CN106324910A - Display panel and display device - Google Patents

Abstract

The invention provides a display panel and a display device. The display panel comprises a first substrate, a second substrate, a liquid crystal layer and an optical compensation structure, wherein the second substrate is arranged opposite to the first substrate; the liquid crystal layer and the optical compensation structure are clamped between the first substrate and the second substrate; the optical compensation structure is used for compensating the phase delay of surrounding edge areas of the display panel, and comprises two adjacent top corner parts which respectively correspond to two adjacent top corner areas of the display panel. The display panel and the display device provided by the invention have the advantage that by arranging the optical compensation structure on the display panel, the phase delay amounts of the adjacent top corner parts of the optical compensation structure are the same, and the optical axis directions of the adjacent top corner parts are vertically arranged, so as to solve the problem of the display panel that the dark light leakage of the edge areas of the display panel is caused because the edge areas of the display panel are damaged due to the isotropy caused by external force on edge frames.

Description

A kind of display floater and display device

Technical field

The present invention relates to Display Technique field, particularly to a kind of display floater and display device.

Background technology

Along with the rise of Global Information Community adds the demand to various display devices.Therefore, various planes are shown The research and development of device has put into the biggest effort, as liquid crystal indicator (LCD), plasma display system (PDP), field cause Luminous display unit (ELD) and vacuum fluorescent display device (VFD).

In various flat display apparatus, due to the slim body, lightweight and low in energy consumption of liquid crystal indicator (LCD) Advantage (this makes them become the attractive substitute of CRT display (CRT)) and obtain widest Application.Although the use of liquid crystal indicator gets more and more, but the shortcoming of liquid crystal indicator still compares many, such as secretly Easy light leak during state.

The marginal area of liquid crystal indicator easy light leak in the dark state, one of which reason is because by display floater During assembling, surrounding module frame produces external force when encapsulating the upper and lower base plate of display floater, and external force causes display floater Substrate edge region unbalance stress, make to create inside substrate stress, thus cause the marginal area isotropism of substrate to meet with To destroying, produce Phase delay, the amplification to Phase delay of the liquid crystal within upper display floater, when adding dark-state display The transmitance of light, causes dark-state light leak to increase.

Summary of the invention

In view of this, it is necessary to a kind of display floater reducing marginal area easy light leak in the dark state and display are provided Device.

A kind of display floater, the second substrate being oppositely arranged with described first substrate including first substrate and be sandwiched in described Liquid crystal layer between first substrate and described second substrate, described display floater also includes:

Optical compensation structure, the Phase delay in the region, edge of display floater can be entered by described optical compensation structure Row compensates, and described optical compensation structure includes adjacent two top corner portion, two drift angles that the most corresponding display floater is adjacent Region, the phase-delay quantity of described two adjacent top corner portion is identical, and the optical axis side of described two adjacent top corner portion To perpendicular.

A kind of display device, including display floater, described display floater includes that first substrate is relative with described first substrate Arrange second substrate and be sandwiched in the liquid crystal layer between described first substrate and described second substrate, described display floater also wraps Include:

Optical compensation structure, the Phase delay in the region, edge of display floater can be entered by described optical compensation structure Row compensates, and described optical compensation structure includes adjacent two top corner portion, two drift angles that the most corresponding display floater is adjacent Region, the phase-delay quantity of described two adjacent top corner portion is identical, and the optical axis side of described two adjacent top corner portion To perpendicular.

Compared to prior art, display floater provided by the present invention and display device, by arranging on a display panel Optical compensation structure, the top corner portion that the phase-delay quantity of the adjacent top corner portion of optical compensation structure is identical and adjacent Optical axis direction perpendicular, to solve display floater during carrying out module packaging, the marginal area of display floater is subject to The external force of frame and produce isotropism and destroyed, the problem causing the marginal area dark-state light leak of display floater.

