CN113141155A - Solar power generation block and heat dissipation system of solar power generation road - Google Patents

Abstract

The invention provides a solar power generation block and a heat dissipation system of a solar power generation road, and relates to the technical field of solar power generation. The road block comprises a road block base body, a road block module and a controller, wherein the road block base body comprises a light-transmitting layer, a solar assembly, a bonding layer, a buffer layer and a road base layer which are sequentially arranged from top to bottom; the controller is electrically connected with the solar component; the upper part of the road base layer is provided with at least one groove, and the solar module is connected with the groove through a bonding layer; the road block module comprises a processing module and a detection module which are connected with each other, and the processing module is electrically connected with the controller. This application reduces the temperature of solar energy circuit block through controlling means and heat abstractor, has ensured solar energy power generation component's generating efficiency and life, has reduced euphotic layer and solar energy component because the produced deformation of thermal stress, improves the resistance to compression and the anti-shear capacity of road bed layer, delays the ageing of road bed layer and buffer layer, has improved the life of solar energy power generation road.

Description

Solar power generation block and heat dissipation system of solar power generation road

Technical Field

The application relates to the technical field of solar power generation, in particular to a heat dissipation system of a solar power generation block and a solar power generation road.

Background

Along with the strong demand of human beings on clean energy, the rise of the global solar energy industry and the development of a solar power generation technology, the solar energy conversion rate of the solar cell which can be produced in mass at present meets the application demand, and the application scenes of solar power generation are more and more diversified.

In the solar power generation road, solar cells are embedded in a pavement structure, heat generated by the solar cells can be upwards conducted to the surface of the solar power generation road in working, under the condition that the external temperature is high, the heat cannot be quickly dissipated, the external ground high temperature and the solar cells generate conducted heat, the temperature of the surface layer of the pavement is too high, and the ageing of the light-transmitting wearing layer of the solar power generation road can be accelerated by the high temperature for a long time. Meanwhile, the existing solar road has a complex structure, layers are bonded and fixed through bonding layer materials, the bonding layer strength is reduced at high temperature under the action of horizontal shearing force in the driving process, so that the shearing strength of the solar road surface structure is reduced, the structural damage is caused, and the service life of the solar road is shortened.

Disclosure of Invention

To the problem that exists among the prior art, this application provides a solar energy power generation block and cooling system on solar energy power generation road to reach and improve the radiating effect, increase the beneficial effect of solar energy power generation block structural strength.

The application provides a solar energy circuit generating block, which comprises a road block base body, a road block module and a controller, wherein the road block base body comprises a light transmitting layer, a solar energy assembly, a bonding layer, a buffer layer and a road base layer which are sequentially arranged from top to bottom; the light receiving surface of the solar component faces upwards, and the controller is electrically connected with the solar component; the upper part of the road base layer is provided with at least one groove, and the solar module is connected with the groove through a bonding layer; the road bed layer is provided with a placing groove for placing the controller, the road block module comprises a processing module and a detection module which are connected with each other, and the processing module is electrically connected with the controller.

Further, the light-transmitting layer covers the groove.

Further, the road block module comprises an illuminating module, the illuminating module is arranged on one side of the periphery of the road block base body, and the illuminating module is electrically connected with the processing module.

Further, the detection module comprises a light sensor for detecting a light signal, and the light sensor is located on the backlight side surface of the light-transmitting layer and connected with the processing module.

Further, including energy storage battery, energy storage battery sets up in the standing groove, energy storage battery with the controller is connected, the controller is used for carrying out the charge-discharge for solar energy component and energy storage battery.

A heat dissipation system of a solar power generation road comprises a control device, a heat dissipation device, electric equipment and a solar power generation block, wherein the control device is electrically connected with the solar power generation block, the electric equipment and the heat dissipation device respectively; and the euphotic layer is provided with a mounting groove for placing a heat dissipation device.

Further, heat abstractor includes the casing and sets up heating panel, interconnect's a plurality of fin and the fan of setting on fin upper portion in the casing, a plurality of fin intervals set up on the fan board, be equipped with in the euphotic layer and be used for communicateing casing and external heat dissipation channel, heat dissipation channel and air exhauster intercommunication.

Further, the shell comprises a shell and a cover plate, wherein a buckle is arranged on the shell, a clamping groove is formed in the cover plate, and the buckle is matched with the clamping groove.

Furthermore, the number of the heat dissipation devices is multiple, and the heat dissipation devices are arranged at intervals.

Further, including temperature-detecting device, temperature-detecting device includes temperature sensor, temperature sensor is connected with controlling means electricity, temperature sensor sets up between solar energy component and adhesive linkage.

