CN104570514A

CN104570514A - Electrode structure and liquid crystal display panel

Info

Publication number: CN104570514A
Application number: CN201410843898.9A
Authority: CN
Inventors: 凌安恺; 吴玲; 沈柏平
Original assignee: Tianma Microelectronics Co Ltd; Xiamen Tianma Microelectronics Co Ltd
Current assignee: Tianma Microelectronics Co Ltd; Xiamen Tianma Microelectronics Co Ltd
Priority date: 2014-12-30
Filing date: 2014-12-30
Publication date: 2015-04-29
Anticipated expiration: 2034-12-30
Also published as: CN104570514B

Abstract

The invention discloses an electrode structure. The electrode structure comprises a first electrode, a second electrode and a third electrode; the first electrode comprises a first linear portion and at least one first end, and each first end forms a first included angle theta1 with the extension direction of the first linear portion; the second electrode comprises a second linear portion and at least one second end, and each second end forms a second included angle theta2 with the extension direction of the second linear portion; the third electrode comprises a third linear portion and at least one third end, and each third end forms a third included angle theta3 with the extension direction of the third linear portion; each of the theta1, theta2 and theta3 is more than or equal to 30 degrees and less than or equal to 50 degrees, and the theta2<the theta1<the theta3. The invention further discloses a liquid crystal display panel using the electrode structure.

Description

Electrode structure and display panels

Technical field

The present invention relates to display technique field, particularly relate to a kind of electrode structure and display panels.

Background technology

Liquid crystal display (Liquid Crystal Display, LCD), have lightweight, thickness is thin and the advantage such as low in energy consumption, be widely used in the electronic products such as TV, mobile phone, display.

In prior art, electrode structure in liquid crystal display on tft array substrate is generally linear pattern, but this linear electrode structure only produces along the electric field perpendicular to its bearing of trend, when being subject to External Force Acting, its liquid crystal molecule can produce abnormal deflection, produces Trace mura (black farmland line) phenomenon, when external force is eliminated, liquid crystal molecule restPoses and comparatively slowly maybe cannot recover, and then affect display effect.In order to solve the problem, generally the two ends of described linear pattern electrode structure all be bent an equal angular, being generally 30 °, thus form an electric field making liquid crystal molecule recover initial arrangement, and then Trace mura phenomenon can be solved.But above-mentioned design can make the penetrance of liquid crystal display reduce about 1.8%.

Summary of the invention

The invention provides a kind of electrode structure and display panels, effectively can solve Trace mura phenomenon in liquid crystal display and the low problem of penetrance simultaneously.

For solving above-mentioned technology for topic, the invention provides a kind of electrode structure, comprising: at least one first electrode of spaced setting, at least one second electrode and at least one 3rd electrode; Described first electrode comprises one first line part and two first ends, described first line part extends along a first direction substantially, and at least one first end bends along clockwise direction or counterclockwise and forms one first angle theta with described first direction in the plane residing for this electrode structure ₁; Described second electrode comprises one second line part and two the second ends, described second line part extends along described first direction substantially, and at least one second end bends along clockwise direction or counterclockwise and forms one second angle theta with described first direction in the plane residing for this electrode structure ₂; Described 3rd electrode comprises one the 3rd line part and two the 3rd ends, described 3rd line part extends along described first direction substantially, and at least one 3rd end bends along clockwise direction or counterclockwise and forms one the 3rd angle theta with described first direction in the plane residing for this electrode structure ₃, wherein, θ ₁, θ ₂, θ ₃all be more than or equal to 30 ° and be less than or equal to 50 °, and θ ₂< θ ₁< θ ₃.

