CN207123692U - A kind of dislocation-free electrochromism anti-glare outside rear-view mirror eyeglass - Google Patents

Abstract

It the utility model is related to a kind of dislocation-free electrochromism anti-glare outside rear-view mirror eyeglass, for solving the problems, such as that anti-glare outside rear-view mirror eyeglass can not dim in the prior art, it prepares reflecting layer and transparency conducting layer respectively on the consistent glass substrate of two chip sizes, glass substrate where reflecting layer has upper and lower two through holes, and two panels glass substrate need not produce any dislocation in fitting.After adding electrochromic material, under applied voltage effect, eyeglass can realize abblendbar purpose, and therefore, the utility model can be widely applied to automobile view mirror field.

Description

A kind of dislocation-free electrochromism anti-glare outside rear-view mirror eyeglass

Technical field

It the utility model is related to automobile view mirror field, more particularly to a kind of dislocation-free electrochromism anti-glare outside rear-view mirror mirror Piece.

Background technology

Important component of the outside rear-view mirror of automobile as automobile, by outside rear-view mirror, driver will be seen that rear view of vehicle Situation.During night running, when rear view of vehicle has strong illumination to outside rear-view mirror, it is most likely that can produce strong anti- Light, enter in driver's eyes, produce of short duration blinding phenomenon, bring potential safety hazard.

Electrochromism refers to material under DC Electric Field, and the phenomenon of reversible change occurs for its optical characteristics.Based on electricity Causing the electrochromism anti-glare outside rear-view mirror of color-change technology, its color can become dark state, and then it is anti-to reduce its under external voltage Penetrate rate.Apply on automobile, can greatly mitigate the degree of reflection of rear light, mitigate the dazzle degree of driver, lifted Driving safety.

Utility model content

The technical problems to be solved in the utility model is：In order to solve in the prior art, anti-glare outside rear-view mirror eyeglass can not The problem of light modulation, the utility model provide a kind of dislocation-free electrochromism anti-glare outside rear-view mirror eyeglass to solve the above problems.

Technical scheme is used by the utility model solves its technical problem：

A kind of dislocation-free electrochromism anti-glare outside rear-view mirror eyeglass, it is characterised in that：It includes one first glass substrate With one second glass substrate, and first glass substrate is consistent with the second glass substrate size；The first glass base The top of plate is provided with a first through hole, is provided with one second through hole below；Setting one is anti-on the lower surface of first glass substrate Layer is penetrated, and the first through hole, outside the region in the reflecting layer, second through hole is within the region in the reflecting layer； One transparency conducting layer is set on the upper surface of second glass substrate, and the transparency conducting layer includes the one of two mutual insulatings First conductive region and one second insulating regions；Electrochromism material is provided between the reflecting layer and the transparency conducting layer Material, form an electrochromic layer；The electrochromic material is circumferentially provided with bonding agent, and the first through hole and described Two through holes are outside the bonding agent scope；Use the first conducting connecting part by the first through hole, first conductive region with And the reflecting layer conducting, second through hole is turned on second insulating regions using the second conducting connecting part.

The first through hole and the distance range of the respective adjacent first glass substrate side of second through hole distance Using 0.5mm to 10mm.

The diameter range of the first through hole and second through hole uses 0.5mm to 3mm.

The reflecting layer uses metallic reflector or alloy reflective layer.

The transparency conducting layer, which is used in tin indium oxide coating, fluorine-doped tin oxide coating or aluminium-doped zinc oxide coating, appoints Meaning is a kind of.

The bonding agent uses any one in hot-setting adhesive, UV glue or AB glue.

The electrochromic material is using electrochromic material described in purpurine electrochromic material or liquid crystal.

First conducting connecting part and second conducting connecting part use elargol or brazing metal.

The beneficial effects of the utility model are：The utility model designs a kind of dislocation-free electrochromism anti-glare outside rear-view mirror Eyeglass, the lens shape is attractive in appearance, and intensity of reflected light can be adjusted under applied voltage effect, and then mitigates dazzle degree, lifting Nighttime driving security.In view of above reason, the utility model can be widely applied to automobile view mirror field.

Brief description of the drawings

The utility model is further illustrated with reference to the accompanying drawings and examples.

Fig. 1 is dislocation-free electrochromism anti-glare outside rear-view mirror lens structure side view of the present utility model；

Fig. 2 is the first glass substrate schematic diagram that the utility model is coated with reflecting layer；

Fig. 3 is the second glass substrate rearview that the utility model is coated with transparency conducting layer.

