CN210327501U - High-efficient heat dissipation solar cell panel - Google Patents

Abstract

The utility model discloses a high-efficiency heat dissipation solar cell panel, which is added with a thermal power generation battery, so that the temperature on the panel can be utilized, the heat is converted into electric energy through the thermal power generation battery, thereby driving a water pump and a heat dissipation fan, the water pump is driven to realize the water cooling circulation inside the solar cell panel, the heat dissipation is accelerated, the temperature of electronic parts on the solar cell panel is continuously dissipated, the heat dissipation fan rotates, the air inside the shell is accelerated to be rapid, the air inside the shell is always exchanged with the outside, the low-temperature state of the air inside the shell is always kept, thereby the heat conduction of the heat dissipation fins to the air is accelerated, the heat dissipation efficiency of the heat dissipation fins is improved, the heat dissipation efficiency of the solar cell panel is further improved, the working state and the working efficiency of the internal elements are ensured, and the damage caused by the, thereby improving the service life of the solar energy.

Description

High-efficient heat dissipation solar cell panel

Technical Field

The utility model belongs to the technical field of solar cell panels; in particular to a high-efficiency heat dissipation solar cell panel.

Background

Solar energy is solar thermal radiation energy, the main performance is solar ray often said, generally be used as the electricity generation or provide the energy for the water heater at modern, solar cell panel is one kind more than indispensable subassembly on the solar energy, solar cell panel is through absorbing the sunlight, pass through photoelectric effect or light with solar radiation energy, current solar cell panel often adopts the fin heat dissipation, the radiating efficiency is low, lead to the unable rapid cooling of panel heat, thereby make the subassembly on the panel be in the high temperature state for a long time and lead to work efficiency low or even damage, thereby solar cell's life has been shortened, solar cell panel's practicality has been reduced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-efficient heat dissipation solar cell panel to solve traditional solar cell panel and often adopt the fin heat dissipation, the radiating efficiency is low, leads to the unable rapid cooling of panel heat, thereby makes the subassembly on the panel be in high temperature state for a long time, leads to work efficiency low or even damage, thereby has shortened solar cell's life's technical problem.

To achieve the above object, the present invention provides a high-efficiency heat dissipation solar cell panel, which comprises a dust screen, a housing, a heat conducting plate, a cell holder, and a silicon cell block, wherein the silicon cell block is uniformly arranged on the cell holder, the heat conducting plate is fixed on one side of the cell holder, the housing is fixed on the lower end surface of the cell holder, the upper end surface of the housing is in contact with the heat conducting plate, through grooves are formed on two sides of the housing, the dust screen is fixed on two ends of each through groove, a thermal power cell is arranged at the lower end of the heat conducting plate, the thermal power cell is embedded in the upper end surface of the housing, heat dissipation fins are arranged on the lower end surface of the cell holder, a heat dissipation fan is arranged on one side of each heat dissipation fin, the heat dissipation fan is electrically connected with the thermal power cell, a water, the water-cooling pipeline device is electrically connected with the thermal power generation battery through a lead.

Further, the dust screen is a 400-mesh aluminum alloy screen.

Further, the shell is a hollow rectangular box without a top and with a bottom.

Furthermore, the thermal power generation battery is fixed on the inner side of the shell, the thermal power generation battery comprises a heat collection plate, thermoelectric materials, power transmission lines and a cooling plate, the heat collection plate is fixed on the lower end surface of the heat conduction plate, the lower end of the heat collection plate is respectively provided with two thermoelectric materials, the two thermoelectric materials are separated from each other and are respectively connected with the power transmission lines, the two power transmission lines are both connected with a cooling fan and a water cooling pipeline device, and the cooling plate is fixed at the lower ends of the two thermoelectric materials;

the thermoelectric material adopts β -FeSi₃A material.

Further, water-cooling pipe device includes heat absorption pipe, lower cooling tube, connecting pipe and water pump, the water pump is fixed in the shell inboard, and locates thermal power generation battery lower extreme, the water pump is connected with two power transmission lines of thermal power generation battery, go up the heat absorption pipe and inlay in battery mount inboard, and one end is connected with the water pump delivery end, and the other end passes through the connecting pipe to be connected with lower cooling tube one end, the cooling tube is fixed in the shell inboard down, and locates battery mount lower extreme, the cooling tube other end is connected with the water pump income water end down.

