CN218655073U - Blade turnover structure for wind power blade recovery - Google Patents

Abstract

The utility model relates to an electricity blade processing technology field just discloses a wind-powered electricity generation blade is retrieved and is used blade flip structure, including body mechanism, positioning mechanism, coupling mechanism and accepting mechanism, positioning mechanism is located the top of body mechanism, coupling mechanism is located the upper end of body mechanism, positioning mechanism is located coupling mechanism's inboard, accepting mechanism is located positioning mechanism's rear end, coupling mechanism is including rotating platform, driving piece, pivot, gear one, gear two, circular rack and connecting piece, driving piece fixed mounting is in the outer end of rotating the platform, pivot fixed mounting is in the transmission end of driving piece, gear one fixed mounting is in the outer end of pivot. This wind-powered electricity generation blade is retrieved and is used blade flip structure starts the driving piece and can let circular rack rotate to drive outside wind-powered electricity generation blade and rotate by a wide margin, has distinguished the loaded down with trivial details that adopts the manual drive gyro wheel upset of hand wheel, lets the convenience of this wind-powered electricity generation blade recovery work increase.

Description

Blade turnover structure for wind power blade recovery

Technical Field

The utility model relates to a wind-powered electricity generation blade processing technology field specifically is a blade flip structure is used in wind-powered electricity generation blade recovery.

Background

Aerogenerator is one kind can turn into wind energy mechanical energy's power machinery, the wind-powered electricity generation blade is when retrieving the maintenance, need to carry out work such as spraying paint again with old wind-powered electricity generation blade, because wind-powered electricity generation blade is bulky, for guaranteeing that the more effectual completion of wind-powered electricity generation blade can spray paint, so need overturn the wind-powered electricity generation blade, need artifical auxiliary operation wind-powered electricity generation blade to rotate in the upset process, in order to guarantee that wind-powered electricity generation blade can effectively overturn, but adopt the upset of the artifical drive gyro wheel of hand wheel, not only operate hard, and the turnover efficiency is low, the wind-powered electricity generation blade has been led to and has been retrieved work efficiency and has been reduced.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

An object of the utility model is to provide a wind-powered electricity generation blade is retrieved and is used blade flip structure to the manual drive gyro wheel upset of hand wheel that adopts is proposed to lead to the problem that wind-powered electricity generation blade retrieves work efficiency and reduces among the above-mentioned background art of solution.

(II) technical scheme

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a wind-powered electricity generation blade is blade flip structure for retrieving, includes body mechanism, positioning mechanism, coupling mechanism and receiving mechanism, positioning mechanism is located body mechanism's top, coupling mechanism is located body mechanism's upper end, positioning mechanism is located coupling mechanism's inboard, receiving mechanism is located positioning mechanism's rear end.

Preferably, coupling mechanism is including rotating platform, driving piece, pivot, gear one, gear two, circular rack, connecting piece and guard box, driving piece fixed mounting is in the outside of rotating the platform, pivot fixed mounting is in the transmission end of driving piece, gear fixed mounting is in the outer end of pivot, two movable mounting of gear are in the outer end of gear one, circular rack movable mounting is in the outer end of gear two, circular rack is connected for the meshing with gear two, through installation driving piece and circular rack, starts the driving piece and can let circular rack rotate to drive outside wind-powered electricity generation blade and carry out the large amplitude rotation, has distinguished the loaded down with trivial details that adopts the manual drive gyro wheel upset of hand wheel, lets the convenience of this wind-powered electricity generation blade recovery work increase, has improved the work efficiency of this structure.

Preferably, connecting piece fixed mounting is in the outer end of circular rack, the connecting piece is the outer end of symmetric distribution in circular rack, guard box fixed mounting is in the front end of driving piece, and through erection joint spare, the stability that connecting piece multiplicable positioning mechanism and circular rack are connected has improved this wind-powered electricity generation blade and has rotated the stability of upset.

Preferably, body mechanism includes upset workstation, support column, base and consolidates the platform, support column fixed mounting is at the lower extreme of upset workstation, the support column is the equidistance and distributes in the lower extreme of upset workstation, and through the erection bracing post, the support column can form bearing structure at the lower extreme of upset workstation, lets the upset in-process of wind-powered electricity generation blade more stable, and the reduction rocks.

Preferably, base fixed mounting is at the lower extreme of support column, consolidate a fixed mounting in the upper end of upset workstation, consolidate the platform and be the equidistance and distribute in the upper end of upset workstation, consolidate the platform through the installation, a plurality of reinforcement platforms can form bearing structure at the lower extreme of revolving stage, have further improved the stability that the device used.

