CN206990999U - Liquid crystal display panel and vertically aligned liquid crystal display device - Google Patents

Abstract

The utility model belongs to technical field of liquid crystal display, there is provided a kind of liquid crystal display panel and vertically aligned liquid crystal display device.Liquid crystal display panel provided by the utility model, the first polaroid, first substrate, the first liquid crystal layer, second substrate, adhesive linkage, the 3rd substrate, the second liquid crystal layer, tetrabasal and the second polaroid set by sequentially lamination, so that liquid crystal display panel can double display content on the basis of identical display area, beneficial to the variation for realizing pattern and complicate, so as to improve the display effect of product, the experience property that user uses product is improved, is further met customer need.

Description

Liquid crystal display panel and vertically aligned liquid crystal display device

Technical field

The utility model belongs to technical field of liquid crystal display, more particularly to a kind of liquid crystal display panel and homeotropic alignment liquid crystal Display device.

Background technology

LCD (Liquid Crystal Display, liquid crystal display) is a kind of present wide variety of Display Technique, is had There is the features such as small volume, low in energy consumption, long-life and display quality are high.It is vehicle-mounted in recent years along with the development of LCD product technologies For LCD more and more using VA (Vertial Alignment, vertical arrangement) lcd technology, VA products have that visual angle is wide, Reach as high as 178 °；Response time is fast, reaches as high as below 8ms, thus by production firms such as numerous vehicle-mounted, household electrical appliance Favor, shipment amount average annual growth.

No matter vehicle-mounted or household electrical appliance, intellectuality is an obviously trend, and the pattern that product needs to show will It is more and more and become increasingly complex, and existing liquid crystal display shows that area is limited to, it is difficult to realize pattern variation and multiple The function of hydridization, thus the display effect of product is poor, while user is reduced using the experience property of product, it is impossible to meet client Demand.

Utility model content

The purpose of this utility model is to provide a kind of liquid crystal display panel and vertically aligned liquid crystal display device, it is intended to solves Certainly existing liquid crystal display shows that area is limited to, it is difficult to pattern variation and the function of complicating are realized, display effect is poor, Cause the experience property of user to reduce simultaneously, it is impossible to meet the problem of the needs of client.

The utility model provides a kind of liquid crystal display panel, including it is parallel and be sequentially oppositely arranged first substrate, Two substrates, the 3rd substrate and tetrabasal；The first substrate is arranged on the surface of the second substrate side First polaroid；The first liquid crystal layer being arranged between the first substrate and the second substrate；It is bonded the second substrate With the adhesive linkage of the 3rd substrate；The second liquid crystal layer being arranged between the 3rd substrate and the tetrabasal；Set The second polaroid on surface of the tetrabasal away from the 3rd substrate.

The utility model additionally provides a kind of vertically aligned liquid crystal display device, the vertically aligned liquid crystal display device bag Include liquid crystal display panel and the backlight module of light source is provided for the liquid crystal display panel；

Wherein, the liquid crystal display panel includes：

First substrate, second substrate, the 3rd substrate and tetrabasal parallel and be sequentially oppositely arranged；It is arranged on described First polaroid of the first substrate on the surface of the second substrate side；It is arranged on the first substrate and described second The first liquid crystal layer between substrate；It is bonded the adhesive linkage of the second substrate and the 3rd substrate；It is arranged on the 3rd base The second liquid crystal layer between plate and the tetrabasal；The tetrabasal is arranged on the surface of the 3rd substrate Second polaroid；

Wherein, first liquid crystal layer and second liquid crystal layer are respectively the liquid crystal layer with vertical orientation structure.

Liquid crystal display panel provided by the utility model, the first polaroid set by sequentially lamination, first substrate, the One liquid crystal layer, second substrate, adhesive linkage, the 3rd substrate, the second liquid crystal layer, tetrabasal and the second polaroid so that liquid crystal Display panel can double display content on the basis of identical display area, beneficial to the variation for realizing pattern and complicate, So as to improve the display effect of product, the experience property that user uses product is improved, is further met customer need.

