CN206759362U - A kind of heat insulation and dissipation photovoltaic tile - Google Patents

Abstract

The utility model discloses a kind of heat insulation and dissipation photovoltaic tile, including tile substrate and solar module, tile substrate and the intersection of radiating groove are provided with least one set of heat-shield mechanism, every group of heat-shield mechanism includes the first thermal insulation board and the second thermal insulation board, the upper surface of first thermal insulation board is provided with multiple sawtooth, the lower surface of second thermal insulation board is provided with multiple grooves being adapted with sawtooth, first thermal insulation board, second thermal insulation board, the both sides of tile substrate are equipped with horizontal channel, first thermal insulation board and the fitting of the second thermal insulation board are placed, forming curves passage between sawtooth and groove, curved channel is connected by horizontal channel with the external world；Tile substrate is provided with wind-force mechanism, and wind-force mechanism is connected with solar cell module.Simple in construction using the utility model, cost is low, not only good heat dissipation effect itself, improves the generated output of solar module, but also has good effect of heat insulation, is provided with the house of the photovoltaic tile, room temperature can reduce by 3 10 DEG C.

Description

A kind of heat insulation and dissipation photovoltaic tile

Technical field

It the utility model is related to photovoltaic apparatus field, more particularly to a kind of heat insulation and dissipation photovoltaic tile.

Background technology

BIPV（Building Integrated PV, BIPV）, it is that one kind that applied solar energy generates electricity is new Concept, it is exactly simply to provide photovoltaic array to electric power installed in the building enclosure outer surface of building.However, one The success or not of individual building, key point are the appearance of building, accordingly, past for aesthetic appeal in BIPV buildings It is past to need that the terminal box of solar module is saved or stashed so that bypass diode lacks the protection of terminal box, because This needs bypass diode and connecting line being hidden in curtain wall construction, to prevent direct sunlight and rain erosion.

At present, the common building integrated photovoltaic component of in the market includes double-sided glass component, photovoltaic tile etc., product form Single, cost is higher, and cost of electricity-generating is high, and outward appearance is not enough coordinated with existing building, absent standardized, for architect, this A little products are difficult to meet complicated and diversified design requirement, therefore, it is necessary to develop more photovoltaic buildings one with versatility Body component, to meet BIPV market gradually increased demand.In addition, existing photovoltaic tile generally with clay, Clay or concrete are substrate, and after having made substrate, solar cell is directly encapsulated into substrate, are short of ventilation and heat knot Structure, surface temperature quickly raises after solar cell is irradiated for a long time by sunlight, simultaneously as the subzero temperature of crystal-silicon solar cell Coefficient feature is spent, temperature is often increased once, the decrease in efficiency 0.4% ~ 0.6% of solar cell, i.e., as temperature raises, electricity Pond generated energy rapid decrease, the power generation performance and economic benefit of photovoltaic system are had a strong impact on.

Utility model content

Technical problem to be solved in the utility model is, there is provided a kind of heat insulation and dissipation photovoltaic tile, simple in construction, cost Low, not only good heat dissipation effect itself, improves the generated output of solar module, but also has good effect of heat insulation, peace House equipped with the photovoltaic tile, room temperature can reduce 3-10 DEG C.

Technical problem to be solved in the utility model also resides in, there is provided a kind of heat insulation and dissipation photovoltaic tile, more than 35 DEG C Hot weather when, the house of the photovoltaic tile is installed, room temperature can reduce 6-8 DEG C.

Technical problem to be solved in the utility model also resides in, there is provided a kind of heat insulation and dissipation photovoltaic tile, more than 40 DEG C Superhigh temperature weather when, the house of the photovoltaic tile is installed, room temperature can reduce 8-10 DEG C.

