CN220874488U - Photovoltaic windproof drainage integrated device for side slope - Google Patents

Abstract

The utility model discloses a photovoltaic windproof drainage integrated device for a side slope, wherein a photovoltaic plate is arranged on the side slope; one end of the photovoltaic bracket is connected with the photovoltaic plate, and the other end of the photovoltaic bracket is connected with the side slope; one end of the wind shield is connected with the bottom edge of the photovoltaic panel, and the other end of the wind shield is connected with the side slope; the water collecting tank is connected with the bottom of the wind shield; the top of water catch bowl is provided with the filter screen, and the side of water catch bowl is connected with the overflow tank, and the overflow tank sets up the below at the filter screen. The wind-proof solar photovoltaic panel can prevent wind, reduce wind disturbance of the photovoltaic panel, effectively collect water flow formed by rainfall at the edge of the photovoltaic panel into the water collecting tank, collect most of the received rainwater, filter the rainwater, prevent sundries from blocking the water collecting tank, effectively prevent the water flow from impacting and corroding the side slope, prevent the side slope from being corroded by the water flow and cause instability of the side slope, and further influence the work of photovoltaic equipment.

Description

Photovoltaic windproof drainage integrated device for side slope

Technical Field

The utility model belongs to the technical field of photovoltaics, and particularly relates to a photovoltaic windproof and drainage integrated device for a side slope.

Background

The slope photovoltaic is short for arranging photovoltaic facilities on the side slope of the highway subgrade, and is a distributed solar photovoltaic power generation system arrangement form for arranging the photovoltaic facilities by utilizing the space of the highway road domain. The slope photovoltaic has all the advantages of photovoltaic power generation, and has the characteristics of land resource saving, no pollution emission, no noise pollution and the like in the whole power generation process.

However, in the case of rainfall weather, due to the arrangement of the photovoltaic facilities, precipitation is collected at the edges of the photovoltaic facilities to form water flow to impact the roadbed slope, so that the filling soil of the slope is eroded, and the slope stability is further influenced. In addition, in strong wind weather, the stress area of the photovoltaic panel is larger, and wind exerts acting force on the photovoltaic facility, so that the structural instability of the photovoltaic facility is increased.

The patent application with the patent publication number of CN218457027U is named as a system for collecting rainwater and livestock by using a photovoltaic panel, and comprises the photovoltaic panel, a water collecting tank, a water drinking tank and a filtering column, wherein the water collecting tank is arranged at the lower end of the photovoltaic panel, and the bottom of the water collecting tank is communicated with the water collecting tank through a flow guide pipe; the water collecting tank is provided with a water pump, a water outlet of the water pump is communicated with the filtering column, and the filtering column is communicated with the drinking water tank through a water outlet pipe. This patent application can collect water to the photovoltaic board, but can prevent wind, and is not applicable to the side slope, can not prevent that the flowing water of photovoltaic board from erodeing the side slope and erodeing to lead to photovoltaic device to work.

Disclosure of utility model

In order to overcome the problems in the prior art, the utility model aims to provide a photovoltaic windproof and drainage integrated device for a side slope, which can prevent precipitation from converging at the edge of a photovoltaic facility to form water flow to impact a roadbed slope, so that the filling soil of the side slope is corroded, the photovoltaic device cannot work and the problem that wind influences the structure of the photovoltaic facility in strong wind weather is solved.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

A photovoltaic wind-break drainage integrated device for a side slope, comprising:

the photovoltaic plate is arranged on the side slope;

one end of the photovoltaic bracket is connected with the photovoltaic plate, and the other end of the photovoltaic bracket is connected with the side slope;

one end of the wind shield is connected with the bottom edge of the photovoltaic panel, and the other end of the wind shield is connected with the side slope;

The water collecting tank is connected with the bottom of the wind shield;

The top of the water collecting tank is provided with a filter screen, the side face of the water collecting tank is connected with an overflow tank, and the overflow tank is arranged below the filter screen.

Optionally, the photovoltaic support is connected with the side slope through a pile, and the pile is arranged in the side slope.

Optionally, the pile is a screw pile.

Optionally, the lower part of the pile is provided with a first blade.

Optionally, the wind deflector is streamlined.

Optionally, the bottom of deep bead is connected with the support, the bottom of support is connected with the side slope, the bottom of support is provided with the second blade.

Optionally, the support is connected with the photovoltaic bracket through a cross bar.

Optionally, the water collecting tank is fixedly connected with the side slope.

Optionally, the bottom of water catch bowl is through long bolt and side slope fixed connection.

Optionally, the overflow tank is communicated with a side ditch below the side slope.