Preferably, positioning mechanism includes grip block one, connecting block, threaded rod, changes and elastic component, grip block one fixed mounting is in the top of upset workstation, grip block one fixed mounting is in the inboard of revolving stage, grip block one is the inboard of symmetric distribution in the revolving stage, connecting block movable mounting is in the below of grip block one, and through installation grip block one and connecting block, the grip block one and the connecting block that are the symmetric installation can form fixed clamping structure at the both ends of wind-powered electricity generation blade, lets the wind-powered electricity generation blade avoid dropping at the upset in-process to the stability of wind-powered electricity generation blade upset has been guaranteed.

Preferably, threaded rod threaded connection is in the inner of grip block one, change the upper end of fixed mounting at the threaded rod, elastic component fixed mounting is at the lower extreme of grip block one, the lower extreme of elastic component is fixed connection with the upper end of connecting block, and through the installation threaded rod, the threaded rod can be connected grip block one and connecting block through changeing the rotation, lets grip block one and connecting block centre gripping that can be stable behind spacing wind-powered electricity generation blade in wind-powered electricity generation blade outer end, further effectually prevented that the wind-powered electricity generation blade from droing at the upset in-process.

Preferably, the supporting mechanism includes a bearing block, a connecting shell, a motor and a connecting shaft, the bearing block is movably mounted at the rear of the first clamping block, the bearing block is fixedly mounted at the front end of the connecting piece, the connecting shell is fixedly mounted at the front end of the bearing block, the motor is fixedly mounted at the inner end of the connecting shell, the connecting shaft is fixedly mounted at the transmission end of the motor, the connecting shaft is fixedly connected with the first clamping block, the motor can rotate at the first clamping block through the mounting of the motor, and the first clamping block can rotate to different angles to adjust the position.

Compared with the prior art, the beneficial effects of the utility model are that:

1. according to the blade overturning structure for wind power blade recovery, the driving piece and the circular rack are installed, the driving piece is started to drive the second gear to be meshed with the circular rack, so that wind power blades outside the circular rack can be greatly rotated, the trouble of manually driving the roller to overturn by adopting a hand wheel is distinguished, the convenience of the wind power blade recovery work is increased, and the work efficiency of the structure is improved;

2. according to the blade overturning structure for wind power blade recovery, the clamping blocks I and the connecting blocks which are symmetrically arranged can form fixed clamping structures at two ends of a wind power blade by installing the clamping blocks I and the connecting blocks, so that the wind power blade is prevented from falling off in the overturning process, and the overturning stability of the wind power blade is ensured;

3. this wind-powered electricity generation blade is retrieved and is used blade flip structure, through the installation threaded rod, the threaded rod is through changeing the rotation, can be connected grip block one and connecting block, lets grip block one and connecting block centre gripping that can be stable behind spacing wind-powered electricity generation blade in wind-powered electricity generation blade outer end, further effectually prevented that wind-powered electricity generation blade from droing at the upset in-process.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the cross-sectional structure of the turntable of the present invention;

FIG. 3 is a side view, sectional and schematic structural view of the protection box of the present invention;

fig. 4 is a schematic view of the enlarged plane structure at a in fig. 2 according to the present invention.

Fig. 5 is a schematic perspective view of the enlarged structure at B in fig. 1 according to the present invention.

In the figure: 1. a body mechanism; 101. turning over the workbench; 102. a support column; 103. a base; 104. a reinforcing table; 2. a positioning mechanism; 201. a first clamping block; 202. connecting blocks; 203. a threaded rod; 204. turning a handle; 205. an elastic member; 3. a connecting mechanism; 301. a rotating table; 302. a drive member; 303. a rotating shaft; 304. a first gear; 305. a second gear; 306. a circular rack; 307. a connecting member; 308. a protective box; 4. a carrying mechanism; 401. a bearing block; 402. a connecting shell; 403. a motor; 404. and (7) connecting the shafts.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a blade overturning structure for wind power blade recovery comprises a body mechanism 1, a positioning mechanism 2, a connecting mechanism 3 and a bearing mechanism 4, wherein the positioning mechanism 2 is located above the body mechanism 1, the connecting mechanism 3 is located at the upper end of the body mechanism 1, the positioning mechanism 2 is located on the inner side of the connecting mechanism 3, and the bearing mechanism 4 is located at the rear end of the positioning mechanism 2;