In order to solve the above-mentioned technical problem, the utility model provides a kind of heat insulation and dissipation photovoltaic tile, including tile substrate And the solar module being fixed in the tile substrate, wherein, the solar module includes cell panel and terminals Son, the cell panel are located at the top of the tile substrate, and the bottom of the tile substrate is provided with radiating groove, and the radiating is recessed Groove is located at the lower section of the cell panel；

The tile substrate and the intersection of radiating groove are provided with least one set of heat-shield mechanism, and every group of heat-shield mechanism includes the One thermal insulation board and the second thermal insulation board, the upper surface of first thermal insulation board are provided with multiple sawtooth, the following table of second thermal insulation board Face is provided with multiple grooves being adapted with the sawtooth, and first thermal insulation board, the second thermal insulation board, the both sides of tile substrate are all provided with There is horizontal channel, the first thermal insulation board and the second thermal insulation board fitting is placed, forming curves passage between the sawtooth and groove, The curved channel is connected by horizontal channel with the external world；

The tile substrate is provided with wind-force mechanism, and the wind-force mechanism is on the horizontal extension line of horizontal channel, institute The height for stating wind-force mechanism is adapted with horizontal channel, and the wind-force mechanism is connected with solar cell module, the sun Energy battery provides electric energy in wind-force mechanism.

As the improvement of such scheme, the sawtooth is shaped as right angled triangle, the angle point of the right angled triangle Wei not be 30-40 °, 90 °, 50-60 °.

As the improvement of such scheme, the width of the horizontal channel is 5-20mm；The width of the curved channel is 3- 15mm。

As the improvement of such scheme, the surface of the curved channel is provided with micro-structural.

As the improvement of such scheme, the micro-structural is arc convex.

As the improvement of such scheme, first thermal insulation board it is compound by glass layer and Dike aluminium foil thermal insulation layers and Into；Second thermal insulation board is combined by glass layer and Dike aluminium foil thermal insulation layers.

As the improvement of such scheme, the tile substrate and solar module are split-type structural.

As the improvement of such scheme, the top of the tile substrate is provided with the mounting groove for being used for installing the cell panel；

Pass through sealant sealing between solar module and the tile substrate.

As the improvement of such scheme, the solar module also includes being used for the wiring for encapsulating the binding post Box；

The middle part of the tile substrate is provided with the cavity for being used for installing the terminal box.

As the improvement of such scheme, a lateral edges of the tile substrate, which are provided with, takes groove.

Implement the beneficial effects of the utility model to be：

The utility model heat insulation and dissipation photovoltaic tile includes tile substrate and solar module.

Wherein, the utility model can make the bottom shape of tile substrate by setting radiating groove in the bottom of tile substrate Into the heat dissipation channel for being easy to air flow, so as to effectively guide the flowing of hot and cold air, accelerate the speed of air flow, drop The temperature of low tile substrate and solar module, radiating efficiency is improved, improve the generated output and economy of solar module Benefit.

Meanwhile tile substrate and the intersection of radiating groove are provided with least one set of heat-shield mechanism, every group of heat-shield mechanism includes First thermal insulation board and the second thermal insulation board, the upper surface of first thermal insulation board are provided with multiple sawtooth, under second thermal insulation board Surface is provided with multiple grooves being adapted with the sawtooth, and first thermal insulation board, the second thermal insulation board, the both sides of tile substrate are equal Provided with horizontal channel, the first thermal insulation board and the second thermal insulation board fitting is placed, and forming curves lead between the sawtooth and groove Road, the curved channel are connected by horizontal channel with the external world.The utility model by above-mentioned heat insulation structural, have it is good every Thermal effect, is provided with the house of the photovoltaic tile, and room temperature can reduce 3-10 DEG C.

The tile substrate is provided with wind-force mechanism, and the wind-force mechanism is connected with solar cell module, it is described too Positive energy battery provides electric energy in wind-force mechanism.Wind-force mechanism is rotated using solar energy, both can preferably reduce tile base Bottom and the temperature of solar module, radiating efficiency is improved, so as to improve the generated output of solar module, furthermore, it is possible to Further improve effect of heat insulation.

Brief description of the drawings

Fig. 1 is the first embodiment front view of the utility model photovoltaic tile；

Fig. 2 is Fig. 1 sectional view；

Fig. 3 is the schematic diagram of heat-shield mechanism；

Fig. 4 is the enlarged drawing of A portions shown in Fig. 3；

Fig. 5 is the second embodiment sectional view of the utility model photovoltaic tile；

Fig. 6 is the 3rd embodiment sectional view of the utility model photovoltaic tile；

Fig. 7 is the fourth embodiment front view of the utility model photovoltaic tile.

