CN214062148U - Multi-angle building daylighting roof glass assembly - Google Patents

Multi-angle building daylighting roof glass assembly Download PDF

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Publication number
CN214062148U
CN214062148U CN202022433878.8U CN202022433878U CN214062148U CN 214062148 U CN214062148 U CN 214062148U CN 202022433878 U CN202022433878 U CN 202022433878U CN 214062148 U CN214062148 U CN 214062148U
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China
Prior art keywords
glass
auxiliary frame
frame
main beam
angle
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CN202022433878.8U
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Chinese (zh)
Inventor
马毅
唐安
潘晶
张锋
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CSCEC Changsha Fujisash Curtain Wall and Decoration Co Ltd
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CSCEC Changsha Fujisash Curtain Wall and Decoration Co Ltd
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Priority to CN202022433878.8U priority Critical patent/CN214062148U/en
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Abstract

The utility model discloses a multi-angle building daylighting roof glass component, which comprises a section bar unit and a glass unit; the section unit comprises a glass auxiliary frame and a main beam auxiliary frame, the main beam auxiliary frame is arranged on the main beam, and the glass auxiliary frame is hinged to the top of the main beam auxiliary frame; the glass unit comprises hollow glass, and the hollow glass is connected to the glass auxiliary frame. The utility model discloses when using, with the assembly of cavity glass and the vice frame of glass, arrange the vice frame of girder in the girder on, then articulated vice frame of glass and the vice frame of girder. The installation process is simple and convenient to when the daylighting face angle needs to be adjusted, the angle between two auxiliary frames can be adjusted, and various daylighting requirements can be met. The glass unit comprises hollow glass and a sun-shading and light-adjusting layer, and has a good sun-shading effect and good daylighting performance.

Description

Multi-angle building daylighting roof glass assembly
Technical Field
The utility model belongs to the technical field of the building curtain, especially, relate to a multi-angle building daylighting top glass subassembly.
Background
When the building roof needs to be daylit, the daylighting roof is mostly realized by arranging glass. The glass which is long used at present is energy-saving glass, namely Low-E hollow glass. The coated layer of the glass has the same U value and different shading coefficients no matter the coated layer is placed on 2 surfaces or 3 surfaces. That is to say, the glass with good sun-shading performance has low sun-shading coefficient and good sun-shading effect, but the light transmittance is low, which affects the indoor lighting, and on the contrary, the hollow glass with good sun-shading performance has poor sun-shading effect and cannot have good sun-shading effect and good lighting performance at the same time. On the other hand, the glass is inconvenient to install, and the angle of the lighting surface is difficult to adjust when the existing section bar is adopted for installation.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to prior art's weak point, provide a multi-angle building daylighting roof glass unit convenient to adjustment daylighting face angle.
The utility model provides a multi-angle building daylighting roof glass component, which comprises a section unit and a glass unit; the section unit comprises a glass auxiliary frame and a main beam auxiliary frame, the main beam auxiliary frame is arranged on the main beam, and the glass auxiliary frame is hinged to the top of the main beam auxiliary frame; the glass unit comprises hollow glass, and the hollow glass is connected to the glass auxiliary frame.
The hollow glass comprises a plurality of glass sheets, and a sun-shading and light-adjusting layer is arranged between every two adjacent glass sheets.
The material of the sun-shading and light-adjusting layer is a cementing material comprising nano molecules.
The glass auxiliary frame is L-shaped and comprises a vertical section and a horizontal section, and a C-shaped hinge groove is formed below the outer end of the horizontal section; the end face of the glass unit is bonded with the vertical section, and the bottom face of the glass unit is bonded with the horizontal section.
The main beam auxiliary frame comprises a frame main body, a rubber strip groove and a hinge joint; the adhesive tape groove is arranged below the bottom surface of the frame main body, and the hinge joint is arranged on the top surface of the frame main body; the auxiliary frame of the main beam is connected with the main beam through the adhesive tape embedded in the adhesive tape groove and clamped into the C-shaped hinge groove of the auxiliary glass frame through the hinge joint.
The utility model discloses when using, with the assembly of cavity glass and the vice frame of glass, arrange the vice frame of girder in the girder on, then articulated vice frame of glass and the vice frame of girder. The installation process is simple and convenient to when the daylighting face angle needs to be adjusted, the angle between two auxiliary frames can be adjusted, and various daylighting requirements can be met.
Drawings
Fig. 1 is a schematic cross-sectional view of a preferred embodiment of the present invention.
Fig. 2 is an enlarged schematic view of the profile unit in the preferred embodiment.
Fig. 3 is a schematic view of the use state of the preferred embodiment.
Sequence numbers of the drawings:
1-a section bar unit, wherein,
11-glass auxiliary frame, 111-C type hinge groove;
12-main beam auxiliary frame, 121-frame main body, 122-adhesive tape groove, 123-hinge joint;
2-glass unit, 21-hollow glass, 22-sunshade dimming layer;
3, adhesive tape; 4-main beam.
Detailed Description
As shown in FIG. 1, the multi-angle architectural lighting roof glass assembly disclosed by the present embodiment comprises two parts, namely a profile unit 1 and a glass unit 2.
As shown in fig. 2, the profile unit 1 comprises a glass subframe 11 and a main beam subframe 12, which are hinged to each other. The glass subframe 11 is L-shaped, and comprises a vertical section and a horizontal section, and the vertical section and the horizontal section enclose an L-shaped space for mounting the glass unit 2. And a C-shaped hinge groove 111 is arranged below the outer end of the horizontal section and is hinged with the main beam auxiliary frame 12. The main beam auxiliary frame 12 comprises a frame main body 121, a rubber strip groove 122 and a hinge joint 123. The section of the frame main body is a rectangle with an opening on one side. The adhesive tape groove 122 is disposed under the bottom surface of the frame main body. The cross section of the hinge joint 123 is spherical, and is matched with the C-shaped hinge groove, and is arranged on the top surface of the frame main body through a support arm. After the installation is finished, the auxiliary frame of the main beam is connected with the main beam 4 through the adhesive tape 3 embedded in the adhesive tape groove, and the auxiliary frame of the main beam is clamped into the C-shaped hinge groove of the auxiliary frame of the glass through the hinge joint.
As shown in fig. 1, the glass unit 2 includes a hollow glass 21 and a sunshade dimming layer 22, the hollow glass 21 includes two glass sheets, and a gel material with nano molecules is added as the sunshade dimming layer 22 when the hollow glass is laminated. The sunshade dimming layer can freely set the temperature between minus 10 ℃ and 70 ℃ according to the needs of customers, when the environmental temperature exceeds the set temperature, the nano-molecular cementing material presents an atomization effect, and simultaneously, the sunshade function plays a role, and when the environmental temperature is lower than the set temperature, the completely transparent state is presented, and the state freely changes according to the environmental temperature and is not manually intervened; after being atomized, the gel material can absorb redundant infrared rays and ultraviolet rays under sunlight, so that the energy consumption of a building is reduced, and the energy conservation of the building is simpler. By setting the sunshade dimming layer, under a transparent state: an infrared-ultraviolet transmittance of about 50% to 55%, and a visible light transmittance of more than 70%; in an atomized state: the infrared-ultraviolet passing rate is lower than 5%, the light transmittance is slightly reduced by about 63%, and the light is scattered light; the energy consumption of the building can be reduced, the energy conservation of the building is simpler, and the light transmittance is more than 60 percent all the year round; meanwhile, the solar panel has good sun-shading effect and good daylighting performance. The hollow glass can be made of solid excellent thermotropic light modulation hollow glass produced by Chongqing Hewei science and technology limited.
As shown in figure 3, on the other hand, when in use, the utility model connects the auxiliary frame of the girder with the girder through the adhesive tape embedded in the adhesive tape groove, bonds the glass unit with the auxiliary frame of the glass, then hinges the auxiliary frame of the glass with the auxiliary frame of the girder, and compresses tightly through the pressing block. The installation process is simple and convenient to when the daylighting face angle needs to be adjusted, the angle between two auxiliary frames can be adjusted, and various daylighting requirements can be met.