Compared with the prior art, the utility model has the following beneficial effects:

The utility model achieves the functions of wind prevention and drainage through reasonable arrangement of the simple device, enriches the functions of the device, and is used for containing and collecting rainwater. According to the utility model, water flow formed by rainfall at the edge of the photovoltaic panel can be effectively collected into the water collecting tank, most of the received rainwater is collected and filtered, so that the sundries are prevented from blocking the water collecting tank, the sundries can be filtered on the filter screen, sundries and rainwater sediments are quickly cleaned by opening the filter screen, the redundant part of the rainwater is discharged, the water flow can be effectively prevented from impacting and corroding a side slope, the influence of the precipitation on the side slope is reduced, the side slope is prevented from being corroded by the water flow, and the instability of the side slope is further influenced, so that the work of photovoltaic equipment is influenced. The collected filtered rainwater can also be used as slope greening irrigation water, so that water resources are saved, and the secondary utilization of the received rainwater is realized. According to the wind deflector, wind blown to the photovoltaic panel can be guided through the wind deflector, so that the wind bypasses the photovoltaic panel, and the pressure, load and impact of the wind on the photovoltaic panel are reduced. The utility model has simple and effective design, light and handy used materials and relatively few accessories, can flexibly mount, dismount and replace parts, and can be flexibly arranged according to the length of the photovoltaic panel.

Drawings

The drawings described herein are for illustration purposes only and are not intended to limit the scope of the present disclosure in any way. In addition, the shapes, proportional sizes, and the like of the respective components in the drawings are merely illustrative for aiding in understanding the present utility model, and are not particularly limited. In the drawings:

FIG. 1 is a schematic diagram of a photovoltaic wind-prevention and drainage integrated device for a side slope;

FIG. 2 is a front view of a photovoltaic wind-prevention and drainage integrated device for a side slope;

FIG. 3 is a top view of a photovoltaic wind-prevention and drainage integrated device for a side slope;

In the figure: 1. a photovoltaic panel; 2. a photovoltaic support; 3. a pile; 4. a wind deflector; 5. a water collection tank; 6. supporting; 7. connecting the cross bars; 81. a first blade; 82. a second blade; 9. an overflow port; 10. an overflow tank; 11. a filter screen; 12. a column; 13. a long bolt; 14. and a side ditch.

Detailed Description

In order to make the technical solution of the present utility model better understood by those skilled in the art, the technical solution of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, shall fall within the scope of the utility model.

It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

The present utility model will be described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 3, the utility model provides a photovoltaic windproof drainage integrated device for a side slope, which comprises a photovoltaic panel 1, a photovoltaic bracket 2, piles 3, a wind deflector 4, a water collecting tank 5, a support 6, a connecting cross rod 7, an overflow port 9, an overflow tank 10, a filter screen 11, an upright post 12 and a long bolt 13.

The photovoltaic panel 1 is connected with the wind shield 4; the support 6 is connected with the wind deflector 4; the water collecting tank 5 is communicated with the side ditch 14, and the water collecting tank 5 is arranged in the slope surface soil filling. The wind shield 4 can guide wind, collect and discharge water flow at the edge of the photovoltaic panel 1, so that influence of wind and rainwater on slope photovoltaics is avoided. The photovoltaic panel 1, the wind deflector 4 and the water collecting tank 5 are used as a whole to seal the space between the photovoltaic panel and the side slope, so that the overall wind resistance of the device is enhanced. One end of the photovoltaic support 2 is connected with the photovoltaic plate 1, the other end of the photovoltaic support is connected with the side slope through a pile 3, and the pile 3 is arranged in the side slope. Specifically, the pile 3 is a screw pile. The lower part of the pile 3 is provided with a first blade 81 for making the connection between the pile 3 and the slope more stable.

The wind shield 4 is fixedly connected with the photovoltaic panel 1 through bolts and nuts, the top end of the support 6 is provided with external spiral lines, and the wind shield 4 is fixedly connected with the support 6 through nuts. Further, a rubber cushion layer is arranged between the bottom end of the photovoltaic panel 1 and the top end of the wind shield 4, and the rubber cushion layer can provide the functions of fixing, cushioning and enhancing the sealing performance. The connecting cross rod 7 is arranged between the photovoltaic bracket 2 and the support 6, and two sides of the connecting cross rod 7 are provided with external threads, and the connecting cross rod 7 is respectively connected and fixed from two sides of the connecting cross rod 7 through nuts.

The wind shield 4 is fixedly connected with the water collecting tank 5 at the lower end through bolts and nuts, and the water collecting tank 5 is in an open cube shape. The water collecting tank 5 is provided with an overflow port 9, and the overflow port 9 is communicated with a side ditch 14 through an overflow tank 10.

The water collecting tank 5 top is uncovered to be equipped with filter screen 11, filter screen 11 is the expanded metal structure, filter screen 11 one end is equipped with the hinge, just filter screen 11 can dismantle. The water catch bowl 5 is equipped with stand 12 with the one end that deep bead 4 is connected, stand 12 can support filter screen 11, the water catch bowl 5 other end is fixed through the hinge with filter screen 11.

The side of the water collecting tank 5 is connected with an overflow tank 10, and the overflow tank 10 is arranged below the filter screen 11.

The bottom of the water collecting tank 5 is fixedly connected with the side slope through a long bolt 13. The long bolts 13 can fix the water collection sump 5, providing support and stabilization.

