CN201050899Y - Plate-type solar heat-collecting device - Google Patents

Abstract

The utility model discloses a plate solar heat collector, which comprises a thermal insulation layer and a transparent cover plate, while the thermal insulation layer is connected with the cover plate. The transparent cover plate comprises at least one layer of transparent units, while two nearby layers of transparent units are insulated from heat via gas or vacuum. The thermal insulation layer is provided with a heat conductive fluid channel in which heat conductive fluid flows. The face of the layer of transparent units most near the thermal insulation fluid channel near the heat conductive fluid channel is adhered with a heat adsorption layer. The face of the heat adsorption layer most near the heat conductive fluid is adhered with a protective layer contacted with the heat conductive fluid. The utility model can reduce the temperature difference between the heat adsorption layer and the heat conductive fluid, to improve heat transfer efficiency.

Description

Flat-plate solar heat collector

Technical field

The utility model relates to a kind of flat-plate solar heat collector.

Background technology

Solar thermal collector absorbs by the optical radiation energy of heat-sink shell to sunshine, and utilizes the greenhouse effects principle that conversion of solar energy is heat energy.Existing solar thermal collector has flat-plate solar heat collector and Columnating type solar thermal collector etc.Flat-plate solar heat collector mainly is made up of housing, transparent cover plate, heat-conducting plate and heat-insulation layer, scribbles heat-sink shell on heat-conducting plate.Can be divided into single or multiple lift light penetrating object flat-plate solar heat collector again by the transparent cover plate division.

The structure of existing individual layer light penetrating object flat-plate solar heat collector as shown in Figure 1.The transparent cover plate of this individual layer flat-plate solar heat collector is made of one deck light penetrating object 81.Sunshine projects after by light penetrating object 81 has selectivity or nonselective heat-sink shell 84, and heat-sink shell 84 is converted into heat energy with radiation luminous energy, and simultaneously, its temperature raises.Heat-sink shell 84 is passed to heat-conducting fluid in the heat-conducting fluid passage 87 by heat-conducting plate 85 with heat energy again.85 pairs of heat-sink shells 84 of heat-conducting plate also play a part support.The back side at light penetrating object 81 also can be attached with selective reflecting layer 88, to reduce the heat loss of heat-sink shell radiation.Arranged partly that in non-daylighting heat-insulation layer 86 is to reduce radiation loss.

Fig. 2 shows the structure of existing double-deck light penetrating object flat-plate solar heat collector.In Fig. 2, transparent cover plate is made of two-layer light penetrating object 91 and 93, is provided with a vacuum heat-insulating layer 92 between this two-layer light penetrating object.And layout and Fig. 1 of heat-sink shell 94, heat-conducting plate 95, heat-conducting fluid passage 97 and heat-insulation layer 96 are similar.

Fig. 3 shows the heat-sink shell X4 of existing flat-plate solar heat collector and a kind of typical structural arrangement of heat-conducting plate X5.

The common feature of above-mentioned existing flat-plate solar heat collector is, light arrives heat-sink shell after by one or more layers light penetrating object, and heat-sink shell is attached on the heat-conducting plate, and the heat-conducting fluid in heat-conducting plate and the heat-conducting fluid passage carries out heat exchange.There is following shortcoming in it: because of heat-conducting plate produces the thermally conductive heat resistance, make to have the bigger temperature difference between heat-sink shell and the heat-conducting fluid, thereby produce the irreversible loss that conducts heat; Simultaneously, the big temperature difference also makes for identical heat-conducting fluid temperature, requires the temperature of heat-sink shell higher.And the high heat-sink shell of temperature can produce more radiation to environment.Above disadvantages affect the efficient of solar thermal collector, and simultaneously, the use of heat-conducting plate and corresponding heat-conducting fluid passage has also increased the cost of solar thermal collector greatly.For flat-plate solar heat collector, heat-conducting plate and heat-conducting fluid passage account for the about more than 30% of whole heat collector cost.And owing to the requirement that heat-conducting plate is had support strength and rigidity, heat-conducting plate must keep certain thickness, and thermally conductive heat resistance that this has further increased heat-conducting plate has reduced collector efficiency.

