CN113171919A

CN113171919A - Surface coating processing device for wind power blade

Info

Publication number: CN113171919A
Application number: CN202110338078.4A
Authority: CN
Inventors: 李永胜
Original assignee: Individual
Current assignee: Beijing Longnuo Technology Co ltd
Priority date: 2021-03-30
Filing date: 2021-03-30
Publication date: 2021-07-27
Anticipated expiration: 2041-03-30
Also published as: CN113171919B

Abstract

The invention discloses a surface coating processing device of a wind power blade, which belongs to the technical field of wind power blades and comprises a conveying device, a limiting device, a turnover device, a supporting device, a spraying device and a drying device, wherein the supporting device is arranged on the ground, the conveying device is arranged on the ground and used for conveying the wind power blade through the conveying device, the limiting device is arranged on the ground and below the conveying device, the wind power blade is limited in position through the limiting device, the turnover device is arranged on one side of the limiting device and below the conveying device, the wind power blade is turned over through the conveying device, so that the other part of the wind power blade can be processed, the spraying device and the drying device are arranged on the supporting device and above the conveying device, the surface coating processing of the lower wind power blade is carried out through the spraying device, and the part processed by the spraying device is dried through the drying device, the spraying device and the drying device are symmetrically arranged.

Description

Surface coating processing device for wind power blade

Technical Field

The invention belongs to the technical field of wind power blades, and particularly relates to a surface coating processing device of a wind power blade.

Background

The existing coating spraying equipment for the wind power blade is a spraying equipment used for spraying and processing the coating of the wind power blade, and is widely applied to the processing occasions of the wind power blade; when the coating spraying equipment of the wind power blade is used, a large amount of paint is wasted, the paint pollutes the air on site, meanwhile, the wind power blade cannot be sprayed in all directions, manual turnover is needed, and the manpower labor is increased, which can be avoided.

Disclosure of Invention

The embodiment of the invention provides a processing device for a surface coating of a wind power blade, and aims to solve the problems that in the prior art, the surface coating of the wind power blade is performed manually, the labor time is wasted, the operation is inconvenient, the health is possibly damaged, and the health obligation of a patient is polluted.

The embodiment of the invention adopts the following technical scheme: the automatic spraying and drying device comprises a conveying device, a limiting device, a turnover device, a supporting device, a spraying device and a drying device, wherein the supporting device is installed on the ground, the conveying device is arranged on one side of the supporting device, the limiting device is arranged below the conveying device, the turnover device is arranged on one side of the limiting device and below the conveying device, the spraying device and the drying device are both installed on the supporting device and above the conveying device, and the spraying device and the drying device are symmetrically arranged.

Further, the conveying device comprises a conveying motor, two first conveying belts, a conveying roller, a roller shaft, a first supporting rod, a second supporting rod and motor positioning plates, the motor positioning plates are arranged on the ground, the two motor positioning plates are symmetrically arranged, the conveying motor is arranged between the two motor positioning plates, the first conveying belts are connected with the output ends of the conveying motor, the two first conveying belts are symmetrically arranged, the first supporting rod and the second supporting rod are both arranged on the ground, the first supporting rod and the second supporting rod are provided with a plurality of supporting rods, the first supporting rod and the second supporting rod are symmetrically arranged side by side, two ends of the roller shaft are respectively arranged at one end of the first supporting rod and one end of the second supporting rod, the first conveying belt is sleeved on the roller shaft, the roller shaft is provided with a plurality of rollers, the conveying roller is sleeved on the roller shaft, and the conveying roller is provided with a plurality of rollers.

Further, conveyer still includes the transition axle, the transition axle is equipped with a plurality of, a plurality of the transition axle is connected through first connecting rod each other.

