CN103017354A - Hot air type building integrated roof overall heat collector - Google Patents

Abstract

The invention discloses a hot air type building integrated roof overall heat collector which comprises a border, heat collection air duct pipes and glass cover boards. The heat collection air duct pipes are spliced side by side to form heat collection core plates; the heat collection core plates are in end-to-end sealing connection and in side-by-side sealing connection to form an integral heat collection assembly; the heat collection assembly is arranged in the border; and the glass cover boards are fixed on the border by matrix-type arrangement and sealing splicing and also seal the heat collection core plates. According to the invention, the overall heat collector with a random large area can be implemented; the hot air type building integrated roof overall heat collector has high sealing and heat collecting effects, can be used as an integral roof and is applied to the fields of industry, agriculture, buildings and the like; each part can adopt a standard structural part; the hot air type building integrated roof overall heat collector has a simple structure, is convenient to install, is also convenient to transport and can be directly installed in place on the installation site.

Description

The whole heat collector of hot air type architecture-integral roofing

 

Technical field

The invention belongs to the solar energy optical-thermal application, relating in particular to can be for integrated roofing heat collector industrial or agricultural or building.

Background technology

Flat plate collector is mainly used in resident living at present, and such as aspects such as solar water heaters, area is all about 2 square metres.And in industrial or agricultural, often need large-area heat collector to collect solar energy, therefore normally a plurality of heat collectors are connected by special connector and improve collector area, take 50m * 200m area as example, do like this and have following shortcoming: 1, about 5000 heat collectors of needs are formed by connecting, can exist like this connector about 10000 to be exposed in the air, cause heat loss, greatly reduce collecting efficiency; 2, can not keep out wind and rain as roofing, and the roof is caused very large mass loading in the inevasible slit that exists between a plurality of like this heat collectors; 3, single heat collector finished product takes up room morely, causes transportation very inconvenient, and because glass is fragile article, if the area of doing is excessive, causes easily fragmentation, is difficult to assembling.

Summary of the invention

Goal of the invention: for problem and the defective of above-mentioned existence, the present invention proposes the whole heat collector of a kind of integrated roofing, and this heat collector can directly apply to the fields such as industry, agricultural or building; Can directly utilize standard component installing with installing; And be the integrated design, have good sealing and Heat-collecting effect.

Technical scheme: to achieve the above object of the invention, the present invention is by the following technical solutions: the whole heat collector of a kind of hot air type architecture-integral roofing, comprise frame, thermal-arrest wind channel tube and glass cover-plate, described thermal-arrest wind channel tube splices the composition heat-collecting core board side by side, this heat-collecting core board is tightly connected and is tightly connected side by side by head and the tail and consists of whole thermal-arrest assembly, and this thermal-arrest assembly is located in the frame; Described glass cover-plate is arranged by matrix form and the sealing splicing, is fixed on the frame, simultaneously heat-collecting core board is sealed.The width of described heat-collecting core board is identical with glass cover-plate; The length of heat-collecting core board is the integral multiple of glass cover-plate.

Further improve, described frame and heat-collecting core board and glass cover-plate adopt and are tightly connected, the sealing syndeton comprises frame glazing bead, central layer link, heat insulating strip and rubber blanket, described frame is provided with the flange for the bearing glass cover plate, this flange bottom is provided with heat insulating strip, and this heat insulating strip and heat-collecting core board overlap joint formation sealing; Described glass cover-plate ora terminalis cover has rubber blanket and is placed on the flange of frame; Described frame glazing bead is fixedly connected with frame by pegging graft, and with the glass cover-plate fixing seal; Described central layer link two ends are connected with heat-collecting core board with frame respectively.

Further improve, " L " font that described frame glazing bead is integrated, and two parts length of bending respectively with the length of glass cover-plate and wide identical.

Further, the structure that described glass cover-plate seals splicing from beginning to end comprises ceiling molding and short lower press strip, and press strip is located at adjacent glass cover plate splice place under the described weak point, and the press strip bottom is provided with heat insulating strip under short, and this heat insulating strip and heat-collecting core board overlap joint form sealing; Ceiling molding is fixedly connected with short lower press strip by inserting mode, and with the glass cover-plate fixing seal.

Further, the structure that described heat-collecting core board is tightly connected from beginning to end comprises ceiling molding, short lower press strip, central layer link and rubber seal, press strip is located at bottom, glass cover-plate head and the tail junction under the described weak point, and short lower press strip bottom is provided with heat insulating strip, and this heat insulating strip and heat-collecting core board overlap joint form sealing; Ceiling molding then is fixedly connected with short lower press strip by the mode of pegging graft, and with the glass cover-plate fixing seal; And central layer link two ends are connected with heat-collecting core board with short lower press strip respectively; Described rubber seal is enclosed within the junction of heat-collecting core board.

Further, the structure that described heat-collecting core board is tightly connected side by side comprises ceiling molding and long lower press strip, press strip is along laterally being located between the two adjacent side by side heat-collecting core boards under the described length, and support is in bottom, adjacent two glass cover-plate junctions, described ceiling molding is fixedly connected with long lower press strip by the mode of pegging graft, and with the glass cover-plate fixing seal; The press strip both sides are respectively equipped with heat insulating strip under the described length simultaneously, and this heat insulating strip and heat-collecting core board overlap joint form sealing.

