CN210225335U - Drainage system of power station - Google Patents

Abstract

The utility model relates to a drainage system of a power station, which comprises a photovoltaic platform, a beam connected with the photovoltaic platform and a water guide channel; the photovoltaic platform comprises a plurality of photovoltaic panels which are arranged along a first extending direction and a second extending direction; the beam is arranged between two adjacent photovoltaic panels along a first extending direction; the cross beam comprises a main body, a mounting frame, a drainage channel connected with the main body and a connecting seat; the drainage channel is arranged at the joint of the mounting frame and the photovoltaic panel; the water guide channel is arranged between the two adjacent photovoltaic panels along the second extending direction, and two ends of the water guide channel are respectively communicated with the drainage channel correspondingly. In the drainage system of the power station, the drainage channel is arranged, so that water leaked among the photovoltaic panels flows into the drainage channel; simultaneously through the water guide channel who sets up and drainage channel intercommunication, guarantee to collect photovoltaic platform along the rainwater that first extending direction and second extending direction flow down, prevent the rainwater seepage and then reduce the maintenance cost in later stage.

Description

Drainage system of power station

Technical Field

The utility model relates to a photovoltaic power supply technical field especially relates to a drainage system in power station.

Background

Photovoltaic power supply station is through setting up the place that the photovoltaic board turns into the electric energy with solar radiation to the light energy in photovoltaic power supply station, and photovoltaic power supply station compares other power supply stations, and photovoltaic power supply station is more energy-concerving and environment-protective, has incomparable advantage and development prospect in other power supply stations.

The existing photovoltaic power station structure is that a plurality of photovoltaic panels are clamped at the top so as to ensure that the photovoltaic panels can be subjected to sufficient sunlight; but there is the clearance between the current photovoltaic board, and the gap seepage between the rainwater can pass through the photovoltaic board has improved the later maintenance cost.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a drainage system for a power station, which addresses the problem of high post-maintenance costs due to rain water leakage.

A drainage system for a power plant comprising:

the photovoltaic platform is provided with a first extending direction and a second extending direction and comprises photovoltaic panels, and the photovoltaic panels are arranged along the first extending direction and the second extending direction respectively;

the cross beam is connected with the photovoltaic platform, extends along the first extending direction and is correspondingly arranged between two adjacent photovoltaic panels; the beam comprises a main body, a mounting frame respectively connecting the main body and the photovoltaic panel, a drainage channel connected with the main body, and a connecting seat arranged on one side of the main body, which is opposite to the mounting frame; the drainage channel is correspondingly arranged at the joint of the mounting rack and the photovoltaic panel; and

and the water guide channel is connected with the photovoltaic platform, the water guide channel extends along the second extending direction, the water guide channel is correspondingly arranged between two adjacent photovoltaic panels, and two ends of the water guide channel are respectively correspondingly communicated with the drainage channel.

According to the drainage system of the power station, the drainage channels are arranged on the two sides of the main body, so that water leaking between the photovoltaic panels can flow into the drainage channels correspondingly after passing through the mounting frame; simultaneously through setting up the water guide channel that both ends correspond respectively and be linked together with the drainage channel, guarantee to collect photovoltaic platform along the rainwater that first extending direction and second extending direction clearance flow down, effectively prevent the seepage of rainwater and then reduced the maintenance cost in later stage.

In one embodiment, a bracket is arranged between the drainage channel and the main body; the bracket is correspondingly connected and fixed with the main body, and the drainage channel is correspondingly embedded in the bracket.

In one embodiment, the drainage channel comprises a bottom plate, and a pressing plate and an extension plate which are respectively arranged at two sides of the bottom plate; the bottom plate corresponds with the bracket butt, the clamp plate is from the bottom plate to the water guide channel direction extends the setting, the tip of clamp plate with water guide channel butt.

In one embodiment, the extension plate extends obliquely from one side of the bottom plate close to the main body to the mounting frame in the direction of the main body.

