CN208207470U - A kind of electrochromism product structure - Google Patents

Abstract

The utility model discloses a kind of electrochromism product structure, including upper layer transparent conducting glass, lower layer's transparent conducting glass, electrochromism liquid, and the annular FPC among the upper layer transparent conducting glass and lower layer's transparent conducting glass；The annular FPC is equipped with conductive electrode exit；Through-hole is additionally provided on the annular FPC；Upper layer transparent conducting glass, lower layer's transparent conducting glass and annular FPC pass through conductive glue bond；Upper layer transparent conducting glass and lower layer's transparent conducting glass is intermediate, annular FPC lateral area filling with sealant；The electrochromism liquid is filled in upper layer transparent conducting glass, lower layer's transparent conducting glass by the through-hole, on the inside of annular FPC composed by gap；The through-hole fills sealing compound；It is connected by the conductive electrode exit with power supply, realizes electrochromic effect.The utility model electrochromism product structure display effect is good, and electric conductivity is excellent, and product color change is fast.

Description

A kind of electrochromism product structure

Technical field

The utility model belongs to electrochromism function element field, and in particular to a kind of electrochromism product structure.

Background technique

The optical properties that reversible color change occurs under the action of external electric field using material, are made electrochromic device. Such electrochromic device can show different colors according to design requirement in power on condition, and it is aobvious to be widely used in glass Show, the fields such as information electronics, building decoration and national defence section work.

With being constantly progressive for new material and production technology, more and more electrochromic materials are found or are synthesized, Thus the electrochromic device prepared is also more diversified, and use scope is also constantly expanding.Electrochromic device unique properties, With wide applicability.But that there are reaction speeds is slow for many electrochromism products at present, discoloration is uneven, and visual effect is owed Good etc. defect, as consumer to the expectation of electrochromism product and requires higher and higher, production color change is fast, face The uniform and stable electrochromism product of color has become a hot topic of research.

Utility model content

In order to solve the deficiencies in the prior art, the utility model provides a kind of electrochromism product structure.Upper layer Transparent conducting glass, lower layer's transparent conducting glass are bonded together by conducting resinl and annular FPC, realize upper and lower level electrically conducting transparent The conducting of glass.Annular FPC is equipped with through-hole, and electrochromism liquid is filled on the inside of annular FPC by the through-hole, meanwhile, ring Through-hole is set on shape FPC not influences the route of annular FPC, i.e., does not influence the conducting of upper and lower level transparent conducting glass.It is saturating in upper and lower level Bright electro-conductive glass and annular FPC lateral area filling with sealant, can prevent the leakage of electrochromism liquid, moreover it is possible to prevent annular FPC The oxidation of route.After the gap filling electrochromism liquid that upper and lower level transparent conducting glass and the inside annular FPC form, described logical Sealing compound is filled in hole, and through-hole is sealed.It is additionally provided with conductive electrode exit on annular FPC, is connected by it with power supply, realizes electroluminescent The color changeable effect of off-color product.

The utility model technical effect to be achieved is realized by following scheme:

The utility model provides a kind of electrochromism product structure, it is characterised in that: including upper layer transparent conducting glass, Lower layer's transparent conducting glass, electrochromism liquid, and it is set to the upper layer transparent conducting glass and lower layer's electrically conducting transparent glass Annular FPC among glass；

The annular FPC is equipped with conductive electrode exit；

Through-hole is additionally provided on the annular FPC.

Upper and lower level transparent conducting glass is bonded together by conducting resinl and annular FPC, realizes upper and lower level by annular FPC The conducting of transparent conducting glass.Electrochromism liquid is injected on the inside of annular FPC by through-hole, is filled in upper and lower level transparent conducting glass With the gap formed on the inside of annular FPC.Filling with sealant can prevent the leakage of electrochromism liquid on the outside of annular FPC, moreover it is possible to anti- The only oxidation of annular FPC route.On the inside of annular FPC after filling electrochromism liquid, sealing compound is filled in the through-hole, through-hole is close Envelope.It is connected by the conductive electrode exit on annular FPC with power supply, realizes the color changeable effect of electrochromism product.