Further, the second blades 82 are arranged at the lower part of the support 6 and can be tightly combined with the side slope filling soil, so that the supporting effect on the wind deflector 4 is enhanced, and the stability of the wind deflector 4 is improved.

Further, the water collecting tank 5 is arranged in the slope surface soil filling, so that the wind shield 4 can be tightly combined with the slope, and the supporting and fixing functions of the whole device are improved.

Further, the overflow port 9 is arranged on the wall of the water collecting tank 5, the overflow port 9 is connected with the overflow tank 10 through nuts and bolts, and the overflow tank 10 is communicated with the water collecting tank 5 and the side ditch 14, so that most rainwater can be collected in a concentrated mode by the water collecting tank 5, and redundant rainwater is discharged through the overflow port 9, so that the drainage performance is further enhanced.

When the integrated device for wind prevention and drainage of the side slope photovoltaic system is used, a support 6 is rotated manually or by a machine to vertically enter the side slope, a wind shield 4 is connected with a photovoltaic panel 1 through nuts, the support 6 is connected with a photovoltaic bracket 2 through a connecting cross rod 7, a water collecting tank 5 is buried in the surface layer of the side slope, a filter screen 11 is connected and arranged on the water collecting tank, the filter screen is supported through a stand column 12, a long bolt 13 is connected with the water collecting tank 5 through a gasket and nuts, and the water collecting tank 5 is fixed.

When the photovoltaic panel 1 encounters strong wind, the wind shield 4 bypasses the wind from above the photovoltaic panel, and disturbance of the wind to the photovoltaic panel 1 is reduced. When raining weather is met, rainwater is collected to the edge by the photovoltaic panel 1 to form water flow, flowing rainwater flows into the water collecting tank 5 for placing the filter screen 11 along the wind shield 4, excessive rainwater can be discharged into the side ditch 14 along the overflow port 9 through the overflow tank 10, impact and erosion cannot be caused on the side slope, and the influence of the side slope deformation on the photovoltaic panel 1 is prevented. The filtered rainwater in the water collecting tank 5 can be collected intensively, the water collecting tank 5 holds the rainwater for a long time, impurities can be deposited, impurities on the filter screen 11 are cleaned firstly, and then the filter screen 11 is opened to clear the deposits in the water collecting tank 5, so that the water drainage is smooth.

The device elements in the above embodiments are conventional device elements unless otherwise specified, and the structural arrangement, operation or control modes in the embodiments are conventional arrangement, operation or control modes in the art unless otherwise specified.

Finally, it is noted that the above-mentioned embodiments are merely for illustrating the technical solution of the present utility model, and that other modifications and equivalents thereof by those skilled in the art should be included in the scope of the claims of the present utility model without departing from the spirit and scope of the technical solution of the present utility model.

Claims (10)

1. The utility model provides a side slope photovoltaic drainage integrated device that prevent wind which characterized in that includes:

a photovoltaic panel (1), the photovoltaic panel (1) being arranged on a side slope;

The photovoltaic support (2), one end of the photovoltaic support (2) is connected with the photovoltaic panel (1), and the other end of the photovoltaic support is connected with the side slope;

The wind shield (4), one end of the wind shield (4) is connected with the bottom edge of the photovoltaic panel (1), and the other end is connected with the side slope;

The water collecting tank (5) is connected with the bottom of the wind shield (4);

The water collecting device is characterized in that a filter screen (11) is arranged at the top of the water collecting tank (5), an overflow tank (10) is connected to the side face of the water collecting tank (5), and the overflow tank (10) is arranged below the filter screen (11).

2. The photovoltaic windproof and drainage integrated device for the side slope according to claim 1, wherein the photovoltaic bracket (2) is connected with the side slope through a pile (3), and the pile (3) is arranged inside the side slope.

3. A photovoltaic wind-break and drainage integrated device for a side slope according to claim 2, characterized in that said pile (3) is a screw pile.

4. A photovoltaic wind and water drainage integration device for a side slope according to claim 2, characterized in that the lower part of the pile (3) is provided with a first blade (81).

5. A slope photovoltaic wind and water drainage integration device according to claim 1, characterized in that the wind deflector (4) is streamlined.

6. The photovoltaic windproof and drainage integrated device for the side slope according to claim 1, wherein a support (6) is connected to the bottom of the wind deflector (4), the bottom of the support (6) is connected to the side slope, and a second blade (82) is arranged at the bottom of the support (6).

7. A photovoltaic wind-prevention and drainage integrated device for a side slope according to claim 6, characterized in that the support (6) is connected with the photovoltaic bracket (2) through a cross bar (7).

8. A slope photovoltaic wind-break drainage integrated device according to claim 1, characterized in that the water collection tank (5) is fixedly connected with the slope.

9. A photovoltaic windproof drainage integrated device for a side slope according to claim 8, characterized in that the bottom of the water collection tank (5) is fixedly connected with the side slope through a long bolt (13).

10. A slope photovoltaic wind and water drainage integrated device according to claim 1, characterized in that the overflow trough (10) is in communication with a gutter (14) below the slope.