In one embodiment, the bracket comprises a fixing portion and an embedding portion; the fixing part is correspondingly connected and fixed with the main body, and the embedded part is in a U-shaped structure and supports the drainage channel.

In one embodiment, the main body is provided with a pull hook, and one end of the fixing part is correspondingly embedded in the pull hook.

In one embodiment, the cross section of the water guide channel is in a U-shaped structure, and two adjacent photovoltaic panels are correspondingly hooked on two sides of the water guide channel respectively.

In one embodiment, the mounting rack comprises a vertical plate connected with the main body, a supporting plate connected with the vertical plate, and a drainage plate arranged at one end of the supporting plate far away from the main body; the backup pad correspond with the photovoltaic board is connected, the drainage board certainly the backup pad to the setting is extended to drainage channel way direction.

In one embodiment, a stop block is arranged on the supporting plate; the stop block is arranged on one side, back to the main body, of the supporting plate in a protruding block shape, and the photovoltaic panel is correspondingly abutted to the stop block.

In one embodiment, the arrangement direction of the vertical plate is perpendicular to that of the support plate, and the mounting rack is arranged in a T-shaped structure.

Drawings

Fig. 1 is a schematic structural view of a drainage system of a power station according to an embodiment of the present invention;

FIG. 2 is a schematic view of another angle of the drainage system of the power plant of FIG. 1;

FIG. 3 is an exploded schematic view of a drainage system of the power plant of FIG. 1;

FIG. 4 is a schematic structural view of a cross beam;

FIG. 5 is a schematic view of the structure of a drain channel;

fig. 6 is a schematic structural view of the bracket.

The reference numbers in the drawings have the meanings given below:

100-drainage system of power station;

10-photovoltaic platform, 15-photovoltaic panel;

20-a cross beam, 30-a main body, 31-an opening, 35-a draw hook, 40-a mounting rack, 41-a vertical plate, 42-a support plate, 45-a stop block, 43-a drainage plate, 50-a drainage channel, 51-a bottom plate, 52-a pressing plate, 53-an extension plate, 60-a bracket, 61-a fixing part, 65-an embedded part, 70-a connecting seat and 75-an embedded groove;

80-water guide channel.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully below. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" 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.

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 invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Referring to fig. 1 to 6, a drainage system 100 of a power station according to an embodiment of the present invention includes a photovoltaic platform 10, a beam 20 connected to the photovoltaic platform 10, and a water guiding channel 80 connected to the photovoltaic platform 10; the drainage system 100 of the power station is correspondingly erected on an external bracket (not shown) to be fixed so as to ensure sufficient sunshine.

The photovoltaic platform 10 extends along the horizontal direction, the photovoltaic platform 10 is correspondingly arranged at the top of the integral device, and the photovoltaic platform 10 is used for converting light energy radiated to the surface of the photovoltaic platform 10 by the sun into electric energy so as to supply power to the outside; this photovoltaic platform 10 is provided with first extending direction and second extending direction, and this photovoltaic platform 10 is the setting of rectangle column structure, and this first extending direction is the setting direction on long limit of photovoltaic platform 10, and this second extending direction is the setting direction on broadside of photovoltaic platform 10. This photovoltaic platform 10 includes photovoltaic board 15, and this photovoltaic board 15 is the setting of the straight platelike structure of rectangle, and each photovoltaic board 15 corresponds respectively and arranges the setting along first extending direction and second extending direction, and each photovoltaic board 15 is the setting of rectangle array form.

The crossbeam 20 is correspondingly arranged at the bottom of the photovoltaic platform 10, the crossbeam 20 is used for connecting and fixing the photovoltaic panels 15, the crossbeam 20 extends along a first extending direction, the crossbeam 20 is correspondingly arranged between two adjacent photovoltaic panels 15, the photovoltaic panels 15 are arranged in parallel at intervals, the bottom of the crossbeam 20 is correspondingly connected and fixed with an external support, and then the photovoltaic panels 15 are installed on the support; the beam 20 includes a main body 30, a mounting frame 40 respectively connecting the main body 30 and the photovoltaic panel 15, a drainage channel 50 connected to the main body 30, and a connection seat 70 disposed on a side of the main body 30 opposite to the mounting frame 40. In the present embodiment, the beams 20 are correspondingly disposed on two sides of the photovoltaic platform 10, and at the connection points of the photovoltaic panels 15 disposed at intervals along the second extending direction.

