CN211209645U - Solar panel array acquisition system - Google Patents

Abstract

The utility model relates to a new energy equipment technical field, concretely relates to is a solar panel array collection system, through by the outer wall face, fill the wall, the wind-proof wall that interior wall and fixing base are constituteed can provide sufficient physical strength to the wind-proof system, the mode of wind-guiding is adopted to the built-in wind structure of dredging of wall filling simultaneously, the wind guide that will prevent the wind system windward side is discharged from other places, the pressure of the wind-proof system windward side has both been reduced, protect solar panel array again, set up the outer wall face into the arcwall face, and the special structure's of collocation enterprising tuber pipe and lower air-supply line, can carry out necessary guide to the hydrops that the rainfall produced through setting up guiding gutter and holding the basin, the while storage is in holding the basin, thereby realize reducing the hydrops volume on solar panel array surface, extension solar panel array life. The accumulated liquid entering the liquid storage tank is filtered by the filtering mechanism, so that the cleanliness of the accumulated liquid entering the liquid storage tank from the diversion trench is improved, and the later maintenance cost is reduced.

Description

Solar panel array acquisition system

Technical Field

The utility model relates to a new forms of energy equipment technical field, concretely relates to is a solar panel array collection system.

Background

Solar panel refers to solar photovoltaic panel again, and it utilizes the photoelectric effect through receiving solar energy, converts a part of solar radiation into the electric energy to carry to storage structure and save, and the solar panel array is laid multiunit solar panel side by side and is constituteed the array and increase the electric energy of gathering through increasing solar panel quantity, need consider when setting up and implementing the solar panel array to prevent wind, because solar panel often the area is great easily influenced by wind, drainage when needing to consider the rainfall when implementing the solar panel array simultaneously, if can't discharge the hydrops that assembles when the rainfall, can reduce solar panel array's support frame life by a wide margin.

SUMMERY OF THE UTILITY MODEL

The utility model discloses in the scheme to current implementation solar panel array collection solar energy, difficult realization is prevent wind or prevent wind the system architecture and too complicated, and the drainage when not considering the rainfall, if unable discharge the hydrops that assembles when the rainfall, can reduce solar panel array's support frame life's problem by a wide margin, provide a solar panel array collection system.

The technical scheme who adopts is, a solar panel array collection system is including preventing wind subassembly and row rain subassembly, prevent wind the subassembly including prevent wind wall and spliced pole, prevent wind the wall and locate solar panel array all around, and adjacent prevent wind wall passes through the spliced pole and connects, prevent wind the wall and include the outer wall face, the wall of packing, interior wall face and fixing base, the outer wall face, wall of packing and interior wall all locate the fixing base on, the wall of packing is located between outer wall face and the interior wall face, be provided with in the wall of packing and dredge wind structure, the solar panel array is kept away from to the outer wall face, the one side that the wall of packing was kept away from to the outer wall face is the arc, and outwards bulge towards the direction of keeping away from the wall of packing, the outer wall face surface is provided with the wind-guiding groove, interior wall face is close to, Filtering mechanism and liquid storage tank, the below of solar panel support frame is located to the guiding gutter, and solar panel surface area liquid on the solar panel support frame can flow into the guiding gutter, and filtering mechanism locates in the guiding gutter, and the filtering mechanism bottom is connected with the one end of transfer line, and the other end and the liquid storage tank of transfer line are connected, and the liquid storage tank is located solar panel support frame below.

Further, it includes the wind-guiding chamber to dredge the wind structure, go up the air-supply line, lower air-supply line and play tuber pipe, the wind-guiding chamber is located in the packing wall, lower air-supply line is connected with the lower part air intake and the last air-supply line in wind-guiding chamber respectively, lower air-supply line passes the lower part of outer wall face, lower air-supply line is located the outer one end opening slope of outer wall face upwards, go up the upper portion that the air-supply line passed outer wall face, it is downward that the outer one end opening slope of outer wall face is located to go up the air-supply line, it is connected with the top air.

Optionally, the bottom of the opening at one end of the lower air inlet pipe located outside the outer wall surface is provided with a first air baffle, the top of the opening at one end of the upper air inlet pipe located outside the outer wall surface is provided with a second air baffle, and the opening at one end of the lower air inlet pipe located outside the outer wall surface and the opening at one end of the upper air inlet pipe located outside the outer wall surface are both rounded rectangles.