Accompanying drawing explanation

The axonometric chart of the Fig. 1 display device for providing described in first embodiment of the invention；

Fig. 2 is the exploded view of the display device shown in Fig. 1；

Fig. 3 is the profile of the first top corner regions in Fig. 2 shown in II-II；

Fig. 4 be in Fig. 2 at II-II described in the profile of the second top corner regions；

Fig. 5 is the exploded view of the optical compensation structure of the display floater shown in Fig. 2；

The section of the first top corner regions of display floater in the display device that Fig. 6 is provided by second embodiment of the invention Figure；

The section of the second top corner regions of display floater in the display device that Fig. 7 is provided by second embodiment of the invention Figure.

Detailed description of the invention

For making the technical problem to be solved in the present invention, technical scheme and advantage clearer, below in conjunction with accompanying drawing and tool Body embodiment is described in detail.

Refer to the axonometric chart of Fig. 1 and Fig. 2, Fig. 1 display device 10 for providing described in first embodiment of the invention, figure The exploded view that 2 is the display device 10 shown in Fig. 1.Described display device 10 includes housing 11, display floater 12 and backboard 13, institute Stating backboard 13 and be positioned at the back side of described housing 11, and jointly surround a receiving space with described housing, described display floater 12 is received Hold in the receiving space surrounded with described backboard 13 and described housing 11.Described display device 10 also include functional areas 101 and Around the surrounding zone 102 of described functional areas 101, described functional areas 101 may be used for realizing display function.

Described display floater 12 includes a viewing area 121 and the non-display area 122 around described viewing area 121, described aobvious Showing that district 121 is corresponding with described functional areas 101, described non-display area 122 is corresponding with described surrounding zone 102.Wherein, described week The region occupied by upper side edge on predominantly four limits of described housing 11, border area 102, and the upside on four limits of described housing 11 Limit covers the non-display area 122 of described display floater 12.

Traditional, in the assembling stage of described display device 10, owing to the upper side edge on four limits of described housing 11 covers institute State the non-display area 122 of display floater 12, cause the marginal area of substrate of described display floater 12 by described housing 11 The effect of power, causes the marginal area of described display floater 12 phenomenon of light leak easily occur.

Described display floater 12 includes the first relative top corner regions A and adjacent with described first top corner regions A second Top corner regions B, the marginal area of above-mentioned display floater 12, refer to what described viewing area 121 and described non-display area 122 had a common boundary Near zone, the most described first top corner regions A and described second top corner regions B.Due to the power by described housing 11 The optical axis direction within substrate of display floater 12 described in difference, described first top corner regions A and described second top corner regions B Different, and in corresponding described first top corner regions A and described second top corner regions B, described display floater 12 upper The optical axis direction of infrabasal plate is perpendicular.

Referring to Fig. 3 and Fig. 4, Fig. 3 is the profile of the first top corner regions A shown in II-II in Fig. 2, and Fig. 4 is Fig. 2 The profile of the second top corner regions B described at middle II-II.As shown in Figure 3 and Figure 4, the embodiment of the present invention is provided described aobvious Show panel 12, including first substrate 123, second substrate 124 and liquid crystal layer 125, described first substrate 123 and described second substrate 124 are oppositely arranged, and described liquid crystal layer 125 is sandwiched between described first substrate 123 and described second substrate 124.

From the foregoing, in corresponding described first top corner regions A and described second top corner regions B, described first substrate 123 is perpendicular with the optical axis direction of described second substrate 124.

Described display floater 12 also includes optical compensation structure 126, and described optical compensation structure 126 can be to described display The Phase delay in the region, edge of panel 12 compensates.Described optical compensation structure 126 includes adjacent two drift angle Part, two top corner regions that the most corresponding display floater is adjacent, the most described first top corner regions A and described second top corner regions B.In order to improve the display floater light leakage phenomena caused because of status, on described optical compensation structure 126, described phase The phase-delay quantity of two adjacent top corner portion is identical, and the optical axis direction of described two adjacent top corner portion is perpendicular.

