CN111211527B - Power output system in wind power tower cylinder - Google Patents

Abstract

The invention relates to the technical field of wind power generation, in particular to a power output system in a wind power tower, which is arranged in the tower and comprises a plurality of bus tubes, flexible connections and mounting supports, wherein the mounting supports are uniformly and fixedly arranged on the inner side of the tower along the vertical direction, the bus tubes are mutually connected through the flexible connections, each mounting support comprises a mounting seat, each mounting seat comprises a lap joint fixing seat and a clamping fixing seat, lap joint parts are fixedly arranged on the bus tubes, lap joint holes are formed in the lap joint fixing seats, the bus tubes penetrate through the lap joint holes, and the lap joint parts are in lap joint with the lap joint holes for limiting; the clamping fixing seat is clamped and fixed with the bus tube. The invention can greatly reduce the difficulty of positioning, installing and fixing the bus tube, thereby improving the installation efficiency.

Description

Power output system in wind power tower cylinder

Technical Field

The invention relates to the technical field of wind power generation, in particular to a power output system in a wind power tower.

Background

Wind power generation is widely popularized worldwide as a novel clean energy source. The wind power generation power is transmitted through a power output system, and the electric energy transmission system is arranged inside a tower barrel of the wind power generation.

Current power output system includes many generating lines pipe and flexible connector, connects through flexible connector between the generating line pipe, and the generating line pipe passes through the installing support to be connected with a tower section of thick bamboo, and the installing support includes fixing base and sliding seat, and the fixing base level is fixed at the inside wall of a tower section of thick bamboo, and fixed connection can be dismantled with the fixing base to the sliding seat, and the generating line pipe is located between fixing base and the sliding seat and presss from both sides tightly through fixing base and sliding seat. In the process of installing the power output system, the fixing seat is firstly fixed on the inner side of the tower barrel, then the bus tubes are hoisted one by one, and the bus tubes are clamped and fixedly connected by the movable seat.

The weak point of above-mentioned prior art lies in, at the in-process of hoist and mount generating line pipe, needs to carry out the real-time measurement adjustment to the mounting height of generating line pipe, guarantees that the erection space between the generating line pipe is reasonable to still adjust the position of generating line pipe at the in-process of fixed generating line pipe and make its mounted position that is located between fixing base and the sliding seat, and carry out high altitude construction in the finite space of a tower section of thick bamboo, there is great installation degree of difficulty.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide the power output system in the wind power tower barrel, and the effect of reducing the installation difficulty of the power output system is achieved.

The invention aims to be realized by the following technical scheme:

a power output system in a wind power tower is arranged in a tower and comprises a plurality of bus tubes, flexible connections and mounting supports, wherein the mounting supports are uniformly and fixedly arranged on the inner side of the tower in the vertical direction, the bus tubes are mutually connected through the flexible connections, the mounting supports comprise mounting seats, each mounting seat comprises a lap joint fixing seat and a joint fixing seat, lap joint parts are fixedly arranged on the bus tubes, lap joint holes are formed in the lap joint fixing seats, the bus tubes penetrate through the lap joint holes, and the lap joint parts are in lap joint with the lap joint holes for limiting; the clamping fixing seat is clamped and fixed with the bus tube.

Through adopting the above technical scheme, at installation power output system's in-process, can be earlier with the installing support fixed mounting that a generating line pipe corresponds at the inside wall of a tower section of thick bamboo, later install overlap joint fixing base and joint fixing base on the installing support of difference, hoist and mount generating line pipe afterwards, insert the overlap joint downthehole of overlap joint fixing base with the lower extreme of generating line pipe, make the overlap joint portion and the overlap joint hole overlap joint of generating line pipe, realize the effect of quick location generating line pipe position, later recycle joint fixing base and generating line pipe fixed connection, accomplish the installation of generating line pipe, can greatly reduced generating line pipe location and the fixed degree of difficulty of installation, thereby promote the efficiency of installation.