Vertically aligned liquid crystal display device provided by the utility model, including liquid crystal display panel and be LCD Plate provides the backlight module of light source, the first polaroid that liquid crystal display panel is set by sequentially lamination, first substrate, the first liquid Crystal layer, second substrate, adhesive linkage, the 3rd substrate, the second liquid crystal layer, tetrabasal and the second polaroid so that liquid crystal display Panel can double display content on the basis of identical display area, while have high response speed and excellent photoelectricity Performance, beneficial to the variation for realizing pattern and complicate, so as to improve the display effect of product, improve the body that user uses product The property tested, further meet customer need.

Brief description of the drawings

Fig. 1 is a kind of structural representation for liquid crystal display panel that the utility model embodiment provides；

Fig. 2 is that the light stroke of the liquid crystal display panel for the corresponding diagram 1 that the utility model embodiment provides and optical axis collocation are shown Illustration；

Fig. 3 is the topology example figure of the liquid crystal display panel for the corresponding diagram 1 that the utility model embodiment provides.

Embodiment

In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing and implementation Example, the utility model is further elaborated.It should be appreciated that specific embodiment described herein is only explaining The utility model, it is not used to limit the utility model.

In description of the present utility model, it is to be understood that term " first ", " second " are only used for describing purpose, and It is not intended that instruction or hint relative importance or the implicit quantity for indicating indicated technical characteristic.Thus, define One or more this feature can be expressed or be implicitly included to the feature of " first ", " second ".Of the present utility model In description, " multiple " are meant that two or more, unless otherwise specifically defined.

Referring to Fig. 1, Fig. 1 is a kind of structural representation for liquid crystal display panel that the utility model embodiment provides.This Embodiment liquid crystal display panel includes：It is parallel and be sequentially oppositely arranged first substrate 2, second substrate 4, the 3rd substrate 6 and Tetrabasal 8；It is arranged on first polaroid 1 of the first substrate 2 on the surface of the side of second substrate 4；It is arranged on the first base The first liquid crystal layer 3 between plate 2 and second substrate 4；It is bonded the adhesive linkage 5 of the substrate 6 of second substrate 4 and the 3rd；It is arranged on the 3rd The second liquid crystal layer 7 between substrate 6 and tetrabasal 8；It is arranged on second of tetrabasal 8 on the surface of the 3rd substrate 6 Polaroid 9.

Wherein, first substrate 2, the first liquid crystal layer 3 and combination the first liquid crystal cell of formation of second substrate 4, the 3rd substrate 6, Second liquid crystal layer 7 and the combination of tetrabasal 8 form the second liquid crystal cell, and the substrate of second substrate 4 and the 3rd is bonded by adhesive linkage 5 6 make the first liquid crystal cell and the second liquid crystal cell be bonded to form integrated liquid crystal cell.In the concrete application of the present embodiment, LCD Plate includes or is connected to the drive circuit that extra electric field is provided for the first liquid crystal cell and the second liquid crystal cell, and the drive circuit can With the self-powered circuit group being provided on the substrate 6 of second substrate 4 and the 3rd or it is provided separately within second substrate 4 Drive circuit that is upper but controlling the first liquid crystal cell and the second liquid crystal cell extra electric field simultaneously, or it is provided separately within the 3rd substrate Control on 6 but simultaneously the drive circuit of the first liquid crystal cell and the second liquid crystal cell extra electric field, it might even be possible to be liquid crystal display panel Additional drive circuit.

In the utility model embodiment, first substrate 2, second substrate 4, the 3rd substrate 6 and tetrabasal 8 are mutually equal Go and be sequentially oppositely arranged.Wherein, there is rubbing action, so that the first liquid crystal layer between first substrate 2 and second substrate 4 3 molecule can arrange according to angle of friction；There is rubbing action between 3rd substrate 6 and tetrabasal 8, so that the second liquid crystal The molecule of layer 7 can arrange according to angle of friction.Wherein, the frictional direction of the frictional direction of second substrate 4 and the 3rd substrate 6 on the contrary, The frictional direction in frictional direction and the second liquid crystal cell box i.e. in the first liquid crystal cell is identical, the arrangement of the molecule of the first liquid crystal layer 3 Direction is identical with the orientation of the molecule of the second liquid crystal layer 7, so as to keep the photoresponse of the first liquid crystal cell and the second liquid crystal cell fast The uniformity of degree and photoelectric properties, make the first liquid crystal cell and the second liquid crystal cell that there is same view angle effect, reduce and even prevent Visual angle deviation.In the concrete application of the utility model embodiment, frictional direction allows the deviation for having less than 3 °.