Embodiment

It is new to this practicality below in conjunction with accompanying drawing to make the purpose of this utility model, technical scheme and advantage clearer Type is described in further detail.Only this state, the utility model occur in the text or will appear from upper and lower, left and right, it is preceding, Afterwards, the orientation such as inside and outside word, only on the basis of accompanying drawing of the present utility model, it is not to specific restriction of the present utility model.

The first embodiment of the utility model photovoltaic tile, including tile substrate 1 are shown referring to Fig. 1 and Fig. 2, Fig. 1 and Fig. 2 And the solar module being fixed in the tile substrate 1, wherein, the solar module includes cell panel 2 and wiring Terminal 3, the cell panel 2 are located at the top of the tile substrate 1, and the bottom of the tile substrate 1 is provided with radiating groove 4, institute State the lower section that radiating groove 4 is located at the cell panel 1.

It should be noted that the tile substrate 1 of photovoltaic tile generally passes through cast molding method by materials such as ceramics, concrete It is made.During installation, photovoltaic tile is generally fixed to have on the roof of certain slope, and photovoltaic tile surface is under sun exposure in temperature Rise, correspondingly, as temperature raises, cell power generation amount rapid decrease, had a strong impact on the power generation performance and economy of photovoltaic system Benefit.

The bottom of tile substrate 1 is provided with radiating groove 4 in the utility model, so as to form air flow heat dissipation channel.Make Used time, the heat that tile substrate 1 is absorbed under sun exposure are transmitted to the back side of tile substrate 1 through the surface of tile substrate 1, make to dissipate Air themperature rise in hot groove 4, now, hot-air flow up along radiating groove 4 and by the skies above radiating groove 4 Gas outlet outflow, cold air are then entered by the air intake of the lower section of radiating groove 4, so as to accelerate air flow, make tile substrate 1 The air themperature rapid decrease at the back side, so as to play a part of cooling to tile substrate 1 and solar module.Meanwhile The radiating groove 4 is alternatively arranged as the link slot of binding post 3, facilitates the layout of binding post 3.The groove of the radiating groove 4 Height is preferably 10 ~ 20cm, but is not limited system.

Preferably, the radiating groove 4 includes multiple grooves be arrangeding in parallel, can be effectively increased tile substrate 1 and air Contact area, improve radiating efficiency；Meanwhile the groove by respectively be arrangeding in parallel forms multiple independences at the back side of tile substrate 1 Heat dissipation channel, so as to effectively guide the flowing of hot and cold air, accelerate the speed of air flow.

Referring to Fig. 3 and Fig. 4, the tile substrate and the intersection of radiating groove are provided with least one set of heat-shield mechanism 10, often Group heat-shield mechanism includes the first thermal insulation board 11 and the second thermal insulation board 12, and the upper surface of first thermal insulation board 11 is provided with multiple sawtooth 13, the lower surface of second thermal insulation board 12 is provided with multiple grooves 14 being adapted with the sawtooth 13, first thermal insulation board 11st, the second thermal insulation board 12, the both sides of tile substrate 1 are equipped with horizontal channel 15, the thermal insulation board of the first thermal insulation board 11 and second 12 fittings are placed, and forming curves passage 16 between the sawtooth 13 and groove 14, the curved channel 16 passes through horizontal channel 15 It is connected with the external world.

First thermal insulation board 11 is combined by glass layer and Dike aluminium foil thermal insulation layers；Second thermal insulation board 12 It is combined by glass layer and Dike aluminium foil thermal insulation layers.

Wherein, Dike aluminium foils thermal insulating coiled material is passed through special by aluminium foil veneer+polyethylene film+through weft-knitted fabric+metal deposit The material that forms of technique and technology PUR lamination of industry, has high reflectance, be to separate based on heat radiation, and can be in roofing The air space with aluminium foil is formed between construction, has the function that heat-insulation and heat-preservation.With more waterproof, protection against the tide, the function every vapour.

