CN207339768U - Mechanism for photovoltaic module pressure release - Google Patents

Abstract

The utility model discloses the mechanism for photovoltaic module pressure release, including glass plate, solar panel, backboard, the solar panel is arranged between backboard and glass plate, glass plate is located at the surface of solar panel, backboard is located at the underface of solar panel, side of the glass plate away from solar panel is provided with drainage trough, drainage trough includes horizontal drainage trough, vertical drainage trough, what horizontal drainage trough was parallel to each other is arranged on side of the glass plate away from solar panel, what vertical drainage trough was parallel to each other be arranged on side of the glass plate away from solar panel and vertical with horizontal drainage trough, horizontal drainage trough and vertical drainage trough intersection are provided with osculum, osculum runs through glass plate, solar panel and backboard, osculum is located at the gap location between the battery and battery set in solar panel.Rainwater is flowed into osculum by horizontal drainage trough and vertical drainage trough and flows out, and avoids rainwater from causing enormous impact to damage photovoltaic module.

Description

Mechanism for photovoltaic module pressure release

Technical field

It the utility model is related to photovoltaic module, and in particular to the mechanism for photovoltaic module pressure release.

Background technology

Photovoltaic module (being commonly called as solar panel) is by solar battery sheet or by laser cutting machine machine or steel-wire cutting machine The solar cell for the different size cut open combines composition.Due to monolithic solar cell piece electric current and voltage all Very little, then we first connect them and obtain high voltage, then after acquisition high current in parallel, (electricity is prevented by a diode Flow back to defeated) and then output.And they are encapsulated on a stainless steel, aluminium or other nonmetallic frames, is installed above Top backboard and the lower part backboard at the back side, be filled with nitrogen, sealing.It is collectively referred to as component, that is, photovoltaic module or says it is the sun Battery component.

In the prior art, impacted because rainwater is excessive be subject to rainwater in rainwater weather there are photovoltaic module, cause light The problem of lying prostrate component damage.

Utility model content

The utility model solves photovoltaic module existing in the prior art in rainwater weather, because rainwater is excessive to be subject to rain The impact of water, the problem of causing photovoltaic module to damage, there is provided for the mechanism of photovoltaic module pressure release, it can be in rainwater when applying Weather effectively guiding is dropped in the rainwater on photovoltaic module, reduces the pressure that photovoltaic module is subject in rainwater weather, avoids rainwater Impact force is spent causes photovoltaic module to damage greatly.

The utility model is achieved through the following technical solutions：

For the mechanism of photovoltaic module pressure release, including glass plate, solar panel, backboard, the solar panel It is arranged between backboard and glass plate, the glass plate is located at the surface of solar panel, and the backboard is located at solar energy The underface of solar panel, side of the glass plate away from solar panel are provided with drainage trough, and the drainage trough includes water Flat drainage trough, vertical drainage trough, what the horizontal drainage trough was parallel to each other is arranged on one of glass plate away from solar panel Side, what the vertical drainage trough was parallel to each other is arranged on side of the glass plate away from solar panel and hangs down with horizontal drainage trough Directly, the horizontal drainage trough and vertical drainage trough intersection are provided with osculum, and the osculum is through glass plate, solar-electricity Pond plate and backboard, the osculum are located at the gap location between the battery and battery set in solar panel.This practicality is new Type is provided with drainage trough on a glass, and drainage trough is divided into horizontal drainage trough and vertical drainage trough, and horizontal drainage trough is parallel to each other Set, vertical drainage trough is vertically arranged with horizontal drainage trough, easy to draw in rainwater weather, rainwater by horizontal drainage trough and vertically Chute carries out rainwater guiding, avoids rainwater from causing compression shock to photovoltaic module.Intersect in horizontal drainage trough and vertical drainage trough Place is provided with osculum, and osculum runs through glass plate, solar panel and backboard, by horizontal drainage trough and is erected easy to rainwater Straight drainage trough is flowed into osculum outflow, avoids rainwater from causing enormous impact to damage photovoltaic module, is influencing photovoltaic module just Often use.

Further, the mechanism for photovoltaic module pressure release, further includes isolation board, the isolation that the osculum passes through setting Plate isolates to be formed with glass plate, solar panel and backboard.The setting of isolation board be in order to prevent rainwater weather when rainwater lead to Cross when osculum excludes and influence photovoltaic module internal structure, avoid rainwater from entering inside photovoltaic module.