The present invention also provides a kind of electrode structure, comprising: at least one first electrode of spaced setting, at least one second electrode and at least one 3rd electrode; Described first electrode comprises two the first line parts and two first ends, described two the first line parts are connected formation one polyline shaped structure, described two first ends are connected with the two ends of described polyline shaped structure respectively, and at least one first end bends along clockwise direction or counterclockwise and bearing of trend formation one first angle theta of the first coupled line part in the plane residing for this electrode structure ₁; Described second electrode comprises two the second line parts and two the second ends, described two the second line parts are connected formation one polyline shaped structure, described two the second ends are connected with the two ends of described polyline shaped structure respectively, and at least one second end bends along clockwise direction or counterclockwise and bearing of trend formation one second angle theta of the second coupled line part in the plane residing for this electrode structure ₂; Described 3rd electrode comprises two the 3rd line parts and two the 3rd ends, described two the 3rd line parts are connected formation one polyline shaped structure, described two the 3rd ends are connected with the two ends of described polyline shaped structure respectively, and at least one 3rd end bends along clockwise direction or counterclockwise and bearing of trend formation one the 3rd angle theta of the 3rd coupled line part in the plane residing for this electrode structure ₃; Wherein, θ ₁, θ ₂, θ ₃all be more than or equal to 30 ° and be less than or equal to 50 °, and θ ₂< θ ₁< θ ₃.

Further, described two first ends are bent to form described first angle theta simultaneously along clockwise direction or counterclockwise ₁; Described two the second ends are bent to form described second angle theta simultaneously along clockwise direction or counterclockwise ₂; Described two the 3rd ends are bent to form described 3rd angle theta simultaneously along clockwise direction or counterclockwise ₃.

Further, 35 °≤θ ₁≤ 40 °, 30 °≤θ ₂≤ 40 °, and 40 °≤θ ₃≤ 50 °.

Further, 30 °≤θ ₂≤ 35 °, and 45 °≤θ ₃≤ 50 °.

Further, θ ₁=40 °, θ ₂=30 °, and θ ₃=50 °.

The present invention also provides a kind of display panels, comprises a tft array substrate, and wherein, described tft array substrate comprises above-mentioned electrode structure; And R pixel cell, G pixel cell and B pixel cell are respectively described first electrode, described second electrode and described 3rd electrode near the electrode of liquid crystal molecule in described tft array substrate.

Further, described display panels is FFS type display panels, and described R pixel cell, G pixel cell and B pixel cell are public electrode near the electrode of liquid crystal molecule.

Further, described display panels is FFS type display panels, and described R pixel cell, G pixel cell and B pixel cell are pixel electrode near the electrode of liquid crystal molecule.

Further, described display panels is IPS type display panels, comprising: at least two the first electrodes are respectively as the pixel electrode of R pixel cell and public electrode; At least two the second electrodes are respectively as the pixel electrode of G pixel cell and public electrode; And at least two the 3rd electrodes are respectively as the pixel electrode of B pixel cell and public electrode.

Electrode structure that the present invention adopts and display panels, when not reducing described display panels penetrance, can effectively improve the trace mura phenomenon of described display panels, and then improve display effect.

Accompanying drawing explanation

The structural representation of the electrode structure that Fig. 1 provides for one embodiment of the invention.

The structural representation of the FFS type display panels that Fig. 2 provides for one embodiment of the invention.

The structural representation of the electrode structure that Fig. 3 provides for another embodiment of the present invention.

Embodiment

Below in conjunction with accompanying drawing, the present invention is described in more detail, which show the preferred embodiments of the present invention, the described those skilled in the art of understanding should can revise the present invention described here, and still realize advantageous effects of the present invention.Therefore, following description is appreciated that extensively knowing for those skilled in the art, and not as limitation of the present invention.

Please refer to Fig. 1, the embodiment of the present invention provides a kind of electrode structure 10, comprises at least one first electrode 11 of spaced setting, at least one second electrode 12 and at least one 3rd electrode 13.

Described first electrode 11 has one first line part 111 and is arranged at two first ends 112 at described first line part 111 two ends.Described first line part 111 extends along a first direction substantially.In described first electrode 11, at least one first end 112 bends along clockwise direction or counterclockwise and forms one first angle theta with described first direction in the plane residing for this electrode structure 10 ₁, wherein, 30 °≤θ ₁≤ 50 °.Preferably, described two first ends 112 bend along clockwise direction or counterclockwise simultaneously thus form described first angle theta in the plane residing for this electrode structure 10 ₁.