Optionally, the wind structure of leading is still including supplementary tuber pipe, and supplementary tuber pipe passes the upper portion of interior wall, and supplementary tuber pipe is connected with the upper portion air outlet in wind-guiding chamber, highly is higher than the solar panel array of wind-proof wall, and supplementary tuber pipe is located the slope of the outer one end opening of wind-proof wall and upwards.

Furthermore, a water outlet is arranged at the bottom of the air guide cavity, the water outlet of the air guide cavity is connected with a water drain pipe, the water drain pipe penetrates out of the lower portion of the outer wall surface, and the water drain pipe is located below the lower air inlet pipe.

Furthermore, the opening at one end of the drain pipe, which is positioned outside the windproof wall, is detachably connected with a plug.

Optionally, the top of the windproof wall is arc-shaped, the top of the windproof wall is connected with a rain baffle through a connecting rod, and the rain baffle covers the air outlet pipe.

Further, the solar panel support frame is the triangle structure, and solar panel lays on the inclined plane of solar panel support frame, and the solar panel top is provided with the power transmission line, and solar panel support frame bottom is located to the guiding gutter, and is close to the acute angle of solar panel support frame bottom, and adjacent solar panel support frame sets up side by side, and filtering mechanism locates between two solar panel support frames, and the guiding gutter is by keeping away from one side of filtering mechanism towards the tilting of filtering mechanism.

Optionally, the filter mechanism includes filter mantle and funnel chamber, and the filter mantle covers in funnel chamber top, and the filter mantle can be led to the liquid of guiding gutter, and funnel chamber lower part is connected with the transfer line, and filter mechanism still includes fixing base, pivot and spiral leaf, and the fixing base is fixed in the center department of filter mantle, and the pivot passes from the fixing base and inserts in the funnel chamber, and the spiral leaf is located the pivot and is located the part in funnel chamber on, there is the clearance spiral leaf and the inner wall in funnel chamber.

Optionally, a submersible pump is arranged in the liquid storage tank, an output end of the submersible pump is connected with a second drain pipe, and the second drain pipe penetrates out of the liquid storage tank.

The utility model has the advantages that at least one of the following advantages is included;

1. through by the outer wall face, the wall that fills, the wind-proof wall that interior wall and fixing base are constituteed can provide sufficient physical strength to the system of preventing wind, the mode of wind-guiding is adopted to the built-in wind structure of dredging of wall that fills simultaneously, the wind guide that will prevent wind the system windward side is discharged from other places, the pressure of preventing wind the system windward side of both having reduced, protect the solar panel array again, set up the outer wall face into the arcwall face, and the special structure's of collocation enterprising air pipe and lower air-supply line, can increase substantially the efficiency of dredging wind.

2. Necessary guide can be carried out to the hydrops that the rainfall produced through setting up guiding gutter and accumulator, and the while is saved in the accumulator to realize reducing the hydrops volume on solar panel array surface, extension solar panel array life. The accumulated liquid entering the liquid storage tank is filtered by the filtering mechanism, so that the cleanliness of the accumulated liquid entering the liquid storage tank from the diversion trench is improved, and the later maintenance cost is reduced.

3. The problem of in the current scheme of implementing solar panel array to gather solar energy, it is too complicated to realize preventing wind or prevent wind system structure more difficult, and drainage when not considering the rainfall, if can't discharge the hydrops that assembles when the rainfall, can reduce solar panel array's support frame life by a wide margin.

Drawings

FIG. 1 is a schematic view of a structure of a wind-break wall;

FIG. 2 is a schematic structural view of the windward side of the windproof wall;

FIG. 3 is a schematic diagram of a solar panel array collection system;

FIG. 4 is a schematic view of a solar panel support frame;

FIG. 5 is a schematic view of a filter mechanism;

labeled as: 1 is a windproof wall, 2 is a connecting column, 3 is a solar panel, 4 is an outer wall, 5 is an inner wall, 6 is a filling wall, 7 is an air guide cavity, 8 is a lower air inlet pipe, 9 is an upper air inlet pipe, 10 is an air outlet pipe, 11 is a fixed seat, 12 is an installation part, 13 is an installation groove, 14 is a bulge, 15 is a first fixing bolt, 16 is an expansion bolt, 17 is a drain pipe, 18 is a plug, 19 is a fixed plate, 20 is a second fixing bolt, 21 is a third fixing bolt, 22 is a rain baffle, 23 is a connecting rod, 24 is an auxiliary air outlet pipe, 25 is an air guide groove, 26 is a first wind baffle plate, 27 is a first flow guide groove, 28 is a power transmission line, 29 is a liquid storage groove, 30 is a filtering mechanism, 31 is a submersible pump, 32 is a second drain pipe, 33 is a solar panel support frame, 34 is a filter cover, 35 is a rotating shaft, 36 is a second fixed seat, 37 is a rotary vane, 38 is a funnel cavity, 39 is, And 40 is a second wind deflector.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the scope of the invention.

