CN202214914U - Heat collecting module and heat collecting system of solar building glass integration - Google Patents

Abstract

The utility model relates to a heat collecting module and a heat collecting system of solar building glass integration, which combines solar photo-thermal industries and construction industries. The technical scheme is that the heat collecting module of the solar building glass integration is characterized by comprising an outer layer protection glass, a heat collecting plate and an inner insulation glass layer which are combined together, and the heat collecting plate is located in the middle. A plating hot layer is arranged on the heat collecting plate close to one side of the outer layer protection glass, and inert gas is arranged in an outer layer gap between the heat collecting plate and the outer layer protection glass. Insulation materials are arranged in an inner layer gap between the heat collecting plate and the outer layer protection glass. Hot tube flow channels and a hot tube main tube are arranged in the heat collecting plate, the hot tube main tube is connected with a plurality of hot tube flow channels. The hollow hot tube flow channels are connected with an annular hollow hot tube main tube interlayer of the hot tube main tube. The heat collecting module and the heat collecting system of the solar building glass integration have the advantages of being convenient to combine and capable of being well integrated with a building, effectively solving the problems that an existing like product is not attractive in appearance and difficult to maintain and utilize and replacing curtain wall glass.

Description

Solar building glass integrated heat-collection module and collecting system

Technical field:

Solar building glass integrated heat-collection module and collecting system that the utility model design solar energy optical-thermal industry combines with building trade.

Background technology:

Existing market is not released this series products as yet, and the solar building integrated product on the market is flat board or vacuum tube collector.

Heat-collecting effect is good, and technology is ripe relatively, the production technology comparative maturity.But mounting means is more single; Independent heat collector is hung on external wall or is placed on roof, destroy the building main body and beautify moulding, be subject to architectural image; Installation form is little with the brought into play space that building changes, and can not product well be incorporated building itself.For the similar products of having applied for, patented products such as curtain wall formula solar energy, intention is better, can product be incorporated building as a building block.Through specialty analysis, because collecting efficiency is low, the product intermediate duct connects loaded down with trivial details, does not have the reason similar products such as production technology of operability to fail to push market always.

The utility model content:

The purpose of the utility model is: for a kind of product is provided; This product is as a module of skin structure; Directly incorporate building with miscellaneous part; Well solved the regular solar product because a variety of causes destroys the technical problem of whole building image, this product can replace cladding glass or other exterior wall main body building material products.

In order to reach as above purpose; The utility model is taked following technical scheme: comprise outer cover plate, thermal-arrest plate, internal layer insulation glass three parts; Three unit constructions thermal-arrest plate together are positioned at the middle part; Said thermal-arrest plate has coatings near outer cover plate one side, and there is inert gas the outer lamellar spacing between said thermal-arrest plate and the outer cover plate; There are high transmission rate heat insulating material or inert gas in interior lamellar spacing between said thermal-arrest plate and the outer cover plate; Said thermal-arrest intralamellar part has heat pipe runner heat pipe to be responsible for, and said heat pipe is responsible for and is linked to each other with a plurality of heat pipe runners, and said heat pipe runner hollow also links to each other with heat pipe person in charge interlayer that heat pipe is responsible for ring-type hollow.

The further technical scheme of the utility model is: said heat pipe runner is responsible for vertical with heat pipe.

The further technical scheme of the utility model is: said thermal-arrest plate is docked with interior half sheet thermal-arrest plate by outer half sheet thermal-arrest plate to be combined.

The further technical scheme of the utility model is: said coatings is the coatings that selectivity absorbs sunshine.

The further technical scheme of the utility model is: the preferred calico line of said outer cover plate hangs down iron tempered glass, the preferred high-boron-silicon glass of said thermal-arrest layer.

The further technical scheme of the utility model is: said outer cover plate, thermal-arrest plate, internal layer insulation glass three parts are through the clamping of alloy draw-in groove.

Solar building glass integrated heat-collection system; It is characterized in that: said system comprises an above solar building glass integrated heat-collection module and heat exchange station; A plurality of solar building glass integrated heat-collection modules connect through securing member, and it all links to each other with heat exchange station.

