KR102183507B1 - Jig apparatus - Google Patents

Abstract

The present invention provides a jig device for installing a transition piece of a gas turbine combustor in a combustor casing, comprising: a support portion installed on a bottom surface on which the gas turbine is assembled; A mounting portion disposed on the upper side of the support portion, on which a transition piece is mounted, and moving the transition piece by pressing it toward the combustor casing; A fixing part disposed between the support part and the mounting part and fixing the mounting part; A rotating part disposed between the support part and the fixing part and rotating the fixing part and the mounting part up and down; And a link part seated on the upper side of the support part, the rotation part hinge-coupled to the upper end, and rotating up and down but rotating about a central axis perpendicular to the rotation center axis of the rotation part.

Description

Jig apparatus

The present invention relates to a jig device, and more particularly, to a jig device for installing a transition piece of a gas turbine combustor in a combustor casing.

Generally, a gas turbine consists of a compressor, a combustor and a turbine. In the compressor, a plurality of compressor vanes and compressor blades are alternately arranged in a compressor casing. In addition, the compressor sucks outside air through a compressor inlet scroll strut. The air sucked in this way passes through the inside of the compressor and is compressed by the compressor vanes and compressor blades.

The combustor receives compressed air compressed by the compressor and mixes it with fuel. In addition, the combustor ignites fuel mixed with compressed air with an igniter to generate high temperature and high pressure combustion gas. The combustion gas thus generated is supplied to the turbine.

In the turbine, a plurality of turbine vanes and turbine blades are alternately arranged in a turbine casing. And the turbine receives the combustion gas generated by the combustor and passes it inside. The combustion gas passing through the inside of the turbine rotates the turbine blades, and the combustion gas that has completely passed through the inside of the turbine is discharged to the outside through the turbine diffuser.

Since such a gas turbine does not have a reciprocating mechanism such as a piston of a four-stroke engine, there is no mutual friction part such as a piston-cylinder, and the consumption of lubricating oil is extremely small. Therefore, the gas turbine has an advantage that the amplitude, which is a characteristic of a reciprocating machine, is greatly reduced, and a high-speed motion is possible, thereby generating a high capacity of electric power.

On the other hand, in the gas turbine, a combustor casing is provided between the compressor and the turbine, and combustor holes are formed along the circumferential direction of the combustor casing. And the combustor is inserted into each combustor hole and mounted on the gas turbine. In one combustor casing, 14 or more combustors are usually installed. Therefore, in order to assemble such a plurality of combustors in the combustor casing more accurately, safely and more quickly, there is a need to develop a new device for installing the combustor in the combustor casing.

An object of the present invention is to provide a jig device that more accurately, safely, and more quickly mounts a transition piece of a combustor to a combustor casing, as derived from the above needs.

The present invention provides a jig device for installing a transition piece of a gas turbine combustor in a combustor casing, comprising: a support portion installed on a bottom surface on which the gas turbine is assembled; A mounting portion disposed on the upper side of the support portion, on which a transition piece is mounted, and moving the transition piece by pressing it toward the combustor casing; A fixing part disposed between the support part and the mounting part and fixing the mounting part; A rotating part disposed between the support part and the fixing part and rotating the fixing part and the mounting part up and down; And a link part seated on the upper side of the support part, the rotation part hinge-coupled to the upper end, and rotating up and down but rotating about a central axis perpendicular to the rotation center axis of the rotation part.

The support includes a main support member seated on the bottom surface, and a rotation support member seated on the upper side of the main support member, the link unit seated on the upper surface, and rotating the link unit with the vertical direction as a central axis. do.

The link part includes a link support seated on the support part, a lower end hingedly coupled to an upper end of the link support, an upper link hingedly coupled to the rotating part, and disposed under the upper link, and a lower end of the link support. It is hinged to the link support and includes a lower link whose upper end is hingedly coupled to the rotating part.

The link support is provided in a pair arranged to be spaced apart from each other, and the upper link and the lower link are hingedly coupled to the pair of link supports, with a lower end interposed between the pair of link supports. .

The upper link includes an upper link body and a pair of first upper protrusions protruding from an upper end of the upper link body, disposed to be spaced apart from each other, and hinged to the rotating part, and protruding from the lower end of the upper link body, It is disposed to be spaced apart from each other, and includes a pair of second upper protrusions hinged to the upper end of the link support.

The rotating part is installed on a side of the rotating plate on which the upper link of the upper link is hinge-coupled to the upper end and the upper end of the lower link is hinge-coupled to the lower end of the rotating plate, and is perpendicular to the rotating plate. A rotating cylinder arranged to be, a main rotating means installed on a side of the rotating plate on the side where the link part is arranged, and rotating the rotating cylinder with the longitudinal direction of the rotating cylinder as a central axis, and an end of the rotating cylinder It is fixed to, is coupled to the fixing part, and includes an auxiliary rotation structure for rotating the fixing part with a direction perpendicular to the longitudinal direction of the rotation cylinder as a central axis.

The upper link includes a pair of first upper protrusions disposed to be spaced apart from each other, and the rotating plate is interposed between the pair of first upper protrusions, and an upper end of the pair of first upper protrusions Each hinge is coupled, and the main rotating means is interposed between the pair of first upper protrusions.

The auxiliary rotation structure is coupled to the rotation cylinder, a first parallel plate disposed parallel to the rotation plate, and a first vertical plate coupled to the first parallel plate and disposed perpendicular to the first parallel plate And, a second parallel plate coupled to the fixing unit and disposed to be spaced apart from the first parallel plate, and disposed parallel to the first parallel plate, and coupled to the second parallel plate, and the first vertical plate A second vertical plate disposed to be spaced apart from and parallel to the first vertical plate, and interposed between the first vertical plate and the second vertical plate, and the first vertical plate and the second number It includes auxiliary rotating means for rotating the second vertical plate with the spaced apart direction of the direct plate as a central axis.

The fixing part includes a main fixing member coupled to an end of the rotating part, and an auxiliary fixing member having one end installed on the main fixing member and fixing the mounting part to the other end.

The main fixing member includes a parallel fixing plate to which the auxiliary fixing member is fixed, and a vertical fixing plate disposed to be perpendicular to the parallel fixing plate, and to which an end of the rotating part is coupled.

The auxiliary fixing member, a ring-shaped first fixing ring installed on the main fixing member, and arranged parallel to the first fixing ring, arranged to be spaced apart from the first fixing ring, and a ring on which the mounting portion is mounted It is disposed between the second fixing ring of the shape, the first fixing ring and the second fixing ring, arranged to be perpendicular to the first fixing ring, and spaced apart from each other along the circumferential direction of the first fixing ring. It includes a plurality of auxiliary fixing bars arranged.

The mounting portion, a rotating mounting means installed in the fixed portion, and installed in the rotating mounting means, the transition piece is aligned in the front-rear direction based on the direction in which the combustor casing is mounted, and the front end is inside the transition piece. A rotation pressing means disposed, and a transition piece mounting means disposed between the rotation mounting means and the transition piece, through which the rotation pressing means penetrates, fixed to the transition piece, and moving along the longitudinal direction of the rotation pressing means , And a mounting motor installed at the rear of the rotating mounting means.

The transition piece mounting means is installed in a radial direction of the transition piece mounting ring and the transition piece mounting ring, and is disposed to be spaced apart from each other along the circumferential direction of the transition piece mounting ring, and one end of the transition piece mounting ring A plurality of transition piece mounting frames are installed on the inner circumferential surface and the other end faces the center of the transition piece mounting ring, and are respectively disposed between one end of the transition piece mounting ring and the plurality of transition piece mounting frames. It is disposed to be in contact with the inner circumferential surface and includes a plurality of transition piece pressing body for pressing the transition piece radially outward.

The transition piece mounting means is disposed between the transition piece mounting ring and the plurality of transition piece pressing bodies, respectively, coupled to the inner circumferential surface of the transition piece mounting ring, and a plurality of outer circumferential pressure members seated on the outer circumferential surface of the transition piece It further includes, wherein the transition piece pressing body is installed on the inner side of the outer circumferential pressure member, an inner circumferential pressure member seated on the inner circumferential surface of the transition piece to press the transition piece radially outward, and the transition piece mounting frame A spring mounting pin fixedly disposed on the inner circumferential surface, a radial spring mounted on the spring mounting pin and pressing the inner circumferential pressure member outward, and a hinge coupling to the outer end of the spring mounting pin And it includes a pressing lever that rotates to press the inner circumferential pressing member inward.

