CN202025783U - Solar photovoltaic thermoelectric heating module and photovoltaic thermoelectric hot water system - Google Patents

Abstract

The utility model discloses a solar photovoltaic thermoelectric heating module, which sequentially comprises a glass cover plate, a packaging photovoltaic battery plate, a cold end heat radiator, a semiconductor thermoelectric chip set and a heat end flat plate heat tube heat radiator from outside to inside, wherein a tubular heat radiator is attached to the condensing end of the heat end flat plate heat tube heat radiator; and heat-isolating materials are arranged in an air clearance between two heat radiators and the bottom side of the heat end flat plate heat tube heat radiator. A photovoltaic thermoelectric hot water system comprises a photovoltaic thermoelectric heating module group, a thermoelectric air source heating module group, a heat storage water tank and a photovoltaic power supply assembly; the two module groups are respectively connected with the heat storage water tank; each module group comprises a plurality of series/parallel modules connected with the heat storage water tanks; a photoelectrical controller in the photovoltaic power supply assembly is connected onto the photovoltaic battery plate; and an electricity storage device in the photovoltaic power supply assembly is connected onto the semiconductor thermoelectric chip set of each module group. According to the system, the temperature of the chip is reduced and the power generation efficiency is improved, and the comprehensive utilization of solar photoelectricity and photothermal can be realized at low cost and high efficiency.

Description

Photovoltaic thermoelectricity heats module and the thermoelectric hot-water heating system of photovoltaic

Technical field

The utility model belongs to field of solar energy utilization, relates to a kind of solar photoelectric light-heat comprehensive utilization technique, is specifically related to a kind of photovoltaic thermoelectricity and heats module and the thermoelectric hot-water heating system of photovoltaic.

Background technology

Along with conventional energy resource lack the serious day by day of short and environmental pollution day by day, solar energy is subject to people's attention day by day as a kind of regenerative resource of cleaning.The photoelectric conversion efficiency of general commercial solar cell only is 6%～15%, improves system effectiveness and reduces the key that integrated cost becomes the solar photovoltaic building integral application.On the traditional understanding, improve solar energy power generating efficient and often only focus in the improvement of silicon wafer or non-crystalline material.In fact the generating efficiency of silicon wafer battery seriously relies on its temperature conditions.According to statistics, the every reduction of battery component temperature 1K output electric weight increases by 0.2%～0.5%, unemployed solar radiant energy all the other major parts except a part is reflected are absorbed by battery and are converted into heat energy, if these heats can in time be got rid of and effectively utilization, remarkable energy saving effect will be arranged.A kind of complete plate tube-sheet type photovoltaic hot-water module is disclosed at this thinking CN101740650A Chinese patent literature, this module comprises encapsulation of photovoltaic cells sheet, absorber plate and copper ribbed pipe etc., this technical scheme has the function that produces electric power and hot water simultaneously, improved the comprehensive utilization ratio of solar energy, but this technology belongs to the passive mode of utilizing, when more weak or hot water demand amount was big in solar radiation, this photovoltaic hot-water module was difficult to satisfy user's demand.The CN101764167A Chinese patent literature also discloses a kind of high-efficient solar photovoltaic cell heat dissipating device and thermoelectric contact system, it comprises flat-plate heat pipe, the front face and the cell panel backboard of the forward and backward plate face of this flat-plate heat pipe directly or indirectly are close to, a radiating segment of plate face is fitted with a band-tube type heat exchanger behind the flat-plate heat pipe, by pipeline and outside storage tank formation circulation circuit.Though this thermoelectricity contact system adopts adopting heat pipes for heat transfer, has improved the heat-sinking capability of photovoltaic substrate to a certain extent, belongs to the passive type cooling technology equally, the same relative deficiency of its hot water supply ability.The CN101806514A Chinese patent literature also discloses a kind of building composite solar photovoltaic hot-water cold supply and heating system, this system utilizes solar power generation to realize respectively indoor refrigeration and heat supply in summer and winter, the hot-water heating system complexity that its separate heat pipe, integral type gravity assisted heat pipe, heat exchange header and coil pipe, water tank etc. are formed, and this system fails to solve the problem that system can not effectively heat when solar radiation is more weak and overcast and rainy equally.As can be seen, comprise above-mentioned patent documentation, present most of solar water heater is difficult to solve the heat supply problem when solar radiation is more weak and overcast and rainy, make the user can only adopt electrically heated not power save mode to produce hot water, and there is complex structure in big multisystem, preparation cost is higher, the photovoltaic/thermal system is independent separately, can not realize light, the effective conversion and the unification of heat, three kinds of energy of electricity.

