CN205063203U - Photovoltaic power generation glass room - Google Patents

Abstract

The utility model discloses a photovoltaic power generation glass room relates to photovoltaic power generation technical field, including frame construction's the room body and dc -to -ac converter, room body top is equipped with the steel construction, and the steel construction downside is equipped with the sunshade curtain, and the steel construction upside is equipped with cavity photovoltaic module, and the room body all is equipped with the daylighting band all around, and cavity photovoltaic module and daylighting band all link to each other with the dc -to -ac converter through the cable, the structure of cavity photovoltaic module and daylighting band is the same, and top -down is super white toughened glass layer, a toughened glass layer, hollow layer, the 2nd toughened glass layer and the 3rd toughened glass layer in proper order, and a super white toughened glass layer and a toughened glass layer all are stained with the battery piece through the encapsulation glued membrane, and the 2nd toughened glass layer and the 3rd toughened glass layer stick together through the encapsulation glued membrane. Utilizing room body top sunshade curtain, cavity photovoltaic module and daylighting band all around to generate electricity, both having satisfied the luminousness the room in, do benefit to again and keep humiture in the room, the while has also increased the generated energy.

Description

A kind of photovoltaic generation the Glass House

Technical field

The utility model relates to technical field of photovoltaic power generation, particularly relates to a kind of photovoltaic generation the Glass House.

Background technology

Along with global economy high speed development, population increases rapidly, ecological environment subject to severe risks of damage, the mankind use the fossil fuels such as coal, oil, natural gas in large quantities, give off too much carbon dioxide, methane, nitrous oxide, hydrogen fluorine carbide isothermal chamber gas, formed " greenhouse effect ", cause global warming, seriously affect and threatened the earth environment that we depend on for existence.This just needs the mankind to seek new clean energy resource, such as: solar energy, wind energy, tide energy etc. improve earth environment, and pollution is little, region limits the various advantages such as little to utilize solar energy power generating to have, obtain more and more applying widely, comprised and be applied to building surface and carry out solar electrical energy generation.

The current photovoltaic generation technology be applied on building mainly contains BIPV technology and BAPV technology, wherein BIPV technology is that solar electrical energy generation (photovoltaic) product is integrated into architectural technology, but sun scattering and the reflection irradiation of cell backside can not be made full use of, cause energy dissipation, systems generate electricity amount is had a certain impact; BAPV technology is that photovoltaic system is attached to architectural form, photovoltaic module can only be arranged on the outside attachment of existed building, reckons without the installation of assembly, be very limited so install due to the building initial stage.

Utility model content

Technical problem to be solved in the utility model is to provide the photovoltaic generation the Glass House that a kind of structure is simple, can make full use of luminous energy, has the advantage of low cost, low-carbon environment-friendly, green non-pollution.

For solving the problems of the technologies described above, technical solution adopted in the utility model is:

A kind of photovoltaic generation the Glass House, comprise room body and the inverter of frame construction, body top, described room is provided with steel work, sunshade curtain is provided with on the downside of described steel work, hollow photovoltaic component is provided with on the upside of described steel work, described room body surrounding is equipped with ribbon skylight, and described hollow photovoltaic component is all connected with inverter by cable with ribbon skylight; Described hollow photovoltaic component is identical with the structure of ribbon skylight, be followed successively by ultrawhite tempered glass layer, the first tempered glass layer, hollow layer, the second tempered glass layer and the 3rd tempered glass layer from top to bottom, described ultrawhite tempered glass layer and the first tempered glass layer are all stained with cell piece by packaging adhesive film, and described second tempered glass layer and the 3rd tempered glass layer are sticked together by packaging adhesive film.

Preferably, some row's supports are laid with above described steel work, often arrange support and be East and West direction setting, described support is added is provided with translucent element and hollow photovoltaic component, the translucent element on described support and hollow photovoltaic component form profile of tooth layout structure at body top, room and hollow photovoltaic component towards the south.

Preferably, described hollow photovoltaic component and Ti Shang plane included angle, room are less than translucent element and Ti Shang plane included angle, room; Described translucent element is interval with and windows, described translucent element is the tempered glass of hollow.