Described second electrode 12 has one second line part 121 and is arranged at two second ends 122 at described second line part 121 two ends.Described second line part 121 extends along described first direction substantially.In described second electrode 12, at least one second end 122 bends along clockwise direction or counterclockwise and forms one second angle theta with described first direction in the plane residing for this electrode structure 10 ₂, wherein, 30 °≤θ ₂≤ 50 °.Preferably, described two the second ends 122 bend along clockwise direction or counterclockwise simultaneously thus form described second angle theta in the plane residing for this electrode structure 10 ₂.

Described 3rd electrode 13 has one the 3rd line part 131 and is arranged at two the 3rd ends 132 at described 3rd line part 131 two ends.Described 3rd line part 131 extends along described first direction substantially.In described 3rd electrode 13, at least one 3rd end 132 bends along clockwise direction or counterclockwise and forms one the 3rd angle theta with described first direction in the plane residing for this electrode structure 10 ₃, wherein, 30 °≤θ ₃≤ 50 °, and θ ₂< θ ₁< θ ₃.Preferably, described two the 3rd ends 132 bend along clockwise direction or counterclockwise simultaneously thus form described 3rd angle theta in the plane residing for this electrode structure 10 ₃.

Preferably, 35 °≤θ ₁≤ 40 °, 30 °≤θ ₂≤ 40 °, and 40 °≤θ ₃≤ 50 °.Preferred, 35 °≤θ ₁≤ 40 °, 30 °≤θ ₂≤ 35 °, and 45 °≤θ ₃≤ 50 °.In the present embodiment, two first ends 112 of described first electrode 11 bend about 40 °, that is, θ simultaneously in the counterclockwise direction ₁be about 40 °; Two the second ends 122 of described second electrode 12 bend about 30 °, that is, θ simultaneously in the counterclockwise direction ₂be about 30 °; Two the 3rd ends 132 of described 3rd electrode 13 bend about 50 °, that is, θ simultaneously in the counterclockwise direction ₃be about 50 °.

Described electrode structure 10 is when for display panels, and this electrode structure 10 can be used as the electrode near liquid crystal molecule in tft array substrate.Concrete, the first electrode 11, second electrode 12 in described electrode structure 10 and the 3rd electrode 13 can be used separately as in described tft array substrate red (R) pixel cell, green (G) pixel cell and blueness (B) pixel cell near the electrode of liquid crystal molecule.

More specifically, please refer to Fig. 2, for Fringe Field Switching (FFS) type display panels 100.The liquid crystal molecule 120 that described FFS type display panels 100 comprises tft array substrate 110, color membrane substrates 130 and is arranged between described tft array substrate 110 and color membrane substrates 130.Described tft array substrate 110 comprises an insulation course 112 and is arranged at pixel electrode 113 and the public electrode 111 of described insulation course 112 both sides.Described pixel electrode 113 is arranged at described insulation course 112 near the surface of liquid crystal molecule 120, and comprises multiple first pixel electrode 1131, multiple second pixel electrode 1132 and multiple 3rd pixel electrode 1133.Described first pixel electrode 1131, second pixel electrode 1132 and the 3rd pixel electrode 1133 are respectively as the pixel electrode of R pixel cell, G pixel cell and B pixel cell in described tft array substrate 110.Now, the first electrode 11, second electrode 12 in described electrode structure 10 and the 3rd electrode 13 can be used separately as described first pixel electrode 1131, second pixel electrode 1132 and the 3rd pixel electrode 1133.

Described FFS type display panels 100 has following beneficial effect: by being bent the end of described first pixel electrode 1131, second pixel electrode 1132 and the 3rd pixel electrode 1133, thus an electric field can be formed, this electric field can make the abnormal rotation of liquid crystal molecule owing to producing under External Force Acting, recover initial arrangement when external force disappears, thus effectively can improve the trace mura phenomenon of described FFS type display panels 100; In addition, different to the contribution of penetrance according to different light rays, select different bending angles, thus the penetrance of described FFS type display panels 100 can be kept; That is, described FFS type display panels 100 when not reducing described FFS type display panels 100 penetrance, can effectively improve the trace mura phenomenon of described FFS type display panels 100, and then improves display effect.