The utility model content

The technical problems to be solved in the utility model is to overcome existing solar water heater and photovoltaic photovoltaic/thermal utilization system a little less than solar radiation, provide a kind of photovoltaic thermoelectricity of solar photoelectric light-heat comprehensive utilization of initiatively realizing to heat module, construct a kind of simple in structure, preparation cost is low, can efficiently realize the solar photoelectric light-heat comprehensive utilization and can stablize the photovoltaic thermoelectricity hot-water heating system of hot-water supply in a large number.

For solving the problems of the technologies described above, the technical scheme that the utility model proposes is that a kind of photovoltaic thermoelectricity heats module, described photovoltaic thermoelectricity heats module and comprises glass cover-plate from outside to inside successively, the encapsulation of photovoltaic cells sheet, the cold junction radiator, semiconductor thermoelectric chipset and hot junction flat heat pipe radiator, the condensation end of described hot junction flat heat pipe radiator is fitted with tubular radiator, between described cold junction radiator and hot junction flat heat pipe radiator except that with semiconductor thermoelectric chipset coupling part the space be filled with heat-barrier material, flat heat pipe radiator bottom side, described hot junction is covered with heat-barrier material.

Above-mentioned photovoltaic thermoelectricity heats in the module, preferably, described cold junction radiator is by two mutually nested being welded of finned aluminum heating panel, left water circulation channel between the two mutually nested heating panels, the described two ends of crossing water circulation channel are provided with water inlet and delivery port respectively.

Above-mentioned photovoltaic thermoelectricity heats in the module, preferably, described hot junction flat heat pipe radiator includes flat-plate heat pipe, the flat micro heat pipe array that flat-plate heat pipe constitutes for the metal or alloy extrusion modling, the upper surface of described flat-plate heat pipe is a convex-concave surface, and its lower surface is a flat surface.

Above-mentioned photovoltaic thermoelectricity heats in the module, described encapsulation of photovoltaic cells sheet comprises the photovoltaic cell that is positioned at the therebetween sandwich layer, the outside of described photovoltaic cell is covered with outer ethylene-vinyl acetate (EVA), and the upper strata of described outer ethylene-vinyl acetate is a transparent compound fluoroplastics film (TPT); The inboard of described photovoltaic cell is covered with the internal layer ethylene-vinyl acetate, and the lower floor of described internal layer ethylene-vinyl acetate is the compound fluoroplastics film of black (TPT).

As a total technical conceive, the utility model also provides a kind of can use the thermoelectric hot-water heating system of photovoltaic that above-mentioned photovoltaic thermoelectricity heats module, the thermoelectric hot-water heating system of described photovoltaic comprises that photovoltaic thermoelectricity heats the module group, thermoelectric air source heats module group, heat storage water tank and photovoltaic power supply assembly, described photovoltaic thermoelectricity heat module group and thermoelectric air source heat the module group all by aqueduct string and series-parallel connection on the water outlet of water tank and water tank inlet of described heat storage water tank; Described aqueduct is provided with circulating pump;

Described photovoltaic thermoelectricity heats the module group and comprises that an above-described photovoltaic thermoelectricity heats module, the cold junction radiator that each photovoltaic thermoelectricity heats module is parallel on the water outlet of water tank and water tank inlet of described heat storage water tank by aqueduct, each photovoltaic thermoelectricity heats the hot junction flat heat pipe radiator of module and connects by aqueduct, in parallel or string and series-parallel connection (can adopt series system for the thermoelectric hot-water heating system of the less photovoltaic of scale, can adopt parallel connection or string and series-parallel connection mode for the thermoelectric hot-water heating system of fairly large photovoltaic) are on the water outlet of water tank and water tank inlet of described heat storage water tank;

