CN204781469U - Photovoltaic curtain - Google Patents

Abstract

The utility model provides a photovoltaic curtain, including the photovoltaic curtain body, the photovoltaic curtain body is formed by a plurality of photovoltaic curtain member units equipment amalgamation, the photovoltaic curtain component is ranks and arranges, the every photovoltaic curtain of group component is all including the inner sheet glass who is located the nexine, be located outer photovoltaic glass respectively, the outer glass of curtain and be located the nexine and the skin between the cavity, photovoltaic glass is located the outer glass top of curtain, photovoltaic glass is located outside one end with the outer glass of curtain and is equipped with air intake or air outlet respectively, the intercommunication sets up between the cavity of the every photovoltaic curtain of group component, via air intake and air outlet intercommunication between cavity and the outside air, and among the whole photovoltaic curtain, the air intake equate the setting with air outlet quantity. The utility model discloses shown photovoltaic curtain is through cavity, air intake and the air outlet constitution passage of heat to utilize chimney effect and green house effect can effectively reduce architectural energy consumption, and do not need other auxiliary machinery equipment, reduce the working costs.

Description

A kind of photovoltaic curtain wall

Technical field

The utility model belongs to architectural design field, relates to curtain wall construction, especially a kind of photovoltaic curtain wall structure.

Background technology

Photovoltaic curtain wall system is the Focal point and difficult point of BIPV (Building Integrated PV) research.This system is a kind of space enclosing structure straining the building of weather, and the space mounting solar energy photovoltaic panel that simultaneously elevation of building can be utilized again to provide, converting solar energy into electrical energy, to alleviate electrical network pressure, is kill two birds with one stone.

At hot-summer and cold-winter area, curtain wall and energy-conservation be a pair natural contradiction, usual curtain buildings is also highly energy-consuming building.For photovoltaic curtain wall, it itself also can distribute heat in the process running generating, not only exacerbates the heat requirement of building in summer, and the rising of operating ambient temperature can cause the reduction of photovoltaic component generating efficiency, application life shortens.Therefore, need a kind of photovoltaic curtain wall component, namely can maintain the generating efficiency of photovoltaic curtain wall, under additionally not increasing again the prerequisite of energy consumption, ensure the thermal comfort of building interior librarian use.

There is no in the industry the make being applicable to the dynamic type photovoltaic curtain wall of hot-summer and cold-winter area at present.Existing photovoltaic curtain wall atlas simply the glass in curtain wall is changed to photovoltaic module, and do not design more targetedly for the operation characteristic of weather and photovoltaic module.This conventional photovoltaic curtain buildings, in running, for the thermal comfort reaching building wants lot of energy for mechanical heating, refrigeration and ventilation, adds the energy consumption of building on the contrary.

Utility model content

The purpose of this utility model is to provide a kind of photovoltaic curtain wall, and it utilizes structure and the spread configuration of photovoltaic curtain wall member unit itself, can meet the requirement of photovoltaic curtain wall operating ambient temperature and Building Heat comfort level simultaneously, and not increase building energy consumption.

For achieving the above object, solution of the present utility model is:

A kind of photovoltaic curtain wall, comprise photovoltaic curtain wall body, described photovoltaic curtain wall body comprises the photovoltaic curtain wall member unit that many spellings lead in succession, described photovoltaic curtain wall member unit is ranks arrangements, often organize photovoltaic curtain wall member unit and include the inner layer glass being positioned at nexine, lay respectively at outer field photovoltaic glass, curtain wall glass outer and the cavity between nexine and skin, described photovoltaic glass is positioned at above described curtain wall glass outer, described photovoltaic glass and described curtain wall glass outer are positioned at lateral ends and are respectively equipped with air intake or air outlet, be communicated with air outlet via described air intake between cavity with outside air, and in whole photovoltaic curtain wall, described air intake is equal to described air outlet quantity and arranges.

