A kind of intelligent display building glass and its conducting wire
Technical field
The utility model is related to intelligent glass technology, more particularly to a kind of intelligent display building glass and its conducting wire.
Background technology
Glass is widely used in every field as raw material.LED is light emitting diode, is to use semi-conducting material
Directly luminous energy is converted into by electric energy, the illuminator of optical signal is converted electrical signals to, is a kind of new energy-saving illumination illuminator.
It is mainly characterized by that caloric value is low, power consumption is small, long lifespan, reaction speed are fast, small volume, good antidetonation, discharge off gas, color
Optional scope it is big and can planar package, therefore be widely used in the illumination applications of various industries, landscape design, traffic sign, electricity
On sub- show tools.
Intelligent glass is that LED is placed in the centre of two panels glass substrate, wherein being coated on the inner surface of a piece of glass substrate
Have and be etched with isolation circuit on layer of transparent conductive layer, transparency conducting layer, transparency conducting layer is divided into different blocks, each
Positive pole or the negative pole connection of block and dc source, LED are located between the block being connected respectively with positive source and negative pole,
LED can light.
In the prior art, typically there are two kinds of isolation line modes, one kind is to be uniformly arranged a plurality of put down over transparent conductive layer
If capable dry ecthing shielding wire, as shown in figure 1, the isolation circuit has two:One be plant-grid connection it is complicated, it is necessary to
Every being sequentially ingressed into positive pole negative pole, wiring is complicated, and one is intermediate region voltage instability.
Also a kind of is the circuit etching 60 for being set along certain etching line several L-types or curve, and circuit etching 60 will
Conductive layer 10 is divided into public conductive area and separate conductive block, and public conductive area and separate conductive block are connected directly respectively
The positive pole or negative pole of power supply are flowed, as shown in Figure 2 to 3, LED is arranged between public conductive area and separate conductive block,
This addresses the problem plant-grid connection it is complicated the problem of, but there are still LED voltage instability, current existing solution is all
It is to add to be configured adjustment on controller on external power supply, not only increases cost, and control is also inaccurate, still occurs
The uneven situation of LED voltage.
Utility model content
To solve the above problems, the utility model provides a kind of intelligent display building glass conducting wire, in glass substrate
Conductive layer be provided with a main isolation circuit, it is described it is main isolation circuit extended on the upside of the glass substrate downside, along institute
State main isolation circuit and be distributed with some sub- shielding wire roads, described sub- isolation circuit one end with it is described it is main isolate connection,
One end extends to the upside or downside of the glass substrate;Conductive layer is divided into by main isolation circuit and son the isolation circuit
Several conductive areas, each conductive area or so width increase with the increase of the lower-upper length of the conductive area so that
The different conductive area resistances is equal.
Further, the sub- isolation circuit is shaped as curve-like or L-type shape.
Further, the conductive layer is divided into the first conductive area and the second conductive area by the main isolation circuit;
First conductive area is public conductive area;Second conductive area is divided into some independences by the sub- isolation circuit
Conductive area.
Further, the same polarity connection of the different separate conductive blocks and dc source;The public conduction
Block is connected with the opposed polarity of dc source respectively with the separate conductive block.
The utility model also provides a kind of intelligent display building glass, using as above any described intelligent glass conductor wire
Road, in addition to first substrate, second substrate and electronic component;
The conductive layer is covered on the inner surface of the first substrate;The conductive layer is provided with public conductive area and extremely
Few two separate conductive blocks;The electronic component is located between the conductive layer and the second substrate;The electronics member
Device is conductively connected with the public conductive area and separate conductive block.
Further, the conductive layer is oppositely arranged with the second substrate;The conductive layer and the second substrate it
Between filled with doubling layer.
Further, the first substrate and the second substrate are made up of glass material.
Further, the conductive layer is transparency conducting layer.
Further, the doubling layer is made up of PVB materials.
Further, the electronic component is LED.
