CN111327262A

CN111327262A - Solar photovoltaic module wiping mechanism

Info

Publication number: CN111327262A
Application number: CN201911344286.4A
Authority: CN
Inventors: 蔡宇; 朱兴鹏; 朱小南
Original assignee: Nantong Dapeng Photoelectric Co ltd
Current assignee: Nantong Dapeng Photoelectric Co ltd
Priority date: 2019-12-23
Filing date: 2019-12-23
Publication date: 2020-06-23

Abstract

The invention provides a solar photovoltaic module wiping mechanism which comprises a sweeping disc mechanism, a transverse moving trolley, a hydraulic system, a water system, a blow-drying system, a guide rail and a battery car. Each group of sweeping disc mechanisms is provided with an independent lifting oil cylinder for adjusting and controlling the distance between the rotating hairbrush and the photovoltaic module, each group of sweeping disc mechanisms is fixedly installed with the transverse trolley through bolts, a hydraulic system pipeline, a water system pipeline and a blow-dry system pipeline are fixedly installed with the transverse trolley through pipe clamps, and rollers of the transverse trolley are assembled and the guide rails are slidably installed on the low rails and the high rails. The invention drives the brush to rotate through the hydraulic motor, and the traverse trolley drives the sweeping disc mechanism to run along the guide rail to wipe the photovoltaic component. The battery car is loaded with the air compressor, the hydraulic pump station and the water pump which run in the same direction along with the transverse trolley. The cleaning process is simple and reliable, the wiping efficiency is high, and the labor intensity of operators is reduced.

Description

Solar photovoltaic module wiping mechanism

Technical Field

The invention relates to the technical field of solar photovoltaic modules, in particular to a wiping mechanism for a solar photovoltaic module.

Background

Some places have big sand blown all the year round, much dust and little rain, lead to photovoltaic electroplate surface dust too much, and some places are close to the industrial area and lead to often having certain viscosity or because the pollutant that chemical reaction produced adheres to photovoltaic module surface, and these all seriously influence photovoltaic module generating efficiency. The solar photovoltaic module is wiped, the cleanness of the cell panel is always kept, and the generated energy can be greatly improved. The splicing area of the grouped solar photovoltaic modules is large, the photovoltaic modules are erected at high positions, the surface of the photovoltaic modules is difficult to wipe manually, and the wiping quality cannot be guaranteed. In order to improve the wiping efficiency, reduce the labor intensity of workers and ensure the wiping quality, a wiping mechanism for the solar photovoltaic module is needed.

Disclosure of Invention

In order to solve the problems, the invention provides a solar photovoltaic module wiping mechanism, a tray sweeping mechanism is a core component of the device, and a hydraulic motor drives a brush to rotate to wipe. The traverse trolley drives each group of the sweeping disc mechanisms to run along the guide rail, and meanwhile, the traverse trolley is fixed with the hydraulic system pipeline, the water system pipeline and the blow-dry system pipeline through the pipe clamp. Main equipment such as a hydraulic system oil pump, a water system water pump and a blow-drying system air compressor are fixed with the storage battery car, and the storage battery car runs in the same direction with the transverse trolley.

The storage battery car is used as a power supply output and simultaneously used as a carrying tool car, the storage battery car and the transverse moving trolley run synchronously, a water system sprays water in advance when the transverse moving trolley runs, the hydraulic motor drives the rotating brush to rotate, a wiping program is realized, and the proper distance between the disc sweeping mechanism and the photovoltaic module is obtained by independently adjusting the lifting oil cylinders of the disc sweeping mechanisms of each group according to the initial wiping test effect. And the blow-drying system blows the wiped area with the advancing of the traverse trolley. After the cleaning agent is added into water, the cleaning agent can easily wipe viscous pollutants, the cleaning agent is quick and efficient, and the labor intensity of workers is greatly reduced.

The technical scheme adopted by the invention is as follows: a solar photovoltaic module wiping mechanism comprises a sweeping disc mechanism, a transverse moving trolley, a hydraulic system, a water system, a blow-drying system, a guide rail and a battery car. The sweeping disc mechanism is fixedly installed through bolts and the transverse moving trolley, the pipe clamp and the transverse moving trolley are fixedly installed on a hydraulic system pipeline, a water system pipeline and a blow-drying system pipeline, and a hydraulic system pump station, the water system pump station and air compressor main body equipment are fixedly installed through bolts and the battery car.

