CN118065468B - Ecological photovoltaic desertification control device - Google Patents

Abstract

The invention discloses an ecological photovoltaic sand control device which comprises a bottom photovoltaic bracket, a middle collecting frame and an upper photovoltaic module, wherein the middle collecting frame is correspondingly arranged on the bottom photovoltaic bracket, so that the middle collecting frame is arranged in an inclined direction, the upper photovoltaic module is correspondingly arranged on the middle collecting frame through a supporting rod, and the inclined angle of the upper photovoltaic module is consistent with that of the middle collecting frame; and the size of the middle collecting frame is larger than that of the upper end photovoltaic module above, so that a rain falling gap is formed in a circle of range outside the upper end photovoltaic module, and rainwater flowing down on the upper end photovoltaic module falls into the middle collecting frame from the rain falling gap for ecological desertification control. The invention can receive rainwater in a large range, has larger water storage capacity and can collect rainwater efficiently; and be provided with the upset filter screen, can filter debris dust etc. in the rainwater, and the upset filter screen can overturn, impurity on the upset filter screen or in the middle collection frame etc. all can conveniently clear away.

Description

Ecological photovoltaic desertification control device

Technical Field

The invention relates to the technical field of ecological photovoltaics for preventing and controlling sand in arid areas, in particular to an ecological photovoltaics device for controlling sand.

Background

In the prior art, aiming at the work of sand prevention, sand fixation and the like in arid areas, drought-resistant vegetation is usually required to be planted and screened, and integrated equipment for water collection, water saving and the like is required to be arranged and researched when the drought-resistant vegetation is planted, and the technical scheme for utilizing a photovoltaic assembly to conduct water saving and water collection exists in the prior art.

For example: application publication number: the technical scheme of CN117176053A discloses a photovoltaic desertification control system, namely a photovoltaic system formed by arranging a photovoltaic bracket and a photovoltaic plate, arranging a top frame plate, a reservoir and the like for collecting water, and irrigating by a spraying device.

For example: authorized bulletin number: the technical scheme of CN218667722U discloses a rainwater collecting and dividing system suitable for a photovoltaic power station in a northern arid area, and the technical scheme is also a technical scheme for collecting rainwater through a photovoltaic bracket, a photovoltaic plate and the like, storing and using the rainwater.

Among the above-mentioned technical scheme, all carry out the collection of rainwater through the photovoltaic board that the slope installation set up among the photovoltaic system, and in the prior art generally, only rely on the photovoltaic board to collect the rainwater, as above-mentioned authority bulletin number: patent document CN218667722U describes that a water collection tank is provided at the lower end position of the photovoltaic panel, and rainwater on the photovoltaic panel falls into the water collection tank.

The area that rainwater was collected only lies in photovoltaic board among the above-mentioned technical scheme, and rainwater collection area is limited to when the rain is great, the water catch bowl can not effectually collect most rainwater at all, basically the rainwater can all waste, and the space area of water catch bowl is less, can't effectively collect more rainwater.

Therefore, in order to solve the above problems, it is necessary to develop an ecological photovoltaic desertification control device which has a large rainwater collecting area and can improve rainwater collecting efficiency.

Disclosure of Invention

The invention aims to provide an ecological photovoltaic desertification control device aiming at the defects in the prior art; the technical scheme is as follows:

The ecological photovoltaic desertification control device comprises a bottom photovoltaic bracket, a middle collecting frame and an upper photovoltaic module, wherein the middle collecting frame is correspondingly arranged on the bottom photovoltaic bracket, the bottom photovoltaic bracket is correspondingly arranged so that the middle collecting frame is arranged in an inclined direction, the upper photovoltaic module is correspondingly arranged on the middle collecting frame through a supporting rod, and the inclined angle of the upper photovoltaic module is consistent with that of the middle collecting frame;

And the size of the middle collecting frame is larger than that of the upper end photovoltaic module above, so that a rain falling gap is formed in a circle of range outside the upper end photovoltaic module, and rainwater flowing down on the upper end photovoltaic module falls into the middle collecting frame from the rain falling gap for ecological desertification control.

Further, the bottom photovoltaic support department still install the water and collect the box, this water is collected and is collected the box and is collected the frame in the centre and install the water collecting pipe between the frame, still install the suction pump on this water collecting pipe, collect the rainwater that collects in the frame in the centre and draw in to the water through the suction pump and collect in the box.

Furthermore, the bottom of the water body collecting box is also provided with an irrigation pipeline, and the irrigation pipeline can irrigate the planted green plants correspondingly after extending outwards.