The present invention in a preferred example may be further configured to: the lapping fixed seat is provided with a clamping mechanism for clamping the bus tube, and a cavity is arranged inside the lapping fixed seat and is positioned outside the lapping hole; clamping mechanism includes the fixed plate, the overlap joint pole, gangbar and butt pole, the vertical inside at the cavity of fixing plate, the middle part and the fixed plate of overlap joint pole pass through the horizontal axis and articulate, the butt pole is located the top of overlap joint pole, the lateral wall of cavity is all passed and the inboard of overlap joint hole is stretched into to the one end of butt joint pole and overlap joint pole respectively, the both ends of gangbar are articulated at the inside one end of cavity with butt joint pole and overlap joint pole respectively, the fixed columniform locating lever that is provided with on the fixed plate, the guide way has been seted up along the length direction of gangbar to the middle part of gangbar, the locating lever is located the guide way and with guide way sliding fit.

Through adopting above-mentioned technical scheme, the overlap joint portion of generating line pipe is pegged graft after the overlap joint is downthehole, and the overlap joint portion is at first pressed down and is moved overlap joint pole relatively fixed plate and rotate, and the overlap joint pole rotates and can drive the relative locating lever of gangbar and slide and rotate, and later the gangbar promotes the butt pole and removes towards the overlap joint portion, carries out the butt to the overlap joint portion and fixes to realize the purpose of quick fixed generating line pipe, reduce the degree of difficulty of generating line pipe installation.

The present invention in a preferred example may be further configured to: the insertion part of the butt-joint rod and the side wall of the cavity is provided with a guide sleeve, the guide sleeve is rotatably connected with the side wall of the cavity through a horizontal shaft, and the butt-joint rod is in insertion fit with the guide sleeve.

Through adopting above-mentioned technical scheme, utilize the grafting effect of butt joint pole and uide bushing, the rotation trend of the relative cavity lateral wall of butt joint pole can shift to the rotation of uide bushing and cavity lateral wall, can promote the stability that the butt joint pole removed.

The present invention in a preferred example may be further configured to: the lap joint fixing seat is characterized in that a reinforcement cylinder is integrally arranged above the lap joint fixing seat, the reinforcement cylinder is sleeved outside the lap joint holes and is concentrically arranged, a reinforcement sleeve is sleeved on the bus tube and is positioned above the lap joint part, the reinforcement sleeve is abutted against the lap joint part, and the reinforcement sleeve can be in threaded connection with the reinforcement cylinder to fix the lap joint part in an abutting manner between the reinforcement sleeve and the lap joint holes.

By adopting the technical scheme, the reinforcement sleeve is connected with the reinforcement cylinder in a threaded manner, and the reinforcement sleeve can tightly press and fix the lap joint part between the reinforcement sleeve and the lap joint hole, so that the connection stability between the bus tube and the lap joint fixing seat is ensured, and the bus tube and the lap joint fixing seat are prevented from being continuously abraded due to relative movement in the shaking process of the tower cylinder.

The present invention in a preferred example may be further configured to: the mounting bracket further comprises a fixing bracket and an elastic bracket, and the lap joint fixing seat and the clamping fixing seat are respectively mounted on the elastic bracket and the fixing bracket.

Through adopting above-mentioned technical scheme, after setting up elastic support and fixed bolster, elastic support can produce elastic deformation to adjust the distance between elastic support and the fixed bolster, reduce the internal force between generating line pipe and fixed bolster and the elastic support, thereby reduce power transmission system's fault rate.

The present invention in a preferred example may be further configured to: the elastic support comprises a connecting plate, an elastic plate and a mounting plate, the elastic plate is fixedly arranged below two ends of the connecting plate, and two ends of the mounting plate are respectively and fixedly connected below the elastic plate.

Through adopting above-mentioned technical scheme, utilize the deformation effect of elastic plate, can change the interval between connecting plate and the mounting panel to change the interval between mounting panel and the fixed bolster, thereby make also can adjust the length of interval in order to adapt to the generating line pipe between elastic support and the fixed bolster when electric energy transmission system rocks along with a tower section of thick bamboo, reduce electric energy transmission system's internal stress, thereby reduce the fault rate.

The present invention in a preferred example may be further configured to: the mounting plate is provided with a long round mounting hole, and the length direction of the mounting hole is parallel to the length direction of the bus tube; the lap joint fixing seat is fixedly connected with the mounting plate through a mounting bolt, a sliding sleeve is accommodated in the mounting hole, the length of the sliding sleeve is larger than the thickness of the mounting plate, and the mounting bolt penetrates through the sliding sleeve to be in threaded connection with the lap joint fixing seat.