Preferably, in order to improve the electric conductivity of first substrate 2, second substrate 4, the 3rd substrate 6 and tetrabasal 8 and thoroughly Lightness, transparent conductive film is set respectively close to the side of the first liquid crystal layer 3 in first substrate 2 and second substrate 4, in the 3rd base Plate 6 and tetrabasal 8 also set transparent conductive film, foregoing transparent conductive film respectively close to the side of the second liquid crystal layer 7 It may each be ITO conductive films.In the concrete application of the present embodiment, first substrate 2, second substrate 4, the 3rd substrate 6 and Tetrabasal 8 can use the substrate of clear glass material, it is therefore preferable to have the glass substrate of ITO conducting films.

In the utility model embodiment, the first polaroid 1 is arranged on the table that first substrate 2 deviates from the side of second substrate 4 On face, the second polaroid 9 is arranged on tetrabasal 8 on the surface of the 3rd substrate 6.First polaroid 1 is specially to pass through piece, Second polaroid 9 is specially reflector plate, and both are used for the polarization direction for controlling specific light wave, pass light through or cover, increase is black White contrast.Specifically, the absorption axiss of the extinction axle of the first polaroid 1 and the second polaroid 9 are orthogonal, so that inclined when light Angle of shaking it is parallel with the absorption axiss of the first polaroid 1 and it is vertical with the absorption axiss of the second polaroid 9 when, light can pass through First polaroid 1 and absorbed by the second polaroid 9；It is on the contrary so that when the polarization angle of light and the absorption axiss of the first polaroid 1 It is vertical and it is parallel with the absorption axiss of the second polaroid 9 when, light can pass through the second polaroid 9 and by the first polaroid 1 Absorb.

In the concrete application of the present embodiment, the first polaroid 1 and the collocation of the second polaroid 9 need to meet following require：

Preferably, phase difference Re in the face of the first polaroid 1₁With thickness phase difference Rth₁Respectively 50nm-60nm and 210nm-230nm, phase difference Re in the face of the second polaroid 9₂With thickness phase difference Rth₂Respectively 50nm-60nm and 210nm- 230nm；Or preferably, phase difference Re in the face of the first polaroid 1₁With thickness phase difference Rth₁Respectively 0, the second polaroid 9 Face in phase difference Re₂With thickness phase difference Rth₂Respectively 50nm-60nm and 420nm-460nm；So that the first polaroid 1 There is higher speed of photoresponse and photoelectric properties after being arranged in pairs or groups with the second polaroid 9, make LCD panel with display just Effect.

Phase difference Re refers at 23 DEG C in above-mentioned middle face, in the face using the film (layer) for the light measurement that wavelength is 590nm Phase difference value, Re can determine from formula Re=(nx-ny) × d, and wherein nx and ny represent slow axis under 590nm wavelength respectively The refractive index of the film of direction and quick shaft direction (layer), d (nm) represent the thickness of film (layer)；Thickness phase difference Rth refers at 23 DEG C Under, using the phase difference value of the thickness direction of the film (layer) for the light measurement that wavelength is 590nm, Rth can be from formula Rth=(nx- Nz) × d determines, wherein nx and nz represent the refractive index of the film of slow-axis direction and thickness direction (layer) under 590nm wavelength respectively, D (nm) represents the thickness of film (layer).