Further, the upper photovoltaic module comprises a photovoltaic mounting plate and a photovoltaic solar panel embedded on the photovoltaic mounting plate; and at least six photovoltaic solar panels are embedded on one group of photovoltaic mounting plates, and the size of the middle collecting frame is larger than that of the photovoltaic mounting plate.

Further, support rods which are uniformly distributed are correspondingly installed between the photovoltaic mounting plate and the middle collecting frame, and the upper side frame plate, the two side frame plates and the lower side frame plate of the middle collecting frame are all of an open structure.

Further, the edge of the plate body of the photovoltaic mounting plate is correspondingly provided with a turnover filter screen through a hinge assembly, and the turnover filter screen is put on a frame plate outside the middle collecting frame after being turned outwards, so that a rain falling gap is integrally covered, and rainwater falling from the rain falling gap is filtered through the turnover filter screen correspondingly;

The upper end part of the water collecting pipe is also provided with a water filter screen.

Further, the lower side frame plate of the middle collecting frame is of a turnover frame plate structure, the lower side frame plate and the lower end part of the middle collecting frame are correspondingly arranged through a hinge assembly, supporting columns are further arranged at two side ends of the hinge assembly, and the hinge assembly and the lower end part of the middle collecting frame are supported at the lower end position through the supporting columns;

The corresponding turnover filter screens of the lower side frame plates are turned upwards, and then the lower side frame plates are turned downwards, so that sundries in the middle collecting frame can be cleaned.

Further, driving mechanisms are further installed on two sides of the hinge assembly, the driving mechanisms are correspondingly fixed on the supporting upright posts, the hinge assembly and the lower side frame plates can be correspondingly driven to correspondingly overturn through the supporting upright posts, and the lower side frame plates can be correspondingly overturned to be located on the same plane with the middle collecting frame.

The beneficial effects are that: the invention has the following beneficial effects:

1) The technical scheme of the invention is that a middle collecting frame is directly arranged below the upper photovoltaic module, the size of the middle collecting frame is larger than that of the upper photovoltaic module, and the middle collecting frame is of an open structure, can receive rainwater in a large range, has larger water storage capacity and can collect rainwater efficiently;

2) According to the invention, the turnover filter screen is arranged, so that rainwater can be directly filtered, sundry dust and the like in the rainwater can be filtered, the clarity of the rainwater in the water body collection box can be relatively maintained, and the turnover filter screen can be turned over, so that impurities on the turnover filter screen and impurities in the middle collection frame can be conveniently removed;

3) The upper end of the water collecting pipe in the middle collecting frame is also provided with the filter screen, so that sundries and the like can be isolated outside, and the structure is reasonable; the upper photovoltaic module is correspondingly arranged on the middle collecting frame through the supporting rods, and can be stably arranged through the middle collecting frame, so that the structure is reasonable;

4) According to the invention, the water body collecting box is arranged at the bottom photovoltaic bracket, the water body collecting pipe is arranged at the lower end part of the middle collecting frame, and the water pump is arranged, so that rainwater can be rapidly collected into the water body collecting box;

5) The lower side frame plate of the middle collecting frame is arranged to be of a hinged turnover structure, the lower side frame plate is installed through a hinge assembly, and the area inside the middle collecting frame can be conveniently cleaned through the turnover lower side frame plate;

6) The invention is also provided with a supporting upright post and a driving mechanism, so that the whole structure is stable and reliable; on the other hand, the driving mechanism can drive the lower side frame plate to turn over, so that sundries and the like can be flushed down, and sundries in the middle collecting frame can be automatically cleaned.

Drawings

FIG. 1 is a block diagram of the present invention;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

FIG. 3 is a diagram illustrating the installation of a flip filter screen according to the present invention;

FIG. 4 is a view showing the installation of the lower side frame plate in the present invention;

FIG. 5 is a view in the direction B of FIG. 4;

Wherein, 1-bottom photovoltaic support; 2-an intermediate collection frame; 21-upper side frame plate; 22-two side frame plates; 23-lower side frame plate; 24-hinge assembly; 25-supporting columns; 26-a drive mechanism; 3-upper photovoltaic module; 31-photovoltaic mounting plate; 32-a photovoltaic solar panel; 33-turning over a filter screen; 4-supporting rods; 5-rain falling gap; 6-a water body collection box; 7-collecting a water body pipe; 71-a water filter screen; 8-a water suction pump; 9-irrigation pipe.

Detailed Description

The invention will be further illustrated by the following drawings and specific examples, which are carried out on the basis of the technical solutions of the invention, it being understood that these examples are only intended to illustrate the invention and are not intended to limit the scope of the invention.