Embodiment

The utility model is described in further detail presently in connection with accompanying drawing.These accompanying drawings are simplified schematic diagram, Only illustrate basic structure of the present utility model in a schematic way, therefore it only shows the composition relevant with the utility model.

As shown in figure 1, a kind of dislocation-free electrochromism anti-glare outside rear-view mirror eyeglass, it includes the first glass substrate 101 With the second glass substrate 102, and the first glass substrate 101 is consistent with the size of the second glass substrate 102.

Wherein, it is following to be provided with one second as shown in Fig. 2 the top of the first glass substrate 101 is provided with a first through hole 103 Through hole 104.Reflecting layer 105 is set on the lower surface of first glass substrate 101, and first through hole 103 is in the region in reflecting layer 105 Outside, the second through hole 104 is within the region in reflecting layer 105.

As shown in figure 3, a transparency conducting layer 106, transparency conducting layer 106 are set on the upper surface of second glass substrate 102 Include the first conductive region 107 and the second conductive region 108 of two mutual insulatings.

Electrochromic material is provided between reflecting layer 105 and transparency conducting layer 106, forms electrochromic layer 109.It is electroluminescent Off-color material is circumferentially provided with bonding agent 110, and the through hole 104 of first through hole 103 and second is outside the scope of bonding agent 110.Adopt First through hole 103, the first conductive region 107 are turned on the first conducting connecting part 111, using the second conducting connecting part 112 Second through hole 104, the second conductive region 108 and reflecting layer 105 are turned on.It is defeated at the through hole 104 of first through hole 103 and second Enter voltage signal, you can realize the purpose of anti-glare outside rear-view mirror eyeglass light modulation.

In above-described embodiment, the through hole 104 of first through hole 103 and second is apart from the respective adjacent side of first glass substrate 101 Distance range can use including but not limited to 0.5mm to 10mm.

In above-described embodiment, the diameter range of the through hole 104 of first through hole 103 and second, which can use, to be included but is not limited to 0.5mm to 3mm.

In above-described embodiment, reflecting layer 105 can be prepared into the by the way of including but is not limited to by magnetron sputtering On one glass substrate 101, transparency conducting layer 106 can be prepared into second by the way of including but is not limited to by magnetron sputtering On glass substrate 102.

In above-described embodiment, reflecting layer 105 can use including but not limited to metallic reflector or alloy reflective layer.

In above-described embodiment, transparency conducting layer 106 can use including but not limited to tin indium oxide coating, Fluorin doped oxidation Any one in tin coating or aluminium-doped zinc oxide coating.

In above-described embodiment, bonding agent 110 can use any in including but not limited to hot-setting adhesive, UV glue or AB glue etc. It is a kind of.

In above-described embodiment, electrochromic material is purpurine electrochromic material or liquid crystal electrochromic material.

In above-described embodiment, the first conducting connecting part 111 and the second conducting connecting part 112 can be used and included but is not limited to Elargol or brazing metal.

Manufacturing process of the present utility model is as follows：

1) reflecting layer 105, and the first glass are set on the lower surface of the first glass substrate 101 using magnetically controlled sputter method The top of substrate 101 is provided with a first through hole 103, is provided with one second through hole 104 below, and first through hole 103 is in reflecting layer 105 Region outside, the second through hole 104 is within the region in reflecting layer 105；

2) transparency conducting layer 106 is prepared in the upper surface of the second glass substrate 102 using magnetically controlled sputter method, and used Transparency conducting layer 106 is separated into the first conductive region 107 and the second conductive region 108 of two mutual insulatings by laser；

3) coating adhesive 110 on reflecting layer 105, during coating, a liquid feeding mouth 113 is reserved；

It is above-mentioned to connect agent 110 and be coated on transparency conducting layer 106, and bonding agent 110 is that those skilled in the art adopt Part, therefore be no longer described in detail；

4) when being bonded, by the face transparency conducting layer 106 of reflecting layer 105, the first glass substrate 101 and the second glass substrate 102 do not produce dislocation；

5) electrochromic material is entered between reflecting layer 105 and transparency conducting layer 106 by liquid feeding mouth 113, forms electricity Mutagens chromatograph 109.Liquid feeding mouth 113 is sealed using sealing compound 114；

In above-described embodiment, sealing compound 114 can use including but not limited to hot-setting adhesive or UV glue.

