CN204738462U - Portable building photovoltaic roofing - Google Patents

Abstract

The utility model provides a portable building photovoltaic roofing, be in including roofing support frame and setting roofing on the roofing support frame, the roofing has partly photovoltaic roofing that is at least, the photovoltaic roofing splices photovoltaic solar cell plate -type each other by the polylith and becomes together, fixed connection between the two adjacent photovoltaic solar cell boards, just the photovoltaic roofing inlays to be located on the roofing. Installing the photovoltaic solar cell board on light -duty timber structure roofing, forming a whole with the roofing, when bringing into play its photovoltaic function, the photovoltaic solar cell board plays the roof waterproof effect again, utilizes photovoltaic solar energy power generation to supply power for the house, reduces the energy consumption, the energy saving. Make the house have more green low carbon effect.

Description

Collapsible building photovoltaic roof

Technical field

The utility model relates to building unit technical field, particularly relates to a kind of Collapsible building photovoltaic roof.

Background technology

Existing photovoltaic technology uses under construction in a large number, but is mainly used in the glass roofing of permanent construction.When removable architectural application, usually directly solar panel is arranged on its roofing after Collapsible building is built up, like this, solar panel can protrude from roofing, be unfavorable for roof drainage, and need secondary installing, waste roofing raw material and construction.

Utility model content

The utility model provides a kind of Collapsible building photovoltaic roof, for overcoming defect of the prior art, being convenient to roof drainage, simplifying installation steps, and economizing on resources.

The utility model provides a kind of Collapsible building photovoltaic roof, comprises roof support frame and is arranged on the roofing on described roof support frame, and described roofing has a part at least for photovoltaic roof; The photovoltaic solar cell plate that described photovoltaic roof is stitched together mutually by polylith is formed; Be fixedly connected with between adjacent two photovoltaic solar cell plates, and described photovoltaic roof is embedded on described roofing.

Wherein: described roof support frame is provided with many lightgage steel joists, described photovoltaic solar cell plate is arranged on described lightgage steel joist.

Further: described lightgage steel joist is provided with multiple snap component for being removably mounted on by described photovoltaic solar cell plate on described lightgage steel joist.

Further: the cross section of described lightgage steel joist is square; Described snap component comprises buckle and screw, and described buckle has one for the connecting portion that connected by described screw and described lightgage steel joist and at least one holding section be fastened on for stoping described photovoltaic solar cell plate to be separated with described lightgage steel joist on described photovoltaic solar cell plate.

Preferably: the cross section of described buckle is Z-shaped or in falling " several " font, the horizontal limit, bottom of described buckle forms described connecting portion, and the horizontal limit, top of described buckle forms described holding section.

Particularly: described lightgage steel joist also has a dashpot, the cross section of described dashpot is c-shaped, and the opening of described dashpot is towards the direction deviating from described lightgage steel joist, and the bottom surface of described dashpot is fixedly connected with the end face of described lightgage steel joist.

Wherein: connected by sealant sealing between described photovoltaic solar cell plate.

Further: described roof support frame is fixed with levelling chock, described levelling chock has been fixedly connected sequentially roof panel and waterproof roll layer, and described levelling chock, roof panel and waterproof roll layer form described roofing jointly; Described lightgage steel joist and the photovoltaic solar cell plate be arranged on described lightgage steel joist and described roofing are tightly connected.

Particularly: the cross section of described roofing is in " people " font, and wherein the width of a roofing is comparatively large relative to the width of another side roofing, and described photovoltaic solar cell plate is embedded on the larger described roofing of width.

Further: the described photovoltaic roof that described photovoltaic solar cell slab integral is formed is positioned at the middle part of this roofing in the direction of the width, and the eaves place of this roofing is to the flashing plate be arranged with for draining.

The Collapsible building photovoltaic roof that the utility model provides, photovoltaic solar cell plate is embedded roofing, and in forming an entirety with roofing, while making photovoltaic solar cell plate play electricity generate function, serve as again roofing and play the effect being incubated and keeping out wind and rain, be positioned on the same face with roofing, be convenient to draining; And form a monolithic architecture with roofing, without the need to secondary installing solar panel, save roofing materials and construction, also facilitate replacing and the installation of Collapsible building simultaneously.

