CN105892140A - Liquid crystal display - Google Patents

Abstract

The invention discloses a liquid crystal display which comprises a display panel, a control panel and a first polaroid. The display panel comprises a plurality of non-display areas arranged at intervals. The control panel comprises a first substrate, a liquid crystal layer and a second substrate which are sequentially arranged in a laminated mode. The first substrate comprises a first surface and a second surface opposite to the first surface. The first surface is arranged to be attached to the light-out face of the display panel. A plurality of reflecting layers are arranged on the second surface, the vertical projection of the reflecting layers on the display panel is overlapped with at least one part of the non-display areas, and pressor areas exactly facing the reflecting layers are formed on the control panel. The first polaroid is located on the side, away from the display panel, of the control panel. When the pressor areas are powered on, linearly polarized light entering the pressor areas is converted into circularly polarized light through the liquid crystal layer, the linearly polarized light is reflected by the reflecting layers and then converted into reflected light through the liquid crystal layer, and the polarization direction of the reflected light is perpendicular to the polarization axis direction of the first polaroid. The display effect of the liquid crystal display is good.

Description

Liquid crystal display

Technical field

The present invention relates to technical field of liquid crystal display, particularly relate to a kind of liquid crystal display.

Background technology

Along with Thin Film Transistor-LCD (Thin Film Transistor-Liquid Crystal Display, letter Claim TFT-LCD) development, liquid crystal display is widely used in every field.Minute surface shows it is nearest A kind of novel Display Technique just occurred for several years, gets over because it preferably can press close to daily life More receive publicity.

In prior art, the structure of mirror face display equipment is to arrange half-transparent half-reflection on existing display panels Diaphragm, this half-transparent half-reflection diaphragm can make user while using mirror, see the sky on the same day from minute surface The pictures such as gas situation or in real time news, thus realize minute surface and show.But, existing mirror face display equipment exists While display picture, user must use minute surface passively, namely the picture and the minute surface that normally show are anti- The image penetrated all simultaneously acts on human eye.Consequently, it is possible to the image of mirror-reflection can cause the picture of normal display The contrast in face reduces, thus reduces the display effect that picture shows.Especially when external environmental light (as Sunshine, fluorescent lamp etc.) ratio is time stronger, and this impact becomes apparent from.

Summary of the invention

The technical problem to be solved is the liquid crystal display providing a kind of display effect good.

To achieve these goals, embodiment of the present invention adopts the following technical scheme that

A kind of liquid crystal display is provided, including:

Display floater, including spaced multiple non-display areas；

Control panel, including the first substrate being cascading, liquid crystal layer and second substrate, described One substrate includes first surface and the second surface being oppositely arranged, the described first surface described display floater of laminating Exiting surface arrange, described second surface is provided with multiple reflecting layer, the plurality of reflecting layer is described aobvious Show that the upright projection on panel is overlapping with at least one of the plurality of non-display area, described control panel shape The Cheng Youzheng pressor areas to the plurality of reflecting layer；And

First polaroid, is positioned at described control panel and deviates from the side of described display floater；

When described pressor areas is energized, the linearly polarized light entering described pressor areas is converted to circle through described liquid crystal layer After polarised light, reflected by the plurality of reflecting layer, be then converted into reflection light by described liquid crystal layer, described The polarization direction of reflection light is perpendicular to the polarizing axis direction of described first polaroid.

Wherein, described display floater includes array base palte and the color membrane substrates being oppositely arranged, described color membrane substrates Including spaced multiple black matrix"s, the plurality of black matrix" is positioned at the plurality of non-display area, The plurality of reflecting layer upright projection on described color membrane substrates and at least one of the plurality of black square Battle array is overlapping.

Wherein, the area in each described reflecting layer is all equal with the size of corresponding described black matrix".

Wherein, described display floater also includes multiple viewing area, and the plurality of viewing area is non-aobvious with the plurality of Showing that district is arranged alternately, described color membrane substrates also includes that multiple display matrix, the plurality of display matrix are positioned at institute State in multiple viewing area, and be arranged alternately with the plurality of black matrix".