The main body 30 is rectangular and long and extends along the horizontal direction, and the arrangement direction of the main body 30 is the same as the first extension direction; in this embodiment, the body 30 is provided with an opening 31; the open holes 31 are in a rectangular through hole structure and are communicated with two ends of the main body 30, so that the quality of the main body 30 is reduced, the bearing weight of an external support is reduced, the reliability of the drainage system 100 of the power station is improved, the manufacturing materials are reduced, and the production cost is reduced. Furthermore, the main body 30 is provided with a pull hook; this drag hook 35 corresponds the setting in the both sides of main part 30, and drag hook 35 sets up the one end that is close to mounting bracket 40 in main part 30, and this drag hook 35 is colluded the setting to connecting seat 70 direction from main part 30 outside, and this drag hook 35 is used for installing drainage channel 50.

The mounting rack 40 is correspondingly arranged at the top end of the main body 30, and the mounting rack 40 is used for connecting the photovoltaic panel 15; the mounting bracket 40 includes a vertical plate 41 connected to the main body 30, a supporting plate 42 connected to the vertical plate 41, and a drainage plate 43 disposed at an end of the supporting plate 42 away from the main body 30. In this embodiment, the mounting frames 40 are oppositely disposed on two sides of the main body 30, and the mounting frames 40 on the two sides are respectively connected to two adjacent photovoltaic panels 15 correspondingly.

The vertical plate 41 is arranged at the top of the main body 30 along the vertical direction, the bottom end of the vertical plate 41 is connected with the main body 30, and the vertical plate 41 extends upwards from the main body 30 to a direction away from the main body 30; in the present embodiment, two vertical plates 41 are provided on each cross member 20, and the two vertical plates 41 are provided in parallel on both sides of the main body 30. The supporting plate 42 is rectangular and straight and extends along the horizontal direction, the supporting plate 42 is disposed at one end of the vertical plate 41 facing away from the main body 30, the direction of the supporting plate 42 is perpendicular to the direction of the vertical plate 41, and the top of the supporting plate 42 is used for abutting against the external photovoltaic panel 15. In this embodiment, the supporting plate 42 and the vertical plate 41 are arranged in a T-shaped structure, and the supporting plate 42 extends from one end of the vertical plate 41, which is opposite to the main body 30, to two sides; furthermore, the number of the support plates 42 corresponds to the number of the vertical plates 41, two support plates 42 are correspondingly disposed on each cross beam 20, and the two support plates 42 are respectively correspondingly connected with the two vertical plates 41. Furthermore, a stop block 45 is arranged on the supporting plate 42; this dog 45 is the setting of lug form in the one side of backup pad 42 dorsad main part 30, and this dog 45 corresponds the setting at the top of backup pad 42, and dog 45 upwards extends the setting from backup pad 42, and the direction that sets up of this dog 45 is the same with the direction that sets up of main part 30, and this dog 45 corresponds and photovoltaic board 15 looks butt, and this dog 45 is used for fixing a position the mounted position of photovoltaic board 15, and then improves the installation effectiveness.

This drainage plate 43 is rectangular form setting on backup pad 42, and this drainage plate 43 extends the setting to main part 30 direction from backup pad 42, and this drainage plate 43 set up the direction and be mutually perpendicular with backup pad 42's the direction that sets up, and this drainage plate 43 colludes to main part 30 direction from backup pad 42 to guarantee to utilize the surface tension of rainwater, make the rainwater flow through the outer wall of following drainage plate 43 behind backup pad 42's the top and drip downwards, and then play the effect of water conservancy diversion. In this embodiment, the number of the drainage plates 43 corresponds to the number of the support plates 42, two drainage plates 43 are correspondingly disposed on each cross beam 20, and the two drainage plates 43 are correspondingly disposed on the side of the two support plates 42 away from each other.