Example 1

As shown in fig. 1 and fig. 2, an ecological photovoltaic desertification control device in this embodiment includes a bottom photovoltaic bracket 1, a middle collecting frame 2 and an upper photovoltaic module 3, where the middle collecting frame 2 in this embodiment is correspondingly installed on the bottom photovoltaic bracket 1, the bottom photovoltaic bracket 1 is correspondingly configured so that the middle collecting frame 2 is disposed in an oblique direction, and the upper photovoltaic module 3 in this embodiment is correspondingly installed on the middle collecting frame 2 through a supporting rod 4, and the oblique angle of the upper photovoltaic module 3 is consistent with that of the middle collecting frame 2;

and the size of the middle collecting frame 2 of the embodiment is larger than that of the upper photovoltaic module 3 above, so that a rain falling gap 5 is formed in a circle of range outside the upper photovoltaic module 3, and rainwater flowing down on the upper photovoltaic module 3 falls into the middle collecting frame 2 from the rain falling gap 5 for ecological desertification control.

The bottom photovoltaic support 1 department of this embodiment still installs water body collection box 6, and this water body is collected and is installed water body collecting pipe 7 between box 6 and the middle collection frame 2, still installs suction pump 8 on this water body collecting pipe 7, in collecting the rainwater of frame 2 internal collection and drawing in to water body collection box 6 through suction pump 8.

The bottom of the water body collecting box 6 of this embodiment is also provided with an irrigation pipe 9, and the irrigation pipe 9 of this embodiment can irrigate the green plants correspondingly after extending to the outside.

The upper photovoltaic module 3 of the present embodiment includes a photovoltaic mounting plate 31 and a photovoltaic solar panel 32 fitted on the photovoltaic mounting plate 31; and at least six photovoltaic solar panels 32 are embedded on one group of photovoltaic mounting plates 31, while the size of the middle collecting frame 2 of the embodiment is larger than that of the photovoltaic mounting plates 31.

The supporting rods 4 with uniform distribution are correspondingly installed between the photovoltaic mounting plate 31 and the middle collecting frame 2 in the embodiment, and the upper side frame plate 21 and the two side frame plates 22 of the middle collecting frame 2 in the embodiment are all arranged to be of an open structure.

The technical scheme of this embodiment is different from traditional technical scheme, the technical scheme of this embodiment is not direct to set up the water catch bowl at the lower extreme edge of photovoltaic board, but direct in the below position department of photovoltaic board has set up open formula centre and has collected the frame, the size of centre and has collected the frame is great, be located the photovoltaic board below, except the rainwater that flows down from the photovoltaic board, be located the rainwater around the photovoltaic board outside and also can collect from the centre of falling rain clearance department and collect the frame equally, whole rainwater collection's region is very big, the volume of storing also increases correspondingly, can not appear because under the great circumstances of rainfall, the extravagant problem of rainwater, more rainwater can be collected as far as possible.

The technical scheme of the embodiment does not influence the installation of the photovoltaic panel above, the photovoltaic panel can be specifically installed through the supporting rods, and the structural design is reasonable; and the rainwater in the water body collecting box can irrigate drought-resistant vegetation planted in the drought area through the irrigation pipeline, so that the water quantity is sufficient.

Example 2

As shown in fig. 3,4 and 5, the ecological photovoltaic desertification control device of the embodiment comprises a bottom photovoltaic bracket 1, a middle collecting frame 2 and an upper photovoltaic module 3, wherein the middle collecting frame 2 of the embodiment is correspondingly arranged on the bottom photovoltaic bracket 1, the bottom photovoltaic bracket 1 is correspondingly arranged so that the middle collecting frame 2 is arranged in an inclined direction, the upper photovoltaic module 3 of the embodiment is correspondingly arranged on the middle collecting frame 2 through a supporting rod 4, and the inclined angle of the upper photovoltaic module 3 is consistent with that of the middle collecting frame 2;

and the size of the middle collecting frame 2 of the embodiment is larger than that of the upper photovoltaic module 3 above, so that a rain falling gap 5 is formed in a circle of range outside the upper photovoltaic module 3, and rainwater flowing down on the upper photovoltaic module 3 falls into the middle collecting frame 2 from the rain falling gap 5 for ecological desertification control.

The bottom photovoltaic support 1 department of this embodiment still installs water body collection box 6, and this water body is collected and is installed water body collecting pipe 7 between box 6 and the middle collection frame 2, still installs suction pump 8 on this water body collecting pipe 7, in collecting the rainwater of frame 2 internal collection and drawing in to water body collection box 6 through suction pump 8.

