CN210876464U - Photovoltaic board washs car - Google Patents

Abstract

The utility model discloses a photovoltaic board washs car. The photovoltaic panel cleaning device comprises a forklift truck serving as a moving platform, a cleaning device used for cleaning the photovoltaic panel, a cleaning telescopic arm supporting and connecting the cleaning device and an accessory equipment loading trailer; the belt cleaning device is drum-type belt cleaning device, includes: the support is connected with the telescopic arm and drives the hinged drum-type rolling brush group, a water retaining arc plate covering at least one third of the circumference of the rolling brush group is arranged along the axial direction of the drum-type rolling brush group, the two edges and the front side of the water retaining arc plate are provided with a high-pressure water curtain type water spraying group, and the rear side of the water retaining arc plate is provided with an air knife air spraying group. The utility model discloses a multiple washing mode jointly washs photovoltaic board, belt cleaning device and washing target linear displacement and angle displacement high accuracy automatic adjustment guarantee to reach cavitation jet washing distance, round brush group and wash area of contact and high-pressure wind and wash the technical requirement of the best washing parameter of angle, clean efficient, clean effect have greatly improved solar photovoltaic board photoelectric conversion's generating efficiency.

Description

Photovoltaic board washs car

Technical Field

The utility model belongs to the technical field of cleaning machine design, especially, belong to portable glass panels cleaning machine design technical field, in particular to car device is jointly washd to photovoltaic board.

Background

According to the statistical data of the renewable energy grid-connected operation conditions released by the State energy agency, in 2018, the renewable energy power generation amount of China is increased rapidly, and the photovoltaic power generation amount is at the top of the world. In 2018, the national renewable energy power generation amount reaches 1.87 trillion kilowatt hours, the proportion of the renewable energy power generation amount to the total power generation amount is 26.7%, wherein the photovoltaic power generation amount reaches 1775 trillion kilowatt hours and is increased by 50% on a same basis.

In photovoltaic power generation, dust pollution due to lack of active and effective cleaning greatly reduces the power generation capacity of the power station, which is expected to be at least 25% or more per year, and thus brings huge direct economic losses. Firstly, the dust shields the light reaching the photovoltaic module; secondly, because some dust with strong acid-base property erodes the surface of the solar photovoltaic panel, the light transmittance of the panel glass is reduced; thirdly, the dust can affect the heat dissipation of the surface of the photovoltaic module, which leads to the reduction of the photoelectric conversion efficiency.

It is understood that most solar power plants in China are more or less plagued by this "dust" problem. Data show that the generated energy of the photovoltaic industry in 2018 exceeds 1775 hundred million kilowatt hours, and the data also mean that the conservative estimation of the loss of the generated energy caused by dust in the solar power generation industry in 2018 is as high as 444 million kilowatt hours, and the lost electricity charge is more than 430 million yuan.

Currently, the main cleaning modes of solar photovoltaic panels include manual water washing and industrial cleaning equipment washing, but the difficulty and cost of cleaning the solar photovoltaic panels are enough to bear the burden of the solar photovoltaic power generation industry which is high in power generation cost originally.

In addition, due to the illumination distribution condition in China, a large number of photovoltaic power stations are built in the western gobi desert and desert regions in China, the common characteristic of the regions is 'water shortage', and in the region where water is more expensive than oil, a large number of water resources are frequently spent for cleaning the solar photovoltaic panel, so that the cost is obviously considerable.

Is the cleaning cost of the solar photovoltaic panel high and the difficulty high, and is there other means to solve the cleaning problem of the solar photovoltaic panel? The adoption of single high-pressure air washing, high-pressure water washing or special rolling brush washing or any combined washing mode is one of the key research and development directions at home and abroad at present.

Disclosure of Invention

The utility model discloses a car is washd to photovoltaic board according to prior art's not enough. The to-be-solved technical problem of the utility model is to overcome the defect of current solar photovoltaic board cleaning mode singleness, the clean degree of difficulty and high cost, provide a device that has the clean function of jointly that high pressure washing, special type round brush wash and high-pressure wind washed.