Through adopting above-mentioned technical scheme, when a tower section of thick bamboo orientation was close to the lopsidedness of installing support, the deflection of distance was less than the volume that the generating line pipe warp between fixed bolster and the elastic support, and the generating line pipe just can drive the relative mounting panel of overlap joint fixing base and upwards slide this moment, and the sliding sleeve slides in the mounting hole promptly to the deflection of supplementary generating line pipe reaches the effect that reduces generating line pipe stress.

The second purpose of the invention is realized by the following technical scheme:

a method for installing a power output system in a wind power tower comprises the following steps:

s1, firstly, fixedly connecting a plurality of lapping fixed seats and clamping fixed seats relative to the inner side wall of the tower drum, wherein the lapping fixed seats and the clamping fixed seats are arranged adjacently in the vertical direction;

s2, mounting the bus tubes one by one from bottom to top, firstly hoisting the bus tubes, and inserting the lower ends of the bus tubes into the lap joint holes to enable the lap joint parts to be in lap joint with the lap joint holes for limiting;

s3, clamping and fixing the upper end of the bus tube by utilizing a clamping fixing seat;

and S4, connecting the two bus tubes by using flexible connection.

Through adopting above-mentioned technical scheme, at the in-process of electric power output system installation, the lower extreme of generating line pipe can be spacing through the overlap joint of overlap joint portion with the overlap joint hole, realizes the effect of quick location generating line pipe position to generating line pipe overlap joint also can be more stable in the position of generating line pipe after the overlap joint hole, thereby reduces the installation degree of difficulty of generating line pipe, promotes the efficiency of installation greatly.

In summary, the present invention has the following technical effects:

1. the lapping part is arranged on the bus tube, and the lapping hole is formed in the lapping fixing seat, so that the mounting difficulty of the bus tube can be reduced, and the mounting efficiency of the bus tube is improved;

2. the clamping mechanism is arranged in the lapping fixed seat, so that the effect of rapidly clamping and fixing the bus tube is achieved, and the mounting efficiency is improved;

3. through dividing into fixed bolster and elastic support with the installing support, reached the effect that reduces the internal force between generating line pipe and fixed bolster and the elastic support.

Drawings

FIG. 1 is a schematic three-dimensional structure of the present embodiment installed in a tower;

FIG. 2 is a three-dimensional schematic view highlighting the bus bar tube and mounting bracket mounting structure;

FIG. 3 is an enlarged view of FIG. 2 at layout A;

fig. 4 is a schematic cross-sectional view showing the clamping mechanism highlighted.

In the figure, 1, a bus tube; 11. an insulating sleeve; 111. an installation part; 12. a force increasing sleeve; 2. flexible connection; 3. mounting a bracket; 31. fixing a bracket; 32. an elastic support; 321. a connecting plate; 322. an elastic plate; 323. mounting a plate; 3231. mounting holes; 3232. a sliding sleeve; 33. a mounting seat; 331. installing a bolt; 332. lapping the fixed seat; 3321. a lap joint hole; 3322. a cavity; 3323. a force increasing cylinder; 333. clamping the fixed seat; 3331. a fixed seat; 3332. a movable seat; 34. measuring the rope; 4. a clamping mechanism; 41. a fixing plate; 42. a lap joint rod; 43. a linkage rod; 431. a guide groove; 44. a butting rod; 45. positioning a rod; 46. a guide sleeve; 9. a tower drum.

Detailed Description

The first embodiment is as follows:

as shown in fig. 1, this embodiment introduces a power output system in a wind power tower, power output system sets up in the inside of a tower section of thick bamboo 9, including a plurality of generating line pipes 1, flexonics 2 and installing support 3, and a plurality of installing support 3 fixed connection are at the inside wall of a tower section of thick bamboo 9, and installing support 3 is vertical evenly to be set up, and generating line pipe 1 fixed mounting is on installing support 3, then connects through flexonics 2 between the generating line pipe 1. When a tower barrel 9 rocks, the bus tube 1 and the mounting bracket 3 can rock along with the tower barrel 9, and in the process of rocking, the dislocation between the bus tubes 1 is adjusted through the flexible connection 2, so that the internal stress between electric energy transmission systems is reduced.