Preferably, body in the south and ribbon skylight in the east in described room is arranged on Lower Half, and described ribbon skylight top is tempered glass body of wall and body tempered glass body of wall in the east in room extends upwardly to and is connected with hollow photovoltaic component edge with translucent element; The ribbon skylight in body north, described room and west is arranged on middle part, described ribbon skylight bottom is aerated blocks masonry, the ribbon skylight top on body north, described room is color steel, and the ribbon skylight top in body west, described room is tempered glass body of wall and tempered glass body of wall extends upwardly to and is connected with hollow photovoltaic component edge with translucent element.

Preferably, described second tempered glass layer and the 3rd tempered glass layer thickness are 6mm.

Preferably, the frame construction of described room body is composite truss structure, and described steel work is that galvanizing steel are welded.

Preferably, described inverter is group string inverter.

The beneficial effect adopting technique scheme to produce is: install translucent element in a certain angle and hollow photovoltaic component at the body top, room of frame construction, and ribbon skylight is set in room body surrounding, the sunshade curtain of high reflectance and the low light level effect of hollow photovoltaic component and ribbon skylight is utilized to generate electricity, both light transmittance had within doors been met, be beneficial to again and keep humiture within doors, too increase generated energy simultaneously, steel work, tempered glass in hollow photovoltaic component and ribbon skylight and cell piece all can be recycled, avoid removing a large amount of building waste of rear generation, contaminated environment.The utility model has that structure is simple, the advantage of low cost, low-carbon environment-friendly, green non-pollution, photovoltaic power generation technology and building are organically combined, limited soil makes full use of solar energy resources, is electric energy light energy conversion, contributes for social energy conservation reduces discharging.

Accompanying drawing explanation

Fig. 1 is the west side elevation of the utility model embodiment;

Fig. 2 is the frame construction drawing of room body in Fig. 1;

Fig. 3 is the left view of Fig. 1;

Fig. 4 is the right view of Fig. 1;

Fig. 5 is the rear elevation of Fig. 1;

Fig. 6 is the structural representation of ribbon skylight and hollow photovoltaic component in Fig. 1;

In figure: 1-room body, 2-steel work, 3-sunshade curtain, 4-hollow photovoltaic component, 5-ribbon skylight, 6-support, 7-translucent element, 8-tempered glass body of wall, 9-aerated blocks masonry, 10-windows, 11-color steel, 41-ultrawhite tempered glass layer, 42-first tempered glass layer, 43-hollow layer, 44-second tempered glass layer, 45-the 3rd tempered glass layer.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.

A kind of photovoltaic generation the Glass House as shown in figures 1 to 6, comprise room body 1 and the inverter of frame construction, body 1 top, described room is provided with steel work 2, sunshade curtain 3 is provided with on the downside of described steel work 2, hollow photovoltaic component 4 is provided with on the upside of described steel work 2, described room body 1 surrounding is equipped with ribbon skylight 5, and described hollow photovoltaic component 4 is all connected with inverter by cable with ribbon skylight 5; Described hollow photovoltaic component 4 is identical with the structure of ribbon skylight 5, be followed successively by ultrawhite tempered glass layer 41, first tempered glass layer 42, hollow layer 43, second tempered glass layer 44 and the 3rd tempered glass layer 45 from top to bottom, described ultrawhite tempered glass layer 41 and the first tempered glass layer 42 are all stained with cell piece by packaging adhesive film, and described second tempered glass layer 44 and the 3rd tempered glass layer 45 are sticked together by packaging adhesive film.

The hollow photovoltaic component 4 of said structure and ribbon skylight 5 can meet the logical light rate of plant growth, ultrawhite tempered glass layer 41 and the first tempered glass layer 42 are stained with cell piece and form two glass assembly, the arrangement mode of cell piece is similar to conventional generating electricity on two sides assembly, adopt two glass to close hollow device and both met indoor light transmittance, be beneficial to again maintenance indoor temperature and humidity; Adopt the sunshade curtain 3 of high reflectance and the low light level effect of two glass assembly to generate electricity, the illumination that sunshade curtain 3 and steel work 2 reflect is made full use of, improves generated energy; Sunshade curtain 3 can reduce illumination and enter within doors, in conjunction with temperature-adjusting and humidity-adjusting device within doors, passes through intelligent controlling device, what regulate sunshade curtain 3 opens area, make inner temperature of room and humidity keep certain, take into full account various resources supplIes, play good energy-saving effect.Tempered glass in the steel of steel work 2, hollow photovoltaic component 4 and ribbon skylight 5 and solar battery sheet all can be recycled, and can avoid removing a large amount of building waste of rear generation, contaminated environment.

