CN108646497A - Using the traffic electrochomeric glass and glass assembly of laser grooving circuit arrangement - Google Patents

Abstract

The present invention provides a kind of traffic electrochomeric glass and glass assembly using laser grooving circuit arrangement, first busbar is arranged using two ways, when the size of the first conductive layer is more than EC stack layers and the second conductive layer, the size difference of its in-plane is formed with the side slot for arranging the first busbar, when the size of the first conductive layer is equal to EC stack layers and the second conductive layer, first busbar sequentially passes through the second conductive layer and EC stack layers, groove depth reaches the first conductive layer, the first laser cutting for partition the first busbar and the second busbar that insulate is offered on second conductive layer and EC stack layers.Electrochomeric glass substrate can be drawn neighbouring terminals by the present invention with one side, avoid the work of traditional handicraft middle and later periods coiling, and automation mechanized operation may be implemented, and improve production efficiency, improve product aesthetics and leakproofness.

Description

Using the traffic electrochomeric glass and glass assembly of laser grooving circuit arrangement

Technical field

The present invention relates to photo chromic glass technical fields, and in particular to a kind of traffic carrying out circuit arrangement using laser grooving With electrochomeric glass and glass assembly, can use on building glass, Vehicular skylight and side elevation, curtain wall, lighting roof, and The door and shell of household electrical appliance.

Background technology

Electrochromism refers to material under the action of outer making alive, and with material doping and dedoping occurs for charged ion, leads to material Redox reaction occurs for material, and then showing for reversible change occurs in visible light IR absorbing area for the optical property of material As.The variation for showing as color and transparency of its macroscopic view.The electrochomeric glass prepared using the performance can be to sunlight Radiation carries out intelligent adjusting, optionally absorbs or reflect extraneous heat radiation, reduces the energy consumption of building, and solve increasingly Serious light pollution in cities problem represents current state-of-the-art building energy conservation glass technology.

Electrochromism technology and doubling glass, hollow glass, vacuum glass are combined, there can be peace simultaneously The product of Quan Xing, aesthetics, energy saving.

In the production process of electrochomeric glass, it is necessary to wiring issue is considered, to give electrochromism stack layer to apply Voltage.All it is to draw wiring in the both sides of photo chromic glass opposite side in currently existing scheme, it, will then during follow-up hollow Wherein a lead is close to empty space item（Aluminium parting bead or warm edge strip）Outer edge detours near another, then draws two Line draws hollow glass and carries out wiring.

Such later stage mode of connection needs manual operation, it is difficult to realize automation mechanized operation, low production efficiency, and be easy Gas line is generated, sealing performance is influenced.

Invention content

The present invention provides a kind of circuit arrangement mode of electrochomeric glass wiring, insulated by the way of laser grooving every Break two electrode cables.

In order to solve the above technical problems, the present invention adopts the following technical scheme that：

A kind of electrochomeric glass using laser grooving circuit arrangement, including be sequentially stacked glass substrate, ion barrier, First conductive layer, EC stack layers and the second conductive layer, first conductive layer in-plane size be more than EC stack layers and The size difference of second conductive layer, in-plane is formed with the side for arranging the first busbar in the side of the first conductive layer Slot, for drawing first electrode conducting wire, the side of second conductive layer far from the first busbar is disposed with first busbar Second busbar, second busbar are offered for drawing second electrode conducting wire on second conductive layer and EC stack layers For the first laser cutting for partition the first busbar and the second busbar that insulate, the first electrode conducting wire is along the first conduction Layer outer edge cabling, two electrode cables form connection jaws in same place.

In addition the present invention provides a kind of electrochomeric glass, without by the area design of the first conductive layer at more than EC to folded Layer and the second conductive layer, can also realize laser grooving circuit arrangement, specifically：

Including glass substrate, ion barrier, the first conductive layer, EC stack layers and the second conductive layer being sequentially stacked, feature It is, through there is the first busbar on second conductive layer and EC stack layers, the upper end of first busbar is for drawing the One electrode cable, lower end are electrically connected with the first conductive layer, and the side of second conductive layer far from the first busbar is disposed with Two busbars, second busbar open up useful for drawing second electrode conducting wire on second conductive layer and EC stack layers In the first laser cutting of insulation partition the first busbar and the second busbar, the first electrode conducting wire is along the second conductive layer Outer edge cabling, two electrode cables form connection jaws in same place.