Further, the limiting device comprises a limiting rod, a fixed disc, a disc shaft, a movable block, a third supporting rod, a first electric cylinder, a fourth supporting rod, two first fixing rods, two second fixing rods and a third fixing rod, wherein the limiting rod is arranged between the two conveying rollers, the two limiting rods are symmetrically arranged, the third supporting rod is arranged below the limiting rod, the two third supporting rods are symmetrically arranged, one end of each first fixing rod is connected with one end of the corresponding third supporting rod, the two first fixing rods are symmetrically arranged, one end of each first fixing rod is connected with one end of each second fixing rod, one end of each second fixing rod is connected with one end of the corresponding limiting rod, the two second fixing rods are symmetrically arranged, first dead lever one end still is connected to the one end of third dead lever, the one end of third dead lever is connected to the one end of first electric jar, the third dead lever is equipped with two, two the third dead lever symmetry is placed, the movable block cover is established at the disc epaxially, the disc axle is installed on fixed disc, the fourth bracing piece is connected fixed disc and ground, the fourth bracing piece is equipped with two, two the fourth bracing piece symmetry is placed.

Further, the turnover device comprises two turnover rods, two fixing blocks, a second electric cylinder, a semicircular disc, a second conveyor belt, a turnover motor, a supporting block, a supporting plate, a sliding wheel, a first sliding block, a first sliding rod, a first sliding motor and a fifth supporting rod, wherein the turnover rods are arranged between the conveying rollers, the two turnover rods are symmetrically arranged, the fixing blocks are arranged on the turnover rods and positioned below the turnover rods, the two fixing blocks are symmetrically arranged, the two fixing blocks are connected through the second electric cylinder, the semicircular disc is arranged on one side of the turnover rods, one end of the second conveyor belt is sleeved on the semicircular disc, one end of the second conveyor belt is connected with the output end of the turnover motor, the supporting block is arranged below the turnover motor, the sliding wheel and the first sliding block are arranged below the supporting block, the movable pulley is equipped with four, four the movable pulley symmetry is placed, first sliding block cover is established on first slide bar, first slide bar is connected to first sliding motor's output, first sliding motor sets up in the backup pad, be equipped with the second recess in the backup pad, the backup pad below is provided with the fifth bracing piece.

Further, the supporting device comprises two supporting frames, two second sliding motors, two second sliding rods, two second sliding blocks, a first moving crawler, a first crawler supporting plate, a second moving crawler, a second crawler supporting plate, a second connecting rod, a third sliding motor, a third sliding rod, a third sliding block and a first extending plate, the two supporting frames are arranged on the ground, the two supporting frames are symmetrically arranged, the second sliding motors are arranged at the top ends of the supporting frames, the two second sliding motors are symmetrically arranged, the second sliding rods are connected to the output ends of the second sliding motors, the two second sliding rods are symmetrically arranged, the second sliding blocks are sleeved on the second sliding rods, the two second sliding blocks are symmetrically arranged, the first crawler supporting plates are arranged in the middle of the supporting frame, two first crawler supporting plates are arranged, the two first crawler supporting plates are symmetrically arranged, the first moving crawler is arranged on the first crawler supporting plates, the two first moving crawlers are arranged, the two first moving crawlers are symmetrically arranged, the two ends of the second crawler supporting plates are respectively connected to the two first moving crawlers, the second moving crawler is arranged on the second crawler supporting plates, the second connecting rods are arranged above the second crawler supporting plates, the two second connecting rods are arranged, the two second connecting rods are symmetrically arranged and are respectively connected with the two second sliding blocks, the third sliding motor is arranged at one end of one second sliding block, the third sliding rod is connected to the output end of the third sliding motor, and the third sliding block is sleeved on the third sliding rod, the third slide block is connected to one end of the second moving track, and the first extension plate is disposed above the third slide block.

Further, the spraying device sets up on first extension board, the spraying device includes third electric jar, second extension board, first extension rod and shower nozzle, third electric jar one end and first extension board are connected, the second extension board is connected to the other end of third electric jar, second extension board one end is connected to on the first extension rod, the shower nozzle is connected on first extension rod.

Further, drying device sets up on first extension board, drying device includes fourth electric jar, third extension board, second extension rod and drying head, fourth electric jar one end and first extension board are connected, the third extension board is connected to the other end of fourth electric jar, be connected to on the second extension rod on the third extension board, the drying head is connected on the second extension rod.