As shown in the combined drawing 1, when the tower barrel 9 rocks, the bus tube 1 and the mounting bracket 3 also rock, generally one bus tube 1 is provided with two mounting brackets 3 for supporting, and along with the different directions of the tower barrel 9, the deformation degree between the bus tube 1 and the two mounting brackets 3 is different. When the tower barrel 9 shakes towards the direction in which the mounting brackets 3 are far away from the bus tubes 1, the deformation of the distance between the mounting brackets 3 is smaller than that of the bus tubes 1; when the tower barrel 9 rocks towards the direction that the bus tube 1 is far away from the mounting brackets 3, the deformation of the bus tube 1 is smaller than that between the mounting brackets 3. Because the deflection between the installing support 3 is asynchronous with the deflection of generating line pipe 1, consequently can produce great stress often between generating line pipe 1 and the installing support 3 at the in-process that tower section of thick bamboo 9 rocked, lead to generating line pipe 1 to warp, trouble such as mounting screw is not hard up, and the fault rate is higher.

In order to solve the above problem, as shown in fig. 1, the mounting bracket 3 is configured as a fixed bracket 31, an elastic bracket 32 and a mounting seat 33, the mounting seat 33 is connected to both the fixed bracket 31 and the elastic bracket 32, and generally, the fixed bracket 31 is located above the elastic bracket 32. After the elastic support 32 and the fixed support 31 are arranged, the elastic support 32 can be elastically deformed, so that the distance between the elastic support 32 and the fixed support 31 is adjusted, the internal force between the bus pipe 1 and the fixed support 31 and the elastic support 32 is reduced, and the failure rate of the power transmission system is reduced.

The resilient support 32 may be of various constructions and forms, and this embodiment is described by way of reference. As shown in fig. 2, in the present embodiment, the elastic bracket 32 includes a connecting plate 321, an elastic plate 322 and a mounting plate 323, the elastic plate 322 is fixedly disposed below two ends of the connecting plate 321, and two ends of the mounting plate 323 are respectively and fixedly connected below the elastic plate 322. The elastic plate 322 is a C-shaped plate in this embodiment, and of course, the shape of the elastic plate 322 is not limited to the C-shaped plate, but may be other structures with elasticity, such as a spring. Utilize elastic plate 322's deformation effect, when tower section of thick bamboo 9 produces and rocks, the distance between connecting plate 321 and the fixed bolster 31 changes asynchronous with the deflection of generating line pipe 1, generating line pipe 1 will drive mounting panel 323 relative connection plate 321 and produce relative movement this moment, compensate with the change volume between connecting plate 321 and the fixed bolster 31, elastic plate 322 can produce deformation this moment and provide the compensation volume, and also can play the effect of supporting generating line pipe 1, thereby greatly reduced generating line pipe 1 and fixed bolster 31 and the internal stress between the elastic support 32, thereby reduce power transmission system's fault rate.

As shown in fig. 1, the mounting seat 33 is divided into a lap fixing seat 332 and a snap fixing seat 333, the lap fixing seat 332 is generally located below the snap fixing seat 333, and each bus pipe 1 is generally fixedly connected by one lap fixing seat 332 and one or more snap fixing seats 333. The clamping fixing seat 333 is fixedly connected with the fixing support 31, and the lapping fixing seat 332 is fixedly connected or movably connected with the mounting plate 323.