Horizontal channel 15 of the present utility model, curved channel 16 connect, and form heat insulation path, are filled in heat insulation path Air dielectric, moreover, the solar radiation absorbility factor of Dike aluminum foil coiled materials（Normal direction total radiation emissivity）0.07, radiation heat is very It is few.Therefore, the utility model has good effect of heat insulation, is provided with the house of the photovoltaic tile, and room temperature can reduce 3-10 ℃.Principle of the present utility model is as follows：

--- tile radiates heat to infrared magnetic wave --- heat energy hits tile and elevated the temperature --- to the sun as thermal source Can --- heat energy shock aluminium foil raises surface temperature --- emissivity pole for the second thermal insulation board that aluminium foil and glass fibre are formed It is low, --- heat energy is significantly reduced by curved channel again --- aluminium foil and the glass fibre that radiate a small amount of heat energy formed first The emissivity of thermal insulation board is extremely low, radiates a small amount of heat energy --- the indoor comfortable environment temperature of holding.

The tile substrate is provided with wind-force mechanism 17, and the wind-force mechanism 17 is located at the horizontal extension line of horizontal channel 15 On, the height of the wind-force mechanism 17 is adapted with horizontal channel 15, and the wind-force mechanism 17 is connected with solar cell module Connect, the solar cell provides electric energy in wind-force mechanism 17.Wind-force mechanism is rotated using solar energy, environmental protection and energy saving, nothing Extra Supply electric energy is needed, exploitativeness is strong, both can preferably reduce tile substrate and the temperature of solar module, improves and dissipates The thermal efficiency, so as to improve the generated output of solar module, generated output can improve more than 5%.Furthermore, it is possible to further Improve effect of heat insulation.The wind-force mechanism 17 can be small-sized windmill, and it is designed according to prior art.

The sawtooth is shaped as triangle, and groove is shaped as triangle.The shape of sawtooth and groove is set to triangle, The area that heat energy contacts with heat-shield mechanism can be increased, while can also increase the volume reflection of heat energy, improve effect of heat insulation.

Preferably, the sawtooth is shaped as right angled triangle, the angle of the right angled triangle is respectively 30-40 °, 90°、50-60°.More preferably, the sawtooth is shaped as right angled triangle, and the angle of the right angled triangle is respectively 30- 35°、90°、55-60°.Optimal, the sawtooth is shaped as right angled triangle, and the angle of the right angled triangle is respectively 30°、90°、60°。

Further, the width of the horizontal channel 15 is 5-20mm；The width of the curved channel 16 is 3-15mm.It is preferred that , the width of the horizontal channel 15 is 8-15mm；The width of the curved channel 16 is 5-12mm.More preferably, the water The width of flat passage 15 is 10-12mm；The width of the curved channel 16 is 7-10mm.

The horizontal channel 15 can be equal with the width of curved channel 16, can also be unequal.It is used as this Utility model preferred embodiment, the horizontal channel 15 are equal with the width of curved channel 16.

The utility model selects above-mentioned size, rational in infrastructure, and photovoltaic tile keeps certain intensity, ensures the firm of installation Property, it moreover, from above-mentioned size, can further improve effect of heat insulation, during hot weather more than 35 DEG C, be provided with described The house of photovoltaic tile, room temperature can reduce 6-8 DEG C.

Further, the surface of the curved channel 16 is provided with micro-structural.The micro-structural is preferably arc convex.Need Bright, the projection can also be triangle, rhombus or irregular shape etc..The surface of the curved channel 16 is provided with micro- Structure, increases the contact area of heat and heat-barrier material, and strengthens the reflecting effect of heat, further improves effect of heat insulation, During more than 38 DEG C of superhigh temperature weather, the house of the photovoltaic tile is installed, room temperature can reduce 8-10 DEG C.

Referring to Fig. 5, Fig. 5 shows the second embodiment of the utility model photovoltaic tile, with the first embodiment shown in Fig. 2 not With tile substrate described in the present embodiment 1 and solar module are split-type structural, make solar module and tile Between substrate 1 independently of each other, convenient dismounting.Meanwhile tile substrate 1 and the split-type structural of solar module, be advantageous to too The standardization of positive battery component and tile substrate 1, for the condition of providing convenience promotes the use of a large area.