The utility model discloses a following technical scheme realizes:

the photovoltaic panel cleaning vehicle comprises a forklift truck serving as a moving platform, a cleaning device used for cleaning the photovoltaic panel, a cleaning telescopic arm supporting and connecting the cleaning device and an accessory equipment loading trailer; the method is characterized in that: the belt cleaning device is drum-type belt cleaning device, includes: the support is connected with the telescopic arm and drives the hinged drum-type rolling brush group, a water retaining arc plate covering at least one third of the circumference of the rolling brush group is arranged along the axial direction of the drum-type rolling brush group, the two edges and the front side of the water retaining arc plate are provided with a high-pressure water curtain type water spraying group, and the rear side of the water retaining arc plate is provided with an air knife air spraying group.

The rolling brush group consists of a rolling shaft and a plurality of groups of brushes which are fixedly arranged on the axial direction of the rolling shaft, and rotating systems are arranged at two ends of the rolling shaft to drive the rolling brush group to rotate.

The rotation system includes: install the motor mounting panel on the support, hydraulic motor fixed mounting is on the motor mounting panel, and hydraulic motor passes through the shaft coupling drive the end shaft of roller tip, the end shaft passes through bearing and its bearing frame and retaining ring and support normal running fit is fixed.

The high-pressure water curtain type water spraying set arranged on the front side of the rolling brush set consists of a plurality of groups of nozzles which are fixed at intervals along the axial direction of the rolling brush set.

The rear side of the rolling brush group is provided with an air knife which is composed of a plurality of groups of high-pressure air nozzles which are fixed at intervals along the axial direction of the rolling brush group.

The telescopic arm is further composed of a cleaning device linear displacement telescopic mechanism driven by the electric cylinder I and a cleaning device angular displacement rotating mechanism driven by the electric cylinder II; the telescopic arm includes: the cleaning device comprises a first electric cylinder arranged on the mounting plate and the mounting seat, a second electric cylinder arranged on a first square steel, a first nylon sleeve, a second square steel and a second nylon sleeve, and a driving connecting rod connected with the cleaning device.

The electric cylinder I transmits linear displacement signals to the control system through two linear displacement sensors arranged at two ends of the cleaning device, and drives the square steel II to complete adjustment of the effective cleaning distance position from the cleaning device to the photovoltaic panel; and the second electric cylinder transmits an angular displacement signal to the control system through the other two angular displacement sensors arranged at the two ends of the cleaning device, and drives the connecting rod to complete the adjustment of the angle position from the cleaning device to the effective cleaning of the photovoltaic panel.

The bracket of the drum-type cleaning device is provided with a camera for monitoring cleaning.

Each group of brushes comprises a central shaft which is matched and connected with the rolling shaft and bristles which are arranged on the outer surface of the central shaft; the connection part of each group of adjacent brushes is provided with an alignment boss or an alignment groove for driving connection.

The trailer comprises an electric control cabinet, a generator, a high-pressure cleaning machine, a high-pressure fan, water tank equipment and an outer cover which are arranged on a trailer platform.

The utility model is used for wash the photovoltaic board of the multiple clean mode of solar photovoltaic board and jointly wash the car, by installing flexible arm and belt cleaning device on the forklift truck to and the trailer device joint operation who is dragged by the forklift truck carries out the washing operation of photovoltaic board. The telescopic arm mechanism comprises a cleaning device linear displacement telescopic mechanism driven by an electric cylinder I and a cleaning device angular displacement rotating mechanism driven by an electric cylinder II; the cleaning device is composed of four displacement sensors arranged at four corners of two ends of the water retaining arc plate and is responsible for transmitting linear displacement and angular displacement signals to the control system to complete automatic adjustment of effective cleaning positions of the cleaning device and the photovoltaic panel; after the position adjustment is finished, the cleaning device starts cleaning work, firstly, a row of nozzles arranged on the front side of the water retaining arc plate spray water to perform high-pressure cavitation jet water descaling cleaning, secondly, a hydraulic motor drives a rolling brush group brush to perform rotating beating friction cleaning at 100r/min, and thirdly, a row of nozzles arranged on the rear side of the water retaining arc plate spray air to perform high-pressure air cleaning and cleaning blow-drying; the trailer device is composed of an electric control cabinet, a generator, a high-pressure cleaning machine, a high-pressure fan, a water tank and other equipment and an outer cover which are arranged on a trailer platform to provide guarantee for cleaning operation.