The beneficial effect of this application lies in:

the application provides a cooling system of solar energy power generation piece and solar energy power generation road, the temperature of solar energy circuit piece is reduced through controlling means and heat abstractor, solar energy power generation subassembly's generating efficiency and life have been ensured, through setting up tie coat and buffer layer, the deformation that euphotic layer and solar energy subassembly produced because thermal stress has been reduced, the resistance to compression and the anti-shear capacity of road bed layer and buffer layer are improved, delay the ageing of road bed layer and buffer layer, the life of solar energy power generation road has been improved.

In addition, the design principle of the application is reliable, the structure is simple, and the application prospect is very wide.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic cross-sectional view of a solar power generation block according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a solar power generation block with a heat dissipation system in an embodiment of the present application.

Fig. 3 is a schematic structural diagram of a heat dissipation device according to an embodiment of the present application.

Fig. 4 is an electrical block diagram of a heat dissipation system of a solar power road according to an embodiment of the present application.

In the figure, 1, a light-transmitting layer, 2, a solar module, 3, an adhesive layer, 4, a buffer layer, 5, a roadbed layer, 6, a controller, 7, a processing module, 8, an energy storage battery, 9, a groove, 10, a lighting module, 11, a light sensor, 12, a shell, 13, a heat dissipation plate, 14, a heat dissipation fin, 15, a fan, 16, a heat dissipation channel, 121, a shell, 122 and a cover plate.

Detailed Description

In order to make those skilled in the art better understand the technical solutions in the present application, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The following explains key terms appearing in the present application.

The solar power generation block comprises a road block base body, a road block module and a controller 6, wherein the road block base body comprises a light-transmitting layer 1, a solar component 2, a bonding layer 3, a buffer layer 4 and a road base layer 5 which are sequentially arranged from top to bottom; the light-transmitting layer 1 is located on the light-facing side of the solar module 2, and the light-receiving surface of the solar module 2 faces upwards. The upper surface of the light transmitting layer 1 is subjected to rough treatment so as to ensure that the light transmitting layer 1 can meet the safety of driving and pedestrians. The friction coefficient of the upper surface of the light-transmitting layer 1 after treatment is more than 0.6. The adhesive layer 3 is located on the backlight side of the solar module 2. The light-transmitting layer 1 is made of a light-transmitting material such as glass.

The controller 6 is electrically connected with the solar component 2; the upper portion of the roadbed layer 5 is provided with at least one groove 9, and the euphotic layer 1, the solar component 2, the bonding layer 3 and the buffer layer 4 are sequentially arranged in the groove 9. The solar module 2 is connected with the groove 9 through the bonding layer 3. The light-transmitting layer 1 covers the inside and the bottom surface of the groove 9. The solar module 2 may be partially or completely located in the groove 9. In this embodiment, all the solar modules 2 are located in the grooves 9, and the light-transmitting layer 1 covers the grooves 9.

The buffer layer 4 is laid in the groove 9, the thickness of the buffer layer 4 is 10-20mm, the buffer layer 4 is made of polycarbonate, and the buffer layer 4 plays a role in shock absorption and buffering. The bonding layer 3 is laid on the buffer layer 4, the thickness of the bonding layer 3 is 5-10mm, and the bonding layer 3 is used for preventing water vapor from entering the solar module 2 through the roadbed layer 5 and playing a role in protecting the solar module 2. Buffer layer 4 and tie coat 3 use mutually to cooperate can reach fine impact resistance, can prevent that road surface load from causing the damage to solar energy component 2.

The number and shape of the grooves 9 can be set according to actual requirements, and the bottoms of the grooves 9 can be planar or curved. In this embodiment, the cross section of the groove 9 is rectangular. In this embodiment, in order to improve the load-bearing strength of the roadbed 5, the roadbed 5 is made of concrete. In other embodiments, the road bed layer 5 may also be made of epoxy resin, polyurethane resin, or other materials.

The road bed layer 5 is provided with a placing groove for placing the controller 6, the road block module comprises a processing module 7 and a detection module which are connected with each other, and the processing module 7 is electrically connected with the controller 6. Including energy storage battery 8, energy storage battery 8 sets up in the standing groove, energy storage battery 8 with controller 6 is connected, controller 6 is used for carrying out the charge-discharge for solar energy component 2 and energy storage battery 8. The controller 6 is used for controlling the solar component 2 to supply power to the road block module in daytime and supplying power to the energy storage battery 8, and the electric energy is supplied to the road block module by the energy storage battery 8 through the controller 6 in night.

In this embodiment, the solar module 2 generates electric energy by a photoelectric effect after being irradiated by light. The solar module 2 is a flexible thin film solar module, and in other embodiments, the solar module 2 may also be a rigid thin film solar module.

The road block module comprises an illumination module 10, the illumination module 10 is arranged on one side of the periphery of the road block base body, and the illumination module 1 adopts a lamp strip. The lighting module 10 is electrically connected to the processing module 7. The processing module 7 is configured to receive a signal from the detection module to control a working state of the lighting module 10, and can set different logic control programs according to different control requirements, so as to control the lighting module 10 to be turned on, color control, and brightness adjustment, thereby improving the visual experience effect.