As shown in fig. 1 to 4, a solar panel array collecting system comprises a wind-proof assembly and a rain-discharging assembly, wherein the wind-proof assembly comprises a wind-proof wall 1 and a connecting column 2, the wind-proof wall 1 is arranged around a solar panel array, and adjacent wind-proof walls 1 are connected through the connecting column 2, the wind-proof wall 1 comprises an outer wall surface 4, a filling wall surface 6, an inner wall surface 5 and a fixing seat 11, the outer wall surface 4, the filling wall surface 6 and the inner wall surface 5 are all arranged on the fixing seat 11, the filling wall surface 6 is positioned between the outer wall surface 4 and the inner wall surface 5, a wind-dispersing structure is arranged in the filling wall surface 6, the outer wall surface 4 is far away from the solar panel array, one surface of the outer wall surface 4, far away from the filling wall surface 6, is arc-shaped and protrudes outwards in the direction far away from the filling wall surface 6, a wind-guiding groove 25, the rain discharging component comprises a diversion trench 27, a filtering mechanism 30 and a liquid storage tank 29, the diversion trench 27 is arranged below a solar panel supporting frame 33, the surface area liquid of a solar panel 3 on the solar panel supporting frame 33 can flow into the diversion trench 27, the filtering mechanism 30 is arranged in the diversion trench 27, the bottom of the filtering mechanism 30 is connected with one end of a liquid conveying pipe 39, the other end of the liquid conveying pipe 39 is connected with the liquid storage tank 29, and the liquid storage tank 29 is positioned below the solar panel supporting frame 33.

In use, the windproof wall composed of the outer wall surface, the filling wall surface, the inner wall surface and the fixing seat can provide enough physical strength for the windproof system, and meanwhile, the wind guiding structure arranged in the filling wall surface adopts a wind guiding mode to guide wind on the windward side of the windproof system to be discharged from other places, so that the pressure on the windward side of the windproof system is reduced, and the solar panel array is protected.

The outer wall surface is set to be an arc-shaped surface protruding outwards, the air guide groove is formed in the outer wall surface, the air guide groove can be verified to face towards an upper air inlet pipe and a lower air inlet pipe to be dredged by air blocked by the arc-shaped surface, the air guide groove can be arranged along the circumferential direction of the arc-shaped surface when the air guide groove is arranged, and the air guide groove can not be formed in the area between the upper air inlet pipe and the lower air inlet pipe and the top of the outer wall surface.

Necessary guide can be carried out to the hydrops that the rainfall produced through setting up guiding gutter and accumulator, and the while is saved in the accumulator to realize reducing the hydrops volume on solar panel array surface, extension solar panel array life. The accumulated liquid entering the liquid storage tank is filtered by the filtering mechanism, so that the cleanliness of the accumulated liquid entering the liquid storage tank from the diversion trench is improved, and the later maintenance cost is reduced.

The problem of in the current scheme of implementing solar panel array to gather solar energy, it is too complicated to realize preventing wind or prevent wind system structure more difficult, and drainage when not considering the rainfall, if can't discharge the hydrops that assembles when the rainfall, can reduce solar panel array's support frame life by a wide margin.

When the wall is installed, a person skilled in the art can install the filling wall surface on the base, and then build the outer wall surface and the inner wall surface on two sides of the filling wall surface to complete installation.

This embodiment has still provided a concrete mounting structure of a windproof system, wherein 11 both sides of fixing base are provided with installation department 12, it is fixed with ground through the expansion bolts 16 that pass installation department 12, the fixing base upper surface is provided with mounting groove 13 simultaneously, it is provided with the bulge with mounting groove 13 looks adaptation to fill the wall bottom, insert bulge 14 in mounting groove 13 during the installation is filled the wall, insert first fixing bolt from the fixing base 11 side along the direction of perpendicular to bulge, with bulge fixed connection in the mounting groove, simultaneously in order to further increase the compactness of filling the wall and being connected with the fixing base, technical personnel can also set up stationary blade 19 at one side of filling the wall towards the interior wall, stationary blade 19 is L shape structure, stationary blade one side and the wall of filling laminating, another side and the laminating of fixing base upper surface, and be connected with filling wall and fixing base upper surface respectively through second fixing bolt 20 and third fixing bolt 21.

