Abstract
A transition piece assembling apparatus according to the disclosure includes a pair of rails which is provided to be in the direction parallel with an axis of a combustor transition piece, and to be spaced at intervals and in a plane perpendicular to the axis of a combustor transition piece, support portions which are connected to the combustor transition piece and support the member to be movable in longitudinal directions of the rails, a trapezoidal screw which is disposed in parallel with the axis of the combustor transition piece between the pair of rails, a female screw block which is threaded onto the trapezoidal screw, and a sliding member which is provided between the female screw block and the combustor transition piece and connects the female screw block and the combustor transition piece to be movable relative to each other in a plane perpendicular to a female screw axis.
Claims
1. An apparatus for assembling a member, the apparatus comprising: a pair of rails, the rails being parallel to each other and separated by an interval; support portions which are connectable to the member which is capable of moving in longitudinal directions of the rails; a screw shaft which is parallel to the rails and disposed between the rails; a female screw block which is threaded onto the screw shaft; and a sliding member which is provided between the female screw block and the support portions and connects the female screw block and the support portions in a manner such that the female screw block is movable relative to the support portions in a plane perpendicular to a female screw axis of the female screw block, wherein the sliding member connects the female screw block and the support portions in a manner such that the female screw block is movable relative to the support portions in a direction parallel with a line segment linking the pair of rails in the plane perpendicular to the female screw axis, wherein a fitting groove is provided at one of the female screw block and the sliding member, and a fitting piece which is fitted into the fitting groove is provided at another of the female screw block and the sliding member, and wherein the fitting groove has a width larger than the fitting piece in the direction parallel with the line segment linking the pair of rails.
2. The apparatus for assembling a member according to claim 1, wherein the sliding member connects the female screw block and the support portions in a manner such that the female screw block is movable relative to the support portions in a direction perpendicular to the line segment linking the pair of rails in the plane perpendicular to the female screw axis.
3. The apparatus for assembling a member according to claim 1, the apparatus further comprising: a fixing member fixed to the assembled member, wherein a pin is provided at one of the fixing member and the sliding member to protrude in the direction perpendicular to the line segment linking the pair of rails, and a pin insertion hole into which the pin is insertable is provided at another of the fixing member and the sliding member.
4. The apparatus for assembling a member according to claim 2, the apparatus further comprising: a fixing member fixed to the assembled member, wherein a pin is provided at one of the fixing member and the sliding member to protrude in the direction perpendicular to the line segment linking the pair of rails, and a pin insertion hole into which the pin is insertable is provided at another of the fixing member and the sliding member.
5. The apparatus for assembling a member according to claim 1, wherein the member connectable to the support portions is a combustor transition piece constituting a gas turbine.
6. The apparatus for assembling a member according to claim 2, wherein the member connectable to the support portions is a combustor transition piece constituting a gas turbine.
7. The apparatus for assembling a member according to claim 3, wherein the member connectable to the support portions is a combustor transition piece constituting a gas turbine.
8. The apparatus for assembling a member according to claim 4, wherein the member connectable to the support portions is a combustor transition piece constituting a gas turbine.
9. An apparatus for assembling a member, the apparatus comprising: a pair of rails, the rails being parallel to each other and separated by an interval; support portions which are connectable to the member which is capable of moving in longitudinal directions of the rails; a screw shaft which is parallel to the rails and disposed between the rails; a female screw block which is threaded onto the screw shaft; and a sliding member which is provided between the female screw block and the support portions and connects the female screw block and the support portions in a manner such that the female screw block and the support portions are each independently movable in a plane perpendicular to a female screw axis of the female screw block, wherein the sliding member connects the female screw block and the support portions in a manner such that the female screw block is movable relative to the support portions in a direction parallel with a line segment linking the pair of rails in the plane perpendicular to the female screw axis, wherein a fitting groove is provided at one of the female screw block and the sliding member, and a fitting piece which is fitted into the fitting groove is provided at another of the female screw block and the sliding member, and wherein the fitting groove has a width larger than the fitting piece in the direction parallel with the line segment linking the pair of rails.
10. An apparatus for assembling a member, the apparatus comprising: a pair of rails, the rails being parallel to each other and separated by an interval; support portions which are connectable to the member which is capable of moving in longitudinal directions of the rails; a screw shaft which is parallel to the rails and disposed between the rails; a female screw block which is threaded onto the screw shaft; and a sliding member which is provided between the female screw block and the support portions and connects the female screw block and the support portions in a manner such that one of the female screw block and the support portions is movable with respect to the other of the female screw block and the support portions in a plane perpendicular to a female screw axis of the female screw block, wherein the sliding member connects the female screw block and the support portions in a manner such that the female screw block is movable relative to the support portions in a direction parallel with a line segment linking the pair of rails in the plane perpendicular to the female screw axis, wherein a fitting groove is provided at one of the female screw block and the sliding member, and a fitting piece which is fitted into the fitting groove is provided at another of the female screw block and the sliding member, and wherein the fitting groove has a width larger than the fitting piece in the direction parallel with the line segment linking the pair of rails.
11. The apparatus for assembling a member according to claim 9, wherein the sliding member connects the female screw block and the support portions in a manner such that the female screw block is movable relative to the support portions in a direction perpendicular to the line segment linking the pair of rails in the plane perpendicular to the female screw axis.