The embodiment of the invention adopts at least one technical scheme which can achieve the following beneficial effects:

firstly, when the turnover mechanism is used, the turnover motor of the turnover device drives the semicircular disc to rotate, so that the turnover rod rotates after clamping the wind power blade and the first sliding motor moves the turnover motor, the problem of manual turnover can be solved, labor force is reduced, and labor time is not wasted.

When the spraying and drying device is used, the second sliding block and the first moving crawler are driven by the second sliding motor of the supporting device to drive the second crawler supporting rod to move, so that the spraying and drying device and the drying device can move front and back and left and right, the up and down movement is realized through the telescopic motion of the electric cylinder, and the spraying or drying device can be used for spraying or drying at various angles in space.

Thirdly, when the novel roller conveyor is used, the transition shafts respectively correspond to the plurality of roller shafts, so that the contact surfaces of the roller shafts and the first conveyor belt are increased, the phenomenon of slipping is avoided, the transition shafts are connected through the first connecting rod to form a whole, deformation is not easy to occur, and the novel roller conveyor is more stable and firm.

Fourthly, when the drying device is used, the spraying device and the drying device are both arranged on the supporting device, so that the problem of space can be solved well, and the cost is reduced.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

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

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic view of a structure of a position limiting device according to the present invention;

FIG. 4 is a first schematic view of the position structure of the conveying device, the limiting device and the turning device according to the present invention;

FIG. 5 is a schematic diagram of a second position structure of the conveying device, the limiting device and the turning device according to the present invention;

FIG. 6 is a schematic view of the supporting device of the present invention;

FIG. 7 is a schematic view of a portion of the support device of the present invention;

FIG. 8 is a first schematic structural view of the turning device of the present invention;

FIG. 9 is a second schematic structural view of the turning device of the present invention;

fig. 10 is a schematic view of the position structure of the drying device and the spraying device of the present invention.

Reference numerals

The conveying device 1, the conveying motor 11, the first conveying belt 12, the conveying roller 13, the roller shaft 14, the first support rod 15, the second support rod 16, the motor positioning plate 17, the transition shaft 18, the first connecting rod 19, the limiting device 2, the limiting rod 21, the fixed disc 22, the disc shaft 23, the movable block 24, the third support rod 25, the first electric cylinder 26, the fourth support rod 27, the first fixing rod 28, the second fixing rod 29, the third fixing rod 211, the turnover device 3, the turnover rod 31, the fixed block 32, the second electric cylinder 33, the semicircular disc 34, the second conveying belt 35, the turnover motor 36, the support block 37, the support plate 38, the sliding block pulley 39, the first 311, the first sliding rod 312, the first sliding motor 313, the fifth support rod 314, the support device 4, the support frame 41, the second sliding motor 42, the second sliding rod 43, the second sliding block 44, the first moving crawler 45, the first crawler support plate 46, the second moving crawler 47, the second crawler support plate 48, the second connecting rod 49, the third sliding motor 411, the third sliding rod 412, the third sliding block 413, the first extending plate 414, the spraying device 5, the third electric cylinder 51, the second extending plate 52, the first extending rod 53, the spraying head 54, the drying device 6, the fourth electric cylinder 61, the third extending plate 62, the second extending rod 63 and the drying head 64.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

The embodiment of the invention provides a processing device for a surface coating of a wind power blade, which comprises a conveying device 1, a limiting device 2, a turnover device 3, a supporting device 4, a spraying device 5 and a drying device 6, wherein the supporting device 4 is arranged on the ground, the conveying device 1 is arranged at one side of the supporting device 4, the wind power blade is conveyed through the conveying device 1, the wind power blade does not need to be manually conveyed during working, the unnecessary labor force is liberated, the limiting device 2 is arranged below the conveying device 1, the wind power blade which reaches the position is limited in position through the limiting device 2, the wind power blade can be more convenient for subsequent operation, the turnover device 3 is arranged at one side of the limiting device 2 and below the conveying device 1, and the wind power blade which is partially sprayed and dried is turned over through the conveying device 1, the other part can be processed, the spraying device 5 and the drying device 6 are both installed on the supporting device 4 and are located above the conveying device 1, the wind power blade below is processed through the spraying device 5, the part processed by the spraying device 5 is dried through the drying device 6 after the spraying device 5 finishes working, so that the coating cooling time can be reduced, the subsequent processing is facilitated, and the spraying device 5 and the drying device 6 are symmetrically arranged.