Further, the heat dissipation fins comprise inner side heat conduction blocks, a heat dissipation plate and heat dissipation fins, the inner side heat conduction blocks are embedded in the inner side of the battery fixing frame and are arranged alternately with the upper heat absorption tubes, the heat dissipation plate is fixed on the lower end face of the battery fixing frame, and the heat dissipation fins are uniformly distributed on the heat dissipation plate.

Furthermore, the number of the heat dissipation fans is four, the four heat dissipation fans are uniformly arranged on the same side of the heat dissipation fins and the lower heat dissipation pipe, and the heat dissipation fans are fixed on the bottom surface of the inner side of the shell.

Further, the utility model discloses a working procedure and principle:

1) when the utility model works, heat is generated and conducted to the battery fixing frame;

2) part of the heat is conducted to the heat conducting plate by the battery fixing frame;

3) one part of heat on the battery fixing frame is conducted into water through the upper heat absorption pipe, is cooled through the lower radiating pipe, is radiated into air inside the shell, is radiated and cooled through the lower radiating pipe to convert hot water into cold water, and continuously enters the upper heat absorption pipe through the water pump to conduct heat conduction circulation;

4) the other part of heat on the battery fixing frame is conducted to the heat dissipation plate through the inner side heat conduction block and is transferred to the air on the inner side of the shell through the heat dissipation fins on the heat dissipation plate, so that the temperature is reduced;

5) the temperature heating thermal-arrest board of heat-conducting plate is that thermoelectric material and thermal-arrest board contact one end are in the high temperature state, and thermoelectric material and cooling plate contact one end are in the low temperature state, thereby produce the electromotive force, produce the electric current on the transmission line, the electric current drives the water pump, make the water in the water-cooling pipe device can the circulation heat dissipation, and the electric current drives radiator fan, and radiator fan rotates, makes the inboard air current that produces of shell, and the air current carries out the heat exchange through dust screen and outside air, thereby makes the air keep the low temperature state in the shell all the time, thereby improves the utility model discloses a radiating efficiency.

The utility model has the advantages that: the utility model discloses increase and have the thermal power generation battery, the temperature on the messenger panel can be utilized, make heat conversion for the electric energy through the thermal power generation battery, thereby drive water pump and radiator fan, the inside water-cooling circulation of solar cell panel is realized to the drive water pump, dispel the heat with higher speed, make the electronic component temperature on the solar cell panel continuously distribute away, radiator fan rotates, the inboard air of shell with higher speed is rapid, it exchanges with the external world all the time to be the inside air of shell, the low temperature state of the inboard air of shell is kept all the time, thereby heat radiation fins is to the heat conduction of air with higher speed, improve heat radiation fins's radiating efficiency, thereby further improve solar cell panel's radiating efficiency, guarantee its internal element's operating condition and work efficiency, avoid the component to be in high temperature state for a long time and lead to.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic diagram of an overall structure of a high-efficiency heat dissipation solar panel of the present invention;

fig. 2 is a side sectional view of a high efficiency heat dissipating solar panel of the present invention;

fig. 3 is a schematic structural view of a thermal power generation cell of a high-efficiency heat dissipation solar panel according to the present invention;

fig. 4 is a schematic structural diagram of a heat dissipation fin of a high-efficiency heat dissipation solar cell panel of the present invention.

Detailed Description

Referring to fig. 1-4, a high-efficiency heat dissipation solar cell panel comprises a dust screen 1, a housing 2, a heat conducting plate 3, a cell holder 4 and a silicon cell block 5, wherein the silicon cell block 5 is uniformly arranged on the cell holder 4, the heat conducting plate 3 is fixed on one side of the cell holder 4, the housing 2 is fixed on the lower end surface of the cell holder 4, the upper end surface of the housing 2 is in contact with the heat conducting plate 3, through grooves are formed on two sides of the housing 2, the dust screen 1 is fixed on two ends of the through grooves, a thermal power generation cell 6 is arranged at the lower end of the heat conducting plate 3, the thermal power generation cell 6 is embedded in the upper end surface of the housing 2, a heat dissipation fin 8 is arranged on the lower end surface of the cell holder 4, a heat dissipation fan 9 is arranged on one side of the heat dissipation fin 8, the heat dissipation fan 9 is electrically connected with, the water-cooling piping device 7 is electrically connected to the thermal power generation cell 6.

