CN109696784A - A kind of electrochromic rearview and the vehicles - Google Patents

Abstract

The invention discloses a kind of electrochromic rearview and the vehicles, electrochromic rearview includes: electrochromism mould group, wherein the electrochromism mould group division has energization transformation region and the non-transformation region that is powered；And deviate from the display module of its incidence surface side positioned at the electrochromism mould group, and the display module is corresponding with the non-transformation region that is powered.As shown in the above, technical solution provided by the invention, electrochromism mould group is divided into energization transformation region and the non-transformation region that is powered, and set corresponding with the non-transformation region that is powered for display module, in turn, after being powered to electrochromism mould group, display module goes out energization non-transformation region outgoing of the light by electrochromism mould group, electrochromism mould group is reduced to the uptake of display module emergent ray, guarantees that the emitting brightness of display module is high, visual effect is provided.

Description

A kind of electrochromic rearview and the vehicles

Technical field

The present invention relates to electrochromism technical fields, more specifically, are related to a kind of electrochromic rearview and traffic Tool.

Background technique

Currently, automobile has become the most commonly used vehicles of people's daily trip.The inside rear-view mirror of automobile is driver The main component for observing automobile rear situation, belongs to the important safety component of automobile, and mirror surface, shape are all quite worthy of careful study, because And the quality of inside rear-view mirror and installation have corresponding standard.Driver drives in the long distance tunnel of night or dark When, when the light of the headstock headlight of the vehicle at rear is irradiated in inside rear-view mirror by this vehicle rear window, inside rear-view mirror will reflect Strong illumination will appear dazzling light on the glasses of driver, and then the glasses of driver are caused to stimulate, influence driver Sight, serious threat is produced to the safety of driver and passenger.

It is existing to research and develop a kind of electrochromic rearview in order to optimize the inside rear-view mirror of automobile, also, in order to enrich electroluminescent change The function of color rearview mirror is provided with a display module at the electrochromism mould group back side of electrochromic rearview.But it is existing Electrochromism mould group changes colour and enhances light-absorbing ability electrochromic rearview after powered up, will be to display module to this Emitting brightness impact, influence visual effect.

Summary of the invention

In view of this, electrochromism mould group is divided the present invention provides a kind of electrochromic rearview and the vehicles For energization transformation region and the non-transformation region of being powered, and set corresponding with the non-transformation region of energization for display module, in turn, to electricity After mutagens color mould group is powered, display module goes out energization non-transformation region outgoing of the light by electrochromism mould group, reduces electroluminescent change Color mould group guarantees that the emitting brightness of display module is high, provides visual effect to the uptake of display module emergent ray.

To achieve the above object, technical solution provided by the invention is as follows:

A kind of electrochromic rearview, comprising:

Electrochromism mould group, wherein the electrochromism mould group division has energization transformation region and the non-transformation region that is powered；

And positioned at the electrochromism mould group deviate from its incidence surface side display module, and the display module with The non-transformation region that is powered is corresponding.

Optionally, the electrochromism mould group includes:

First substrate；

Positioned at the first substrate towards the first conductive layer of the display module side, first conductive layer corresponds to institute Stating the non-transformation region that is powered is vacancy section；

Deviate from the electrochromic material layer of the first substrate side positioned at first conductive layer；

Deviate from the second conductive layer of the first substrate side, second conductive layer positioned at the electrochromic material layer The corresponding non-transformation region that is powered is vacancy section；

Deviate from the part reflective semitransparent film of the first substrate side positioned at second conductive layer；

And deviate from the second substrate of the first substrate side positioned at the semi-transparent semi-reflecting film.

Optionally, the electrochromism mould group includes:

First substrate；

Positioned at the first substrate towards the first conductive layer of the display module side, first conductive layer deviates from institute It states first substrate side and the corresponding non-transformation region that is powered is provided with the first transparent insulating layer；

Deviate from the electrochromic material layer of the first substrate side positioned at first conductive layer；

Deviate from the second conductive layer of the first substrate side, second conductive layer positioned at the electrochromic material layer Towards the first substrate side and the corresponding non-transformation region that is powered is provided with the second transparent insulating layer；

Deviate from the part reflective semitransparent film of the first substrate side positioned at second conductive layer；

And deviate from the second substrate of the first substrate side positioned at the semi-transparent semi-reflecting film.