The sweeping disc mechanism comprises a pressing motor, a lifting oil cylinder, a first fixing plate, a second fixing plate, a third fixing plate, a rotating plate, a first pin shaft, a second pin shaft, a third pin shaft, a connecting arm, an adjusting screw rod, a first pipe connector, a second pipe connector, a fourth pin shaft, a fifth pin shaft, a sixth pin shaft, a seventh pin shaft, a water pipe, a motor oil pipe, an oil pipe, a nozzle and a rotating brush. The hydraulic motor is fixedly installed through a bolt and a first fixing plate, the first fixing plate is rotatably installed through a sixth pin shaft, a seventh pin shaft, a connecting arm and an adjusting screw rod, the connecting arm and the adjusting screw rod are rotatably installed through a fourth pin shaft, a fifth pin shaft and a second fixing plate, the second fixing plate is fixedly installed with a rotating plate, the rotating plate is rotatably installed through a first pin shaft, a second pin shaft and a third fixing plate, the lifting oil cylinder is rotatably installed with the frame through a third pin shaft, the other end of the lifting oil cylinder is rotatably installed with one end of the fixing plate, and the rotating brush is fixedly installed with the hydraulic motor through a shaft.

The transverse trolley comprises a motor, a speed reducer, a bearing lower seat, a bearing upper seat, a deviation blocking roller, a roller assembly, a low beam, a high beam, a connecting frame, a first upright post, a connecting plate, a speed reducer bottom plate and a second upright post. The motor and the reducer are fixedly installed by bolts and a reducer bottom plate, the reducer bottom plate is fixedly installed by a low beam and a high beam, and the bearing lower seat and the bearing upper seat are fixedly installed by bolts and fixedly installed by the low beam and the high beam. The roller assembly is rotatably installed with the lower bearing seat and the upper bearing seat. The roller assembly roller surface is rotatably installed with the low rail and the high rail and runs along the low rail and the high rail, and the offset roller is fixedly installed with the low beam and the high beam.

The hydraulic system comprises an oil tank, a motor, a hydraulic pump, a pressure regulating reversing valve, a pressure gauge, a hydraulic motor main oil pipe, a lifting oil cylinder main oil pipe, a hydraulic motor oil pipe and a lifting oil cylinder oil pipe. The motor, the hydraulic pump, the oil tank are fixedly installed through bolts and the battery car. The pressure regulating reversing valve and the pressure gauge are fixedly installed through a flange and a hydraulic pump, and the hydraulic motor main oil pipe, the lifting oil cylinder main oil pipe and the hydraulic system are fixedly installed and are fixedly installed with the hydraulic motor oil pipe and the lifting oil cylinder oil pipe.

The water system comprises a water tank, a motor, a water pump, a check valve, a water pipe main pipe and a spray head. The motor, the water pump and the water tank are fixedly installed through bolts and the battery car, and the check valve and the valve are fixedly installed through threads and a water pipe main pipe. The spray head and the water pipe main pipe are fixedly arranged,

the blow-drying system comprises a steam drum, a motor, a compressor, a pressure gauge, a belt, a safety protection net, a base, a header pipe and a spray head. The motor, the compressor, the bolts for the steam pocket and the battery car are fixedly installed.

The belt, the motor and the compressor are installed in a sliding mode. The shower nozzle pass through screw thread and house steward fixed mounting, the house steward can realize controlling when moving for the biserial, the homoenergetic realizes possessing the function.

The guide rail comprises a low rail, a first upright post, a high rail, a second upright post, a cross brace and an inclined brace. One end of the first upright post and one end of the second upright post are arranged on the ground, and the other end of the first upright post and the second upright post support the low rail and the high rail. And the cross brace, the inclined brace and the high rail are fixedly installed.

The invention has the beneficial effects that: (1) the solar photovoltaic module cleaning device only needs one operator, reduces the labor intensity of workers, avoids the situation that the workers climb onto the solar photovoltaic module to clean the solar photovoltaic module, ensures the labor safety, and avoids the damage to the solar photovoltaic module during the manual climbing; (2) the invention has high wiping efficiency and good wiping controllability, the pressing degree of the lifting oil cylinder is adjusted according to the preliminary wiping effect test, and each sweeping disc mechanism is independent and is flexible and convenient to adjust; (3) the invention uses the power supply of the accumulator battery of the battery car as the power source of each function in a centralized way without additionally adding power generation equipment. The equipment investment cost is reduced; (4) the solar photovoltaic module is periodically wiped, and the air compressor, the water pump and the battery car can be used for other production purposes in other time periods except for the periodic wiping; (5) the pertinence is strong, the water in the water tank in the water system can be properly heated, and a proper kind of cleaning agent can be added into the water tank according to the property of attachments; (6) the invention has good expansibility, and according to the area composition of different photovoltaic modules, the sweeping disc mechanism is disassembled and added, and the connecting frame of the trolley body of the traversing trolley is increased or reduced, so that the traversing trolley can meet the combination form of various photovoltaic modules.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the tray sweeping mechanism of the present invention.