Described optical compensation structure 126 includes the first optical compensation films 1261 and the second optical compensation films 1262, described One optical compensation films 1261 is positioned at the described first substrate 123 side near described liquid crystal layer 125, described second optical compensation films 1262 between described first optical compensation films 1261 and described liquid crystal layer 125.

See also the exploded view of the optical compensation structure that Fig. 5, Fig. 5 are the display floater 12 shown in Fig. 2.Described One optical compensation films 1261 includes the first top corner portion a and second top corner portion b adjacent with described first top corner portion a, institute Stating the first top corner portion a corresponding with the first top corner regions A of described display floater 12, described second top corner portion b is with described Second top corner regions B of display floater 12 is corresponding.In described first top corner portion a and described second top corner portion b, described First optical compensation films 1261 is identical to the phase-delay quantity of described display floater 12, and the direction of optical axis is the most consistent.

Described second optical compensation films 1262 includes the 3rd top corner portion c and adjacent with described 3rd top corner portion c Four top corner portion d, described 3rd top corner portion c is corresponding with the first top corner regions A of described display floater 12, described 4th top Angle part d is corresponding with the second top corner regions B of described display floater 12.

From the foregoing it will be appreciated that due to the active force by described housing 11, in corresponding described first top corner regions A and described the In two top corner regions B, the optical axis direction of the upper and lower base plate of described display floater 12 is perpendicular, the most described first substrate 123 Perpendicular with the optical axis direction of described second substrate 124.Therefore to improve the light leakage phenomena caused because of above-mentioned condition, On described second optical compensation films 1262, in described 3rd top corner portion c and described 4th top corner portion d, to described display surface The phase-delay quantity of plate 12 is identical, and the optical axis direction in described 3rd top corner portion c and described 4th top corner portion d is perpendicular.

On described second optical compensation films 1262, the light in described 3rd top corner portion c and described 4th top corner portion d Direction of principal axis, respectively described first top corner regions A corresponding with on described second substrate 124 and described second top corner regions part B Optical axis direction is consistent.

In present embodiment, in the part of corresponding described first top corner regions A, the optical axis side of described first substrate 123 Spending to for-45, phase-delay quantity is 0, and the optical axis direction of described second substrate 124 is 45 degree, and phase-delay quantity is 3nm；Right Answering in the part of described second top corner regions B, the optical axis direction of described first substrate 123 is 45 degree, and phase-delay quantity is 0, institute The optical axis direction stating second substrate 124 is-45 degree, and phase-delay quantity is 3nm.

In present embodiment, all of angle is to be with reference to the angle angle formed with length all directions of described display floater 12 Degree, but be not limited thereto, in other embodiments, it is also possible to other reference directions for reference to angle angle is described.

Corresponding, on described first optical compensation films 1261, described first top corner portion a and described second top corner portion The phase-delay quantity of b is 50nm-80nm, and optical axis direction is 0 degree；On described second optical compensation films 1262, described 3rd top The phase-delay quantity of angle part c and described 4th top corner portion d is 3.9nm-5.8nm, described 3rd top corner portion c and described The optical axis direction of four top corner portion d is respectively 45 degree and-45 degree.Preferably, in present embodiment, described first top corner portion a It is 65nm with the phase-delay quantity of described second top corner portion b, described 3rd top corner portion c and described 4th top corner portion d Phase-delay quantity is 4.83nm.Preferably, in embodiment of the present invention, described first optical compensation films 1261 and described second light The type learning compensation film 1262 is+A film, but is not limited thereto, in other embodiments, and described first optical compensation films And the type of described second optical compensation films can also select according to specific needs, such as select+C film etc..

In present embodiment, in order to more preferably more easily arrange described first optical compensation films 1261 and described second optics Compensate the optical axis direction of film 1262, control light through described first optical compensation films 1261 and described second optical compensation films The angle of 1262 post deflections, it is preferred that described first optical compensation films 1261 is liquid with described second optical compensation films 1262 Brilliant compensation film.Described first substrate 123 is the one in thin-film transistor array base-plate and opposite substrate, described second substrate 124 is the another one in thin-film transistor array base-plate and opposite substrate.