The form that a kind of second busbar is arranged in three sides, ruler of first conductive layer in in-plane are also provided Very little to be more than EC stack layers and the second conductive layer, the size difference of in-plane is formed in the side of the first conductive layer for arranging The side slot of first busbar, first busbar converge for drawing first electrode conducting wire, second conductive layer opposite first Other three side of stream side is disposed with the second busbar, and second busbar is for drawing second electrode conducting wire, and described second The first laser cutting for partition the first busbar and the second busbar that insulate is offered on conductive layer and EC stack layers.

Since when sputtering processing, the first conductive layer is easy to contact from lateral edge with the second conductive layer, in order to anti- Only marginal position short circuit, first conductive layer offer second laser along the edge part of the second busbar distributing position and carve Slot, for separating the first conductive layer and edge part insulation.

Preferably, the first laser cutting is arranged along the first busbar and first electrode conducting wire direction.

Using the glass assembly of above-mentioned electrochomeric glass, the glass assembly is laminated glass component, hollow glass group Part or vacuum glass component.

By above technical scheme it is found that electrochomeric glass substrate can be drawn neighbouring wiring by the present invention with one side End, avoids the work of traditional handicraft middle and later periods coiling, and automation mechanized operation may be implemented, and improves production efficiency, and it is beautiful to improve product Degree and leakproofness.

Description of the drawings

Fig. 1 is the layer structure schematic diagram of the embodiment of the present invention 1；

Fig. 2 is the circuit arrangement schematic diagram one of the embodiment of the present invention 1；

Fig. 3 is the circuit arrangement schematic diagram two of the embodiment of the present invention 1；

Fig. 4 is the layer structure schematic diagram of the embodiment of the present invention 2；

Fig. 5 is the layer structure schematic diagram of the embodiment of the present invention 3；

Fig. 6 is the circuit arrangement schematic diagram of the embodiment of the present invention 2；

Fig. 7 is the circuit arrangement schematic diagram of the embodiment of the present invention 3；

Fig. 8 is the circuit arrangement schematic diagram of the embodiment of the present invention 4；

Fig. 9 is another outlet method of electrode cable in the embodiment of the present invention 4.

Specific implementation mode

A kind of preferred embodiment of the present invention is described in detail below in conjunction with the accompanying drawings.

The film layer structure of the electrochomeric glass includes the glass substrate 1 being sequentially stacked, ion barrier 2, first leads Electric layer 3, EC stack layers 4 and the second conductive layer 5.

The ion barrier 2 can be formed by the nitride of the oxide of silicon, titanyl compound or silicon, e.g. by two Silica (SiO2), titanium dioxide (TiO2) or silicon nitride (Si3N4) are formed, and the thickness of ion barrier can be 15~ 30nm。

First conductive layer 3 can be by zinc oxide, tin oxide, Al-Doped ZnO（AZO）, tin indium oxide（ITO）, fluorine doped oxygen Change the transparent conductive oxides such as tin (FTO) to be formed, the thickness of including transparent conducting oxide layer is 5 ~ 300nm, preferably 5 ~ 100nm.

The EC stack layers 4 are the Inorganic multilayer structure with electrochromism function, including electrochromic layer, ion conductor Layer and to the stacking of electrode layer, can also be electrochromic layer and the stacking with the ion conductive layer to electrode function.

Second conductive layer 5 can be by zinc oxide, tin oxide, Al-Doped ZnO（AZO）, tin indium oxide（ITO）, fluorine doped oxygen Change the transparent conductive oxides such as tin (FTO) to be formed；The thickness of including transparent conducting oxide layer is 5 ~ 300nm, preferably 5 ~ 100nm.

The present invention carries out circuit arrangement using laser grooving mode, and the purpose is to the first busbars 6 and second of partition that insulate Busbar 7, first busbar is for drawing first electrode conducting wire 8, and the second busbar is for drawing second electrode conducting wire 9, and two A busbar can be tin-coated copper strip or conductive silver paste, and thickness is 20 ~ 200 microns, first electrode conducting wire and second electrode The quantity of conducting wire does not limit, at least one.When circuit arrangement, first have in electrochromism film layer process, to electricity Mutagens color film layer carries out laser ablation, then carries out the cabling of electrode cable.

