CN205717977U - A kind of dual-purpose solar architecture-integral heat collector - Google Patents

Abstract

nullThe utility model discloses a kind of dual-purpose solar architecture-integral heat collector，Relate to solar energy utilization technique field，Including heat collector main body、Water pipe、Attemperater and electric current follower，Described heat collector main body includes hull cell、Glass cover-plate、Absorber plate、Hot type pipe and super heat-conductive pipe，Described hull cell、Glass cover-plate and absorber plate stacking are arranged，Described hot type pipe is distributed in absorber plate bottom，Described super heat-conductive pipe is located at hot type pipe lower end，Described heat collector body top and bottom are respectively equipped with outlet and water inlet，Described water inlet front end is provided with water circulating pump，Described hull cell two sides is coated with positive metal electrode and negative metal electrode，Described electric current follower connects the both positive and negative polarity of hull cell by wire，This kind of dual-purpose solar architecture-integral heat collector can convert the solar into electric energy and heat energy，Realize power supply and two kinds of functions of heat supply respectively，By maximum resource utilization，It is worthy to be popularized.

Description

A kind of dual-purpose solar architecture-integral heat collector

Technical field

This utility model relates to solar energy utilization technique field, is specifically related to a kind of dual-purpose solar building one Body heat collector.

Background technology

The energy that solar energy comparatively cleans as the world now, has greater advantage compared to other energy, So whether present people can be utilized effectively for solar energy and increasingly pay attention to, but now into family Solar water heater function singleness, and be structure as a whole, maintenance inconvenience, occur in that thermal-arrest the most on the market Device and the separate water heater of water tank, but still abundant not to this utilization of resources of solar energy, and solar energy is not only Can be converted into the heat that hot water needs, it is also possible to be converted into the electric energy needed in family, this is accomplished by a kind of collection Hot device utilizes solar energy by two ways simultaneously.

Utility model content

The purpose of this utility model is to provide a kind of dual-purpose solar architecture-integral heat collector, existing to solve There is the above-mentioned multinomial defect caused in technology.

A kind of dual-purpose solar architecture-integral heat collector, including heat collector main body, water pipe, attemperater and Electric current follower, described heat collector main body includes hull cell, glass cover-plate, absorber plate, hot type pipe and superconduction Heat pipe, described hull cell, glass cover-plate and absorber plate stacking setting, described hot type pipe is distributed under absorber plate Portion, described super heat-conductive pipe is located at hot type pipe lower end, and described heat collector body top and bottom are respectively equipped with outlet And water inlet, described water inlet front end is provided with water circulating pump, described hull cell two sides be coated with positive metal electrode and Negative metal electrode, described electric current follower connects the both positive and negative polarity of hull cell by wire.

Preferably, described hull cell is amorphous silicon film battery, specifically by p-type doped layer, amorphous silicon intrinsic Layer and n-type doping layer form.

Preferably, described hot type pipe is the metal tube of parallel arrangement, and is connected with absorber plate by welding manner.

Preferably, described glass cover-plate is a kind of PMMA lucite.

Preferably, described heat collector main body is provided around energy storage fiber heat-insulation layer.

The beneficial effects of the utility model: this kind of dual-purpose solar architecture-integral heat collector, by this kind of structure Design, when solar irradiation is mapped in heat collector main body, hull cell passes through material structure and electrical principles by the sun Electric energy can be converted to, and by the positive and negative electrode on its two sides, electric energy is derived, and the sun that absorber plate will absorb Can be converted into heat energy and be delivered to hot type pipe, hot type pipe transfers thermal energy to super heat-conductive pipe again, and super heat-conductive pipe is heated vapour The water changed mutually and import with water inlet pipe carries out heat exchange, and is discharged by outlet pipe, by water circulating pump, permissible Realize the intrinsic water of heat collection body and the water rate control in attemperater, thus it be controlled to realize water temperature, is worthy to be popularized, Described hull cell is amorphous silicon film battery, specifically by p-type doped layer, amorphous silicon intrinsic layer and n-type doping Layer composition, produces cost by simplest hull cell by this one-tenth and reduces, and maximally utilize solar energy resources, Described hot type pipe is the metal tube of parallel arrangement, and is connected with absorber plate, by hot type pipe by welding manner Heat conductivility, effectively can must transmit heat, it is to avoid heat changes damage in a large number between absorber plate and super heat-conductive pipe Mistake causes waste, described glass cover-plate to be a kind of PMMA lucite, is compared to simple glass, this material Transparency is high, and higher-strength, described heat collector main body can be kept under the high temperature conditions to be provided around energy storage fiber Heat-insulation layer, can reduce thermal loss further by energy storage fiber heat-insulation layer, is maximized by heat and is delivered to water In.

Accompanying drawing explanation

Fig. 1 is the heat collector body of a kind of dual-purpose solar architecture-integral heat collector described in the utility model The structural representation of part.

Fig. 2 is all parts of a kind of dual-purpose solar architecture-integral heat collector described in the utility model Connection diagram.

Fig. 3 is the hull cell portion of a kind of dual-purpose solar architecture-integral heat collector described in the utility model The structural representation divided.