Preferably, the conveying device 1 includes a conveying motor 11, a first conveying belt 12, a conveying roller 13, a roller shaft 14, a first support rod 15, a second support rod 16 and two motor positioning plates 17, the motor positioning plates 17 are installed on the ground, the two motor positioning plates 17 are symmetrically arranged, the conveying motor 11 is installed between the two motor positioning plates 17, the conveying motor 11 is positioned and supported by the motor positioning plates 17, the first conveying belt 12 is connected with the output end of the conveying motor 11, the first conveying belt 12 is provided with two first conveying belts 12, the two first conveying belts 12 are symmetrically arranged, the first conveying belt 12 is operated by the output end of the conveying motor 11, the first support rod 15 and the second support rod 16 are both arranged on the ground, the first support rod 15 and the second support rod 16 are provided with a plurality of rods, the first supporting rod 15 and the second supporting rod 16 are symmetrically arranged side by side, two ends of the roller shaft 14 are respectively installed at one end of the first supporting rod 15 and one end of the second supporting rod 16, the first conveying belt 12 is sleeved on the roller shaft 14, the roller shaft 14 is provided with a plurality of supporting rods, the roller shaft 14 connects the plurality of first supporting rods 15 and the second supporting rod 16, meanwhile, the first supporting rods 15 and the second supporting rod 16 also support the plurality of roller shafts 14, the conveying roller 13 is sleeved on the roller shaft 14, the conveying roller 13 is provided with a plurality of supporting rods, the first conveying belt 12 is powered through the output end of the conveying motor 11, the roller shaft 14 rotates through the first conveying belt 12, the conveying roller 13 further rotates, and the wind power blades on the conveying roller are transmitted.

Preferably, the conveying device 1 further comprises a plurality of transition shafts 18, the transition shafts 18 are provided, the plurality of transition shafts 18 respectively correspond to the plurality of roller shafts 14, so that the contact surface between the roller shafts 14 and the first conveying belt 12 is increased, and the phenomenon of slipping does not occur, and the plurality of transition shafts 18 are connected with each other through first connecting rods 19, so that the transition shafts are integrated, are not easy to deform, and are more stable and firm.

Preferably, the limiting device 2 comprises a limiting rod 21, a fixed disc 22, a disc shaft 23, a movable block 24, a third supporting rod 25, a first electric cylinder 26, a fourth supporting rod 27, a first fixing rod 28, a second fixing rod 29 and a third fixing rod 211, wherein the limiting rod 21 is arranged between the two conveying rollers 13, a first groove is formed in the middle of the limiting rod 21, the first groove corresponds to the side end of the wind power blade, so that position deviation of the wind power blade cannot occur, the limiting rod 21 is provided with two limiting rods 21, the two limiting rods 21 are symmetrically arranged, the third supporting rod 25 is arranged below the limiting rod 21, the three supporting rods 25 are provided with two third supporting rods 25, the first fixing rod 28 is connected with one end of the third supporting rod 25, the first fixing rod 28 is provided with two, the two first fixing rods 28 are symmetrically arranged, one end of the first fixing rod 28 is connected to one end of a second fixing rod 29, one end of the second fixing rod 29 is connected to one end of a limiting rod 21, two second fixing rods 29 are provided, two second fixing rods 29 are symmetrically arranged, one end of the first fixing rod 28 is further connected to one end of a third fixing rod 211, one end of the third fixing rod 211 is connected to one end of a first electric cylinder 26, two third fixing rods 211 are provided, the third fixing rod 211 is symmetrically arranged, the third fixing rod 211 is moved by the movement of the first electric cylinder 26, the first fixing rod 28 is moved by the movement of the third fixing rod 211, the second fixing rod 29 and the third supporting rod 25 are moved by the movement of the first fixing rod 28, the moving block is moved up and down by the movement of the second fixing rod 29, and the third supporting rod 25 is limited by the moving block, remove gag lever post 21 through third supporting shoe 37 to carry out the injecing in the position to the wind-powered electricity generation blade, place the wind-powered electricity generation blade in suitable position, movable block 24 covers is established on disc axle 23, disc axle 23 is installed on fixed disc 22, fourth bracing piece 27 is connected fixed disc 22 and ground, fourth bracing piece 27 is equipped with two, two fourth bracing piece 27 symmetry is placed, supports whole stop device 2 through fourth bracing piece 27.