In present embodiment, in the dark state, the optical axis angle of the liquid crystal molecule in liquid crystal layer is 0 degree, and the phase of liquid crystal layer Position retardation is 340nm.

Described display device 10 can be fringe field switching (Fringe Field Switching is called for short FFS) type liquid crystal Display device, it is also possible to be flat field switch (In-Plane Switching is called for short IPS) type liquid crystal indicator.

Display floater in the display device provided by second embodiment of the invention please refer to Fig. 6 and Fig. 7, Fig. 6 The profile of the first top corner regions, in the display device that Fig. 7 is provided by second embodiment of the invention the of display floater The profile of two top corner regions.

Second embodiment of the invention is essentially identical with the first embodiment, difference the most as described below:

Described optical compensation structure 226 first optical compensation films 2261 and the second optical compensation films 2262, described first light Compensation film 2261 is between first substrate 223 and liquid crystal layer 225, and described second optical compensation films 2262 is positioned at second substrate Between 224 and liquid crystal layer 225.

On described second optical compensation films 2262, the optical axis in described 3rd top corner portion and described 4th top corner portion Direction, respectively described first top corner regions corresponding with on described first substrate 223 and the optical axis of described second top corner regions part Direction is consistent.

In the first top corner regions of corresponding display floater 22, the optical axis direction of first substrate 223 is-45 degree, and phase place is prolonged Amount is 3nm late, and the optical axis direction of second substrate 224 is 45 degree, and phase-delay quantity is 3nm；At corresponding display floater 22 second In top corner regions, the optical axis direction of first substrate 223 is 45 degree, and phase-delay quantity is 3nm, the optical axis direction of second substrate 124 For-45 degree, phase-delay quantity is 3nm.

Corresponding, the type of described first optical compensation films 2261 is+A film, on described first optical compensation films 2,261 the The phase-delay quantity of one top corner portion and the second top corner portion is 50nm-80nm, and optical axis direction is 90 degree；Described second optics is mended Repaying the type that film 2262 is is+A film, the 3rd top corner portion and the phase of the 4th top corner portion on described second optical compensation films 2262 Position retardation is 5.3nm-7.9nm, and the optical axis direction of described 3rd top corner portion and described 4th top corner portion is respectively 135 degree With 45 degree.Preferably, in present embodiment, the first top corner portion and the second top corner portion on described first optical compensation films 2261 Phase-delay quantity be 65nm, on described second optical compensation films 2262, the phase place of the 3rd top corner portion and the 4th top corner portion is prolonged Amount is 6.6nm late.

The display floater of embodiment of the present invention and display device, by arranging optical compensation structure on a display panel, The optical axis direction of the top corner portion that the phase-delay quantity of the adjacent top corner portion of optical compensation structure is identical and adjacent hangs down mutually Directly, to solve display floater during carrying out module packaging, the marginal area of display floater is produced by the external force of frame Raw isotropism is destroyed, the problem causing the marginal area dark-state light leak of display floater.

The above is the preferred embodiment of the present invention, it is noted that for those skilled in the art For, on the premise of without departing from principle of the present invention, it is also possible to make some improvements and modifications, these improvements and modifications are also Should be regarded as protection scope of the present invention.

Claims (11)

1. a display floater, the second substrate being oppositely arranged with described first substrate including first substrate and be sandwiched in described Liquid crystal layer between one substrate and described second substrate, it is characterised in that described display floater also includes:

Optical compensation structure, the Phase delay in the region, edge of display floater can be mended by described optical compensation structure Repaying, described optical compensation structure includes adjacent two top corner portion, two top corner regions that the most corresponding display floater is adjacent, The phase-delay quantity of described two adjacent top corner portion is identical, and the optical axis direction of described two adjacent top corner portion hangs down mutually Directly.