The intelligent display building glass conducting wire that the utility model is provided, by making resistance one on the electrically conductive
The conductive area of cause so that each electronic component two ends series connection identical resistance connected on conductive layer, so that each electricity
The voltage at sub- component two ends is reached unanimously, and each electronic component is respectively controlled without controller.Using this practicality
Each electronic component can obtain identical voltage on the intelligent display building glass conducting wire of new offer, conductive layer,
When setting controller, without considering influence of the resistance of each block on conductive layer to electronic component both end voltage, electronics
Component both end voltage is stable, and controller design is simple.
Brief description of the drawings
, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art
Or the accompanying drawing used required in description of the prior art is briefly described, it should be apparent that, drawings in the following description are
Some embodiments of the present utility model, for those of ordinary skill in the art, are not paying the premise of creative labor
Under, other accompanying drawings can also be obtained according to these accompanying drawings.
Fig. 1 is the schematic diagram of intelligent display building glass conducting wire embodiment one in the prior art;
Fig. 2 is the schematic diagram of intelligent display building glass conducting wire embodiment two in the prior art;
Fig. 3 is the schematic diagram of intelligent display building glass conducting wire embodiment three in the prior art;
The intelligent display building glass conducting wire schematic diagram that Fig. 4 provides for the utility model;
Fig. 5 is intelligent display building glass conducting wire preferred embodiment schematic diagram;
The intelligent display building glass schematic diagram that Fig. 6 provides for the utility model;
The intelligent display building glass preferred embodiment schematic diagram that Fig. 7 provides for the utility model;
Fig. 8 is intelligent display building glass side view.
Reference:
The main son isolation circuit of isolation circuit 12 of 10 conductive layer 11
The public separate conductive block of conductive area 15 of 13 conductive area 14
The electronic component of 20 first substrate, 30 second substrate 40
50 doublings, 60 circuit etching of layer
Embodiment
It is new below in conjunction with this practicality to make the purpose, technical scheme and advantage of the utility model embodiment clearer
Accompanying drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that retouched
The embodiment stated is a part of embodiment of the utility model, rather than whole embodiments.Based on the implementation in the utility model
Example, the every other embodiment that those of ordinary skill in the art are obtained under the premise of creative work is not made is belonged to
The scope of the utility model protection.
, it is necessary to explanation in description of the present utility model, term " " center ", " longitudinal direction ", " transverse direction ", " on ", " under ",
The orientation or position relationship of the instruction such as "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outer " are
Based on orientation shown in the drawings or position relationship, it is for only for ease of description the utility model and simplifies description, rather than indicate
Or imply that the device or element of meaning must have specific orientation, with specific azimuth configuration and operation, therefore be not understood that
For to limitation of the present utility model.In addition, term " first ", " second " be only used for describe purpose, and it is not intended that indicate or
Imply relative importance.
The intelligent display building glass conducting wire schematic diagram that Fig. 4 provides for the utility model, as shown in Figure 4:In glass
The conductive layer 10 of substrate is extended to provided with a main isolation circuit 11, the main isolation circuit 11 on the upside of the glass substrate
Downside, some sub- shielding wire roads 12 are distributed with along the main isolation circuit 11, described sub- one end of isolation circuit 12 with it is described
Main isolation circuit 11 is connected, and one end extends to the upside or downside of the glass substrate;It is described it is main isolation circuit 11 and son every
Conductive layer 10 is divided into several conductive areas 13 by offline road 12, and each width of conductive area 13 or so is with the conduction region
The increase of the lower-upper length of block 13 and increase so that the different resistances of the conductive area 13 is equal.
Preferably, the conductive layer 10 is divided into the first conductive area and the second conduction region by the main isolation circuit 11
Block;First conductive area is public conductive area 14;Second conductive area is divided into by the sub- isolation circuit 12
Some separate conductive blocks 15.