Accompanying drawing explanation

The cross-sectional structure schematic diagram of the Collapsible building photovoltaic roof that Fig. 1 provides for the utility model embodiment;

Fig. 2 is the partial enlargement structural representation of P in Fig. 1;

Fig. 3 is the partial enlargement structural representation of Q in Fig. 1;

The longitudinal section partial structurtes schematic diagram of the Collapsible building photovoltaic roof that Fig. 4 provides for the utility model embodiment;

Fig. 5 is the partial enlargement structural representation of R in Fig. 4;

Fig. 6 is the partial enlargement structural representation of S in Fig. 4;

Fig. 7 is the partial enlargement structural representation of T in Fig. 4.

Detailed description of the invention

As shown in figs. 1-7, the utility model provides a kind of Collapsible building photovoltaic roof, the roofing 2 comprising roof support frame 1 and be arranged on roof support frame, and roofing 2 has a part at least for photovoltaic roof 21; The photovoltaic solar cell plate 21a that photovoltaic roof 21 is stitched together mutually by polylith is formed; Be fixedly connected with between adjacent two photovoltaic solar cell plate 21a, and photovoltaic roof 21 is embedded on roofing 2, and forms an entirety with roofing 2.

The Collapsible building photovoltaic roof that the utility model provides, photovoltaic solar cell plate is embedded roofing, and form an entirety with roofing, while making photovoltaic solar cell plate play electricity generate function, serve as again roofing and play the effect being incubated and keeping out wind and rain, be positioned on the same face with roofing, be convenient to draining; And form a monolithic architecture with roofing, without the need to secondary installing solar panel, save roofing materials and construction, also facilitate replacing and the installation of Collapsible building simultaneously, reduce energy consumption, energy conservation, makes house have more green low-carbon effect.

The present embodiment provides a kind of concrete roof structure, as shown in Figure 1, the cross section of roofing 2 is in " people " font, and wherein the width of the first roofing 2A is comparatively large relative to the width of the second roofing 2B, and photovoltaic solar cell plate 21a is embedded on the first larger roofing 2A of width.

Wherein: roof support frame 1 is provided with many lightgage steel joists 3, photovoltaic solar cell plate 21a is arranged on lightgage steel joist 3.Lightgage steel joist 3 is lightweight, and strength and stability is higher, has comparatively high bearing capacity, and its various structures, be suitable for as install photovoltaic too can the moon cell panel base material.

Further: lightgage steel joist 3 is provided with multiple snap component 4 for being removably mounted on by photovoltaic solar cell plate 21a on lightgage steel joist 3.Easy disassembly.

Further: the cross section of lightgage steel joist 3 is square; Snap component 4 comprises buckle 41 and screw 42, and buckle 41 has one for the connecting portion 41a that connected by screw 42 and lightgage steel joist 3 and at least one holding section 41b be fastened on for stoping photovoltaic solar cell plate 21a to be separated with lightgage steel joist 3 on photovoltaic solar cell plate 21a.

Provide two kinds of concrete structures of buckle below: see Fig. 5-7, the cross section of buckle 41 is Z-shaped or in falling " several " font, the horizontal limit, bottom of buckle 41 forms connecting portion 41a, horizontal limit, the top formation holding section 41b of buckle 41.

The cross section of the buckle 41 shown in Fig. 5 and Fig. 7 is all in Z, because only having a holding section 41b, for one-sided engaging photovoltaic solar cell plate 21a, in order to adjust setting height(from bottom), stile 41c is had to being arranged with turnover on horizontal limit, the bottom of buckle 41 and connecting portion 41a, after installation, bottom 41c, end face that is direct and lightgage steel joist 3 is conflicted; The cross section of the buckle 41 shown in Fig. 6 is all in falling " several " font, and both sides are equipped with holding section 41b, for bilateral engaging photovoltaic solar cell plate 21a.Structure is relatively simple, easy to operate.

In order to increase pooling feature, lightgage steel joist 3 also has a dashpot 31, and the cross section of dashpot 31 is c-shaped, and the opening 31a of dashpot towards the direction deviating from lightgage steel joist 3, the bottom surface 31b of dashpot is fixedly connected with the end face 3a of lightgage steel joist.Lightgage steel joist 3 and dashpot 31 can form by integrated punching.

See Fig. 4, Fig. 6, wherein: be tightly connected by fluid sealant 5 between photovoltaic solar cell plate 21a.Gap between solar energy uses fluid sealant 5 to seal, and photovoltaic solar cell plate is formed an overall plate.Prevent roof leaking.

Further: roof support frame 1 is fixed with levelling chock 22, levelling chock 22 has been fixedly connected sequentially roof panel 23 and waterproof roll layer 24, and levelling chock 22, roof panel 23 and waterproof roll layer 24 form roofing 2 jointly; Lightgage steel joist 3 and the photovoltaic solar cell plate 21a be arranged on lightgage steel joist 3 and roofing 2 are tightly connected.