Described thermoelectric air source heats the module group and comprises that more than one thermoelectric air source heats module, described thermoelectric air source heats module and mainly comprises gilled radiator from outside to inside, semiconductor thermoelectric chipset and hot junction flat heat pipe radiator, each thermoelectric air source heats the hot junction flat heat pipe radiator of module and connects by aqueduct, in parallel or string and series-parallel connection (can adopt series system for the thermoelectric hot-water heating system of the less photovoltaic of scale, can adopt parallel connection or string and series-parallel connection mode for the thermoelectric hot-water heating system of fairly large photovoltaic) are on the water outlet of water tank and water tank inlet of described heat storage water tank;

Described photovoltaic power supply assembly comprises photoelectric controller, the encapsulation of photovoltaic cells sheet that described each photovoltaic thermoelectricity heats in the module is connected on the described photoelectric controller by the photovoltaic generation circuit, connect electrical storage device on the described photoelectric controller, described electrical storage device is connected to each photovoltaic thermoelectricity by transmission line and heats module and each thermoelectric air source and heat on the semiconductor thermoelectric chipset of module.

In the thermoelectric hot-water heating system of above-mentioned photovoltaic, described aqueduct preferably includes first inlet channel, second inlet channel, the 3rd inlet channel, first outlet conduit, second outlet conduit and the 3rd outlet conduit;

Described each photovoltaic thermoelectricity heats each cold junction radiator of module and is unified into first radiating subassembly, this first radiating subassembly is communicated to the water outlet of water tank and the water tank inlet of described heat storage water tank respectively by first inlet channel, first outlet conduit, constitute first and heat circulation canal;

Described each photovoltaic thermoelectricity heats between the hot junction flat heat pipe radiator of module and is connected into second radiating subassembly, this second radiating subassembly is communicated to the water outlet of water tank and the water tank inlet of described heat storage water tank respectively by second inlet channel, second outlet conduit, constitute second and heat circulation canal;

Described each thermoelectric air source heats between the hot junction flat heat pipe radiator of module and is connected into the 3rd radiating subassembly, the 3rd radiating subassembly is communicated to the water outlet of water tank and the water tank inlet of described heat storage water tank respectively by the 3rd inlet channel, the 3rd outlet conduit, constitute the 3rd and heat circulation canal;

Be respectively equipped with valve on above-mentioned each bar aqueduct that preferably includes.

Above-mentioned each bar aqueduct that preferably includes can in position merge common conduit of use as required, to reduce the pipe laying cost and to simplify pipeline structure.Described by-pass valve control also can be equal to replacement by the multifunction valve that use is similar to reversal valve.

In the above-mentioned photovoltaic power supply assembly, can also connect DC load or AC load as required on the described photoelectric controller, to make full use of the electric energy that stores in the electrical storage device.

Compared with prior art, advantage of the present utility model is:

At first, the utility model overcomes existing solar water heater and the not enough and not high problem of temperature of photovoltaic photovoltaic/thermal comprehensive utilization technique heating capacity when solar radiation is more weak, utilize photovoltaic cell capable of generating power to drive semiconductor chip the indoor hot water that provides is provided to the photovoltaic cell waste heat recovery and after the heat pump effect, solved the not enough problem of water heater heating capacity when solar radiation is more weak, reduce the photovoltaic cell substrate temperature simultaneously, improved the generating efficiency of solar-energy photo-voltaic cell;

Secondly, the utility model has overcome existing solar water heater and photovoltaic photovoltaic/thermal utilization system in the problem that does not have the solar time effectively not heat, utilize photovoltaic cell when solar radiation is arranged, to be stored in electric energy in the photovoltaic cell and drive semiconductor chip and from environment, absorb heat energy and produce hot water, guarantee the stable supplying of indoor hot water;

Once more, the utility model is when solar radiation is strong, utilize water directly to take away the heat energy of photovoltaic cell, improve the generating efficiency of photovoltaic cell, utilize the photovoltaic cell electricity to be stored in the storage battery simultaneously, and discharge the semiconductor chip work that drives when solar radiation is more weak or when not having solar radiation, effectively solved solar photoelectric, the supply of photo-thermal and the contradiction of indoor demand.