Specifically, the top of the tile substrate 1 is provided with the mounting groove for being used for installing the cell panel 2, the sun electricity Sealed between pond component and tile substrate 1 by fluid sealant 5, there is good waterproof insulation effect.When solar module is sent out During raw damage, solar module can be pulled down from tile substrate 1, the solar module more renewed, save maintenance cost.

Referring to Fig. 6, Fig. 6 shows the 3rd embodiment of the utility model photovoltaic tile, with the second embodiment shown in Fig. 5 not Also include being used for the terminal box 6 for encapsulating the binding post 3 with, solar module described in the present embodiment, described watt The middle part of piece substrate 1 is provided with the cavity for being used for installing the terminal box 6, and the envelope of terminal box 6 can be effectively realized by the cavity Dress.Therefore, compared with prior art, terminal box 6 is embedded in inside tile substrate 1 by the utility model, before terminal box 6 is retained Put, can both prevent terminal box 6 by direct sunlight and rain erosion, and do not influence the outward appearance of photovoltaic tile, applicability is stronger.

Referring to Fig. 7, Fig. 7 shows the fourth embodiment of the utility model photovoltaic tile, with the first embodiment shown in Fig. 1 not With a lateral edges of tile substrate described in the present embodiment 1, which are provided with, takes groove 7, for the connection between photovoltaic tile and waterproof.

The utility model is expanded on further with specific embodiment below

Embodiment 1

A kind of photovoltaic tile, including tile substrate and the solar module that is fixed in the tile substrate, the sun Battery component includes cell panel and binding post, and the cell panel is located at the top of the tile substrate, the tile substrate Bottom is provided with radiating groove, and the radiating groove is located at the lower section of the cell panel；The tile substrate and the friendship of radiating groove At least one set of heat-shield mechanism is provided with boundary, every group of heat-shield mechanism includes the first thermal insulation board and the second thermal insulation board, and described first is heat-insulated The upper surface of plate is provided with multiple sawtooth, and the lower surface of second thermal insulation board is provided with multiple grooves being adapted with the sawtooth, First thermal insulation board, the second thermal insulation board, the both sides of tile substrate are equipped with horizontal channel, first thermal insulation board and second every Hot plate fitting is placed, forming curves passage between the sawtooth and groove, and the curved channel is connected by horizontal channel with extraneous Connect.

First thermal insulation board is combined by glass layer and Dike aluminium foil thermal insulation layers；Second thermal insulation board is by glass Glass fibrous layer and Dike aluminium foil thermal insulation layers are combined.

The width of the horizontal channel is 5mm；The width of the curved channel is 3mm.The sawtooth is shaped as right angle Triangle, the angle of the right angled triangle is respectively 30 °, 90 °, 60 °.

The tile substrate is provided with wind-force mechanism, and the wind-force mechanism is on the horizontal extension line of horizontal channel, institute The height for stating wind-force mechanism is adapted with horizontal channel, and the wind-force mechanism is connected with solar cell module, the sun Energy battery provides electric energy in wind-force mechanism.

Embodiment 2

As different from Example 1, the width of the horizontal channel is 8mm；The width of the curved channel is 8mm.Institute The right angled triangle that is shaped as of sawtooth is stated, the angle of the right angled triangle is respectively 35 °, 90 °, 55 °.

Embodiment 3

As different from Example 1, the width of the horizontal channel is 10mm；The width of the curved channel is 10mm. The sawtooth is shaped as right angled triangle, and the angle of the right angled triangle is respectively 32 °, 90 °, 58 °.

Embodiment 4

As different from Example 1, the width of the horizontal channel is 15mm；The width of the curved channel is 15mm. And the surface of the curved channel is provided with micro-structural.The sawtooth is shaped as right angled triangle, the folder of the right angled triangle Angle is respectively 34 °, 90 °, 56 °.

Embodiment 5

As different from Example 1, the width of the horizontal channel is 20mm；The width of the curved channel is 15mm. And the surface of the curved channel is provided with micro-structural.The sawtooth is shaped as right angled triangle, the folder of the right angled triangle Angle is respectively 38 °, 90 °, 52 °.