Compared with the prior art, the beneficial effects of the utility model are that: cleaning a photovoltaic panel in a plurality of cleaning modes in a combined manner, wherein in the first step, cavitation jet flow (bubbles wrapped by high-speed and high-pressure water flow particles) is generated on the surface of the cleaned photovoltaic panel to blow water flow particles and remove scale on the surface of the photovoltaic panel; secondly, adopting the rotation beating friction of a special foam cotton material rolling brush group to clean dirt; and thirdly, an air curtain (air knife) formed by stably and uniformly distributed air pressure is used for cleaning and drying. Meanwhile, the high-precision automatic adjustment of the linear displacement of the cleaning device and the cleaning target (photovoltaic panel) is realized; the high-precision automatic adjustment of the angular displacement of the cleaning device and the cleaning target (photovoltaic panel) is realized, so that the technical requirements of the optimal cleaning parameters of the cavitation jet washing distance, the cleaning contact area of the rolling brush group and the high-pressure air washing angle are met. The combined cleaning vehicle device has the characteristics of intelligent application, high automation degree, simplicity and quickness in operation, low water consumption cost especially in water-deficient areas, high cleaning efficiency, good cleaning effect and the like, greatly improves the power generation efficiency of the photovoltaic conversion of the solar photovoltaic panel, and has important practical significance for widely improving the economic benefit and the social benefit of the photovoltaic industry.

Drawings

FIG. 1 is a schematic side view of the photovoltaic panel combined cleaning vehicle of the present invention;

FIG. 2 is a schematic view of the front view structure of the photovoltaic panel combined cleaning vehicle of the present invention;

FIG. 3 is a schematic view of the telescopic arm of the present invention;

FIG. 4 is a schematic cross-sectional structure of the cleaning device of the present invention;

FIG. 5 is a schematic view of the longitudinal section structure of the cleaning device of the present invention;

FIG. 6 is a schematic view of a water spray group arrangement;

FIG. 7 is a schematic view of a jet stack arrangement;

FIG. 8 is a side schematic view of a roller brush assembly;

FIG. 9 is a schematic cross-sectional view of a roller brush assembly;

FIG. 10 is a schematic view of a trailer arrangement;

fig. 11 is a schematic enlarged partial sectional view of the rotating system of the brush set according to the present invention.

In the figure, 1 is a forklift truck, 2 is a telescopic arm, 3 is a cleaning device, 4 is a trailer, 21 is a first electric cylinder, 22 is a mounting plate, 23 is a mounting seat, 24 is a first square steel, 25 is a first nylon sleeve, 26 is a second square steel, 27 is a second nylon sleeve, 28 is a second electric cylinder, 29 is a connecting rod, 31 is a rolling brush group, 32 is a displacement sensor, 33 is an air injection group, 34 is a water retaining arc plate, 35 is a camera, 36 is a water injection group, 37 is a bracket, 38 is a rotating system, 311 is bristles, 312 is an alignment boss, 313 is an alignment groove, 314 is a central shaft, 41 is an electric control cabinet, 42 is a generator, 43 is a high-pressure cleaner, 44 is a high-pressure fan, 45 is a trailer platform, 46 is a water tank, 381 is a hydraulic motor, 382 is a motor mounting plate, 383 is a channel steel, 384 is a coupler, 385 is a rolling shaft bearing seat, 386 is a retainer ring, 387 is an end shaft, and 388 is.

Detailed Description

The present invention will be further described with reference to the following embodiments, which are intended to illustrate the principles of the present invention without limiting the present invention in any way, and the present invention is not beyond the scope of the present invention.

With reference to the attached drawings.