The inner circumferential pressing member includes a pressing pad seated on the inner circumferential surface of the transition piece, and a frame inserting member coupled to the inside of the pressing pad and inserted into the transition piece mounting frame, and the spring mounting pin, the It is installed to pass through the frame insertion member, the inner end is formed in a plate shape, and the radial spring is installed so as to contact the inside of the frame insertion member, and is disposed so as to surround the spring mounting pin, and the inner end of the spring mounting pin Settled in.

The transition piece mounting frame is disposed so as to be spaced apart from each other in a direction perpendicular to the direction in which the transition piece is inserted into the combustor and perpendicular to the radial direction of the transition piece mounting ring, and one end is coupled to the outer peripheral surface pressing member and the other end And a pair of spaced holding members disposed to face the center of the transition piece holding ring, and an auxiliary seating plate interposed between the pair of spaced holding members, and the spring seating pin is the auxiliary seating plate It is fixed to the auxiliary seating plate through through.

The inner circumferential pressing member has an inner end interposed between the pair of spaced members, and the pair of spaced holding members has a slot formed along the radial direction of the transition piece mounting ring, and the transition piece pressing body Is fixed to the inner circumferential pressing member through each of the slots of the pair of spaced holding members, is disposed to be spaced apart from each other along the radial direction of the transition piece mounting ring, and moves along the slot while the inner circumferential pressing member It further includes a plurality of anti-rotation pins for guiding the movement of.

The rotational pressing means is installed so as to penetrate the center of the transition piece mounting means, a thread is formed on an outer circumferential surface, one end is installed on the mounting motor, and pressurizes the transition piece mounting means as it rotates by the mounting motor. And a rotational compression to be moved by the rotational compression, disposed outside the radial direction of the rotational compression, and aligned along the longitudinal direction of the rotational compression, and one end is coupled to the rotational mounting means, and is installed to pass through the transition piece mounting means. And a plurality of rotation guide sticks for guiding the movement of the transition piece mounting means, and a shaft connecting member on which the other ends of the plurality of rotation guide sticks are mounted.

The jig device is installed at a front end of the rotary pressing means, further comprising an eccentricity measuring structure for measuring whether the transition piece is eccentric, the eccentricity measuring structure is coupled to the front end of the rotary pressing, An eccentricity measuring shaft disposed on the same line as the rotational compression shaft, and a transition piece are mounted on the combustor casing, and the transition piece mounting means is installed on the eccentricity measuring shaft after being separated from the combustor casing, and along the circumferential direction of the eccentricity measuring shaft. It is installed to be rotatable, and includes an eccentricity measuring means for measuring whether the transition piece is eccentric with respect to the eccentricity measuring shaft.

The eccentricity measuring means is coupled to the eccentricity measuring shaft so as to surround the outer circumferential surface of the eccentricity measuring shaft, the first eccentric fixing member rotating along the circumferential direction of the eccentricity measuring shaft, and disposed outside the first eccentric fixing member, , An eccentric probe whose end is in contact with the inner circumferential surface of the transition piece, and an eccentric gauge disposed between the first eccentric fixing member and the eccentric probe, and displaying a pressure applied to the eccentric probe.

The eccentricity measuring means is coupled to the first eccentricity fixing member, arranged to form orthogonal to the eccentricity measuring shaft, and a first auxiliary eccentric shaft rotating back and forth around a position coupled to the first eccentricity fixing member, A second eccentric fixing member installed on the first auxiliary eccentric shaft so as to be movable along the longitudinal direction of the first auxiliary eccentric shaft, and installed on the second eccentric fixing member, the eccentricity measuring shaft and the first auxiliary eccentric shaft It further comprises a second auxiliary eccentric shaft disposed so as to form orthogonal to, and a third eccentric fixing member installed on the second auxiliary eccentric shaft, the eccentric gauge is installed, and the eccentric probe is coupled to the end.

According to the jig device according to the present invention, in a state in which the position of the transition piece is adjusted by operating the support unit, the link unit is operated to adjust the vertical height of the transition piece, and the rotation unit is operated to adjust the mounting angle of the transition piece By attaching the transition piece to the combustor casing through the mounting portion, the transition piece can be mounted more accurately, safely and more quickly in the combustor casing. In addition, according to the jig device according to the present invention, after the transition piece is mounted on the combustor casing, the transition piece is compared to the combustor casing by measuring whether the transition piece is eccentric with respect to the eccentricity measuring shaft using the eccentricity measuring means of the mounting portion. In addition to being able to accurately mount, it is possible to more easily check the mounting result of the gas turbine combustor.

1 is a cross-sectional view of a gas turbine.
2 is an enlarged view of the combustor shown in FIG. 1.
3 is a perspective view of a jig device according to the present invention.
4 is a left side view of the jig device shown in FIG. 3.
5 is a perspective view showing a state in which the jig device shown in FIG. 3 attaches a transition piece to a combustor casing.
6 is an exploded perspective view of the mounting portion shown in FIG. 3.
7 is a perspective view of the transition piece mounting means shown in FIG. 6.
8 and 9 are enlarged views showing the operation of the transition piece pressing body shown in FIG. 7.
10 is a perspective view of the eccentricity measuring means shown in FIG. 6.
11 is a perspective view showing a state in which the transition piece is pressed toward the combustor casing as the transition piece mounting means shown in FIG. 6 advances.
12 is a perspective view showing a state in which a transition piece is mounted on a combustor casing, and after the transition piece mounting means is moved backward and separated from the combustor casing, an eccentricity measuring means is installed on the eccentricity measuring shaft to measure whether the transition piece is eccentric .

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those of ordinary skill in the art will appreciate that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

Hereinafter, before describing the jig device according to the present invention, a gas turbine and a combustor will be described in detail with reference to FIGS. 1 and 2.

Referring to FIG. 1, a gas turbine 1 includes a compressor 2, a combustor 10 and a turbine 3. Based on the flow direction of gas (compressed air or combustion gas), the compressor 2 is disposed on the upstream side of the gas turbine 1 and the turbine 3 is disposed on the downstream side. And a combustor 10 is disposed between the compressor 2 and the turbine 3.

The compressor 2 accommodates a compressor vane and a compressor rotor inside the compressor casing, and the turbine 3 houses a turbine vane and a turbine rotor inside the turbine casing. The compressor vane and the compressor rotor are arranged in multi-stage along the flow direction of compressed air, and the turbine vane and turbine rotor are also arranged in multiple stages along the flow direction of the combustion gas. At this time, the internal space of the compressor decreases from the front-stage to the rear-stage so that the inhaled air can be compressed. It is designed with a structure that increases the internal space.

On the other hand, between the compressor rotor located at the rear end side of the compressor and the turbine rotor located at the front end side of the turbine, a torque tube serving as a torque transmission member for transmitting rotational torque generated by the turbine to the compressor is disposed. As shown in FIG. 1, the torque tube may be composed of a plurality of torque tube disks having a total of three stages, but this is only one of several embodiments of the present invention, and the torque tube is four or more stages or It may be composed of a plurality of torque tube disks consisting of two or less stages.

The compressor rotor includes a compressor disk and a compressor blade. A plurality of compressor disks (for example, 14 sheets) are provided inside the compressor casing, and each of the compressor disks is fastened so as not to be spaced apart in the axial direction by a tie rod. More specifically, each of the compressor disks is aligned along the axial direction with each other with a central portion penetrated by the tie rod. Further, each of the adjacent compressor disks is disposed so that opposite surfaces are pressed by the tie rods so that they cannot rotate relative to each other.

A plurality of compressor blades are radially coupled to the outer peripheral surface of the compressor disk. In addition, between the compressor blades, a plurality of compressor vanes annularly installed on the inner circumferential surface of the compressor casing when the same stage is referenced are respectively disposed. Unlike the compressor disk, the compressor vane maintains a fixed state so as not to rotate, and serves to guide the compressed air to the compressor blade located on the downstream side by aligning the flow of compressed air passing through the compressor blade. In this case, the compressor casing and the compressor vane may be defined as a generic name of a compressor stator in order to distinguish them from the compressor rotor.