Further, the mechanism for photovoltaic module pressure release, further includes diversion trench, and the diversion trench is arranged on horizontal drainage Between groove and horizontal drainage trough, the diversion trench is vertical with horizontal drainage trough.The setting of diversion trench is to further reduce The rain-impact that photovoltaic module is subject in rainwater weather, passes through osculum by the rainwater maximum area being dropped on photovoltaic module Exclude.

Further, the mechanism for photovoltaic module pressure release, further includes drainage channel, and the drainage channel is arranged on backboard Side away from solar panel, the drainage channel are connected with osculum.The setting of drainage channel is in order to which rainwater passes through Equipment or structure when osculum is rejected to backboard below backboard impact, and guide rainwater to arrange safely by drainage channel Remove.

The utility model compared with prior art, has the following advantages and advantages：

1st, the utility model is used for the mechanism of photovoltaic module pressure release, and vertical drainage trough is vertically arranged with horizontal drainage trough, just Rainwater guiding is carried out by horizontal drainage trough and vertical drainage trough, avoids rainwater from making photovoltaic module in rainwater weather, rainwater Into compression shock, rainwater is flowed out by osculum, avoids rainwater from causing enormous impact to damage photovoltaic module, influences photovoltaic module Normal use.

2nd, the utility model is used for the mechanism of photovoltaic module pressure release, the setting of isolation board be in order to prevent rainwater weather when rain Photovoltaic module internal structure is influenced when water is excluded by osculum, avoids rainwater from entering inside photovoltaic module.

3rd, the utility model is used for the mechanism of photovoltaic module pressure release, and the setting of drainage channel is in order to which rainwater passes through osculum Equipment or structure when being rejected to backboard below backboard impact, and guide rainwater to exclude safely by drainage channel.

Brief description of the drawings

Attached drawing described herein is used for providing further understanding the utility model embodiment, forms the one of the application Part, does not form the restriction to the utility model embodiment.In the accompanying drawings：

Fig. 1 is the utility model structure diagram；

Fig. 2 is the utility model solar panel schematic diagram；

Fig. 3 is the utility model osculum schematic diagram.

Mark and corresponding parts title in attached drawing：

1- glass plates, 2- solar panels, 3- backboards, 4- drainage troughs, the horizontal drainage troughs of 5-, the vertical drainage troughs of 6-, 7- Osculum, 8- batteries, 9- isolation boards, 10- diversion trenches, 11- drainage channels.

Embodiment

For the purpose of this utility model, technical solution and advantage is more clearly understood, with reference to embodiment and attached drawing, The utility model is described in further detail, and the exemplary embodiment and its explanation of the utility model are only used for explaining this Utility model, is not intended to limit the scope of the present invention.

Embodiment 1

As shown in Figs. 1-3, the mechanism for photovoltaic module pressure release, including glass plate 1, solar panel 2, backboard 3, institute Solar panel 2 to be stated to be arranged between backboard 3 and glass plate 1, the glass plate 1 is located at the surface of solar panel 2, The backboard 3 is located at the underface of solar panel 2, and the side of the glass plate 1 away from solar panel 2, which is provided with, draws Chute 4, the drainage trough 4 include horizontal drainage trough 5, vertical drainage trough 6, and what the horizontal drainage trough 5 was parallel to each other is arranged on Side of the glass plate 1 away from solar panel 2, what the vertical drainage trough 6 was parallel to each other is arranged on glass plate 1 away from the sun Can the side of solar panel 2 and vertical with horizontal drainage trough 5, further include diversion trench 10, the diversion trench 10 is arranged on horizontal drainage Between groove 5 and horizontal drainage trough 5, the diversion trench 10 is vertical with horizontal drainage trough 5, the horizontal drainage trough 5 and vertical drainage 6 intersection of groove is provided with osculum 7, and the osculum 7 runs through glass plate 1, solar panel 2 and backboard 3, further includes isolation Plate 9, the osculum 7 isolate formation, the row by the isolation board 9 of setting with glass plate 1, solar panel 2 and backboard 3 Water hole 7 is located at the gap location between the battery 8 and battery 8 set in solar panel 2, further includes drainage channel 11, described Drainage channel 11 is arranged on side of the backboard 3 away from solar panel 2, and the drainage channel 11 is connected with osculum 7.