When it is implemented, setting main isolation circuit 11 and some sub- isolation circuits 12, main isolation circuit on conductive layer 10
11 and some sub- isolation circuits 12 conductive layer 10 is divided into public conductive area 14 and some separate conductive blocks 15.Main isolation
The upside of circuit 11 from conductive layer 10 extends to downside, and some sub- shielding wire roads 12, son are distributed with along main isolation circuit 11
Isolation one end of circuit 12 is connected with main circuit 11 of isolating, and one end extends to the upside or downside of the glass substrate so that public
Common conductive area 14 and the mutually insulated of separate conductive block 15.The width of conductive area 13 or so is with the conductive area about 13
The increase of length and increase so that the different resistances of the conductive area 13 is equal.
It is preferred that the different width of separate conductive block 15 or so is with the increase of the lower-upper length of separate conductive block 15
Increase.Because conductive layer 10 is to carry out conduction by face, and conductive layer 10 is with square resistance, its resistance and parallel to electric current side
To the area of plane of conductive layer 10 it is relevant.Conductive area 13 on conductive layer 10:Length parallel to the sense of current is bigger, conductive
The square resistance of block 13 is bigger;Width perpendicular to the sense of current is bigger, and the square resistance of conductive area 13 is smaller;And it is conductive
The width of block 13 is bigger to the influence degree of its square resistance than the length of conductive area 13 to the influence degree of its square resistance.
Therefore, when the length increase of conductive area 13 is larger, two conduction regions can be made by only needing the width of minor adjustment conductive area 13
The square resistance resistance of block 13 is equal.It is preferred that the distance of a points and b points is 0.5mm in Fig. 4, the distance between b points and c points are
The distance between 0.7mm, c point and d points are 0.9mm, and the distance between d points and e points are 1.1mm.After tested, four conductive areas
13 resistance is respectively 5.8 Ω, 5.9 Ω, 5.7 Ω and 5.8 Ω.
It is preferred that conductive layer 10 is made of ito thin film.ITO is as nano indium tin metal oxide, with leading well
It is electrically and transparent, harmful electron radiation, ultraviolet and far infrared can be cut off.Therefore, indium tin oxide leads to
Often it is sprayed in glass, plastics and electronic display, as transparent conductive film, while reducing harmful electronics spoke
Penetrate.
The intelligent display building glass conducting wire that the utility model is provided, by setting different in width on the electrically conductive
Conductive area so that each conductive area has each electronic component two ends connected on identical square resistance, conductive layer
Series connection identical resistance, so that the voltage at each electronic component two ends reaches unanimously, without controller to each electronics member device
Part is controlled respectively.Each electronics on the intelligent display building glass conducting wire provided using the utility model, conductive layer
Component can obtain identical voltage, when designing controller, without considering the resistance of each block on conductive layer to each
The influence of electronic component both end voltage, electronic component both end voltage is stable, and controller design is simple.
Preferably, the sub- isolation circuit 12 is shaped as curve-like or L-type shape.
When it is implemented, as shown in Figure 4 and Figure 5:Using curve-like or the son isolation circuit 12 of L-type shape, it is easy to electronics
Component 40 can be connected with public conductive area 14 and separate conductive block 15.
Preferably, the different separate conductive blocks 15 is connected with the same polarity of dc source;The public conduction
Block 14 is connected with the opposed polarity of dc source respectively with the separate conductive block 15.
When it is implemented, as shown in Figure 5:Conductive area 13 on conductive layer 10 is divided into public conductive area 14 and independent
Conductive area 15, separate conductive block 15 at least two, different separate conductive blocks 15 and the same polarity of dc source
Connection, public conductive area 14 is connected with the opposed polarity of dc source respectively with separate conductive block 15, public conductive area
14 are used to power to all electronic components 40 on conductive layer 10, and separate conductive block 15 is used to be each electronic component
40 power supplies, so that the electronic component 40 on conductive layer 10 being capable of steady operation.The width of separate conductive block 15 is with independently leading
The increase of the length of electric block 15 and increase so that the square resistance resistance of separate conductive block 15 is identical.