The photovoltaic panel cleaning vehicle comprises a forklift truck 1 serving as a moving platform, a cleaning device 3 for cleaning the photovoltaic panel, a cleaning telescopic arm 2 for supporting and connecting the cleaning device 3 and an accessory equipment loading trailer 4; the cleaning device 3 is a drum type cleaning device including: the bracket 37 is connected with the telescopic arm 2, the bracket 37 drives the hinged roller type rolling brush group 31, the water retaining arc plates 34 covering at least one third of the circumference of the roller brush group are arranged along the axial direction of the roller type rolling brush group 31, the two edges and the front side of the water retaining arc plates 34 are provided with the high-pressure water curtain type water spraying group 36, and the rear side is provided with the air knife air spraying group 33.

The rolling brush group 31 is composed of a rolling shaft 388 and a plurality of groups of brushes axially fixed on the rolling shaft 388, and two ends of the rolling shaft 388 are provided with rotating systems to drive the rolling brush group 31 to rotate.

The rotating system includes: the hydraulic motor 381 is fixedly arranged on the motor mounting plate 382, the hydraulic motor 381 drives an end shaft 387 at the end of the roller 388 through a coupler 384, and the end shaft 387 is fixed with the bracket 37 through a bearing and a bearing seat 385 thereof and a check ring 386 in rotating fit.

The high-pressure water curtain type water spraying set 36 installed at the front side of the rolling brush set 31 is composed of a plurality of sets of nozzles fixed at intervals along the axial direction of the rolling brush set 31.

The rear side of the rolling brush group 31 is provided with an air jet group 33 air knife which is composed of a plurality of high-pressure air nozzles which are arranged and fixed at intervals along the axial direction of the rolling brush group 31.

The telescopic arm 2 consists of a linear displacement telescopic mechanism of the cleaning device driven by the first electric cylinder 21 and an angular displacement rotating mechanism of the cleaning device driven by the second electric cylinder 28; the telescopic arm 2 includes: the cleaning device comprises a first electric cylinder 21 arranged on a mounting plate 22 and a mounting seat 23, a second electric cylinder 28 arranged on a first square steel 24, a first nylon sleeve 25, a second square steel 26 and a second nylon sleeve 27, and a driving connecting rod 29 connected with the cleaning device.

The electric cylinder I21 transmits linear displacement signals to a control system through two linear displacement sensors 32 arranged at two ends of the cleaning device, and drives the square steel II 26 to complete adjustment of the effective cleaning distance position from the cleaning device to the photovoltaic panel; the second electric cylinder 28 transmits an angular displacement signal to the control system by two other angular displacement 32 sensors arranged at two ends of the cleaning device, and drives the connecting rod 29 to complete the adjustment of the angle position from the cleaning device to the effective cleaning of the photovoltaic panel.

The utility model discloses be provided with on drum-type belt cleaning device 3's the support 37 and be used for keeping watch on abluent camera 35.

Each set of brushes comprises a central shaft 314 which is matched and connected with the roller 388, and bristles 311 arranged on the outer surface of the central shaft 314; the coupling portion of each set of adjacent brushes is provided with an alignment boss 312 or an alignment groove 313 for driving coupling.

The trailer 4 comprises an electric control cabinet 41, a generator 42, a high-pressure washer 43, a high-pressure fan 44, a water tank 41, equipment and a housing which are arranged on the trailer platform 35.

As shown in fig. 1 and 2, the combined cleaning vehicle device for cleaning the solar photovoltaic panel of the photovoltaic panel cleaning vehicle is composed of a forklift truck 1, a telescopic arm 2, a cleaning device 3 and a trailer 4.

An operator can drag the trailer 4 and the lifting telescopic arm 2 by driving the forklift truck 1; through sensor signal feedback, the control system drives the electric cylinder to automatically control and adjust the linear displacement and the angular displacement between the cleaning device 3 and the photovoltaic panel so as to reach the optimal cleaning position; meanwhile, a row of 12 water spraying group 32 nozzles arranged on the front side of the cleaning device 3 is used for carrying out high-pressure cavitation jet (bubbles wrapped by high-speed high-pressure water flow particles) bursting descaling cleaning on the photovoltaic panel, a special foam cotton material rolling brush group 31 which is 4200mm long and has the opening diameter of 800mm is driven by a hydraulic motor to carry out rotating beating friction cleaning at 100r/min, and then a row of 8 air spraying group 36 nozzles arranged on the rear side of the cleaning device 3 is used for carrying out wind curtain (wind knife) high-pressure wind cleaning and cleaning blow-drying formed by stably and uniformly distributed wind pressure.