Embodiment 6

As different from Example 1, the width of the horizontal channel is 12mm；The width of the curved channel is 12mm. And the surface of the curved channel is provided with micro-structural.The sawtooth is shaped as right angled triangle, the folder of the right angled triangle Angle is respectively 40 °, 90 °, 50 °.

Embodiment 1-6 photovoltaic tile is applied to the architectural of different zones, the indoor temperature and outdoor temperature of building are such as Under：

First group of data is coastal area（Guangdong）Building, second group of data be it is interior ground area（Hunan）Building, Three groups of data are highlands（Xinjiang）Building, the 4th group of data are interior ground area（Chongqing）Building.

From the foregoing, it will be observed that the utility model is simple in construction, cost is low, not only good heat dissipation effect itself, improves solar panel The generated output of part, but also there is good effect of heat insulation, the house of the photovoltaic tile is installed, room temperature can reduce 3-10 ℃。

Described above is preferred embodiment of the present utility model, it is noted that for the ordinary skill of the art For personnel, on the premise of the utility model principle is not departed from, some improvements and modifications can also be made, these are improved and profit Decorations are also considered as the scope of protection of the utility model.

Claims (10)

1. a kind of heat insulation and dissipation photovoltaic tile, including tile substrate and the solar module that is fixed in the tile substrate, its It is characterised by, the solar module includes cell panel and binding post, and the cell panel is located at the top of the tile substrate Portion, the bottom of the tile substrate are provided with radiating groove, and the radiating groove is located at the lower section of the cell panel；

The tile substrate and the intersection of radiating groove are provided with least one set of heat-shield mechanism, every group of heat-shield mechanism including first every Hot plate and the second thermal insulation board, the upper surface of first thermal insulation board are provided with multiple sawtooth, and the lower surface of second thermal insulation board is set There are multiple grooves being adapted with the sawtooth, first thermal insulation board, the second thermal insulation board, the both sides of tile substrate are equipped with water Flat passage, the first thermal insulation board and the second thermal insulation board fitting are placed, and forming curves passage between the sawtooth and groove is described Curved channel is connected by horizontal channel with the external world；

The tile substrate is provided with wind-force mechanism, and the wind-force mechanism is on the horizontal extension line of horizontal channel, the wind The height of force mechanisms is adapted with horizontal channel, and the wind-force mechanism is connected with solar cell module, the solar-electricity Pond provides electric energy in wind-force mechanism.

2. heat insulation and dissipation photovoltaic tile as claimed in claim 1, it is characterised in that the sawtooth is shaped as right angled triangle, The angle of the right angled triangle is respectively 30-40 °, 90 °, 50-60 °.

3. heat insulation and dissipation photovoltaic tile as claimed in claim 1, it is characterised in that the width of the horizontal channel is 5-20mm； The width of the curved channel is 3-15mm.

4. heat insulation and dissipation photovoltaic tile as claimed in claim 1, it is characterised in that the surface of the curved channel is provided with micro- knot Structure.

5. heat insulation and dissipation photovoltaic tile as claimed in claim 4, it is characterised in that the micro-structural is arc convex.

6. heat insulation and dissipation photovoltaic tile as claimed in claim 1, it is characterised in that first thermal insulation board by glass layer and Dike aluminium foil thermal insulation layers are combined；Second thermal insulation board is combined by glass layer and Dike aluminium foil thermal insulation layers.

7. the heat insulation and dissipation photovoltaic tile as described in claim any one of 1-6, it is characterised in that the tile substrate and sun electricity Pond component is split-type structural.

8. the heat insulation and dissipation photovoltaic tile as described in claim any one of 1-6, it is characterised in that set at the top of the tile substrate There is the mounting groove for installing the cell panel；

Pass through sealant sealing between solar module and the tile substrate.

9. the heat insulation and dissipation photovoltaic tile as described in claim any one of 1-6, it is characterised in that the solar module also wraps Include the terminal box for encapsulating the binding post；

The middle part of the tile substrate is provided with the cavity for being used for installing the terminal box.

10. the heat insulation and dissipation photovoltaic tile as described in claim any one of 1-6, it is characterised in that the side of the tile substrate Edge is provided with and takes groove.