The tie rod is disposed so as to pass through the center of the plurality of compressor disks and the turbine disk to be described later, one end is fastened in the compressor disk located at the foremost end of the compressor, and the other end is fastened by a fixing nut. do.

Since the shape of the tie rod may be formed in various structures depending on the gas turbine, it is not necessarily limited to the shape shown in FIG. 1. That is, as shown, one tie rod may pass through the central portion of the compressor disk and the turbine disk, or may have a form in which a plurality of tie rods are arranged in a circumferential shape, or a mixture of these may be used.

Although not shown, a Desworler serving as a guide blade may be installed in the compressor of the gas turbine to adjust the flow angle of the fluid entering the combustor inlet to the design flow angle after increasing the pressure of the fluid.

The combustor 10 mixes and combusts the introduced compressed air with fuel to produce high-energy, high-temperature, high-pressure combustion gas, and the temperature of the combustion gas is adjusted to the heat resistance limit that the combustor and turbine parts can withstand through the isostatic combustion process. It is raised.

Referring to FIG. 2, a number of combustors 10 constituting the combustion system of the gas turbine may be arranged in a combustor casing 11 formed in a cell shape, and a combustor in which a nozzle for injecting fuel is installed. It includes a head 12, a liner 13 forming a combustion chamber, and a transition piece 14 serving as a connection part between the combustor and the turbine.

Specifically, the liner 13 provides a combustion space in which fuel injected by a fuel nozzle is mixed with compressed air of a compressor and burned. The liner 13 has a combustion chamber providing a combustion space in which fuel mixed with air is combusted, and a liner annular flow path forming an annular space while surrounding the combustion chamber. In addition, a nozzle for injecting fuel is coupled to the front end of the liner, and an igniter is coupled to the sidewall.

In the liner annular flow path, compressed air introduced through a plurality of holes provided in the outer wall of the liner flows, and compressed air that has cooled the transition piece to be described later also flows through it. As the compressed air flows along the outer wall of the liner, it is possible to prevent the liner from being thermally damaged by heat generated by combustion of fuel in the combustion chamber.

At the rear end of the liner, a transition piece 14 is connected to send the combustion gas burned by the spark plug to the turbine side. Like the liner, the transition piece 14 has a transition piece annular flow path surrounding the inner space of the transition piece 14, and along the transition piece annular flow path to prevent damage due to high temperature of the combustion gas. The outer wall is cooled by flowing compressed air.

Meanwhile, the high temperature and high pressure combustion gas from the combustor is supplied to the above-described turbine. The high-temperature and high-pressure combustion gas supplied to the turbine expands while passing through the inside of the turbine, thereby applying impulsive and reaction forces to the turbine blades to be described later to generate rotational torque. The rotation torque thus obtained is transmitted to the compressor through the torque tube described above, and a portion exceeding the power required for driving the compressor is used to drive a generator or the like.

The turbine is basically similar to the structure of a compressor. That is, the turbine is also provided with a plurality of turbine rotors similar to the compressor rotor of the compressor. Accordingly, the turbine rotor also includes a turbine disk and a plurality of turbine blades disposed radially therefrom. Between the turbine blades, a plurality of turbine vanes are annularly installed in the turbine casing when the same stage is referenced, and the turbine vanes guide the flow direction of the combustion gas passing through the turbine blades. In this case, the turbine casing and the turbine vane may also be defined as a generic name of a turbine stator in order to distinguish them from the turbine rotor.

Hereinafter, a jig device 1000 according to the present invention will be described in detail with reference to FIGS. 3 to 12. At this time, for convenience of explanation, the direction away from the floor surface (not shown) of the work space in which the gas turbine 1 is assembled is referred to as the upper side, and the direction closer to the floor in the vertical direction is the lower side. It is defined as And, of the horizontal directions parallel to the bottom surface, the horizontal direction in the state in which the combustor casing 11 is viewed from the jig device 1000 is defined as a horizontal direction. The direction in which the transition piece 14 is mounted on the combustor casing 11 is defined as a front, and a direction in which the transition piece 14 is away from the combustor casing 11 is defined as a rear.

Meanwhile, the expressions “left” and “right” which will appear hereinafter are merely for describing the arrangement relationship of the present invention more easily based on FIGS. 3 to 12, and are not limited thereto. Therefore, it will be understood that the jig device 1000 according to the present invention can be designed so that the left and right are inverted.

3 to 5, the jig device 1000 according to the present invention is to install the transition piece 14 in the combustor casing 11, the support portion 1100, the link portion 1200, the rotation portion 1300 ), including a fixing portion 1400 and a mounting portion 1500.

The support part 1100 is installed on a bottom surface on which the gas turbine 1 is assembled, and includes a main support member 1110 and a rotation support member 1120. The main support member 1110 is seated on the bottom surface and is formed in a cube shape. The main support member 1110 includes the link part 1200, the rotation part 1300, the fixing part 1400, and the mounting part 1500 installed on the upper side, the link part 1200, the rotation part (1300), supports the fixing part 1400 and the mounting part 1500. The rotation support member 1120 is mounted on the upper side of the main support member 1110. And the rotation support member 1120, a pair of link support 1210 of the link portion 1200 to be described later is mounted on the upper surface. The rotation support member 1120 rotates the pair of link supports 1210 in a clockwise or counterclockwise direction when viewed from an upper side. That is, the rotation support member 1120 rotates the link support 1210 with the vertical direction as a central axis. Accordingly, the link part 1200 rotates in a direction parallel to the bottom surface on the support part 1100.

The link unit 1200 is rotatably supported by the support unit 1100 and includes a pair of link supporters 1210, an upper link 1220, and a lower link 1230. The pair of link supports 1210 are mounted on the rotation support member 1120 and are disposed to be spaced apart from each other. The upper link 1220 has a lower end interposed between the pair of link supports 1210 and is hinged to the upper end of the pair of link supports 1210, respectively. In addition, the upper link 1220 is hinged to an upper portion of the rotating plate 1310 of the rotating part 1300 to be described later.

The upper link 1220 includes an upper link body 1221, a pair of first upper protrusions 1222, and a pair of second upper protrusions 1223. The pair of first upper protrusions 1222 are formed to protrude from the upper end of the upper link body 1221, and are disposed to be spaced apart from each other along a spaced direction of the pair of link supports 1210. In addition, the pair of first upper protrusions 1222 have an upper end hinged to an upper end of the rotating plate 1310 of the rotating part 1300. The pair of second upper protrusions 1223 are formed to protrude from the lower end of the upper link body 1221, and are arranged to be spaced apart from each other along the spaced direction of the pair of link supports 1210. And, the pair of second upper protrusions 1223, the lower end is hinged to the upper end of the pair of link supports 1210, respectively.

The lower link 1230 is disposed under the upper link 1220. And the lower link 1230, the lower end is interposed between the pair of link supports 1210, each hinge-coupled to the lower end of the pair of link supports 1210, the upper end of the rotating part 1300 It is hinged to the lower end of the rotating plate 1310 of. The lower link 1230 includes a lower link body 1231, a pair of first lower protrusions 1232, and a pair of second lower protrusions 1233. The pair of first lower protrusions 1232 are formed to protrude from the upper end of the lower link body 1231 and are arranged to be spaced apart from each other along the spaced direction of the pair of link supports 1210. In addition, the pair of first lower protrusions 1232 has an upper end hinged to a lower end of the rotating plate 1310 of the rotating part 1300. The pair of second lower protrusions 1233 are formed to protrude from the lower end of the lower link body 1231 and are disposed to be spaced apart from each other along the spaced direction of the pair of link supports 1210. In addition, the pair of second lower protrusions 1233 has a lower end hinged to the lower end of the pair of link supports 1210, respectively.