Four facades that hollow photovoltaic component 4 is arranged on room body 1 end face, ribbon skylight 5 is arranged on room body, can make full use of sunshine resource, substantially increase again the aesthetic feeling of building.Wherein, the second tempered glass layer 44 in hollow photovoltaic component 4 and ribbon skylight 5 and the 3rd tempered glass layer 45 thickness are 6mm, sticked together by packaging adhesive film, for strengthening the mechanical strength of assembly, any one deck glass is because external force is broken simultaneously, cracked glass still can be bonded on assembly by packaging adhesive film, there will not be the situation of the cullet that drop.

As shown in Figure 1, some row's supports 6 are laid with above described steel work 2, often arrange support 6 and be East and West direction setting, described support 6 is added is provided with translucent element 7 and hollow photovoltaic component 4, the translucent element 7 on described support 6 and hollow photovoltaic component 4 form profile of tooth layout structure at room body 1 top and hollow photovoltaic component 4 towards the south.Described hollow photovoltaic component 4 and plane included angle on room body 1 are less than translucent element 7 and plane included angle on room body 1.According to the longitude and latitude of locality, in conjunction with the weight bearing power of steel work 2, scientific design goes out the spacing between hollow photovoltaic component 4, reduces because blocking of hollow photovoltaic component 4 between adjacent row causes luminous energy to waste.Described translucent element 7 is interval with and windows 10, described translucent element 7 is the tempered glass of hollow, is conducive to the light transmittance improved within doors, can also keeps humiture within doors.

As a kind of preferred structure, body 1 in the south and ribbon skylight 5 in the east in described room is arranged on Lower Half, and described ribbon skylight 5 top is tempered glass body of wall 8 and room body 1 tempered glass body of wall 8 in the east extends upwardly to and is connected with hollow photovoltaic component 4 edge with translucent element 7; The ribbon skylight 5 in body 1 north, described room and west is arranged on middle part, described ribbon skylight 5 bottom is aerated blocks masonry 9, ribbon skylight 5 top on body 1 north, described room is color steel 11, and ribbon skylight 5 top in body 1 west, described room is tempered glass body of wall 8 and tempered glass body of wall 8 extends upwardly to and is connected with hollow photovoltaic component 4 edge with translucent element 7.Under economic condition allows, also the tempered glass body of wall 8 of east, south, west side facade can be replaced with hollow device, to increase the overall generated energy of building

Described steel work 2 is welded for galvanizing steel, and the frame construction of described room body 1 is composite truss structure, post apart from large, space is large and structure manufacture is convenient, shortens construction period; Also can adopt space grid structure form, post is apart from large, and lightly attractive in appearance, space-load is good, its rigidity is large, stability and anti-seismic performance good, roofing can bear larger load.Its structural entity need meet because of ground suitable condition, selects different form of structure.In addition, room body 1 structure of frame construction is simple, have modularization feature, do not limit, can carry out in the whole nation copying popularization by landform external condition.

Described inverter is connected respectively on group string inverter by direct current photovoltaic client cables for group string inverter, the photovoltaic system be made up of hollow photovoltaic component 4 and ribbon skylight 5, is conducive to reducing DC-flow.Group string inverter adopts the independent control mode of upper and lower two layer assembly, effectively prevent because of the next hot spot effect of upper and lower two-layer mixed ribbon; By exchanging cable the group string inverter be dispersed in is within doors pooled to interchange header box, finally according to nearby principle, interchange header box being carried out being pooled to switchgear house, carrying out concentrated grid-connected or confession devices consume within doors.