The further technical scheme of native system utility model is: have heat pipe heating gate and heat pipe to be responsible on the said heat exchange station and conduct heat, the pressing flange is arranged on the said heat exchange station, the sealed silicon cushion rubber is arranged between pressing flange and the heat exchange station.

The further technical scheme of native system utility model is: there is heat exchange station low capacity water storage box said heat exchange station inside; It links to each other with hot water pipeline with cold water pipes; Said cold water pipes has cold water inlet to be positioned at the heat exchange station outside, and said hot water pipeline has hot water outlet to be positioned at the heat exchange station outside.

The further technical scheme of native system utility model is: said cold water pipe has cold water turbulent flow mouth to be positioned at the inner lower floor of heat exchange box.

Adopt as above the utility model of technical scheme, have following beneficial effect: combined and instant incorporates building well; It is attractive in appearance effectively to solve present like product, and maintenance difficult drops into the shortcoming of difficulty of utiliztion ratio; Can replace exterior wall building materials such as cladding glass, skylight.

Description of drawings: in order to further specify the utility model, below in conjunction with accompanying drawing the utility model is further specified: Fig. 1 splits assembly drawing for the structure of the module of the utility model;

Fig. 2 is the utility model heat exchange station internal construction view;

Fig. 3 is a native system utility model combining structure sketch map;

Fig. 4 makes up practical A-A to sectional drawing for the utility model; Wherein:

1. outer cover plate; 2-1. outer half sheet thermal-arrest plate; 2-2. interior half sheet thermal-arrest plate; 3. internal layer is incubated glass; 4. interior lamellar spacing; 5. coatings; 6. heat pipe runner; 7. working media inlet; 8. outer lamellar spacing; 9. heat pipe heating gate; 10. cold water inlet; 11. cold water turbulent flow mouth; 12. pressing flange; 13. sealed silicon cushion rubber; 14. heat exchange station water storage box; 15. hot water outlet; 16. heat pipe is responsible for.

The specific embodiment: in order to further specify the utility model, the specific embodiment in the face of the utility model further describes down, and described embodiment does not cause restriction to the practical implementation of the utility model; In conjunction with Fig. 1-Fig. 4:

Consider the lighting for buildings design, each floor is only installed the heat collecting module of high-absorbility below the guardrail position.Can not satisfy user's heat demand with the daylighting area of upper/lower positions at guardrail; Need to install another kind of heat collecting module and replace curtain wall (this module change production technology; Adjustment Coating Materials and technology; To absorb a part of sunshine according to wavelength selectivity, remaining light transmission heat collecting module will be reached illumination purposes).

Middle two blocks of glass are that said outer half sheet thermal-arrest plate 2-1 and interior half sheet thermal-arrest plate 2-2 adopt high-boron-silicon glass band groove to be docked at one; The pipe of butt joint moulding is pumped into low vacuum; Filling heat-conductive working medium, high-intensity alloy frame draw-in groove is put in sealing; Be that glass outer 1 is put into the alloy draw-in groove with another piece calico line tempered glass again, seal after pouring inert gas.The glass that another piece is had the high light transmittance heat insulating material alloy frame draw-in groove of packing into.Promptly can be assembled into a standalone module.Be connected through securing member between module and the module and get final product.Per three to five groups or more, dispose a built-in heat exchange station.With the heat pipe flow-path tube 16 above the copper heat pipe insert module, other one is inserted heat exchange station.There is working media said heat pipe runner 6 inside, and promptly superconducting fluid can be working medium such as conduction oil, or the lithium bromide under the low vacuum state, R235.But the utility model is not caused restriction.

So far, a small-sized collecting system assembling is accomplished.After a plurality of systems were installed, water was injected in the heat exchange station the inside, with the heat pipe heating, was power with the pump, was recycled to main line, flow back into hot water cylinder between indoor water tank again, made the user enjoy sufficient hot water.

Said coatings light transmittance 0.2-0.6 can be according to process adjustments.

Said and heat pipe main stem 6 is consistent with heat pipe heating gate 9 directions, through a built-in high efficiency copper heat pipe heat pipe heat is transferred to heat exchange station from heat collecting module.