Preferably, the turnover device 3 includes a turnover rod 31, a fixed block 32, a second electric cylinder 33, a semicircular disc 34, a second conveyor belt 35, a turnover motor 36, a supporting block 37, a supporting plate 38, a sliding wheel 39, a first sliding block 311, a first sliding rod 312, a first sliding motor 313 and a fifth supporting rod 314, the turnover rod 31 is disposed between the conveying rollers 13, the turnover rod 31 is provided with two, the two turnover rods 31 are symmetrically disposed, the fixed block 32 is disposed on and below the turnover rod 31, the fixed block 32 is provided with two, the two fixed blocks 32 are symmetrically disposed, the two fixed blocks 32 are connected through the second electric cylinder 33, the fixed blocks 32 are moved in opposite directions through the second electric cylinder 33, so that the two turnover rods 31 are moved in opposite directions, the semicircular disc 34 is disposed on one side of the turnover rod 31, one end of the second conveyor belt 35 is sleeved on the semicircular disc 34, one end of the second conveyor belt 35 is connected with an output end of a turning motor 36, the semicircular disc 34 is rotated by the turning motor 36, so that the turning rod 31 and the fixed block 32 are also rotated, the supporting block 37 is arranged below the turning motor 36, sliding wheels 39 and first sliding blocks 311 are arranged below the supporting block 37, four sliding wheels 39 are arranged, the four sliding wheels 39 are symmetrically arranged, the first sliding blocks 311 are sleeved on the first sliding rods 312, the first sliding rods 312 are connected to output ends of the first sliding motors 313, the first sliding motors 313 are arranged on the supporting plate 38, second grooves are arranged on the supporting plate 38, the second grooves and the sliding wheels 39 are matched with each other, the first sliding blocks 311 are moved by the first sliding motors 313, the supporting block 37 is moved by the first sliding blocks 311, and the supporting block 37 is moved more conveniently by the sliding wheels 39, a fifth support rod 314 is disposed below the support plate 38, and the entire turnover mechanism is supported by the fifth support rod 314.

Preferably, the supporting device 4 includes a supporting frame 41, a second sliding motor 42, a second sliding rod 43, a second sliding block 44, a first moving track 45, a first track supporting plate 46, a second moving track 47, a second track supporting plate 48, a second connecting rod 49, a third sliding motor 411, a third sliding rod 412, a third sliding block 413, and a first extending plate 414, the supporting frame 41 is disposed on the ground, two supporting frames 41 are disposed, the two supporting frames 41 are symmetrically disposed, the second sliding motor 42 is disposed at the top end of the supporting frame 41, the second sliding motor 42 is disposed, two second sliding motors 42 are symmetrically disposed, the second sliding rod 43 is connected to the output end of the second sliding motor 42, two second sliding rods 43 are disposed, the second sliding block 44 is sleeved on the second sliding rod 43, two second sliding blocks 44 are provided, two second sliding blocks 44 are symmetrically disposed, the first track support plate 46 is disposed in the middle of the support frame 41, two first track support plates 46 are provided, two first track support plates 46 are symmetrically disposed, the first moving tracks 45 are disposed on the first track support plates 46, two first moving tracks 45 are provided, two first moving tracks 45 are symmetrically disposed, both ends of the second track support plates 48 are respectively connected to the two first moving tracks 45, the second moving tracks 47 are disposed on the second track support plates 48, the second connecting rod 49 is disposed above the second track support plates 48, two second connecting rods 49 are provided, two second connecting rods 49 are symmetrically disposed and are respectively connected to the two second sliding blocks 44, the third sliding motor 411 is disposed at one end of one second sliding block 44, the third sliding rod 412 is connected to the output end of the third sliding motor 411, the third sliding block 413 is sleeved on the third sliding rod 412, the third sliding block 413 is connected to one end of the second moving crawler 47, the first extending plate 414 is arranged above the third sliding block 413, the third sliding motor 411 drives the third sliding block 413 to move, the second moving crawler 47 is also driven to move through the third sliding block 413, the third sliding block 413 and the second moving crawler 47 are limited mutually, the first extending plate 414 is driven to move left and right, the second sliding block 44 is driven to move through the second sliding motor 42, the second connecting rod 49 is driven to move, the second crawler supporting plate 48 is driven to move, the first moving crawler 45 is driven to move, and the first moving crawler 45 and the second sliding block 44 are limited mutually.