12. The apparatus for assembling a member according to claim 9, the apparatus further comprising: a fixing member fixed to the assembled member, wherein a pin is provided at one of the fixing member and the sliding member to protrude in the direction perpendicular to the line segment linking the pair of rails, and a pin insertion hole into which the pin is insertable is provided at another of the fixing member and the sliding member.
13. The apparatus for assembling a member according to claim 11, the apparatus further comprising: a fixing member fixed to the assembled member, wherein a pin is provided at one of the fixing member and the sliding member to protrude in the direction perpendicular to the line segment linking the pair of rails, and a pin insertion hole into which the pin is insertable is provided at another of the fixing member and the sliding member.
14. The apparatus for assembling a member according to claim 9, wherein the member connectable to the support portions is a combustor transition piece constituting a gas turbine.
15. The apparatus for assembling a member according to claim 11, wherein the member connectable to the support portions is a combustor transition piece constituting a gas turbine.
16. The apparatus for assembling a member according to claim 10, wherein the sliding member connects the female screw block and the support portions in a manner such that the female screw block is movable relative to the support portions in a direction perpendicular to the line segment linking the pair of rails in the plane perpendicular to the female screw axis.
17. The apparatus for assembling a member according to claim 16, the apparatus further comprising: a fixing member fixed to the assembled member, wherein a pin is provided at one of the fixing member and the sliding member to protrude in the direction perpendicular to the line segment linking the pair of rails, and a pin insertion hole into which the pin is insertable is provided at another of the fixing member and the sliding member.
18. The apparatus for assembling a member according to claim 10, wherein the member connectable to the support portions is a combustor transition piece constituting a gas turbine.
19. The apparatus for assembling a member according to claim 16, wherein the member connectable to the support portions is a combustor transition piece constituting a gas turbine.
20. The apparatus for assembling a member according to claim 10, the apparatus further comprising: a fixing member fixed to the assembled member, wherein a pin is provided at one of the fixing member and the sliding member to protrude in the direction perpendicular to the line segment linking the pair of rails, and a pin insertion hole into which the pin is insertable is provided at another of the fixing member and the sliding member.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
(1) FIG. 1 is a schematic side view illustrating an outline of a gas turbine.
(2) FIG. 2 is a schematic cross-sectional view illustrating a detail of a combustor and a casing of the gas turbine.
(3) FIG. 3 is a schematic front view illustrating a detail of an opening portion of the casing of the gas turbine.
(4) FIG. 4 is a schematic cross-sectional view illustrating a state where a transition piece assembling apparatus according to a first embodiment of the present invention is attached to a casing.
(5) FIG. 5 is a schematic plan view of a combustor transition piece illustrating a state where the transition piece assembling apparatus according to the first embodiment of the present invention is attached thereto.
(6) FIG. 6 is a schematic front view of the combustor transition piece illustrating a state where the transition piece assembling apparatus according to the first embodiment of the present invention is attached thereto.
(7) FIG. 7 is a schematic front view illustrating a rail which constitutes the transition piece assembling apparatus according to the first embodiment of the present invention.
(8) FIG. 8 is a schematic cross-sectional view illustrating a fixing structure of the rail and the combustor transition piece in the transition piece assembling apparatus according to the first embodiment of the present invention, the view illustrating a state in which the fixing of the rail and the combustor transition piece is released.
(9) FIG. 9 is a schematic cross-sectional view illustrating a fixing structure of the rail and the combustor transition piece in the transition piece assembling apparatus according to the first embodiment of the present invention, the view illustrating a state in which the rail and the combustor transition piece are fixed.
(10) FIG. 10 is a schematic cross-sectional view illustrating the detail of a front end member of the rail and a first casing attachment plate in the transition piece assembling apparatus according to the first embodiment of the present invention.
(11) FIG. 11 is a schematic cross-sectional view illustrating the detail of the front end member of the rail and the first casing attachment plate in the transition piece assembling apparatus according to the first embodiment of the present invention.
(12) FIG. 12 is a schematic cross-sectional view illustrating the detail of a fixing structure of the front end member of the rail and the first casing attachment plate in the transition piece assembling apparatus according to the first embodiment of the present invention.
(13) FIG. 13 is a schematic cross-sectional view illustrating the detail of a base end member of the rail, a base end fixing portion, and an advancing and retracting mechanism in the transition piece assembling apparatus according to the first embodiment of the present invention.
(14) FIG. 14 is a schematic back view illustrating the detail of the base end member of the rail, the base end fixing portion, and the advancing and retracting mechanism in the transition piece assembling apparatus according to the first embodiment of the present invention.
(15) FIG. 15 is a schematic front view illustrating the detail of the base end member of the rail, the base end fixing portion, and the advancing and retracting mechanism in the transition piece assembling apparatus according to the first embodiment of the present invention.
(16) FIG. 16 is an exploded perspective view illustrating a configuration of the advancing and retracting mechanism in the transition piece assembling apparatus according to the first embodiment of the present invention.
(17) FIG. 17A is a view for explaining an effect of the transition piece assembling apparatus according to the first embodiment of the present invention.
