JP2021191217A - Mechanism to remove salt adhered to surface of photovoltaic power generation device on water - Google Patents

Abstract

To provide a mechanism to remove salt adhered to the surface of a photovoltaic power generation device on water.SOLUTION: A mechanism to remove salt adhered to the surface of a photovoltaic power generation device on water includes a solar panel 2. On the top surface of the solar panel 2, a fixing plate 3 is connected in a slidable manner; on both left and right sides of the solar panel 2, a fixing rod 4 is fixed and connected; on the left side inside the solar panel 2, a housing is fixed and connected; on the right side inside the solar panel 2, a slide rail is fixed and connected; the inside surface of the slide rail is elastically connected to the bottom end of the fixing plate by a connection spring; on the rear side inside the fixing rod 4, a support base is fixed and connected; and on the rear end of the top surface in the fixing rod 4, a windsail plate 1 is connected in the rotatable manner.SELECTED DRAWING: Figure 1

Description

The present invention relates to the field of photovoltaic power generation technology, and specifically relates to a mechanism for removing salt stains adhering to the surface of a floating photovoltaic power generation device.

With the development of society, the demand for fossil fuels is increasing day by day. However, new energy is a better choice as the use of fossil fuels exacerbates the problem of air pollution. New energy is environmentally friendly and can be regenerated. Solar energy is the most widely used type of new energy. By arranging the photovoltaic power generation device on the water, the temperature of the photovoltaic power generation device can be lowered by evaporation of seawater, and the power generation efficiency can be improved.

However, in the conventional water solar power generation device, a large amount of salt stains adhere to the surface due to long-term operation, which affects the service life and lowers the power generation efficiency.

Chinese Patent Application Publication No. 110560396

An object of the present invention is to provide a mechanism for removing salt stains adhering to the surface of a water solar power generation device, and to solve the above-mentioned technical problems in the prior art.

A mechanism for removing salt stains adhering to the surface of a water-based photovoltaic power generation device, including a solar panel, a fixing plate is slidably connected to the upper surface of the solar panel, and on the left and right sides of the solar panel. In each case, the fixing rod is fixedly connected, the housing is fixedly connected to the left side of the inside of the solar panel, and the sliding rail is fixedly connected to the right side of the inside of the solar panel. The inner surface of the sliding rail is elastically connected to the lower end of the fixing plate by a connecting spring, and a support base is fixedly connected to the rear side of the inside of the fixing rod, behind the upper surface of the fixing rod. A wind receiving plate is rotatably connected to the end. A worm is rotatably connected to the inside of the support, a screw rod is provided on the right side of the worm in mesh with each other, and a bearing base is rotatably connected to the rear end of the screw rod. The rear end of the bearing base is fixedly connected to the inner surface of the solar panel, a sliding plate is screwed to the front end of the screw rod, and the sliding plate slides on the inner surface of the housing. Possiblely connected, a worm wheel is provided in mesh with the left end of the worm, a roulette is provided in mesh with the lower end of the worm, and a cleaning block is movable by a bolt on the lower surface of the fixing plate. Be connected.

Preferably, a sliding groove is formed on the upper surface of the fixing rod, and the size of the sliding groove is provided so as to match the size of the fixing plate.

Preferably, the adjusting legs are fixedly connected to the front corners of the lower surface of the solar panel, and the tension rods are fixedly connected to the rear corners of the lower surface of the solar panel.

Preferably, the sliding rail is located directly below the fixing rod, and the sliding rail is provided so that the size matches the size of the sliding groove in the fixing rod.

Preferably, the roulette is provided vertically symmetrically inside the solar panel, chains are provided on the outer surface of the roulette in mesh with each other, and a moving block is fixedly connected to the chains.

Preferably, the position of the moving block is provided so as to match the position of the fixing plate in the sliding rail.

Preferably, the sliding plate is hermetically connected to the screw rod and the sliding plate is hermetically connected to the housing.

Preferably, the extending legs on both sides of the fixing plate are engaged in the sliding groove of the fixing rod.

The present invention has the following advantages over the prior art:

In the present invention, when the moving block comes into contact with the extending portion of the lower end of the fixed plate in the process of rotating the chain in conjunction with the roulette, the fixed plate is interlocked with the moving block and slides in the sliding rail to move. After the block and the fixing plate are separated, the fixing plate is pulled to the rear end of the sliding rail by the elasticity of the connecting spring, and if this is repeated, the salt stains adhering to the surface of the solar panel can be removed, and the solar panel can be removed in real time. Clean the surface and leave as little dirt as possible on the surface of the solar panel to improve the work efficiency of the PV system.