Optionally, the electrochromism mould group includes:

First substrate；

Positioned at the first substrate towards the first conductive layer of the display module side, first conductive layer deviates from institute It states first substrate side and the corresponding non-transformation region that is powered is provided with the first transparent insulating layer；

Deviate from the electrochromic material layer of the first substrate side positioned at first conductive layer；

Deviate from the second conductive layer of the first substrate side, second conductive layer positioned at the electrochromic material layer The corresponding non-transformation region that is powered is vacancy section；

Deviate from the part reflective semitransparent film of the first substrate side positioned at second conductive layer；

And deviate from the second substrate of the first substrate side positioned at the semi-transparent semi-reflecting film.

Optionally, the electrochromism mould group includes:

First substrate；

Positioned at the first substrate towards the first conductive layer of the display module side, first conductive layer corresponds to institute Stating the non-transformation region that is powered is vacancy section；

Deviate from the electrochromic material layer of the first substrate side positioned at first conductive layer；

Deviate from the second conductive layer of the first substrate side, second conductive layer positioned at the electrochromic material layer Towards the first substrate side and the corresponding non-transformation region that is powered is provided with the second transparent insulating layer；

Deviate from the part reflective semitransparent film of the first substrate side positioned at second conductive layer；

And deviate from the second substrate of the first substrate side positioned at the semi-transparent semi-reflecting film.

Optionally, the electrochromic rearview further include:

Deviate from the light shield layer of the first substrate side positioned at the second substrate, and the light shield layer corresponds to the display It is transparent area at mould group.

Optionally, the light shield layer is ink layer or pitch-dark layer；

Wherein, the light shield layer corresponds at the display module as vacancy section.

Optionally, the transparent insulating layer is silicon oxide layer or transparent DLC layer.

Optionally, the thickness range of the transparent insulating layer is 50nm-150nm, including endpoint value.

Correspondingly, the vehicles include above-mentioned electrochromism backsight the present invention also provides a kind of vehicles Mirror.

Compared to the prior art, technical solution provided by the invention has at least the following advantages:

The present invention provides a kind of electrochromic rearview and the vehicles, electrochromic rearview includes: electrochromism Mould group, wherein the electrochromism mould group division has energization transformation region and the non-transformation region that is powered；And it is located at the electroluminescent change Color mould group deviates from the display module of its incidence surface side, and the display module is corresponding with the non-transformation region that is powered.

As shown in the above, technical solution provided by the invention, by electrochromism mould group be divided into energization transformation region and Be powered non-transformation region, and sets corresponding with the non-transformation region that is powered for display module, in turn, is powered to electrochromism mould group Afterwards, the light that goes out of display module is emitted by the non-transformation region of energization of electrochromism mould group, reduces electrochromism mould group to display mould The uptake of group emergent ray guarantees that the emitting brightness of display module is high, provides visual effect.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this The embodiment of invention for those of ordinary skill in the art without creative efforts, can also basis The attached drawing of offer obtains other attached drawings.

Fig. 1 is a kind of structural schematic diagram of electrochromism mould group provided by the embodiments of the present application；

Fig. 2 is the structural schematic diagram of another electrochromism mould group provided by the embodiments of the present application；

Fig. 3 is the structural schematic diagram of another electrochromism mould group provided by the embodiments of the present application.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

As described in background, automobile has become the most commonly used vehicles of people's daily trip.Automobile it is interior after Visor is the main component that driver observes automobile rear situation, belongs to the important safety component of automobile, mirror surface, shape are all Quite it is worthy of careful study, thus the quality of inside rear-view mirror and installation have corresponding standard.Driver is in night or the long range tunnel of dark When driving in road, when the light of the headstock headlight of the vehicle at rear is irradiated in inside rear-view mirror by this vehicle rear window, after interior The strong illumination by reflection of visor will appear dazzling light on the glasses of driver, and then cause to pierce to the glasses of driver Swash, influences the sight of driver, serious threat is produced to the safety of driver and passenger.

It is existing to research and develop a kind of electrochromic rearview in order to optimize the inside rear-view mirror of automobile, also, in order to enrich electroluminescent change The function of color rearview mirror is provided with a display module at the electrochromism mould group back side of electrochromic rearview.But it is existing Electrochromism mould group changes colour and enhances light-absorbing ability electrochromic rearview after powered up, will be to display module to this Emitting brightness impact, influence visual effect.