The dust screen 1 is made of 400-mesh aluminum alloy screen.

The shell 2 is a hollow rectangular box with no top and bottom.

As shown in fig. 3, the thermal power generation cell 6 is fixed inside the case 2, the thermal power generation cell 6 includes a heat collection plate 61, thermoelectric materials 62, power lines 63, and a cooling plate 64, the heat collection plate 61 is fixed on the lower end surface of the heat conduction plate 3, the lower end of the heat collection plate 61 is respectively provided with two thermoelectric materials 62, the two thermoelectric materials 62 are separated from each other and are respectively connected with the power lines 63, the two power lines 63 are both connected with the heat dissipation fan 9 and the water cooling duct device 7, and the lower ends of the two thermoelectric materials 62 are fixed with the cooling plate 64.

The thermoelectric material 62 adopts β -FeSi₃A material.

The water-cooling pipeline device 7 is divided into an upper heat absorbing pipe 71, a lower heat dissipating pipe 72, a connecting pipe 73 and a water pump 74, wherein the water pump 74 is fixed on the inner side of the shell 2 and is arranged at the lower end of the thermal power generation battery 6, the water pump 74 is connected with two power transmission lines 63 of the thermal power generation battery 6, the upper heat absorbing pipe 71 is embedded in the inner side of the battery fixing frame 4, one end of the upper heat absorbing pipe is connected with the water delivery end of the water pump 74, the other end of the upper heat absorbing pipe is connected with one end of the lower heat dissipating pipe 72 through the connecting pipe 73, the lower heat dissipating pipe 72.

As shown in fig. 4, the heat sink fins 8 include inner heat-conducting blocks 81, heat-dissipating plates 82, and heat sink fin units 83, the inner heat-conducting blocks 81 are embedded inside the battery holder 4 and are alternately arranged with the upper heat-absorbing pipes 71, the heat-dissipating plates 82 are fixed on the lower end surface of the battery holder 4, and the heat sink fin units 83 are uniformly distributed on the heat-dissipating plates 82.

The number of the heat dissipation fans 9 is four, the four heat dissipation fans 9 are uniformly disposed on the same side of the heat dissipation fin unit 83 and the lower heat dissipation pipe 72, and the heat dissipation fans 9 are fixed on the bottom surface of the inner side of the housing 2.

The utility model discloses a working procedure and principle:

1) when the utility model works, heat is generated and conducted to the battery fixing frame 4;

2) part of the heat is conducted to the heat conducting plate 3 by the battery fixing frame 4;

3) a part of heat on the battery fixing frame 4 is conducted into water through the upper heat absorption pipe 71, is cooled through the lower radiating pipe 72, is radiated into air inside the shell 2, is radiated through the lower radiating pipe 72, hot water is converted into cold water, and continuously enters the upper heat absorption pipe 71 through the water pump 74 to conduct heat conduction circulation;

4) the other part of heat on the battery fixing frame 4 is conducted to the heat dissipation plate 82 through the inner side heat conduction block 81, and is transferred to the air inside the shell 2 through the heat dissipation fin units 83 on the heat dissipation plate 82, so that the temperature is reduced;

5) the temperature heating thermal-arrest board 61 of heat-conducting plate 3 is that thermoelectric material 62 both ends are in high temperature and low temperature state respectively to produce the electromotive force, produce the electric current on power transmission line 63, the electric current drives water pump 74, makes the sufficient heat dissipation that circulates of hydroenergy in the water-cooling pipe device 7, and the electric current drives radiator fan 9, and radiator fan 9 rotates, makes the inboard air current that produces of shell 2, and the air current carries out heat exchange through dust screen 1 and outside air, thereby makes the air keep the low temperature state in the shell 2 all the time, thereby improves the utility model discloses a radiating efficiency.

The foregoing is merely exemplary and illustrative of the structure of the invention, and various modifications, additions and substitutions as described in the detailed description may be made by those skilled in the art without departing from the structure or exceeding the scope of the invention as defined in the claims.