(18) FIG. 17B is a view for explaining an effect of the transition piece assembling apparatus according to the first embodiment of the present invention.
(19) FIG. 17C is a view for explaining an effect of the transition piece assembling apparatus according to the first embodiment of the present invention.
(20) FIG. 17D is a view for explaining an effect of the transition piece assembling apparatus according to the first embodiment of the present invention.
(21) FIG. 18A is a view illustrating an advancing and retracting mechanism in a transition piece assembling apparatus according to a second embodiment of the present invention.
(22) FIG. 18B is a view illustrating the advancing and retracting mechanism in the transition piece assembling apparatus according to the second embodiment of the present invention.
(23) FIG. 18C is a view illustrating the advancing and retracting mechanism in the transition piece assembling apparatus according to the second embodiment of the present invention.
(24) FIG. 18D is a view illustrating the advancing and retracting mechanism in the transition piece assembling apparatus according to the second embodiment of the present invention.
(25) FIG. 19 is an exploded perspective view illustrating an advancing and retracting mechanism in a transition piece assembling apparatus according to a third embodiment of the present invention.
MODE FOR CARRYING OUT THE INVENTION
First Embodiment
(26) Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. First, the following description will be given of a configuration of a member assembling apparatus of a rotary machine according to a first embodiment of the present invention. In the present embodiment, a gas turbine as an example of the rotary machine and a combustor transition piece as an example of the member constituting the rotary machine will be described. In addition, in the gas turbine 200 shown in FIG. 1, a combustor 1 and an attachment structure of the combustor 1 and a casing 4 are basically the same as those of the related art. For this reason, no description will be given of the same features and only different features will be described.
(27) FIG. 4 is a schematic cross-sectional view illustrating a state where a transition piece assembling apparatus 10 according to a first embodiment of the present invention is attached to a casing 4. As shown in FIG. 4, the transition piece assembling apparatus 10 includes a rail 11 which is disposed along the direction of the axis L of the combustor, a support portion 12 which is attachable to and detachable from the combustor transition piece 3 and is movable along the rail 11, and an advancing and retracting mechanism 13 which is able to advance and retract the combustor transition piece 3 attached to the rail 11 through the support portion 12 along the direction of the axis L of the combustor.
(28) As shown in FIGS. 4 and 6, in the embodiment, the rail 11 is provided as pairs of rails which are symmetrical to each other about the axis L of the combustor in a state of being attached to the casing 4. As shown in FIG. 7, each of the rails 11 includes a rail body 11a which has a substantially C-shaped cross-section, a pair of reinforcement members 11b which is formed in a substantially cylindrical shape and interposes both sides of the rail body 11a therebetween, and a connection member 11c which connects each of the reinforcement members 11b and the rail body 11a.
(29) As shown in FIGS. 5 and 6, four support portions 12 are provided, and are provided at the front end side and the base end side of the combustor transition piece 3 so as to correspond to the pairs of rails 11. Each of the support portions 12 includes a piece body 12a which is inserted into the rail body 11a, an arm portion 12b which extends from the piece body 12a, and a fixing portion 12c which is provided at a front end of the arm portion 12b and is fixed to the combustor transition piece 3. The arm portion 12b is set to have a width smaller than a gap 11d of the rail body 11a, and is disposed at the gap 11d of the rail body 11a in a state in which the piece body 12a is inserted into the rail body 11a.
(30) As shown in FIGS. 8 and 9, the fixing portion 12c is formed with a fixture inserting hole 12d through which a fixture 14 is inserted. The fixture 14 includes a shaft portion 14a which is inserted into the fixture inserting hole 12d, a key 14b which is provided at a front end of the shaft portion 14a which faces the combustor transition piece 3, and a head portion 14c which is provided at a base end of the shaft portion 14a so as to increase in diameter. A spring member 15 is interposed between the head portion 14c and the fixing portion 12c. On the other hand, the combustor transition piece 3 is formed with an insertion hole 3a through which the front end of the shaft portion 14a of the fixture 14 is insertable, and a key groove 3b which is formed on an inner peripheral surface of the insertion hole 3a and into which the key 14b is inserted. With such a configuration, when the fixture 14 is made to advance toward the combustor transition piece 3 against the restoring force of the spring member 15 so that the front end of the shaft portion 14a is inserted into the insertion hole 3a and the fixture 14 is rotated about the axis in this state, the key 14b and the key groove 3b engage with each other, with the consequence that the support portion 12 may be fixed to the combustor transition piece 3. In addition, when the fixture 14 is rotated about the axis in the direction opposite to the fixing direction in a state in which the support portion 12 and the combustor transition piece 3 are fixed to each other so as to release the engagement between the key 14b and the key groove 3b, the support portion 12 may be detached from the combustor transition piece 3.
(31) As shown in FIG. 4, in the embodiment, the rail 11, which movably guides the support portion 12, includes a front end member 20 which forms the front end side, and a base end member 21 which forms the base end side while being attachably and detachably connected to the front end member 20. Each of the front end member 20 and the base end member 21 has a configuration which includes the rail body 11a, the reinforcement member 11b, and the connection member 11c, as shown in FIG. 7. As shown in FIG. 4, a front end 20a of the front end member 20 is provided with a support pin 22 which protrudes therefrom. On the other hand, an inner surface of the casing 4 is formed with a concave portion 4c to which the support pin 22 is able to be fitted, and the support pin 22 provided in the front end member 20 is fitted to the concave portion 4c, and thereby a front end 11f of the rail 11 is supported by the casing 4.