This drainage channel 50 corresponds the setting in the junction of mounting bracket 40 and photovoltaic board 15, and this drainage channel 50 is used for holding the rainwater that mounting bracket 40 was carried and was come to derive the rainwater to the external world, and this drainage channel 50 is rectangular form and sets up in the outside of main part 30, and this drainage channel 50 sets up in the below of mounting bracket 40, and this drainage plate 43 extends the setting in corresponding drainage channel 50, and this drainage channel 50 includes bottom plate 51, and sets up respectively at the clamp plate 52 and the extension plate 53 of bottom plate 51 both sides. This bottom plate 51 is the setting of rectangle straight plate-like extension along the horizontal direction, this clamp plate 52 is the setting of rectangle straight plate-like extension along vertical direction, this clamp plate 52 extends the setting to photovoltaic board 15 direction from bottom plate 51, this clamp plate 52 sets up the one side at bottom plate 51 dorsad main part 30, this extension plate 53 is the setting of slope form extension to main part 30 direction from a side that bottom plate 51 is close to main part 30 to mounting bracket 40, this extension plate 53 is used for improving drainage channel 50 open-top's size, and then make in the better entering drainage channel 50 of rainwater, prevent simultaneously that the rainwater from splashing to the drainage channel 50 outside. In this embodiment, a bracket 60 is provided between the drain channel 50 and the main body 30; the bracket 60 is correspondingly connected and fixed with the main body 30, the drain channel 50 is correspondingly embedded in the bracket 60, and the bracket 60 is used for fixing the drain channel 50 on the main body 30; the bracket 60 includes a fixing portion 61 and an insertion portion 65. The fixing part 61 is correspondingly connected and fixed with the main body 30, the fixing part 61 extends along the vertical direction, and the top end of the fixing part 61 is correspondingly embedded in the draw hook 35; the embedded portion 65 is disposed on a side of the fixing portion 61 opposite to the main body 30, the embedded portion 65 is disposed on an outer side of the drain channel 50 in a U-shaped structure, the bottom plate 51 is correspondingly abutted against the embedded portion 65 of the bracket 60, the embedded portion 65 is correspondingly supported on a bottom of the drain channel 50, and the embedded portion 65 is disposed around the outer side of the drain channel 50.

The connecting seat 70 is correspondingly arranged at the bottom of the main body 30, the connecting seat 70 is arranged at one side of the main body 30, which is opposite to the mounting frame 40, the connecting seat 70 is arranged in a rectangular square block shape and extends from the main body 30 to the direction far away from the mounting frame 40, and the connecting seat 70 is used for being connected and fixed with an external bracket; in this embodiment, the connection seat 70 is provided with an embedding groove 75; the embedding groove 75 is arranged in a groove shape, the arranging direction of the embedding groove 75 is the same as that of the drainage plate 43, and the embedding groove 75 extends along the horizontal direction; furthermore, each cross beam 20 is correspondingly provided with two embedding slots 75, the two embedding slots 75 are arranged in parallel and correspondingly arranged on two sides of the connecting seat 70, the embedding slots 75 are used for connecting with external supports, and the end parts of the external supports are correspondingly arranged in the embedding slots 75 in a sliding manner, so that the installation adaptability of the cross beam 20 is improved.

The water guide channel 80 is in a long strip shape and extends along the horizontal direction, the water guide channel 80 extends along the second extending direction, the water guide channel 80 is correspondingly arranged between two adjacent photovoltaic panels 15, the water guide channel 80 is arranged on one side of each photovoltaic panel 15 close to the drainage channel 50, two ends of the water guide channel 80 are respectively correspondingly communicated with the drainage channel 50, the top end of the pressing plate 52 is correspondingly abutted against the bottom of the water guide channel 80, so that the water guide channel 80 is correspondingly inserted into the drainage channel 50, and the water guide channel 80 is used for guiding rainwater flowing down from gaps arranged between the photovoltaic panels 15 along the second extending direction into the drainage channel 50 to be uniformly collected. In this embodiment, the cross section of the water guiding channel 80 is configured in a U-shaped structure, and two sides of the water guiding channel 80 are respectively and correspondingly hooked with two adjacent photovoltaic panels 15, so as to improve the connection strength of the photovoltaic platform 100.