the connecting mechanism 3 comprises a rotating table 301, a driving part 302, a rotating shaft 303, a first gear 304, a second gear 305, a circular rack 306, a connecting part 307 and a protective box 308, the driving part 302 is fixedly installed at the outer side of the rotating table 301, the rotating shaft 303 is fixedly installed at the transmission end of the driving part 302, the first gear 304 is fixedly installed at the outer end of the rotating shaft 303, the second gear 305 is movably installed at the outer end of the first gear 304, the circular rack 306 is movably installed at the outer end of the second gear 305, the circular rack 306 is meshed with the second gear 305, the driving part 302 and the circular rack 306 are installed, the driving part 302 is started to drive the first gear 304 and the second gear 305 to simultaneously rotate, the second gear 305 and the circular rack 306 are meshed, wind power blades outside the circular rack 306 are greatly rotated, the complexity of manually driving the roller to turn over by adopting a hand wheel is distinguished, the convenience of the wind power blade recovery work is increased, and the work efficiency of the structure is improved;

the connecting piece 307 is fixedly installed at the outer end of the circular rack 306, the connecting pieces 307 are symmetrically distributed at the outer end of the circular rack 306, the protective box 308 is fixedly installed at the front end of the driving piece 302, the connecting piece 307 can increase the stability of the connection between the positioning mechanism 2 and the circular rack 306 by installing the connecting piece 307, and the stability of the rotation and the overturning of the wind power blade is improved, the body mechanism 1 comprises an overturning workbench 101, a support column 102, a base 103 and a reinforcing platform 104, the support column 102 is fixedly installed at the lower end of the overturning workbench 101, the support column 102 is equidistantly distributed at the lower end of the overturning workbench 101 by installing the support column 102, the support column 102 can form a support structure at the lower end of the overturning workbench 101, so that the overturning process of the wind power blade is more stable, the swinging is reduced, the stability of the structure is improved, the base 103 is fixedly installed at the lower end of the support column 102, the reinforcing platform 104 is fixedly installed at the upper end of the overturning workbench 101, the reinforcing platform 104 is equidistantly distributed at the upper end of the overturning workbench 101, and the plurality of the reinforcing platforms 104 can form a support structure at the lower end of the rotating platform 301, so that the wind power blade is reduced from falling off caused by swinging in the overturning process of the wind power blade, and the device is further improved in stability of the use;

the positioning mechanism 2 comprises a clamping block I201, a connecting block 202, a threaded rod 203, a rotating handle 204 and an elastic piece 205, the clamping block I201 is fixedly arranged above the overturning worktable 101, the clamping block I201 is fixedly arranged on the inner side of the rotating table 301, the clamping block I201 is symmetrically arranged on the inner side of the rotating table 301, the connecting block 202 is movably arranged below the clamping block I201, through the installation of the clamping block I201 and the connecting block 202, the clamping block I201 and the connecting block 202 which are symmetrically arranged can form a fixed clamping structure at two ends of the wind power blade, the wind power blade is prevented from falling off in the overturning process, the overturning stability of the wind power blade is ensured, the overturning effect of the device is increased, the using effect of the device is improved, the threaded rod 203 is in threaded connection with the inner end of the clamping block I201, the rotating handle 204 is fixedly arranged at the upper end of the threaded rod 203, and the elastic piece 205 is fixedly arranged at the lower end of the clamping block I201, the lower end of the elastic piece 205 is fixedly connected with the upper end of the connecting block 202, the threaded rod 203 is installed, the threaded rod 203 is rotated through the rotating handle 204, the clamping block 201 and the connecting block 202 can be connected, the clamping block 201 and the connecting block 202 can be stably clamped at the outer end of the wind power blade after the wind power blade is limited, the wind power blade is further effectively prevented from falling off in the overturning process, the stability of the device in the overturning process is further improved, the bearing mechanism 4 comprises a bearing block 401, a connecting shell 402, a motor 403 and a connecting shaft 404, the bearing block 401 is movably installed behind the clamping block 201, the bearing block 401 is fixedly installed at the front end of the connecting piece 307, the connecting shell 402 is fixedly installed at the front end of the bearing block 401, the motor 403 is fixedly installed at the inner end of the connecting shell 402, the connecting shaft 404 is fixedly installed at the transmission end of the motor 403, and the connecting shaft 404 is fixedly connected with the clamping block 201, through installation motor 403, motor 403 can rotate at grip block one 201, lets grip block one 201 can rotate and carry out position control to different angles, has improved the suitability of this grip block one 201.