Preferably, be communicated with between the described cavity often organizing photovoltaic curtain wall member unit and arrange,

Further, often organize in photovoltaic curtain wall member unit, the lateral ends that is positioned at of described photovoltaic glass and described curtain wall glass outer is all air intake or is all air outlet, and with in a line photovoltaic curtain wall member unit, described air intake and described air outlet are arranged alternately.

Described air intake and air outlet are louver structure to regulate the angle of air inlet/outlet.

Described air inlet is provided with arc air flow guide;

Preferably, packing material is provided with on rear side of described arc air flow guide with fixing described arc air flow guide.

Described cavity inside is provided with the Motorized blind blinds of adjustable-angle.

The upper and lower end of described cavity is equipped with filter screen and fly net.

Described cavity width is 400-600mm.

Described internal layer curtain wall is provided with openable windows.

Described internal layer curtain wall is tempered glass.

In described photovoltaic curtain wall member unit, described photovoltaic glass is higher than at least 2200mm setting of described photovoltaic curtain wall member unit bottom surface, and described curtain wall glass outer is double layer glass.

Owing to adopting such scheme, the beneficial effects of the utility model are:

(1) dynamically type double-layer photovoltaic curtain wall reduces building energy consumption by stack effect and greenhouse effect, and does not need other accessory machinery, reduces operating cost.Summer passes through stack effect, take away photovoltaic module in cavity to fall apart thermogenetic heat, compare single-layer curtain wall, effectively can reduce the internal surface temperature of inner side curtain wall, reduce the cooling load of room conditioning and operating cost, and be distributed in different ranks due to air intake and air outlet, therefore can from the air intake air intake being positioned at bottom photovoltaic curtain wall member unit, from the air outlet being positioned at top layer photovoltaic curtain wall member unit, air channel (namely distinguished and admirable through path) is lengthened.Air channel is longer, and summer, " stack effect " was stronger, pulled out wind better effects if in cavity.Winter closes inlet and outlet, by greenhouse effect, is formed together " insulation barrier ", reduces the loss of indoor heat, thus effectively reduce heating energy consumption.

(2) by adjustment air intake and the opening angle of air outlet, open the opening door-leaf on internal layer curtain wall, introduce fresh air, improve air quality and not by the impact of environmental factor.

(3) by arranging fly net and airstrainer into and out of air port, the clean of empty chamber air can be kept, making room air not by the impact that outside atmosphere is polluted.

(4) due to double-layer surface, effectively indoor can be entered by air lock external noise.

(5) establish Motorized blind blinds near outer curtain wall in cavity, both can play good shaded effects, and not affect the smooth of curtain wall entirety again.

Accompanying drawing explanation

Fig. 1 be in the embodiment of the present invention dynamic type double-layer photovoltaic curtain wall member unit facade interval into and out of air port schematic diagram;

Fig. 2 be embodiment illustrated in fig. 1 in dynamically type double-layer photovoltaic curtain wall member unit in air inlet 1-1 generalized section;

Fig. 3 be embodiment illustrated in fig. 2 in dynamic type double-layer photovoltaic curtain wall member unit air inlet axle side schematic diagram;

Fig. 4 be embodiment illustrated in fig. 1 in dynamic type double-layer photovoltaic curtain wall member unit air outlet place 2-2 generalized section;

Fig. 5 be embodiment illustrated in fig. 4 in dynamic type double-layer photovoltaic curtain wall member unit air outlet place axle side schematic diagram;

In accompanying drawing:

1 photovoltaic glass, 2 curtain wall glass outers,

3 curtain wall inner layer glasses, 4 cavitys,

5 Motorized blind blinds, 6 air intakes,

7 air outlets, 8 frameworks, 9 filter screens,

10 air flow guide, 11 openable windows

12 packing materials.

Detailed description of the invention

Below in conjunction with accompanying drawing illustrated embodiment, the utility model is further described.