Preferably, the spraying device 5 is disposed on the first extension plate 414, the spraying device 5 includes a third electric cylinder 51, a second extension plate 52, a first extension rod 53 and a spray head 54, one end of the third electric cylinder 51 is connected to the first extension plate 414, the second extension plate 52 is connected to the other end of the third electric cylinder 51, the second extension plate 52 is connected to the first extension rod 53, the spray head 54 is connected to the first extension rod 53, the second extension plate 52 is moved by the third electric cylinder 51, the first extension rod 53 is moved by the second extension plate 52, and thus the spray head 54 is moved.

Preferably, the drying device 6 is disposed on the first extension plate 414, the drying device 6 includes a fourth electric cylinder 61, a third extension plate 62, a second extension rod 63 and a drying head 64, one end of the fourth electric cylinder 61 is connected to the first extension plate 414, the third extension plate 62 is connected to the other end of the fourth electric cylinder 61, the third extension plate 62 is connected to the second extension rod 63, the drying head 64 is connected to the second extension rod 63, the third extension plate 62 is moved by the fourth electric cylinder 61, the second extension rod 63 is moved by the third extension plate 62, and the drying head 64 is moved.

The working principle is as follows: firstly, the wind power blade is placed on the conveying roller 13, the first conveying belt 12 is moved through the conveying motor 11, the conveying roller 13 is rotated, the conveying motor 11 is closed after the conveying roller is moved to a proper position, the limiting device 2 works at the moment, the limiting rod 21 is moved oppositely through the telescopic motion of the first electric cylinder 26, the wind power blade is adjusted in position and state, the first electric cylinder 26 is restored after the adjustment is finished, the spraying device 5 works at the moment, the second sliding motor 42 of the supporting device 4 is used for moving the spraying device 5 back and forth, the third sliding motor 411 of the supporting device 4 is used for moving the spraying device 5 left and right, the spray head 54 is moved up and down through the third electric cylinder 51 of the spraying device 5, and the spraying work is completed.

After the spraying operation is finished, the drying device 6 works, the drying device 6 moves back and forth through the second sliding motor 42 of the supporting device 4, the drying device 6 moves left and right through the third sliding motor 411 of the supporting device 4, and the drying head 64 moves up and down through the fourth electric cylinder 61 of the drying device 6 to complete the drying operation.

Turning device 3 carries out work after the work is over, let trip lever 31 grasp the wind-powered electricity generation blade through second electric jar 33, second electric jar 33 stop work after grasping the end, let the wind-powered electricity generation blade remove about through second sliding motor 42, drive second conveyer belt 35 through upset motor 36 simultaneously and let half-disk 34 carry out rotary motion, let trip lever 31 through half-disk 34, fixed block 32 and second electric jar 33 rotate, make the wind-powered electricity generation blade also remove about rotatory.