Based on this, the embodiment of the present application provides a kind of electrochromic rearview and the vehicles, by electrochromism mould group It is divided into energization transformation region and the non-transformation region that is powered, and sets corresponding with the non-transformation region that is powered for display module, in turn, After being powered to electrochromism mould group, display module goes out energization non-transformation region outgoing of the light by electrochromism mould group, reduces electricity Mutagens color mould group guarantees that the emitting brightness of display module is high, provides visual effect to the uptake of display module emergent ray.For Realize above-mentioned purpose, technical solution provided by the embodiments of the present application is as follows, specifically Fig. 1 to Fig. 3 is combined to propose the embodiment of the present application The technical solution of confession is described in detail.

Refering to what is shown in Fig. 1, being a kind of structural schematic diagram of electrochromic rearview provided by the embodiments of the present application, wherein Electrochromic rearview includes:

Electrochromism mould group 100, wherein the division of electrochromism mould group 100 has energization transformation region 101 and the non-change that is powered Color area 102；

And deviate from the display module 200 of its incidence surface side positioned at the electrochromism mould group 100, and the display Mould group 200 is corresponding with the non-transformation region 102 that is powered, wherein the incidence surface of electrochromism mould group 100, that is, rearview mirror access is outer The one side of boundary's ambient light.

It should be understood that electrochromic rearview provided by the embodiments of the present application, under normal conditions (i.e. not to electrochromism In the case that rearview mirror is powered), it can be seen by the reflex of electrochromism mould group, the light scene of reflective rearview mirror access Examine automobile rear situation；When on strong illumination to rearview mirror, its suction to light is improved after being powered on to electrochromism mould group Receipts ability avoids the appearance of dazzling light, improves the peace of driving so that the light intensity that electrochromism mould group reflects weakens Quan Xing.

And electrochromism mould group is divided into energization transformation region and the non-transformation region that is powered, and set display module to Non- transformation region is corresponding with being powered, and in turn, after being powered to electrochromism mould group, the light that goes out of display module passes through electrochromism mould The non-transformation region outgoing of the energization of group, reduces electrochromism mould group to the uptake of display module emergent ray, guarantees display module Emitting brightness it is high, visual effect is provided.

In one embodiment of the application, the corresponding non-transformation region that is powered of conductive layer in electrochromism mould group can be hollowed out Mode, make electrochromism mould group be powered when hollow out place corresponding region it is non-discolouring.Refering to what is shown in Fig. 2, being mentioned for the embodiment of the present application The structural schematic diagram of another electrochromic rearview supplied, wherein the electrochromism mould group 100 includes:

First substrate 111；

It is led positioned at the first substrate 111 towards the first conductive layer 121 of 100 side of display module, described first The corresponding non-transformation region that is powered of electric layer 121 is vacancy section；

Deviate from the electrochromic material layer 130 of 111 side of first substrate positioned at first conductive layer 121；

Deviate from the second conductive layer 122 of 111 side of first substrate positioned at the electrochromic material layer 130, it is described The corresponding non-transformation region that is powered of second conductive layer 122 is vacancy section；

Deviate from the part reflective semitransparent film 140 of 111 side of first substrate positioned at second conductive layer 122；

And deviate from the second substrate 112 of 111 side of first substrate positioned at the semi-transparent semi-reflecting film 140.

It should be understood that electrochromism mould group provided by the embodiments of the present application, it can be conductive by the first conductive layer and second The corresponding part for being powered non-transformation region of layer hollows out as vacancy section, when being powered to electrochromism mould group, electrochromic material The corresponding place for being powered non-transformation region of layer is not in the variation of color, reduces the absorbability to the emergent ray of display module, Guarantee that the emitting brightness of display device is high, improves visual effect.

In one embodiment of the application, it can be arranged between conductive layer and electrochromic material layer in electrochromism mould group Insulating materials, so that the non-transformation region of energization of electrochromism mould group is non-discolouring when being powered.Refering to what is shown in Fig. 3, being the application The structural schematic diagram for another electrochromic rearview that embodiment provides, wherein the electrochromism mould group 100 includes:

First substrate 111；

It is led positioned at the first substrate 111 towards the first conductive layer 121 of 100 side of display module, described first Electric layer 121 is away from 111 side of first substrate and the corresponding non-transformation region that is powered is provided with the first transparent insulating layer 1211；

Deviate from the electrochromic material layer 130 of 111 side of first substrate positioned at first conductive layer 121；

Deviate from the second conductive layer 122 of 111 side of first substrate positioned at the electrochromic material layer 130, it is described Second conductive layer 122 is towards 111 side of first substrate and the corresponding non-transformation region that is powered is provided with the second transparent insulation Layer 1221；

Deviate from the part reflective semitransparent film 140 of 111 side of first substrate positioned at second conductive layer 122；

And deviate from the second substrate 112 of 111 side of first substrate positioned at the semi-transparent semi-reflecting film 140.