(32) The front end member 20 is set to have a length corresponding to the depth of the casing 4, and a first casing attachment plate 23 is attachably and detachably mounted to a base end 20b located near an opening portion 4a. As shown in FIGS. 10 and 11, the first casing attachment plate 23 is formed in a substantially annular shape along an outer edge of the opening portion 4a of the casing 4. In the embodiment, the first casing attachment plate 23 includes an upper member 23a to which the rail 11 is connected and which has a substantially arc shape, and a lower member 23b which has a substantially arc shape and is attached to the casing 4 at the side facing the upper member 23a with the axis L of the combustor being interposed therebetween.
(33) Each of the upper member 23a and the lower member 23b constituting the first casing attachment plate 23 is provided with first through holes 23c and second through holes 23d which correspond to cover fixing bolt holes 4b serving as a cover fixing portion of a cover body 7 blocking the opening portion 4a. The first through holes 23c are to fix each of the upper member 23a and the lower member 23b of the first casing attachment plate 23. Each of the first through holes 23c has a hole into which a shaft portion of a fixing bolt threaded into each of the cover fixing bolt holes 4b is inserted, and an accommodation concave portion which increases in diameter from the hole at the side opposite to the surface coming into contact with the casing 4 of the upper member 23a and accommodates a head portion of the fixing bolt 24. In addition, the second through holes 23d are to fix a base end fixing portion 25 to be described below. Each of second through holes 23d is formed with only a hole into which a shaft portion of a fixing bolt 29 (see FIG. 4) threaded into the cover fixing bolt hole 4b is inserted. Furthermore, each of the upper member 23a and the lower member 23b is formed with two first through holes 23c and two second through holes 23d, such that four through holes are provided in total for each member. In the upper member 23a, the first through holes 23c are disposed near the center, and the second through holes 23d are disposed outside the first through holes 23c. In contrast, in the lower member 23b, the second through holes 23d are disposed near the center, and the first through holes 23c are disposed outside the second through holes 23d. Accordingly, in the upper member 23a and the lower member 23b, the arrangement relationship of the first through holes 23c and the second through holes 23d is reversed.
(34) The inner edge side of the upper member 23a is provided with connection portions 23e of which each protrudes to the inner peripheral side at a position corresponding to the rail 11 and the front end member 20 is attachably and detachably connected. As shown in FIG. 12, the connection portion 23e is formed with a guide insertion hole 23f into which the rail body 11a of the front end member 20 is inserted, and bolt inserting holes 23g which are provided at both sides of the guide insertion hole 23f. On the other hand, in the base end 20b of the front end member 20 of the rail 11, the rail body 11a protrudes by an amount corresponding to the thickness of the first casing attachment plate 23 with respect to the reinforcement member 11b. For this reason, when the rail body 11a is inserted into the guide insertion hole 23f so that the reinforcement member 11b comes into contact with the first casing attachment plate 23, an end portion of the rail body 11a is positioned at substantially the same level as the other surface 23i opposite to one surface 23h with which the reinforcement member 11b of the first casing attachment plate 23 comes into contact. In addition, an end portion of the reinforcement member 11b is formed with a connection bolt hole 11e which corresponds to each of the bolt inserting holes 23g. Therefore, a connection bolt 23k inserted into the bolt inserting hole 23g from the other surface 23i is threaded into the connection bolt hole 11e, thereby connecting the upper member 23a of the first casing attachment plate 23 to the front end member 20 of the rail 11. The bolt inserting hole 23g is formed with an accommodation concave portion 23j which accommodates a head portion of the connection bolt 23k, such that the connection bolt 23k does not protrude from the other surface 23i.
(35) As shown in FIG. 4, in the rail 11, the front end 21a of the base end member 21 is connected to the front end member 20 by the base end fixing portion 25 fixed to the casing 4 while the base end 21b thereof is supported by the casing 4. Specifically, as shown in FIGS. 13 to 15, the base end fixing portion 25 includes a second casing attachment plate 26 which is attached to the casing 4 through the first casing attachment plate 23, support members 27 which protrude from the second casing attachment plate 26 toward a base end 11g of the rail 11, and a fixing plate 28 which is provided at base ends of the support members 27 and to which the base end 21b of the base end member 21 of the rail 11 is connected. The second casing attachment plate 26 is formed in a substantially annular shape along the outer edge of the opening portion 4a of the casing 4 so as to correspond to the first casing attachment plate 23. As shown in FIG. 14, the second casing attachment plate 26 is formed with four third through holes 26a which communicate with the total of four second through holes 23d formed in the upper member 23a and the lower member 23b of the first casing attachment plate 23. When the fixing bolt 29 (see FIG. 4) is inserted through each of the third through holes 26a and each of the second through holes 23d and is threaded into each of the cover fixing bolt holes 4b, the second casing attachment plate 26 may be fixed to the casing 4 in a state in which the first casing attachment plate 23 is interposed therebetween.