When the link unit 1200 is designed with such a structure, the link support 1210, the upper link 1220, the rotating plate 1310, and the lower link 1230 have a structure of a four-fold link as a whole. Is shown. Therefore, when the upper link 1220 rotates upward based on the link support 1210, the rotary plate 1310 coupled to the upper end of the upper link 1220 also moves upward, and the rotary plate 1310 The lower link 1230 coupled to the lower end of) is also rotated upward based on the link support 1210. Of course, when the upper link 1220 rotates downward, the rotating plate 1310 and the lower link 1230 also move downward, and the lower link 1230 is not the upper link 1220 Alternatively, even when moving downward, the upper link 1220 and the rotating plate 1310 move upward or downward together with the lower link 1230. Through this, the link unit 1200 adjusts the height of the rotating unit 1300, the fixing unit 1400, the mounting unit 1500, and the transition piece 14. Meanwhile, although not shown in FIGS. 3 to 5, a separate driving means (not shown) for driving the upper link 1220 or the lower link 1230 is provided in the pair of link supports 1210. Can be installed.

The rotating part 1300 is installed on the upper end of the link part 1200 and moves up and down as the upper link 1220 or the lower link 1230 rotates up and down. In addition, the rotating part 1300 rotates the fixing part 1400 and the mounting part 1500 up and down to adjust the mounting angle of the transition piece 14 fixed to the mounting part 1500. At this time, the rotation center axis of the rotation unit 1300 is perpendicular to the rotation center axis of the link unit 1200. That is, the upper link 1220 and the lower link 1230 rotate up and down with respect to the pair of link supports 1210 while the lower end is coupled to the pair of link supports 1210 , The rotation cylinder 1320 of the rotation unit 1300, which will be described later, rotates in a state arranged to be vertical with respect to a central axis that is a reference for rotation of the upper link 1220 and the lower link 1230. .

The rotating part 1300 includes a rotating plate 1310, a rotating cylinder 1320, a main rotating means 1330 and an auxiliary rotating structure 1340. The rotating plate 1310 is formed in a plate shape, and is interposed between the pair of first upper protrusions 1222 and the pair of first lower protrusions 1232. At this time, the rotating plate 1310 has rotation protrusions 1311 formed on both sides of the upper and lower sides of the rotating plate 1310 to protrude toward the rotating part 1300. And the pair of first upper protrusions 1222 are hinge-coupled to an upper one of the plurality of rotary protrusions 1311, respectively, and the pair of first lower protrusions 1232 are each of the plurality of rotary protrusions (1311) It is hinged to the lower one. The rotation cylinder 1320 is installed on a side of the rotation plate 1310 on which the link portion 1200 is not disposed, and is disposed to be perpendicular to the rotation plate 1310. The main rotation means 1330 is installed on the side of the rotation plate 1310 on which the link part 1200 is disposed, and the rotation cylinder 1320 is positioned in the longitudinal direction of the rotation cylinder 1320 To rotate.

Here, the central axis in which the link unit 1200 rotates by the rotation support member 1120 and the upper link 1220 or the lower link 1230 rotates by a separate driving means (not shown) The central axes are orthogonal to each other. In addition, a central axis on which the upper link 1220 or the lower link 1230 rotates by a separate driving means (not shown), and the rotation cylinder 1320 rotates by the main rotation means 1330 Each of the central axes is orthogonal. However, the rotation plate 1310 may or may not be disposed to be perpendicular to the bottom surface as it rotates vertically by the link unit 1200. Therefore, a central axis in which the link unit 1200 rotates by the rotation support member 1120 and a central axis in which the rotation cylinder 1320 rotates by the main rotating means 1330 may be orthogonal to each other. Maybe not.

The auxiliary rotating structure 1340 is fixedly installed at an end of the rotating cylinder 1320 on the side of the fixing part 1400 and coupled to the fixing part 1400. And the auxiliary rotation structure 1340, the longitudinal direction of the rotation cylinder 1320 of the rotation cylinder 1320, that is, a direction perpendicular to the central axis of the rotation cylinder 1320 as a central axis, the high The top (1400) and the mounting portion (1500) are rotated. At this time, since the auxiliary rotation structure 1340 rotates at the end of the rotation cylinder 1320, the rotation center axis of the auxiliary rotation structure 1340 is the link part 1200 by the rotation support member 1120 ) May or may not coincide with the axis of rotation.

The auxiliary rotating structure 1340 includes a first parallel plate 1341, a first vertical plate 1342, a second parallel plate 1343, a second vertical plate 1344, and an auxiliary rotating means 1345. . The first parallel plate 1341 is coupled to the rotation cylinder 1320 and is disposed parallel to the rotation plate 1310. The first vertical plate 1342 is coupled to the first parallel plate 1341 and is disposed to be perpendicular to the first parallel plate 1341. The second parallel plate 1343 is coupled to the vertical fixing plate 1412 of the fixing part 1400 to be described later, and is disposed to be spaced apart from the first parallel plate 1341, and the first parallel plate 1341 Are placed parallel to. The second vertical plate 1344 is coupled to the second parallel plate 1343, is disposed to be spaced apart from the first vertical plate 1342, and is disposed to be parallel to the first vertical plate 1342 . The auxiliary rotating means (1345) is interposed between the first vertical plate (1342) and the second vertical plate (1344), the first vertical plate (1342) and the second vertical plate (1344) The second vertical plate 1344 is rotated with the spaced apart direction as a central axis. When the rotating part 1300 is designed with such a structure, the rotating cylinder 1320 is rotated through the main rotating means 1330 to primarily adjust the mounting angle of the transition piece 14, and then the It is possible to secondaryly adjust the mounting angle of the transition piece 14 through the auxiliary rotating means (1345). Therefore, the jig device 1000 according to the present invention can more precisely adjust the mounting angle of the transition piece 14 through the rotating part 1300.

The fixing part 1400 is to fix the mounting part 1500 to the rotating part 1300 and includes a main fixing member 1410 and an auxiliary fixing member 1420. The main fixing member 1410 is coupled to an end portion of the rotating part 1300 and includes a parallel fixing plate 1411 and a vertical fixing plate 1412. The parallel fixing plate 1411 is fixed to the auxiliary fixing member 1420. The vertical fixing plate 1412 is disposed to be perpendicular to the parallel fixing plate 1411, and the second parallel fixing plate 1343 is coupled.

The auxiliary fixing member 1420 has one end installed on the vertical fixing plate 1412, and the mounting part 1500 is fixed to the other end. The auxiliary fixing member 1420 includes a first fixing ring 1421, a second fixing ring 1422, and a plurality of auxiliary fixing bars 1423. The first fixing ring 1421 is formed in a ring shape, and is coupled and fixed to the vertical fixing plate 1412. The second fixing ring 1422 is formed in a ring shape, and is disposed to be spaced apart from the first fixing ring 1421, and the mounting portion 1500 is mounted thereon. The plurality of auxiliary fixing bars 1423 are disposed between the first fixing ring 1421 and the second fixing ring 1422, and arranged to be perpendicular to the first fixing ring 1421. In addition, the plurality of auxiliary fixing bars 1423 are disposed to be spaced apart from each other along the circumferential direction of the first fixing ring 1421.

Referring to Figure 6, the mounting portion 1500, a transition piece 14 is mounted, as to move the transition piece 14 by pressing toward the combustor casing 11, the rotation mounting means 1510, the transition piece It includes a mounting means (1520), a rotary pressing means (1530) and a mounting motor (1540).

The rotation holding means 1510 is installed on the front side of the second fixing ring 1422 and includes a rotation holding ring 1511 and a plurality of rotation holding bars 1512. The rotation support ring 1511 is formed in a ring shape, and is coupled to the front surface of the second fixing ring 1422. The plurality of rotation holder bars 1512 are installed radially inside the rotation holder ring 1511. And the plurality of rotation holding bars (1512), one end is coupled to the inner circumferential surface of the rotation holding ring (1511) and the other end is arranged to face the center of the rotation holding ring (1511), the rotation holding ring (1511) It can be arranged to be spaced apart from each other along the circumferential direction of. In this case, the plurality of rotation cradle bars 1512 may have a distance of 90 degrees apart from each other. Accordingly, the plurality of rotation cradle bars 1512 may be arranged in a cross shape as a whole, as shown in FIG. 6.