In a word, of the present utility model simple in structure, preparation cost is low, it has reduced the actual cost of photovoltaic industry utilization and extention; Can make up the hot-water heating system of different capacity size when photovoltaic thermoelectricity heats module making as required, satisfy the application demand of different occasions, have important utilization and extention and be worth.

Description of drawings

Fig. 1 heats the structural representation (each layer member that composition photovoltaic thermoelectricity heats module is plate armature) of module for photovoltaic thermoelectricity among the utility model embodiment.

Fig. 2 is the structural representation that photovoltaic thermoelectricity heats the cold junction radiator of module among the utility model embodiment, and it is depicted as the profile at A-A place among Fig. 1.

Fig. 3 heats the hot junction flat heat pipe radiator of module and the structural representation after the tubular radiator applying for photovoltaic thermoelectricity among the utility model embodiment.

Fig. 4 is the structural representation of the thermoelectric hot-water heating system of photovoltaic among the utility model embodiment.

Fig. 5 heats the structural representation of module for thermoelectric air source in the thermoelectric hot-water heating system of photovoltaic among the utility model embodiment.

Marginal data

1, encapsulation of photovoltaic cells sheet;

11, photovoltaic cell;

12, internal layer ethylene-vinyl acetate;

13, outer ethylene-vinyl acetate;

14, the compound fluoroplastics film of black;

15, transparent compound fluoroplastics film;

2, cold junction radiator;

21, heating panel;

22, cross water circulation channel;

23, water inlet;

24, delivery port;

3, semiconductor thermoelectric chipset;

4, hot junction flat heat pipe radiator;

41, flat-plate heat pipe;

42, tubular radiator;

43, tubular radiator water out;

5, heat-barrier material;

51, insulation material layer;

6, photovoltaic power supply assembly;

61, photoelectric controller;

62, photovoltaic generation circuit;

63, electrical storage device;

64, DC load;

65, transmission line;

66, AC load;

67, inverter;

7, photovoltaic thermoelectricity heats the module group;

71, photovoltaic thermoelectricity heats module;

72, heat storage water tank;

721, water outlet of water tank;

722, water tank inlet;

723, supply channel;

724, water pipeline;

73, circulating pump;

74, first inlet channel;

75, first outlet conduit;

76, second inlet channel;

77, second outlet conduit;

78, tapping pipe;

79, by-pass valve control;

791, first valve;

792, second valve;

793, the 3rd valve;

794, the 4th valve;

8, thermoelectric air source heats the module group;

81, thermoelectric air source heats module;

82, gilled radiator;

83, the 3rd inlet channel;

84, the 3rd outlet conduit;

85, the 5th valve;

86, the 6th valve;

9, glass cover-plate.

Embodiment

Below in conjunction with Figure of description and specific embodiment the utility model is further described.

Embodiment:

Fig. 1 heats the structural representation of module for photovoltaic thermoelectricity among the utility model embodiment.Photovoltaic thermoelectricity of the present utility model as shown in Figure 1 heat module 71 from outside to inside (outside is meant and accepts solar light irradiation one side) comprise glass cover-plate 9, encapsulation of photovoltaic cells sheet 1, cold junction radiator 2, semiconductor thermoelectric chipset 3 and hot junction flat heat pipe radiator 4 successively, the condensation end of hot junction flat heat pipe radiator 4 is fitted with tubular radiator 42.The bottom side of encapsulation of photovoltaic cells sheet 1 is close in the upper surface of cold junction radiator 2, semiconductor thermoelectric chipset 3 is installed in the high spot of hot junction flat heat pipe radiator 4, the lower surface of the other end of semiconductor thermoelectric chipset 3 and cold junction radiator 2 fits tightly, between cold junction radiator 2 and the hot junction flat heat pipe radiator 4 except that with semiconductor thermoelectric chipset 3 coupling parts gap filling with insulation material 5, flat heat pipe radiator 4 bottom sides in hot junction are covered with insulation material layer 51.