Further, the through-hole and the conductive electrode exit are respectively arranged at the both ends of the annular FPC.Through-hole and Conductive electrode exit sets up separately and the annular both ends FPC, and there are a distances therebetween, do not interfere with each other, and through-hole does not influence conductive electrode The installation and stabilization of exit, conductive electrode exit do not influence setting and the injection electrochromism liquid of through-hole.

Further the upper layer transparent conducting glass is the transparent conducting glass that surface is indium tin oxide conductive film；It is described Lower layer's transparent conducting glass is the transparent conducting glass that surface is indium tin oxide conductive film.Surface is the saturating of indium tin oxide conductive film Bright electro-conductive glass resistance is small, high mechanical strength, antiseptic property are good, and light transmittance with higher, film layer can to the transmitance of light To reach 90% or more, the display effect of electrochromism product can be improved.

Further, the upper layer transparent conducting glass, lower layer's transparent conducting glass are with the annular FPC by leading Electric glue bond.Upper and lower level transparent conducting glass and annular FPC are bonded together by conducting resinl, annular FPC upper and lower surfaces All design has conducting wire, and the conducting of upper and lower level is realized by annular FPC.

Further, filling with sealant on the outside of the annular FPC.

Further, the electrochromism liquid is filled on the inside of the annular FPC by the through-hole.

Further, the through-hole fills sealing compound.

Further, the conductive electrode exit is connected with power supply.Pass through the conductive electrode exit and power supply on annular FPC It is connected, the color changeable effect of electrochromism product can be realized.

The utility model has the advantage that

1. the utility model upper and lower level transparent conducting glass light transmittance is high, display effect is good.

2. the utility model upper and lower level transparent conducting glass high mechanical strength, antiseptic property are good, good weatherability is adapted to The use environment of indoor and outdoor complexity.

3. upper and lower transparent conducting glass and annular FPC are bonded together by the utility model by conducting resinl, resistance is low, It conducts electricity very well, can be quick power-on, it is swift in response, color change is fast.

4. the utility model can prepare many sizes, different, function according to the selection of upper and lower level transparent conducting glass It can unique electrochromism product.

Detailed description of the invention

Fig. 1 is electrochromism schematic diagram of product structure in the utility model.

Fig. 2 is electrochromism product the schematic diagram of the section structure in the utility model.

Fig. 3 is electrochromism product structure side schematic view in the utility model.

In figure: 1, upper layer transparent conducting glass；2, lower layer's transparent conducting glass；3, annular FPC；4, electrochromism liquid； 301, conductive electrode exit；302, through-hole.

Specific embodiment

The utility model is described in detail with reference to the accompanying drawings and examples.

As illustrated in the accompanying drawings from 1 to 3, including upper layer transparent conducting glass 1, lower layer is transparent for electrochromism product structure in embodiment Electro-conductive glass 2, the annular FPC 3 between upper and lower level glass are filled in the electrochromism liquid 4 of annular 3 inside FPC, setting Conductive electrode exit 301 on annular FPC 3, the through-hole 302 being set on annular FPC.

Through-hole 302 and conductive electrode exit 301 set up separately and the both ends of annular FPC 3, and there are a distances therebetween, mutually It does not interfere, through-hole 302 does not influence the installation and use of conductive electrode exit 301；Conductive electrode exit 301 does not influence through-hole 302 Setting and injection electrochromism liquid.

Annular 3 upper and lower surfaces of FPC post conducting resinl, upper layer transparent conducting glass 1, lower layer's transparent conducting glass 2 It is bonded together by conducting resinl and annular FPC 3.After the completion of bonding, transparent conducting glass 1 and lower layer's electrically conducting transparent on upper layer Between glass 2,3 lateral area filling with sealant of annular FPC, only reserve through-hole 302.By through-hole 302, by electrochromism liquid 4 It is filled in upper layer transparent conducting glass 1, lower layer's transparent conducting glass 2, gap composed by the inside annular FPC 3, then logical Fill sealing compound in hole 302.Electrochromism product is connected by conductive electrode exit 301 with power supply in embodiment, realizes electroluminescent change The color changeable effect of color product.