Also end when the upset motor 36 removes to the right place after the wind-powered electricity generation blade and just in time removes, the work of first electric jar 26 makes upset pole 31 leave wind-powered electricity generation blade and accomplishes the upset work, rethread spraying device 5 carries out the spraying to wind-powered electricity generation blade's surface, rethread drying device 6 dries wind-powered electricity generation blade's coating, transports wind-powered electricity generation blade through conveying motor 11 after the stoving end and accomplishes whole work.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims

1. The utility model provides a surface coating processingequipment of wind-powered electricity generation blade, its characterized in that, includes conveyer (1), stop device (2), turning device (3), strutting arrangement (4), spraying device (5) and drying device (6), strutting arrangement (4) are installed subaerial, conveyer (1) is in strutting arrangement (4) one side, stop device (2) are in conveyer (1) below, turning device (3) are in one side of stop device (2) and are in conveyer (1) below, spraying device (5) and drying device (6) are all installed on strutting arrangement (4) and are in conveyer (1) top, spraying device (5) and drying device (6) symmetry are placed.

2. The surface coating processing device of the wind power blade is characterized in that the conveying device (1) comprises two conveying motors (11), two first conveying belts (12), two conveying rollers (13), a roller shaft (14), two first supporting rods (15), two second supporting rods (16) and two motor positioning plates (17), the motor positioning plates (17) are arranged on the ground, the two motor positioning plates (17) are symmetrically arranged, the conveying motor (11) is arranged between the two motor positioning plates (17), the first conveying belts (12) are connected with the output ends of the conveying motors (11), the first conveying belts (12) are arranged in two, the two first conveying belts (12) are symmetrically arranged, and the first supporting rods (15) and the second supporting rods (16) are arranged on the ground, first bracing piece (15) and second bracing piece (16) are equipped with a plurality of, a plurality of first bracing piece (15) and second bracing piece (16) are placed symmetrically side by side, install respectively at first bracing piece (15) and second bracing piece (16) one end at drum axle (14) both ends, first conveying belt (12) cover is established on drum axle (14), drum axle (14) are equipped with a plurality of, conveying roller (13) cover is established on drum axle (14), conveying roller (13) are equipped with a plurality of.

3. The surface coating processing device of the wind power blade as claimed in claim 2, wherein the conveying device (1) further comprises a plurality of transition shafts (18), the transition shafts (18) are provided with a plurality of transition shafts, and the transition shafts (18) are connected with each other through first connecting rods (19).

4. The surface coating processing device of the wind power blade as claimed in claim 2, wherein the limiting device (2) comprises a limiting rod (21), a fixed disc (22), a disc shaft (23), a movable block (24), a third supporting rod (25), a first electric cylinder (26), a fourth supporting rod (27), a first fixed rod (28), a second fixed rod (29) and a third fixed rod (211), the limiting rod (21) is arranged between two conveying rollers (13), two limiting rods (21) are provided, two limiting rods (21) are symmetrically arranged, the third supporting rod (25) is arranged below the limiting rod (21), two third supporting rods (25) are provided, two third supporting rods (25) are symmetrically arranged, one end of the first fixed rod (28) is connected with one end of the third supporting rod (25), the first fixing rods (28) are arranged in two, the first fixing rods (28) are symmetrically arranged, one end of each first fixing rod (28) is connected to one end of each second fixing rod (29), one end of each second fixing rod (29) is connected to one end of each limiting rod (21), the second fixing rods (29) are arranged in two, the second fixing rods (29) are symmetrically arranged, one end of each first fixing rod (28) is further connected to one end of each third fixing rod (211), one end of each third fixing rod (211) is connected to one end of each first electric cylinder (26), the third fixing rods (211) are arranged in two, the third fixing rods (211) are symmetrically arranged, the movable blocks (24) are sleeved on the disc shafts (23), the disc shafts (23) are installed on the fixed discs (22), and the fixed discs (22) are connected with the ground through the fourth supporting rods (27), the number of the fourth supporting rods (27) is two, and the two fourth supporting rods (27) are symmetrically arranged.