The photovoltaic thermoelectricity of present embodiment heats the module that module can be processed into different area and size as required, and serial or parallel connection is combined into different systems as required.

As shown in Figure 1, the encapsulation of photovoltaic cells sheet 1 that photovoltaic thermoelectricity heats module 71 in the present embodiment comprises the photovoltaic cell 11 that is positioned at the therebetween sandwich layer, the inboard of photovoltaic cell 11 and the outside are covered with internal layer ethylene-vinyl acetate 12(EVA respectively) and outer ethylene-vinyl acetate 13, the upper strata (i.e. the outside) of lower floor of internal layer ethylene-vinyl acetate 12 (promptly inboard) and outer ethylene-vinyl acetate 13 is covered with the compound fluoroplastics film of black 14(TPT respectively) and transparent compound fluoroplastics film 15(TPT).

As shown in Figure 2, to heat the cold junction radiator 2 of module 71 be to be welded by two finned heating panel 21 mutually nested assembly units to photovoltaic thermoelectricity in the present embodiment, the heating panel 21 of present embodiment is the aluminium sheet radiator, two mutually nested heating panels 21 are assembled into airtight heat abstractor after welding, left water circulation channel 22 between the two mutually nested heating panels 21, the two ends of crossing water circulation channel 22 are provided with water inlet 23 and delivery port 24 respectively.

As shown in Figure 3, the hot junction flat heat pipe radiator 4 that photovoltaic thermoelectricity heats module 71 in the present embodiment includes flat-plate heat pipe 41, the flat micro heat pipe array that flat-plate heat pipe 41 constitutes for the alloy extrusion modling, flat-plate heat pipe 41 upper surfaces are convex-concave surface, semiconductor thermoelectric chipset 3 is convenient to install in its protrusion place, increase semiconductor thermoelectric chipset 3 and cool and heat ends radiator distance, reduce the string heat between the semiconductor chip group 3 cold and hot end-face heat sinking devices, its lower surface is a flat surface.The condensation end of hot junction flat heat pipe radiator 4 is fitted with tubular radiator 42, and tubular radiator 42 is provided with tubular radiator water out 43.

A kind of as shown in Figure 4 can use the thermoelectric hot-water heating system of photovoltaic that above-mentioned photovoltaic thermoelectricity heats module, the thermoelectric hot-water heating system of this photovoltaic comprises that photovoltaic thermoelectricity heats module group 7, thermoelectric air source heats module group 8, heat storage water tank 72 and photovoltaic power supply assembly 6; Photovoltaic thermoelectricity heats module group 7 and thermoelectric air source and heats module group 8 and all be parallel on the water outlet of water tank 721 and water tank inlet 722 of heat storage water tank 72 by aqueduct; Aqueduct is provided with circulating pump 73 and by-pass valve control 79.Photovoltaic thermoelectricity heats module group 7 and comprises that the photovoltaic thermoelectricity of two present embodiments heats module 71, the cold junction radiator 2 that each photovoltaic thermoelectricity heats module 71 is parallel to by aqueduct on the water outlet of water tank 721 and water tank inlet 722 of heat storage water tank 72, and the hot junction flat heat pipe radiator 4 that each photovoltaic thermoelectricity heats module 71 is connected in series on the water outlet of water tank 721 and water tank inlet 722 of heat storage water tank 72 by aqueduct.Thermoelectric air source heats module group 8 and comprises that two thermoelectric air sources as shown in Figure 5 heat module 81(and can connect a plurality of as required), each thermoelectric air source heats module 81 and mainly comprises gilled radiator 82, semiconductor thermoelectric chipset 3 and hot junction flat heat pipe radiator 4(from outside to inside it is identical with hot junction flat heat pipe radiator 4 structures that photovoltaic thermoelectricity heats in the module 71), the condensation end of this hot junction flat heat pipe radiator 4 also is fitted with tubular radiator 42, and tubular radiator 42 is provided with tubular radiator water out 43; Gap filling with insulation material 5 between gilled radiator 82 and the hot junction flat heat pipe radiator 4 except that semiconductor thermoelectric chipset 3, its hot junction flat heat pipe radiator 4 inboards are covered with insulation material layer 51.The hot junction flat heat pipe radiator 4 that each thermoelectric air source heats module 81 is connected in series on the water outlet of water tank 721 and water tank inlet 722 of heat storage water tank 72 by aqueduct.Photovoltaic power supply assembly 6 comprises photoelectric controller 61, the encapsulation of photovoltaic cells sheet 1 that each photovoltaic thermoelectricity heats in the module 71 is connected in series on the photoelectric controller 61 by photovoltaic generation circuit 62, connect electrical storage device 63(present embodiment on the photoelectric controller 61 and select a storage battery for use), DC load 64 and AC load 66, electrical storage device 63 is connected to by transmission line 65 that each photovoltaic thermoelectricity heats module 71 and each thermoelectric air source heats on the semiconductor thermoelectric chipset 3 of module 81.Should direct current be converted into alternating current earlier by an inverter 67 in the time of on being connected to AC load 66.

