KR101862947B1 - Jig - Google Patents

Abstract

The present invention relates to a jig, comprising: a center block provided with a handle connection hole connected with a handle; a plurality of support legs arranged in a radial direction with a predetermined space from the center block; a fixing hole arranged in an exterior portion of the support leg and fixed by being bolt-fastened to a subject; and a guide portion arranged at the outside of the fixing hole in the support leg, connected to a circumferential portion of a structure mounted with the subject, and guiding movement of the support leg connected with the subject. According to the present invention, a flow sleeve for guiding flow of combustion gas in a combustor of a turbine can be easily mounted in the jig, and the size of the jig can be expanded corresponding to the flow sleeve having various diameters by turbine.

Description

JIG {JIG}

The present invention relates to a jig, and more particularly, to a flow sleeve mounting jig for guiding the flow of combustion gas in a combustor of a turbine.

Generally, a turbine is a power generating device that converts thermal energy of a fluid such as gas or steam into rotational force, which is mechanical energy, and includes a rotor (not shown) including a plurality of rotor blades and a casing which surrounds the rotor and is equipped with a plurality of diaphragms.

Here, the gas turbine includes a compressor, a combustor, and a turbine. External air is sucked and compressed by rotation of the compressor, and then sent to a combustor. Combustion is performed by mixing the compressed air and fuel in the combustor. The high-temperature and high-pressure gas generated from the combustor passes through the turbine and rotates the rotor of the turbine to drive the generator.

In the combustor, the fuel is injected into the compressed air to generate a combustion gas for driving the turbine through the back-burning process. At this time, a flow sleeve for guiding the flow of the combustion gas is disposed on a transition piece (TP) with the turbine, and the combustion gas is guided along the turbine direction through the flow sleeve.

In the past, such a flow sleeve was hooked to a crane by a worker and directly coupled to the inside of the combustor. Generally, the flow sleeve is realized as a cylindrical shape, and a plurality of cylindrical combustor coupling portions are formed radially on the casing of the gas turbine, and the flow sleeves are respectively inserted into the communication tubes.

However, since the flow sleeve is not stably supported between the mounting portions of the flow sleeves, the flow sleeves are often caused to impact the outer wall of the combustor coupling portion, and the work load of the operator is intensive because of safety intrinsic reasons.

Therefore, in the related art, there is a demand for a device that can more stably support the flow sleeve mounted on the combustor and mount the same precisely on the combustor coupling portion.

US Patent Number: 8607451

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a turbine combustor, and to provide a jig capable of expanding in size corresponding to a flow sleeve.

In order to accomplish the above objects, the present invention provides a jig for a combustor of a turbine, comprising: a center block having a handle connection hole to which a handle is connected; and a plurality of support legs And a fixing hole which is arranged on an outer side of the supporting leg and which is bolted and fixed to an object and which is connected to a peripheral portion of the structure on which the object is mounted and which is disposed outside the fixing hole on the supporting leg, And a guide part for guiding the guide part.

In the embodiment of the present invention, the guide portion is disposed on the support leg, and the guide hole formed with the female screw is machined with a male screw, and the guide bar is connected to the peripheral portion of the structure can do.

Further, in the embodiment of the present invention, a center block having a handle connection hole to which a handle is connected, a plurality of first support legs arranged in a radial direction at a predetermined interval in the center block, and a second support leg connected to the first support leg, A second support leg having bolts fastened and fixed to the object and having a fixing hole formed therein and an elastic part disposed between the first support leg and the second support leg and adjusting an interval between the first and second support legs .

In addition, in the embodiment of the present invention, the stretchable and contractible portion may include a link groove formed at an end of the first support leg and a link block formed at an end of the second support leg and inserted and arranged in the link groove.

Further, in the embodiment of the present invention, the stretchable and contractible portion is formed at the end portion of the second support leg and at least one support hole disposed at the periphery of the link groove at the end of the first support leg, And may include a support beam disposed therein.

In the embodiment of the present invention, the stretchable and contractible portion includes a motor disposed inside the link groove and a screw bar connected to a rotation shaft of the motor, the screw bar having an outer side surface formed with a male screw, And a screw hole having an arm screw engaged with the male screw.

Further, in the embodiment of the present invention, the stretchable and contractible portion may include a hydraulic device disposed inside the link groove, and a moving bar connected between the rod of the hydraulic device and the link block.

Further, in the embodiment of the present invention, it further includes a guide portion disposed on the second support leg on the outside of the fixing hole, connected to a peripheral portion of the structure to which the object is mounted, and guiding the movement of the first and second support legs connected to the object can do.