(36) Similarly to the first casing attachment plate 23, the inner peripheral edge side of the second casing attachment plate 26 is provided with connection portions 26b of which each protrudes to the inner peripheral side at a position corresponding to the rail 11 and the base end member 21 is attachably and detachably connected. Each of the connection portions 26b has the same structure as the connection portion 23e of the first casing attachment plate 23. In the front end 21a of the base end member 21, the rail body 11a protrudes by an amount corresponding to the thickness of the second casing attachment plate 26 with respect to the reinforcement member 11b and is fixed with connection bolts 26c. Accordingly, the base end member 21 and the front end member 20 of the rail 11 are connected to each other through the first casing attachment plate 23 and the second casing attachment plate 26, and the rail bodies 11a of the base end member 21 and the front end member 20 communicate with each other by the end portions of the rail bodies 11a being mated with each other.
(37) The support members 27 are provided as a pair of support members interposing the axis L of the combustor in a state of being attached to the casing 4 in the embodiment. Furthermore, the fixing plate 28 fixed to the base ends of the support members 27 is a substantially disk-shaped member, and the support members 27 and the base end 21b of the base end member 21 of the rail 11 are fixed to the fixing plate 28, as shown in FIG. 15. That is, in the rail 11, the front end 20a of the front end member 20 serving as the front end 11f as a whole is fixed to the inner surface of the casing 4 by the support pin 22. In addition, in the rail 11, the base end 21b of the base end member 21 serving as the base end 11g as a whole is fixed to the casing 4 through the second casing attachment plate 26, the support members 27, and the fixing plate 28 constituting the base end fixing portion 25 so as to be supported by the casing 4. Furthermore, in the embodiment, the base end 20b of the front end member 20 and the front end 21a of the base end member 21, that is, at the substantially center position of the rail 11, are fixed to the casing 4 through the first casing attachment plate 23 and the second casing attachment plate 26 so as to be supported by the casing 4.
(38) As shown in FIG. 6, the advancing and retracting mechanism 13 includes a trapezoidal screw (screw shaft) 31 which is disposed along the rail 11, a female screw block 32 which is threaded onto the trapezoidal screw 31, a transition piece fixing member 33 which is fixed to the combustor transition piece 3, a sliding member 34 which is interposed between the female screw block 32 and the transition piece fixing member 33. FIG. 16 is an exploded perspective view illustrating a configuration of the advancing and retracting mechanism 13. Also, the trapezoidal screw 31 is not shown in FIG. 16. In addition, the trapezoidal screw 31 in the disclosure means a screw member of which screw thread has a trapezoidal cross-section.
(39) Here, in the embodiment, although the trapezoidal screw 31 is used as a screw shaft according to the present invention, a ball screw may also be used instead. However, using the trapezoidal screw 31 as the screw shaft in the embodiment has the advantage in that foreign matter such as debris is less likely to interfere with the operation thereof and a bending thereof is less likely to occur by the action of the load than the ball screw.
(40) As shown in FIG. 4, the trapezoidal screw 31 is disposed to extend in parallel with the axis of the casing 4 and an end portion of the trapezoidal screw 31 in the longitudinal direction thereof is rotatably supported by the fixing plate 28. A portion of the trapezoidal screw 31 in the longitudinal direction thereof is located within the casing 4 and the other portion protrudes outside the casing 4. In addition, as shown in FIG. 6, the trapezoidal screw 31 is located at a central portion of the pair of rails 11 in the horizontal direction and is located at a position near an opening edge portion of the casing 4 in the vertical direction.
(41) As shown in FIG. 16, the female screw block 32 includes a body portion 321 which has a substantially semicircular cross-section, and a fitting piece 322 which has a flat shape. A screw hole 321a is formed so as to pass through the body portion 321. Although not shown in detail in the drawing, female screws are cut on an inner peripheral surface of the screw hole 321a. In addition, the fitting piece 322 has a lateral width W1, that is, a width in a direction perpendicular to the axial direction of the screw hole 321a which is larger than a lateral width W2 of the body portion 321. In the female screw block 32 having such a configuration, the trapezoidal screw 31 is threaded into the screw hole 321a.
(42) As shown in FIG. 16, the transition piece fixing member 33 includes a body portion 331 which has a substantially rectangular shape when viewed from the top, and a pair of pins 332 which is provided to protrude from an upper surface of the body portion 331. Both end portions of the body portion 331 in the longitudinal direction thereof are formed with notch portions 331a which have a substantially rectangular shape when viewed from the top. The arm portions 12b of the rails 11 are fitted into the notch portions 331a. In addition, the pair of pins 332 of which each has a substantially circular cross-section are provided at an interval L1.
(43) As shown in FIG. 4, in the transition piece fixing member 33 having such a configuration, the arm portions 12b of the pair of rails 11 are fitted and fixed into the pair of notch portions 331a formed at the body portion 331, respectively. Thus, the transition piece fixing member 33 is in a state of being installed between the arm portions 12b of the pair of rails 11.
(44) As shown in FIG. 16, the sliding member 34 is a member which has a substantially H-shaped cross-section. An upper surface of the sliding member 34 is formed with a fitting groove 341. The fitting groove 341 has a groove width W3 larger than the lateral width W1 of the fitting piece 322 of the female screw block 32.