In the thermoelectric hot-water heating system of the photovoltaic of present embodiment, above-mentioned aqueduct comprises first inlet channel 74, first outlet conduit 75, second inlet channel 76, second outlet conduit 77, the 3rd inlet channel 83 and the 3rd outlet conduit 84, is respectively equipped with first valve 791, second valve 792, the 3rd valve 793, the 4th valve 794, the 5th valve 85, the 6th valve 86 on each aqueduct.Concrete, circulating pump 73 drives cold water by the water outlet of water tank 721 and first inlet channel 74, flow into respectively the cold junction radiator 2 that each photovoltaic thermoelectricity heats module 71 from water inlet 23, be pooled to first outlet conduit 75 from the delivery port 24 of cold junction radiator 2 respectively then, and being back to heat storage water tank 72 from water tank inlet 722, above-mentioned circulation is first to heat circulation canal.

Circulating pump 73 also can drive cold water by the water outlet of water tank 721 and second inlet channel 76, enter in the tubular radiator 42 that a photovoltaic thermoelectricity heats module 71, flow out and flow into next photovoltaic thermoelectricity of connecting from tubular radiator water out 43 then and heat the tubular radiator 42 of module 71, flow out the back to first outlet conduit 75 from tubular radiator water out 43, be back to heat storage water tank 72 from water tank inlet 722 then, above-mentioned circulation is second to heat circulation canal.

Circulating pump 73 also can drive cold water by water outlet of water tank 721 and the 3rd inlet channel 83, flow into the tubular radiator 42 that thermoelectric air source heats module 81 then, the thermoelectric air source that enters next series connection after tubular radiator water out 43 flows out heats the tubular radiator 42 of module 81, and flow out back from tubular radiator water out 43 to the 3rd outlet conduit 84, be back to heat storage water tank 72 from water tank inlet 722 then, above-mentioned circulation is the 3rd to heat circulation canal.

Be equipped with tapping pipe 78 on the heat storage water tank 72 to be used for draining in time under the necessary situation, also be connected with supply channel 723 and water pipeline 724 on the heat storage water tank 72, supply channel 723 connects the running water water source and is used for supply, and water pipeline 724 is connected to hot water drainage facility (for example bath water, slurry or the like).

The operation principle of above-mentioned solar energy power generating and hot water service integral system is:

When solar radiation is strong, open first valve 791 on first inlet channel 74 and second valve 792 and the by-pass valve control 79 on first outlet conduit 75 simultaneously, and close remaining four road valve (the 3rd valve 793, the 4th valve 794, the 5th valve 85 and the 6th valve 86), corresponding above-mentioned first heats circulation canal, the cold water that promptly utilizes circulating pump 73 to drive in the heat storage water tank 72 is flow in first inlet channel 74 by water outlet of water tank 721, enters into each cold junction radiator 2 that photovoltaic thermoelectricity heats module group 7 by water inlet 23 again; Take away the heat of photovoltaic cell 11 substrates after cold water is flowed through each cold junction radiator 2, and flowed out by delivery port 24, the hot water after the heat absorption is stored in the heat storage water tank 72 by first outlet conduit 75 and by water tank inlet 722; Under this operating mode, not only effectively reduce the temperature of photovoltaic cell 11 substrates, improved the generating efficiency of photovoltaic cell 11, also obtained hot water simultaneously and used for the user, the direct current of 11 of photovoltaic cells also has been stored in the electrical storage device 63 of photovoltaic power supply assembly 6 in addition, uses in order to the user;

