CN205674952U - A kind of anti-dazzle substrate, display device, Antiglaring rear mirror and automobile - Google Patents

Abstract

This utility model relates to a kind of anti-dazzle substrate, display device, Antiglaring rear mirror and automobile.This anti-dazzle substrate includes that multiple anti-dazzle region, described anti-dazzle region include: the first transparency conducting layer, electrochromic layer and the second transparency conducting layer；Described electrochromic layer is between described first transparency conducting layer and the second transparency conducting layer；Described first transparency conducting layer and the second transparency conducting layer make described electrochromic layer variable color for applying electric field to described electrochromic layer, absorb the light to described anti-dazzle substrate incident.The anti-dazzle substrate that this utility model provides, by arranging electrochromic layer between two transparency conducting layers, and make electrochromic layer variable color by two transparency conducting layers to electrochromic layer applying electric field, absorb the light to anti-dazzle substrate incident, thus reach the effect of anti-dazzle.

Description

A kind of anti-dazzle substrate, display device, Antiglaring rear mirror and automobile

Technical field

This utility model relates to rearview mirror technical field, after a kind of anti-dazzle substrate, display device, anti-dazzle Visor and automobile.

Background technology

Along with improving constantly of level of mass consumption, the indispensable equipment that motor vehicles has been increasingly becoming in family.Rearview mirror Though being aid in the accessory of motor vehicles, use frequency the highest.When particularly overtaking other vehicles, move backward and turn, it is all to need To be used.Its function is exactly to observe the situation after automobile.But if owing to certain situation has strong light Impinge upon on non-anti-dazzle rearview mirror, may result in driver's vision dizziness, badly influence the driving of driver, traffic thing may be caused Therefore generation.Through research, dizziness can cause the reaction of driver compared with normal condition at ordinary times, slow 1.4 seconds, thus draws Send out traffic accidents.By day or night drives, especially when doubling, daytime the sun reflection and night rear car Big light irradiation causes strong dazzle, affect the sight line of driver, in this case doubling or overtake other vehicles and be all very easy to initiation Accident.In order to ensure driving safety, need to design glareproof mirror.

Existing glareproof mirror includes LCD module a, reflecting layer b and anti-dazzle structure c.Reflecting layer b relies on the minute surface of evaporation Material (nickel, aluminum is discontinuously deposited with, it is achieved the reflectance of this glareproof mirror is 80%, and transmitance only has 20%)；Anti-dazzle knot Structure c includes wedge shape minute surface.Wait whole rear-view mirror when working properly straight down (such as Figure 1A)；Minute surface is got to when there being high light The angle (such as Figure 1B) of the manual adjusting rearview mirror of upper needs, thus play antiglare effect.But for the picture avoiding human eye to see Image excessive distortion, the limited angle of minute surface regulation, causes antiglare effect poor.

Utility model content

Technical problem to be solved in the utility model is how to reduce the glare phenomenon of rearview mirror in the case of high light.

The utility model proposes a kind of anti-dazzle substrate, this anti-dazzle substrate includes multiple anti-dazzle region, described anti- Glare area includes:

First transparency conducting layer, electrochromic layer and the second transparency conducting layer；

Described electrochromic layer is between described first transparency conducting layer and the second transparency conducting layer；

Described first transparency conducting layer and the second transparency conducting layer make described for applying electric field to described electrochromic layer Electrochromic layer variable color, absorbs the light to described anti-dazzle substrate incident.

Alternatively, described anti-dazzle substrate also includes electric supply installation,

Described electric supply installation includes transparent membrane solar cell layer；

Described transparent membrane solar cell layer be positioned at described first transparency conducting layer and described second transparency conducting layer it Between；Or,

Described transparent membrane solar cell layer is positioned at first transparency conducting layer side away from described electrochromic layer.

Alternatively, described anti-dazzle substrate also includes the first substrate and the second substrate；

Described first substrate is positioned at described first transparency conducting layer side away from described electrochromic layer；

Described second substrate is positioned at described second transparency conducting layer side away from described electrochromic layer.