FIG. 3 is a schematic view of the traverse carriage of the present invention.

Fig. 4 is a schematic diagram of the hydraulic system of the present invention.

Fig. 5 is a schematic diagram of a water system of the present invention.

Fig. 6 is a schematic view of a blow drying system of the present invention.

Fig. 7 is an enlarged view of a portion of the blow drying system of the present invention.

Fig. 8 is a schematic view of the guide rail of the present invention.

Fig. 9 is a schematic view of the battery car of the present invention.

Fig. 10 is an enlarged schematic view of the structure of the tray sweeping mechanism of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.

As shown in fig. 1 to 9, the present embodiment provides a wiping mechanism for a solar photovoltaic module, including:

the sweeping disc mechanism 1 is fixedly arranged with the traversing trolley 2 through bolts;

the roller surface of the cross travelling trolley 2, the roller surface of the cross travelling trolley and the low rail 601 and the high rail 603 of the guide rail 6 are rotatably arranged, the low rail 601 and the high rail 603 are supported by the first upright post 602 and the second upright post 604, and the other ends of the first upright post 602 and the second upright post 604 are arranged on the ground.

The hydraulic system 3, the electric motor 302, the hydraulic pump 303 and the oil tank 301 are fixedly installed with the battery car 7 through bolts, and hydraulic oil is conveyed to the hydraulic motor 101 and the lifting cylinder 102 through a hydraulic motor main pipeline 306 and a lifting cylinder main pipeline 307.

The water system 4, the water pump 403 and the water tank 401 are fixedly installed with the battery car 7 through bolts, the branch water pipes and the spray heads 407 are fixedly installed, and the branch water pipes and the water pipe header 406 are fixedly installed.

The blow-drying system 5, the compressor 503 and the steam drum 501 are fixedly installed with the battery car 7 through bolts, and the spray head 509 is fixedly installed with the manifold 508 through threads.

The other ends of the first upright post 602 and the second upright post 604 of the drying system 6 are arranged on the ground. And supports the low rail 601 and the high rail 603, and the cross brace 605 and the diagonal brace 606 fix the high rail 603.

The battery car 7 combination is placed on the same horizontal plane of the first upright post 602 and the second upright post 604.

In an alternative of this embodiment, as shown in fig. 2 and 9, the sweeping disk mechanism 1 includes a sweeping disk mechanism 1, where the sweeping disk mechanism 1 includes a hydraulic motor 101, a lift cylinder 102, a first fixing plate 103, a second fixing plate 104, a third fixing plate 105, a rotating plate 106, a first pin 107, a second pin 108, a third pin 109, a connecting arm 110, an adjusting screw 111, a first pipe joint 112, a second pipe joint 113, a fourth pin 114, a fifth pin 115, a sixth pin 116, a seventh pin 117, a water pipe 118, a motor oil pipe 119, an oil pipe 120, a nozzle 121, and a rotating brush 122; the hydraulic motor 101 is fixedly installed with the first fixing plate 103 through a bolt, the first fixing plate 103 is rotatably installed with the connecting arm 110 and the adjusting screw 111 through a sixth pin 116, a seventh pin 117, the connecting arm 110 and the adjusting screw 111 are rotatably installed with the second fixing plate 104 through a fourth pin 114, a fifth pin 115, the second fixing plate 104 is fixedly installed with the rotating plate 106, and the rotating plate 106 is rotatably installed with the third fixing plate 105 through a first pin 107, a second pin 108. The lifting oil cylinder 102 is rotatably installed with the frame through a third pin shaft 109, and the other end of the lifting oil cylinder 102 is rotatably installed with the first fixing plate 103. The rotating brush 122 is fixedly installed with the hydraulic motor 101 through a shaft sleeve and a key; the extension length of the lifting oil cylinder 102 is adjusted to enable the distance between the rotary brush 122 and the solar photovoltaic module to meet the wiping requirement, the water system nozzle 407 sprays water in advance, and then the hydraulic motor 101 is started to drive the rotary brush 122 to wipe.