The utility model is provided with drainage trough 4 in side of the glass plate 1 of photovoltaic module away from solar panel 2, draws Chute 4 divides for horizontal drainage trough 5 and vertical drainage trough 5, and what horizontal drainage trough 5 was parallel to each other is arranged on glass plate 1, draws vertically Chute 6 is arranged on glass plate 1, and vertical drainage trough 6 is vertically arranged with horizontal drainage trough 6, easy to lead in rainwater weather, rainwater Cross horizontal drainage trough 5 and vertical drainage trough 6 and carry out rainwater guiding, avoid rainwater from causing compression shock to photovoltaic module.Diversion trench 10 are arranged between horizontal drainage trough 5 and horizontal drainage trough 5, and the diversion trench 10 is vertical with horizontal drainage trough 5.Diversion trench 10 Setting is the rain that will be dropped on photovoltaic module in order to further reduce the rain-impact that photovoltaic module is subject in rainwater weather Water maximum area guides.Horizontal drainage trough 5 and 6 intersection of vertical drainage trough are provided with osculum 7, osculum 7 passes through Wear glass plate 1, solar panel 2 and backboard 3, the isolation board 9 and glass plate 1, solar panel that osculum 7 passes through setting 2 and backboard 3 isolation formed.The setting of isolation board 9 be in order to prevent rainwater weather when rainwater influence when being excluded by osculum 7 To photovoltaic module internal structure, avoid rainwater from entering inside photovoltaic module, draw easy to rainwater by horizontal drainage trough 5 and vertically Chute 6 is flowed into osculum 7 and flows out, and avoids rainwater from causing enormous impact to damage photovoltaic module, influences the normal of photovoltaic module Use.

Embodiment 2

On the basis of embodiment 1, side of the backboard 3 away from solar panel 2 is provided with drainage channel 11, draining Passage 11 is connected with osculum 7, and drainage channel 11 guides draining to the rainwater excluded in osculum 7, and rainwater is passed through row Aquaporin 11 is discharged into safe place, and the water for avoiding excluding in osculum 7 impacts the equipment or structure on periphery.

Above-described embodiment, the purpose of this utility model, technical solution and beneficial effect have been carried out into One step describes in detail, it should be understood that the foregoing is merely specific embodiment of the present utility model, is not used to limit Determine the scope of protection of the utility model, where within the spirit and principles of the present invention, any modification for being made, equally replace Change, improve, should be included within the scope of protection of this utility model.

Claims (4)

1. for the mechanism of photovoltaic module pressure release, including glass plate (1), solar panel (2), backboard (3), the solar energy Solar panel (2) is arranged between backboard (3) and glass plate (1), the glass plate (1) be located at solar panel (2) just on Side, the backboard (3) are located at the underface of solar panel (2), it is characterised in that the glass plate (1) is away from solar energy The side of solar panel (2) is provided with drainage trough (4), and the drainage trough (4) includes horizontal drainage trough (5), vertical drainage trough (6), What the horizontal drainage trough (5) was parallel to each other is arranged on side of the glass plate (1) away from solar panel (2), described vertical What drainage trough (6) was parallel to each other be arranged on side of the glass plate (1) away from solar panel (2) and with horizontal drainage trough (5) Vertically, the horizontal drainage trough (5) and vertical drainage trough (6) intersection are provided with osculum (7), and the osculum (7) is run through Glass plate (1), solar panel (2) and backboard (3), the osculum (7) are located at the electricity set in solar panel (2) Gap location between pond (8) and battery (8).

2. the mechanism according to claim 1 for photovoltaic module pressure release, it is characterised in that further include isolation board (9), institute State osculum (7) and formation is isolated with glass plate (1), solar panel (2) and backboard (3) by the isolation board (9) of setting.

3. the mechanism according to claim 1 for photovoltaic module pressure release, it is characterised in that diversion trench (10) is further included, The diversion trench (10) is arranged between horizontal drainage trough (5) and horizontal drainage trough (5), and the diversion trench (10) drains with horizontal Groove (5) is vertical.

4. the mechanism according to claim 1 for photovoltaic module pressure release, it is characterised in that further include drainage channel (11), the drainage channel (11) is arranged on side of the backboard (3) away from solar panel (2), the drainage channel (11) It is connected with osculum (7).