Alternatively, described transparent membrane solar cell layer is positioned at described first substrate away from described first transparency electrode Side.

Alternatively, described transparent membrane solar cell layer includes photoelectric conversion layer；

Described photoelectric conversion layer is positioned at described first transparency conducting layer side away from described electrochromic layer；

Described photoelectric conversion layer is additionally provided with the 3rd transparency conducting layer away from the side of described first transparency conducting layer.

Alternatively, it is filled with insulant between described 3rd transparency conducting layer and the first transparency conducting layer.

Alternatively, described transparent membrane solar cell layer includes photoelectric conversion layer；

Described photoelectric conversion layer is arranged with layer with described electrochromic layer.

Alternatively, described photoelectric conversion layer includes multiple photoelectric conversion unit；

Electrochromic material is filled between the plurality of photoelectric conversion unit.

The utility model proposes a kind of display device, including: display floater, backlight and above-mentioned anti-dazzle substrate；

Described anti-dazzle substrate, described display floater and described backlight are sequentially arranged.

The utility model proposes a kind of Antiglaring rear mirror to include: above-mentioned display device, light intensity test device and controller；

Described light intensity test device is for detecting the light distribution of described display device；

Described controller, for when described light distribution is more than predetermined threshold value, controls described the of described anti-dazzle substrate One transparency conducting layer and the second transparency conducting layer apply electric field to described electrochromic layer makes described electrochromic layer variable color, absorbs Light to described anti-dazzle substrate incident.

The utility model proposes a kind of automobile, including above-mentioned Antiglaring rear mirror.

This utility model is by arranging electrochromic layer between two transparency conducting layers, and passes through two transparency conducting layers Apply electric field to electrochromic layer and make electrochromic layer variable color, absorb the light to anti-dazzle substrate incident, thus reach anti-dazzle The effect of light.

Accompanying drawing explanation

By feature and advantage of the present utility model can be more clearly understood from reference to accompanying drawing, accompanying drawing be schematic and not It is interpreted as this utility model is carried out any restriction, in the accompanying drawings:

Figure 1A and Figure 1B shows the structural representation of existing glareproof mirror；

Fig. 2 shows the structural representation of one anti-dazzle substrate embodiment of this utility model；

Fig. 3 a shows the structural representation of another anti-dazzle substrate embodiment of this utility model；

Fig. 3 b shows the structural representation of another anti-dazzle substrate embodiment of this utility model；

Fig. 4 a shows the structural representation of another anti-dazzle substrate embodiment of this utility model；

Fig. 4 b shows the structural representation of another anti-dazzle substrate embodiment of this utility model；

Fig. 5 shows the structural representation of another anti-dazzle substrate embodiment of this utility model；

Fig. 6 shows the structural representation of another anti-dazzle substrate embodiment of this utility model；

Fig. 7 a shows the structural representation of another anti-dazzle substrate embodiment of this utility model；

Fig. 7 b shows the structural representation of another anti-dazzle substrate embodiment of this utility model；

Fig. 8 shows the structural representation of the display device of one embodiment of this utility model；

Fig. 9 shows the structural representation of the Antiglaring rear mirror of one embodiment of this utility model.

Detailed description of the invention

Below in conjunction with accompanying drawing, embodiment of the present utility model is described in detail.

Fig. 2 shows the structural representation of one anti-dazzle substrate of this utility model.As in figure 2 it is shown, it is of the present utility model Anti-dazzle substrate includes that multiple anti-dazzle region, described anti-dazzle region include:

First transparency conducting layer 1, electrochromic layer 2 and the second transparency conducting layer 3；

Electrochromic layer 2 is between the first transparency conducting layer 1 and the second transparency conducting layer 3；

First transparency conducting layer 1 and the second transparency conducting layer 3 make electrochromic layer for applying electric field to electrochromic layer 2 2 variable colors, absorb the light to described anti-dazzle substrate incident.