In the present embodiment, upper layer transparent conducting glass and lower layer's transparent conducting glass light transmittance are high, and display effect is good, simultaneously Upper layer transparent conducting glass and lower layer's transparent conducting glass high mechanical strength, antiseptic property are good, and good weatherability adapts to indoor and outdoor Complicated and diversified use environment.Upper layer transparent conducting glass, lower layer's transparent conducting glass are bonded in by conducting resinl and annular FPC Together, the conducting of upper and lower level transparent conducting glass is realized, conducting system resistance is low, conducts electricity very well, can be quick power-on, it reacts fast Speed, color change are fast.

Annular FPC is equipped with through-hole, and electrochromism liquid is filled on the inside of annular FPC by the through-hole, meanwhile, annular Through-hole is set on FPC not influences the route of annular FPC, i.e., does not influence the conducting of upper and lower level transparent conducting glass.On the outside of annular FPC Filling with sealant prevents the leakage of electrochromism liquid, moreover it is possible to prevent the oxidation of annular FPC route.Filling is electroluminescent on the inside of annular FPC Change colour after liquid, fills sealing compound in the through-hole, through-hole is sealed.

Have conducting wire since annular FPC upper and lower surface all designs, in use, as long as by conductive electrode exit with Power supply is connected, and the color changeable effect of electrochromism product can be realized.

Annular FPC is adapted with upper and lower level transparent conducting glass size in the present embodiment, is not limited in the utility model The shape of upper layer transparent conducting glass and upper layer transparent conducting glass, i.e. the utility model can be according to upper and lower level electrically conducting transparent glass The selection of glass prepares many sizes, different electrochromism product, moreover it is possible to which selection function type transparent conducting glass is made It is standby to go out to meet the electrochromism product of design requirement.

Finally, it should be noted that above embodiments are only to illustrate the technical solution of the utility model embodiment rather than right It is limited, although the utility model embodiment is described in detail referring to preferred embodiment, this field it is common Technical staff should understand that still be modified or replaced equivalently the technical solution of the utility model embodiment, and this A little ranges modified or equivalent replacement cannot also make modified technical solution be detached from the utility model embodiment technical solution.

Claims (9)

1. a kind of electrochromism product structure, it is characterised in that: including upper layer transparent conducting glass, lower layer's transparent conducting glass, Electrochromism liquid, and the annular FPC among the upper layer transparent conducting glass and lower layer's transparent conducting glass；

The annular FPC is equipped with conductive electrode exit；

Through-hole is additionally provided on the annular FPC.

2. electrochromism product structure as described in claim 1, it is characterised in that: the through-hole and the conductive electrode exit point It is not set to the both ends of the annular FPC.

3. electrochromism product structure as described in claim 1, it is characterised in that: the upper layer transparent conducting glass is that surface is The transparent conducting glass of indium tin oxide conductive film.

4. electrochromism product structure as described in claim 1, it is characterised in that: lower layer's transparent conducting glass is that surface is The transparent conducting glass of indium tin oxide conductive film.

5. electrochromism product structure as described in claim 1, it is characterised in that: the upper layer transparent conducting glass, it is described under Layer transparent conducting glass and the annular FPC pass through conductive glue bond.

6. electrochromism product structure as described in claim 1, it is characterised in that: filling with sealant on the outside of the annular FPC.

7. electrochromism product structure as described in claim 1, it is characterised in that: the electrochromism liquid is filled out by the through-hole It fills on the inside of the annular FPC.

8. electrochromism product structure as described in claim 1, it is characterised in that: the through-hole fills sealing compound.

9. the electrochromism product structure as described in claim 1-8 is any, it is characterised in that: the conductive electrode exit and power supply It is connected, realizes electrochromic effect.