Wherein: 1 heat collector body, 2 hull cells, 3 glass cover-plates, 4 absorber plates, 5 hot types Pipe, 6 super heat-conductive pipes, 7 outlet pipes, 8 water inlet pipes, 9 water circulating pumps, 10 positive metal electrodes, 11 Negative metal electrode, 12 attemperaters, 13 energy storage fiber heat-insulation layers, 14 electric current followers, 15 lead Line, 16 water pipes, 17 p-type doped layers, 18 amorphous silicon intrinsic layers, 19 n-type doping layers.

Detailed description of the invention

For the technological means making this utility model realize, creation characteristic, reach purpose and effect and be readily apparent from Solve, below in conjunction with detailed description of the invention, this utility model is expanded on further.

As shown in Figure 1, Figure 2 and Figure 3, a kind of dual-purpose solar architecture-integral heat collector, including heat collector Main body 1, water pipe 16, attemperater 12 and electric current follower 14, described heat collector main body 1 includes thin-film electro Pond 2, glass cover-plate 3, absorber plate 4, hot type pipe 5 and super heat-conductive pipe 6, described hull cell 2, glass cover Plate 3 and absorber plate 4 stacking are arranged, and described hot type pipe 5 is distributed in absorber plate 4 bottom, described super heat-conductive pipe 6 Being located at hot type pipe 5 lower end, described heat collector main body 1 upper and lower is respectively equipped with outlet 7 and water inlet 8, Described water inlet 8 front end is provided with water circulating pump 9, and described hull cell 2 two sides is coated with positive metal electrode 10 He Negative metal electrode 11, described electric current follower 14 connects the both positive and negative polarity of hull cell 2 by wire 15.Should Plant dual-purpose solar architecture-integral heat collector, designed by this kind of structure, when solar irradiation is mapped to heat collector master On body 1, hull cell 2 converts the solar into electric energy by material structure and electrical principles, and by its two Electric energy is derived by the positive and negative electrode in face, and the solar energy absorbed is converted into heat energy and is delivered to hot type by absorber plate 4 Pipe 5, hot type pipe 5 transfers thermal energy to super heat-conductive pipe 6 again, super heat-conductive pipe 6 be heated vapour phaseization and and water inlet pipe Lead 7 water entered and carry out heat exchange, and discharged, by water circulating pump 9, it is possible to achieve thermal-arrest by outlet pipe 8 Water in body body 1 and the water rate control in attemperater 12, thus it is controlled to realize water temperature, is worthy to be popularized.

In the present embodiment, described hull cell 2 is amorphous silicon film battery, specifically by p-type doped layer 17, Amorphous silicon intrinsic layer 18 and n-type doping layer 19 form, and by simplest hull cell 2, this one-tenth are produced cost Reducing, and maximally utilize solar energy resources, described hot type pipe 5 is the metal tube of parallel arrangement, and by weldering The mode that connects is connected with absorber plate 4, by the heat conductivility of hot type pipe 5, and can be effectively at absorber plate 4 and super Heat is transmitted, it is to avoid a large amount of conversion loss of heat causes waste, and described glass cover-plate 3 is one between heat pipe 6 Planting PMMA lucite, be compared to simple glass, this material transparent degree is high, and can protect under the high temperature conditions Holding higher-strength, described heat collector main body 1 is provided around energy storage fiber heat-insulation layer 13, is protected by energy storage fiber Temperature layer 13 can reduce thermal loss further, is maximized by heat and is delivered in water.

Based on above-mentioned, this utility model can convert the solar into electric energy by material structure and electrical principles, And derived by electric energy by the positive and negative electrode on its two sides, then pass through absorber plate, hot type pipe and super heat-conductive pipe by the sun The water that the heat that can change and water inlet pipe import swaps, and it is controlled to realize water temperature, and this heat collector leads to Cross two ways and utilize solar energy, it is achieved maximum resource utilization, be worthy to be popularized.

As known by the technical knowledge, this utility model can be by other essence without departing from its spirit or necessary special The embodiment levied realizes.Therefore, embodiment disclosed above, for each side, is all citing Illustrate, be not only.All in the range of this utility model or be equal in the range of this utility model Change be all included in the utility model.

Claims (5)

1. a dual-purpose solar architecture-integral heat collector, it is characterised in that include heat collector main body, water Pipe, attemperater and electric current follower, described heat collector main body include hull cell, glass cover-plate, absorber plate, Hot type pipe and super heat-conductive pipe, described hull cell, glass cover-plate and absorber plate stacking setting, described hot type pipe divides Being distributed in absorber plate bottom, described super heat-conductive pipe is located at hot type pipe lower end, described heat collector body top and lower part Not being provided with outlet and water inlet, described water inlet front end is provided with water circulating pump, and described hull cell two sides is coated with Positive metal electrode and negative metal electrode, described electric current follower connects the both positive and negative polarity of hull cell by wire.

A kind of dual-purpose solar architecture-integral heat collector the most according to claim 1, it is characterised in that: Described hull cell is amorphous silicon film battery, specifically by p-type doped layer, amorphous silicon intrinsic layer and n-type doping Layer composition.

A kind of dual-purpose solar architecture-integral heat collector the most according to claim 1, it is characterised in that: Described hot type pipe is the metal tube of parallel arrangement, and is connected with absorber plate by welding manner.

A kind of dual-purpose solar architecture-integral heat collector the most according to claim 1, it is characterised in that: Described glass cover-plate is a kind of PMMA lucite.

A kind of dual-purpose solar architecture-integral heat collector the most according to claim 1, it is characterised in that: Described heat collector main body is provided around energy storage fiber heat-insulation layer.