Anti-dazzle substrate embodiment of the present utility model passes through to arrange electrochromic layer 2 between two transparency conducting layers, And apply electric field by two transparency conducting layers to electrochromic layer 2 and make electrochromic layer variable color, absorb to enter to anti-dazzle substrate The light penetrated, thus reach the effect of anti-dazzle.

It will be appreciated that arranging electric supply installation can be that anti-dazzle substrate is powered, saturating by the first transparency conducting layer 1 and second Bright conductive layer 3 applies electric field to electrochromic layer 2 makes electrochromic layer 2 variable color, absorbs the light to anti-dazzle substrate incident, from And reach the effect of anti-dazzle.Preferably, using transparent membrane solar cell layer 4 as electric supply installation, electricity is converted light energy into Can, make anti-dazzle substrate be not required to externally fed.

Fig. 3 a and Fig. 3 b shows the structural representation of another anti-dazzle substrate embodiment of this utility model.The present embodiment The structure of anti-dazzle substrate similar with Fig. 2, also include electric supply installation；Electric supply installation includes transparent membrane solaode Layer 4, transparent membrane solar cell layer 4 includes electrode and bottom electrode；It is transparent that transparent membrane solar cell layer 4 is positioned at first Between conductive layer 1 and the second transparency conducting layer 3 (as shown in Figure 3 a).In another optional embodiment, transparent membrane Solar cell layer is positioned at first transparency conducting layer 1 side (as shown in Figure 3 b) away from electrochromic layer 2.At Fig. 3 a and Fig. 3 b In the embodiment of shown anti-dazzle substrate, upper electrode and first transparency conducting layer 1 of transparent membrane solar cell layer 4 are electrically connected Connecing, bottom electrode and second transparency conducting layer 3 of transparent membrane solar cell layer 4 electrically connect, thus realize by transparent membrane too Sun can battery layers 4 be powered for anti-dazzle substrate.

Fig. 4 a shows the structural representation of another anti-dazzle substrate embodiment of this utility model.As shown in fig. 4 a, originally The anti-dazzle substrate of utility model embodiment is similar with Fig. 3 a, and in order to protect transparency conducting layer, this anti-dazzle substrate also wraps Including the first substrate 5 and the second substrate 6, the first substrate 5 is positioned at first transparency conducting layer 1 side away from electrochromic layer 2；Second Substrate 6 is positioned at second transparency conducting layer 3 side away from electrochromic layer；It is saturating that transparent membrane solar cell layer 4 is positioned at first Between bright conductive layer 1 and the second transparency conducting layer 3.

Fig. 4 b shows the structural representation of another anti-dazzle substrate embodiment of this utility model.As shown in Figure 4 b, originally The anti-dazzle substrate of utility model embodiment is similar with Fig. 3 b, and in order to protect transparency conducting layer, this anti-dazzle substrate also wraps Including the first substrate 5 and the second substrate 6, the first substrate 5 is positioned at first transparency conducting layer 1 side away from electrochromic layer 2；Second Substrate 6 is positioned at second transparency conducting layer 3 side away from electrochromic layer；It is transparent that transparent membrane solar cell layer is positioned at first Conductive layer 1 is away from the side of electrochromic layer 2.

It should be noted that for ensureing that light is irradiated to transparent membrane solar cell layer 4, and then convert light energy into electricity Can, the first substrate 5 and the second substrate 6 are transparent substrates.

Fig. 5 shows the structural representation of another anti-dazzle substrate embodiment of this utility model.As it is shown in figure 5, this reality Similar with Fig. 4 b with the anti-dazzle substrate of new embodiment, except that, the transparent membrane in the anti-dazzle substrate of Fig. 5 Solar cell layer 4 is positioned at first substrate 5 side away from the first transparency electrode 1.