As shown in Figure 1, the utility model provides a kind of photovoltaic curtain wall, comprise photovoltaic curtain wall body, wherein photovoltaic curtain wall body is assembled by multiple photovoltaic curtain wall member unit and is put together, many groups photovoltaic curtain wall member unit is ranks arrangements, often organize photovoltaic curtain wall member unit and include the inner layer glass 3 being positioned at nexine, lay respectively at outer field photovoltaic glass 1, curtain wall glass outer 2 and the cavity between nexine and skin 4, photovoltaic glass 1 is positioned at above curtain wall glass outer 2, photovoltaic glass 1 and curtain wall glass outer 2 are positioned at lateral ends and are respectively equipped with air intake 6 or air outlet 7.Each cavity 4 is communicated with outside air with air outlet 7 via air intake 6, thus in photovoltaic curtain wall structure, the passage of heat of similar chimney is formed between air intake 6, cavity 4 and air outlet 7 three, in the present embodiment, cavity 4 in each group of photovoltaic curtain wall member unit is also communicated with setting, as far as possible to extend passage of heat length, and in whole photovoltaic curtain wall, air intake 6 is equal to air outlet 7 quantity and arranges.

Photovoltaic curtain wall shown in the utility model reduces building energy consumption by stack effect and greenhouse effect, and does not need other accessory machinery, reduces operating cost.Summer utilizes stack effect, takes away photovoltaic module in cavity 4 and to fall apart thermogenetic heat, compare single-layer curtain wall by the passage of heat, effectively can reduce the internal surface temperature of inner side curtain wall, reduces cooling load and the operating cost of room conditioning.And be distributed in different ranks due to air intake 6 and air outlet 7, therefore can from air intake 6 air intake being positioned at bottom photovoltaic curtain wall member unit, from air outlet 7 air-out being positioned at top layer photovoltaic curtain wall member unit, the passage of heat (namely distinguished and admirable through path) is lengthened.The passage of heat is longer, and summer, " stack effect " was stronger, pulled out wind better effects if in cavity 4, also just meaned the hot air can taken away in more bodies of wall.Winter closes inlet and outlet, utilizes greenhouse effect, is formed together " insulation barrier ", reduce the loss of indoor heat, thus effectively reduce heating energy consumption by the passage of heat.

Simultaneously, consider as air-admitting surface is greater than air outlet area, air-flow in the excessive or cavity of air outlet wind speed then may be caused not discharge in time, as air-admitting surface is less than air outlet area, then waste can be caused, therefore the equivalent setting of the air intake 6 of the photovoltaic curtain wall shown in the utility model, air outlet 7 quantity, ensure that outlet and inlet open area is identical, normally effectively circulate to realize air-flow.

The top of outer curtain wall is photovoltaic glass 1, it is arranged on the height from this photovoltaic curtain wall member unit bottom surface at least more than 2200mm, to avoid blocking indoor user's sight line, in the present embodiment, photovoltaic glass 1 is arranged apart from the height of this photovoltaic curtain wall member unit bottom surface 2500mm; The curtain wall glass outer 2 of outer curtain wall bottom is double layer glass, can make natural light through, meet Indoor Natural daylighting demand.

Because in curtain wall, transparency area is large, for ensureing safety, inner layer glass 3 is tempered glass, in the present embodiment, inner layer glass 3 is individual layer tempered glass or toughened rubber-laminated vacuum glass, and internal layer curtain wall 3 is provided with openable windows 11, when openable windows 11 is opened, outside air can be made to carry out interchange of air by cavity 4 and indoor, be conducive to the ventilation of architecture indoor, ventilation.

In addition, because photovoltaic curtain wall member unit is provided with double-layer surface, namely comprise be positioned at nexine inner layer glass 3, lay respectively at outer field photovoltaic glass 1, curtain wall glass outer 2, effectively can enter indoor by air lock external noise.

