CN112994612A - Protection device of sealing structure between photovoltaic modules - Google Patents

Abstract

The invention relates to the technical field of photovoltaic module protection equipment, in particular to a protection device of a sealing structure between photovoltaic modules, which comprises a first photovoltaic module and a second photovoltaic module, wherein the first photovoltaic module is positioned right above the second photovoltaic module, a sealing adhesive layer is arranged between the first photovoltaic module and the second photovoltaic module, four corners of the bottom of the first photovoltaic module are fixedly provided with screws, the lower ends of the screws penetrate through the second photovoltaic module, threaded sleeves are connected on the screws in a threaded manner, supporting plates are fixedly arranged on two sides of the bottom of the second photovoltaic module, the supporting plates on the two sides are symmetrically distributed, strip-shaped plates are fixedly arranged at the bottoms of the supporting plates, protective plates are fixedly arranged at two ends of the first photovoltaic module, the protective plates on the two sides are arranged in a mirror image manner and are arranged in a downward inclination manner, and water absorption; through setting up the guard plate, the cotton layer of absorbing water is mutually supported, blocks through the guard plate that illumination and rainwater directly get into sealed in situ, can absorb some rainwater through the cotton layer of absorbing water.

Description

Protection device of sealing structure between photovoltaic modules

Technical Field

The invention relates to the technical field of photovoltaic module protection equipment, in particular to a protection device for a sealing structure between photovoltaic modules.

Background

With the increasing prominence of global warming, deterioration of human ecological environment and conventional energy shortage, solar energy is widely applied with sufficient cleanness, absolute safety and resource sufficiency, and the rational utilization of solar energy is a long-term development strategy for solving energy problems of human beings. With the development of the thin film photovoltaic industry, the protection of the sealing structure between the thin film modules also becomes one of the hot spots of the current research.

The solar cell module consists of a high-efficiency single crystal/polycrystalline solar cell, low-iron super white suede toughened glass, packaging materials (EVA, POE and the like), a functional back plate, interconnection bars, bus bars, a junction box and an aluminum alloy frame; the energy converter for solar photovoltaic power generation is a solar cell, also called a photovoltaic cell. The principle of solar cell power generation is the photovoltaic effect, when sunlight impinges on a solar cell, the cell absorbs the light energy, producing photo-generated electron-hole pairs. Under the action of an electric field built in the cell, photogenerated electrons and holes are separated, and accumulation of charges with different signs appears at two ends of the cell, namely 'photovoltaic voltage', which is the 'photovoltaic effect'. If the electrodes are led out from two sides of the built-in electric field and connected with the load in parallel, the load can have 'photo-generated current' flowing through, so that power output can be obtained. Thus, the solar energy is directly changed into usable electric energy.

At present, solar modules are widely applied to ground power stations and building photovoltaic integration, and the sealing structure among the solar modules is generally as follows: the sealing glue layer is filled between the two photovoltaic modules, the photovoltaic modules are placed outdoors for a long time, the service life of the sealing glue layer can be influenced under the environment of exposure to the sun and rain, the maintenance cost of a photovoltaic system is increased, the normal use of the photovoltaic system is influenced, the existing sealing structure between the photovoltaic modules does not have a protection function, and therefore the protection device of the sealing structure between the photovoltaic modules is provided.

Disclosure of Invention

The invention aims to solve the defect that the sealing structure between photovoltaic modules in the prior art does not have a protection function, and provides a protection device of the sealing structure between the photovoltaic modules.

In order to achieve the purpose, the invention adopts the following technical scheme:

a protective device of a sealing structure between photovoltaic modules is designed, which comprises a first photovoltaic module and a second photovoltaic module, the first photovoltaic component is positioned right above the second photovoltaic component, a sealant layer is arranged between the first photovoltaic component and the second photovoltaic component, the four corners of the bottom of the first photovoltaic component are all fixedly provided with screws, the lower ends of the screws penetrate through the second photovoltaic component, the screw rods are all in threaded connection with threaded sleeves, supporting plates are fixedly arranged on two sides of the bottom of the second photovoltaic module and are symmetrically distributed, the bottom of each supporting plate is fixedly provided with a strip-shaped plate which can be connected to an external mounting surface through a screw, the equal fixed mounting in first photovoltaic module both ends has the guard plate, both sides the guard plate mirror image sets up and all downward sloping sets up, the guard plate upper surface all is equipped with the cotton layer that absorbs water.