It should be understood that electrochromism mould group provided by the embodiments of the present application, it can be conductive in the first conductive layer and second The part of the corresponding non-transformation region that is powered of layer, is respectively set a transparent insulating layer between conductive layer and electrochromic material layer.Into And when being powered to electrochromism mould group, due to the presence of the first transparent insulating layer and the second transparent insulating layer, electroluminescent change The corresponding place for being powered non-transformation region of color material layer will not be applied voltage without the variation of color, reduce to display module Emergent ray absorbability, guarantee that the emitting brightness of display device is high, improve visual effect.

In one embodiment of the application, the corresponding non-transformation region that is powered of a conductive layer in electrochromism mould group can be carried out It hollows out, and an insulating materials is set between another conductive layer and electrochromic material layer and corresponds to the non-transformation region that is powered, that is, The electrochromism mould group provided by the embodiments of the present application includes:

First substrate；

Positioned at the first substrate towards the first conductive layer of the display module side, first conductive layer deviates from institute It states first substrate side and the corresponding non-transformation region that is powered is provided with the first transparent insulating layer；

Deviate from the electrochromic material layer of the first substrate side positioned at first conductive layer；

Deviate from the second conductive layer of the first substrate side, second conductive layer positioned at the electrochromic material layer The corresponding non-transformation region that is powered is vacancy section；

Deviate from the part reflective semitransparent film of the first substrate side positioned at second conductive layer；

And deviate from the second substrate of the first substrate side positioned at the semi-transparent semi-reflecting film.

Alternatively, the electrochromism mould group provided by the embodiments of the present application includes:

First substrate；

Positioned at the first substrate towards the first conductive layer of the display module side, first conductive layer corresponds to institute Stating the non-transformation region that is powered is vacancy section；

Deviate from the electrochromic material layer of the first substrate side positioned at first conductive layer；

Deviate from the second conductive layer of the first substrate side, second conductive layer positioned at the electrochromic material layer Towards the first substrate side and the corresponding non-transformation region that is powered is provided with the second transparent insulating layer；

Deviate from the part reflective semitransparent film of the first substrate side positioned at second conductive layer；

And deviate from the second substrate of the first substrate side positioned at the semi-transparent semi-reflecting film.

As shown in figures 2 and 3, the electrochromic rearview provided by the embodiments of the present application further include:

Deviate from the light shield layer 300 of 111 side of first substrate, and the light shield layer 300 positioned at the second substrate 112 It is transparent area at the corresponding display module 200.

In one embodiment of the application, the light shield layer provided by the present application can be ink layer or pitch-dark layer；

Wherein, the light shield layer corresponds at the display module as vacancy section.

It should be understood that forming a light shield layer away from first substrate side in the second substrate, and then blocked by light shield layer External environment light from the second substrate side enters electrochromism mould group, and impacts to electrochromism mould group.

In the above-mentioned any one embodiment of the application, the transparent insulating layer provided by the present application is silicon oxide layer or transparent DLC (Diamond-like carbon, diamond-like) layer, is not particularly limited this application.Optionally, the application is implemented The thickness range for the transparent insulating layer that example provides can be 50nm-150nm, including endpoint value.

And in the above-mentioned any one embodiment of the application, first substrate provided by the present application and the second substrate are Bright substrate, and in the embodiment of the present application can be glass substrate.In addition, the first conductive layer provided by the embodiments of the present application and Two conductive layers are transparency conducting layer, and material can be tin indium oxide.And electrochromic material provided by the embodiments of the present application Layer is electrochromism liquid, can be sealed between the first conductive layer and the second conductive layer by frame adhesive.

Correspondingly, the vehicles include above-mentioned any one reality the embodiment of the present application also provides a kind of vehicles The electrochromic rearview of example offer is provided.

In one embodiment of the application, the vehicles can be automobile, be not particularly limited to this application.

It includes: electricity that the embodiment of the present application, which provides a kind of electrochromic rearview and the vehicles, electrochromic rearview, Mutagens color mould group, wherein the electrochromism mould group division has energization transformation region and the non-transformation region that is powered；And it is located at described Electrochromism mould group deviates from the display module of its incidence surface side, and the display module is opposite with the non-transformation region that is powered It answers.

As shown in the above, electrochromism mould group is divided into energization and become by technical solution provided by the embodiments of the present application Color area and the non-transformation region that is powered, and set corresponding with the non-transformation region that is powered for display module, in turn, to electrochromism mould After group is powered, display module goes out energization non-transformation region outgoing of the light by electrochromism mould group, reduces electrochromism mould group pair The uptake of display module emergent ray guarantees that the emitting brightness of display module is high, provides visual effect.

