CN211239783U - Solar energy collection system with arc wall of preventing wind - Google Patents

Abstract

The utility model relates to a new energy equipment technical field, concretely relates to solar energy collecting system with wall is prevent wind to arc, can provide sufficient physical strength to prevent wind the system through the wall of preventing wind that comprises outer wall face, packing wall, interior wall and fixing base, simultaneously in the built-in mode that leads of packing wall structure adoption wind-guiding of dredging of filling the wall, the wind guide that will prevent wind the system windward side is discharged from other places, has both reduced the pressure of preventing wind the system windward side, has protected the solar panel array again. The outer wall surface is set to be an arc-shaped surface, and the upper air inlet pipe and the lower air inlet pipe which are of special structures are matched, so that the efficiency of air dispersing and guiding can be greatly improved. The problem of in the current scheme of implementing solar panel array collection solar energy, it is difficult to realize preventing wind or prevent wind system structure too complicated is solved.

Description

Solar energy collection system with arc wall of preventing wind

Technical Field

The utility model relates to a new forms of energy equipment technical field, concretely relates to solar energy collecting system with wall is prevent wind to arc.

Background

Solar panels are solar photovoltaic panels, which convert part of solar radiation into electric energy by receiving solar energy and utilizing photoelectric effect, and transmit the electric energy to a storage structure for storage, and solar panel arrays are formed by laying a plurality of groups of solar panels side by side to increase the collected electric energy by increasing the number of the solar panels.

SUMMERY OF THE UTILITY MODEL

The utility model discloses in the scheme to current implementation solar panel array collection solar energy, the difficult problem of preventing wind or prevent wind the too complicated of system architecture that realizes, provide a solar energy collecting system with wall is prevent wind to the arc.

The technical scheme who adopts is, a solar energy collecting system with wall is prevent wind to arc is including preventing wind wall and spliced pole, prevent wind the wall and locate around the solar panel array, and adjacent prevent wind the wall and pass through the spliced pole and connect, prevent wind the wall and include the outer wall face, the wall of packing, interior wall face and fixing base, the outer wall face, the wall of packing is all located on the fixing base with interior wall face, 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 the 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 the outside protrusion of direction of keeping away from the wall of packing towards.

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, which is located outside the outer wall surface, is provided with a first air baffle, and the top of the opening at one end of the upper air inlet pipe, which is located outside the outer wall surface, is provided with a second air baffle.

Optionally, an opening at one end of the lower air inlet pipe located outside the outer wall surface and an opening at one end of the upper air inlet pipe located outside the outer wall surface are both rounded rectangles.

Furthermore, the wind guiding structure further comprises an auxiliary wind outlet pipe, the auxiliary wind outlet pipe penetrates through the upper portion of the inner wall surface, the auxiliary wind outlet pipe is connected with an air outlet in the upper portion of the wind guiding cavity, and the height of the wind preventing wall is higher than that of the solar panel array.

Furthermore, the opening at one end of the auxiliary air outlet pipe, which is positioned outside the windproof wall, is inclined upwards.

Optionally, 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.

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

1. 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 built-in wind dredging structure of 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.

2. The outer wall surface is set to be an arc-shaped surface, and the upper air inlet pipe and the lower air inlet pipe which are of special structures are matched, so that the efficiency of air dispersing and guiding can be greatly improved.

3. The problem of in the current scheme of implementing solar panel array collection solar energy, it is difficult to realize preventing wind or prevent wind system structure too complicated is solved.

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 view of a solar energy collection system with curved windbreak walls;

labeled as: 1 is a windproof wall, 2 is a connecting column, 3 is a solar panel array, 4 is an outer wall surface, 5 is an inner wall surface, 6 is a filling wall surface, 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 part, 15 is a first fixing bolt, 16 is an expansion bolt, 17 is a drain pipe, 18 is a plug, 19 is a fixed piece, 20 is a second fixing bolt, 21 is a third fixing bolt, 22 is a rain shield, 23 is a connecting rod, 24 is an auxiliary air outlet pipe, 25 is an air guide groove, 26 is a first wind shield, and 27 is a second wind shield.