As shown in fig. 3, the telescopic boom 2 is composed of a first electric cylinder 21 mounted on a mounting plate 22 and a mounting base 23, and a second electric cylinder 28 mounted on a first square steel 24, a first nylon sleeve 25, a second square steel 26 and a second nylon sleeve 27.

The telescopic arm 2 mechanism comprises a linear displacement telescopic mechanism of the cleaning device 3 driven by a first electric cylinder 21 and an angular displacement rotating mechanism of the cleaning device 3 driven by a second electric cylinder 28; the electric cylinder I21 transmits linear displacement signals to a control system through two linear displacement sensors arranged at two ends of the cleaning device 3, and drives the square steel II 26 to complete the adjustment of the effective cleaning distance position from the cleaning device 3 to the photovoltaic panel; the second electric cylinder 28 transmits an angular displacement signal to the control system through the other two angular displacement sensors arranged at the two ends of the cleaning device 3, and drives the connecting rod 29 to complete the adjustment of the effective cleaning angle position from the cleaning device 3 to the photovoltaic panel. After the adjustment of the effective cleaning position of the linear displacement and the angular displacement is finished, the cleaning device 3 can start cleaning.

As shown in fig. 4, 5, 6, 7, 8, 9 and 11, a turning system is attached to a bracket 37 of the cleaning apparatus 3, which is formed by welding a channel 383 and square steel, and includes: a hydraulic motor 381, a motor mounting plate 382, a coupler 384, a bearing block 385, a retainer ring 386, an end shaft 387, a roller 388 and a camera 35; four displacement sensors 32 are respectively arranged on four corners of the water baffle plate 34; a row of 12 water spraying group 36 nozzles are arranged on one side of the front end of the water retaining arc plate 34 to form a water spraying group structure shown in figure 6; a row of 8 nozzles of the air injection group 33 are arranged on one side of the rear end of the water baffle 34, and the air injection group structure shown in figure 7 is formed; the brush group 31 is fixedly installed on the roller 388 to constitute the roller brush group 31 as shown in fig. 8 and 9; the above components together form the combined cleaning device 3.

A motor mounting plate 382 of the cleaning device 3 mechanism is arranged on a bracket 37 formed by welding channel steel 383 and square steel; the hydraulic motor 381 is connected with the shaft joint 384 and is arranged on the motor mounting plate 382; the end shaft 387 is connected with a rolling shaft 388, and both ends are assembled with a self-aligning bearing and a check ring and then fixedly arranged in a bearing seat 385 on the motor mounting plate 382; 12 water spray nozzles 36 are arranged in a row in front of the water baffle arc plate 34, and high-pressure cavitation jet (bubbles wrapped by high-speed high-pressure water flow particles) bursting, descaling and cleaning are carried out on the photovoltaic plate; the special foam cotton material brush 311 with the length of 4200mm and the opening diameter of 800mm is arranged on a bracket 37 formed by welding a channel steel 383 and square steel, and is driven by a hydraulic motor 381 to carry out rotary beating, friction, dirt removal and cleaning at 100 r/min; 8 air jet groups 33 are arranged in a row at the rear side of the water retaining arc plate 34, and the photovoltaic panel is subjected to high-pressure air washing, cleaning and blow-drying through an air curtain (air knife) formed by stably and uniformly distributed air pressure; the four displacement sensors 32 are responsible for feeding back and transmitting signals of linear displacement and angular displacement of the cleaning device 3 to the control system; the camera 35 mounted on the bracket 37 formed by welding the channel steel 383 and the square steel monitors the cleaning effect in real time.

As shown in fig. 10, the trailer 4 device is composed of an electric control cabinet 41, a generator 42, a high-pressure washer 43, a high-pressure fan 44, a water tank 46 and other equipment and housings which are arranged on a trailer platform 45.