The detection module comprises a light sensor 11 for detecting a light signal, wherein the light sensor 11 is positioned on the backlight side surface of the light-transmitting layer 1 and is connected with the processing module 7. In order to prevent the light sensor 11 from being blocked, it is preferable that the light sensor 11 is arranged side by side with the solar module 2. Of course, in other embodiments, the optical sensor 11 may be disposed at any position of the road block base body as long as the optical sensor 11 can detect the optical signal.

Can increase the shading monitoring, judge the shading condition after the data transmission, if the car shelters from then need not to handle, if the transmittance descends, then start the self-cleaning system, if the cleaning device that the road surface set up like mode such as water spray, blow preliminary clearance, if still unable elimination, start alarm system, suggestion manual cleaning.

The invention provides a heat dissipation system of a solar power generation road, which comprises a control device, a heat dissipation device, electric equipment and a plurality of solar power generation blocks which are sequentially connected, wherein the control device is respectively and electrically connected with the solar power generation blocks, the electric equipment and the heat dissipation device; and the euphotic layer 1 is provided with a mounting groove for placing a heat dissipation device. The number of the heat dissipation devices is multiple, the number of the corresponding mounting grooves is also multiple, and the plurality of heat dissipation devices are arranged in the mounting grooves at intervals. The wiring groove is arranged in the euphotic layer 1, and the arrangement and connection of the grooves 9 and the mounting grooves in guiding are realized through the wiring groove.

The heat dissipation device comprises a shell 12, a heat dissipation plate 13 arranged in the shell 12, a plurality of heat dissipation fins 14 connected with each other and a fan 15 arranged on the upper part of the heat dissipation fins 14, wherein the plurality of heat dissipation fins 14 are arranged on the heat dissipation plate 13 at intervals.

The housing 12 is of a hollow rectangular parallelepiped structure, the housing 12 includes a housing 121 and a cover plate 122, the housing 121 includes a bottom plate and a side plate for connecting the cover plate 122 and the bottom plate. The shell 121 is provided with a buckle, the cover plate 122 is provided with a clamping groove, and the buckle is matched with the clamping groove.

Heating panel 13 is fixed on the bottom plate, the bottom welding of fin 14 is on heating panel 13, fan 15 includes casing, wind wheel and the relative casing pivoted motor of drive wind wheel, is equipped with heat dissipation channel on the casing, and 16 levels of heat dissipation channel set up, avoid rainwater or other road surface ponding to enter into in the heat dissipation channel. The heat dissipation channel 16 is communicated with an exhaust fan or an exhaust fan, and the exhaust fan or the exhaust fan is arranged outside the road block base body and used for guiding heat in the heat dissipation channel out to the outside and cooling the heat dissipation channel.

The housing is fixed to a cover plate 122 of the housing 12, and the wind wheel is rotatably disposed in the inner cavity of the housing. The transparent layer 1 is provided with a heat dissipation channel 16 for communicating the housing 12 with the outside, and the heat dissipation channel 16 is used as a heat dissipation channel at the bottom of the fan 15. The heat dissipation channel 16 is communicated with the outside air, heat generated by the solar module is transmitted to the casing where the fan is located through the heat dissipation plate and the heat dissipation fins, and the fan rotates to output the heat in the casing to the outside atmosphere through the heat dissipation channel. The heat that solar energy power generation circuit piece produced is leading-in to the heat dissipation channel for the temperature in the heat dissipation channel is higher than the outside air temperature, thereby forms the air convection between heat dissipation channel and the external world, thereby plays radiating effect, and then has improved the life of solar energy power generation piece.

Because fan 15 is laid in euphotic layer 1, in order to overhaul fan 15, euphotic layer 1 on fan 15 upper portion adopts the heat dissipation apron structure that has certain printing opacity function, and heat dissipation apron and euphotic layer 1 adopt the mode of lock joint to fix, and both can dismantle the connection, are convenient for overhaul fan 15. The use of the heat-dissipating cover plate also improves the heat-dissipating effect of the fan 15.

The heat dissipation system of the solar power generation road comprises a temperature detection device, wherein the temperature detection device comprises a temperature sensor, the temperature sensor is electrically connected with a control device, and the temperature sensor is arranged between a solar component 2 and an adhesive layer 3. The temperature sensor is used for detecting the temperature between the solar module 2 and the adhesive layer 3, when the temperature value detected by the temperature sensor reaches the highest preset temperature value, the highest preset temperature value is 40 degrees, the control device controls the fan 15 to start, when the temperature value detected by the temperature sensor is lower than the lowest preset value, the lowest preset temperature value is 25 degrees, and the control device controls the fan 15 to stop working, so that the effect of reducing energy consumption is achieved.

