CN206289892U - A kind of controllable temperature heating and the snow melt electricity generation module and snow melting roof system of solar power generation - Google Patents

Abstract

The application be related to a kind of controllable temperature generate heat and solar power generation snow melt electricity generation module, described snow melt electricity generation module includes heating board and is arranged on the solar power generation film of described heating board upper surface, and high-temperature probe is provided with described heating board.Snow melt electricity generation module described herein and snow melting roof system, have laid solar power generation film on heating board, generate heat to melting accumulated snow after heating board can be powered when snowing heavily in winter.When there is sunlight to irradiate, solar power generation film can generate electricity.Only need to just be played in roofing snow melt electricity generation module described herein the function of snow melt and solar power generation, the material of saving and space, the process on convenient-laying roof.

Description

A kind of controllable temperature heating and the snow melt electricity generation module and snow melting roof of solar power generation System

Technical field

The application is related to the snow melt electricity generation module and snow melting roof system of a kind of controllable temperature heating and solar power generation.

Background technology

In the prior art, the roof in northern winter is crushed in heavy snow day volume by accumulated snow, so would generally exist on roof Heating board is laid to melt the accumulated snow on roof.Solar power generation film is equipped with some roofs in the prior art, is used to generate electricity. People also need to a kind of accumulated snow that can either melt and can play the roof of solar power generation again.

The content of the invention

Technical problems to be solved in this application are to overcome the deficiencies in the prior art, there is provided a kind of controllable temperature heating and the sun The snow melt electricity generation module and snow melting roof system that can be generated electricity.

To solve above technical problem, the application is adopted the following technical scheme that：

A kind of controllable temperature heating and the snow melt electricity generation module of solar power generation, described snow melt electricity generation module include heating board And the solar power generation film of the heating board upper surface described in being arranged on, high-temperature probe is installed in described heating board.

Preferably, described heating board includes heat-insulation layer, and the upper surface of described heat-insulation layer is provided with the upward row of notch Wire casing, the upper surface of described heat-insulation layer is equipped with heat-conducting layer, described heat-conducting layer described winding displacement groove location be provided with to The groove of lower recess, is equipped with the line with heating function generated heat after being powered in described groove, described heat-conducting layer upper surface is provided with to be covered Cap rock.

Preferably, there are described winding displacement groove many places to bend, and make described winding displacement groove in the upper surface of described heat-insulation layer Serpentine-like arrangement or back-shaped arrangement.

Preferably, the two ends of described winding displacement groove extend to the same side edge formation line outlet of heat-insulation layer, described The two ends of line with heating function are stretched out from described line outlet.

Preferably, described heat-conducting layer is the metallic plate or metal foil being laid on heat-insulation layer.

Preferably, described heating board includes heat-insulation layer, and the upper surface of described heat-insulation layer is equipped with heat-conducting layer, described Heat-conducting layer is provided with the heating layer that can be generated heat after being powered, and described heating layer upper surface is provided with coating.

Preferably, described heat-conducting layer by grapheme material or carbon crystalline substance material be made.

Preferably, described heat-insulation layer is for expanded material is made or is made using high-temperature resistance plastice.

Preferably, the upper surface of described heat-insulation layer is additionally provided with to lower recess for accommodating described high-temperature probe Probe holding tank

The application also provides a kind of snow melting roof system including described snow melt electricity generation module, described snow melting roof system System includes the described snow melt electricity generation module of multiple mutually splicings, and described snow melting roof system is also included for measuring Interior Space The thermal detector of temperature degree, for reaching heating board setting value or when described thermal detector institute when described high-temperature probe measured temperature Testing temperature reaches the temperature controller cut off the electricity supply during indoor air temperature setting value.

Due to the use of above technical scheme, the application has the following advantages that compared with prior art：

Snow melt electricity generation module described herein and snow melting roof system, have laid solar power generation thin on heating board Film, generates heat to melting accumulated snow after heating board can be powered when snowing heavily in winter.When there is sunlight to irradiate, solar power generation is thin Film can generate electricity.Only need to just play snow melt and solar power generation in roofing snow melt electricity generation module described herein Function, the material of saving and space, the process on convenient-laying roof.