Further, in the embodiment of the present invention, the guide portion is disposed on the second support leg, and a guide hole in which the female screw is machined and a male screw are machined on the outer side surface, and a guide Bars.

According to the present invention, a guide bolt is disposed in a casing in the periphery of a combustor of a turbine, and a flow sleeve is mounted on the jig and connected to the combustor, thereby enabling more accurate and easy operation.

In addition, the support range of the jig can be extended corresponding to a flow sleeve having various diameters for each turbine, which can be supported more stably and can be used for various turbines.

This ultimately makes it possible to efficiently install the flow sleeve in the turbine combustor, thereby reducing the workload of the operator.

1 is a view showing a state where a flow sleeve is coupled to a jig of the present invention and is mounted on a combustor.
2 is a view showing a first embodiment of a jig according to the present invention.
Figure 3 is a cross-sectional view taken along the line AA 'in Figure 2;
4 is a view showing a second embodiment of the jig of the present invention.
FIG. 5 is a view showing an expanded state in the invention shown in FIG. 4; FIG.
6 is an enlarged cross-sectional view showing an example of a structure for a portion B in the invention shown in Fig. 5;
Fig. 7 is an enlarged view showing another example of the structure for the portion B in the invention shown in Fig. 5; Fig.

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

[First Embodiment]

2 is a view showing a first embodiment of a jig according to the present invention, and FIG. 3 is a cross-sectional view taken along the line AA 'in FIG. 2, and FIG. FIG.

1 to 3, a jig 100 according to the first embodiment of the present invention may include a center block 110, a support leg 120, a fixing hole 130, and a guide 140 have.

The center block 110 may be provided at the center side with a handle connection hole 112 to which the handle 160 is connected and may be provided in a disc shape as a whole. A plurality of support legs 120 may be radially arranged at a predetermined interval in the center block 110. The center block 110 and the support legs 120 support the flow sleeve 12, It can be realized with a metal material having high rigidity.

The structure of the handle 160 used by the operator or used in combination with the crane is not limited as long as the object can be stably lifted and lowered through the center block 110. [

In the embodiment of the present invention, the support legs 120 are arranged at intervals of 120 degrees. However, the support legs 120 are not limited thereto and may be formed in different angles and numbers depending on the size of the object.

The objects to which the jig 100 of the present invention is applied are not necessarily limited to the flow sleeves 12, and other objects to which the jig 100 of the present invention may be applied may be objects thereof.

The fixing hole 130 may be a part disposed on the outer side of the supporting leg 120 and may be a part that is fastened to the object by a bolt so that the object is fixedly connected to the supporting leg 120. Therefore, the fixing hole 130 may have a thread formed on its inner surface.

The guide portion 140 is disposed on the support leg 120 on the outer side of the fixing hole 130 and is disposed on the periphery of the structure to which the object is mounted, that is, the casing 11 around the combustor of the turbine in the embodiment of the present invention And may be provided to guide movement of the support leg 120 connected to the object.

The guide portion 140 may include a guide hole 142 and a guide bar 143. The guide hole 142 may be provided on the support leg 120 and the female screw may be provided on the inner side. The outer side surface of the guide bar 143 is formed with a male screw and may be connected to the guide hole 142 and the casing 11 around the periphery of the structure, that is, the combustor of the turbine.

That is, the operator guides the lowering of the support leg 120 by connecting the casing 11 and the guide hole 142 with the guide bar 143. This allows the flow sleeve 12 mounted on the support leg 120 to be stably introduced into the combustor.

Since the support leg 120 and the flow sleeve 12 are bolted to each other through the fixing hole 130, the flow sleeve 12 is prevented from being separated from the lower end of the support leg 120.

1, the flow sleeve 12 coupled to the jig 100 descends in accordance with the guide of the guide bar 143 fastened to the guide hole 142 of the casing 11, while the lower end of the flow sleeve 12 Is placed on the upper end of the communicating tube 13 of the combustor. The upper end of the flow sleeve 12 is bolted and coupled to the fastening hole 14, thereby completing the mounting.

[Second Embodiment]

FIG. 4 is a view showing a second embodiment of a jig according to the present invention, FIG. 5 is a view showing the size expansion in the invention shown in FIG. 4, FIG. 6 is a view Fig. 7 is an enlarged view showing another example of the structure for the portion B in the invention shown in Fig. 5; Fig.