When solar radiation is more weak, open the 3rd valve 793 on second inlet channel 76 and the 4th valve 794 and the by-pass valve control 79 on second outlet conduit 77 simultaneously, and close remaining four road valve (first valve 791, second valve 792, the 5th valve 85 and the 6th valve 86), the cold water that utilizes circulating pump 73 to drive in the heat storage water tank 72 is flow in second inlet channel 76 by water outlet of water tank 721, enters into each hot junction flat heat pipe radiator 4 that photovoltaic thermoelectricity heats 7 series connection of module group successively by water inlet 23 again; At this moment, photovoltaic cell 11 generatings drive semiconductor thermoelectric chipset 3 and heat, evaporation section by hot junction flat heat pipe radiator 4 after the waste heat of 3 pairs of photovoltaic substrates of semiconductor thermoelectric chipset promotes is delivered in the tubular radiator 42 of fitting with the condensation end of hot junction flat heat pipe radiator 4, take away heat and be stored in the heat storage water tank 72 by the water of tubular radiator 42, for indoor use; The direct current (redundance) that the while photovoltaic cell is 11 then is stored in the electrical storage device 63 of photovoltaic power supply assembly 6, uses in order to the user;

When not having solar radiation, open the 5th valve 85 on the 3rd inlet channel 83 and the 6th valve 86 and the by-pass valve control 79 on the 3rd outlet conduit 84 simultaneously, and close remaining four road valves (first valve 791, second valve 792, the 3rd valve 793 and the 4th valve 794), at this moment the electric energy of electrical storage device 63 drives thermoelectric air source and heats module 81 work, promptly drive the semiconductor thermoelectric chipset 3 that thermoelectric air source heats in the module 81 and from environment, absorb the heat heat hot water, idiographic flow is: heat under the effect of module 81 in thermoelectric air source, gilled radiator 82 absorbs heat from environment after semiconductor thermoelectric chipset 3 promotes, flat-plate heat pipe 41 by coupled hot junction flat heat pipe radiator 4 is delivered in the tubular radiator 42 of fitting with the condensation end of flat-plate heat pipe 41 again, take away heat and be stored in the heat storage water tank 72 by the water of tubular radiator 42, for indoor use.

The thermoelectric hot-water heating system of the above-mentioned photovoltaic of present embodiment can maintain the silicon wafer battery temperature in 45 ℃ when solar radiation is more weak or when overcast and rainy, produces 50 ℃～80 ℃ hot water simultaneously; Perhaps the amorphous photovoltaic battery temperature is maintained in 90 ℃, and produce 90 ℃～100 ℃ hot water.

Photovoltaic thermoelectricity of the present utility model heats module group 7 can be assembled into various forms of hot-water heating systems as required, and any simple transformation that does not break away from the design of the utility model overall technology is all in the protection range of the utility model claim.

Claims (6)

1. a photovoltaic thermoelectricity heats module, it is characterized in that: described photovoltaic thermoelectricity heats module and comprises glass cover-plate, encapsulation of photovoltaic cells sheet, cold junction radiator, semiconductor thermoelectric chipset and hot junction flat heat pipe radiator from outside to inside successively, the condensation end of described hot junction flat heat pipe radiator is fitted with tubular radiator, between described cold junction radiator and hot junction flat heat pipe radiator except that with semiconductor thermoelectric chipset coupling part the space be filled with heat-barrier material, flat heat pipe radiator bottom side, described hot junction is covered with heat-barrier material.

2. photovoltaic thermoelectricity according to claim 1 heats module, it is characterized in that: described cold junction radiator is by two mutually nested being welded of finned aluminum heating panel, left water circulation channel between the two mutually nested heating panels, the described two ends of crossing water circulation channel are provided with water inlet and delivery port respectively.