Beneficial effect: compared with prior art, the present invention has the following advantages: can realize any large-area whole heat collector, have very high sealing and Heat-collecting effect, and roofing as a whole, and be applied to the fields such as industrial or agricultural and building; Each parts can adopt the standard knots member, and is simple in structure, easy for installation, and simultaneously convenient transportation can installed on the spot directly installation of ground.

Description of drawings

Fig. 1 is structural representation of the present invention;

Fig. 2 is the cutaway view Amplified image of A-A direction among Fig. 1;

Fig. 3 is the cutaway view Amplified image of B-B direction among Fig. 1;

Fig. 4 is the cutaway view Amplified image of C-C direction among Fig. 1;

Fig. 5 is the cutaway view Amplified image of D-D direction among Fig. 1.

Wherein, frame 1, glass cover-plate 2, heat-collecting core board 3, frame glazing bead 4, central layer link 5, heat insulating strip 6, rubber blanket 7, ceiling molding 8, short lower press strip 9, long lower press strip 10, flange 11, brace summer 12, rubber seal 13.

The specific embodiment

Below in conjunction with the drawings and specific embodiments, further illustrate the present invention, should understand these embodiment only is used for explanation the present invention and is not used in and limits the scope of the invention, after having read the present invention, those skilled in the art all fall within the application's claims limited range to the modification of the various equivalent form of values of the present invention.

The whole heat collector of hot air type architecture-integral roofing of the present invention, main inventive point comprises: 1. utilize multiple pieces of glass cover plate 2 to be spliced into the larger monolithic glass plate of area, utilize simultaneously the frame 1 of a plurality of normal structures to be spliced into more large-area housing, polylith heat-collecting core board 3 is joined end to end and be connected to form more large-area thermal-arrest assembly side by side, and this thermal-arrest assembly is located in the frame 1, the monolithic glass plate is covered, thereby obtain any large-area whole heat collector, be applicable to the fields such as industry, agricultural and building; 2. local to splicing everywhere, adopt the standard knots member to carry out effective sealing, reach waterproof, heat insulation effect; 3. in sealing, large-area whole heat collector is drawn the isolation of piece subregion, thereby circulation improves Heat-collecting effect in reducing; 4. whole heat collector all is the parts that adopt normal structure, and directly installation of ground is being installed, thereby can greatly make things convenient for transportation, reduces cost.

As shown in Figure 1, the whole heat collector of hot air type architecture-integral roofing, comprise frame 1, thermal-arrest wind channel tube and glass cover-plate 2, wherein frame 1 adopts the 6063T5 extruding aluminium alloy sectional, the thermal-arrest wind channel tube adopts the aluminium alloy extruded moulding of 6063T5 air channel, and the black oxidation processing is carried out on the surface, and glass cover-plate 2 is the tempering flat glass behind the 4mm.Shown in frame 1 be strip, and splice and form rectangular housing; Described thermal-arrest wind channel tube splices side by side and forms heat-collecting core board 3, and this heat-collecting core board 3 is tightly connected and is tightly connected side by side by head and the tail again and consists of whole thermal-arrest assembly, and this thermal-arrest assembly is located in the frame 1 by brace summer 12; Described glass cover-plate 2 is arranged by matrix form and the sealing splicing, is fixed on the frame 1, simultaneously with heat-collecting core board 3 sealings.For convenient differentiation zone and installation, the length of heat-collecting core board 3 is 3 times of glass cover-plate 2, and width is then identical with glass cover-plate 2, thereby so that every heat-collecting core board 3 needs 3 glass cover-plates 2 to cover.Below describe the hermetically-sealed construction of each junction in detail, wherein:

As shown in Figure 2, frame 1 is tightly connected with heat-collecting core board 3 and 2 of glass cover-plates, comprise frame glazing bead 4, central layer link 5, heat insulating strip 6 and rubber blanket 7, wherein frame glazing bead 4 also can form " L " font for strip, described frame 1 is provided with the flange 11 for bearing glass cover plate 2, these flange 11 bottoms are provided with heat insulating strip 6, and this heat insulating strip 6 forms sealing with heat-collecting core board 3 overlap joints; Described glass cover-plate 2 ora terminalis covers have rubber blanket 7 and are placed on the flange 11 of frame 1; Described frame glazing bead 4 is fixedly connected with frame 1 by pegging graft, and with glass cover-plate 2 fixing seals; Are connected with heat-collecting core board with frame 1 respectively and are connected in described central layer link 5 two ends.

As shown in Figure 3, glass cover-plate 2 head and the tail sealings are spliced, and comprise ceiling molding 8 and short lower press strip 9, and press strip 9 is located at 2 splicings place of adjacent glass cover plate under the described weak point, and press strip 9 bottoms are provided with heat insulating strip 6 under short, and this heat insulating strip 6 forms sealing with heat-collecting core board 3 overlap joints; Ceiling molding 8 is fixedly connected with short lower press strip 9 by inserting mode, and with glass cover-plate 2 fixing seals.