By room body 1 top in frame construction, translucent element 7 in a certain angle and hollow photovoltaic component 4 are installed, and ribbon skylight 5 is set in room body 1 surrounding, the sunshade curtain 3 of high reflectance and the low light level effect of hollow photovoltaic component 4 and ribbon skylight 5 is utilized to generate electricity, both light transmittance had within doors been met, be beneficial to again and keep humiture within doors, too increase generated energy simultaneously, tempered glass in steel work 2, hollow photovoltaic component 4 and ribbon skylight 5 and cell piece all can be recycled, avoid removing a large amount of building waste of rear generation, contaminated environment.

In sum, the utility model has that structure is simple, the advantage of low cost, low-carbon environment-friendly, green non-pollution, the utility model is reasonable in design, consider the change of sun altitude throughout the year of knowing clearly, design suitable hollow photovoltaic component 4 spacing, improve generated energy, reduce development cost; Make full use of and absorb luminous energy, low-carbon environment-friendly, photovoltaic power generation technology and building are organically combined, limited soil makes full use of solar energy resources, be electric energy light energy conversion, contribute for social energy conservation reduces discharging, there is good economic benefit and social benefit.

Claims (8)

1. a photovoltaic generation the Glass House, it is characterized in that: the room body (1) and the inverter that comprise frame construction, body (1) top, described room is provided with steel work (2), described steel work (2) downside is provided with sunshade curtain (3), described steel work (2) upside is provided with hollow photovoltaic component (4), described room body (1) surrounding is equipped with ribbon skylight (5), and described hollow photovoltaic component (4) is all connected with inverter by cable with ribbon skylight (5); Described hollow photovoltaic component (4) is identical with the structure of ribbon skylight (5), be followed successively by ultrawhite tempered glass layer (41), the first tempered glass layer (42), hollow layer (43), the second tempered glass layer (44) and the 3rd tempered glass layer (45) from top to bottom, described ultrawhite tempered glass layer (41) and the first tempered glass layer (42) are all stained with cell piece by packaging adhesive film, and described second tempered glass layer (44) and the 3rd tempered glass layer (45) are sticked together by packaging adhesive film.

2. photovoltaic generation the Glass House according to claim 1, it is characterized in that: described steel work (2) top is laid with some row's supports (6), often arrange support (6) and be East and West direction setting, described support (6) is added is provided with translucent element (7) and hollow photovoltaic component (4), the translucent element (7) on described support (6) and hollow photovoltaic component (4) form profile of tooth layout structure at room body (1) top and hollow photovoltaic component (4) towards the south.

3. photovoltaic generation the Glass House according to claim 2, is characterized in that: described hollow photovoltaic component (4) and the upper plane included angle of room body (1) are less than translucent element (7) plane included angle upper with room body (1).

4. photovoltaic generation the Glass House according to claim 2, is characterized in that: (7) are interval with window (10) described translucent element, the tempered glass that described translucent element (7) is hollow.

5. photovoltaic generation the Glass House according to claim 2, it is characterized in that: the in the south and ribbon skylight (5) in the east in described room body (1) is arranged on Lower Half, described ribbon skylight (5) top is tempered glass body of wall (8) and room body (1) tempered glass body of wall (8) in the east extends upwardly to and is connected with hollow photovoltaic component (4) edge with translucent element (7); The ribbon skylight (5) in body (1) north, described room and west is arranged on middle part, described ribbon skylight (5) bottom is aerated blocks masonry (9), ribbon skylight (5) top on body (1) north, described room is color steel (11), and ribbon skylight (5) top in body (1) west, described room is tempered glass body of wall (8) and tempered glass body of wall (8) extends upwardly to and is connected with hollow photovoltaic component (4) edge with translucent element (7).

6. photovoltaic generation the Glass House according to claim 1, is characterized in that: described second tempered glass layer (44) and the 3rd tempered glass layer (45) thickness are 6mm.

7. photovoltaic generation the Glass House according to claim 1, is characterized in that: the frame construction in described room body (1) is composite truss structure, and described steel work (2) is welded for galvanizing steel.

8. photovoltaic generation the Glass House according to claim 1, is characterized in that: described inverter is group string inverter.