In the concrete application of the present embodiment, the first polaroid 1, the second polaroid 9 and corresponding first substrate 2 and the 4th The collocation of substrate 8 needs to meet following require：The absorption axiss of the extinction axle of first polaroid 1 and the second polaroid 9 with it is corresponding The angular range of the frictional direction of first substrate 2 and the frictional direction of tetrabasal 8 is 45 ± 1 °, makes the first polaroid 1, Two polaroids 9 have more preferable arranging effect with corresponding first substrate 2 and tetrabasal 8, so as to keep the first liquid crystal cell and The speed of photoresponse of second liquid crystal cell and the uniformity of photoelectric properties, make the first liquid crystal cell and the second liquid crystal cell that there is identical regard Angle effect, reduce and even prevent visual angle deviation.With 12:Exemplified by 00 visual angle, refering to Fig. 2, if the frictional direction of first substrate 2 is 90 ° and the frictional direction of tetrabasal 8 are -90 °, then the angle of the extinction axle of the first polaroid 1 is 135 °, the second polaroid 9 The angle of extinction axle be -135 °.

In the utility model embodiment, a silk-screen film can also be connected under the second polaroid 9, silk-screen film can be with According to a variety of colors on silk-screen is actually needed, so that liquid crystal display panel has more colourful display effect.

In the utility model embodiment, the first liquid crystal layer 3 is arranged between first substrate 2 and second substrate 4.

Specifically, the first liquid crystal layer 3 includes the first frame glue 301 and is arranged in the first frame glue 301, positioned at first substrate 2 And liquid crystal layer 302 (refers to Fig. 3, Fig. 3 is respectively arranged at first substrate 2 with drive circuit in the first box between second substrate 4 Exemplified by the 3rd substrate 6,401 be the first drive circuit in figure, and 601 be the second drive circuit).

Further, the first frame glue 301 is arranged between first substrate 2 and second substrate 4, forms liquid crystal layer in the first box 302, the first frame glue 301 can make to maintain fixed range between first substrate 2 and second substrate 4, so as to limit the first liquid crystal layer 3 Position and thickness.In the concrete application of the present embodiment, the first frame glue 301 can use epoxide-resin glue as binder essence Really it is fitted between first substrate 2 and second substrate 4, forms liquid crystal layer 302 in the first box.

Further, liquid crystal layer 302 specifically uses vertical orientation (VA patterns) structure in the first box, and its major axis is perpendicular to One substrate 2 and second substrate 4, i.e., under non-power status, liquid crystal molecule is in the presence of vertical orientation power perpendicular to the first base The direction of plate 2 and second substrate 4 arranges, and liquid crystal molecule starts to rotate after certain voltage is applied, by applying different electricity Pressure, can show different briliancy.The thickness control of liquid crystal layer 302 is between 0.01 micron -0.04 micron in first box, so that First liquid crystal cell has larger response speed；Its uniformity requirement is within 0.04 micron, to maintain first substrate 2 and second Appropriate gap between substrate 4, so that it is guaranteed that Electric Field Distribution is uniform.

In the utility model embodiment, the second liquid crystal layer 7 is arranged between the 3rd substrate 6 and tetrabasal 8.

Specifically, the second liquid crystal layer 7 includes the second frame glue 701 and is arranged in the second frame glue 701, positioned at the 3rd substrate 6 And liquid crystal layer 702 in the second box between tetrabasal 8.

Further, the second frame glue 701 is arranged between the 3rd substrate 6 and tetrabasal 8, forms liquid crystal layer in the second box 702, the second frame glue 701 can make to maintain fixed range between the 3rd substrate 6 and tetrabasal 8, so as to limit the second liquid crystal layer 7 Position and thickness.In the concrete application of the present embodiment, the second frame glue 701 can use epoxide-resin glue as binder essence Really it is fitted between the 3rd substrate 6 and tetrabasal 8, forms liquid crystal layer 702 in the second box.

Further, liquid crystal layer 702 specifically uses vertical orientation (VA patterns) structure in the second box, and its major axis is perpendicular to Three substrates 6 and tetrabasal 8, i.e., under non-power status, liquid crystal molecule is in the presence of vertical orientation power perpendicular to the 3rd base The direction of plate 6 and tetrabasal 8 arranges, and liquid crystal molecule starts to rotate after certain voltage is applied, by applying different electricity Pressure, can show different briliancy.The thickness control of liquid crystal layer 702 is between 0.01 micron -0.04 micron in second box, so that Second liquid crystal cell has larger response speed, while also keeps the consistent of the first liquid crystal cell and the second liquid crystal cell response speed Property；Its uniformity requirement is within 0.04 micron, to maintain gap appropriate between the 3rd substrate 6 and tetrabasal 8, so as to really It is uniform to protect Electric Field Distribution.