In this embodiment, it includes wind-guiding cavity 7 to dredge the wind structure, go up air inlet duct 9, lower air-supply line 8 and play tuber pipe 10, wind-guiding cavity 7 is located in filling wall 6, lower air-supply line 8 is connected with lower part air intake and last air inlet duct 9 in wind-guiding cavity 7 respectively, lower air-supply line 8 passes the lower part of outer wall 4, lower air-supply line 8 is located the slope of the outer one end opening of outer wall 4 upwards, go up the upper portion that air inlet duct 9 passed outer wall 4, it is downward that the outer one end opening slope of outer wall 4 is located to go up air inlet duct 9, it is connected with the top air outlet in wind-guiding cavity 7 to go out tuber pipe 10, it wears out from filling wall 6 tops to go.

The utility model discloses a wind dredging structure, it mainly comprises wind-guiding cavity, last air inlet pipe, lower air-supply line and play tuber pipe, wherein the opening of last air inlet pipe and lower air-supply line all is located the outer wall face, can set up multiunit last air inlet pipe and lower air inlet pipe when setting up, when outer wall face is faced the wind, partly wind energy enough gets into last air inlet pipe and lower air inlet pipe, and transmit to in the wind-guiding cavity, then discharge from the play tuber pipe that is located wind-guiding cavity top, both reduced the pressure of whole system of preventing wind, realize protecting the solar panel array that is located in the system of preventing wind again.

Meanwhile, the bottom of the opening at one end of the lower air inlet pipe 8 outside the outer wall surface 4 is provided with a first air baffle 26, and the top of the opening at one end of the upper air inlet pipe 9 outside the outer wall surface 4 is provided with a second air baffle 27.

Meanwhile, the opening at one end of the lower air inlet pipe 8 positioned outside the outer wall surface 4 and the opening at one end of the upper air inlet pipe 9 positioned outside the outer wall surface 4 are both rounded rectangles.

Therefore, due to the special structures of the upper air inlet pipe and the lower air inlet pipe, the air guided by the air guide groove can be blocked and guided into the air inlet pipes which are matched with each other under the matching of the first air baffle and the second air baffle.

In this embodiment, a person skilled in the art can install a door or other necessary facilities between the wind-proof walls as required, and can combine a plurality of wind-proof cavities to form a longer wind-proof wall.

In this embodiment, the wind guiding structure further includes an auxiliary wind outlet pipe 24, the auxiliary wind outlet pipe 24 penetrates through the upper portion of the inner wall surface 5, the auxiliary wind outlet pipe 24 is connected with the upper air outlet of the wind guiding cavity 7, and the height of the wind-proof wall 1 is higher than that of the solar panel array 3. The auxiliary air outlet pipe 24 is positioned outside the windproof wall 1, and the opening at one end is inclined upwards.

The design aims at reducing the pressure of the air outlet pipe, an auxiliary air outlet pipe can be arranged, and partial air is discharged from the windproof wall above the solar panel array.

In this embodiment, the bottom of the air guiding cavity 7 is provided with a water outlet, the water outlet of the air guiding cavity 7 is connected with a water drainage pipe 17, the water drainage pipe 17 penetrates out from the lower portion of the outer wall surface 4, and the water drainage pipe 17 is located below the lower air inlet pipe 8. The end opening of the drain pipe 17, which is positioned outside the windproof wall 1, is detachably connected with a plug 18.

The purpose of design like this is that can discharge the liquid that gets into the wind-guiding intracavity from each pipeline through setting up the drain pipe, sets up the end cap simultaneously on the drain pipe, and the field work personnel can be through opening the end cap and regularly discharge the liquid of scraping up in the wind-guiding intracavity.

In this embodiment, the top of the windproof wall 1 is arc-shaped, and the top of the windproof wall 1 is connected with a weather shield 22 through a connecting rod 23, and the weather shield 22 covers the air outlet pipe 10.

The purpose of design like this, through set up the connecting rod and connect the weather shield at the headwall top, liquid gets into the probability in wind-guiding chamber when can reducing the rainy by a wide margin, improves the life of whole device by a wide margin.

As shown in fig. 4 and 5, the solar panel support frame 33 is a triangular structure, the solar panel 3 is laid on the inclined plane of the solar panel support frame 33, the top of the solar panel 3 is provided with a power transmission line 28, the diversion trench 27 is arranged at the bottom of the solar panel support frame 33 and is close to the acute angle at the bottom of the solar panel support frame 33, the adjacent solar panel support frames 33 are arranged side by side, the filtering mechanism 30 is arranged between the two solar panel support frames 33, and the diversion trench 27 is inclined towards the filtering mechanism 30 from the side far away from the filtering.