Summary of the invention

The purpose of this utility model is to overcome the above-mentioned defective of prior art, and a kind of temperature difference that can reduce between heat-sink shell and the heat-conducting fluid is provided, thereby improves the flat-plate solar heat collector of heat transfer efficiency.

The technical solution of the utility model is: a kind of flat-plate solar heat collector, and this solar thermal collector comprises heat-insulation layer and transparent cover plate, heat-insulation layer is connected with transparent cover plate; Transparent cover plate comprises one deck light penetrating object at least, adopts gas or vacuum insulation between the adjacent every two-layer light penetrating object, wherein, is formed with the heat-conducting fluid passage on heat-insulation layer, and heat-conducting fluid flows in the heat-conducting fluid passage; On that layer light penetrating object of the most close heat-conducting fluid passage one side close, be attached with heat-sink shell with the heat-conducting fluid passage; One side at the close heat-conducting fluid of heat-sink shell is attached with protective layer; Protective layer contacts with heat-conducting fluid.

The beneficial effects of the utility model are: the utility model with heat-sink shell attached on that layer light penetrating object of the most close heat-conducting fluid passage one side close with the heat-conducting fluid passage; and to substitute heat-conducting plate and the direct contact heat-exchanging of heat-conducting fluid attached to the protective layer on heat-sink shell surface; protective layer does not need to support heat-sink shell as heat-conducting plate of the prior art; thereby can do very thinly; so both greatly reduced the temperature difference between heat-sink shell and the heat-conducting fluid; reduced the heat exchange irreversible loss between heat-sink shell and heat-conducting fluid; improved the heat exchanger effectiveness between heat-sink shell and heat-conducting fluid; simultaneously save materials again, reduced the cost of product.

Description of drawings

Fig. 1 is the structural representation of existing individual layer light penetrating object flat-plate solar heat collector;

Fig. 2 is the structural representation of existing double-deck light penetrating object flat-plate solar heat collector;

Fig. 3 is a kind of heat-sink shell of existing flat-plate solar heat collector and the structural representation of heat-conducting plate;

Fig. 4 is the structural representation of first kind of embodiment of the utility model flat-plate solar heat collector;

Fig. 5 is the structural representation of second kind of embodiment of the utility model flat-plate solar heat collector.

The specific embodiment

Fig. 4 is the structural representation of first kind of embodiment of flat-plate solar heat collector of the present utility model.As shown in the figure, this flat-plate solar heat collector comprises transparent cover plate 1A, and transparent cover plate 1A is made of two-layer light penetrating object 11,13 up and down, is provided with an air heat insulating layer or vacuum heat-insulating layer 12 between light penetrating object 11 and light penetrating object 13.Below light penetrating object 11, be provided with heat-insulation layer 16.Heat-insulation layer 16 is connected with light penetrating object 11,13.Wherein, formed a plurality of heat-conducting fluid passages 17 on heat-insulation layer 16, heat-conducting fluid flows in heat-conducting fluid passage 17.Be attached with heat-sink shell 14 in light penetrating object 13 and heat-conducting fluid passage 17 close one sides, adhered to protective layer 15 at heat-sink shell 14 near the one side of heat-conducting fluids, protective layer 15 contacts with heat-conducting fluid in the heat-conducting fluid passage 17.Sunshine is by shining on the heat-sink shell 14 behind the light penetrating object 11,13, and wherein, most of solar radiant energy is absorbed by heat-sink shell 14, and changes heat energy into, passes to heat-conducting fluid in the heat-conducting fluid passage 17 by protective layer 15 then.