Claims (5)

1. The utility model provides a multi-angle building daylighting top glass unit which characterized in that: it comprises a section bar unit and a glass unit;
the section unit comprises a glass auxiliary frame and a main beam auxiliary frame, the main beam auxiliary frame is arranged on the main beam, and the glass auxiliary frame is hinged to the top of the main beam auxiliary frame;
the glass unit comprises hollow glass, and the hollow glass is connected to the glass auxiliary frame.
2. The multi-angle architectural daylighting roof glass assembly of claim 1, wherein: the hollow glass comprises a plurality of glass sheets, and a sun-shading and light-adjusting layer is arranged between every two adjacent glass sheets.
3. The multi-angle architectural daylighting roof glass assembly of claim 2, wherein: the material of the sun-shading and light-adjusting layer is a cementing material comprising nano molecules.
4. The multi-angle architectural daylighting roof glass assembly of claim 1, wherein: the glass auxiliary frame is L-shaped and comprises a vertical section and a horizontal section, and a C-shaped hinge groove is formed below the outer end of the horizontal section; the end face of the glass unit is bonded with the vertical section, and the bottom face of the glass unit is bonded with the horizontal section.
5. The multi-angle architectural daylighting roof glass assembly of claim 4, wherein: the main beam auxiliary frame comprises a frame main body, a rubber strip groove and a hinge joint; the adhesive tape groove is arranged below the bottom surface of the frame main body, and the hinge joint is arranged on the top surface of the frame main body; the auxiliary frame of the main beam is connected with the main beam through the adhesive tape embedded in the adhesive tape groove and clamped into the C-shaped hinge groove of the auxiliary glass frame through the hinge joint.
CN202022433878.8U 2020-10-28 2020-10-28 Multi-angle building daylighting roof glass assembly Active CN214062148U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202022433878.8U CN214062148U (en) 2020-10-28 2020-10-28 Multi-angle building daylighting roof glass assembly

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202022433878.8U CN214062148U (en) 2020-10-28 2020-10-28 Multi-angle building daylighting roof glass assembly

Publications (1)

Publication Number Publication Date
CN214062148U true CN214062148U (en) 2021-08-27

Family

ID=77398069

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202022433878.8U Active CN214062148U (en) 2020-10-28 2020-10-28 Multi-angle building daylighting roof glass assembly

Country Status (1)

Country Link
CN (1) CN214062148U (en)

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