The aim at of design like this, the solar panel support that adopts the triangle-shaped structure can be convenient for set up solar panel towards a fixed direction, the collection and the conversion of the solar energy of being convenient for, and the electric energy after the conversion simultaneously is unified to be carried to the accumulate part of looks adaptation through the power transmission line and is stored, because solar panel lays on solar panel support's inclined plane, therefore rainfall or other liquid drops can flow into the guiding gutter along the inclined plane and carry out unified emission.

In this embodiment, a scheme that solar panel support frame set up side by side is disclosed, wherein solar panel support frame 11 sets up side by side, and filtering mechanism 7 locates between two solar panel support frames 11, and guiding gutter 4 is by keeping away from one side of filtering mechanism 7 towards the slope of filtering mechanism 7.

In use, the user can select to set up a plurality of solar panel support frames side by side and make up into row form array, can only satisfy row rain demand through setting up a guiding gutter like this, sets up filter mechanism between two adjacent solar panel support frames when setting up, and the guiding gutter forms the undulation structure of similar wave promptly like this, is convenient for with the hydrops water conservancy diversion that assembles to holding in the cistern.

In the embodiment, a specific composition of a filtering mechanism is disclosed, wherein the filtering mechanism 30 includes a filter 34 and a funnel cavity 38, the filter 34 covers the top of the funnel cavity 38, the liquid in the diversion trench 27 can pass through the filter 34, the lower part of the funnel cavity 38 is connected with a liquid conveying pipe 39, the filtering mechanism 30 further includes a second fixing seat 36, a rotating shaft 35 and a rotary vane 37, the second fixing seat 36 is fixed at the center of the filter 34, the rotating shaft 35 penetrates through the second fixing seat 36 and is inserted into the funnel cavity 38, the rotary vane 37 is arranged on the part of the rotating shaft 35 located in the funnel cavity 38, and a gap exists between the rotary vane 37 and the inner wall of the funnel cavity 38.

The aim at of design like this, the filter mantle is cake column structure, and its surface is covered with the even strip filter screen of interval, and the hydrops can be followed and passed in the filter screen, and cubic or strip impurity in the hydrops can be blockked and can't get into the transfer line outside the filter mantle, sets up rotary vane and pivot simultaneously in the funnel chamber, and the pivot is connected on the fixing base, can rotate along with the rotary vane together, and the rotary vane can be with filiform impurity winding on it in the hydrops.

In this embodiment, a submersible pump 31 is disposed in the liquid storage tank 29, an output end of the submersible pump 31 is connected to a second water discharge pipe 32, and the second water discharge pipe 32 penetrates out of the liquid storage tank 29.

The purpose of design like this, through setting up immersible pump and drain pipe, the user can derive the hydrops of gathering in the accumulator and discharge, if discharge outside wind-proof wall 1, when setting up whole solar panel array, can set up the wind-proof system of constituteing by wind-proof wall 1 and spliced pole 2 outside the solar panel array.

Claims (10)

1. A solar panel array collection system which characterized in that: the windproof and rainproof solar energy collector comprises a windproof component and a rain drainage component, wherein the windproof component comprises a windproof wall (1) and a connecting column (2), the windproof wall (1) is arranged around a solar panel array, the adjacent windproof walls (1) are connected through the connecting column (2), the windproof wall (1) comprises an outer wall surface (4), a filler wall surface (6), an inner wall surface (5) and a fixing seat (11), the outer wall surface (4), the filler wall surface (6) and the inner wall surface (5) are all arranged on the fixing seat (11), the filler wall surface (6) is positioned between the outer wall surface (4) and the inner wall surface (5), a wind dredging structure is arranged in the filler wall surface (6), the outer wall surface (4) is far away from the solar panel array, one surface of the outer wall surface (4) far away from the filler wall surface (6) is arc-shaped, and protrudes outwards towards the direction far away from the filler wall surface (6), and a wind guide groove (25), interior wall (5) are close to the solar panel array, fixing base (11) are connected with ground, the solar panel array includes solar panel (3) and solar panel support frame (33), it includes guiding gutter (27), filtering mechanism (30) and holds accumulator (29) to arrange the rain subassembly, the below of solar panel support frame (33) is located in guiding gutter (27), solar panel (3) surface area liquid on solar panel support frame (33) can flow in guiding gutter (27), in guiding gutter (27) was located in filtering mechanism (30), filtering mechanism (30) bottom was connected with the one end of transfer line (39), the other end and the accumulator (29) of transfer line (39) are connected, it is located solar panel support frame (33) below to hold accumulator (29).