The bottom of the water body collecting box 6 of this embodiment is also provided with an irrigation pipe 9, and the irrigation pipe 9 of this embodiment can irrigate the green plants correspondingly after extending to the outside.

The upper photovoltaic module 3 of the present embodiment includes a photovoltaic mounting plate 31 and a photovoltaic solar panel 32 fitted on the photovoltaic mounting plate 31; and at least six photovoltaic solar panels 32 are embedded on one group of photovoltaic mounting plates 31, while the size of the middle collecting frame 2 of the embodiment is larger than that of the photovoltaic mounting plates 31.

The supporting rods 4 with uniform distribution are correspondingly installed between the photovoltaic mounting plate 31 and the middle collecting frame 2 in the embodiment, and the upper side frame plate 21, the two side frame plates 22 and the lower side frame plate 23 of the middle collecting frame 2 in the embodiment are all arranged to be of an open structure.

The edge of the plate body of the photovoltaic installation plate 31 is correspondingly provided with a turnover filter screen 33 through the hinge assembly 24, and the turnover filter screen 33 of the embodiment is put on the frame plate outside the middle collecting frame 2 after being turned outwards, so that the rain falling gap 5 is integrally covered, and rainwater falling from the rain falling gap 5 is filtered through the turnover filter screen 33 correspondingly;

the upper end of the water collecting pipe 7 of this embodiment is also provided with a water screen 71.

The lower side frame plate 23 of the middle collecting frame 2 is in a reversible frame plate structure, the lower side frame plate 23 and the lower end part of the middle collecting frame 2 are correspondingly arranged through a hinge assembly 24, two side ends of the hinge assembly 24 are also provided with supporting upright posts 25, and the hinge assembly 24 and the lower end part of the middle collecting frame 2 are supported at the lower end position through the supporting upright posts 25;

The corresponding turnover filter screens 33 of the lower side frame plates 23 are turned upwards, and then the lower side frame plates 23 are turned downwards, so that sundries in the middle collecting frame 2 can be cleaned.

The driving mechanisms 26 are also installed on two sides of the hinge assembly 24 in this embodiment, the driving mechanisms 26 in this embodiment are correspondingly fixed on the supporting columns 25, the hinge assembly 24 and the lower side frame plate 23 can be correspondingly driven to correspondingly overturn by the supporting columns 25, and the lower side frame plate 23 can correspondingly overturn to be located on the same plane with the middle collecting frame 2.

The technical scheme of the embodiment is that a structural design capable of removing sundries in the middle collecting frame is additionally arranged on the basis of the embodiment 1; in the technical scheme of embodiment 1, when the device is specifically used, because the whole device needs to be placed in arid areas, more sundries such as sand and dust can possibly accumulate in the middle collecting frame, on one hand, the sundries need to be prevented from entering the water collecting box, and on the other hand, sundries, sand and dust and the like need to be cleaned.

As shown in FIG. 3, in the embodiment, a turnover filter screen is firstly arranged at the upper end of the photovoltaic mounting plate through a hinge assembly, the turnover filter screen just blocks the whole rain falling gap, and rainwater entering the middle collecting frame can be filtered through the turnover filter screen to filter sundries, soil dust and the like; the whole structure can be turned over, firstly, the sundries filtered on the turning filter screen can be conveniently cleaned; secondly, after the upset, the debris of collecting the inside of frame in the middle of conveniently clearing up is because even there is the upset filter screen, but the inside perhaps still some debris that can get into of middle collection frame, and after turning up the upset filter screen, can clear up the inside debris of middle collection frame.

In addition, the filter screen is further arranged at the upper end part of the water collecting pipe, so that the water sundries can be further filtered, and the filtered sundries are reserved on the middle collecting frame.

As shown in fig. 4, the mechanism that can be used for clearing away sundries in the middle collecting frame is further provided in this embodiment, the lower side frame plate of the middle frame plate is provided with a hinged structure that can be turned over, and the lower side frame plate is correspondingly installed through the hinged assembly, so that the lower side frame plate can be turned down to be in the same straight line with the middle frame plate only when sundries gather more, and the gathered sundries and the like can be cleared away under the flushing of rainwater, so that the collecting work of rainwater can not be affected.

As shown in fig. 5, in order to increase stability, under the condition that the lower side frame plate can be overturned, a support column for mounting a stable integral structure is provided, and the support column supports the mounting hinge assembly from both sides, so that the integral structure is more stable and reliable.