Wherein, described color membrane substrates also includes glass substrate, the plurality of black matrix" and the plurality of display Matrix is respectively positioned on the described glass substrate side towards described array base palte.

Wherein, when described pressor areas is energized, the described liquid crystal layer in described pressor areas is by described linearly polarized light Postpone 1/4 wavelength phases or 3/4 wavelength phases.

Wherein, the thickness of described display floater is more than the thickness of described control panel.

Wherein, described second substrate includes the 3rd surface towards described liquid crystal layer and deviates from described liquid crystal layer 4th surface, described first polaroid described 4th surface configuration of laminating, described 3rd surface is provided with many Data line and a plurality of gate line, described a plurality of data lines upright projection on said display panel with at least The described non-display area of a part is overlapping, described a plurality of gate line upright projection on said display panel with At least one of described non-display area is overlapping.

Wherein, described liquid crystal display also includes the second polaroid and the 3rd polaroid, described second polaroid Being positioned at described display floater and deviate from the side of described control panel, described 3rd polaroid is positioned at described display surface Between plate and described control panel.

Wherein, the polarizing axis direction of described 3rd polaroid is identical with the polarizing axis direction of described first polaroid.

Compared to prior art, the method have the advantages that

Liquid crystal display described in the embodiment of the present invention, when pressor areas energising it described, external ambient light is from institute After stating the first polaroid entrance pressor areas, becoming linearly polarized light, described linearly polarized light is changed by described liquid crystal layer For circularly polarized light.Described circularly polarized light is launched in the plurality of reflecting layer, thus by left circularly polarized light Become right-circularly polarized light (or being become left circularly polarized light from right-circularly polarized light), then by described liquid crystal Layer is converted into reflection light, and the polarization direction of described reflection light is perpendicular to the polarizing axis of described first polaroid Direction.Therefore, described reflection light is suppressed by described first polaroid, and described reflection light cannot penetrate institute State control panel, it is to avoid the contrast that normal picture is shown by described reflection light produces impact, thus changes The kind described liquid crystal display display effect when showing picture.

Simultaneously as the upright projection that the plurality of reflecting layer is on said display panel falls into the plurality of non- In the range of viewing area, so the picture that the setting in the plurality of reflecting layer does not results in described display floater shows The reduction of the penetrance of the light shown, is conducive to ensureing the picture display brightness of described liquid crystal display and quality.

Accompanying drawing explanation

In order to be illustrated more clearly that technical scheme, below by use required in embodiment Accompanying drawing is briefly described, it should be apparent that, the accompanying drawing in describing below is only some enforcements of the present invention Mode, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to As these accompanying drawings obtain other accompanying drawing.

Fig. 1 is the structural representation of a kind of liquid crystal display that the embodiment of the present invention provides.

Fig. 2 is another structural representation of a kind of liquid crystal display that the embodiment of the present invention provides.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clearly Chu, be fully described by, it is clear that described embodiment be only a part of embodiment of the present invention rather than Whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art are not making creation The every other embodiment obtained under property work premise, broadly falls into the scope of protection of the invention.

Additionally, the explanation of following embodiment is with reference to additional diagram, may be used to reality in order to illustrate the present invention The specific embodiment executed.The direction term being previously mentioned in the present invention, such as, " on ", D score, "front", "rear", "left", "right", " interior ", " outward ", " side " etc., be only the direction with reference to annexed drawings, therefore, use Direction term in order to more preferably, be illustrated more clearly that and understand the present invention rather than instruction or infer indication Device or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that Limitation of the present invention.

In describing the invention, it should be noted that unless otherwise clearly defined and limited, term " peace Dress ", " being connected ", " connection ", " be arranged on ... on " should be interpreted broadly, for example, it may be fix connection, Can also be detachably connected, or be integrally connected；Can be to be mechanically connected；Can be to be joined directly together, Can also be indirectly connected to by intermediary, can be the connection of two element internals.General for this area For logical technical staff, above-mentioned term concrete meaning in the present invention can be understood with concrete condition.