In this embodiment, the fixed seat 332 is movably connected to the mounting plate 323, and the specific structure is as follows: as shown in fig. 3, the mounting plate 323 is provided with a mounting hole 3231 having a long circular shape, and the length direction of the mounting hole 3231 is parallel to the length direction of the bus tube 1; the bottom of the fixed overlapping seat 332 is connected with the mounting plate 323 through a mounting bolt 331, a sliding sleeve 3232 is arranged in the mounting hole 3231, the length of the sliding sleeve 3232 is larger than the thickness of the mounting plate 323, and the mounting bolt 331 penetrates through the sliding sleeve 3232 to be in threaded connection with the fixed overlapping seat 332. When a tower section of thick bamboo 9 orientation was close to the direction slope that installing support 3 kept away from bus-bar tube 1, the deflection of distance was less than the amount that bus-bar tube 1 warp between fixed bolster 31 and the elastic support 32, and bus-bar tube 1 just can drive the relative mounting panel 323 of overlap joint fixing base 332 and upwards slide this moment, and sliding sleeve 3232 slides in mounting hole 3231 promptly to supply the deflection of bus-bar tube 1, reach the effect that reduces bus-bar tube 1 stress. Meanwhile, after the arrangement, when the tower tube 9 is inclined towards the direction of the mounting bracket 3 away from the bus bar tube 1, the elastic plate 322 of the elastic bracket 32 does not generate compression deformation, so that the fatigue damage strength of the elastic plate 322 can be greatly reduced, and because the elastic plate 322 only generates tensile deformation when the tower tube 9 is inclined towards the direction of the bus bar tube 1 away from the mounting bracket 3, the service life of the elastic plate 322 can be greatly prolonged.

As shown in fig. 2, the clamping fixing seat 333 includes a fixing seat 3331 and a movable seat 3332, the fixing seat 3331 is fixedly connected to the fixing support 31, and the movable seat 3332 and the fixing seat 3331 are detachably and fixedly connected by bolts to clamp the bus bar pipe 1.

As shown in fig. 4, the bus tube 1 is provided with the overlapping portion 11, the overlapping portion 11 is an insulating sleeve, the overlapping portion 11 is riveted or fixedly connected with the bus tube 1 after being sleeved outside the bus tube 1, the overlapping fixing seat 332 is provided with an overlapping hole 3321, the bus tube 1 penetrates through the overlapping hole 3321, and the overlapping portion 11 is overlapped with the overlapping hole 3321 and is limited. At this moment at the in-process of installation generating line pipe 1, can insert the overlap joint hole 3321 of overlap joint fixing base 332 with the lower extreme of generating line pipe 1 in for the overlap joint portion 11 and the overlap joint hole 3321 overlap joint of generating line pipe 1 realize the effect of quick location generating line pipe 1 position, later recycle joint fixing base 333 and generating line pipe 1 fixed connection, accomplish generating line pipe 1's installation, can the fixed degree of difficulty of greatly reduced generating line pipe 1 location and installation, thereby promote the efficiency of installation.

As shown in fig. 4, the lower end of the overlapping part 11 is integrally connected with an installation part 111, the diameter of the outer peripheral surface of the installation part 111 is smaller than that of the outer peripheral surface of the overlapping part 11, the installation part 111 and the overlapping hole 3321 are inserted and matched with each other, and the overlapping part 11 is overlapped with the overlapping hole 3321. After the below of overlap joint portion 11 sets up installation department 111, installation department 111 can insert in the overlap joint hole 3321, and overlap joint portion 11 can the overlap joint in the top of overlap joint hole 3321, is favorable to fixing a position bus-bar pipe 1 at the in-process of installation, guarantees installation distance and installation stability between the bus-bar pipe 1.

As shown in fig. 4, in order to ensure that the mounting portion 111 on the bus bar tube 1 can be quickly fixed after being inserted into the overlapping hole 3321, a clamping mechanism 4 for clamping the bus bar tube 1 may be disposed on the overlapping fixing seat 332, a cavity 3322 is disposed inside the overlapping fixing seat 332, and the cavity 3322 is located outside the overlapping hole 3321. As shown in fig. 4, the clamping mechanism 4 includes a fixing plate 41, a lapping rod 42, a linkage rod 43 and an abutting rod 44, the fixing plate 41 is vertically fixed inside the cavity 3322, the middle portion of the lapping rod 42 is hinged to the fixing plate 41 through a horizontal shaft, the abutting rod 44 is located above the lapping rod 42, one ends of the abutting rod 44 and the lapping rod 42 penetrate through the side wall of the cavity 3322 and extend into the inner side of the lapping hole 3321, two ends of the linkage rod 43 are hinged to one ends of the abutting rod 44 and the lapping rod 42 inside the cavity 3322, a cylindrical positioning rod 45 is fixedly arranged on the fixing plate 41, a guide groove 431 is formed in the middle portion of the linkage rod 43 along the length direction of the linkage rod 43, and the positioning rod 45 is located in the guide groove 431 and is in sliding fit with the guide groove 431. After the installation department 111 of generating line pipe 1 is pegged graft in overlap joint hole 3321, installation department 111 at first pushes down and moves overlap joint pole 42 relative fixed plate 41 and rotates, and overlap joint pole 42 rotates and can drive linkage rod 43 relative positioning pole 45 and slide and rotate, and later linkage rod 43 promotes butt joint pole 44 and removes towards installation department 111, carries out the butt to installation department 111 and fixes to realize the purpose of quick fixed generating line pipe 1, reduce the degree of difficulty of generating line pipe 1 installation.