4 to 7, in the second embodiment of the jig 100 according to the present invention, the center block 110, the first support leg 151, the second support leg 156, the stretchable and contractible portion 200, (140). ≪ / RTI >

The center block 110 may be provided at the center side with the connection hole 112 of the handle 160 to which the handle 160 is connected and may be provided in a disc shape as a whole. A plurality of first support legs 151 may be arranged in the radial direction at predetermined intervals in the center block 110. The second support legs 156 may be connected to the first support legs 151 And a fixing hole 130 to be fastened and fixed to an object by bolts may be formed on the outer side.

Here, the center block 110 and the first and second support legs 151 and 156 may be formed of a metal material having high rigidity to support the flow sleeve 12 as an object.

The structure of the handle 160 used by the operator or used in combination with the crane is not limited as long as the object can be stably lifted and lowered through the center block 110. [

In the embodiment of the present invention, three of the first and second support legs 151 and 156 are disposed at intervals of 120 degrees. However, the present invention is not limited thereto and may be implemented in different angles and numbers depending on the size of the object.

The object to which the jig 100 of the present invention is applied is not necessarily limited to the flow sleeve 12, and other objects to which the jig 100 of the present invention may be applied may be an object thereof.

Next, the fixing hole 130 is disposed on the outer side of the second support leg 156, and may be a portion that is fastened to the object by a bolt so that the object is fixedly connected to the second support leg 156. Therefore, the fixing hole 130 may have a thread formed on its inner surface.

The guide portion 140 is disposed on the second support leg 156 on the outside of the fixing hole 130 and is disposed at a peripheral portion of the structure to which the object is mounted, that is, in the embodiment of the present invention, And may be provided to guide movement of the first and second support legs 151 and 156 connected to the object.

The guide portion 140 may include a guide hole 142 and a guide bar 143. The guide hole 142 may be disposed in the second support leg 156, and the female screw may be provided on the inner side. The outer side surface of the guide bar 143 is formed with a male screw and may be connected to the guide hole 142 and the casing 11 around the periphery of the structure, that is, the combustor of the turbine.

That is, the operator guides the descent of the first and second support legs 151 and 156 by connecting the casing 11 and the guide hole 142 with the guide bar 143. This allows the flow sleeve 12 mounted on the second support leg 156 to be stably introduced into the combustor.

The second support leg 156 and the flow sleeve 12 are bolted to each other through the fixing hole 130 so as to prevent the flow sleeve 12 from being separated from the lowering of the first and second support legs 151 and 156 do.

The stretchable and contractible part 200 may be disposed between the first support leg 151 and the second support leg 156 and may be provided to adjust an interval between the first and second support legs 151 and 156, And enables the size change of the jig 100 to extend the support range corresponding to the various diameters of the flow sleeves 12 that differ from turbine to turbine.

The structure of this embodiment of the stretchable and contractible part 200 is shown in Fig. 6, the elastic member 200 includes a link groove 211, a link block 213, a support hole 221, a support beam 223, a motor 223, a screw bar 233 And a screw hole 235, as shown in FIG.

First, the link groove 211 may be formed by machining on the end of the first support leg 151. Although not shown in the drawings, the cross-sectional shape of the link groove 211 may be circular, square, or the like.

The link block 213 may be formed at an end of the second support leg 156 and inserted into the link groove 211. The cross-sectional shape of the link block 213 may correspond to the cross-sectional shape of the link groove 211.

Here, the support hole 221 and the support beam 223 may be provided to guide and support the movement of the link block 213 moving along the inner surface of the link groove 211.

At least one or more support holes 221 may be disposed at the periphery of the link groove 211 at the end of the first support leg 151 and the support beams 223 may be disposed on the second support legs 156, And may be inserted into and disposed in the link groove 211.

When the link block 213 moves along the link groove 211, the support beams 223 move together along the support holes 221 and relax the fatigue stress that can be caught in both directions of the link block 213 do. It also functions to stably support the moving direction of the link block 213. Therefore, the support beam 223 can be realized with a metal having high rigidity.

The motor 223 may be disposed inside the link groove 211 and the screw bar 233 may be connected to the rotation shaft of the motor 223. The outer surface of the screw bar 233 is formed with a male screw 233a which is machined on the link block 213 and has an inner screw 233a formed with an arm screw 235a, And is inserted into the hole 235.

When the motor 223 rotates in one direction, the screw bar 233 rotates together and the link block 213 moves outward from the inside of the link groove 211. As a result, the distance between the first and second support legs 151 and 156 is increased.