Be appreciated that described electrode structure 10 is also not limited to, for above-mentioned FFS type display panels 100, also may be used for other structure FFS type display panels.Such as, when tft array substrate in FFS type display panels is public electrode near the electrode of liquid crystal molecule, the first electrode 11, second electrode 12 in described electrode structure 10 and the 3rd electrode 13 can be used separately as the public electrode of described R pixel cell, G pixel cell and B pixel cell.

In addition, described electrode structure 10 is also not limited to, for FFS type display panels 100, also may be used for the display panels of other types.Such as, In-Plane Switching (IPS) type display panels.Because the pixel electrode of tft array substrate in described IPS type display panels and public electrode are all arranged near liquid crystal molecule, therefore, the first electrode 11 in described electrode structure 10 can be used as pixel electrode and/or the public electrode of R pixel cell, the second electrode 12 in described electrode structure 10 can be used as pixel electrode and/or the public electrode of G pixel cell, and the 3rd electrode 13 in described electrode structure 10 can be used as pixel electrode and/or the public electrode of B pixel cell.Preferably, described IPS type display panels comprises at least two the first electrodes 11 respectively as the pixel electrode of R pixel cell and public electrode; At least two the second electrodes 12 are respectively as the pixel electrode of G pixel cell and public electrode; And at least two the 3rd electrodes 13 are respectively as the pixel electrode of B pixel cell and public electrode.

Please refer to Fig. 3, another embodiment of the present invention provides a kind of electrode structure 20, comprises at least one first electrode 21 of spaced setting, at least one second electrode 22 and at least one 3rd electrode 23.

Described first electrode 21 comprises two the first line parts 211 and two first ends 212.Described two the first line parts 211 are connected formation one polyline shaped structure, and described two first ends 212 are arranged at the two ends of described polyline shaped structure respectively.In described first electrode 21, at least one first end 212 bends along clockwise direction or counterclockwise in the plane residing for this electrode structure 20 and the bearing of trend of the first coupled line part 211 forms one first angle theta ₁, wherein, 30 °≤θ ₁≤ 50 °.Preferably, described two first ends 212 bend along clockwise direction or counterclockwise simultaneously thus form described first angle theta in the plane residing for this electrode structure 20 ₁.

Described second electrode 22 comprises two the second line parts 221 and two the second ends 222.Described two the second line parts 221 are connected formation one polyline shaped structure, and described two the second ends 222 are arranged at the two ends of described polyline shaped structure respectively.In described second electrode 22, at least one second end 222 bends along clockwise direction or counterclockwise in the plane residing for this electrode structure 20 and the bearing of trend of the second coupled line part 221 forms one second angle theta ₂, wherein, 30 °≤θ ₂≤ 50 °.Preferably, described two the second ends 222 bend along clockwise direction or counterclockwise simultaneously thus form described second angle theta in the plane residing for this electrode structure 20 ₂.

Described 3rd electrode 23 comprises two the 3rd line parts 231 and two the 3rd ends 232.Described two the 3rd line parts 231 are connected formation one polyline shaped structure, and described two the 3rd ends 232 are arranged at the two ends of described polyline shaped structure respectively.In described 3rd electrode 23, at least one 3rd end 232 bends along clockwise direction or counterclockwise in the plane residing for this electrode structure 20 and the bearing of trend of the 3rd coupled line part 231 forms one the 3rd angle theta ₃, wherein, 30 °≤θ ₂≤ 50 °.Preferably, described two the 3rd ends 232 bend along clockwise direction or counterclockwise simultaneously thus form described 3rd angle theta in the plane residing for this electrode structure 20 ₃.

Preferably, 35 °≤θ ₁≤ 40 °, 30 °≤θ ₂≤ 40 °, and 40 °≤θ ₃≤ 50 °.Preferred, 35 °≤θ ₁≤ 40 °, 30 °≤θ ₂≤ 35 °, and 45 °≤θ ₃≤ 50 °.In the present embodiment, two first ends 212 of described first electrode 21 bend about 40 °, that is, θ simultaneously in the counterclockwise direction ₁be about 40 °; Two the second ends 222 of described second electrode 22 bend about 30 °, that is, θ simultaneously in the counterclockwise direction ₂be about 30 °; Two the 3rd ends 2132 of described 3rd electrode 23 bend about 50 °, that is, θ simultaneously in the counterclockwise direction ₃be about 50 °.