Fig. 5 is the structural representation of second kind of embodiment of flat-plate solar heat collector of the present utility model.The difference of this embodiment and first kind of embodiment is that transparent cover plate is made of one deck light penetrating object 21.Below light penetrating object 21, be provided with heat-insulation layer 26.Heat-insulation layer 26 is connected with light penetrating object 21.Formed a plurality of heat-conducting fluid passages 27 on heat-insulation layer 26, heat-conducting fluid flows in heat-conducting fluid passage 27.Be attached with heat-sink shell 24 in light penetrating object 21 and heat-conducting fluid passage 27 close one sides, adhered to protective layer 25 at heat-sink shell 24 near the one side of heat-conducting fluids, protective layer 25 contacts with heat-conducting fluid in the heat-conducting fluid passage 27.

The utility model is that protective layer does not need to support heat-sink shell as heat-conducting plate of the prior art, so protective layer can be done very thinly with the alternative heat-conducting plate of protective layer and by protective layer and the direct contact heat-exchanging of heat-conducting fluid.Thereby, not only using significantly saving on the material, and greatly reduce temperature difference between heat-sink shell and the heat-conducting fluid, reduced the heat exchange irreversible loss between heat-sink shell and heat-conducting fluid, heat exchanger effectiveness between heat-sink shell and the heat-conducting fluid obtains to significantly improve, on the other hand, with heat-sink shell attached on that layer light penetrating object of the most close heat-conducting fluid passage one side close with the heat-conducting fluid passage, both solve the support problem of heat-sink shell, and can utilize this layer transparent body further to be incubated again.And protective layer has reduced heat-conducting fluid to the absorber coatings effect of material performance, has strengthened the stability of structure function.

Photic zone of the present utility model is made by any material in glass, lucite or the macromolecule transparent material.Euphotic quantity is not limited to above-mentioned one deck or two-layer, also can be three layers or more.Heat-conducting fluid can be water, ethylene glycol, air etc.Protective layer can be made by metal, nonmetal or synthetic material.For example, protective layer can be made by copper or heat resistant plastice, also can adopt the glass nano coating to serve as protective layer.The shape of heat-conducting fluid passage and arrangement are not limited to the mode shown in Fig. 4 or Fig. 5, for example, also can directly utilize between that layer transparent body of the heat-insulation layer of prior art and this heat-insulation layer top formed cavity as the heat-conducting fluid passage of single channel formula.

Though description of the present utility model combines certain embodiments, but it should be understood by one skilled in the art that the utility model is not limited to embodiment described here, and can carry out various modifications and variations and do not deviate from spirit and scope of the present utility model.

Claims (5)

1. flat-plate solar heat collector, described solar thermal collector comprises heat-insulation layer and transparent cover plate, described heat-insulation layer is connected with described transparent cover plate; Transparent cover plate comprises one deck light penetrating object at least, adopts gas or vacuum insulation between the adjacent every two-layer described light penetrating object, it is characterized in that, be formed with the heat-conducting fluid passage on described heat-insulation layer, heat-conducting fluid flows in described heat-conducting fluid passage; On described that layer light penetrating object of the most close heat-conducting fluid passage one side close, be attached with heat-sink shell with the heat-conducting fluid passage; One side at the close heat-conducting fluid of described heat-sink shell is attached with protective layer; Described protective layer contacts with described heat-conducting fluid.

2. flat-plate solar heat collector as claimed in claim 1 is characterized in that described transparent cover plate comprises one deck light penetrating object.

3. flat-plate solar heat collector as claimed in claim 2 is characterized in that, described light penetrating object is made by any material in glass, lucite or the macromolecule transparent material.

4. flat-plate solar heat collector as claimed in claim 1 is characterized in that described transparent cover plate comprises two-layer light penetrating object.

5. flat-plate solar heat collector as claimed in claim 4 is characterized in that, described light penetrating object is made by any material in glass, lucite or the macromolecule transparent material.

Images