Embodiment 1：

As shown in Figure 1, in order to place the first busbar 6 on the first conductive layer 3, need to be formed on the first conductive layer exposed Part.

In the present embodiment, 3 area of the first conductive layer is more than EC stack layers 4 and the second conductive layer 5, the size of in-plane Difference is formed with the side slot 31 for arranging the first busbar in the side of the first conductive layer, after film plating is completed, exposed Side slot side prepares the first busbar 6.Second is prepared at 5 surface of the second conductive layer and the first busbar in the position of opposite side to converge Item 7 is flowed, first laser cutting is being formed using laser ablation EC stack layers and the second conductive layer close to the first busbar side 10, prevent the second conductive layer and the first busbar to be electrically connected.Preferably, insulation can be filled in first laser cutting Object prevents conductive particle from entering notch effect insulating properties.First busbar and the second busbar can be tin-coated copper strip or lead Electric silver paste, thickness are 20 ~ 200 microns.

As shown in Figures 2 and 3, it is electrically connected with the second busbar 7 using 9 one end of second electrode conducting wire, the other end stretches out electroluminescent Outside photo chromic glass, it to be used for later stage wiring；It is electrically connected with the first busbar 6 using one end of first electrode conducting wire 8, first electrode is led The track of line is in the outside of first laser cutting 10, and close to the edge of electrochomeric glass, other end cabling is to close It at second electrode conducting wire, stretches out outside electrochomeric glass, forms connection jaws in same place with electrode cable, be used for later stage wiring. First busbar 6 is continuously arranged along the side of electrochomeric glass arrangement or along the adjacent both sides of electrochomeric glass.

Embodiment 2：

As shown in figure 4, first conductive layer 3, EC stack layers 4 are identical with the area of 5 three of the second conductive layer, the first conductive layer Area be not necessarily to be more than EC stack layers and the second conductive layer.

Through there is the first busbar on second conductive layer 5 and EC stack layers 4, the upper end of first busbar 6 is used for Draw first electrode conducting wire 8, lower end is electrically connected with the first conductive layer 3, second conductive layer, 5 side far from the first busbar It is disposed with the second busbar 7, second busbar is for drawing second electrode conducting wire 9.

When placing the first busbar 6, needs to use laser grooving, sequentially pass through the second conductive layer and EC stack layers, slot As deep as to the first conductive layer, conductive silver paste is poured into slot, forms the first busbar, and the first busbar and the first conductive layer are stablized Electrical connection.Go out first laser cutting 10 using laser ablation on the inside of the first busbar again, for preventing the second conductive layer and One busbar is electrically connected.Preferably, insulant can be filled in first laser cutting, prevents conductive particle from entering cutting Influence insulating properties.

Fig. 6 shows the circuit arrangement schematic diagram of embodiment 2, and arrangement form is similar to Example 1, wherein the second confluence Item 7 is continuously arranged along the side of electrochomeric glass arrangement or along the adjacent both sides of electrochomeric glass.

Embodiment 3：

As shown in Fig. 5 and Fig. 7, the difference from example 2 is that, first conductive layer 3 is located at the edge of 7 side of the second busbar Portion offers second laser cutting 11, for separating the first conductive layer and edge part insulation.When sputtering the first conductive layer Laser ablation just is carried out at edge, laser grooving is formed, the first conductive layer is divided into the two parts being electrically insulated from one another, other portions Divide identical as above-described embodiment 2.

In above three embodiments, the joints of the two electrodes conducts position adjacent in homonymy, it may be convenient to connect Conduction is drawn the fluid sealant of hollow glass convenient for the later stage by terminal box.The present invention avoids the work of traditional handicraft later stage coiling, can To realize automation mechanized operation, production efficiency is improved, improves product aesthetics and leakproofness.

Embodiment 4：

As shown in FIG. 8 and 9, difference lies in second conductive layer 5 is another opposite first busbar, 6 side with embodiment 1 Outer three side is disposed with the second busbar 7, and second laser cutting 11 is arranged along the edge part of the second busbar distributing position, uses Separate in by the first conductive layer and edge part insulation.

First electrode conducting wire 8 does not have to close to the edge of electrochomeric glass into walking line in first busbar, directly from the The side outlet of one busbar, and second electrode conducting wire 9 can converge from the second busbar that the first busbar side goes out to first The side outlet of item is flowed, same place forms connection jaws, is used for later stage wiring, with reference to Fig. 8.Meanwhile considering the convenience of wiring, second Electrode cable 9 can also be from the opposite side outlet far from the first busbar, with reference to Fig. 9.