Brief description of the drawings

Fig. 1 is the structural representation of the heat-generating system of the snow melting roof system described in the first implementation method described herein Figure；

Fig. 2 is the structural representation of the snow melt electricity generation module described in the first implementation method described herein；

Fig. 3 is cross-sectional views of the Fig. 2 in A-A directions；

Fig. 4 is the structural representation of the heat-generating system of the snow melting roof system described in the application another embodiment；

Fig. 5 is the structural representation of the snow melt electricity generation module described in second implementation method described herein；

Fig. 6 is cross-sectional views of the Fig. 5 in B-B directions,

1st, heating board；2nd, high-temperature probe；3rd, temperature controller；41st, zero line；42nd, live wire；43rd, probe wire；5th, line with heating function；6th, send out Thermosphere；11st, heat-insulation layer；12nd, heat-conducting layer；13rd, coating；121st, groove；111st, probe holding tank；7th, solar power generation film.

Specific embodiment

The application is described in further details below in conjunction with specific embodiment.It should be understood that these embodiments are for saying The general principle of bright the application, principal character and advantage, and the application is not limited by the scope of following examples.Adopted in embodiment Implementation condition can do further adjustment according to specific requirement, and unreceipted implementation condition is usually the bar in normal experiment Part.

It is as shown in Figures 1 to 3 the first embodiment of the application, Fig. 2 and 3 is that a kind of controllable temperature generates heat and solar power generation Snow melt electricity generation module, described snow melt electricity generation module includes heating board 1 and is arranged on the solar energy of the described upper surface of heating board 1 Generating film 7, high-temperature probe 2 is provided with described heating board 1.Described snow melting roof system includes multiple mutually splicings Described snow melt electricity generation module, described snow melting roof system is also including being used to measure the thermal detector of indoor air temperature, being used for The setting value of heating board 1 is reached when the described measured temperature of high-temperature probe 2 or when described thermal detector measured temperature reaches Interior Space The temperature controller 3 cut off the electricity supply during gas desired temperature.Fig. 1 is the snow melting roof system for not laying solar power generation film 7 Heat-generating system, has multiple heating boards 1 to be spliced.Described heating board 1 includes heat-insulation layer 11, the upper table of described heat-insulation layer 11 Face is provided with the upward winding displacement groove of notch, and the upper surface of described heat-insulation layer 11 is equipped with heat-conducting layer 12, described heat-conducting layer 12 Described winding displacement groove location is provided with the groove 121 to lower recess, the hair generated heat after being powered is equipped with described groove 121 Hot line 5, the described upper surface of heat-conducting layer 12 is provided with coating 13.There are described winding displacement groove many places to bend, and make described row Wire casing is in the serpentine-like arrangement in upper surface of described heat-insulation layer 11 or back-shaped arrangement.The two ends of described winding displacement groove extend to insulation The same side edge of layer 11 forms line outlet, and the two ends of described line with heating function 5 are stretched out from described line outlet, respectively with power supply Live wire 42 be connected with zero line 41, parallel with one another between floor body 1, high-temperature probe 2 is connected with probe wire 43, described Live wire 42, zero line 41 and probe wire 43 are connected to temperature controller 3.Described heat-conducting layer 12 is the metal being laid on heat-insulation layer 11 Plate or metal foil.Described heat-insulation layer 11 is for expanded material is made or is made using high-temperature resistance plastice.Described heat-insulation layer 11 Upper surface is additionally provided with the probe holding tank 111 for accommodating described high-temperature probe 2 to lower recess.On heating board 1 Solar power generation film 7 is connected to power network.

As shown in figures 4-6, it is the second embodiment of the application, described heating board 1 includes heat-insulation layer 11, described guarantor The upper surface of warm layer 11 is equipped with heat-conducting layer 12, and described heat-conducting layer 12 is provided with the heating layer 6 that can be generated heat after being powered, described The upper surface of heating layer 6 be provided with coating 13.Described snow melting roof system includes the described snow melt of multiple mutually splicings Electricity generation module, described snow melting roof system is also including the thermal detector for measuring indoor air temperature, for when described height Temperature 2 measured temperatures of probe reach the setting value of heating board 1 or when described thermal detector measured temperature reaches indoor air temperature setting The temperature controller 3 cut off the electricity supply during value.Described heat-conducting layer 12 is made up of grapheme material or carbon crystalline substance material, and heat-conducting layer 12 is provided with Two joints are connected with the live wire 42 and zero line 41 of power supply respectively, and high-temperature probe 2 is connected with probe wire 43, described every piece Parallel with one another between floor body 1, described zero line 41, live wire 42 and probe wire 43 are connected to temperature controller 3.Described insulation Layer 11 is for expanded material is made or is made using high-temperature resistance plastice.The upper surface of described heat-insulation layer 11 is additionally provided with to lower recess The probe holding tank 111 for accommodating described high-temperature probe 2.Solar power generation film 7 on heating board 1 is connected to electricity Net.