The utility model also provides a kind of intelligent display building glass, as shown in Figure 6 and Figure 7:Using as above any described
Intelligent glass conducting wire, in addition to first substrate 20, second substrate 30 and electronic component 40;The conductive layer 10 is pasted
In the inner surface of the first substrate 20;The conductive layer 10 is provided with the public insulated conductive region of conductive area 14 and at least two
Block 15;The electronic component 40 is located between the conductive layer 10 and the second substrate 30;The electronic component 40 with
The public conductive area 14 and separate conductive block 15 are conductively connected.
When it is implemented, conductive layer 10, which is covered on the inner surface of first substrate 20, conductive layer 10, is etched with main shielding wire
Conductive layer 10 is divided into different conductive areas by road 11 and son isolation circuit 12, main isolation circuit 11 and son isolation circuit 12
13, conductive layer 10 is provided with public conductive area 14 and separate conductive block 15, and conductive area 13 can be by conductor (such as:FPC
Circuit) it is connected with dc source.It is preferred that public conductive area 14 is connected with the positive pole of dc source, each separate conductive
Block 15 is connected with the negative pole of dc source.It is close to public conductive area 14 and independent in two contacts of electronic component 40
Conductive area 15.Public conductive area 14 is used to power to all electronic components 40 on conductive layer 10, separate conductive block
15 are used to power for each electronic component 40.Because the width of separate conductive block 15 increases with the increase of its length,
Its square resistance resistance is identical, therefore, and each two ends of electronic component 40 are in series with identical resistance on conductive layer 10, because
This, each electronic component 40 can obtain identical voltage on conductive layer 10, when setting controller, without considering conductive layer
Influence of the resistance of each conductive area 13 to each both end voltage of electronic component 40, the both end voltage of electronic component 40 on 10
Stable, controller design is simple.
Preferably, the conductive layer 10 is oppositely arranged with the second substrate 30;The conductive layer 10 and second base
Filled with doubling layer 50 between plate 30.
When it is implemented, as shown in Figure 8:Doubling layer 50 can be used for protecting conductive layer 10, and electronic component 40 prevents ash
Dirt, liquid lamp enter, and cause intelligent display building glass not work.It is preferred that the doubling layer 50 is made up of PVB materials.
Preferably, the first substrate 20 and the second substrate 30 are made up of glass material.
When it is implemented, because glass material just has larger intensity, while can be made transparency preferable for glass material
Sheet material, therefore, make first substrate 20 and second substrate 30 with glass material so that intelligent display building glass can be used for
Building curtain wall.
Preferably, the conductive layer 10 is transparency conducting layer
Preferably, the electronic component 40 is LED.
When it is implemented, LED has low, the advantages of brightness is high of consuming energy, while using red, blueness and green three kinds of face
The LED of color can show different colors, and intelligent glass display screen can show different patterns, show different animation effects
Really.
Although more herein used such as conductive layer, conductive area, main isolation circuit, sub- isolation circuit is public
Conductive area, separate conductive block, substrate, electronic component, doubling layer etc. term, but be not precluded from using other terms can
Can property.It is used for the purpose of more easily describing and explaining essence of the present utility model using these terms;It is construed as appointing
A kind of what additional limitation is all disagreed with the utility model spirit.
Finally it should be noted that:Various embodiments above is only limited to illustrate the technical solution of the utility model, rather than to it
System;Although the utility model is described in detail with reference to foregoing embodiments, one of ordinary skill in the art should
Understand:It can still modify to the technical scheme described in foregoing embodiments, or to which part or whole
Technical characteristic carries out equivalent substitution;And these modifications or replacement, the essence of appropriate technical solution is departed from this practicality newly
The scope of each embodiment technical scheme of type.