In the utility model embodiment, liquid crystal layer 702 in the optical delay amount N1 of liquid crystal layer 302 and the second box in the first box Optical delay amount N2 difference range be -4nm≤N1-N2≤4nm.Wherein, optical delay amount N=Δ n*d, wherein Δ n are The build-in attribute of liquid crystal；D is that the box of liquid crystal cell is thick.By in the optical delay amount N1 of liquid crystal layer in the first box 302 and the second box The restriction of the optical delay amount N2 differences of liquid crystal layer 702, reduce in the first box liquid crystal layer 702 in the box of liquid crystal layer 302 and second Response speed, photoelectric properties and the deviation displayed contrast etc., make the first liquid crystal cell and the second liquid crystal cell have it is more unified Visual angle, so as to improve the display effect of LCD panel.

In the utility model embodiment, adhesive linkage 5 is arranged between the substrate 6 of second substrate 4 and the 3rd, for being bonded the Two substrates 4 and the 3rd substrate 6.Adhesive linkage 5 requires transparent, stability is good, heat resistance is high, and the flatness after the fitting of adhesive linkage 5 Preferably below 0.1mm.Adhesives can be, but not limited in double faced adhesive tape, solid gum, liquid crystal glue, optical cement at least one Kind, it is preferable that adhesives can be adhesion >=90N/100mm double faced adhesive tape, so that the substrate of second substrate 4 and the 3rd There is more preferable adhesive effect between 6.

The LCD panel that the utility model embodiment provides, the first polaroid 1, first set by sequentially lamination Substrate 2, the first liquid crystal layer 3, second substrate 4, adhesive linkage 5, the 3rd substrate 6, the second liquid crystal layer 7, tetrabasal 8 and second are inclined Mating plate 9 so that liquid crystal display panel can double display content on the basis of identical display area, while have high response Speed and excellent photoelectric properties, beneficial to the variation for realizing pattern and complicate, so as to improve the display effect of product, carry High user uses the experience property of product, further meets customer need.

Based on above-mentioned LCD panel, the utility model provides a kind of vertically aligned liquid crystal display device, the device bag Include liquid crystal display panel as described above and the backlight module of light source is provided for liquid crystal display panel.Wherein it is preferred to backlight Module is using light emitting diode as light source.

Specifically, liquid crystal display panel includes：First substrate, second substrate, the 3rd base parallel and be sequentially oppositely arranged Plate and tetrabasal；It is arranged on first polaroid of the first substrate on the surface of second substrate side；It is arranged on first The first liquid crystal layer between substrate and second substrate；It is bonded the adhesive linkage of second substrate and the 3rd substrate；It is arranged on the 3rd substrate The second liquid crystal layer between tetrabasal；It is arranged on second polaroid of the tetrabasal on the surface of the 3rd substrate；Its In, the first liquid crystal layer and the second liquid crystal layer are respectively the liquid crystal layer with vertical orientation structure.

It is the first polaroid for being related in the utility model embodiment, first substrate, the first liquid crystal layer, second substrate, viscous Connect layer, the 3rd substrate, the second liquid crystal layer, tetrabasal and the second polaroid and the first polaroid being related in above-described embodiment 1st, first substrate 2, the first liquid crystal layer 3, second substrate 4, adhesive linkage 5, the 3rd substrate 6, the second liquid crystal layer 7, tetrabasal 8 and The description of second polaroid 9 is consistent, no longer describes herein.

The vertically aligned liquid crystal display device that the utility model embodiment provides, including liquid crystal display panel and be liquid crystal Display panel provides the backlight module of light source, the first polaroid that liquid crystal display panel is set by sequentially lamination, first substrate, First liquid crystal layer, second substrate, adhesive linkage, the 3rd substrate, the second liquid crystal layer, tetrabasal and the second polaroid so that liquid LCD panel can double display content on the basis of identical display area, while have high response speed and excellent Good photoelectric properties, beneficial to the variation for realizing pattern and complicate, so as to improve the display effect of product, improve user and use The experience property of product, further meets customer need.

