CN208454829U - Inside contract the electrochromism laminated hollow glass of splicing - Google Patents
Inside contract the electrochromism laminated hollow glass of splicing Download PDFInfo
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- CN208454829U CN208454829U CN201821132317.0U CN201821132317U CN208454829U CN 208454829 U CN208454829 U CN 208454829U CN 201821132317 U CN201821132317 U CN 201821132317U CN 208454829 U CN208454829 U CN 208454829U
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- electrochromism
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Abstract
The utility model provides a kind of electrochromism laminated hollow glass for inside contracting splicing, including stacked doubling glass substrate and hollow glass substrate, and it is built in film layers, photo chromic glass component and electrochromism film plating layer in hollow cavity, the photo chromic glass component includes that single-row multiple rows of or multiple row is multiple rows of, and the photo chromic glass substrate that gap separates.The utility model realizes the electroluminescent doubling glass of large scale by splicing, non-discolouring region between the photo chromic glass of adjacent two pieces of splicings is minimum to be can control within 6mm, and appearance looks elegant, air-tightness is good, it can be changed colour with subregion, meet in the market the needs of to large scale full-solid electrochromic glass.
Description
Technical field
The utility model relates to electrochomeric glass technical fields, and in particular to one kind can inside contract the electrochromism folder of splicing
Glue hollow glass.
Background technique
Electrochromism refers to material under the action of outer making alive, and doping and dedoping occurs for charged ion and material, leads
Materials from oxidizing reduction reaction is caused, and then reversible change occurs in visible light IR absorbing area for the optical property of material
Phenomenon.The variation for showing as color and transparency of its macroscopic view.It can be to sunlight using electrochomeric glass prepared by the performance
Radiation carry out intelligent adjusting, optionally absorb or reflect extraneous heat radiation, reduce the energy consumption of building, and solve day
Gradually serious light pollution in cities problem represents current state-of-the-art building energy conservation glass technology.
The electrochomeric glass that building field enters volume production application at present is mainly based upon tungstic acid as off-color material
All solid state inorganic electrochromic glass.The production method of inorganic electrochromic original sheet glass is to use magnetic on the glass substrate
Control sputtering technology plates complex functional layer.Complex functional layer successively includes ion barrier, the first conductive layer, EC heap from top to bottom
Lamination, the second conductive layer;When applying voltage to EC stack layer by the first and second conductive layers, complex functional layer be may be implemented
Variation between transparent state and coloured state shows as electrochomeric glass and realizes discoloration.
Full-solid electrochromic glass uses vacuum magnetic-control sputtering technology, due to the limit by frame substrate and plated film cavity
System, the size of photo chromic glass are limited.Once the size of door and window or curtain wall is greater than photo chromic glass substrate itself, the insufficient of size will
The application of serious limitation electrochomeric glass.
Utility model content
The utility model provides a kind of large-sized electrochromism laminated hollow glass of splicing, can solve electrochromism glass
The restricted problem of the size of glass substrate, and splicing seams can be controlled on the inside of hollow cavity, guarantee that hollow glass is good
Air-tightness.
In order to solve the above technical problems, the utility model adopts the following technical solution:
A kind of electrochromism laminated hollow glass inside contracting splicing, including doubling glass substrate, the film being sequentially stacked
Layer, photo chromic glass component and hollow glass substrate, are wherein provided with electrochromism on the front or the back side of photo chromic glass component
Film plating layer, it is hollow that hollow cavity, the film are formed with by annular space item with glass substrate and doubling between glass substrate
Layer, photo chromic glass component and electrochromism film plating layer are built in the hollow cavity, and the photo chromic glass component includes single-row multiple rows of
And the photo chromic glass substrate that gap separates.
A kind of electrochromism laminated hollow glass inside contracting splicing, including doubling glass substrate, the film being sequentially stacked
Layer, photo chromic glass component and hollow glass substrate, are wherein provided with electrochromism on the front or the back side of photo chromic glass component
Film plating layer, it is hollow that hollow cavity, the film are formed with by annular space item with glass substrate and doubling between glass substrate
Layer, photo chromic glass component and electrochromism film plating layer are built in the hollow cavity, and the photo chromic glass component includes that multiple row is multiple rows of
And the photo chromic glass substrate that gap separates.
Preferably, the doubling glass substrate is greater than photo chromic glass component, in-plane in the size of in-plane
Size difference be formed with side slot on the periphery of doubling glass substrate, the one of the annular space item is placed on the side slot.
Preferably, the width of the side slot is 1 ~ 200mm.
Preferably, the photo chromic glass component is formed with laser clear side area close to the region of doubling glass substrate edge,
The width in the laser clear side area is 0.1~20mm.
Preferably, each piece of photo chromic glass substrate connects individual controller or shares a controller.