After the completion of photo chromic glass wiring, doubling glass, hollow glass and vacuum glass can be further processed into.Doubling mistake Cheng Zhong, coated surface can be with film contact, or is not contacted with hollow sealing gas with film contact.

Embodiment described above is only that the preferred embodiment of the present invention is described, not to the model of the present invention It encloses and is defined, under the premise of not departing from design spirit of the present invention, technical side of the those of ordinary skill in the art to the present invention The various modifications and improvement that case is made should all be fallen into the protection domain of claims of the present invention determination.

Claims (10)

1. a kind of traffic electrochomeric glass using laser grooving circuit arrangement, including be sequentially stacked glass substrate, from Sub- barrier layer, the first conductive layer, EC stack layers and the second conductive layer, which is characterized in that first conductive layer is in in-plane Size be more than EC stack layers and the second conductive layer, the size difference of in-plane is formed in the side of the first conductive layer to be used for Arrange the side slot of the first busbar, first busbar is for drawing first electrode conducting wire, and second conductive layer is far from first The side of busbar is disposed with the second busbar, and second busbar is for drawing second electrode conducting wire, second conductive layer It is electric for the first laser cutting for separating the first busbar and the second busbar of insulating, described first with being offered on EC stack layers Polar conductor forms connection jaws along the first conductive layer outer edge cabling, two electrode cables in same place.

2. a kind of traffic electrochomeric glass using laser grooving circuit arrangement, including be sequentially stacked glass substrate, from Sub- barrier layer, the first conductive layer, EC stack layers and the second conductive layer, which is characterized in that second conductive layer and EC stack layers Above through there is the first busbar, the upper end of first busbar is for drawing first electrode conducting wire, lower end and the first conductive layer electricity Connection, the side of second conductive layer far from the first busbar are disposed with the second busbar, and second busbar is for drawing Second electrode conducting wire offers on second conductive layer and EC stack layers and converges with second for the first busbar of partition that insulate The first laser cutting of item, the first electrode conducting wire is along the second conductive layer outer edge cabling, and two electrode cables are same Place forms connection jaws.

3. a kind of traffic electrochomeric glass using laser grooving circuit arrangement, including be sequentially stacked glass substrate, from Sub- barrier layer, the first conductive layer, EC stack layers and the second conductive layer, which is characterized in that first conductive layer is in in-plane Size be more than EC stack layers and the second conductive layer, the size difference of in-plane is formed in the side of the first conductive layer to be used for Arrange the side slot of the first busbar, first busbar is for drawing first electrode conducting wire, and second conductive layer is opposite the Other three side of one busbar side is disposed with the second busbar, and second busbar is described for drawing second electrode conducting wire The first laser cutting for partition the first busbar and the second busbar that insulate is offered on second conductive layer and EC stack layers.

4. traffic electrochomeric glass according to any one of claims 1 to 3, which is characterized in that described first is conductive Layer offers second laser cutting along the edge part of the second busbar distributing position, is used for the first conductive layer and the edge part Insulation partition.

5. traffic electrochomeric glass according to any one of claims 1 to 3, which is characterized in that the first laser Cutting is arranged along the first busbar and first electrode conducting wire direction.

6. traffic electrochomeric glass according to any one of claims 1 to 3, which is characterized in that the first laser Insulant is filled in cutting.

7. traffic electrochomeric glass according to any one of claims 1 to 3, which is characterized in that first confluence Item is continuously arranged along the side of electrochomeric glass arrangement or along the adjacent both sides of electrochomeric glass.

8. traffic electrochomeric glass according to any one of claims 1 to 3, which is characterized in that second confluence Item is continuously arranged along the side of electrochomeric glass arrangement or along the adjacent both sides of electrochomeric glass.

9. traffic electrochomeric glass according to any one of claims 1 to 3, which is characterized in that the EC is to lamination Including be sequentially stacked electrochromic layer, electrode layer and to electrode layer.

10. using the glass assembly of claim 1-3 any one of them traffic electrochomeric glass, which is characterized in that institute It is laminated glass component, hollow glass component or vacuum glass component to state glass assembly.