Preferably, the bottom end of the second photovoltaic module is provided with a cooling mechanism.

Preferably, the supporting plate on one side is provided with an air cooling mechanism, and the air cooling mechanism is arranged towards the sealing glue layer.

Preferably, the cooling mechanism comprises a metal radiating block, a heat-conducting silica gel sheet is arranged between the metal radiating block and the second photovoltaic assembly, the metal radiating block is connected to the second photovoltaic assembly through screws, the upper side and the lower side of the heat-conducting silica gel sheet are tightly attached to the second photovoltaic assembly and the metal radiating block respectively, the cooling mechanism further comprises heat pipes which are uniformly distributed on the metal radiating block, the heat pipes penetrate through the metal radiating block, and the end portions of the heat pipes are communicated with the external circulation liquid cooling assembly.

Preferably, the air cooling mechanism is including the installation riser, installation riser fixed mounting is at the backup pad top, the installation riser is equipped with the fan assembly that a plurality of equidistance were arranged towards sealant layer one side, install the controller on the installation riser, fixed mounting has temperature-detecting equipment on the second photovoltaic module.

Preferably, the air cooling mechanism further comprises a driving assembly, a plurality of gears of the driving assembly are fixedly mounted at the end part of the fan shaft of the fan assembly respectively and are adjacent to each other, a transmission gear is arranged between the gears and is fixedly mounted with a rotating shaft, the rotating shaft is rotatably mounted on a mounting vertical plate, the transmission gear is meshed with the adjacent gears, a motor base is fixedly mounted on the mounting vertical plate, a motor is fixedly mounted on the motor base, and an output shaft of the motor is fixedly connected with the gear on one side.

Preferably, the motor and the temperature detection device are both in signal connection with a controller, and the controller is used for controlling the motor and the temperature detection device to work.

The protection device for the sealing structure between the photovoltaic modules has the advantages that: through the mutual matching of the protection plate and the water absorption cotton layer, the protection plate prevents light and rainwater from directly entering the sealant layer, and the water absorption cotton layer can absorb a part of rainwater; the sealing adhesive layer can be melted when the sealing adhesive layer works at high temperature for a long time; by arranging the cooling mechanism, a liquid cooling mode is adopted, the temperature on the sealing glue layer, the first photovoltaic assembly and the second photovoltaic assembly rises, the temperature on the second photovoltaic assembly is conducted to the metal radiating block, the metal radiating block exchanges heat with cooling liquid in the heat conducting pipe, the heated cooling liquid is sent into the heat exchanger by the electronic water pump, a refrigerant is introduced into one side of the interior of the heat exchanger, the cooling liquid is introduced into one side of the interior of the heat exchanger, the refrigerant and the cooling liquid are fully exchanged heat in the heat exchanger, heat is taken away by the refrigerant, cold water flows out of the heat exchanger and flows into a battery to form a cycle, and therefore heat dissipation of the photovoltaic assembly and the; through setting up forced air cooling mechanism, temperature-detecting equipment detects the temperature of sealant layer department, and temperature-detecting equipment conveys temperature signal to controller department, and when the temperature was higher than the default, the work of controller control motor, motor work and the fan axle that drives a plurality of fan assembly rotated, through drive gear transmission between the fan axle of adjacent fan assembly to utilize fan assembly to reduce sealant layer's temperature.

Drawings

Fig. 1 is a schematic structural diagram of a protection device of a sealing structure between photovoltaic modules according to the present invention.

Fig. 2 is a schematic structural diagram of a protection device of a sealing structure between photovoltaic modules according to the present invention.

Fig. 3 is an enlarged schematic view of a metal heat sink of a protection device of a sealing structure between photovoltaic modules according to the present invention.

Fig. 4 is a schematic structural diagram of an air cooling mechanism of a protection device of a sealing structure between photovoltaic modules according to the present invention.

Fig. 5 is an enlarged schematic view of a fan assembly of a protection device of a sealing structure between photovoltaic modules according to the present invention.