The width of cavity 4 is 400mm-600mm, and cavity 4 top is provided with sun-shading louver box, and to install Motorized blind blinds 5, Motorized blind blinds 5 connects outside by sun-shading louver box, can pack up according to use needs or open.When outdoor solar radiation is strong, sun-shading louver 5 is opened to keep the sun off, and avoids indoor overheating, reduces air conditioning energy consumption, nearly curtain wall place Coal Face Passing Through also can be avoided bright, cause and dazzle light, cause discomfort, and do not affect the smooth of curtain wall entirety.Meanwhile, the upper and lower end of cavity 4 is equipped with fly net and airstrainer 9 with filtration chamber's outer air, thus keeps the clean of empty chamber air, makes room air by the impact that outside atmosphere is polluted.

As shown in Figures 2 to 5, in the present embodiment, photovoltaic glass 1 is all air intake 6 with the lateral ends of curtain wall glass outer 2 or is all air outlet 7, and with in a line photovoltaic curtain wall member unit, air intake 6 and air outlet 7 are arranged alternately, same vertical lattice function unified (namely same vertical lattice is air intake or is air outlet) can be made, thus make the Vertical dimension passage of heat that air intake 6, cavity 4 and air outlet 7 form, such setting, the passage of heat length of this photovoltaic curtain wall of lengthening that can try one's best, improves ventilation effect in cavity.

Air intake 6 and air outlet 7 are louver structure to regulate the angle of air inlet/outlet, as shown in Figures 2 and 3, each air intake 6 place is also provided with air flow guide 10 to adjust air intake angle, air flow guide 10 is arcuate structure, it is positioned on the diagonal of air intake 6 place rectangular frame, the rear portion of air flow guide 10 is provided with packing material 12, air flow guide 10 to be fixed on packing material 12 to realize the fixing of air flow guide 10 self, makes can effectively enter in cavity 4 from the outside air entered of air intake 6 simultaneously.

A kind of photovoltaic curtain wall operating principle shown in the utility model divide summer, winter two kinds of operating modes, below in conjunction with embodiment shown in Fig. 1 to 5, its operating principle is described.

As shown in Figures 2 to 5, in summer, the adjusting louver of adjustment air intake 6, air outlet 7, the Vertical dimension passage of heat that air intake 6, cavity 4 and air outlet 7 are formed is through.Extraneous relatively cold air is through every layer of air intake 6, and enter cavity 4 through the guiding of air flow guide 10, because the cavity 4 of each group of photovoltaic curtain wall member unit is communicated with, after the width being arranged in the absorption of air sun of cavity 4 penetrates heat, due to stack effect, in the passage of heat, the air of heat rises and discharges through being relatively positioned at top outlet inlet 7.Circulation like this, the heat that summer, photovoltaic cell produced in the course of the work, external surface heat directly falls apart in air, inner surface heat enters in cavity, taken away by interior air-flow upwards by cavity 4, outside final discharge chamber, therefore the photovoltaic curtain wall shown in the utility model can take away the heat that in the passage of heat, solar radiation and the photovoltaic panel back side are distributed, and reduces inner side curtain wall surface temperature.

Because air intake 6 and air outlet 7 are distributed in different ranks, therefore can, from air intake 6 air intake being positioned at bottom photovoltaic curtain wall member unit, from air outlet 7 air-out being positioned at top layer photovoltaic curtain wall member unit, air channel (namely distinguished and admirable through path) be lengthened.Air channel is longer, and summer, " stack effect " was stronger, pulled out wind better effects if in cavity 4, also just meaned the hot air can taken away in more bodies of wall.

In addition, owing to establishing Motorized blind blinds 5 near outer curtain wall in cavity 4, during summer, Motorized blind blinds 5 can be opened, both can play good shaded effects, not affect the smooth of curtain wall entirety again.