(45) The fitting groove 341 has an opening width W4 larger than the lateral width W2 of the body portion 321 of the female screw block 32.
(46) The sliding member 34 is formed with a pair of pin insertion holes 342. Each of the pin insertion holes 342 has a substantially circular cross-section. The pin insertion hole 342 has an inner diameter which is substantially equal to or slightly larger than an outer diameter of the pin 332. In addition, the pin insertion hole 342 has a height which is substantially equal to that of the pin 332. An interval L2 between the pair of pin insertion holes 342 is substantially equal to the interval L1 between the pins 332.
(47) As shown in FIG. 16, in the sliding member 34 having such a configuration, the female screw block 32 is mounted on an upper portion of the sliding member 34 by fitting the fitting piece 322 into the fitting groove 341. At this time, as described above, the groove width W3 of the fitting groove 341 is formed to be larger than the lateral width W1 of the fitting piece 322, and the opening width W4 of the fitting groove 341 is formed to be larger than the lateral width W2 of the body portion 321. Accordingly, the fitting piece 322 may move in a direction parallel with the line segment SB indicated in FIG. 6 in the inside of the fitting groove 341. Furthermore, although not shown in detail in the drawing, both end surfaces of the sliding member 34 are covered by plate members or the like and the plate members or the like seal both end openings of the fitting groove 341. Accordingly, the fitting piece 322 is restricted from moving in a longitudinal direction, that is, in a direction substantially perpendicular to the lateral width direction in the inside of the fitting groove 341.
(48) In addition, as shown in FIG. 16, the sliding member 34 is mounted to the transition piece fixing member 33 by inserting the pair of pins 332 into the pair of pin insertion holes 342. At this time, the sliding member 34 may move in a direction perpendicular to the line segment SB indicated in FIG. 6 by the pins 332 being ejected from or inserted into the pin insertion holes 342. In this way, the sliding member 34 connects the female screw block 32 and the transition piece fixing member 33 to be movable relative to each other in a plane perpendicular to a female screw axis MA.
Effects
(49) Next, an effect of the transition piece assembling apparatus 10 according to the first embodiment of the present invention will be described. FIGS. 17A and 17B are views for explaining an effect of the transition piece assembling apparatus 10 according to the first embodiment. First, when the support portions 12, which are provided at the combustor transition piece 3, move along the rails 11 by an equal distance, the axis of the combustor transition piece 3 is in agreement with the axis of the combustor 1. In this case, as shown in FIG. 17A, the fitting piece 322 of the female screw block 32 is located at the central portion in the groove width direction in the inside of the fitting groove 341 of the sliding member 34. In addition, in this case, the pair of pins 332 of the transition piece fixing member 33 are in a state of being inserted into the pin insertion holes 342 of the sliding member 34 up to the base thereof.
(50) When a deviation of a movement distance along the rails 11 is caused between the support portions 12 provided at the combustor transition piece 3, there is a case in which the combustor transition piece 3 moves in a direction parallel with the line segment SB linking the pair of rails 11 as shown in FIG. 6. However, in this case, the sliding member 34 moves from a state indicated in FIG. 17A to the right toward the paper and enters a state indicated in FIG. 17B, thereby absorbing the movement of the combustor transition piece 3. Alternatively, the sliding member moves from a state indicated in FIG. 17A to the left toward the paper and enters a state indicated in FIG. 17C, thereby absorbing the movement of the combustor transition piece 3. Accordingly, a load is not applied to the trapezoidal screw 31 even by the movement of the combustor transition piece 3 and a bending is not caused at the trapezoidal screw 31. Thus, the trapezoidal screw 31 may be smoothly rotated and the combustor transition piece 3 may be smoothly moved.
(51) When the deviation of the movement distance along the rails 11 is caused between the support portions 12 provided at the combustor transition piece 3, there is a case in which the combustor transition piece 3 moves in a direction perpendicular to the line segment SB linking the pair of rails 11 as shown in FIG. 6. However, in this case, the transition piece fixing member 33 moves from a state indicated in FIG. 17A to the lower side toward the paper and enters a state indicated in FIG. 17D, thereby absorbing the movement of the combustor transition piece 3. Accordingly, a load is not applied to the trapezoidal screw 31 even by the movement of the combustor transition piece 3 and a bending is not caused at the trapezoidal screw 31. Thus, the trapezoidal screw 31 may be smoothly rotated and the combustor transition piece 3 may be smoothly moved.
Second Embodiment
(52) Next, a member assembling apparatus of a rotary machine according to a second embodiment of the present invention will be described. Similarly to the first embodiment, also in the present embodiment, a gas turbine as an example of the rotary machine and a combustor transition piece as an example of a member constituting the rotary machine will be described. In a transition piece assembling apparatus 10 according to the present embodiment, only a configuration of an advancing and retracting mechanism 40 differs from that of the transition piece assembling apparatus 10 according to the first embodiment. Since the other configurations are identical to those of the first embodiment, the same reference numerals will be given to the same components and no description will be given thereof.
(53) FIGS. 18A to 18D are views illustrating the advancing and retracting mechanism 40 according to the second embodiment. The advancing and retracting mechanism 40 includes a trapezoidal screw (screw shaft) 41, a female screw block 42 which is threaded onto the trapezoidal screw 41, a transition piece fixing member 43 which is fixed to the combustor transition piece 3, and a sliding member 44 which is interposed between the female screw block 42 and the transition piece fixing member 43.