Additionally, in describing the invention, except as otherwise noted, " multiple " are meant that two or more. If occurring the term of " operation " in this specification, it refers not only to independent operation, cannot be bright with other operation When really distinguishing, as long as the effect desired by this operation that can realize then is also included within this term.It addition, this theory In bright book with "～" number range that represents refer to using "～" before and after the numerical value recorded as minimum of a value and maximum The scope that value is included.In the accompanying drawings, the unit that structure is similar or identical is indicated by the same numeral.

Referring to Fig. 1 and Fig. 2, the embodiment of the present invention provides a kind of liquid crystal display 100, including display floater 10, control panel 20 and the first polaroid 30.

Specifically, described display floater 10 includes multiple viewing areas 101 of being arranged alternately and multiple non-display District 102, namely the setting of the plurality of non-display area 102 interval.Described control panel 20 includes stacking gradually First substrate 21, liquid crystal layer 22 and the second substrate 23 arranged, described first substrate 21 includes relatively setting The first surface 211 put and second surface 212, described first surface 211 is fitted described display floater 10 Exiting surface is arranged, and described second surface 212 is provided with multiple reflecting layer 24, and the plurality of reflecting layer 24 exists Upright projection on described display floater 10 is overlapping, also with at least one of the plurality of non-display area 102 The most the plurality of reflecting layer 24 upright projection on described display floater 10 falls into the plurality of non-display area In the range of 102.Described first polaroid 30 is positioned at described control panel 20 and deviates from described display floater 10 Side, namely described display floater 10, described control panel 20 and described first polaroid 30 are successively Stacking is arranged.

Described control panel 20 is formed with pressor areas 201 and non-power nip 202, and described pressor areas 201 is the most right The plurality of reflecting layer 24 is arranged, and other regions beyond described pressor areas 201 are non-power nip 202.When When described pressor areas 201 is energized, the linearly polarized light entering described pressor areas 201 is changed through described liquid crystal layer 22 After circularly polarized light, reflected by the plurality of reflecting layer 24, be then converted into reflection by described liquid crystal layer 22 Light, the polarization direction of described reflection light is perpendicular to the polarizing axis direction of described first polaroid 30.

In the present embodiment, refer to Fig. 1, when described control panel 20 no power, described pressor areas 201 With the described equal no power of non-power nip 202.Described display floater 10 no power, does not carry out picture and shows.By Liquid crystal in the described liquid crystal layer 22 being positioned at described pressor areas 201 does not deflects, and adds hence into described After the external ambient light of nip 201 is reflected by the plurality of reflecting layer 24, it is possible to penetrate described first polaroid 30, to form mirror-reflection light (A as shown in Figure 1).Now, described liquid crystal display 100 can be real Existing minute surface display function.

Referring to Fig. 2, when described control panel 20 is energized, described pressor areas 201 is energized, described non-power Nip 202 no power.Due to described non-power nip 202 no power, so the display of described display floater 10 The light (B as shown in Figure 2) of picture can pass described control panel 20, thus carry out picture and show. And external ambient light is after described first polaroid 30 enters pressor areas 201, become linearly polarized light, described liquid Described linearly polarized light is changed into circularly polarized light by crystal layer 22.Described circularly polarized light is in the plurality of reflecting layer 24 Launch, thus become right-circularly polarized light from left circularly polarized light and (or become from right-circularly polarized light Left circularly polarized light), then it is converted into reflection light (C as shown in Figure 2) by described liquid crystal layer 22, described The polarization direction of reflection light is perpendicular to the polarizing axis direction of described first polaroid 30.Therefore, described reflection Light is suppressed by described first polaroid 30, and described reflection light cannot penetrate described control panel 20, it is to avoid The contrast that normal picture is shown by described reflection light produces impact, thus improves described liquid crystal display 100 display effects when showing picture.

Simultaneously as the upright projection that the plurality of reflecting layer 24 is on described display floater 10 falls into described In the range of multiple non-display areas 102, so the setting in the plurality of reflecting layer 24 does not results in described display The reduction of the penetrance of transmission light in district 101 (namely the picture of described display floater 10 show light), Be conducive to ensureing picture display brightness and the quality of described liquid crystal display 100.