In the winter time, close the air intake 6 of the passage of heat, the adjusting louver of air outlet 7, the Vertical dimension passage of heat that air intake 6, cavity 4 and air outlet 7 are formed closes.Owing to not having air to flow, in cavity 4 after absorption of air solar radiation heat, hot air accumulates in cavity 4, and greenhouse effect work, and double-layer curtain wall inner surface temperature is improved, and thus reaches the effect of heat preservation energy-saving.

In addition, because internal layer curtain wall 3 is provided with openable windows 11, no matter summer also or winter, when openable windows 11 is opened, outside air can be made to carry out interchange of air by cavity and indoor by the opening angle of adjustment air intake 6 and air outlet 7, introduce fresh air, improve air quality and not by the impact of environmental factor, be conducive to the ventilation of architecture indoor, ventilation.

Above-mentioned is can understand for ease of those skilled in the art and use the utility model to the description of embodiment.Person skilled in the art obviously easily can make various amendment to these embodiments, and General Principle described herein is applied in other embodiments and need not through performing creative labour.Therefore, the utility model is not limited to above-described embodiment, and those skilled in the art, according to announcement of the present utility model, do not depart from improvement that the utility model category makes and amendment all should within protection domain of the present utility model.

Claims (10)

1. a photovoltaic curtain wall, comprise photovoltaic curtain wall body, described photovoltaic curtain wall body comprises the connected photovoltaic curtain wall member unit of many group splicings, described photovoltaic curtain wall member unit is ranks arrangements, it is characterized in that: often organize photovoltaic curtain wall member unit and include the inner layer glass (3) being positioned at nexine, lay respectively at outer field photovoltaic glass (1), curtain wall glass outer (2) and the cavity between nexine and skin (4), described photovoltaic glass (1) is positioned at described curtain wall glass outer (2) top, described photovoltaic glass (1) and described curtain wall glass outer (2) are positioned at lateral ends and are respectively equipped with air intake (6) or air outlet (7), described cavity (4) is communicated with air outlet (7) via described air intake (6) with between outside air, and in whole photovoltaic curtain wall, described air intake (6) is equal to described air outlet (7) quantity and arranges.

2. photovoltaic curtain wall according to claim 1, is characterized in that: be communicated with between the described cavity (4) often organizing photovoltaic curtain wall member unit and arrange.

3. photovoltaic curtain wall according to claim 1 and 2, it is characterized in that: often organize in photovoltaic curtain wall member unit, described photovoltaic glass (1) is all air intake (6) with the lateral ends that is positioned at of described curtain wall glass outer (2) or is all air outlet (7), and with in a line photovoltaic curtain wall member unit, described air intake (6) and described air outlet (7) are arranged alternately.

4. photovoltaic curtain wall according to claim 1, is characterized in that: described air intake (6) and air outlet (7) are louver structure to regulate the angle of air inlet/outlet.

5. photovoltaic curtain wall according to claim 3, is characterized in that: described air intake (6) place is provided with arc air flow guide (10);

Described arc air flow guide (10) rear side is provided with packing material (12) with fixing described arc air flow guide (10).

6. photovoltaic curtain wall according to claim 1, is characterized in that: described cavity (4) inside is provided with the Motorized blind blinds (5) of adjustable-angle;

Described cavity (4) width is 400-600mm.

7. the photovoltaic curtain wall according to claim 1 or 6, is characterized in that: the upper and lower end of described cavity (4) is equipped with filter screen (9) and fly net.

8. photovoltaic curtain wall according to claim 1, is characterized in that: described inner layer glass (3) is provided with openable windows (11).

9. the photovoltaic curtain wall according to claim 1 or 8, is characterized in that: described inner layer glass (3) is tempered glass.

10. photovoltaic curtain wall according to claim 1, it is characterized in that: in described photovoltaic curtain wall member unit, described photovoltaic glass (1) is higher than at least 2200mm setting of described photovoltaic curtain wall member unit bottom surface, and described curtain wall glass outer (2) is double layer glass.