6) first through hole 103, the first conductive region 107 are turned on using the first conducting connecting part 111, led using second Electrical connector 112 turns on the second through hole 104 and the second conductive region 108 and reflecting layer 105.From first through hole 103 and Input voltage signal at two through holes 104, you can realize the purpose of anti-glare outside rear-view mirror eyeglass light modulation.

Above-mentioned magnetically controlled sputter method is the method that those skilled in the art commonly use, therefore is no longer described in detail.

Using it is above-mentioned according to desirable embodiment of the present utility model as enlightenment, pass through above-mentioned description, related work people Member can carry out various changes and amendments in the range of without departing from this item utility model technological thought completely.This item is real The content being not limited to new technical scope on specification, it is necessary to which its technology is determined according to right Property scope.

Claims (10)

1. A kind of 1. dislocation-free electrochromism anti-glare outside rear-view mirror eyeglass, it is characterised in that：It includes one first glass substrate And one second glass substrate (102), and first glass substrate (101) and the second glass substrate (102) size (101) Unanimously；

   The top of first glass substrate (101) is provided with a first through hole (103), is provided with one second through hole (104) below；Institute State and a reflecting layer (105) is set on the lower surface of the first glass substrate (101), and the first through hole (103) is in the reflection Outside the region of layer (105), second through hole (104) is within the region of the reflecting layer (105)；

   One transparency conducting layer (106), the transparency conducting layer (106) are set on the upper surface of second glass substrate (102) The first conductive region (107) and one second conductive region (108) including two mutual insulatings；

   Electrochromic material is provided between the reflecting layer (105) and the transparency conducting layer (106), forms an electrochromism Layer (109)；The electrochromic material is circumferentially provided with bonding agent (110), and the first through hole (103) and described second Through hole (104) is outside the bonding agent (110) scope；Using the first conducting connecting part (111) by the first through hole (103), First conductive region (107) conducting, using the second conducting connecting part (112) by second through hole (104), described second Conductive region (108) and the reflecting layer (105) conducting.
2. A kind of 2. dislocation-free electrochromism anti-glare outside rear-view mirror eyeglass as claimed in claim 1, it is characterised in that：Described One through hole (103) and the distance range of respective adjacent first glass substrate (101) side of second through hole (104) distance Using 0.5mm to 10mm.
3. A kind of 3. dislocation-free electrochromism anti-glare outside rear-view mirror eyeglass as claimed in claim 1, it is characterised in that：Described The diameter range of one through hole (103) and second through hole (104) uses 0.5mm to 3mm.
4. A kind of 4. dislocation-free electrochromism anti-glare outside rear-view mirror eyeglass as claimed in claim 2, it is characterised in that：Described The diameter range of one through hole (103) and second through hole (104) uses 0.5mm to 3mm.
5. 5. a kind of dislocation-free electrochromism anti-glare outside rear-view mirror eyeglass as claimed in claim 1 or 2 or 3 or 4, its feature exist In：The reflecting layer (105) uses metallic reflector or alloy reflective layer.
6. 6. a kind of dislocation-free electrochromism anti-glare outside rear-view mirror eyeglass as claimed in claim 1 or 2 or 3 or 4, its feature exist In：The transparency conducting layer (106), which is used in tin indium oxide coating, fluorine-doped tin oxide coating or aluminium-doped zinc oxide coating, appoints Meaning is a kind of.
7. A kind of 7. dislocation-free electrochromism anti-glare outside rear-view mirror eyeglass as claimed in claim 5, it is characterised in that：It is described viscous Agent (110) is connect using any one in hot-setting adhesive, UV glue or AB glue.
8. A kind of 8. dislocation-free electrochromism anti-glare outside rear-view mirror eyeglass as claimed in claim 6, it is characterised in that：The electricity Off-color material is caused using electrochromic material described in purpurine electrochromic material or liquid crystal.
9. 9. a kind of dislocation-free electrochromism anti-glare outside rear-view mirror eyeglass as described in claim 1 or 2 or 3 or 4 or 7, it is special Sign is：First conducting connecting part (111) and second conducting connecting part (112) use elargol or brazing metal.
10. A kind of 10. dislocation-free electrochromism anti-glare outside rear-view mirror eyeglass as claimed in claim 8, it is characterised in that：It is described First conducting connecting part (111) and second conducting connecting part (112) use elargol or brazing metal.