5. The surface coating processing device of the wind power blade as claimed in claim 2, wherein the turning device (3) comprises two turning rods (31), two fixing blocks (32), two electric cylinders (33), a semicircular disc (34), a second conveyor belt (35), a turning motor (36), a supporting block (37), a supporting plate (38), a sliding wheel (39), a first sliding block (311), a first sliding rod (312), a first sliding motor (313) and a fifth supporting rod (314), the turning rods (31) are arranged between the conveying rollers (13), the two turning rods (31) are symmetrically arranged, the two fixing blocks (32) are arranged on and below the turning rods (31), the two fixing blocks (32) are symmetrically arranged, the two fixing blocks (32) are connected through the second electric cylinders (33), the semicircular disc (34) is arranged at one side of the turning rod (31), one end of the second conveyor belt (35) is sleeved on the semicircular disc (34), one end of the second conveyor belt (35) is connected with the output end of the turnover motor (36), the supporting block (37) is arranged below the turnover motor (36), a sliding wheel (39) and a first sliding block (311) are arranged below the supporting block (37), the number of the sliding wheels (39) is four, the four sliding wheels (39) are symmetrically arranged, the first sliding block (311) is sleeved on a first sliding rod (312), the first sliding rod (312) is connected to the output end of a first sliding motor (313), the first sliding motor (313) is arranged on the supporting plate (38), a second groove is formed in the supporting plate (38), and a fifth supporting rod (314) is arranged below the supporting plate (38).

6. The surface coating processing device of the wind power blade is characterized in that the supporting device (4) comprises a supporting frame (41), a second sliding motor (42), a second sliding rod (43), a second sliding block (44), a first moving crawler (45), a first crawler supporting plate (46), a second moving crawler (47), a second crawler supporting plate (48), a second connecting rod (49), a third sliding motor (411), a third sliding rod (412), a third sliding block (413) and a first extending plate (414), the supporting frame (41) is arranged on the ground, the two supporting frames (41) are symmetrically arranged, the second sliding motor (42) is arranged at the top end of the supporting frame (41), the second sliding motor (42) is arranged with two, the two second sliding motors (42) are symmetrically arranged, the second sliding rods (43) are connected to the output end of a second sliding motor (42), the number of the second sliding rods (43) is two, the two second sliding rods (43) are symmetrically arranged, the second sliding blocks (44) are sleeved on the second sliding rods (43), the number of the second sliding blocks (44) is two, the two second sliding blocks (44) are symmetrically arranged, the first crawler supporting plate (46) is arranged in the middle of the supporting frame (41), the number of the first crawler supporting plate (46) is two, the two first crawler supporting plates (46) are symmetrically arranged, the first moving crawler (45) is arranged on the first crawler supporting plate (46), the number of the first moving crawler (45) is two, the two first moving crawler (45) are symmetrically arranged, two ends of the second crawler supporting plate (48) are respectively connected to the two first moving crawlers (45), the second movable crawler (47) is arranged on a second crawler supporting plate (48), the second connecting rod (49) is arranged above the second crawler supporting plate (48), the second connecting rod (49) is provided with two, the second connecting rod (49) is symmetrically arranged and is respectively connected with two second sliding blocks (44), a third sliding motor (411) is arranged at one end of one second sliding block (44), the third sliding block (412) is connected to the output end of the third sliding motor (411), the third sliding block (413) is sleeved on the third sliding block (412), the third sliding block (413) is connected to one end of the second movable crawler (47), and the first extending plate (414) is arranged above the third sliding block (413).

7. The surface coating processing device of the wind turbine blade as claimed in claim 6, wherein the spraying device (5) is arranged on the first extension plate (414), the spraying device (5) comprises a third electric cylinder (51), a second extension plate (52), a first extension rod (53) and a spraying head (54), one end of the third electric cylinder (51) is connected with the first extension plate (414), the second extension plate (52) is connected to the other end of the third electric cylinder (51), the second extension plate (52) is connected to the first extension rod (53), and the spraying head (54) is connected to the first extension rod (53).

8. The surface coating processing device of the wind turbine blade as claimed in claim 6, wherein the drying device (6) is arranged on the first extension plate (414), the drying device (6) comprises a fourth electric cylinder (61), a third extension plate (62), a second extension rod (63) and a drying head (64), one end of the fourth electric cylinder (61) is connected with the first extension plate (414), the third extension plate (62) is connected to the other end of the fourth electric cylinder (61), the third extension plate (62) is connected to the second extension rod (63), and the drying head (64) is connected to the second extension rod (63).