In an alternative embodiment, as shown in fig. 3, the traverse trolley 2 includes a motor 201, a speed reducer 202, a lower bearing seat 203, an upper bearing seat 204, a deviation blocking roller 205, a roller assembly 206, a lower beam 207, a high beam 208, a connecting frame 209, a first upright column 210, a connecting plate 211, a speed reducer bottom plate 212 and a second upright column 213. The motor 201 and the speed reducer 202 are fixedly installed through bolts and a speed reducer bottom plate 212, and the speed reducer bottom plate 212 is fixedly installed with a low beam 207 and a high beam 208. The bearing lower seat 203 and the bearing upper seat 204 are fixedly installed through bolts, and are fixedly installed with the low beam 207 and the high beam 208. The roller assembly 206 is rotatably mounted with the lower bearing seat 203 and the upper bearing seat 204. The roller surface of the roller assembly 206 is rotatably mounted with the low rail 601 and the high rail 603 and runs along the low rail 601 and the high rail 603. The deviation blocking roller 205, the lower roller 207 and the high beam 208 are fixedly arranged, so that the transverse moving trolley is prevented from falling. The speed reducer base plate 212 is fixedly installed through the connecting plate 211, the low beam 207 and the sorghum 208. The first upright column 210 and the cross brace are fixedly arranged to form a low beam 207. The second upright column 213 and the cross brace are fixedly installed to form a connecting frame 209; the motor 201 positively or reversely rotates to drive the speed reducer 202 to rotate, and the speed reducer 202 transmits torque to the roller assembly 206 through keys, so that the transverse trolley 2 runs leftwards or rightwards.

In an alternative of this embodiment, as shown in fig. 4, the hydraulic system 3 includes an oil tank 301, an electric motor 302, a hydraulic pump 303, a pressure regulating directional control valve 304, a pressure gauge 305, a hydraulic motor main oil pipe 306, a lift cylinder main oil pipe 307, a hydraulic motor oil pipe 308, and a lift cylinder oil pipe 309. The motor 302, the hydraulic pump 303 and the oil tank 301 are fixedly installed with the battery car 7 through bolts. The pressure regulating reversing valve 304 and the pressure gauge 305 are fixedly installed through a flange and the hydraulic pump 303. The hydraulic motor main oil pipe 306, the lifting cylinder main oil pipe 307 and the hydraulic system are fixedly arranged, and are fixedly arranged with the hydraulic motor oil pipe 308 and the lifting cylinder oil pipe 309; the motor 302 drives the hydraulic pump 303 to work, hydraulic oil is conveyed to the hydraulic motor main oil pipe 306 and the lifting cylinder main oil pipe 307 through the pressure adjusting reversing valve 304, and the hydraulic motor 101 and the lifting cylinder 102 are controlled through the hydraulic motor oil pipe 308 and the lifting cylinder oil pipe 309 to realize wiping.

In an alternative of this embodiment, the water system 4 as shown in fig. 5 comprises a water tank 401, a motor 402, a water pump 403, a check valve 404, a valve 405, a water manifold 406, and a spray head 407. The motor 402, the water pump 403 and the water tank 401 are fixedly mounted with the battery car 7 through bolts. The check valve 404 and the valve 405 are fixedly installed through flanges and a water pipe main 406, and the spray head 407 and the water pipe main 406 are fixedly installed; the motor 402 drives the water pump 403 to work, and the flow of the water pipe manifold 406 is adjusted through the valve 405, so that the water quantity sprayed by the spray head 407 is finally obtained.

In an alternative embodiment, as shown in fig. 6, the blow-drying system 5 comprises a steam drum 501, a motor 502, a compressor 503, a pressure gauge 504, a belt 505, a safety guard 506, a base 507, a manifold 508 and a spray head 509

The motor 502, the compressor 503 and the steam drum 501 are fixedly installed with the battery car 7 through bolts. The belt 505 is slidably mounted with the motor 502 and the compressor 503. The spray head 509 is fixedly arranged with the main pipe 508 through threads, and the main pipe 508 is double rows and can realize the functions when the main pipe 508 runs left and right; the motor 502 drives the compressor 503 to work through the belt 505, the generated compressed air is firstly stored in the steam drum 501, and then the compressed air is conveyed to the surface of the photovoltaic module through the header pipe 508 and the spray head 509, so that the drying work is completed.

