CN206844499U - Intelligent family BIPV roofs electricity generation system - Google Patents

Abstract

The utility model discloses a kind of intelligent family BIPV roofs electricity generation system, including the multiple W types tanks being arranged in along roof pitch direction on roof sleeper beam, multiple row BIPV photovoltaic modulies are provided between adjacent W types tank, the end of BIPV photovoltaic modulies is erected on the support level of W types sink center；The junction of adjacent two row BIPV photovoltaic modulies is provided with transverse drainage groove, and the end of transverse drainage groove is respectively erected on the outside-supporting edge of two adjacent W types tanks；The BIPV photovoltaic modulies include glass panel, the first EVA film, multiple photovoltaic cells, the second EVA film, dimming glass bar and the glass back plate being sequentially overlapped from top to bottom；The photovoltaic cell is in multirow or more column distributions, and the dimming glass bar is located at the position in the ranks or between row of photovoltaic cell.The utility model has that structural strength is high, good waterproof performance, and the advantages of intelligent lighting can be realized.

Description

Intelligent family BIPV roofs electricity generation system

Technical field

A kind of roof electricity generation system is the utility model is related to, particularly a kind of intelligent family BIPV roofs electricity generation system.

Background technology

BIPV is that Building Integrated PV are BIPVs.PV is Photovoltaic.BIPV skills Art is that solar power generation (photovoltaic) product is integrated into architectural technology.BIPV (BIPV) is different from photovoltaic system System is attached to architectural (BAPV:Building Attached PV) form.BIPV photovoltaic modulies are needed photovoltaic generation work( It can be integrated into architectural, the method for its generally use is that photovoltaic module is made into building roof.But existing photovoltaic module is straight Connect and be used for roofing, can not meet to build many demands such as intensity, waterproof, daylighting.

Utility model content

The purpose of this utility model is, there is provided a kind of intelligent family BIPV roofs electricity generation system.It has structural strength High, good waterproof performance, and the advantages of intelligent lighting can be realized.

The technical solution of the utility model：Intelligent family BIPV roofs electricity generation system, is characterized in：Including along roof pitch Direction is arranged in multiple W types tanks on roof sleeper beam, and multiple row BIPV photovoltaic modulies, BIPV are provided between adjacent W types tank The end of photovoltaic module is erected on the support level of W types sink center, and W types sink center is provided with the solid BIPV photovoltaic groups of pressure The upper holder block of part；The junction of adjacent two row BIPV photovoltaic modulies is provided with transverse drainage groove, the end difference frame of transverse drainage groove It is located on the outside-supporting edge of two adjacent W types tanks；The BIPV photovoltaic modulies include the glass being sequentially overlapped from top to bottom Glass panel, the first EVA film, multiple photovoltaic cells, the second EVA film, dimming glass bar and glass back plate；The photovoltaic cell In multirow or more column distributions, the dimming glass bar be located at photovoltaic cell in the ranks or row between position.

With in BIPV roofs electricity generation system, the upper holder block is fixed on W type tanks by self-tapping screw at foregoing intelligent family On, and it is provided with waterproof cover above upper holder block.

Foregoing intelligent family is with BIPV roofs electricity generation system, the intelligent controller phase of the dimming glass bar and interior Even, it is connected with intensity collection device on intelligent controller.

Compared with prior art, the utility model is supported and draining using W types tank to BIPV photovoltaic modulies, not only Structural strength is big, and water resistance is good.BIPV photovoltaic modulies of the present utility model can provide daylighting simultaneously, and pass through control Dimming glass adjusts the intensity of incident light, so as to adjust the thang-kng amount of daylighting.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model；

Fig. 2 is BIPV photovoltaic module structures schematic diagram of the present utility model.

Mark in accompanying drawing：1-W type tanks, the EVA films of 2- first, 3- photovoltaic cells, the EVA films of 4- second, 5- light modulation glass Glass bar, 6- glass back plates, 7- glass panels, 11- self-tapping screws, 12- upper holder blocks, 13-BIPV photovoltaic modulies, 14- transverse drainages Groove, 15- waterproof covers.

