parallel to each other. 12. The method of claim 11,
Wherein the second support member coupling portion is divided into a plurality of portions extending from the first support member coupling portion and coupled to the plurality of second support members.

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