Referring to FIG. 7, the transition piece mounting means 1520 is disposed in front of the rotation mounting means 1510 and coupled to the transition piece 14, and moves back and forth along the rotation pressing means 1530. , A transition piece mounting ring 1521, a plurality of transition piece mounting frames 1522, a central hollow member 1523, a plurality of outer circumferential pressure members 1524, and a plurality of transition piece pressing bodies 1525. The transition piece mounting ring 1521 is formed in a ring shape, and is disposed to be concentric with the rotation mounting ring 1511. The plurality of transition piece mounting frames 1522 are installed radially inside the transition piece mounting ring 1522, and are disposed to be spaced apart from each other along the circumferential direction of the transition piece mounting ring 1522. In addition, the plurality of transition piece mounting frames 1522 are disposed such that one end is installed on the inner circumferential surface of the transition piece mounting ring 1521 and the other end faces the center of the transition piece mounting ring 1521. The central hollow member 1523 is formed in a hollow pipe shape, and is arranged such that the central axis is aligned in the front-rear direction. And the central hollow member (1523) is disposed at the other end of the plurality of transition piece mounting frame (1522), each other end of the plurality of transition piece mounting frame (1522) is the outer peripheral surface of the central hollow member (1523) Is bound to

7 and 9, the transition piece mounting frame 1522 includes a pair of spaced mounting members 1550, an auxiliary mounting plate 1551, and an auxiliary hollow member 1552. The pair of spaced mounting members 1550 is perpendicular to the radial direction of the transition piece mounting ring 1521 and at the same time, a direction perpendicular to the direction in which the transition piece 14 is mounted on the combustor casing 11 Are arranged to be spaced apart from each other. The spaced holding member 1550 includes a spaced holding body 1153, a spaced protruding piece 1554, and a spaced bent piece 1555. The spaced cradle body 1535 has an inner end of the transition piece mounting ring 1521 as a reference to the outer peripheral surface of the central hollow member 1523. A slot 1553a is formed along the radial direction of the transition piece mounting ring 1521 at the front side of the side surface. The spacing protrusion piece 1554 is, among the outer ends of the spacing cradle main body 1553 when the transition piece mounting ring 1521 is a radial direction as a reference, at the rear side of the spacing cradle main body 1535 It is formed to protrude toward the transition piece mounting ring 1521. The spaced bent piece 1555 is formed to be bent from the outer end of the spaced protruding piece 1554 toward the front side. Further, the spaced bent piece is coupled to the rear surface of the transition piece mounting ring 1521, and is seated and coupled to the outer surface of the outer peripheral surface pressing member 1524. The auxiliary seating plate 1551 is disposed between the pair of spaced holding members 1550 to be perpendicular to the pair of spaced holding members 1550. The auxiliary hollow member 1552 has a hollow cylindrical shape, and is disposed so that the central axis is aligned in the front-rear direction, and is interposed between the pair of spaced holding members 1550. Further, the auxiliary hollow member 1552 is interposed between the auxiliary seating plate 1551 and the central hollow member 1523.

The plurality of outer circumferential pressure members 1524 are interposed between the pair of spaced apart mounting members 1550 and the transition piece mounting ring 1521, and are coupled to an inner circumferential surface of the transition piece mounting ring 1521. Further, the outer circumferential pressure member 1524 is formed to have a curved inner surface corresponding to the shape of the outer circumferential surface of the transition piece 14, and is seated on the outer circumferential surface of the transition piece 14. The outer circumferential pressure member 1524 is formed in a plate shape that protrudes further back and forth, based on the transition piece mounting ring 1521. In addition, the spaced bent piece 1555 of the spaced holding member 1550 is seated and coupled to the outer surface of the outer circumferential pressing member 1524 protruding back and forth as described above.

The plurality of transition piece pressing bodies 1525 are interposed between the transition piece mounting ring 1521 and the plurality of outer circumferential pressing members 1524, respectively. And the plurality of transition piece pressing body 1525, by selectively pressing the inner circumferential surface of the transition piece 14, the transition piece mounting means 1520 is coupled to the transition piece 14 so that it can be fixed. The transition piece pressing body 1525 includes an inner circumferential pressing member 1560, an anti-rotation pin 1561, a spring seating pin 1562, a radial spring 1563, and a pressing lever 1564. The inner circumferential pressing member 1560 includes a pressing pad 1565, a frame inserting member 1566, and an auxiliary seating protrusion 1567. The pressing pad 1565 is installed inside the outer circumferential pressing member 1524, and is formed to extend back and forth with respect to the transition piece mounting ring 1521 in correspondence with the shape of the outer circumferential pressing member 1524. Further, the pressing pad 1565 is formed in a curved shape so that the outer surface corresponds to the shape of the inner circumferential surface of the transition piece 14, and is selectively seated on the inner circumferential surface of the transition piece 14. The frame inserting member 1566 is coupled to the inside of the pressing pad 1565, and is inserted between the pair of spaced cradle bodies 1535. And the frame inserting member 1566 is installed in front of the auxiliary seating plate 1551. The auxiliary seating protrusion piece 1567 is formed to protrude rearward from the frame inserting member 1566. And the auxiliary seating protrusion piece 1567 is disposed inside the auxiliary seating plate 1551.

The rotation preventing pin 1561 is inserted into the slot 1553a and penetrates the frame insertion member 1566. In this case, the rotation preventing pins 1561 are provided in plural, and are disposed along the radial direction of the transition piece mounting ring 1521. And, based on the radial direction of the transition piece mounting ring (1521), the length of the slot (1553a) is formed, the outer point of the outermost anti-rotation pin (1561) and the innermost rotation prevention It is formed longer than the length of the line segment connecting the inner points of the pin 1561. Therefore, the plurality of anti-rotation pins 1561 are installed to be movable along the longitudinal direction of the slot 1153a, so that the inner circumferential pressure member 1560 can move along the radial direction of the transition piece mounting ring 1521. In addition, when the inner circumferential pressing member 1560 is pressed inward by the pressing lever 1564 disposed at the rear of the plurality of rotation preventing pins 1561, the inner circumferential pressing member 1560 Does not rotate forward, it is possible to move in a linear direction toward the center portion of the transition piece mounting ring (1521).

The spring seating pin 1562 is penetrated so as to be perpendicular to the auxiliary seating plate 1551 and the auxiliary seating protrusion piece 1567. At this time, the spring mounting pin 1562 is installed so as to be fixed to the auxiliary mounting plate 1551, the auxiliary mounting protrusion piece 1567 is not fixed to the spring mounting pin 1562, the spring mounting pin 1562 It is installed to be movable along the longitudinal direction of. In addition, the spring mounting plate 1562 has an inner end portion formed in a plate shape. The radial spring 1563 is disposed to surround the spring mounting pin 1562. In addition, the radial spring 1563 is disposed such that an outer end thereof is in contact with the inner surface of the auxiliary seating protrusion piece 1567, and the inner end of the radial spring 1563 is disposed so as to contact the inner end of the spring seating pin 1562. Since the spring mounting pin 1562 is arranged to be fixed to the auxiliary mounting plate 1551, the radial spring 1563 is the auxiliary mounting protrusion piece 1567 based on the inner end of the spring mounting pin 1562 ) Is pressed radially outward. In this case, as the inner circumferential pressure member 1560 is in close contact with the inner circumferential surface of the transition piece 14, the transition piece mounting means 1520 is fixed to the transition piece 14. The pressing lever 1564 is hinged to an outer end of the spring mounting pin 1562, and a front end thereof is coupled to the frame inserting member 1566. And the pressing lever 1564, as it rotates outward, moves the inner circumferential pressing member 1560 inward.

When the operation of the transition piece pressing member 1525 is described with reference to FIGS. 8 and 9, when the transition piece 14 is not disposed between the outer circumferential pressing member 1524 and the inner circumferential pressing member 1560 , The pressing lever 1564 is rotated outward to maintain a state in which the inner circumferential pressing member 1560 is pressed inward (see FIG. 8). Therefore, the inner circumferential pressure member 1560 is disposed in a state that is moved inward, and the radial spring 1563 is the auxiliary seating protrusion between the auxiliary seating protrusion piece 1567 and the inner end of the spring seating pin 1562 It is kept compressed by the piece 1567. Conversely, when the transition piece 14 is interposed between the outer circumferential pressing member 1524 and the inner circumferential pressing member 1560, the pressing lever 1564 is rotated inward, and the inner circumferential pressing member 1560 is It is pressed and moved outward by the radial spring 1563 (see FIG. 9). Therefore, the inner circumferential pressure member 1560 presses the inner circumferential surface of the transition piece 14 while the outer circumferential pressure member 1524 supports the outer circumferential surface of the transition piece 14, and the transition piece 14 is the transition piece 14 It is fixed to the piece mounting means (1520). On the other hand, when the pressing lever 1564 rotates outward or inward so that the inner circumferential pressing member 1560 receives a force outward or inward, the rotation preventing pin 1561 is the inner circumferential pressing member 1560 before and after It prevents rotation in the direction, and allows the inner circumferential pressure member 1560 to move in parallel outward or inward in a linear direction.