Since the lap joint rod 42 is rotated relative to the fixing plate 41, the height of the hole on the inner side wall of the cavity 3322 for inserting the lap joint rod 42 is longer to avoid affecting the rotation of the lap joint rod 42. Along with the rotation of the butt-joint rod 42, the movement track of the linkage rod 43 has a comprehensive track of upward movement and rotation relative to the positioning rod 45, the movement track of the butt-joint rod 44 is also a comprehensive track of horizontal movement and self rotation, and the aperture of a hole in the side wall of the cavity 3322 for the butt-joint rod 44 to be plugged is small, so that the stability of the butt-joint rod 44 can be improved. As shown in fig. 4, in order to further improve the moving stability of the abutting rod 44, a guide sleeve 46 may be disposed at the insertion position of the abutting rod 44 and the side wall of the cavity 3322, the guide sleeve 46 is rotatably connected to the side wall of the cavity 3322 through a horizontal shaft, and the abutting rod 44 is inserted into and matched with the guide sleeve 46. By the insertion function of the abutting rod 44 and the guide sleeve 46, the rotation trend of the abutting rod 44 relative to the side wall of the cavity 3322 can be transferred to the rotation of the guide sleeve 46 and the side wall of the cavity 3322, and the moving stability of the abutting rod 44 can be improved.

In order to avoid the serious abrasion between the overlapping part 11 and the overlapping fixing seat 332 due to the relative displacement between the bus tube 1 and the overlapping fixing seat 332 in the shaking process of the tower 9, as shown in fig. 4, a force increasing cylinder 3323 may be integrally arranged above the overlapping fixing seat 332, the force increasing cylinder 3323 is concentrically arranged outside the overlapping hole 3321 in a sleeved manner, a force increasing sleeve 12 is sleeved on the bus tube 1, the force increasing sleeve 12 is located above the overlapping part 11, the force increasing sleeve 12 abuts against the overlapping part 11, and the force increasing sleeve 12 can be in threaded connection with the force increasing cylinder 3323 to fixedly abut against the overlapping part 11 between the force increasing sleeve 12 and the overlapping hole 3321. By utilizing the threaded connection between the force increasing sleeve 12 and the force increasing cylinder 3323, the force increasing sleeve 12 can tightly press and fix the lap joint part 11 between the force increasing sleeve 12 and the lap joint hole 3321, thereby ensuring the connection stability between the bus tube 1 and the lap joint fixing seat 332 and avoiding the continuous abrasion caused by the relative movement between the bus tube 1 and the lap joint fixing seat 332 in the shaking process of the tower drum 9.

Example two:

the embodiment introduces an installation method of a power output system in a wind power tower, which includes the following steps:

s1, firstly, fixedly connecting a plurality of overlapping fixed seats 332 and clamping fixed seats 333 relative to the inner side wall of the tower tube 9, wherein the overlapping fixed seats 332 and the clamping fixed seats 333 are arranged adjacent to each other in the vertical direction;

s2, installing the bus tubes 1 one by one from bottom to top, firstly hoisting the bus tubes 1, and inserting the lower ends of the bus tubes 1 into the lap joint holes 3321 to enable the lap joint parts 11 to be in lap joint with the lap joint holes 3321 for limiting;

s3, clamping and fixing the upper end of the bus tube 1 by utilizing a clamping fixing seat 333;

and S4, connecting two bus tubes 1 by using a flexible connection 2.