2. The solar panel array collection system of claim 1, wherein: the air dispersing and guiding structure comprises an air guiding cavity (7), an upper air inlet pipe (9), a lower air inlet pipe (8) and an air outlet pipe (10), the air guiding cavity (7) is arranged in a filling wall surface (6), the lower air inlet pipe (8) is respectively connected with a lower air inlet of the air guiding cavity (7) and the upper air inlet pipe (9), the lower air inlet pipe (8) penetrates through the lower portion of the outer wall surface (4), the lower air inlet pipe (8) is located at one end, outside the outer wall surface (4), of the lower air inlet pipe (8) and inclines upwards, the upper air inlet pipe (9) penetrates through the upper portion of the outer wall surface (4), one end, outside the outer wall surface (4), of the upper air inlet pipe (9) is located at one end, outside the outer wall surface (4), of the upper air outlet pipe (10) is inclined downwards, the air outlet pipe.

3. A solar panel array collection system according to claim 2, wherein: one end opening bottom that lower air-supply line (8) are located outer wall face (4) is provided with first wind-break piece (26), one end opening top that last air-supply line (9) are located outer wall face (4) is provided with second wind-break piece (40), and one end opening that lower air-supply line (8) are located outer wall face (4) and one end opening that last air-supply line (9) are located outer wall face (4) are rounded rectangle.

4. A solar panel array collection system according to claim 2, wherein: the wind guiding structure further comprises an auxiliary wind outlet pipe (24), the auxiliary wind outlet pipe (24) penetrates through the upper portion of the inner wall surface (5), the auxiliary wind outlet pipe (24) is connected with an upper air outlet of the wind guiding cavity (7), the wind-proof wall (1) is higher than the solar panel array, and the auxiliary wind outlet pipe (24) is located at one end, outside the wind-proof wall (1), of the opening in the inclined mode.

5. The solar panel array collection system of claim 4, wherein: the bottom of the air guide cavity (7) is provided with a water outlet, the water outlet of the air guide cavity (7) is connected with a water discharge pipe (17), the water discharge pipe (17) penetrates out of the lower portion of the outer wall surface (4), and the water discharge pipe (17) is located below the lower air inlet pipe (8).

6. The solar panel array collection system of claim 5, wherein: the drain pipe (17) is located one end opening of the outer side of the windproof wall (1) and is detachably connected with a plug (18).

7. The solar panel array collection system of claim 6, wherein: the top of the windproof wall (1) is arc-shaped, the top of the windproof wall (1) is connected with a rain baffle (22) through a connecting rod (23), and the rain baffle (22) covers the air outlet pipe (10).

8. The solar panel array collection system of claim 1, wherein: solar panel support frame (33) are the triangle structure, solar panel (3) are laid on the inclined plane of solar panel support frame (33), and solar panel (3) top is provided with power transmission line (28), and solar panel support frame (33) bottom is located in guiding gutter (27), and is close to the acute angle of solar panel support frame (33) bottom, and is adjacent solar panel support frame (33) set up side by side, and filtering mechanism (30) locate between two solar panel support frames (33), guiding gutter (27) are by keeping away from one side of filtering mechanism (30) towards filtering mechanism (30) slope.

9. The solar panel array collection system of claim 8, wherein: filter equipment (30) includes filter mantle (34) and funnel chamber (38), filter mantle (34) cover in funnel chamber (38) top, filter mantle (34) can be passed through to the liquid of guiding gutter (27), funnel chamber (38) lower part is connected with transfer line (39), and filter equipment (30) still includes second fixing base (36), pivot (35) and spiral leaf (37), the center department of filter mantle (34) is fixed in second fixing base (36), pivot (35) are passed from second fixing base (36) and are inserted in funnel chamber (38), spiral leaf (37) are located on the part that pivot (35) are located funnel chamber (38), and there is the clearance in the inner wall of spiral leaf (37) and funnel chamber (38).

10. A solar panel array collection system according to claim 9, wherein: a submersible pump (31) is arranged in the liquid storage tank (29), the output end of the submersible pump (31) is connected with a second drain pipe (32), and the second drain pipe (32) penetrates out of the liquid storage tank (29).

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