An electric control cabinet 41 on the trailer 4 mechanism is arranged on a trailer platform 45, and is integrated with an intelligent and automatic control system of the photovoltaic panel combined cleaning vehicle; the generator 42 arranged on the trailer platform 45 provides power supply for the photovoltaic panel combined cleaning vehicle; a high pressure cleaner 43 mounted on the trailer platform 45 provides high pressure cavitation jet water for the cleaning device 3; a high-pressure fan 34 mounted on the trailer platform 35 provides high-pressure and high-speed air flow for the cleaning device 3; a water tank 46 mounted on the trailer platform 45 provides a source of water for the high pressure cleaner 43; the enclosure provides rain and dust protection for equipment mounted on the trailer platform 45.

Claims (10)

1. A photovoltaic panel cleaning vehicle comprises a forklift truck serving as a moving platform, a cleaning device used for cleaning a photovoltaic panel, a cleaning telescopic arm supporting and connecting the cleaning device and an accessory equipment loading trailer; the method is characterized in that: the belt cleaning device is drum-type belt cleaning device, includes: the support is connected with the telescopic arm and drives the hinged drum-type rolling brush group, a water retaining arc plate covering at least one third of the circumference of the rolling brush group is arranged along the axial direction of the drum-type rolling brush group, the two edges and the front side of the water retaining arc plate are provided with a high-pressure water curtain type water spraying group, and the rear side of the water retaining arc plate is provided with an air knife air spraying group.

2. The photovoltaic panel cleaning cart according to claim 1, wherein: the rolling brush group consists of a rolling shaft and a plurality of groups of brushes which are fixedly arranged on the axial direction of the rolling shaft, and rotating systems are arranged at two ends of the rolling shaft to drive the rolling brush group to rotate.

3. The photovoltaic panel cleaning cart according to claim 2, wherein: the rotation system includes: install the motor mounting panel on the support, hydraulic motor fixed mounting is on the motor mounting panel, and hydraulic motor passes through the shaft coupling drive the end shaft of roller tip, the end shaft passes through bearing and its bearing frame and retaining ring and support normal running fit is fixed.

4. The photovoltaic panel cleaning cart according to claim 1, wherein: the high-pressure water curtain type water spraying set arranged on the front side of the rolling brush set consists of a plurality of groups of nozzles which are fixed at intervals along the axial direction of the rolling brush set.

5. The photovoltaic panel cleaning cart according to claim 1, wherein: the rear side of the rolling brush group is provided with an air knife which is composed of a plurality of groups of high-pressure air nozzles which are fixed at intervals along the axial direction of the rolling brush group.

6. Photovoltaic panel washing cart according to any one of claims 1 to 5, characterized in that: the telescopic arm consists of a cleaning device linear displacement telescopic mechanism driven by an electric cylinder I and a cleaning device angular displacement rotating mechanism driven by an electric cylinder II; the telescopic arm includes: the cleaning device comprises a first electric cylinder arranged on the mounting plate and the mounting seat, a second electric cylinder arranged on a first square steel, a first nylon sleeve, a second square steel and a second nylon sleeve, and a driving connecting rod connected with the cleaning device.

7. The photovoltaic panel cleaning cart according to claim 6, wherein: the electric cylinder I transmits linear displacement signals to the control system through two linear displacement sensors arranged at two ends of the cleaning device, and drives the square steel II to complete adjustment of the effective cleaning distance position from the cleaning device to the photovoltaic panel; and the second electric cylinder transmits an angular displacement signal to the control system through the other two angular displacement sensors arranged at the two ends of the cleaning device, and drives the connecting rod to complete the adjustment of the angle position from the cleaning device to the effective cleaning of the photovoltaic panel.

8. The photovoltaic panel cleaning cart according to claim 6, wherein: the bracket of the drum-type cleaning device is provided with a camera for monitoring cleaning.

9. Photovoltaic panel washing cart according to claim 2 or 3, characterized in that: each group of brushes comprises a central shaft which is matched and connected with the rolling shaft and bristles which are arranged on the outer surface of the central shaft; the connection part of each group of adjacent brushes is provided with an alignment boss or an alignment groove for driving connection.

10. The photovoltaic panel cleaning cart according to claim 6, wherein: the trailer comprises an electric control cabinet, a generator, a high-pressure cleaning machine, a high-pressure fan, water tank equipment and an outer cover which are arranged on a trailer platform.

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