Further, as a kind of alternative embodiment, referring to Fig. 1, described display floater 10 includes successively Array base palte 11, display liquid crystal layer 12 and the color membrane substrates 13 that stacking is arranged.Described array base palte 11 with Described color membrane substrates 13 is oppositely arranged.Described color membrane substrates 13 includes glass substrate 131 and color blocking layer 132, Described color blocking layer 132 is positioned at described glass substrate 131 towards on the surface of described array base palte 11.Described look Resistance layer 132 includes multiple black matrix"s 133 and the multiple display matrix 134 being arranged alternately.The plurality of black Matrix 133 is positioned at the plurality of non-display area 102, and the plurality of reflecting layer 24 is at described color membrane substrates 13 On upright projection overlapping with at least one of the plurality of black matrix" 133.The plurality of display matrix 134 are positioned at the plurality of viewing area 101, the plurality of display matrix 134 include red matrix (Red), Green matrix (Green) and blue matrix (Blue), even can also include white matrix (White) Or yellow matrix (Yellow).

In the present embodiment, due to the plurality of reflecting layer 24 upright projection on described color membrane substrates 13 Overlapping with at least one of the plurality of black matrix" 133, namely the plurality of reflecting layer 24 is at described coloured silk Upright projection on film substrate 13 falls in the range of the plurality of black matrix" 133, the most the plurality of instead The setting penetrating layer 24 does not interferes with the aperture opening ratio of described liquid crystal display 100, can ensure described liquid simultaneously yet The picture display brightness of crystal display 100 and quality.

Preferably, refer to Fig. 1, the area in each described reflecting layer 24 all with corresponding described black matrix" The size of 133 is equal.Namely the upright projection that each described reflecting layer 24 is on described color membrane substrates 13, Just completely overlapped with corresponding described black matrix" 133, not affect described liquid crystal display 100 While aperture opening ratio, increase the area of the mirror-reflection of described liquid crystal display 100.

Further, as a kind of preferred embodiment, refer to Fig. 1, when described pressor areas 201 is energized, Described linearly polarized light is postponed 1/4 wavelength phases or 3/4 ripple by the described liquid crystal layer 22 in described pressor areas 201 Long phase place.Liquid crystal layer or the delay of 3/4 wavelength phases is postponed that is, described liquid crystal layer 22 is 1/4 wavelength phases Liquid crystal layer.In order to reduce the thickness of described control panel 20, preferably 1/4 wavelength phases postpones liquid crystal layer.

Preferably, the thickness of described display floater 10 is more than the thickness of described control panel 20 namely described The thickness of control panel 20 is less, to reduce the light of the display picture of described display floater 10 in described control Energy loss in panel 20 processed.

Further, as a kind of preferred embodiment, refer to Fig. 1, described second substrate 23 include towards 3rd surface 231 and the 4th surface 232 deviating from described liquid crystal layer 22 of described liquid crystal layer 22.Described first Polaroid 30 described 4th surface 232 of fitting is arranged.It is provided with a plurality of data lines on described 3rd surface 231 (not shown) and a plurality of gate line (not shown), described a plurality of data lines is at described display floater Upright projection on 10 is overlapping with at least one of described non-display area 102, and described a plurality of gate line is in institute State the upright projection on display floater 10 overlapping, to improve with at least one of described non-display area 102 State the overall aperture opening ratio of liquid crystal display 100.

In the present embodiment, the plurality of data wire intermeshes with described a plurality of gate line, with by described Two substrates 23 are divided into multiple pixel cell (not shown).It is provided with in each described pixel cell Pixel electrode and public electrode, in order to control the rotation status of the liquid crystal in each described pixel cell.

Further, as a kind of alternative embodiment, referring to Fig. 1, described liquid crystal display 100 also includes Second polaroid 40 and the 3rd polaroid 50, described second polaroid 40 is positioned at described display floater 10 to deviate from The side of described control panel 20, described 3rd polaroid 50 is positioned at described display floater 10 and described control Between panel 20.Preferably, the polarizing axis direction of described second polaroid 40 and described 3rd polaroid 50 Polarizing axis direction perpendicular.