The foregoing description of the disclosed embodiments enables those skilled in the art to implement or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, as defined herein General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, of the invention It is not intended to be limited to the embodiments shown herein, and is to fit to and the principles and novel features disclosed herein phase one The widest scope of cause.

Claims (10)

1. a kind of electrochromic rearview characterized by comprising

Electrochromism mould group, wherein the electrochromism mould group division has energization transformation region and the non-transformation region that is powered；

And positioned at the electrochromism mould group deviate from its incidence surface side display module, and the display module with it is described The non-transformation region that is powered is corresponding.

2. electrochromic rearview according to claim 1, which is characterized in that the electrochromism mould group includes:

First substrate；

Positioned at the first substrate towards the first conductive layer of the display module side, first conductive layer corresponds to described logical The non-transformation region of electricity is vacancy section；

Deviate from the electrochromic material layer of the first substrate side positioned at first conductive layer；

Deviate from the second conductive layer of the first substrate side positioned at the electrochromic material layer, second conductive layer is corresponding The non-transformation region that is powered is vacancy section；

Deviate from the part reflective semitransparent film of the first substrate side positioned at second conductive layer；

And deviate from the second substrate of the first substrate side positioned at the semi-transparent semi-reflecting film.

3. electrochromic rearview according to claim 1, which is characterized in that the electrochromism mould group includes:

First substrate；

Positioned at the first substrate towards the first conductive layer of the display module side, first conductive layer is away from described the The one substrate side and corresponding non-transformation region that is powered is provided with the first transparent insulating layer；

Deviate from the electrochromic material layer of the first substrate side positioned at first conductive layer；

Deviate from the second conductive layer of the first substrate side, the second conductive layer direction positioned at the electrochromic material layer The first substrate side and corresponding non-transformation region that is powered is provided with the second transparent insulating layer；

Deviate from the part reflective semitransparent film of the first substrate side positioned at second conductive layer；

And deviate from the second substrate of the first substrate side positioned at the semi-transparent semi-reflecting film.

4. electrochromic rearview according to claim 1, which is characterized in that the electrochromism mould group includes:

First substrate；

Positioned at the first substrate towards the first conductive layer of the display module side, first conductive layer is away from described the The one substrate side and corresponding non-transformation region that is powered is provided with the first transparent insulating layer；

Deviate from the electrochromic material layer of the first substrate side positioned at first conductive layer；

Deviate from the second conductive layer of the first substrate side positioned at the electrochromic material layer, second conductive layer is corresponding The non-transformation region that is powered is vacancy section；

Deviate from the part reflective semitransparent film of the first substrate side positioned at second conductive layer；

And deviate from the second substrate of the first substrate side positioned at the semi-transparent semi-reflecting film.

5. electrochromic rearview according to claim 1, which is characterized in that the electrochromism mould group includes:

First substrate；

Positioned at the first substrate towards the first conductive layer of the display module side, first conductive layer corresponds to described logical The non-transformation region of electricity is vacancy section；

Deviate from the electrochromic material layer of the first substrate side positioned at first conductive layer；

Deviate from the second conductive layer of the first substrate side, the second conductive layer direction positioned at the electrochromic material layer The first substrate side and corresponding non-transformation region that is powered is provided with the second transparent insulating layer；

Deviate from the part reflective semitransparent film of the first substrate side positioned at second conductive layer；

And deviate from the second substrate of the first substrate side positioned at the semi-transparent semi-reflecting film.

6. according to electrochromic rearview described in claim 2-5 any one, which is characterized in that the electrochromism backsight Mirror further include:

Deviate from the light shield layer of the first substrate side positioned at the second substrate, and the light shield layer corresponds to the display module Place is transparent area.

7. electrochromic rearview according to claim 6, which is characterized in that the light shield layer is ink layer or pitch-dark Layer；

Wherein, the light shield layer corresponds at the display module as vacancy section.

8. according to electrochromic rearview described in claim 3-5 any one, which is characterized in that the transparent insulating layer is Silicon oxide layer or transparent DLC layer.

9. according to electrochromic rearview described in claim 3-5 any one, which is characterized in that the transparent insulating layer Thickness range is 50nm-150nm, including endpoint value.

10. a kind of vehicles, which is characterized in that the vehicles include described in any one of claim 1 to 9 electroluminescent Electrochromic rearview.