In the present embodiment, on wooden construction roofing, photovoltaic solar cell plate 21a is fixed on roof support frame 1 by lightgage steel joist 3, the photovoltaic roof 21 formed after installing for making photovoltaic solar cell plate 21a forms an integral roofing with all the other roofings 2, namely be positioned on the same face, need with photovoltaic roof levelling when laying roofing, levelling chock 22 is set between roof panel 23 and roofing support 1, in order to improve the water resistance of roofing, roof panel 23 lays waterproof roll layer 24, for improving the water resistance of roofing further, waterproof roll layer 24 is laying water proofing asphalt watts 25.Roof panel 23 can adopt OSB plate, uses levelling chock 22, does flat, waterproof roll layer 24 is done in OSB plate face, and be overlapped on photovoltaic panel face 21, upper berth bituminized shingle 25 by the OSB plate of periphery and photovoltaic solar cell plate 21a.Overlapping the slot place uses sealant sealing.

As shown in Figure 1, Figure 3, the integrally formed photovoltaic roof 21 of all photovoltaic solar cell plate 21a is positioned at the middle part of the first roofing 2A in the direction of the width, and the eaves place of the first roofing 2A is to the flashing plate 26 be arranged with for draining.

In photovoltaic roof 21 lower end, do weather board 27 water guide, OSB plate, waterproof roll layer, bituminized shingle etc., stay seam at weather board 27 place, waterproof roll layer 24 and the bituminized shingle 25 of weather board 27 end portion are pressed under weather board 27.

Claims (10)

1. a Collapsible building photovoltaic roof, is characterized in that, comprises roof support frame and is arranged on the roofing on described roof support frame, and described roofing has a part at least for photovoltaic roof; The photovoltaic solar cell plate that described photovoltaic roof is stitched together mutually by polylith is formed; Be fixedly connected with between adjacent two photovoltaic solar cell plates, and described photovoltaic roof is embedded on described roofing.

2. Collapsible building photovoltaic roof according to claim 1, is characterized in that: described roof support frame is provided with many lightgage steel joists, and described photovoltaic solar cell plate is arranged on described lightgage steel joist.

3. Collapsible building photovoltaic roof according to claim 2, is characterized in that: described lightgage steel joist is provided with multiple snap component for being removably mounted on by described photovoltaic solar cell plate on described lightgage steel joist.

4. Collapsible building photovoltaic roof according to claim 3, is characterized in that: the cross section of described lightgage steel joist is square; Described snap component comprises buckle and screw, and described buckle has one for the connecting portion that connected by described screw and described lightgage steel joist and at least one holding section be fastened on for stoping described photovoltaic solar cell plate to be separated with described lightgage steel joist on described photovoltaic solar cell plate.

5. Collapsible building photovoltaic roof according to claim 4, it is characterized in that: the cross section of described buckle is Z-shaped or in falling " several " font, the horizontal limit, bottom of described buckle forms described connecting portion, and the horizontal limit, top of described buckle forms described holding section.

6. Collapsible building photovoltaic roof according to claim 5, it is characterized in that: described lightgage steel joist also has a dashpot, the cross section of described dashpot is c-shaped, and the opening of described dashpot is towards the direction deviating from described lightgage steel joist, the bottom surface of described dashpot is fixedly connected with the end face of described lightgage steel joist.

7., according to the arbitrary described Collapsible building photovoltaic roof of claim 2-6, it is characterized in that: connected by sealant sealing between described photovoltaic solar cell plate.

8. Collapsible building photovoltaic roof according to claim 7, it is characterized in that: described roof support frame is fixed with levelling chock, described levelling chock has been fixedly connected sequentially roof panel and waterproof roll layer, and described levelling chock, roof panel and waterproof roll layer form described roofing jointly; Described lightgage steel joist and the photovoltaic solar cell plate be arranged on described lightgage steel joist and described roofing are tightly connected.

9. Collapsible building photovoltaic roof according to claim 8, it is characterized in that: the cross section of described roofing is in " people " font, wherein the width of a roofing is comparatively large relative to the width of another side roofing, and described photovoltaic solar cell plate is embedded on the larger described roofing of width.

10. Collapsible building photovoltaic roof according to claim 9, it is characterized in that: the described photovoltaic roof that described photovoltaic solar cell slab integral is formed is positioned at the middle part of this roofing in the direction of the width, and the eaves place of this roofing is to the flashing plate be arranged with for draining.