In the figure: first photovoltaic module 1, second photovoltaic module 2, sealant layer 3, screw rod 4, thread bush 5, backup pad 6, bar 7, guard plate 8, cotton layer 9 that absorbs water, metal radiating block 10, heat conduction silica gel piece 11, heat pipe 12, installation riser 13, fan unit 14, controller 15, temperature-detecting equipment 16, gear 17, drive gear 18, pivot 19, motor cabinet 20, motor 21.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example 1:

referring to fig. 1-5, a protection device for a sealing structure between photovoltaic modules comprises a first photovoltaic module 1 and a second photovoltaic module 2, wherein the first photovoltaic module 1 is positioned right above the second photovoltaic module 2, a sealant layer 3 is arranged between the first photovoltaic module 1 and the second photovoltaic module 2, four corners of the bottom of the first photovoltaic module 1 are all fixedly provided with a screw rod 4, the lower end of the screw rod 4 penetrates through the second photovoltaic module 2, the screw rod 4 is all in threaded connection with a threaded sleeve 5, two sides of the bottom of the second photovoltaic module 2 are all fixedly provided with supporting plates 6, the supporting plates 6 on two sides are symmetrically distributed, the bottom of the supporting plate 6 is all fixedly provided with a strip-shaped plate 7, the strip-shaped plate 7 can be connected on an external mounting surface through screws, two ends of the first photovoltaic module 1 are all fixedly provided with a protection plate 8, the protection plates 8 on two sides are arranged in a mirror image mode and are both inclined downwards, through setting up guard plate 8, the cotton layer 9 that absorbs water mutually supports, blocks through guard plate 8 that illumination and rainwater directly get into sealant layer 3 in, can absorb some rainwater through the cotton layer 9 that absorbs water.

Example 2:

since the sealant layer 3 is melted when the sealant layer 3 is operated at a high temperature for a long time, referring to fig. 1 to 5, as another preferred embodiment of the present invention, it is different from embodiment 1 in that a cooling mechanism is provided at the bottom end of the second photovoltaic module 2. Be located and be equipped with air cooling mechanism on the backup pad 6 of one side, air cooling mechanism sets up towards sealant layer 3.

The cooling mechanism comprises a metal radiating block 10, a heat conducting silica gel sheet 11 is arranged between the metal radiating block 10 and the second photovoltaic assembly 2, the metal radiating block 10 is connected to the second photovoltaic assembly 2 through screws, the upper side and the lower side of the heat conducting silica gel sheet 11 are tightly attached to the second photovoltaic assembly 2 and the metal radiating block 10 respectively, the cooling mechanism further comprises a plurality of heat conduction pipes 12 which are uniformly distributed on the metal radiating block 10, the heat conduction pipes 12 penetrate through the metal radiating block 10, and the end portions of the heat conduction pipes 12 are communicated with an external circulation liquid cooling assembly. Through setting up the cooling mechanism, adopt the liquid cooling mode, sealant layer 3 and first photovoltaic module 1, the temperature rises on the second photovoltaic module 2, temperature conduction on the second photovoltaic module 2 is to metal radiating block 10, the heat transfer is carried out to the coolant liquid in metal radiating block 10 and the heat pipe 12, the coolant liquid after the heating is sent into in the heat exchanger by electronic water pump, let in the refrigerant in the inside one side of heat exchanger, the coolant liquid is let in to one side, both are the sufficient heat transfer in the heat exchanger, the heat is taken away by the refrigerant, cold water outflow heat exchanger is flowing into the battery, form a circulation, thereby realize the heat dissipation of photovoltaic module and sealant layer 3.

The air cooling mechanism comprises an installation vertical plate 13, the installation vertical plate 13 is fixedly installed at the top of the supporting plate 6, a plurality of fan assemblies 14 which are arranged at equal intervals are arranged on the installation vertical plate 13 towards one side of the sealing adhesive layer 3, a controller 15 is installed on the installation vertical plate 13, and a temperature detection device 16 is fixedly installed on the second photovoltaic assembly 2. The air cooling mechanism further comprises a driving assembly, a plurality of gears 17 of the driving assembly are arranged on the end portion of the fan shaft of the fan assembly 14, the gears 17 are respectively and fixedly installed on the end portion of the fan shaft of the fan assembly 14, a transmission gear 18 is arranged between every two adjacent gears 17, a rotating shaft 19 is fixedly installed on the transmission gear 18, the rotating shaft 19 is rotatably installed on the installation vertical plate 13, the transmission gear 18 is meshed with the adjacent gears 17, a motor base 20 is fixedly installed on the installation vertical plate 13, a motor 21 is fixedly installed on the motor base 20, and an output shaft of the motor 21 is. The motor 21 and the temperature detection device 16 are both connected to the controller 15 through signals, and the controller 15 is used for controlling the motor 21 and the temperature detection device 16 to work. Through setting up the air cooling mechanism, temperature-detecting equipment 16 detects the temperature of sealant layer 3 department, and temperature-detecting equipment 16 conveys temperature signal to controller 15 department, and when the temperature was higher than the default, controller 15 control motor 21 worked, and motor 21 worked and driven a plurality of fan assembly 14's fan axle rotation, through drive gear 18 transmission between the fan axle of adjacent fan assembly 14 to utilize fan assembly 14 to reduce the temperature of sealant layer 3.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (7)

