CN204669308U - A kind of efficiency light thermoelectric integral photovoltaic module - Google Patents

Abstract

A kind of efficiency light thermoelectric integral photovoltaic module described in the utility model, comprise photovoltaic laminate, be located at the heat abstractor at the photovoltaic laminate back side, and for the framework of fixed bed casting die and heat abstractor, described framework comprises the first draw-in groove for installing photovoltaic laminate and the second draw-in groove for installing heat abstractor, described heat abstractor comprises heat-conducting plate and aqueduct, described aqueduct is made up of multiple head end and the tail end U-shaped pipe forming Curved Continuous curve that connects successively, the curved side that described U-shaped pipe is formed is in same level and fits tightly with the side of heat-conducting plate, the two ends of described aqueduct are respectively water inlet and delivery port, described second draw-in groove two ends sidewall offers the perforate matched with water inlet and delivery port respectively.The heat that the utility model effectively operationally can produce crystalline silicon optical assembly and the heat that solar radiation produces are converted to the hot water for resident, while effectively can improve the power stage of Crystalline Silicon PV Module.

Description

A kind of efficiency light thermoelectric integral photovoltaic module

Technical field

The utility model relates to volt light technical field of power generation, is specifically related to a kind of efficiency light thermoelectric integral photovoltaic module.

Background technology

Crystal silicon photovoltaic cell sheet, at reception sunlight be converted in the process of electric energy, can produce heat, and as the Crystalline Silicon PV Module of a generating elementary cell under direct sunlight, can produce heat equally.Under high temperature, photovoltaic module aging speed is obviously accelerated, form the material lifetime such as the crystalline silicon battery plate of photovoltaic module, painting tin copper strips, encapsulation EVA adhesive film, packaging back board, photovoltaic junction box, silica gel and become shorter, more seriously Crystalline Silicon PV Module has the characteristic of negative temperature coefficient, the photoelectric conversion efficiency of the higher Crystalline Silicon PV Module of temperature is lower, the electric energy produced is also lower, therefore high temperature creates Crystalline Silicon PV Module and has a strong impact on.

Therefore, need to reduce Crystalline Silicon PV Module temperature in use, the life-span of protection Crystalline Silicon PV Module and the generating efficiency of raising Crystalline Silicon PV Module, and the heat that Crystalline Silicon PV Module produces is used, turn bane into boon.Make the scope of application of Crystalline Silicon PV Module wider, to promote the extensive utilization of Photovoltaic new energy.

Utility model content

The technical problems to be solved in the utility model is to provide a kind of efficiency light thermoelectric integral photovoltaic module, this assembly is by efficient water-cooling pattern, the heat that the heat effectively crystalline silicon optical assembly operationally produced and solar radiation produce is converted to the hot water for resident, while effectively can improve the power stage of Crystalline Silicon PV Module.

For solving the problems of the technologies described above, the utility model by the following technical solutions:

A kind of efficiency light thermoelectric integral photovoltaic module, comprise photovoltaic laminate, be located at the heat abstractor at the photovoltaic laminate back side, and for the framework of fixed bed casting die and heat abstractor, described framework comprises the first draw-in groove for installing photovoltaic laminate and the second draw-in groove for installing heat abstractor, the inner side of described first draw-in groove and all sides of photovoltaic laminate are formed and fit tightly, described heat abstractor comprises heat-conducting plate and is fixed on the aqueduct at the heat-conducting plate back side, described heat-conducting plate is that multiple and along photovoltaic laminate the back side is uniformly distributed, described aqueduct is made up of multiple head end and the tail end U-shaped pipe forming Curved Continuous curve that connects successively, the curved side that described U-shaped pipe is formed is in same level and fits tightly with the side of heat-conducting plate, the two ends of described aqueduct are respectively water inlet and delivery port, described second draw-in groove two ends sidewall offers the perforate matched with water inlet and delivery port respectively.

Described photovoltaic laminate comprises the photovoltaic glass, ground floor packaging adhesive film, crystalline silicon battery plate, second layer packaging adhesive film, the packaging back board that set gradually from bottom to top and is fixed on the photovoltaic junction box at the packaging back board back side, described heat-conducting plate is fixed on the upper side of packaging back board, and described aqueduct is fixed on the upper side of heat-conducting plate.

Described U-tube is arranged in the same way and length direction along heat-conducting plate is uniformly distributed.

Described heat-conducting plate is uniformly distributed along the Width of packaging back board, and the length of its length and packaging back board matches, and the length of described aqueduct and width match with the length of packaging back board and width respectively.

The beneficial effects of the utility model are: photovoltaic module described in the utility model is dispelled the heat to photovoltaic module by the heat abstractor being arranged on the photovoltaic laminate back side, this heat abstractor is made up of heat-conducting plate and aqueduct, this aqueduct is finished up to connect by the U-shaped pipe be set up in parallel and forms, to ensure that heat-conducting plate conducts the heat of coming by the maximized sorption enhanced of the cold water of aqueduct for the hot water for resident, this structure not only effectively reduces the heat that crystalline silicon optical assembly operationally produces, and effectively can improve the power stage of Crystalline Silicon PV Module simultaneously.

Accompanying drawing explanation

Fig. 1 is the sectional view of the utility model efficiency light thermoelectric integral photovoltaic module;

Fig. 2 is the rearview of the utility model efficiency light thermoelectric integral photovoltaic module;

Mark in figure: 1, framework; 11, the first draw-in groove; 12, the second draw-in groove; 21, heat-conducting plate; 22, aqueduct; 221, water inlet; 222, delivery port; 31, photovoltaic glass; 32, ground floor packaging adhesive film; 33, crystalline silicon battery plate; 34, second layer packaging adhesive film; 35, packaging back board; 4, photovoltaic junction box.