(54) As shown in FIGS. 18A to 18D, the female screw block 42 includes a body portion 421 which has a substantially semicircular cross-section, a flat plate portion 422 which has a flat shape, and a pin 423 which protrudes from a bottom surface of the flat plate 422. A screw hole 421a is formed so as to pass through the body portion 421. In addition, although not shown in detail in the drawing, female screws are cut on an inner peripheral surface of the screw hole 421a.
(55) As shown in FIGS. 18A to 18D, the transition piece fixing member 43 includes a fitting piece 431 which has a substantially flat shape. In addition, an upper surface of the transition piece fixing member 43 is formed with a pin insertion hole 432 into which the pin 423 is inserted. As shown in FIG. 18D, the pin insertion hole 432 has a hole diameter D1 larger than an outer diameter D2 of the pin 423.
(56) As shown in FIGS. 18A to 18D, the sliding member 44 is a member which has a substantially C-shaped cross-section. A lower surface of the sliding member 44 is formed with a fitting groove 441. The fitting groove 441 has a groove width W5 larger than a lateral width W6 of the fitting piece 431 of the transition piece fixing member 43. In addition, the sliding member 44 is penetratively formed with a pin inserting hole 442 which has substantially the same diameter as the pin 423.
(57) As shown in FIG. 18A, in the sliding member 44 having such a configuration, the transition piece fixing member 43 is mounted on a lower portion of the sliding member 44 by fitting the fitting piece 431 into the fitting groove 441. At this time, as described above, the groove width W5 of the fitting groove 441 is formed to be larger than the lateral width W6 of the fitting piece 431. Accordingly, the fitting piece 431 may move in a direction parallel with the line segment SB indicated in FIG. 6 in the inside of the fitting groove 441. Furthermore, although not shown in detail in the drawing, both end surfaces of the sliding member 44 are covered by plate members or the like and the plate members or the like seal both end openings of the fitting groove 441. Accordingly, the fitting piece 431 is restricted from moving in a longitudinal direction, namely, in a direction substantially perpendicular to the lateral width direction in the inside of the fitting groove 441.
(58) In addition, as shown in FIG. 18A, the female screw block 42 is mounted to an upper portion of the sliding member 44 by inserting the pin 423 into the pin inserting hole 442. Then, the pin 423 is inserted into the pin insertion hole 432 of the transition piece fixing member 43. At this time, the sliding member 44 may move in a direction perpendicular to the line segment SB indicated in FIG. 6 by the pin 423 being ejected from or inserted into the pin insertion hole 432. In this way, the sliding member 44 connects the female screw block 42 and the transition piece fixing member 43 to be movable relative to each other in a plane perpendicular to a female screw axis MA.
(59) Next, an effect of the transition piece assembling apparatus 10 according to the second embodiment of the present invention will be described. First, when the support portions 12, which are provided at the combustor transition piece 3, move along the rails 11 by an equal distance, the axis of the combustor transition piece 3 is in agreement with the axis of the combustor 1. In this case, as shown in FIG. 18A, the fitting piece 431 of the transition piece fixing member 43 is located at the central portion in the groove width direction in the inside of the fitting groove 441 of the sliding member 44. In addition, in this case, the pin 423 of the female screw block 42 passes through the pin inserting hole 442 of the sliding member 44 and is inserted into the pin insertion holes 432 of the transition piece fixing member 43.
(60) When a deviation of a movement distance along the rails 11 is caused between the support portions 12 provided at the combustor transition piece 3, there is a case in which the combustor transition piece 3 moves in a direction parallel with the line segment SB linking the pair of rails 11 as shown in FIG. 6. However, in this case, the transition piece fixing member 43 moves from a state indicated in FIG. 18A to the right toward the paper and enters a state indicated in FIG. 18B, thereby absorbing the movement of the combustor transition piece 3. Alternatively, the transition piece fixing member 43 moves from a state indicated in FIG. 18A to the left toward the paper and enters a state indicated in FIG. 18C, thereby absorbing the movement of the combustor transition piece 3. Accordingly, a load is not applied to the trapezoidal screw 41 even by the movement of the combustor transition piece 3 and a bending is not caused at the trapezoidal screw 41. Thus, the trapezoidal screw 41 may be smoothly rotated and the combustor transition piece 3 may be smoothly moved.
(61) When the deviation of the movement distance along the rails 11 is caused between the support portions 12 provided at the combustor transition piece 3, there is a case in which the combustor transition piece 3 moves in a direction perpendicular to the line segment SB linking the pair of rails 11 as shown in FIG. 6. However, in this case, the transition piece fixing member 43 and the sliding member 44 move from a state indicated in FIG. 18A to the lower toward the paper and enter a state indicated in FIG. 18D, thereby absorbing the movement of the combustor transition piece 3. Accordingly, a load is not applied to the trapezoidal screw 41 even by the movement of the combustor transition piece 3 and a bending is not caused at the trapezoidal screw 41. Thus, the trapezoidal screw 41 may be smoothly rotated and the combustor transition piece 3 may be smoothly moved.