As shown in Figure 4, and the structure that heat-collecting core board 3 head and the tail are tightly connected, seal the basic identical of splicing with glass cover-plate 2 head and the tail, main difference is at adjacent heat-collecting core board 3 covers rubber seal 13 to be arranged, and also by central layer link 5 glass cover-plate 2 is supportted above heat-collecting core board 3 in addition.

As shown in Figure 5, the structure that heat-collecting core board 3 laterally seals side by side, comprise ceiling molding 8 and long lower press strip 10, press strip 10 is along laterally being located between the two adjacent side by side heat-collecting core boards 3 under the described length, and support is in bottom, adjacent two glass cover-plates 2 junctions, described ceiling molding 8 is fixedly connected with long lower press strip 10 by the mode of pegging graft, and with glass cover-plate 2 fixing seals; Press strip 10 both sides are respectively equipped with heat insulating strip 6 under the described length simultaneously, and this heat insulating strip 6 forms sealing with heat-collecting core board 3 overlap joints.

By above-mentioned design, the heat absorption capacity of whole heat collector is improved, and has reduced the connecting portion between a plurality of unit flat plate collector, reduces scattering and disappearing of leakage point and heat, and can directly use as the roof.Sealing is simple in structure, easy for installation; Improve whole heat collector sealing on the one hand, adopt simultaneously heat insulating strip 6 that whole heat collector is divided into little cell mesh, thereby reduce circulation in it, improve Heat-collecting effect.

Claims (6)

1. the whole heat collector of a hot air type architecture-integral roofing, it is characterized in that: comprise frame, thermal-arrest wind channel tube and glass cover-plate, described thermal-arrest wind channel tube splices the composition heat-collecting core board side by side, this heat-collecting core board is tightly connected and is tightly connected side by side by head and the tail and consists of whole thermal-arrest assembly, and this thermal-arrest assembly is located in the frame; Described glass cover-plate is arranged by matrix form and the sealing splicing, is fixed on the frame, simultaneously heat-collecting core board is sealed; The width of described heat-collecting core board is identical with glass cover-plate; The length of heat-collecting core board is the integral multiple of glass cover-plate.

2. the whole heat collector of described hot air type architecture-integral roofing according to claim 1, it is characterized in that: described frame and heat-collecting core board and glass cover-plate adopt and are tightly connected, the sealing syndeton comprises frame glazing bead, central layer link, heat insulating strip and rubber blanket, described frame is provided with the flange for the bearing glass cover plate, this flange bottom is provided with heat insulating strip, and this heat insulating strip and heat-collecting core board overlap joint formation sealing; Described glass cover-plate ora terminalis cover has rubber blanket and is placed on the flange of frame; Described frame glazing bead is fixedly connected with frame by pegging graft, and with the glass cover-plate fixing seal; Described central layer link two ends are connected with heat-collecting core board with frame respectively.

3. the whole heat collector of described hot air type architecture-integral roofing according to claim 2 is characterized in that: " L " font that described frame glazing bead is integrated, and two parts length of bending respectively with the length of glass cover-plate and wide identical.

4. the whole heat collector of described hot air type architecture-integral roofing according to claim 2, it is characterized in that: the structure that described glass cover-plate seals splicing from beginning to end comprises ceiling molding and short lower press strip, press strip is located at adjacent glass cover plate splice place under the described weak point, and short lower press strip bottom is provided with heat insulating strip, and this heat insulating strip and heat-collecting core board overlap joint form sealing; Ceiling molding is fixedly connected with short lower press strip by inserting mode, and with the glass cover-plate fixing seal.

5. the whole heat collector of described hot air type architecture-integral roofing according to claim 2 is characterized in that; The structure that described heat-collecting core board is tightly connected from beginning to end comprises ceiling molding, short lower press strip, central layer link and rubber seal, press strip is located at bottom, glass cover-plate head and the tail junction under the described weak point, and short lower press strip bottom is provided with heat insulating strip, and this heat insulating strip and heat-collecting core board overlap joint form sealing; Ceiling molding then is fixedly connected with short lower press strip by the mode of pegging graft, and with the glass cover-plate fixing seal; And central layer link two ends are connected with heat-collecting core board with short lower press strip respectively; Described rubber seal is enclosed within the junction of heat-collecting core board.

6. the whole heat collector of described hot air type architecture-integral roofing according to claim 2, it is characterized in that: the structure that described heat-collecting core board is tightly connected side by side comprises ceiling molding and long lower press strip, press strip is along laterally being located between the two adjacent side by side heat-collecting core boards under the described length, and support is in bottom, adjacent two glass cover-plate junctions, described ceiling molding is fixedly connected with long lower press strip by the mode of pegging graft, and with the glass cover-plate fixing seal; The press strip both sides are respectively equipped with heat insulating strip under the described length simultaneously, and this heat insulating strip and heat-collecting core board overlap joint form sealing.

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