Claims (7)

1. A high-efficiency heat dissipation solar cell panel comprises a dustproof net (1), a shell (2), a heat-conducting plate (3), a cell fixing frame (4) and a silicon cell block (5), and is characterized in that the silicon cell block (5) is uniformly arranged on the cell fixing frame (4), the heat-conducting plate (3) is fixed on one side of the cell fixing frame (4), the shell (2) is fixed on the lower end face of the cell fixing frame (4), the upper end face of the shell (2) is in contact with the heat-conducting plate (3), through grooves are arranged on two sides of the shell (2), the dustproof net (1) is fixed at two ends of each through groove, a heat generation cell (6) is arranged at the lower end of the heat-conducting plate (3), the heat generation cell (6) is embedded on the upper end face of the shell (2), heat dissipation fins (8) are arranged on the lower end face of the cell fixing frame (4), and a, radiator fan (9) and thermal power battery (6) electric connection, it has water-cooling pipe device (7) to embed on the terminal surface under battery mount (4), water-cooling pipe device (7) and heat radiation fins (8) arrange in turn, water-cooling pipe device (7) pass through wire electric connection with thermal power battery (6).

2. The efficient heat dissipation solar panel according to claim 1, wherein the dust screen (1) is a 400-mesh aluminum alloy screen.

3. A high efficiency heat dissipating solar panel as claimed in claim 1, wherein the housing (2) is a no top and bottom hollow box.

4. The high efficiency heat dissipating solar panel of claim 1, the thermal power generation cell (6) is fixed on the inner side of the shell (2), the thermal power generation cell (6) comprises a heat collection plate (61), a thermoelectric material (62), a power transmission line (63) and a cooling plate (64), the heat collecting plate (61) is fixed on the lower end surface of the heat conducting plate (3), the lower end of the heat collecting plate (61) is respectively provided with two thermoelectric materials (62), the two thermoelectric materials (62) are separated from each other, and are respectively connected with power transmission lines (63), the two power transmission lines (63) are both connected with a cooling fan (9) and a water-cooling pipeline device (7), the lower ends of the two thermoelectric materials (62) are fixed with cooling plates (64), a loop is formed among the heat collecting plate (61), the two thermoelectric materials (62) and the power line (63);

the thermoelectric material (62) adopts β -FeSi₃A material.

5. The solar cell panel with high efficiency and heat dissipation of claim 4, wherein the water cooling pipe device (7) comprises an upper heat absorption pipe (71), a lower heat dissipation pipe (72), a connection pipe (73) and a water pump (74), the water pump (74) is fixed inside the housing (2) and is disposed at the lower end of the thermal power generation battery (6), the water pump (74) is connected to the two power lines (63) of the thermal power generation battery (6), the upper heat absorption pipe (71) is embedded inside the battery fixing frame (4), one end of the upper heat absorption pipe is connected to the water delivery end of the water pump (74), the other end of the upper heat absorption pipe is connected to one end of the lower heat dissipation pipe (72) through the connection pipe (73), the lower heat dissipation pipe (72) is fixed inside the housing (2) and is disposed at the lower end of the battery fixing frame (4), and the other end of the lower heat dissipation pipe (.

6. The solar cell panel with high efficiency and heat dissipation performance as claimed in claim 5, wherein the heat dissipation fins (8) comprise inner heat conduction blocks (81), heat dissipation plates (82) and heat dissipation fin units (83), the inner heat conduction blocks (81) are embedded inside the battery holder (4) and are arranged alternately with the upper heat absorption tubes (71), the heat dissipation plates (82) are fixed on the lower end face of the battery holder (4), the heat conduction blocks (81) are in contact with the heat dissipation plates (82), and the heat dissipation fin units (83) are uniformly distributed on the heat dissipation plates (82).

7. The solar cell panel for high efficiency heat dissipation according to claim 1, wherein there are four heat dissipation fans (9), four heat dissipation fans (9) are uniformly disposed on the same side of the heat dissipation fin unit (83) and the lower heat dissipation pipe (72), and the heat dissipation fans (9) are fixed on the bottom surface of the inner side of the housing (2).

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