The working principle is as follows: this wind-powered electricity generation blade is retrieved and is used blade flip structure, place the wind-powered electricity generation blade that will retrieve when using at the grip block 201 that is the symmetry installation the inner, the grip block 201 that is the symmetry installation and connecting block 202 can form fixed clamping structure at the both ends of wind-powered electricity generation blade, let the wind-powered electricity generation blade avoid dropping and drop in the upset in-process, thereby the stability of wind-powered electricity generation blade upset has been guaranteed, let the device's upset effect increase, then rotate threaded rod 203 through changeing 204, can connect grip block 201 and connecting block 202, let grip block 201 and connecting block 202 can stable centre gripping behind spacing wind-powered electricity generation blade in the wind-powered electricity generation blade outer end, further effectual wind-powered electricity generation blade that has prevented drops in the upset in-process, the stable centre gripping of blade is in the inboard of revolving stage 301 this moment, then driving piece 302, 302 can drive gear one 305 and gear two 305 and rotate simultaneously, pivoted gear two 305 mesh with circular rack 306, let the wind-powered electricity generation blade outside wind-powered electricity generation blade rotate by a wide margin, thereby drive wind-powered electricity generation blade and overturn, the loaded down with trivial details that adopts the manual drive gyro wheel to retrieve, let this wind-powered electricity generation blade to retrieve work efficiency has been improved.

It should be finally noted that the above only serves to illustrate the technical solution of the present invention, and not to limit the scope of the present invention, and that simple modifications or equivalent replacements performed by those skilled in the art to the technical solution of the present invention do not depart from the spirit and scope of the technical solution of the present invention.

Claims (7)

1. The utility model provides a wind-powered electricity generation blade is blade flip structure for recovery, includes body mechanism (1), positioning mechanism (2), coupling mechanism (3) and receiving mechanism (4), its characterized in that: the positioning mechanism (2) is positioned above the body mechanism (1), the connecting mechanism (3) is positioned at the upper end of the body mechanism (1), the positioning mechanism (2) is positioned at the inner side of the connecting mechanism (3), and the bearing mechanism (4) is positioned at the rear end of the positioning mechanism (2);

coupling mechanism (3) are including revolving stage (301), driving piece (302), pivot (303), gear (304), gear two (305), circular rack (306), connecting piece (307) and guard box (308), driving piece (302) fixed mounting is in the outside of revolving stage (301), pivot (303) fixed mounting is in the transmission end of driving piece (302), gear one (304) fixed mounting is in the outer end of pivot (303), gear two (305) movable mounting is in the outer end of gear one (304), circular rack (306) movable mounting is in the outer end of gear two (305), circular rack (306) are connected for the meshing with gear two (305).

2. The blade overturning structure for recovering the wind power blade as claimed in claim 1, wherein: the connecting piece (307) is fixedly arranged at the outer end of the circular rack (306), the connecting piece (307) is symmetrically distributed at the outer end of the circular rack (306), and the protective box (308) is fixedly arranged at the front end of the driving piece (302).

3. The blade overturning structure for wind power blade recovery according to claim 2, characterized in that: body mechanism (1) is including upset workstation (101), support column (102), base (103) and reinforcement platform (104), support column (102) fixed mounting is at the lower extreme of upset workstation (101), support column (102) are the equidistance and distribute in the lower extreme of upset workstation (101).

4. The blade overturning structure for recovering the wind power blade as claimed in claim 3, wherein: base (103) fixed mounting is at the lower extreme of support column (102), consolidate platform (104) fixed mounting in the upper end of upset workstation (101), consolidate platform (104) and be the equidistance and distribute in the upper end of upset workstation (101).

5. The blade overturning structure for wind power blade recovery according to claim 4, characterized in that: positioning mechanism (2) include grip block (201), connecting block (202), threaded rod (203), change (204) and elastic component (205), grip block (201) fixed mounting is in the top of upset workstation (101), grip block (201) fixed mounting is in the inboard of rotating platform (301), grip block (201) are symmetric distribution in the inboard of rotating platform (301), connecting block (202) movable mounting is in the below of grip block (201).

6. The blade overturning structure for recovering the wind power blade as claimed in claim 5, wherein: the threaded rod (203) is in threaded connection with the inner end of the first clamping block (201), the rotating handle (204) is fixedly installed at the upper end of the threaded rod (203), the elastic piece (205) is fixedly installed at the lower end of the first clamping block (201), and the lower end of the elastic piece (205) is fixedly connected with the upper end of the connecting block (202).

7. The blade overturning structure for recovering the wind power blade as claimed in claim 6, wherein: receiving mechanism (4) is including bearing piece (401), connecting shell (402), motor (403) and connecting axle (404), bearing piece (401) movable mounting is in the rear of grip block (201), bearing piece (401) fixed mounting is at the front end of connecting piece (307), connecting shell (402) fixed mounting is at the front end that bears piece (401), motor (403) fixed mounting is in the inner of connecting shell (402), connecting axle (404) fixed mounting is in the transmission end of motor (403), connecting axle (404) and grip block (201) are fixed connection.

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