At the in-process of electric power output system installation, the lower extreme of generating line pipe 1 can be spacing through the overlap joint of overlap joint portion 11 and overlap joint hole 3321, realizes the effect of quick location generating line pipe 1 position to generating line pipe 1 overlap joint also can be more stable in the position of generating line pipe 1 after on overlap joint hole 3321, thereby reduces generating line pipe 1's the installation degree of difficulty, promotes the efficiency of installation greatly.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (1)

1. The utility model provides a power output system in wind power tower cylinder, sets up inside tower cylinder (9), including a plurality of generating line pipes (1), flexonics (2) and installing support (3), installing support (3) are along the inboard of vertical direction even fixed setting at tower cylinder (9), connect through flexonics (2) between generating line pipe (1), its characterized in that, installing support (3) include mount pad (33), mount pad (33) include overlap joint fixing base (332) and joint fixing base (333), the fixed overlap joint portion (11) that is provided with on generating line pipe (1), overlap joint hole (3321) has been seted up on overlap joint fixing base (332), generating line pipe (1) pass overlap joint hole (3321) and overlap joint portion (11) and overlap joint hole (3321) overlap joint are spacing; the clamping fixing seat (333) is clamped and fixed with the bus tube (1); the mounting bracket (3) further comprises a fixed bracket (31) and an elastic bracket (32), and the lapping fixed seat (332) and the clamping fixed seat (333) are respectively mounted on the elastic bracket (32) and the fixed bracket (31); the elastic support (32) comprises connecting plates (321), elastic plates (322) and mounting plates (323), the elastic plates (322) are fixedly arranged below the connecting plates (321) at two ends, and two ends of the mounting plates (323) are respectively and fixedly connected below the elastic plates (322); the mounting plate (323) is provided with a long round mounting hole (3231), and the length direction of the mounting hole (3231) is parallel to the length direction of the bus tube (1); the lapping fixed seat (332) is fixedly connected with the mounting plate (323) through a mounting bolt (331), a sliding sleeve (3232) is arranged in a mounting hole (3231), the length of the sliding sleeve (3232) is greater than the thickness of the mounting plate (323), and the mounting bolt (331) penetrates through the sliding sleeve (3232) to be in threaded connection with the lapping fixed seat (332); the lapping fixing seat (332) is provided with a clamping mechanism (4) for clamping the bus tube (1), a cavity (3322) is formed inside the lapping fixing seat (332), and the cavity (3322) is located on the outer side of the lapping hole (3321); the clamping mechanism (4) comprises a fixing plate (41) and an overlapping rod (42), linkage rod (43) and butt rod (44), fixed plate (41) are vertically fixed in cavity (3322), the middle part of overlap joint pole (42) is articulated with fixed plate (41) through the horizontal axis, butt joint pole (44) is located the top of overlap joint pole (42), the lateral wall of cavity (3322) is all passed and the inboard of overlap joint hole (3321) is stretched into to the one end of butt joint pole (44) and overlap joint pole (42), the both ends of linkage rod (43) are articulated with butt joint pole (44) and the one end of overlap joint pole (42) in cavity (3322) inside respectively, fixed be provided with columniform locating lever (45) on fixed plate (41), guide way (431) have been seted up along the length direction of linkage rod (43) in the middle part of linkage rod (43), locating lever (45) are located guide way (431) and with guide way (431) sliding fit; a guide sleeve (46) is arranged at the insertion position of the abutting rod (44) and the side wall of the cavity (3322), the guide sleeve (46) is rotatably connected with the side wall of the cavity (3322) through a horizontal shaft, and the abutting rod (44) is in insertion fit with the guide sleeve (46); a reinforcement cylinder (3323) is integrally arranged above the lapping fixed seat (332), the reinforcement cylinder (3323) is sleeved outside the lapping hole (3321) and concentrically arranged, a reinforcement sleeve (12) is sleeved on the bus tube (1), the reinforcement sleeve (12) is located above the lapping part (11), the reinforcement sleeve (12) is abutted against the lapping part (11), and the reinforcement sleeve (12) can be in threaded connection with the reinforcement cylinder (3323) to abut against and fix the lapping part (11) between the reinforcement sleeve (12) and the lapping hole (3321).

Images