In the drainage system 100 of the power station, the drainage channels 50 are arranged on the two sides of the main body 30, so that water leaking between the photovoltaic panels 15 flows into the drainage channels 50 correspondingly after passing through the mounting rack 40; simultaneously through setting up the water guide channel 80 that both ends correspond respectively and are linked together with drainage channel 50, guarantee to collect photovoltaic platform 10 along the rainwater that first extending direction and second extending direction clearance flow down, effectively prevent the seepage of rainwater and then reduced the maintenance cost in later stage.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A drainage system for a power plant, comprising:

the photovoltaic platform is provided with a first extending direction and a second extending direction and comprises photovoltaic panels, and the photovoltaic panels are arranged along the first extending direction and the second extending direction respectively;

the cross beam is connected with the photovoltaic platform, extends along the first extending direction and is correspondingly arranged between two adjacent photovoltaic panels; the beam comprises a main body, a mounting frame respectively connecting the main body and the photovoltaic panel, a drainage channel connected with the main body, and a connecting seat arranged on one side of the main body, which is opposite to the mounting frame; the drainage channel is correspondingly arranged at the joint of the mounting rack and the photovoltaic panel; and

and the water guide channel is connected with the photovoltaic platform, the water guide channel extends along the second extending direction, the water guide channel is correspondingly arranged between two adjacent photovoltaic panels, and two ends of the water guide channel are respectively correspondingly communicated with the drainage channel.

2. The drainage system for a power plant according to claim 1, wherein a bracket is provided between the drainage channel and the main body; the bracket is correspondingly connected and fixed with the main body, and the drainage channel is correspondingly embedded in the bracket.

3. The drainage system for power plants according to claim 2, wherein the drainage channel comprises a bottom plate, and a pressing plate and an extension plate respectively provided on both sides of the bottom plate; the bottom plate corresponds with the bracket butt, the clamp plate is from the bottom plate to the water guide channel direction extends the setting, the tip of clamp plate with water guide channel butt.

4. The drainage system for a power plant according to claim 3, wherein the extension plate extends obliquely in a direction of the main body from a side of the bottom plate adjacent to the main body toward the mounting bracket.

5. The drainage system of a power station of claim 2, wherein the bracket comprises a fixed portion and an embedded portion; the fixing part is correspondingly connected and fixed with the main body, and the embedded part is in a U-shaped structure and supports the drainage channel.

6. The drainage system for power plants according to claim 5, wherein the body is provided with a draw hook, and one end of the fixing part is correspondingly embedded in the draw hook.

7. The power station drainage system according to claim 1, wherein the cross section of the water guide channel is in a U-shaped structure, and two adjacent photovoltaic panels are correspondingly hooked on two sides of the water guide channel respectively.

8. The drainage system for power plants according to claim 1, wherein the mounting bracket comprises a vertical plate connected with the main body, a support plate connected with the vertical plate, and a drainage plate arranged at one end of the support plate far away from the main body; the backup pad correspond with the photovoltaic board is connected, the drainage board certainly the backup pad to the setting is extended to drainage channel way direction.

9. The drainage system of a power plant according to claim 8, characterized in that a stop is provided on the support plate; the stop block is arranged on one side, back to the main body, of the supporting plate in a protruding block shape, and the photovoltaic panel is correspondingly abutted to the stop block.

10. The drainage system for power plants according to claim 9, wherein the vertical plates are arranged in a direction perpendicular to the direction in which the support plates are arranged, and the mounting brackets are arranged in a T-shaped configuration.

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