Referring back to FIG. 6, the rotation pressing means 1530 guides the movement of the transition piece mounting means 1520 and the transition piece 14, and includes a rotation pressing compression 1531 and a plurality of rotation guide sticks 1532. ), and a shaft connection member (1533). The rotary compression shaft 1531 is disposed to penetrate the central hollow member 1523 and a rear end to penetrate the plurality of rotation cradle bars 1512. In addition, the rotary compression compressor 1531 is disposed so that the front end is inserted into the transition piece 14. At this time, a thread is formed on the inner circumferential surface of the central hollow member 1523, and a thread contacting the thread of the central hollow member 1523 is formed on the outer circumferential surface of the rotational compression shaft 1531. In addition, the mounting motor 1540 is fixedly coupled to the rear central portion of the plurality of rotating cradle bars 1512, and the rear end of the rotary compression shaft 1531 is connected. When the mounting motor 1540 rotates the rotary compression compressor 1531, the rotary compression compression 1531 rotates while being disposed to be fixed to the rotary mounting means 1510. In this case, the thread of the central hollow member (1523) is subjected to force in the front and rear direction by the thread of the rotational compression (1531), and the transition piece mounting means (1520) is fixedly coupled to the rotation mounting means (1510) Since it is not in a state, the transition piece mounting means 1520 is moved back and forth along the longitudinal direction of the rotary compression compressor 1531. Accordingly, the transition piece 14 fixedly coupled to the transition piece mounting means 1520 is also moved back and forth along the longitudinal direction of the rotational compression shaft 1531. On the other hand, the stationary motor 1540 can be changed to a manual (handling) gearbox according to the requirements in the field.

The plurality of rotation guide sticks 1532 are disposed radially outward of the rotational compression compressor 1531 and are disposed to be spaced apart from each other along the circumferential direction of the rotational compression compression 1531. And the plurality of rotation guide sticks (1532) are aligned along the longitudinal direction of the rotary compression shaft (1531), each inserted into the plurality of auxiliary hollow members (1552), the rear end of the plurality of rotation holder bars (1512) ) Is fixed. Therefore, the plurality of rotation guide sticks 1532 not only guide the movement of the transition piece mounting means 1520, but also when the transition piece mounting means 1520 moves along the longitudinal direction of the rotational compression compression 1531 In, the rotational compression compression 1531 is prevented from bending due to the weight of the transition piece 14 fixedly coupled to the transition piece mounting means 1520. The shaft connection member 1533 is coupled to a front end of the rotational compression shaft 1531 and the plurality of rotation guide sticks 1532. Therefore, the shaft connection member 1533 allows the plurality of rotation guide sticks 1532 to remain in a state parallel to the rotational compression compression 1531 without bending outward or inwardly from the rotational compression compression 1531 .

6 and 9, the mounting part 1500 may further include an eccentric measurement structure 1570. The eccentricity measuring structure 1570 is installed at the front end of the rotational pressing means 1510, and measures whether the transition piece 14 is eccentric. The eccentricity measuring structure 1570 includes an eccentricity measuring shaft 1571 and an eccentricity measuring means 1572. The eccentricity measuring shaft 1571 is coupled to the front end of the rotary compression shaft 1531. In addition, the eccentricity measuring shaft 1571 is disposed on the same line as the rotational compression shaft 1531. At this time, the rotational compression shaft 1531 and the eccentricity measuring shaft 1571 may be manufactured as an integral type. Therefore, in this case, by rotating the eccentricity measuring means 1572 by the mounting motor 1540, the operator can more easily measure whether the transition piece 14 is eccentric. The eccentricity measuring means 1572 is, after the transition piece 14 is mounted on the combustor casing 11 and the transition piece mounting means 1520 is separated from the combustor casing 11, the eccentricity measuring shaft 1571 Is installed in That is, the eccentricity measuring means 1572 is not always installed on the eccentricity measuring shaft 1571, as shown in FIGS. 11 and 12, but only after the installation process of the transition piece 14 is completed. It can be said to be installed on the shaft 1571. The eccentricity measuring means 1572 measures whether the transition piece 14 is eccentric with respect to the eccentricity measuring shaft 1571.

The eccentricity measuring means (1572) includes a first eccentric fixing member (1573), a first auxiliary eccentric shaft (1574), a second eccentric fixing member (1575), a second auxiliary eccentric shaft (1576), a third eccentric fixing member (1577), an eccentric probe (1578), and an eccentric gauge (1579). The first eccentricity fixing member 1573 is coupled to the eccentricity measuring shaft 1571 so as to surround the outer circumferential surface of the eccentricity measuring shaft 1571. In addition, the first eccentric fixing member 1573 rotates along the circumferential direction of the eccentricity measuring shaft 1571. Therefore, the first eccentric fixing member 1573 allows the eccentric probe 1578 fixed thereto to rotate along the circumferential direction of the eccentric measuring shaft 1571, and the eccentric measuring shaft 1578 by the eccentric probe 1578 The eccentricity of each portion of the transition piece 14 with respect to (1571) can be measured.

The first auxiliary eccentric shaft 1574 is coupled to the first eccentric fixing member 1573 and is disposed so as to form orthogonal to the eccentricity measuring shaft 1571. In addition, the first auxiliary eccentric shaft 1574 rotates back and forth around a position coupled to the first eccentric fixing member 1573. The second eccentric fixing member 1575 is installed on the first auxiliary eccentric shaft 1574 so as to be movable along the longitudinal direction of the first auxiliary eccentric shaft 1574. The second auxiliary eccentric shaft 1576 is installed on the second eccentric fixing member 1575, and is disposed to form orthogonal to both the eccentricity measuring shaft 1571 and the first auxiliary eccentric shaft 1574. The third eccentric fixing member 1577 is installed on the second auxiliary eccentric shaft 1576.

The eccentric probe 1578 is installed at an end of the second auxiliary eccentric shaft 1576. In addition, the eccentric probe 1578 is disposed so that its end is in contact with the inner peripheral surface of the transition piece 14. At this time, the eccentric probe 1578 is disposed to be in vertical contact with the inner circumferential surface of the transition piece 14. With the eccentric probe 1578 in contact with the inner circumferential surface of the transition piece 14, the first eccentric fixing member 1573 rotates along the circumferential direction of the eccentric measuring shaft 1571. The eccentric probe 1578 is rotated along the circumferential direction of the eccentric measuring shaft 1571 together with the first eccentric fixing member 1573, while the eccentric probe 1578 is rotated along the inner circumferential surface of the transition piece 14. Measure the pressure applied to the end. The eccentric gauge 1579 displays the strength of the pressure sensed by the eccentric probe 1578. While the eccentricity measuring means 1572 rotates one revolution, the eccentricity gauge 1579 displays the intensity of the pressure applied to the eccentric probe 1578 in real time. Accordingly, the executor sees the intensity of the pressure displayed on the eccentric gauge 1579 and determines in which direction and how much the transition piece 14 is eccentric with respect to the eccentricity measuring axis 1571.