Snow melt electricity generation module described herein and snow melting roof system, it is thin on heating board 1 to have laid solar power generation Film 7, generates heat to melting accumulated snow after heating board 1 can be powered when snowing heavily in winter.When there is sunlight to irradiate, solar power generation Film 7 can generate electricity.Only need to just play snow melt and solar energy in roofing snow melt electricity generation module described herein The function of generating, the material of saving and space, convenient-laying roof.

The application is described in detail above, the explanation of embodiment be only intended to help understand the present processes and Its core concept, its object is to allowing the personage for being familiar with this art to will appreciate that present context and implementing according to this, and The protection domain of the application can not be limited with this.All equivalent change or modifications made according to the application Spirit Essence, should all contain Cover within the protection domain of the application.

Claims (10)

1. the snow melt electricity generation module of a kind of heating of controllable temperature and solar power generation, it is characterised in that：Described snow melt electricity generation module Including heating board and the solar power generation film of described heating board upper surface is arranged on, high temperature is installed in described heating board Probe.

2. the snow melt electricity generation module of a kind of controllable temperature heating according to claim 1 and solar power generation, it is characterised in that： Described heating board includes heat-insulation layer, and the upper surface of described heat-insulation layer is provided with the upward winding displacement groove of notch, described insulation The upper surface of layer is equipped with heat-conducting layer, and described heat-conducting layer is provided with the groove to lower recess, institute in described winding displacement groove location The line with heating function generated heat after being powered is equipped with the groove stated, described heat-conducting layer upper surface is provided with coating.

3. the snow melt electricity generation module of a kind of controllable temperature heating according to claim 2 and solar power generation, it is characterised in that： There are described winding displacement groove many places to bend, and make described winding displacement groove in the serpentine-like arrangement or back-shaped in upper surface of described heat-insulation layer Arrangement.

4. the snow melt electricity generation module of a kind of controllable temperature heating according to claim 3 and solar power generation, it is characterised in that： The same side edge that the two ends of described winding displacement groove extend to heat-insulation layer forms line outlet, and the two ends of described line with heating function are from institute The line outlet stated stretches out.

5. the snow melt electricity generation module of a kind of controllable temperature heating according to claim 4 and solar power generation, it is characterised in that： Described heat-conducting layer is the metallic plate or metal foil being laid on heat-insulation layer.

6. the snow melt electricity generation module of a kind of controllable temperature heating according to claim 1 and solar power generation, it is characterised in that： Described heating board includes heat-insulation layer, and the upper surface of described heat-insulation layer is equipped with heat-conducting layer, and described heat-conducting layer is provided with logical The heating layer that can be generated heat after electricity, described heating layer upper surface is provided with coating.

7. the snow melt electricity generation module of a kind of controllable temperature heating according to claim 6 and solar power generation, it is characterised in that： Described heat-conducting layer is made up of grapheme material or carbon crystalline substance material.

8. a kind of controllable temperature heating according to claim 2 or 6 and the snow melt electricity generation module of solar power generation, its feature exist In：Described heat-insulation layer is for expanded material is made or is made using high-temperature resistance plastice.

9. a kind of controllable temperature heating according to claim 2 or 6 and the snow melt electricity generation module of solar power generation, its feature exist In：The upper surface of described heat-insulation layer is additionally provided with the probe holding tank for accommodating described high-temperature probe to lower recess.

10. a kind of snow melting roof system of the snow melt electricity generation module including described in any one of claim 1~7, it is characterised in that： Described snow melting roof system includes the described snow melt electricity generation module of multiple mutually splicings, and described snow melting roof system is also wrapped Include for measure indoor air temperature thermal detector, for when described high-temperature probe measured temperature reach heating board setting value or The temperature controller cut off the electricity supply when described thermal detector measured temperature reaches indoor air temperature setting value.