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. 1-3, a solar energy collecting system with wall is prevent wind to arc includes prevent wind wall 1 and spliced pole 2, prevent wind wall 1 locates around solar panel array 3, and adjacent prevent wind wall 1 passes through spliced pole 2 and connects, prevent wind wall 1 includes outer wall surface 4, pack wall surface 6, interior wall surface 5 and fixing base 11, outer wall surface 4, pack wall surface 6 and interior wall surface 5 all locate on fixing base 11, pack wall surface 6 is located between outer wall surface 4 and the interior wall surface 5, be provided with in the pack wall surface 6 and dredge wind guide structure, solar panel array 3 is kept away from to outer wall surface 4, the one side that pack wall surface 6 was kept away from to outer wall surface 4 is the arc, and the direction that packs wall surface 6 was kept away from outwards to the orientation, outer wall surface 4 surface is provided with wind-guiding groove 25, interior wall surface 5 is close to solar panel array 3.

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.

The problem of in the current scheme of implementing solar panel array collection solar energy, it is difficult to realize preventing wind or prevent wind system structure too complicated is solved.

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.

The embodiment also provides a concrete installation structure of a windproof system, wherein the fixing base 11 is provided with installation parts 12 at both sides, fixed with the ground by expansion bolts 16 penetrating through the installation parts 12, meanwhile, the upper surface of the fixed seat is provided with an installation groove 13, the bottom of the filling wall surface is provided with a convex part matched with the installation groove 13, the convex part 14 is inserted into the installation groove 13 when the filling wall surface is installed, inserting a first fixing bolt from the side of the fixing base 11 in a direction perpendicular to the protrusion to fixedly attach the protrusion to the mounting groove, meanwhile, in order to further increase the connection tightness between the filling wall surface and the fixed seat, a person skilled in the art can also arrange a fixing sheet 19 on the side of the filling wall surface facing the inner wall surface, wherein the fixing sheet 19 is of an L-shaped structure, one surface of the fixing sheet is attached to the filling wall surface, the other surface of the fixing sheet is attached to the upper surface of the fixed seat, and are respectively connected with the filling wall surface and the upper surface of the fixed seat through a second fixing bolt 20 and a 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.

Claims (9)

1. The utility model provides a solar energy collecting system with wall is prevent wind to arc which characterized in that: the windproof and windproof solar energy collecting wall comprises windproof walls (1) and connecting columns (2), wherein the windproof walls (1) are arranged around a solar panel array (3), the adjacent windproof walls (1) are connected through the connecting columns (2), each 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 surfaces (4), the filler wall surfaces (6) and the inner wall surfaces (5) are all arranged on the fixing seats (11), the filler wall surfaces (6) are positioned between the outer wall surfaces (4) and the inner wall surfaces (5), wind dredging structures are arranged in the filler wall surfaces (6), the outer wall surfaces (4) are far away from the solar panel array (3), one surfaces of the outer wall surfaces (4) far away from the filler wall surfaces (6) are arc-shaped, and outwards protrude towards the direction far away from the filler wall surfaces (6), wind guide grooves (25) are arranged on the surfaces of the outer wall surfaces (4), and the inner wall surfaces (, the fixed seat (11) is connected with the ground.

2. The solar energy collection system with an arcuate storm wall 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. The solar energy collection system with an arcuate storm wall of claim 2 wherein: the air inlet pipe (8) is arranged on the outer side of the outer wall surface (4) and is provided with a first air baffle sheet (26) at the bottom of an opening at one end, and the upper air inlet pipe (9) is arranged on the outer side of the outer wall surface (4) and is provided with a second air baffle sheet (27) at the top of an opening at one end.

4. A solar energy collection system with curved windbreak walls according to claim 3 wherein: and an opening at one end of the lower air inlet pipe (8) positioned outside the outer wall surface (4) and an opening at one end of the upper air inlet pipe (9) positioned outside the outer wall surface (4) are both rounded rectangles.

5. The solar energy collection system with an arcuate storm wall of claim 2 wherein: the wind dredging 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 guide cavity (7), and the height of the wind-proof wall (1) is higher than that of the solar panel array (3).

6. The solar energy collection system with an arcuate storm wall of claim 5 wherein: the auxiliary air outlet pipe (24) is positioned at one end outside the windproof wall (1), and an opening is inclined upwards.

7. A solar energy collection system with curved windbreak walls according to claim 3 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).

8. The solar energy collection system with an arcuate storm wall of claim 7 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).

9. The solar energy collection system with an arcuate storm wall of claim 2 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).

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