Further, as a kind of alternative embodiment, the polarizing axis direction of described 3rd polaroid 50 is with described The polarizing axis direction of the first polaroid 30 is identical, and the light of the display picture of described display floater 10 can be suitable Sharply by described first polaroid 30.

Being described in detail the embodiment of the present invention above, specific case used herein is to the present invention's Principle and embodiment are set forth, and the explanation of above example is only intended to help to understand the side of the present invention Method and core concept thereof；Simultaneously for one of ordinary skill in the art, according to the thought of the present invention, All will change in detailed description of the invention and range of application, in sum, this specification content should not be managed Solve as limitation of the present invention.

Claims (10)

1. a liquid crystal display, it is characterised in that including:

Display floater, including spaced multiple non-display areas；

Control panel, including the first substrate being cascading, liquid crystal layer and second substrate, described One substrate includes first surface and the second surface being oppositely arranged, the described first surface described display floater of laminating Exiting surface arrange, described second surface is provided with multiple reflecting layer, the plurality of reflecting layer is described aobvious Show that the upright projection on panel is overlapping with at least one of the plurality of non-display area, described control panel shape The Cheng Youzheng pressor areas to the plurality of reflecting layer；And

First polaroid, is positioned at described control panel and deviates from the side of described display floater；

When described pressor areas is energized, the linearly polarized light entering described pressor areas is converted to circle through described liquid crystal layer After polarised light, reflected by the plurality of reflecting layer, be then converted into reflection light by described liquid crystal layer, described The polarization direction of reflection light is perpendicular to the polarizing axis direction of described first polaroid.

2. liquid crystal display as claimed in claim 1, it is characterised in that described display floater includes relatively The array base palte arranged and color membrane substrates, described color membrane substrates includes spaced multiple black matrix", institute Stating multiple black matrix" and be positioned at the plurality of non-display area, the plurality of reflecting layer is on described color membrane substrates Upright projection overlapping with at least one of the plurality of black matrix".

3. liquid crystal display as claimed in claim 2, it is characterised in that the area in each described reflecting layer All equal with the size of corresponding described black matrix".

4. liquid crystal display as claimed in claim 2, it is characterised in that described display floater also includes many Individual viewing area, the plurality of viewing area is arranged alternately with the plurality of non-display area, and described color membrane substrates also wraps Including multiple display matrix, the plurality of display matrix is positioned at the plurality of viewing area, and with the plurality of Black matrix" is arranged alternately.

5. liquid crystal display as claimed in claim 4, it is characterised in that described color membrane substrates also includes glass Glass substrate, the plurality of black matrix" and the plurality of display matrix are respectively positioned on described glass substrate towards described The side of array base palte.

6. liquid crystal display as claimed in claim 1, it is characterised in that when described pressor areas is energized, Described linearly polarized light is postponed 1/4 wavelength phases or 3/4 wavelength phases by the described liquid crystal layer in described pressor areas.

7. liquid crystal display as claimed in claim 6, it is characterised in that the thickness of described display floater is big Thickness in described control panel.

8. liquid crystal display as claimed in claim 1, it is characterised in that described second substrate include towards 3rd surface of described liquid crystal layer and deviate from the 4th surface of described liquid crystal layer, described first polaroid laminating institute State the 4th surface configuration, described 3rd surface is provided with a plurality of data lines and a plurality of gate line, described a plurality of Data wire upright projection on said display panel is overlapping with at least one of described non-display area, described A plurality of gate line upright projection on said display panel is overlapping with at least one of described non-display area.

9. liquid crystal display as claimed in claim 1, it is characterised in that described liquid crystal display also includes Second polaroid and the 3rd polaroid, described second polaroid is positioned at described display floater and deviates from described chain of command The side of plate, described 3rd polaroid is between described display floater and described control panel.

10. liquid crystal display as claimed in claim 9, it is characterised in that described 3rd polaroid inclined Optical axis direction is identical with the polarizing axis direction of described first polaroid.