Display floater the most according to claim 1, it is characterised in that described optical compensation structure includes:

First optical compensation films and the second optical compensation films, described second optical compensation films be positioned at described first optical compensation films and Between liquid crystal layer.

Display floater the most according to claim 2, it is characterised in that

Described first optical compensation films includes the first adjacent top corner portion and the second top corner portion, described first top corner portion With the first top corner regions and second top corner regions of the second top corner portion respectively corresponding display floater, described first top corner portion with The phase-delay quantity of described second top corner portion is identical, and described first top corner portion and the optical axis side of described second top corner portion To unanimously；

Described second optical compensation films includes the 3rd adjacent top corner portion and the 4th top corner portion, described 3rd top corner portion With the first top corner regions and second top corner regions of the 4th top corner portion respectively corresponding display floater, described 3rd top corner portion with The phase-delay quantity of described 4th top corner portion is identical, and described 3rd top corner portion and the optical axis side of described 4th top corner portion To perpendicular.

Display floater the most according to claim 3, it is characterised in that

On described first substrate and described second substrate, corresponding described first top corner regions and described second top corner regions part Optical axis direction perpendicular；

Described 3rd top corner portion on described second optical compensation films and the optical axis direction in described 4th top corner portion, respectively The optical axis direction of described first top corner regions corresponding with on described second substrate and described second top corner regions part is consistent.

Display floater the most according to claim 3, it is characterised in that

Described first optical compensation films is+A film, and the phase-delay quantity of described first top corner portion and described second top corner portion is 50nm-80nm, optical axis direction is 0 degree；

Described second optical compensation films is+A film, and the phase-delay quantity of described 3rd top corner portion and described 4th top corner portion is 3.9nm-5.8nm, the optical axis direction of described 3rd top corner portion and described 4th top corner portion is respectively 45 degree and-45 degree.

Display floater the most according to claim 1, it is characterised in that described optical compensation structure includes:

First optical compensation films and the second optical compensation films, described first optical compensation films is positioned at described second substrate and described liquid Between crystal layer, described second optical compensation films is between described first substrate and described liquid crystal layer.

Display floater the most according to claim 6, it is characterised in that

Described first optical compensation films includes the first adjacent top corner portion and the second top corner portion, described first top corner portion With the first top corner regions and second top corner regions of the second top corner portion respectively corresponding display floater, described first top corner portion with The phase-delay quantity of described second top corner portion is identical, and described first top corner portion and the optical axis side of described second top corner portion To unanimously；

Described second optical compensation films includes the 3rd adjacent top corner portion and the 4th top corner portion, described 3rd top corner portion With the first top corner regions and second top corner regions of the 4th top corner portion respectively corresponding display floater, described 3rd top corner portion with The phase-delay quantity of described 4th top corner portion is identical, and described 3rd top corner portion and the optical axis side of described 4th top corner portion To perpendicular.

Display floater the most according to claim 7, it is characterised in that

On described first substrate and described second substrate, corresponding described first top corner regions and described second top corner regions part Optical axis direction perpendicular；

Described 3rd top corner portion on described second optical compensation films and the optical axis direction in described 4th top corner portion, respectively The optical axis direction of described first top corner regions corresponding with on described first substrate and described second top corner regions part is consistent.

Display floater the most according to claim 7, it is characterised in that

Described first optical compensation films is+A film, and the phase-delay quantity of described 3rd top corner portion and described 4th top corner portion is 50nm-80nm, optical axis direction is 90 degree.

Described second optical compensation films is+A film, and the phase-delay quantity of described 3rd top corner portion and described 4th top corner portion is 5.3nm-7.9nm, the optical axis direction of described 3rd top corner portion and described 4th top corner portion is respectively 135 degree and 45 degree.

10. the display floater according to any one of as any one of claim 2 to 7, it is characterised in that described first optics is mended Repay film and be liquid crystal compensation film with described second optical compensation films.

11. 1 kinds of display devices, it is characterised in that include the display floater according to any one of claim 1 to 10.