Embodiment

Below in conjunction with accompanying drawing, the utility model will be further described.

As Fig. 1, shown in 2, the efficiency light thermoelectric integral photovoltaic module of the present embodiment, comprise photovoltaic laminate, be located at the heat abstractor at the photovoltaic laminate back side, and for the framework 1 of fixed bed casting die and heat abstractor, framework 1 comprises the first draw-in groove 11 for installing photovoltaic laminate and the second draw-in groove 12 for installing heat abstractor, the inner side of the first draw-in groove 11 and all sides of photovoltaic laminate are formed and fit tightly, heat abstractor comprises heat-conducting plate 21 and is fixed on the aqueduct 22 at heat-conducting plate 21 back side, heat-conducting plate 21 is that multiple and along photovoltaic laminate the back side is uniformly distributed, aqueduct 22 is made up of multiple head end and the tail end U-shaped pipe forming Curved Continuous curve that connects successively, this U-tube is arranged in the same way and length direction along heat-conducting plate 21 is uniformly distributed, the curved side that U-shaped pipe is formed is in same level, the side of aqueduct 22 is fitted tightly with the side of heat-conducting plate 21, to ensure that heat-conducting plate 21 conducts the heat of coming and become hot water by the maximized absorption of the cold water inside aqueduct 22.The two ends of aqueduct 22 are respectively water inlet 221 and delivery port 222, second draw-in groove 12 two ends sidewall offers the perforate matched with water inlet 221 and delivery port 222 respectively, and its water inlet 221 and delivery port 222 stretch out framework 1 outside by this perforate is connected follow-up water supply installation to facilitate.

Photovoltaic laminate comprises the photovoltaic glass 31, ground floor packaging adhesive film 32, crystalline silicon battery plate 33, second layer packaging adhesive film 34, the packaging back board 35 that set gradually from bottom to top and is fixed on the photovoltaic junction box 4 at packaging back board 35 back side, heat-conducting plate 21 is fixed on the upper side of packaging back board 35, and aqueduct 22 is fixed on the upper side of heat-conducting plate 21.Heat-conducting plate 21 is uniformly distributed along the Width of packaging back board 35, and the length of its length and packaging back board 35 matches, and the length of aqueduct 22 and width match with the length of packaging back board 35 and width respectively.Ground floor packaging adhesive film 32 and second layer packaging adhesive film 34 are EVA in the present embodiment.Light is irradiated on photovoltaic glass 31 and is also irradiated on crystalline silicon battery plate 33 through ground floor packaging adhesive film 32, the heat that crystalline silicon battery plate 32 produces passes to heat-conducting plate 21, is heated to live use for people by the cold water in heat-conducting plate 21 pairs of aqueducts 22.The utility model not only effectively reduces the heat that crystalline silicon optical assembly operationally produces, and effectively can improve the power stage of Crystalline Silicon PV Module simultaneously.

Above-described embodiment is only be described preferred implementation of the present utility model; not scope of the present utility model is limited; under the prerequisite not departing from the utility model design spirit; the various distortion that those of ordinary skill in the art make the technical solution of the utility model and improvement, all should fall in protection range that the utility model claims determine.

Claims (4)

1. an efficiency light thermoelectric integral photovoltaic module, comprise photovoltaic laminate, be located at the heat abstractor at the photovoltaic laminate back side, and for the framework (1) of fixed bed casting die and heat abstractor, described framework (1) comprises the first draw-in groove (11) for installing photovoltaic laminate and the second draw-in groove (12) for installing heat abstractor, the described inner side of the first draw-in groove (11) and all sides of photovoltaic laminate are formed and fit tightly, described heat abstractor comprises heat-conducting plate (21) and is fixed on the aqueduct (22) at heat-conducting plate (21) back side, described heat-conducting plate (21) is uniformly distributed for multiple and along photovoltaic laminate the back side, described aqueduct (22) is made up of multiple head end and the tail end U-shaped pipe forming Curved Continuous curve that connects successively, the curved side that described U-shaped pipe is formed is in same level and fits tightly with the side of heat-conducting plate (21), the two ends of described aqueduct (22) are respectively water inlet (221) and delivery port (222), described second draw-in groove (12) two ends sidewall offers the perforate matched with water inlet (221) and delivery port (222) respectively.

2. a kind of efficiency light thermoelectric integral photovoltaic module according to claim 1, it is characterized in that: described photovoltaic laminate comprises the photovoltaic glass (31), ground floor packaging adhesive film (32), crystalline silicon battery plate (33), second layer packaging adhesive film (34), the packaging back board (35) that set gradually from bottom to top and is fixed on the photovoltaic junction box (4) at packaging back board (35) back side, described heat-conducting plate (21) is fixed on the upper side of packaging back board (35), and described aqueduct (22) is fixed on the upper side of heat-conducting plate (21).

3. a kind of efficiency light thermoelectric integral photovoltaic module according to claim 1 and 2, is characterized in that: described U-shaped pipe is arranged in the same way and length direction along heat-conducting plate (21) is uniformly distributed.

4. a kind of efficiency light thermoelectric integral photovoltaic module according to claim 2, it is characterized in that: described heat-conducting plate (21) is uniformly distributed along the Width of packaging back board (35), the length of its length and packaging back board (35) matches, and the length of described aqueduct (22) and width match with the length of packaging back board (35) and width respectively.