Conversely, when the motor 223 is rotated in the other direction, the link block 213 moves further into the link groove 211. The gap between the first and second support legs 151 and 156 is reduced.

In this way, the jig 100 of the present invention can be used corresponding to the diameter of the object of various sizes, that is, the flow sleeve 12, so that the object can be more stably supported and the application range according to the size can be widened.

The structure of another embodiment of the stretchable and contractible part 200 is shown in FIG. 7, in another embodiment of the stretchable and contractible part 200, the link groove 211, the link block 213, the support hole 221, the support beam 223, the hydraulic device 241, 243). Since the description of the link groove 211, the link block 213, the support hole 221 and the support beam 223 is the same as described above, the following description will be omitted. Hereinafter, the hydraulic device 241 and the movement bar 243 Explain it.

The hydraulic device 241 may be disposed inside the link groove 211. The rod of the hydraulic device 241 is bolted to the moving bar 243 and the moving bar 243 is coupled to the link block 213 ) May also be bolted and connected.

When the worker injects the hydraulic pressure into the hydraulic device 241, the movable bar 243 is pushed outward so that the link block 213 moves outward from the inside of the link groove 211. The distance between the first and second support legs 151 and 156 is increased.

Conversely, when the operator removes the hydraulic pressure from the hydraulic device 241, the movable bar 243 is pulled into the inside of the link groove 211, and the link block 213 is moved to the inside of the link groove 211. That is, the gap between the first and second support legs 151 and 156 is reduced.

In the case of the hydraulic device 241, it is possible to expand and contract the support range of the jig 100 corresponding to the diameter of the object of various sizes, that is, the flow sleeve 12, in the same manner as described above. This enables more stable object support.

The above matters are only specific examples of the jig.

Therefore, it should be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims. do.

100: jig 110: center block
112: handle connection hole 120: support leg
130: Fixing hole 140: Guide part
142: Guide hole 143: Guide bar
151: first support leg 156: second support leg
160: Handle 200:
211: link groove 213: link block
221: Support hole 223: Support beam
231: motor 233: screw bar
233a: male screw 235: screw hole
235a: female screw 241: hydraulic device
243: Move bar
11: casing 12: flow sleeve
13: communicating tube 14: fastening hole

Claims (9)

A center block having a handle connection hole to which a handle is connected;
A plurality of support legs arranged radially in the center block at predetermined intervals;
A fixing hole disposed at an outer side of the support leg and bolt-fastened to the combustor flow sleeve of the gas turbine; And
And a guide portion disposed on the support leg and disposed outside the fixing hole and connected to a peripheral portion of the combustor to which the flow sleeve is mounted and guiding movement of the support leg connected to the flow sleeve,
The guide portion
A guide hole disposed on the support leg and formed with an arm screw; And
A guide bar having a male screw formed on an outer surface thereof and connected to the guide hole and a peripheral portion of the combustor;
And a jig.
delete A center block having a handle connection hole to which a handle is connected;
A plurality of first support legs arranged in the radial direction at a predetermined interval in the center block;
A second support leg connected to the first support leg and having a fixing hole fixed to the combustor flow sleeve of the gas turbine by being bolted thereto;
A stretchable portion disposed between the first support leg and the second support leg to adjust an interval between the first and second support legs; And
And a guiding part which is disposed on the second support leg outside the fixing hole and is connected to a peripheral part of the combustor to which the flow sleeve is mounted and guides the movement of the first and second support legs connected to the flow sleeve,
The guide portion
A guide hole disposed on the second support leg and having an arm screw machined therein; And
A guide bar having a male screw formed on an outer surface thereof and connected to the guide hole and a peripheral portion of the combustor;
And a jig.
The method of claim 3,
The stretchable /
A link groove formed at an end of the first support leg; And
A link block formed at an end of the second support leg and inserted and disposed in the link groove;
And a jig.
5. The method of claim 4,
The stretchable /
At least one support hole disposed at a peripheral portion of the link groove at an end of the first support leg; And
A support beam formed at an end of the second support leg and inserted and disposed in the link groove;
And a jig.
5. The method of claim 4,
The stretchable /
A motor disposed inside the link groove;
A screw bar connected to a rotating shaft of the motor and having a male screw formed on an outer surface thereof; And
A screw hole formed on the link block and having an inner screw on an inner side thereof to engage with the male screw;
And a jig.
5. The method of claim 4,
The stretchable /
A hydraulic device disposed inside the link groove; And
A moving bar connected between the rod of the hydraulic device and the link block;
And a jig.



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