Further, it is provided with the first busbar and the second busbar on the electrochromism film plating layer, first confluence
Item is used to connect the first conductive layer of electrochromism film plating layer, and second busbar is for connecting the second of electrochromism film plating layer
Conductive layer, first busbar and the second busbar pass through electrode and connect with external wire.
Preferably, the electrode runs through the width overlay area of the annular space item, and one end of electrode is placed in hollow cavity
Inside is simultaneously connect with the first busbar or the second busbar by conduction connector, the other end of electrode be placed in hollow cavity outside,
And it is connect with the external wire.
Preferably, the electrode with a thickness of 0.001 ~ 0.5 millimeter.
From the above technical scheme, the utility model realizes the electroluminescent doubling glass of large scale by splicing, adjacent two pieces
Non-discolouring region between the photo chromic glass of splicing is minimum to be can control within 6mm, and appearance looks elegant, air-tightness is good, can be with
Subregion discoloration, meets in the market the needs of to large scale full-solid electrochromic glass.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model electrochromism laminated hollow glass embodiment 1;
Fig. 2 is the structural schematic diagram of the utility model electrochromism laminated hollow glass embodiment 2;
Arrangement of the spacer bar of Fig. 3 the utility model hollow glass on single-row multiple rows of photo chromic glass substrate;
Arrangement of the spacer bar of Fig. 4 the utility model hollow glass on the multiple rows of photo chromic glass substrate of multiple row.
Specific embodiment
A kind of preferred embodiment of the utility model is described in detail with reference to the accompanying drawing.
As illustrated in fig. 1 and 2, the electrochromism laminated hollow glass include the doubling glass substrate 11 being sequentially stacked,
Film layers 12, photo chromic glass component 13 and hollow glass substrate 20, are wherein provided with electrochromism plating on photo chromic glass component
Film layer 14, the electrochromism film plating layer are successively that ion barrier, the first conductive layer, EC stack layer and second are conductive from the bottom up
Layer, can also be arranged a protective layer on the second conductive layer.
The electrochromism film plating layer 14 can be contacted with film layers 12, referring to Fig. 2, be also possible to photo chromic glass component
Non- coated surface is contacted by film layers with doubling glass substrate 11, referring to Fig.1.
It is described it is hollow between glass substrate 20 and doubling glass substrate pass through annular space item 21 be formed with hollow cavity
22, the film layers, photo chromic glass component and electrochromism film plating layer are all built in the hollow cavity, are formed as interior sheepshank
Structure effectively improves air-tightness.
The utility model meets large scale full-solid electrochromic glass by the way that multiple photo chromic glass substrates are bolted together
The demand of glass.A kind of mode is the photo chromic glass substrate 15 that photo chromic glass component 13 is separated using single-row multiple rows of and gap, each
Row includes at least two photo chromic glass substrates, as shown in figure 3, being spliced using single-row three photo chromic glass substrates.Another way
Be, photo chromic glass component 13 using the photo chromic glass substrate 15 that multiple row is multiple rows of and gap separates, each each row of column include to
Few two photo chromic glass substrates, as shown in figure 4, arranging two rows of photo chromic glass substrate splicings using two.
Piece of the gap 16 between adjacent photo chromic glass substrate, the both sides up and down of piece, i.e., adjacent two pieces electroluminescent
The adjacent both sides keeping parallelism of photo chromic glass.The width of piece is 0.5 ~ 10mm, preferably 0.5 ~ 2mm.
Size of the doubling with glass substrate 11 in in-plane is greater than photo chromic glass substrate 15, the ruler of in-plane
Very little difference is formed with side slot 18 on the periphery of doubling glass substrate, four while while groove width it is essentially identical, the width of side slot is 1
~ 200mm, preferably 2 ~ 5mm.The corresponding photo chromic glass side length of the side ratio on every one side of doubling glass and the summation in gap are big
2 ~ 20mm, preferably 2 ~ 10mm.In the present embodiment, the side of the annular space item 21 is directly fallen on the side slot, by glue
Lamella, photo chromic glass component and electrochromism film plating layer are all built in the hollow cavity.
The photo chromic glass substrate 15 has laser clear side area 19, the region close to the position of doubling glass substrate edge
Interior composite film is removed by laser so that photo chromic glass substrate is exposed, the exposed glass substrate in laser clear side area the later period with
When spacer bar or film layers contact, there is better adhesion strength and water vapor seal effect, ginseng than the glass with film plating layer
According to Fig. 1.The width in laser clear side area is 0.1 ~ 20mm, preferably 5 ~ 15mm.In order to keep relatively narrow non-discolouring region, optionally,
The electrochomeric glass film plating layer of piece two sides can be without laser clear side, referring to Fig. 2.