In an alternative of this embodiment, as shown in fig. 7, the guide rail 6 includes a lower rail 601, a first vertical column 602, a higher rail 603, a second vertical column 604, a cross brace 605, and a diagonal brace 606. One end of the first upright post 602 and one end of the second upright post 604 are arranged on the ground, and the other end supports the low rail 601 and the high rail 603. The cross brace 605, the inclined brace 606 and the high rail 603 are fixedly arranged; the low rail 601 and the high rail 603 provide a foundation and a guide for the operation of the traverse carriage 2 through the support of the first upright 602 and the second upright 604.

In an alternative of this embodiment, as shown in fig. 8, the battery car 7 is a combined body and is placed on the same horizontal plane of the first upright post 602 and the second upright post 604; the storage battery car outputs power to the motor 201 of the traverse trolley 2, the motor 302 of the hydraulic system 3, the motor 402 of the water system 4 and the motor 502 of the blow-drying system, and simultaneously, the storage battery car is also used as a tool car for carrying main equipment of the hydraulic system 3, the water system 4 and the blow-drying system 5, and the storage battery car and the traverse trolley run synchronously.

The working principle of the invention is as follows: in the whole system, the storage battery car 7 provides electric power for the tray sweeping mechanism 1, the transverse moving trolley 2, the hydraulic system 3, the water system 4 and the blow-drying system 5, the lifting oil cylinder 102 is adjusted to enable the distance between the rotating brush 122 and the solar photovoltaic component to be proper, a water pump 403 of the water system is started in advance, water is sprayed to the photovoltaic component through the spray head 407 to wet pollutants on the surface of the photovoltaic component, the hydraulic motor 101 is started immediately to drive the rotating brush 122 to wipe, the traveling speed of the transverse moving trolley 2 is determined according to the wiping effect, and the traveling speed of the transverse moving trolley 2 is consistent with the traveling speed and the traveling direction; according to the laying dust condition on photovoltaic module surface, open the left pipeline that weathers when sideslip dolly 2 traveles right, when the sideslip dolly traveles left, open the right side and weather the pipeline. The double-row blow-drying pipelines on the left side and the right side can be opened simultaneously, and the effect of pre-dedusting is achieved.

Claims

1. The utility model provides a solar PV modules wiping mechanism which characterized in that: comprises a sweeping disc mechanism (1) which is fixedly arranged with a traversing trolley (2) through bolts; the device is used for wiping the photovoltaic module; the roller surface of the cross travelling trolley (2) and the low rail (601) and the high rail (603) of the guide rail (6) are rotatably arranged, the low rail (601) and the high rail (603) are supported by a first upright post (602) and a second upright post (604), and the other ends of the first upright post (602) and the second upright post (604) are arranged on the ground; the device is used for driving the disc sweeping mechanism (1) to operate and wipe; the hydraulic system (3), the hydraulic pump (303) and the oil tank (301) are fixedly installed by bolts and the battery car (7), and hydraulic oil is conveyed to the hydraulic motor (101) and the lifting oil cylinder (102) through a hydraulic motor main pipeline (306) and a lifting oil cylinder main pipeline (307); the function of adjusting the height of the brush (122) and driving the brush (122) to rotate is realized; the water system (4), the water pump (403) and the water tank (401) are fixedly arranged on the battery car (7), and each branch water pipe is fixedly provided with a mounting nozzle (407) for wetting and assisting in wiping; the drying system (5) is characterized in that a compressor (503) and a steam drum (501) are fixedly arranged on the battery car (7), and a spray head (509) is fixedly arranged on a header pipe (508) through threads; for drying the area wiped by the brush.

2. The solar photovoltaic module wiping mechanism according to claim 1, wherein: the sweeping disc mechanism (1) comprises a hydraulic motor (101), a lifting oil cylinder (102), a first fixing plate (103), a second fixing plate (104), a third fixing plate (105), a rotating plate (106), a first pin shaft (107), a second pin shaft (108), a third pin shaft (109), a connecting arm (110), an adjusting screw (111), a first pipe joint (112), a second pipe joint (113), a fourth pin shaft (114), a fifth pin shaft (115), a sixth pin shaft (116), a seventh pin shaft (117), a water pipe (118), a motor oil pipe (119), an oil pipe (120), a nozzle (121) and a rotating brush (122), wherein the hydraulic motor (101) is fixedly installed by using a bolt and the first plate (103), the first fixing plate (103) is rotatably installed by using the sixth pin shaft (116), the seventh pin shaft (117), the connecting arm (110) and the adjusting screw (111), and the connecting arm (110) and the adjusting screw (111) are rotatably installed, The pin shaft five (115) and the fixed plate II (104) are rotatably installed, the fixed plate II (104) and the rotating plate (106) are fixedly installed, and the rotating plate (106) is rotatably installed through the pin shaft I (107), the pin shaft II (108) and the fixed plate III (105); the lifting oil cylinder (102) is rotatably installed with the frame through a third pin shaft (109), and the other end of the lifting oil cylinder (102) is rotatably installed with the first fixing plate (103); the rotating brush (122) is fixedly arranged through a shaft sleeve, a key and the hydraulic motor (101).