Fig. 6 shows the structural representation of another anti-dazzle substrate embodiment of this utility model.As shown in Figure 6, this reality Include with novel anti-dazzle substrate: the first transparency conducting layer 1, electrochromic layer 2 and the second transparency conducting layer 3；Electrochromism Layer 2 is between the first transparency conducting layer 1 and the second transparency conducting layer 3；First transparency conducting layer 1 and the second transparency conducting layer 3 Make electrochromic layer 2 variable color for applying electric field to electrochromic layer 2, absorb the light to described anti-dazzle substrate incident；Also Including transparent membrane solar cell layer；Described transparent membrane solar cell layer includes photoelectric conversion layer 41；Photoelectric conversion layer 41 are positioned at first transparency conducting layer 1 side away from electrochromic layer 2；Photoelectric conversion layer 41 is away from the first transparency conducting layer 1 Side is additionally provided with the 3rd transparency conducting layer 7；Also including the first substrate 5 and the second substrate 6, the first substrate 5 is positioned at first and transparent leads Electric layer 1 is away from the side of electrochromic layer 2；Second substrate 6 is positioned at second transparency conducting layer 3 side away from electrochromic layer； In actual applications, the first substrate 5 and the second substrate 6 encapsulate the between the first substrate 5 and the second substrate 6 by sealed plastic box 8 One transparency conducting layer 1, electrochromic layer the 2, second transparency conducting layer 3, photoelectric conversion layer 41 and the 3rd transparency conducting layer 7.

Anti-dazzle substrate of the present utility model is by arranging electrochromic layer 2, thin transparent between two transparency conducting layers Photoelectric conversion layer 41 in film solar cell layer converts light energy into electric energy, and by two transparency conducting layers to electrochromism Layer 2 applies electric field makes electrochromic layer 2 variable color, absorbs the light to anti-dazzle substrate incident, thus reaches the effect of anti-dazzle. Meanwhile, transparent membrane solar cell layer and electrochromic layer 2 share a transparency conducting layer, save electrode material, reduce The volume of anti-dazzle substrate.The transparency conducting layer 1 shared both can be the upper electrode of transparent membrane solar cell layer, it is also possible to It it is one of them conductive layer in anti-dazzle substrate in two transparency conducting layers.Preferably, as shown in Figure 6, in order to isolate the 3rd Transparency conducting layer 7 and the first transparency conducting layer 1, be filled with insulation material between the 3rd transparency conducting layer 7 and the first transparency conducting layer 1 Material 9.

Fig. 7 a shows the structural representation of another anti-dazzle substrate embodiment of this utility model.As shown in Figure 7a, originally The anti-dazzle substrate of utility model includes: the first transparency conducting layer 1, electrochromic layer 2 and the second transparency conducting layer 3；Electroluminescent change Chromatograph 2 is between the first transparency conducting layer 1 and the second transparency conducting layer 3；First transparency conducting layer 1 and the second transparency conducting layer 3 are used for applying electric field to electrochromic layer 2 makes electrochromic layer 2 variable color, absorbs the light to described anti-dazzle substrate incident；Also Including transparent membrane solar cell layer；Described transparent membrane solar cell layer includes photoelectric conversion layer 41；Photoelectric conversion layer 41 arrange (as shown in Figure 7b) with electrochromic layer 2 with layer；Photoelectric conversion layer 41 includes multiple photoelectric conversion unit；Each photoelectricity The corresponding anti-dazzle region of converting unit.Electrochromic material is filled between multiple photoelectric conversion units；Also include the first base The end 5 and the second substrate 6, the first substrate 5 is positioned at first transparency conducting layer 1 side away from electrochromic layer 2；Second substrate 6 In the second transparency conducting layer 3 away from the side of electrochromic layer；In actual applications, the first substrate 5 and the second substrate 6 are by envelope Frame glue 8 encapsulates the first transparency conducting layer 1 between two substrates, electrochromic layer the 2, second transparency conducting layer 3, photoelectric conversion layer 41 and the 3rd transparency conducting layer 7.