The first busbar 141 and the second busbar 142 are provided on the electrochromism film plating layer 14, first busbar
For connecting the first conductive layer of electrochromism film plating layer, which leads for connecting the second of electrochromism film plating layer
Electric layer, first busbar and the second busbar pass through electrode 143 and connect with external wire 144.
In doubling on glass substrate 11, which covers through the width of annular space item 21 for the setting of electrode 143
Region, one end of electrode are placed on the inside of hollow cavity and are connected by conduction connector 145 and the first busbar or the second busbar
Connect, the other end of electrode is placed on the outside of hollow cavity and is electrically connected with external wire realization, can by the way of soldering,
And then it can be with external power supply and controller.The electrode with a thickness of 0.001 ~ 0.5 millimeter, can use conductive silver paste, cooperation
The mode of silk-screen printing is processed.
Above-mentioned each piece of photo chromic glass substrate can connect individual controller, can also share a controller, wherein
Separate controller can be realized subregion discoloration.
Embodiment described above is only that preferred embodiments of the present invention are described, not practical to this
Novel range is defined, and under the premise of not departing from the spirit of the design of the utility model, those of ordinary skill in the art are to this
The various changes and improvements that the technical solution of utility model is made each fall within the protection that claims of the utility model determine
In range.
Claims (8)
1. a kind of electrochromism laminated hollow glass for inside contracting splicing, which is characterized in that including the doubling glass being sequentially stacked
Substrate, film layers, photo chromic glass component and hollow glass substrate, are wherein provided on the front or the back side of photo chromic glass component
Electrochromism film plating layer, it is hollow that hollow cavity is formed with by annular space item with glass substrate and doubling between glass substrate,
The film layers, photo chromic glass component and electrochromism film plating layer are built in the hollow cavity, and the photo chromic glass component includes
The photo chromic glass substrate that single-row multiple rows of and gap separates.
2. a kind of electrochromism laminated hollow glass for inside contracting splicing, which is characterized in that including the doubling glass being sequentially stacked
Substrate, film layers, photo chromic glass component and hollow glass substrate, are wherein provided on the front or the back side of photo chromic glass component
Electrochromism film plating layer, it is hollow that hollow cavity is formed with by annular space item with glass substrate and doubling between glass substrate,
The film layers, photo chromic glass component and electrochromism film plating layer are built in the hollow cavity, and the photo chromic glass component includes
The photo chromic glass substrate that multiple row is multiple rows of and gap separates.
3. electrochromism laminated hollow glass according to claim 1 or 2, which is characterized in that doubling glass base
Plate is greater than photo chromic glass component, the periphery shape of the size difference of in-plane in doubling glass substrate in the size of in-plane
At there is width to be the side 1 ~ 200mm slot, the one of the annular space item is placed on the side slot.
4. electrochromism laminated hollow glass according to claim 1 or 2, which is characterized in that the photo chromic glass component
Region close to doubling glass substrate edge is formed with laser clear side area, and the width in the laser clear side area is 0.1~20mm.
5. electrochromism laminated hollow glass according to claim 1 or 2, which is characterized in that the electrochromism plated film
It is provided with the first busbar and the second busbar on layer, which is used to connect the first conduction of electrochromism film plating layer
Layer, second busbar are used to connect the second conductive layer of electrochromism film plating layer, first busbar and the second busbar
It is connect by electrode with external wire.
6. electrochromism laminated hollow glass according to claim 5, which is characterized in that the electrode runs through the annular
The width overlay area of spacer bar, one end of electrode be placed on the inside of hollow cavity and by conduction connector and the first busbar or
The connection of second busbar, the other end of electrode are placed on the outside of hollow cavity and connect with the external wire.
7. electrochromism laminated hollow glass according to claim 5, which is characterized in that the electrode with a thickness of
0.001 ~ 0.5 millimeter.
8. electrochromism laminated hollow glass according to claim 1 or 2, which is characterized in that each piece of photo chromic glass base
Plate connects individual controller or shares a controller.
Priority Applications (1)
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CN201821132317.0U CN208454829U (en) | 2018-07-17 | 2018-07-17 | Inside contract the electrochromism laminated hollow glass of splicing |
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CN201821132317.0U CN208454829U (en) | 2018-07-17 | 2018-07-17 | Inside contract the electrochromism laminated hollow glass of splicing |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108640536A (en) * | 2018-07-17 | 2018-10-12 | 合肥威驰科技有限公司 | Inside contract the electrochromism laminated hollow glass of splicing |
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2018
- 2018-07-17 CN CN201821132317.0U patent/CN208454829U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108640536A (en) * | 2018-07-17 | 2018-10-12 | 合肥威驰科技有限公司 | Inside contract the electrochromism laminated hollow glass of splicing |
CN108640536B (en) * | 2018-07-17 | 2024-05-03 | 合肥威驰科技有限公司 | Electrochromic laminated hollow glass with inward shrinkage and splicing |
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