Third Embodiment
(62) Next, a member assembling apparatus of a rotary machine according to a third embodiment of the present invention will be described. Similarly to the first embodiment, also in the present embodiment, a gas turbine as an example of the rotary machine and a combustor transition piece as an example of a member constituting the rotary machine will be described. In a transition piece assembling apparatus 10 according to the present embodiment, only a configuration of an advancing and retracting mechanism 50 differs from that of the transition piece assembling apparatus 10 according to the first embodiment. Since the other configurations are identical to those of the first embodiment, the same reference numerals will be given to the same components and no description will be given thereof.
(63) FIG. 19 is an exploded perspective view illustrating a configuration of the advancing and retracting mechanism 50 according to the third embodiment. The advancing and retracting mechanism 50 includes a trapezoidal screw (screw shaft) which is not shown, a female screw block 51 which is threaded onto the trapezoidal screw, a transition piece fixing member 52 which is fixed to the combustor transition piece 3, and a sliding member 53 which is interposed between the female screw block 51 and the transition piece fixing member 52.
(64) As shown in FIG. 19, the female screw block 51 is formed with a groove portion 511. In addition, the transition piece fixing member 52 is formed with a protrusion 521. The sliding member 53 is formed with a convex portion 531 which is fitted into the groove portion 511, and a concave portion 532 into which the protrusion 521 is fitted and which extends in a direction perpendicular to the convex portion 531.
(65) In such a configuration, the sliding member 53 slides with respect to the female screw block 51 or the transition piece fixing member 52 slides with respect to the sliding member 53, thereby enabling the absorption of the movement of the combustor transition piece 3 in a direction parallel with or perpendicular to the line segment SB indicated in FIG. 6.
(66) Furthermore, various shapes, combinations, operation procedures or the like of each component illustrated in the above-mentioned embodiments serve as an example, and various modifications and variations can be made based on the design requirement and the like without departing from the spirit or scope of the present invention.
INDUSTRIAL APPLICABILITY
(67) A member assembling apparatus of a rotary machine according to the present invention includes a pair of rails which is provided to be in the direction parallel with an axis of a member constituting a rotary machine, and to be spaced at intervals in a plane perpendicular to the axis of a member constituting a rotary machine, support portions which are connected to the member constituting the rotary machine and support the member to be movable in longitudinal directions of the rails, a screw shaft which is disposed in parallel with the axis of the member constituting the rotary machine between the pair of rails, a female screw block which is threaded onto the screw shaft, and a sliding member which is provided between the female screw block and the member and connects the female screw block and the member to be movable relative to each other in a plane perpendicular to a female screw axis.
(68) In the member assembling apparatus of a rotary machine according to the present invention, when a member advances and retracts by turning a ball screw in order to attach and detach the member constituting the rotary machine, a load may be prevented from being applied to the ball screw and the ball screw may be smoothly rotated, even if the member is an inclined state.
DESCRIPTION OF REFERENCE NUMERALS AND SIGNS
(69) 1: combustor 2: combustor inner cylinder 3: combustor transition piece 3a: insertion hole 3b: key groove 4: casing 4a: opening portion 4b: cover fixing bolt hole 4c: concave portion 7: cover body 8: pipe 10: transition piece assembling apparatus 11: rail 11a: rail body 11b: reinforcement member 11c: connection member 11d: gap 11e: connection bolt hole 11f: front end 11g: base end 12: support portion 12a: piece body 12b: arm portion 12c: fixing portion 12d: fixture inserting hole 13: advancing and retracting mechanism 14: fixture 14a: shaft portion 14b: key 14c: head portion 15: spring member 20: front end member 20a: front end 20b: base end 21: base end member 21a: front end 21b: base end 22: support pin 23: first casing attachment plate 23a: upper member 23b: lower member 23c: first through hole 23d: second through hole 23e: connection portion 23f: guide insertion hole 23g: bolt inserting hole 23h: one surface 23i: other surface 23j: accommodation concave portion 23k: connection bolt 24: fixing bolt 25: base end fixing portion 26: second casing attachment plate 26a: third through hole 26b: connection portion 26c: connection bolt 27: support member 28: fixing plate 29: fixing bolt 31: trapezoidal screw 32: female screw block 33: transition piece fixing member 34: sliding member 200: gas turbine 200a: installation surface 201: compressor 202: turbine 203: combustion gas passage 203a: inlet portion 321: body portion 321a: screw hole 322: fitting piece 331: body portion 331a: notch portion 332: pin 341: fitting groove 342: pin insertion hole 40: advancing and retracting mechanism 41: trapezoidal screw 42: female screw block 421: body portion 421a: screw hole 422: flat plate portion 423: pin 43: transition piece fixing member 431: fitting piece 432: pin insertion hole 44: sliding member 441: fitting groove 442: pin inserting hole 50: advancing and retracting mechanism 51: female screw block 511: groove portion 52: transition piece fixing member 521: protrusion 53: sliding member 531: convex portion 532: concave portion D1: hole diameter D2: outer diameter L: axis of combustor L1: interval L2: interval MA: female screw axis SB: line segment W1: lateral width W2: lateral width W3: groove width W4: opening width W5: groove width W6: lateral width