The implementation manner of the embodiment is as follows:

under the sunlight irradiation condition, sunlight irradiates the solar module through the euphotic layer, part of electric energy generated by the solar module is used for the road block module, the controller, the heat dissipation device and the electric equipment, and part of the electric energy is stored in the energy storage battery. When the temperature value that temperature sensor detected reached preset temperature value, controlling means control fan 15 started, cooled down solar energy component, exported the heat to the outside air in through heat dissipation channel. When the temperature value detected by the temperature sensor is lower than the lowest preset value, the lowest preset temperature value is 25 ℃, and the control device controls the fan 15 to stop working, so that the effect of reducing energy consumption is achieved.

The application provides a cooling system of solar energy power generation piece and solar energy power generation road, the temperature of solar energy circuit piece is reduced through controlling means and heat abstractor, solar energy power generation subassembly's generating efficiency and life have been ensured, through setting up tie coat and buffer layer, the deformation that euphotic layer and solar energy subassembly produced because thermal stress has been reduced, the resistance to compression and the anti-shear capacity of road bed layer and buffer layer are improved, delay the ageing of road bed layer and buffer layer, the life of solar energy power generation road has been improved.

Although the present application has been described in detail with reference to the accompanying drawings in conjunction with the preferred embodiments, the present application is not limited thereto. Various equivalent modifications or substitutions can be made on the embodiments of the present application by those skilled in the art without departing from the spirit and scope of the present application, and these modifications or substitutions are intended to be covered by the present application/any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. A solar power generation block, characterized by: the road block comprises a road block base body, a road block module and a controller (6), wherein the road block base body comprises a light-transmitting layer (1), a solar component (2), a bonding layer (3), a buffer layer (4) and a road base layer (5) which are sequentially arranged from top to bottom; the light receiving surface of the solar component (2) faces upwards, and the controller (6) is electrically connected with the solar component (2); the upper part of the road base layer (5) is provided with at least one groove (9), and the solar component (2) is connected with the groove (9) through the bonding layer (3); the road bed layer (5) is internally provided with a placing groove for placing the controller (6), the road block module comprises a processing module (7) and a detection module which are connected with each other, and the processing module (7) is electrically connected with the controller (6).

2. The solar power generation block of claim 1, wherein: the light-transmitting layer (1) covers the groove (9).

3. The solar power generation block of claim 1, wherein: the road block module comprises an illuminating module (10), the illuminating module (10) is arranged on one side of the periphery of the road block base body, and the illuminating module (10) is electrically connected with the processing module (7).

4. The solar power generation block of claim 1, wherein: the detection module comprises a light sensor (11) for detecting a light signal, wherein the light sensor (11) is positioned on the backlight side surface of the light-transmitting layer (1) and is electrically connected with the processing module (7).

5. The solar power generation block of claim 1, wherein: including energy storage battery (8), energy storage battery (8) set up in the standing groove, energy storage battery (8) with controller (6) are connected, controller (6) are used for carrying out the charge-discharge for solar energy component (2) and energy storage battery (8).

6. The utility model provides a cooling system of solar energy power generation road which characterized in that: the solar energy power generation device comprises a control device, a heat dissipation device, electric equipment and the solar energy power generation block as claimed in claims 1-5, wherein the control device is electrically connected with the solar energy power generation block, the electric equipment and the heat dissipation device respectively; and the euphotic layer (1) is provided with a mounting groove for placing a heat dissipation device.

7. The heat dissipation system for a solar power road as defined in claim 6, wherein: the heat dissipation device comprises a shell (12), a heat dissipation plate (13) arranged in the shell (12), a plurality of heat dissipation fins (14) connected with each other and a fan (15) arranged on the upper portion of the heat dissipation fins (14), wherein the heat dissipation fins (14) are arranged on the heat dissipation plate (13) at intervals, a heat dissipation channel (16) used for communicating the shell (12) with the outside is arranged in the light transmission layer (1), and the heat dissipation channel (16) is communicated with an exhaust fan.

8. The heat dissipation system for a solar power road as defined in claim 7, wherein: the shell (12) comprises a shell (121) and a cover plate (122), wherein a buckle is arranged on the shell (121), a clamping groove is formed in the cover plate (122), and the buckle is matched with the clamping groove.

9. The heat dissipation system for a solar power road as defined in claim 7, wherein: the number of the heat dissipation devices is multiple, and the heat dissipation devices are arranged at intervals.

10. The heat dissipation system for a solar power road as defined in claim 6, wherein: the solar module temperature detection device comprises a temperature detection device, wherein the temperature detection device comprises a temperature sensor, the temperature sensor is electrically connected with a control device, and the temperature sensor is arranged between a solar module (2) and an adhesive layer (3).

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