Meanwhile, the eccentricity measuring means 1572 further includes a vertical coupling shaft 1572a, a first eccentric lever 1572b, and a second eccentric lever 1572c, referring to FIG. 10. The vertical coupling shaft 1572a is coupled to the first eccentric fixing member 1573 so as to be perpendicular to the eccentricity measuring shaft 1571. In addition, the first auxiliary eccentric shaft 1574 is inserted into the vertical coupling shaft 1572a so as to be perpendicular to the vertical coupling shaft 1572a. The vertical coupling shaft 1572a is installed so as to be rotatable back and forth around a point coupled to the first eccentric fixing member 1573. Accordingly, the first auxiliary eccentric shaft 1574 is rotated back and forth around a point inserted into the vertical coupling shaft 1572a as the vertical coupling shaft 1572a rotates. The first eccentric lever (1572b) is coupled to the first eccentric fixing member (1573), the first eccentric fixing member (1573) interposed between the vertical coupling shaft (1572a) is disposed opposite to It is installed on the side. Further, the first eccentric lever 1572b selectively tightens the vertical coupling shaft 1572a to prevent further rotation while the vertical coupling shaft 1572a is rotated at a specific angle, and the eccentric probe 1578 ) Can be fixedly placed at an appropriate angle and position. The third eccentric fixing member 1577 has an angle adjusted back and forth around the second auxiliary eccentric shaft 1576. The second eccentric lever 1572c is coupled to the second eccentric fixing member 1575. Further, the second eccentric lever 1572c selectively tightens the third eccentric fixing member 1577 to prevent further rotation while the third eccentric fixing member 1577 is rotated at a specific angle. It allows the eccentric probe 1578 to be fixedly disposed at an appropriate angle and position.

Referring to FIGS. 11 and 12 to describe the operation of the mounting portion 1500 in detail, the mounting portion 1500 is, first, the plurality of outer circumferential pressure members 1524 are seated on the outer circumferential surface of the transition piece 14. In the state, the plurality of inner circumferential pressing members 1560 are arranged to press the inner circumferential surface of the transition piece 14 by the operation of the pressing lever 1564, so that the transition piece 14 is mounted on the mounting portion 1500 do. Next, the mounting portion 1500, by the operation of the mounting motor 1540, the rotational compression shaft 1531 presses the transition piece mounting means 1520 to the front side through rotation, and accordingly, the transition piece ( 14) to the combustor casing (11). Thereafter, the mounting portion 1500 is, after the pressure lever 1564 separates the inner circumferential pressure member 1560 inward from the inner circumferential surface of the transition piece 14, the mounting motor 1540 rotates in the reverse direction. As a result, the transition piece mounting means 1520 is pressed to the rear side, and the transition piece mounting means 1520 is separated from the combustor casing 11. Finally, the mounting portion 1500, after the eccentricity measuring means 1572 is installed on the eccentricity measuring shaft 1571, while rotating along the circumferential direction of the eccentricity measuring shaft 1571, the transition piece 14 Eccentricity is measured. Accordingly, the mounting portion 1500 indicates how precisely the transition piece 14 is mounted on the combustor casing 11. At this time, when the degree of eccentricity of the transition piece 14 exceeds the preset reference range, the operator may optionally remove the transition piece 14 from the combustor casing 11 and then install it on the combustor casing 11 again. I can.

The operation of the jig device 1000 will be described by combining the above-described matters as follows. First, the executor operates the rotation support member 1120 to rotate the link unit 1200 in the horizontal direction. And the executor operates a separate driving means (not shown) to rotate the upper link 1220 or the lower link 1230 upward or downward. At this time, the rotating part 1300, the fixing part 1400, the mounting part 1500, and the transition piece 14 are moved upward or downward together with the link part 1200, and the link part 1200 ), the height is adjusted.

Next, the executor operates the main rotation means 1330 to rotate the rotation cylinder 1320, and operates the auxiliary rotation means 1345 to rotate the second parallel plate 1343. In this case, the fixing part 1400, the mounting part 1500, and the transition piece 14 are primarily mounted at angles by rotation of the rotation cylinder 1320, and the auxiliary rotation means 1345 The mounting angle is secondaryly adjusted by. Finally, the implementer drives the mounting motor 1540 to press the transition piece mounting means 1520 to the front side, and accordingly, the transition piece 14 fixed to the transition piece mounting means 1520 is converted into a combustor casing ( 11). After the transition piece 14 is mounted on the combustor casing 11, the pressure lever 1564 is rotated outward to separate the inner circumferential pressure member 1450 from the inner circumferential surface of the transition piece 14 inward, and the The transition piece mounting means 1520 is moved rearward so that the transition piece 14 can be completely mounted on the combustor casing 11. Thereafter, as described above, the eccentricity measuring means 1572 is installed on the eccentricity measuring shaft 1571 to measure the eccentricity of the transition piece 14.

At this time, the operation sequence of the jig device 1000 described above is only an example, and the support part 1100, the link part 1200, the rotation part 1300, the fixing part 1400, and the mounting part ( The order of operation 1500) may be changed according to the judgment of the operator in the process of mounting the transition piece 14 to the combustor casing 11.

By the independent operation of the support part 1100, the link part 1200, the rotation part 1300, the fixing part 1400, and the mounting part 1500, the jig device 1000 according to the present invention , The transition piece 14 can be mounted on the combustor casing 11 more efficiently, more accurately, and more quickly as the optimum angle and arrangement structure. In addition, according to the jig device 1000 according to the present invention, after the transition piece 14 is mounted on the combustor casing 11, the eccentricity measuring shaft 1571 using the eccentricity measuring means 1572 of the mounting portion 1500 ) By measuring the eccentricity of the transition piece 14, the transition piece 14 can be more precisely mounted on the combustor casing 11, as well as the installation result of the gas turbine combustor 10 more easily. I can confirm.

In addition, according to the jig device 1000 according to the present invention, in a limited space under the combustor casing 11, the transition piece 14 can be assembled to the combustor casing 11, as well as the mounting portion 1500 The transition piece 14 is designed in a detachable structure in which the transition piece 14 is pressurized with the combustor casing 11 and mounted on the combustor casing 11, thereby reducing the assembling difficulty of the transition piece 14 as well as assembly of the transition piece 14. You can save time spent on

11: combustor casing 14: transition piece
1000: jig device 1100: support
1200: link unit 1300: rotating unit
1400: fixed part 1500: mounting part

Claims (21)