Anti-dazzle substrate of the present utility model is by arranging electrochromic layer 2, thin transparent between two transparency conducting layers Photoelectric conversion layer 41 in film solar cell layer converts light energy into electric energy, and by two transparency conducting layers to electrochromism Layer 2 applies electric field makes electrochromic layer 2 variable color, absorbs the light to anti-dazzle substrate incident, thus reaches the effect of anti-dazzle. Meanwhile, transparent membrane solar cell layer and electrochromic layer 2 share two transparency conducting layers, the first transparency conducting layer 1 and the Two transparency conducting layers 3 both can be two electrodes of transparent membrane solar cell layer, it is also possible to is two in anti-dazzle substrate Individual transparency conducting layer, saves electrode material, reduces the volume of anti-dazzle substrate.

Fig. 8 shows the structural representation of the display device of one embodiment of this utility model.As shown in Figure 8, this practicality The display device of new embodiment includes: display floater 1 ', backlight 2 ' and anti-dazzle substrate 3 '；Anti-dazzle substrate 3 ', display Panel 1 ' and backlight 2 ' are sequentially arranged；The light that backlight 2 ' sends injects anti-dazzle substrate 3 ' by display floater 1 '.

Display device can be: liquid crystal panel, mobile phone, panel computer, television set, display, notebook computer, digital phase Any product with display function such as frame, navigator or parts.The display device of this utility model embodiment, utilizes above-mentioned Anti-dazzle substrate, by arranging electrochromic layer, and by two transparency conducting layers to electroluminescent between two transparency conducting layers Photochromic layer applies electric field makes electrochromic layer variable color, absorbs the light to anti-dazzle substrate incident, thus reaches the effect of anti-dazzle Really.

Fig. 9 shows the structural representation of the Antiglaring rear mirror of one embodiment of this utility model.As it is shown in figure 9, this The Antiglaring rear mirror of utility model embodiment includes: display device 1 ", light intensity test device 2 " and controller 3 "；

Light intensity test device 2 " be used for detecting display device 1 " light distribution；

Controller 3 " for when described light distribution is more than predetermined threshold value, control the described first transparent of anti-dazzle substrate Conductive layer and the second transparency conducting layer apply electric field to described electrochromic layer makes described electrochromic layer variable color, absorbs to described The light of anti-dazzle substrate incident, thus reach the effect of anti-dazzle.

This utility model also proposes a kind of automobile, including above-mentioned Antiglaring rear mirror.

This utility model is by arranging electrochromic layer between two transparency conducting layers, and passes through two transparency conducting layers Apply electric field to electrochromic layer and make electrochromic layer variable color, absorb the light to anti-dazzle substrate incident, thus reach anti-dazzle The effect of light.

It should be noted that in this article, the relational terms of such as first and second or the like is used merely to a reality Body or operation separate with another entity or operating space, and deposit between not necessarily requiring or imply these entities or operating Relation or order in any this reality.And, term " includes ", " comprising " or its any other variant are intended to Comprising of nonexcludability, so that include that the process of a series of key element, method, article or equipment not only include that those are wanted Element, but also include other key elements being not expressly set out, or also include for this process, method, article or equipment Intrinsic key element.In the case of there is no more restriction, statement " including ... " key element limited, it is not excluded that Including process, method, article or the equipment of key element there is also other identical element.Term " on ", the instruction such as D score Orientation or position relationship are based on orientation shown in the drawings or position relationship, are for only for ease of description this utility model and simplification Describe rather than indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and behaviour Make, therefore it is not intended that to restriction of the present utility model.Unless otherwise clearly defined and limited, term " install ", " phase Even ", " connection " should be interpreted broadly, for example, it may be fixing connection, it is also possible to be to removably connect, or be integrally connected；Can To be mechanical connection, it is also possible to be electrical connection；Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, Ke Yishi The connection of two element internals.For the ordinary skill in the art, above-mentioned term can be understood as the case may be Concrete meaning in this utility model.