3. The solar photovoltaic module wiping mechanism according to claim 1, wherein: the transverse trolley (2) comprises a motor (201), a speed reducer (202), a bearing lower seat (203), a bearing upper seat (204), a deviation blocking roller (205), a roller assembly (206), a low beam (207), a high beam (208), a connecting frame (209), a first upright post (210), a connecting plate 211, a speed reducer base plate (212) and a second upright post (213), wherein the motor (201) and the speed reducer (202) are fixedly installed through bolts and the speed reducer base plate (212), the low beam (207) and the high beam (208) are fixedly installed; the bearing lower seat (203) and the bearing upper seat (204) are fixedly installed through bolts and are fixedly installed through bolts, a low beam (207) and a high beam (208); the roller assembly (206) is rotatably arranged with the bearing lower seat (203) and the bearing upper seat (204).

4. The roller surface of the roller assembly (206) is rotatably arranged with the low rail (601) and the high rail (603), and runs along the low rail (601) and the high rail (603); the deviation blocking roller (205) is fixedly arranged through bolts, a low beam (207) and a high beam (208), and the transverse moving trolley is prevented from falling.

5. The solar photovoltaic module wiping mechanism according to claim 1, wherein: the hydraulic system (3) comprises an oil tank (301), a motor (302), a hydraulic pump (303), a pressure regulating reversing valve (304), a pressure gauge (305), a hydraulic motor main oil pipe (306), a lifting oil cylinder main oil pipe (307), a hydraulic motor oil pipe (308) and a lifting oil cylinder oil pipe (309), wherein the motor (302), the hydraulic pump (303) and the oil tank (301) are fixedly installed with the battery car (7) through bolts; the pressure regulating reversing valve (304) and the pressure gauge (305) are fixedly installed through a flange and the hydraulic pump (303); the hydraulic motor main oil pipe (306), the lifting cylinder main oil pipe (307) and the hydraulic system are fixedly arranged, and the hydraulic motor main oil pipe (308) and the lifting cylinder oil pipe (309) are fixedly arranged.

6. The solar photovoltaic module wiping mechanism according to claim 1, wherein: the water system (4) comprises a water tank (401), a motor (402), a water pump (403), a check valve (404), a valve (405), a water pipe header pipe (406) and a spray head 407, wherein the water pump (403), the water tank (401) and a battery car (7) are fixedly installed through bolts; the check valve (404) and the valve (405) are fixedly installed through threads and a water pipe manifold (406); the spray head (407) and the water pipe manifold (406) are fixedly arranged.

7. The solar photovoltaic module wiping mechanism according to claim 1, wherein: the blow-drying system (5) comprises a steam drum (501), a motor (502), a compressor (503), a pressure gauge (504), a belt (505), a safety protection net (506), a base (507), a header pipe (508) and a spray head (509), wherein the compressor (503) and the steam drum (501) are fixedly installed with a battery car (7) through bolts; the belt (505), the motor (502) and the compressor (503) are arranged in a sliding way; the spray head (509) is fixedly installed with the main pipe (508) through threads, and the main pipe (508) is double-row and can realize functions when running left and right.

8. The solar photovoltaic module wiping mechanism according to claim 1, wherein: the guide rail (6) comprises a low rail (601), a first upright post (602), a high rail (603), a second upright post (604), a cross brace (605) and an inclined brace (606), wherein one end of the first upright post (602) and one end of the second upright post (604) are arranged on the ground, and the other end of the first upright post (602) and the other end of the second upright post (604) support the low rail (601) and the high rail (603); the cross brace (605) and the diagonal brace (606) are used for fixing the high rail (603).

9. The solar photovoltaic module wiping mechanism according to claim 1, wherein: the battery car (7) is a combination body and is placed on the same horizontal plane of the first upright post (602) and the second upright post (604).