3. photovoltaic thermoelectricity according to claim 1 and 2 heats module, it is characterized in that: described hot junction flat heat pipe radiator includes flat-plate heat pipe, the flat micro heat pipe array that flat-plate heat pipe constitutes for the metal or alloy extrusion modling, the upper surface of described flat-plate heat pipe is a convex-concave surface, and its lower surface is a flat surface.

4. photovoltaic thermoelectricity according to claim 1 and 2 heats module, it is characterized in that: described encapsulation of photovoltaic cells sheet comprises the photovoltaic cell that is positioned at the therebetween sandwich layer, the outside of described photovoltaic cell is covered with outer ethylene-vinyl acetate, and described outer ethylene-vinyl acetate upper strata is transparent compound fluoroplastics film; The inboard of described photovoltaic cell is covered with the internal layer ethylene-vinyl acetate, and described internal layer ethylene-vinyl acetate lower floor is the compound fluoroplastics film of black.

5. the thermoelectric hot-water heating system of a photovoltaic, it is characterized in that, the thermoelectric hot-water heating system of described photovoltaic comprises that photovoltaic thermoelectricity heats the module group, thermoelectric air source heats module group, heat storage water tank and photovoltaic power supply assembly, described photovoltaic thermoelectricity heat module group and thermoelectric air source heat the module group all by aqueduct string and series-parallel connection on the water outlet of water tank and water tank inlet of described heat storage water tank; Described aqueduct is provided with circulating pump;

Described photovoltaic thermoelectricity heats the module group and comprises more than one and heat module as each described photovoltaic thermoelectricity in the claim 1～4, the cold junction radiator that each photovoltaic thermoelectricity heats module is parallel to by aqueduct on the water outlet of water tank and water tank inlet of described heat storage water tank, and the hot junction flat heat pipe radiator that each photovoltaic thermoelectricity heats module passes through aqueduct series, parallel or string and series-parallel connection on the water outlet of water tank and water tank inlet of described heat storage water tank;

Described thermoelectric air source heats the module group and comprises that more than one thermoelectric air source heats module, described thermoelectric air source heats module and mainly comprises gilled radiator, semiconductor thermoelectric chipset and hot junction flat heat pipe radiator from outside to inside, and the hot junction flat heat pipe radiator that each thermoelectric air source heats module passes through aqueduct series, parallel or string and series-parallel connection on the water outlet of water tank and water tank inlet of described heat storage water tank;

Described photovoltaic power supply assembly comprises photoelectric controller, the encapsulation of photovoltaic cells sheet that described each photovoltaic thermoelectricity heats in the module is connected on the described photoelectric controller by the photovoltaic generation circuit, connect electrical storage device on the described photoelectric controller, described electrical storage device is connected to each photovoltaic thermoelectricity by transmission line and heats module and each thermoelectric air source and heat on the semiconductor thermoelectric chipset of module.

6. the thermoelectric hot-water heating system of photovoltaic according to claim 5, it is characterized in that: described aqueduct comprises first inlet channel, second inlet channel, the 3rd inlet channel, first outlet conduit, second outlet conduit and the 3rd outlet conduit;

Described each photovoltaic thermoelectricity heats each cold junction radiator of module and is unified into first radiating subassembly, this first radiating subassembly is communicated to the water outlet of water tank and the water tank inlet of described heat storage water tank respectively by first inlet channel, first outlet conduit, constitute first and heat circulation canal;

Described each photovoltaic thermoelectricity heats between the hot junction flat heat pipe radiator of module and is connected into second radiating subassembly, this second radiating subassembly is communicated to the water outlet of water tank and the water tank inlet of described heat storage water tank respectively by second inlet channel, second outlet conduit, constitute second and heat circulation canal;

Described each thermoelectric air source heats between the hot junction flat heat pipe radiator of module and is connected into the 3rd radiating subassembly, the 3rd radiating subassembly is communicated to the water outlet of water tank and the water tank inlet of described heat storage water tank respectively by the 3rd inlet channel, the 3rd outlet conduit, constitute the 3rd and heat circulation canal;

Be respectively equipped with valve on each above-mentioned bar aqueduct.

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