In description of the present utility model, illustrate a large amount of detail.Although it is understood that, of the present utility model Embodiment can be put into practice in the case of not having these details.In some instances, be not shown specifically known method, Structure and technology, in order to do not obscure the understanding of this description.Similarly, it will be appreciated that open in order to simplify this utility model And help to understand in each utility model aspect one or more, above, exemplary embodiment of the present utility model is retouched In stating, each feature of the present utility model is grouped together in single embodiment, figure or descriptions thereof sometimes.But, The method of the disclosure should not explained in reflecting an intention that this utility model the most required for protection requires that ratio is in each power The more feature of feature that profit is expressly recited in requiring.More precisely, as the following claims reflect, practical new Type aspect is all features less than single embodiment disclosed above.Therefore, it then follows the claim of detailed description of the invention Book is thus expressly incorporated in this detailed description of the invention, and the most each claim itself is as independent enforcement of the present utility model Example.

Last it is noted that various embodiments above is only in order to illustrate the technical solution of the utility model, rather than it is limited System；Although being described in detail this utility model with reference to foregoing embodiments, those of ordinary skill in the art should Understand: the technical scheme described in foregoing embodiments still can be modified by it, or to the most some or all of Technical characteristic carries out equivalent；And these amendments or replacement, do not make the essence of appropriate technical solution depart from this practicality new The scope of type each embodiment technical scheme, it all should be contained in the middle of the scope of claim of the present utility model and description.

Claims (11)

1. an anti-dazzle substrate, it is characterised in that include that multiple anti-dazzle region, described anti-dazzle region include:

First transparency conducting layer, electrochromic layer and the second transparency conducting layer；

Described electrochromic layer is between described first transparency conducting layer and the second transparency conducting layer；

Described first transparency conducting layer and the second transparency conducting layer make described electroluminescent for applying electric field to described electrochromic layer Photochromic layer variable color, absorbs the light to described anti-dazzle substrate incident.

Anti-dazzle substrate the most according to claim 1, it is characterised in that also include electric supply installation,

Described electric supply installation includes transparent membrane solar cell layer；

Described transparent membrane solar cell layer is between described first transparency conducting layer and described second transparency conducting layer； Or,

Described transparent membrane solar cell layer is positioned at first transparency conducting layer side away from described electrochromic layer.

Anti-dazzle substrate the most according to claim 2, it is characterised in that also include the first substrate and the second substrate；

Described first substrate is positioned at described first transparency conducting layer side away from described electrochromic layer；

Described second substrate is positioned at described second transparency conducting layer side away from described electrochromic layer.

Anti-dazzle substrate the most according to claim 3, it is characterised in that described transparent membrane solar cell layer is positioned at institute State first substrate side away from described first transparency electrode.

Anti-dazzle substrate the most according to claim 2, it is characterised in that described transparent membrane solar cell layer includes light Electricity conversion layer；

Described photoelectric conversion layer is positioned at described first transparency conducting layer side away from described electrochromic layer；

Described photoelectric conversion layer is additionally provided with the 3rd transparency conducting layer away from the side of described first transparency conducting layer.

Anti-dazzle substrate the most according to claim 5, it is characterised in that described 3rd transparency conducting layer and first transparent is led Insulant it is filled with between electric layer.

Anti-dazzle substrate the most according to claim 2, it is characterised in that described transparent membrane solar cell layer includes light Electricity conversion layer；

Described photoelectric conversion layer is arranged with layer with described electrochromic layer.

Anti-dazzle substrate the most according to claim 7, it is characterised in that described photoelectric conversion layer includes multiple opto-electronic conversion Unit；

Electrochromic material is filled between the plurality of photoelectric conversion unit.

9. a display device, it is characterised in that including: display floater, backlight and anti-described in any one of claim 1-8 Dazzle substrate；

Described anti-dazzle substrate, described display floater and described backlight are sequentially arranged.

10. an Antiglaring rear mirror, it is characterised in that including: the display device described in claim 9, light intensity test device And controller；

Described light intensity test device is for detecting the light distribution of described display device；

Described controller, for when described light distribution is more than predetermined threshold value, controls the described first saturating of described anti-dazzle substrate Bright conductive layer and the second transparency conducting layer apply electric field to described electrochromic layer makes described electrochromic layer variable color, absorbs to institute State the light of anti-dazzle substrate incident.

11. 1 kinds of automobiles, it is characterised in that include the Antiglaring rear mirror described in claim 10.