Said cold water pipe has cold water turbulent flow mouth 11 to be positioned at the inner lower floor of heat exchange box, but water flows is more steady in the water tank, and hot property is better.

Among Fig. 1: the figure shows assembling mode, not representing it is four parts, carries out this graphic representation mode just to more clearly expressing modular structure.

Among Fig. 2: said heat exchange station and one group of solar building glass integrated heat-collection module combinations are practical, and the copper heat pipe couples together each module, at last through heat pipe heating gate 9 heating water wherein.

Among Fig. 3: the number of said one group of solar building glass integrated heat-collection module does not cause restriction to the enforcement of the utility model, can three, and can five or more.

Among Fig. 4: heat pipe runner 6 hollows also are responsible for 16 interlayers with the heat pipe that heat pipe is responsible for 16 ring-type hollows and are linked to each other, and working media is wherein arranged.

Claims (10)

1. solar building glass integrated heat-collection module; It is characterized in that: comprise outer cover plate (1), thermal-arrest plate, internal layer insulation glass (3) three parts; Three unit constructions thermal-arrest plate together are positioned at the middle part; Said thermal-arrest plate has coatings (5) near outer cover plate (1) one side, and there is inert gas the outer lamellar spacing (8) between said thermal-arrest plate and the outer cover plate (1); There are high transmission rate heat insulating material or inert gas in interior lamellar spacing (4) between said thermal-arrest plate and the outer cover plate (3); Said thermal-arrest intralamellar part has heat pipe runner (6) heat pipe to be responsible for (16), and said heat pipe is responsible for (16) and is linked to each other with a plurality of heat pipe runners (6), and said heat pipe runner (6) hollow also links to each other with the heat pipe person in charge (16) interlayer of the heat pipe person in charge (16) ring-type hollow.

2. solar building glass integrated heat-collection module as claimed in claim 1 is characterized in that: said heat pipe runner (6) is vertical with the heat pipe person in charge (16).

3. solar building glass integrated heat-collection module as claimed in claim 1 is characterized in that: said thermal-arrest plate is docked with interior half sheet thermal-arrest plate (2-2) by outer half sheet thermal-arrest plate (2-1) to be combined.

4. the described solar building glass of claim 1 integrated heat-collection module is characterized in that: said coatings (5) is the coatings that selectivity absorbs sunshine.

5. solar building glass integrated heat-collection module as claimed in claim 1 is characterized in that: the low iron tempered glass of the preferred calico line of said outer cover plate (1), the preferred high-boron-silicon glass of said thermal-arrest layer.

6. solar building glass integrated heat-collection module as claimed in claim 1 is characterized in that: said outer cover plate (1), thermal-arrest plate, internal layer insulation glass (3) three parts are through the clamping of alloy draw-in groove.

7. solar building glass integrated heat-collection system; It is characterized in that: said system comprises the described solar building glass of above claim 1 an integrated heat-collection module and heat exchange station; A plurality of solar building glass integrated heat-collection modules connect through securing member, and it all links to each other with heat exchange station.

8. solar building glass integrated heat-collection as claimed in claim 7 system; It is characterized in that: have heat pipe heating gate (9) and heat pipe to be responsible for (16) on the said heat exchange station and conduct heat; Pressing flange (12) is arranged on the said heat exchange station, sealed silicon cushion rubber (13) is arranged between pressing flange (12) and the heat exchange station.

9. solar building glass integrated heat-collection as claimed in claim 7 system; It is characterized in that: there is heat exchange station low capacity water storage box (14) said heat exchange station inside; It links to each other with hot water pipeline with cold water pipes; Said cold water pipes has cold water inlet (10) to be positioned at the heat exchange station outside, and said hot water pipeline has hot water outlet (15) to be positioned at the heat exchange station outside.

10. like the arbitrary described solar building glass integrated heat-collection of claim 7-9 system, it is characterized in that: said cold water pipe has cold water turbulent flow mouthful (11) to be positioned at the inner lower floor of heat exchange box.

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