In order to realize automatic treatment, the driving mechanism is correspondingly arranged on the supporting upright post, the driving mechanism is correspondingly arranged with the hinge assembly, and the hinge assembly can be correspondingly driven to turn over by the driving mechanism, so that the function of automatically removing sundries can be realized, and the functions of timing opening and closing and the like can be set.

The technical scheme of this embodiment is that can set up multiunit photovoltaic module and correspond simultaneously and install a middle collection frame and water collection box, and the overall structure design is quite reasonable.

The above detailed description is only a preferred embodiment of the present invention and is not intended to limit the scope of the claims, but all equivalent changes and modifications that can be made according to the protection scope of the claims are included in the scope of the claims.

Claims (4)

1. An ecological photovoltaic desertification control device which is characterized in that: the photovoltaic device comprises a bottom photovoltaic bracket (1), a middle collecting frame (2) and an upper photovoltaic module (3), wherein the middle collecting frame (2) is correspondingly arranged on the bottom photovoltaic bracket (1), the bottom photovoltaic bracket (1) is correspondingly arranged so that the middle collecting frame (2) is arranged in an inclined direction, the upper photovoltaic module (3) is correspondingly arranged on the middle collecting frame (2) through a supporting rod (4), and the inclined angle of the upper photovoltaic module (3) is consistent with that of the middle collecting frame (2);

the size of the middle collecting frame (2) is larger than that of the upper photovoltaic module (3) above, so that a rain falling gap (5) is formed in a circle of range outside the upper photovoltaic module (3), and rainwater flowing down on the upper photovoltaic module (3) falls into the middle collecting frame (2) from the rain falling gap (5) for ecological desertification control;

A water body collecting box (6) is further arranged at the bottom photovoltaic bracket (1), a water body collecting pipe (7) is arranged between the water body collecting box (6) and the middle collecting frame (2), a water suction pump (8) is further arranged on the water body collecting pipe (7), and rainwater collected in the middle collecting frame (2) is pumped into the water body collecting box (6) through the water suction pump (8);

the upper photovoltaic module (3) comprises a photovoltaic mounting plate (31) and a photovoltaic solar panel (32) embedded on the photovoltaic mounting plate (31); at least six photovoltaic solar panels (32) are embedded on one group of photovoltaic mounting plates (31), and the size of the middle collecting frame (2) is larger than that of the photovoltaic mounting plates (31);

The edge of the plate body of the photovoltaic mounting plate (31) is correspondingly provided with a turnover filter screen (33) through a hinge assembly (24), and the turnover filter screen (33) is put on a frame plate outside the middle collecting frame (2) after being turned outwards, so that the rain falling gap (5) is integrally covered, and rainwater falling from the rain falling gap (5) is filtered through the turnover filter screen (33) correspondingly;

The upper end part of the water body collecting pipe (7) is also provided with a water body filter screen (71);

The lower side frame plate (23) of the middle collecting frame (2) is of a turnover frame plate structure, the lower side frame plate (23) and the lower end part of the middle collecting frame (2) are correspondingly arranged through a hinge assembly (24), support columns (25) are further arranged at two side ends of the hinge assembly (24), and the hinge assembly (24) and the lower end part of the middle collecting frame (2) are supported at the lower end position through the support columns (25);

The corresponding turnover filter screens (33) of the lower side frame plates (23) are turned upwards, and then the lower side frame plates (23) are turned downwards, so that sundries in the middle collecting frame (2) can be cleaned.

2. The ecological photovoltaic desertification control device of claim 1, wherein: the bottom of the water body collecting box (6) is also provided with an irrigation pipeline (9), and the irrigation pipeline (9) can irrigate the planted green plants correspondingly after extending outwards.

3. The ecological photovoltaic desertification control device of claim 1, wherein: support rods (4) which are uniformly distributed are correspondingly installed between the photovoltaic mounting plates (31) and the middle collecting frame (2), and the upper side frame plates (21), the two side frame plates (22) and the lower side frame plates (23) of the middle collecting frame (2) are all arranged to be of an open structure.

4. The ecological photovoltaic desertification control device of claim 1, wherein: the two sides of the hinge assembly (24) are also provided with driving mechanisms (26), the driving mechanisms (26) are correspondingly fixed on the supporting upright posts (25), the hinge assembly (24) and the lower side frame plates (23) can be correspondingly driven to correspondingly overturn through the supporting upright posts (25), and the lower side frame plates (23) can be correspondingly overturned to be positioned on the same plane with the middle collecting frame (2).