In a jig device for installing a transition piece of a gas turbine combustor to a combustor casing,
A supporting part installed on the floor on which the gas turbine is assembled;
A mounting portion disposed on the upper side of the support portion, on which a transition piece is mounted, and moving the transition piece by pressing it toward the combustor casing;
A fixing part disposed between the support part and the mounting part and fixing the mounting part;
A rotating part disposed between the support part and the fixing part and rotating the fixing part and the mounting part up and down; And
A link unit that is seated on the upper side of the support unit and is hinge-coupled to the upper end of the rotation unit and rotates up and down but rotates about a central axis perpendicular to the rotation center axis of the rotation unit,
The link unit,
A link support seated on the support,
An upper link whose lower end is hinged to the upper end of the link support, and an upper link whose upper end is hinged to the rotating part,
A jig device including a lower link disposed below the upper link, a lower end hingedly coupled to the link support, and an upper end hingedly coupled to the rotation unit. The method according to claim 1,
The support part,
A main support member seated on the bottom surface,
A jig device comprising a rotation support member that is seated on an upper side of the main support member, the link portion is seated on an upper surface, and rotates the link portion with an up-down direction as a central axis. delete The method according to claim 1,
The link support is provided in a pair arranged to be spaced apart from each other,
The upper link and the lower link, the lower end is interposed between the pair of link supports, a jig device that is hinged to each of the pair of link supports. The method according to claim 1,
The upper link,
The upper link body,
A pair of first upper protrusions protruding from the upper end of the upper link body, disposed to be spaced apart from each other, and hinged to the rotating part,
A jig device including a pair of second upper protrusions protruding from the lower end of the upper link body, disposed to be spaced apart from each other, and hinged to the upper end of the link support. The method according to claim 1,
The rotating part,
A rotating plate in which an upper end of the upper link is hinged at an upper end, and an upper end of the lower link at a lower end is hinged;
A rotation cylinder installed on a side of the rotation plate on the side where the link portion is not disposed, and disposed to be perpendicular to the rotation plate,
A main rotating means installed on a surface of the rotating plate on the side on which the link part is disposed, and rotating the rotating cylinder with the longitudinal direction of the rotating cylinder as a central axis;
A jig device comprising an auxiliary rotation structure fixed to an end of the rotation cylinder, coupled to the fixing part, and rotating the fixing part with a direction perpendicular to the longitudinal direction of the rotation cylinder as a central axis. The method of claim 6,
The upper link includes a pair of first upper protrusions disposed to be spaced apart from each other,
The rotating plate is interposed between the pair of first upper protrusions, the upper ends of the pair of first upper protrusions are hinged, respectively,
The main rotating means is a jig device interposed between the pair of first upper protrusions. The method of claim 6,
The auxiliary rotating structure,
A first parallel plate coupled to the rotary cylinder and disposed in parallel with the rotary plate,
A first vertical plate coupled to the first parallel plate and disposed to be perpendicular to the first parallel plate,
A second parallel plate coupled to the fixing part, disposed to be spaced apart from the first parallel plate, and disposed in parallel with the first parallel plate,
A second vertical plate coupled to the second parallel plate, disposed to be spaced apart from the first vertical plate, and disposed to be parallel to the first vertical plate,
It is interposed between the first vertical plate and the second vertical plate, and includes an auxiliary rotating means for rotating the second vertical plate with the spaced direction of the first vertical plate and the second vertical plate as a central axis. Jig device. The method according to claim 1,
The fixing part,
A main fixing member coupled to the end of the rotating part,
A jig device including an auxiliary fixing member having one end installed on the main fixing member and fixing the mounting part on the other end. The method of claim 9,
The main fixing material is,
A parallel fixing plate to which the auxiliary fixing member is fixed,
A jig device comprising a vertical fixing plate disposed perpendicular to the parallel fixing plate and to which an end of the rotating part is coupled. The method of claim 9,
The auxiliary fixing material,
A ring-shaped first fixing ring installed on the main fixing member,
A second ring-shaped second fixing ring disposed parallel to the first fixing ring, spaced apart from the first fixing ring, and receiving the mounting portion,
And a plurality of auxiliary fixing bars disposed between the first fixing ring and the second fixing ring, arranged to be perpendicular to the first fixing ring, and spaced apart from each other along the circumferential direction of the first fixing ring Jig device. In a jig device for installing a transition piece of a gas turbine combustor to a combustor casing,
A supporting part installed on the floor on which the gas turbine is assembled;
A mounting portion disposed on the upper side of the support portion, the transition piece being mounted, and moving the transition piece by pressing it toward the combustor casing;
A fixing part disposed between the support part and the mounting part and fixing the mounting part;
A rotating part disposed between the support part and the fixing part and rotating the fixing part and the mounting part up and down; And
A link unit that is seated on the upper side of the support unit and is hinge-coupled to the upper end of the rotation unit and rotates up and down but rotates about a central axis perpendicular to the rotation center axis of the rotation unit,
The mounting portion,
A rotating mounting means installed on the fixing part,
A rotational pressing means installed on the rotation mounting means, aligned in a front-rear direction based on a direction in which the transition piece is mounted on the combustor casing, and a front end portion disposed inside the transition piece,
Transition piece mounting means disposed between the rotation mounting means and the transition piece, through which the rotation pressing means passes, is fixed to the transition piece, and moves along the longitudinal direction of the rotation pressing means,
A jig device comprising a mounting motor installed at the rear of the rotating mounting means. The method of claim 12,
The transition piece mounting means,
A transition piece mounting ring,
It is installed radially inside the transition piece mounting ring, is arranged to be spaced apart from each other along the circumferential direction of the transition piece mounting ring, one end is installed on the inner circumferential surface of the transition piece mounting ring, and the other end is the center of the transition piece mounting ring A plurality of transition piece mounting frames arranged to face,
A jig device including a plurality of transition piece pressing bodies disposed between the transition piece mounting ring and one end of the plurality of transition piece mounting frames, and disposed to contact the inner circumferential surface of the transition piece to press the transition piece radially outward . The method of claim 13,
The transition piece mounting means,
Further comprising a plurality of outer circumferential pressing members disposed between the transition piece mounting ring and the plurality of transition piece pressing bodies, coupled to the inner circumferential surface of the transition piece mounting ring, and seated on the outer circumferential surface of the transition piece,
The transition piece pressing body,
An inner circumferential pressure member installed on the inner side of the outer circumferential pressure member and seated on the inner circumferential surface of the transition piece to press the transition piece radially outward;
A spring mounting pin fixedly disposed inside the transition piece mounting frame,
A radial spring disposed inside the inner circumferential pressing member, seated on the spring mounting pin, and pressing the inner circumferential pressing member outward,
A jig device including a pressing lever hinged to the outer end of the spring seating pin and rotating to press the inner circumferential pressing member inward. The method of claim 14,
The inner peripheral surface pressing member,
A pressure pad seated on the inner circumferential surface of the transition piece,
It is coupled to the inner side of the pressure pad, and includes a frame insertion member inserted into the inside of the transition piece mounting frame,
The spring mounting pin is installed to pass through the frame insertion member, and the inner end is formed in a plate shape,
The radial spring is installed to be in contact with the inside of the frame inserting member, and is disposed to surround the spring seating pin to be seated on the inner end of the spring seating pin. The method of claim 14,
The transition piece mounting frame,
It is disposed so as to be spaced apart from each other in a direction perpendicular to the direction in which the transition piece is inserted into the combustor and perpendicular to the radial direction of the transition piece mounting ring, one end is coupled to the pressure member and the other end of the transition piece mounting ring A pair of spaced holding members arranged to face the center,
It includes an auxiliary seating plate interposed between the pair of spaced mounting members,
The spring mounting pin is fixed to the auxiliary mounting plate by penetrating the auxiliary mounting plate. The method of claim 16,
The inner circumferential pressure member, the inner end is interposed between the pair of spaced members,
The pair of spaced holding members has a slot formed along the radial direction of the transition piece holding ring,
The transition piece pressing body,
Each passing through the slots of the pair of spaced holding members is fixed to the inner circumferential pressure member, and disposed to be spaced apart from each other along the radial direction of the transition piece mounting ring, and moving the inner circumferential pressure member while moving along the slot A jig device further comprising a plurality of anti-rotation pins to guide the. The method of claim 12,
The rotary pressing means,
It is installed so as to pass through the center of the transition piece mounting means, a screw thread is formed on the outer circumferential surface, and one end is installed on the mounting motor, and as it rotates by the mounting motor, a rotational compression compression device pressurizes and moves the transition piece mounting means. ,
It is disposed outside the radial direction of the rotational compression, is aligned along the longitudinal direction of the rotational compression, one end is coupled to the rotational mounting means, and is installed so as to pass through the transition piece mounting means to allow movement of the transition piece mounting means. A plurality of rotating guide sticks to guide,
A jig device comprising a shaft connecting member on which the rotational compression and the other ends of the plurality of rotation guide sticks are mounted. The method of claim 18,
It is installed at the front end of the rotary pressing means, further comprising an eccentricity measuring structure for measuring whether the eccentricity of the transition piece,
The eccentricity measuring structure,
An eccentric measuring shaft coupled to the front end of the rotary compression compressor and disposed on the same line as the rotary compression compression axis,
A transition piece is mounted on the combustor casing, and the transition piece mounting means is installed on the eccentricity measuring shaft after being separated from the combustor casing, installed to be rotatable along the circumferential direction of the eccentricity measuring shaft, and a transition piece for the eccentricity measuring shaft A jig device comprising an eccentricity measuring means for measuring whether or not of the eccentricity. The method of claim 19,
The eccentricity measuring means,
A first eccentric fixing member coupled to the eccentric measuring shaft so as to surround the outer circumferential surface of the eccentric measuring shaft and rotating along the circumferential direction of the eccentric measuring shaft,
An eccentric probe disposed outside the first eccentric fixing member and having an end in contact with the inner peripheral surface of the transition piece;
A jig device comprising an eccentric gauge disposed between the first eccentric fixing member and the eccentric probe and displaying a pressure applied to the eccentric probe. The method of claim 20,
The eccentricity measuring means,
A first auxiliary eccentric shaft coupled to the first eccentric fixing member, disposed to form orthogonal to the eccentricity measuring shaft, and rotating back and forth around a position coupled to the first eccentric fixing member,
A second eccentric fixing member installed on the first auxiliary eccentric shaft so as to be movable along the longitudinal direction of the first auxiliary eccentric shaft,
A second auxiliary eccentric shaft installed on the second eccentric fixing member and disposed to be orthogonal to the eccentricity measuring shaft and the first auxiliary eccentric shaft,
A jig device further comprising a third eccentric fixing member which is installed on the second auxiliary eccentric shaft, the eccentric gauge is installed, and the eccentric probe is coupled to an end thereof.

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