In the present invention, as the sliding plate slides in the housing, the air in the housing is sucked in and out, and the air pipe sends the air flow to the cleaning block below the fixed body, which is cleaned by the cleaning block. The salt stains are removed from the cleaning block by the air flow, which improves the cleaning effect of the cleaning block, and the air flow can cool the surface of the solar panel, increasing the power generation efficiency of the solar panel.

Each direction described in the present application is a direction when the device is viewed in the same direction as in FIG.

It is a perspective view of this invention. It is a bird's-eye view sectional view of a solar panel. It is a locally enlarged view of the fixing plate in this invention. It is a locally enlarged view of the support stand in this invention. It is a locally enlarged view of the worm wheel in this invention. It is an enlarged view of the part A in FIG.

As shown in FIGS. 1 to 6, it is a mechanism for removing salt stains adhering to the surface of the surface photovoltaic power generation device, including the solar panel 2, and the adjusting legs 5 are provided at both front corners of the lower surface of the solar panel 2. Is fixedly connected, and the tension rods 6 are fixedly connected to both corners on the rear side of the lower surface of the solar panel 2, and the fixing plate 3 is slidable on the upper surface of the solar panel 2. The fixing rods 4 are fixedly connected to both the left and right sides of the solar panel 2, and a sliding groove is formed on the upper surface of the fixing rod 4, and the size of the sliding groove is determined. The housing 11 is fixedly connected to the left side of the inside of the solar panel 2 so as to match the size of the fixing plate 3.

A sliding rail 7 is fixedly connected to the right side of the inside of the solar panel 2, the sliding rail 7 is located directly under the fixed rod 4, and the size of the sliding rail 7 is the fixed rod. The inner surface of the sliding rail 7 is elastically connected to the lower end of the fixing plate 3 by a connecting spring 8 so as to match the size of the sliding groove in the fixing rod 4, and is provided on the inner rear side of the fixing rod 4. The support base 10 is fixedly connected, the wind receiving plate 1 is rotatably connected to the rear end of the upper surface of the fixing rod 4, and the worm 16 is rotatable inside the support base 10. A screw rod 13 is provided on the right side of the worm 16 by meshing with the worm 16.

A bearing base 15 is rotatably connected to the rear end of the screw rod 13, and the rear end of the bearing base 15 is fixedly connected to the inner surface of the solar panel 2 and connected to the front end of the screw rod 13. The sliding plate 12 is screwed into the sliding plate 12, the sliding plate 12 is slidably connected to the inner surface of the housing 11, and a worm wheel 9 is provided at the left end of the worm 16 so as to mesh with the worm wheel 9. A roulette wheel 17 is provided at the lower end of the worm 9 by meshing with each other, the roulette wheel 17 is provided vertically symmetrically inside the solar panel 2, and a chain is provided with meshing with the outer surface of the roulette wheel 17. A moving block 18 is fixedly connected to the chain, and the position of the moving block 18 is provided so as to match the position of the fixed plate 3 in the sliding rail 7, and is provided on the lower surface of the fixed plate 3. The cleaning block 14 is movably connected by bolts.

In the process of rotating the chain in conjunction with the roulette 17, when the moving block 18 comes into contact with the extending portion of the lower end of the fixed plate 3, the fixed plate 3 is interlocked with the moving block 18 and slides in the sliding rail 7. After the moving block 18 and the fixing plate 3 are separated from each other, the fixing plate 3 is pulled to the rear end of the sliding rail 7 by the elasticity of the connecting spring 8, and if this is repeated, the salt stains adhering to the surface of the solar panel 2 are removed. It is possible to clean the surface of the solar panel 2 in real time and leave as little salt stain as possible on the surface of the solar panel 2 to improve the work efficiency of the present invention.

As the sliding plate 12 slides in the housing 11, the air in the housing 11 is sucked or discharged, and the air pipe sends the air flow to the cleaning block 14 below the fixed body 3, and the cleaning block 14 sends the air flow to the cleaning block 14. The cleaned salt stains are removed from the cleaning block 14 by the air flow, whereby the cleaning effect of the cleaning block 14 is improved, the air flow can cool the surface of the solar panel 2, and the power generation efficiency of the solar panel 2 is increased.