1. A protection device of a sealing structure between photovoltaic modules comprises a first photovoltaic module (1) and a second photovoltaic module (2), and is characterized in that the first photovoltaic module (1) is positioned right above the second photovoltaic module (2), a sealing adhesive layer (3) is arranged between the first photovoltaic module (1) and the second photovoltaic module (2), four corners of the bottom of the first photovoltaic module (1) are fixedly provided with screw rods (4), the lower ends of the screw rods (4) penetrate through the second photovoltaic module (2), the screw rods (4) are in threaded connection with thread sleeves (5), two sides of the bottom of the second photovoltaic module (2) are fixedly provided with supporting plates (6), the supporting plates (6) at two sides are symmetrically distributed, the bottoms of the supporting plates (6) are fixedly provided with strip-shaped plates (7), and the strip-shaped plates (7) can be connected to an external mounting surface through screws, the photovoltaic module is characterized in that protection plates (8) are fixedly mounted at two ends of the first photovoltaic module (1), the protection plates (8) are arranged in a mirror mode and inclined downwards, and water absorption cotton layers (9) are arranged on the upper surfaces of the protection plates (8).

2. The protection device of the sealing structure between the photovoltaic modules according to claim 1, characterized in that a cooling mechanism is arranged at the bottom end of the second photovoltaic module (2).

3. The protection device of the sealing structure between the photovoltaic modules according to claim 1, wherein the supporting plate (6) on one side is provided with an air cooling mechanism, and the air cooling mechanism is arranged towards the sealant layer (3).

4. The protection device of the sealing structure between the photovoltaic modules according to claim 2, wherein the cooling mechanism comprises a metal heat dissipation block (10), a heat-conducting silica gel sheet (11) is arranged between the metal heat dissipation block (10) and the second photovoltaic module (2), the metal heat dissipation block (10) is connected to the second photovoltaic module (2) through screws, the upper side and the lower side of the heat-conducting silica gel sheet (11) are respectively tightly attached to the second photovoltaic module (2) and the metal heat dissipation block (10), the cooling mechanism further comprises a plurality of liquid-cooling heat pipes (12) uniformly distributed on the metal heat dissipation block (10), the heat pipes (12) penetrate through the metal heat dissipation block (10), and the end parts of the heat pipes (12) are communicated with an external circulation module.

5. The protection device of seal structure between photovoltaic module according to claim 3, characterized in that, the air-cooled mechanism includes installation riser (13), installation riser (13) fixed mounting is at backup pad (6) top, installation riser (13) are equipped with fan assembly (14) of a plurality of equidistance arrangements towards sealant layer (3) one side, install controller (15) on installation riser (13), fixed mounting has temperature-detecting equipment (16) on second photovoltaic module (2).

6. The protection device of the sealing structure between the photovoltaic modules according to claim 5, wherein the air cooling mechanism further comprises a driving module, the driving module comprises a plurality of gears (17), the gears (17) are respectively and fixedly installed at the end part of the fan shaft of the fan module (14), a transmission gear (18) is arranged between the adjacent gears (17), a rotating shaft (19) is fixedly installed on the transmission gear (18), the rotating shaft (19) is rotatably installed on an installation vertical plate (13), the transmission gear (18) is meshed with the adjacent gear (17), a motor base (20) is fixedly installed on the installation vertical plate (13), a motor (21) is fixedly installed on the motor base (20), and an output shaft of the motor (21) is fixedly connected with the gear (17) on one side.

7. The protection device of the sealing structure between the photovoltaic modules is characterized in that the motor (21) and the temperature detection device (16) are in signal connection with a controller (15), and the controller (15) is used for controlling the operation of the motor (21) and the temperature detection device (16).

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