More than, only specific embodiment of the present utility model, but the scope of protection of the utility model is not limited thereto, Any one skilled in the art can readily occur in various equivalent in the technical scope that the utility model discloses Modifications or substitutions, these modifications or substitutions should all cover within the scope of protection of the utility model.Therefore, it is of the present utility model Protection domain should be defined by scope of the claims.

Claims (10)

1. a kind of liquid crystal display panel, it is characterised in that the liquid crystal display panel includes：

First substrate, second substrate, the 3rd substrate and tetrabasal parallel and be sequentially oppositely arranged；It is arranged on described first First polaroid of the substrate on the surface of the second substrate side；It is arranged on the first substrate and the second substrate Between the first liquid crystal layer；It is bonded the adhesive linkage of the second substrate and the 3rd substrate；Be arranged on the 3rd substrate and The second liquid crystal layer between the tetrabasal；It is arranged on second of the tetrabasal on the surface of the 3rd substrate Polaroid.

2. liquid crystal display panel as claimed in claim 1, it is characterised in that first liquid crystal layer includes the first frame glue and set Put liquid crystal layer in the first box in first frame glue, between the first substrate and the second substrate.

3. liquid crystal display panel as claimed in claim 2, it is characterised in that second liquid crystal layer includes the second frame glue and set Put in second frame glue, liquid crystal layer in the second box between the 3rd substrate and the tetrabasal.

4. liquid crystal display panel as claimed in claim 3, it is characterised in that liquid crystal layer optical delay amount N1 in first box Difference range with the optical delay amount N2 of liquid crystal layer in second box is -4nm≤N1-N2≤4nm.

5. liquid crystal display panel as claimed in claim 1, it is characterised in that the frictional direction of the second substrate and described the The frictional direction of three substrates is opposite.

6. liquid crystal display panel as claimed in claim 1, it is characterised in that the extinction axle of first polaroid and described The absorption axiss of two polaroids are orthogonal；And the absorption axiss of the extinction axle of first polaroid and second polaroid with it is corresponding The angular range of the frictional direction of the frictional direction of the first substrate and the tetrabasal is 45 ± 1 °.

7. the liquid crystal display panel as described in claim any one of 1-6, it is characterised in that phase in the face of first polaroid Potential difference Re₁With thickness phase difference Rth₁Respectively 50nm-60nm and 210nm-230nm；Phase difference in the face of second polaroid Re₂With thickness phase difference Rth₂Respectively 50nm-60nm and 210nm-230nm.

8. the liquid crystal display panel as described in claim any one of 1-6, it is characterised in that phase in the face of first polaroid Potential difference Re₁With thickness phase difference Rth₁Respectively 0；Phase difference Re in the face of second polaroid₂With thickness phase difference Rth₂Point Wei not 50nm-60nm and 420nm-460nm.

9. liquid crystal display panel as claimed in claim 1, it is characterised in that flatness≤0.1mm of the adhesive linkage；With/ Or adhesion >=90N/100mm of the adhesive linkage.

10. a kind of vertically aligned liquid crystal display device, it is characterised in that the vertically aligned liquid crystal display device includes liquid crystal Show panel and the backlight module of light source is provided for the liquid crystal display panel；

Wherein, the liquid crystal display panel includes：

First substrate, second substrate, the 3rd substrate and tetrabasal parallel and be sequentially oppositely arranged；It is arranged on described first First polaroid of the substrate on the surface of the second substrate side；It is arranged on the first substrate and the second substrate Between the first liquid crystal layer；It is bonded the adhesive linkage of the second substrate and the 3rd substrate；Be arranged on the 3rd substrate and The second liquid crystal layer between the tetrabasal；It is arranged on second of the tetrabasal on the surface of the 3rd substrate Polaroid；

Wherein, first liquid crystal layer and second liquid crystal layer are respectively the liquid crystal layer with vertical orientation structure.