When a wind is generated on the water during use, the wind receiving plate 1 is rotated by the thrust of the wind, the worm wheel 9 at the bottom of the wind receiving plate 1 is interlocked, and the roulette 17 that meshes with the worm wheel 9 is interlocked. When the moving block 18 comes into contact with the extending portion of the lower end of the fixed plate 3 in the process of rotating according to the roulette 17 in which the chain rotates, the fixed plate 3 interlocks with the moving block 18 and the sliding rail 7 At the same time as sliding inside, the connecting spring 8 is pulled, the fixing plate 3 is moved while sliding from the rear end of the sliding rail 7 to the front end of the sliding rail 7, and the block 18 is separated from the fixing plate 3 and the connecting spring. The elasticity of 8 pulls the fixing plate 3 back to the rear end of the sliding rail 7, and if this is repeated, the salt stains adhering to the surface of the solar panel 2 can be cleaned, and the worm wheel 9 rotates and at the same time the worm. The worm 16 at the rear end of the wheel rotates synchronously, and the worm 16 rotates the screw rod 13 that meshes with the worm 16, and the sliding plate 12 screwed with the screw rod 13 interlocks with the screw rod 13. By sliding in the housing 11, the air in the housing 11 is sucked in and out, and when the sliding plate 12 discharges the air in the housing 11, the air pipe makes the air flow below the fixing plate 3. When it is sent to the cleaning block 14 and the cleaning block 14 cleans the upper surface of the solar panel 2, the salt stains cleaned by the cleaning block 14 are removed from the cleaning block 14 by the air flow, and the cleaning effect of the cleaning block 14 is improved. In addition, the airflow can lower the surface temperature of the solar panel 2.

1 Wind receiving plate 2 Solar panel 3 Fixed plate 4 Fixed rod 5 Adjusting rod 6 Stretching rod 7 Sliding rail 8 Connection spring 9 Warm wheel 10 Support base 11 Housing 12 Sliding plate 13 Thread rod 14 Cleaning block 15 Bearing base 16 Warm 17 Roulette 18 moving block

Claims (5)

A mechanism for removing salt stains adhering to the surface of a water-based photovoltaic power generation device, including a solar panel (2), and a fixing plate (3) is slidably connected to the upper surface of the solar panel (2). A fixing rod (4) is fixedly connected to both the left and right sides of the solar panel (2), and a housing (11) is fixedly connected to the left side of the inside of the solar panel (2). ,
A sliding rail (7) is fixedly connected to the right side of the inside of the solar panel (2), and the inner surface of the sliding rail (7) is connected to the fixing plate (3) by a connecting spring (8). A support (10) is fixedly connected to the rear end of the inside of the fixing rod (4), and a wind receiver is attached to the rear end of the upper surface of the fixing rod (4). A plate (1) is rotatably connected, a worm (16) is rotatably connected to the inside of the support (10), and a screw rod (13) is engaged on the right side of the worm (16). A bearing base (15) is rotatably connected to the rear end of the screw rod (13), and the rear end of the bearing base (15) is fixed to the inner surface of the solar panel (2). A sliding plate (12) is screwed into the front end of the screw rod (13), and the sliding plate (12) is slidably connected to the inner surface of the housing (11). A worm wheel (9) is meshed with the left end of the worm (16), and a roulette (17) is meshed with the lower end of the worm (9). A mechanism for removing salt stains adhering to the surface of a floating solar power generation device, characterized in that a cleaning block (14) is movably connected to the lower surface by bolts. Claim 1 is characterized in that a sliding groove is formed on the upper surface of the fixing rod (4), and the size of the sliding groove is provided so as to match the size of the fixing plate (3). A mechanism for removing salt stains adhering to the surface of the surface photovoltaic power generation device described in. Adjustable legs (5) are fixedly connected to both front corners of the lower surface of the solar panel (2), and tension rods (6) are connected to the rear corners of the lower surface of the solar panel (2). The mechanism for removing salt stains adhering to the surface of the water solar power generation device according to claim 1, wherein the solar panels are fixedly connected. The sliding rail (7) is located directly below the fixing rod (4), and the sliding rail (7) is provided so that the size matches the size of the sliding groove in the fixing rod (4). The mechanism for removing salt stains adhering to the surface of the water-based photovoltaic power generation device according to claim 1, wherein the surface of the water-based photovoltaic power generation device is used. The roulette (17) is provided vertically symmetrically inside the solar panel (2), chains are provided on the outer surface of the roulette (17) in mesh with each other, and the chain is provided with a moving block (18). The mechanism for removing salt stains adhering to the surface of the water solar power generation device according to claim 1, wherein the solar panels are fixedly connected.

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