Embodiment

The utility model is further described with reference to the accompanying drawings and examples, but is not intended as to the utility model The foundation of limitation.

Embodiment.Intelligent family BIPV roofs electricity generation system, as shown in Figure 1：Including being arranged in room along roof pitch direction Multiple W types tanks 1 on sleeper beam 10 are pushed up, multiple row BIPV photovoltaic modulies 13, BIPV photovoltaic groups are provided between adjacent W types tank 1 The end of part 13 is erected on the support level at the center of W types tank 1, and the center of W types tank 1 is provided with the solid BIPV photovoltaic modulies of pressure 13 upper holder block 12；The junction of adjacent two row BIPV photovoltaic modulies 13 is provided with transverse drainage groove 14, the end of transverse drainage groove 14 Portion is respectively erected on the outside-supporting edge of two adjacent W types tanks 1.Transverse drainage groove 14 includes intermediate projections conduct The support and fixation of BIPV photovoltaic modulies, both sides of the edge are used to support transverse drainage groove, and row rhone arranges the rainwater of collection Enter W types tank 1.

The BIPV photovoltaic modulies 13 as shown in Fig. 2 including be sequentially overlapped from top to bottom glass panel 7, the first EVA film 2nd, multiple photovoltaic cells 3, the second EVA film 4, dimming glass bar 5 and glass back plate 6；The photovoltaic cell 3 is in multirow or more Column distribution, the dimming glass bar 5 be located at photovoltaic cell 3 in the ranks or row between position.

The utility model have it is following a little：

1. compared with traditional civil buildings mode, the system makes a part for building material cost become the group of photovoltaic cell Into part, construction cost is saved；

2. sunlit space can be effectively utilized, building usable floor area is taken full advantage of.Simultaneously this also means that nothing Need to be additionally or add build other facilities, save land resource, this for the expensive urban architecture in densely populated, soil particularly It is important；

3. the system can original place generates electricity, original place uses, the investment of power station pushing electric network can be saved and reduce transmission of electricity, point electricity damage Consumption.For grid-connected BIPV, also periphery power demand can be alleviated by unnecessary power Transmission to public electric wire net；If rainy days is sent out When electricity is insufficient, electricity consumption needs can be made up from public electric wire net power taking；

4. the system has lighting performance, thang-kng amount can be adjusted according to the demand of user, made within doors not in dim, light It is penetrating.

In summer peak of power consumption, now photovoltaic building thing system (BIPV) just absorbs summer strong solar radiation, Indoor temperature is reduced, and is converted into the electric energy required for refrigeration plant, so as to the supply and demand lance for electricity needs peak time of releiving Shield, there is great social benefit.

Claims (3)

1. intelligent family BIPV roofs electricity generation system, it is characterised in that：Including being arranged in roof sleeper beam along roof pitch direction (10) multiple W types tanks (1) on, multiple row BIPV photovoltaic modulies (13), BIPV photovoltaics are provided between adjacent W types tank (1) The end of component (13) is erected on the support level at W types tank (1) center, and W types tank (1) center is provided with the solid BIPV light of pressure Lie prostrate the upper holder block (12) of component (13)；The junction of adjacent two row BIPV photovoltaic modulies (13) is provided with transverse drainage groove (14), horizontal It is respectively erected in the end of rhone (14) on the outside-supporting edge of two adjacent W types tanks (1)；The BIPV photovoltaics group Part (13) include be sequentially overlapped from top to bottom glass panel (7), the first EVA film (2), multiple photovoltaic cells (3), second EVA film (4), dimming glass bar (5) and glass back plate (6)；The photovoltaic cell (3) is in multirow or more column distributions, the tune Light glass bar (5) be located at photovoltaic cell (3) in the ranks or row between position.

2. intelligent family according to claim 1 BIPV roofs electricity generation system, it is characterised in that：The upper holder block (12) is logical Cross self-tapping screw (11) to be fixed on W types tank (1), and waterproof cover (15) is provided with above upper holder block (12).

3. intelligent family according to claim 1 BIPV roofs electricity generation system, it is characterised in that：The dimming glass bar (5) intelligent controller with interior is connected, and intensity collection device is connected with intelligent controller.