Be appreciated that described electrode structure 20 may be used for various FFS type display panels and IPS type display panels equally.

Described electrode structure 20 is when for display panels, by by described first electrode 21, second electrode 22 and the 3rd electrode 23 are as R pixel cell in described display panels, G pixel cell and B pixel cell are near the electrode of liquid crystal molecule, due to the first electrode 21, the end of the second electrode 22 and the 3rd electrode 23 bends, therefore, an electric field can be formed, this electric field can make the abnormal rotation of liquid crystal molecule owing to producing under External Force Acting, initial arrangement is recovered when external force disappears, and then effectively can improve the trace mura phenomenon of display panels, in addition, different to the contribution of penetrance according to different light rays, select different bending angles, thus the penetrance of display panels can be kept, that is, display panels when not reducing penetrance, can effectively improve the trace mura phenomenon of display panels, and then improves display effect.

Obviously, those skilled in the art can carry out various change and modification to invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims

1. an electrode structure, comprising:

At least one first electrode of spaced setting, at least one second electrode and at least one 3rd electrode;

Described first electrode comprises one first line part and two first ends, described first line part extends along a first direction substantially, and at least one first end bends along clockwise direction or counterclockwise and forms one first angle theta with described first direction in the plane residing for this electrode structure ₁;

Described second electrode comprises one second line part and two the second ends, described second line part extends along described first direction substantially, and at least one second end bends along clockwise direction or counterclockwise and forms one second angle theta with described first direction in the plane residing for this electrode structure ₂;

Described 3rd electrode comprises one the 3rd line part and two the 3rd ends, described 3rd line part extends along described first direction substantially, and at least one 3rd end bends along clockwise direction or counterclockwise and forms one the 3rd angle theta with described first direction in the plane residing for this electrode structure ₃;

Wherein, θ ₁, θ ₂, θ ₃all be more than or equal to 30 ° and be less than or equal to 50 °, and θ ₂< θ ₁< θ ₃.

2. an electrode structure, comprising:

Described first electrode comprises two the first line parts and two first ends, described two the first line parts are connected formation one polyline shaped structure, described two first ends are connected with the two ends of described polyline shaped structure respectively, and at least one first end bends along clockwise direction or counterclockwise and bearing of trend formation one first angle theta of the first coupled line part in the plane residing for this electrode structure ₁;

Described second electrode comprises two the second line parts and two the second ends, described two the second line parts are connected formation one polyline shaped structure, described two the second ends are connected with the two ends of described polyline shaped structure respectively, and at least one second end bends along clockwise direction or counterclockwise and bearing of trend formation one second angle theta of the second coupled line part in the plane residing for this electrode structure ₂;

Described 3rd electrode comprises two the 3rd line parts and two the 3rd ends, described two the 3rd line parts are connected formation one polyline shaped structure, described two the 3rd ends are connected with the two ends of described polyline shaped structure respectively, and at least one 3rd end bends along clockwise direction or counterclockwise and bearing of trend formation one the 3rd angle theta of the 3rd coupled line part in the plane residing for this electrode structure ₃;

3. electrode structure as claimed in claim 1 or 2, is characterized in that, described two first ends are bent to form described first angle theta simultaneously along clockwise direction or counterclockwise ₁; Described two the second ends are bent to form described second angle theta simultaneously along clockwise direction or counterclockwise ₂; Described two the 3rd ends are bent to form described 3rd angle theta simultaneously along clockwise direction or counterclockwise ₃.

4. electrode structure as claimed in claim 1 or 2, is characterized in that, 35 °≤θ ₁≤ 40 °, 30 °≤θ ₂≤ 40 °, and 40 °≤θ ₃≤ 50 °.

5. electrode structure as claimed in claim 4, is characterized in that, 30 °≤θ ₂≤ 35 °, and 45 °≤θ ₃≤ 50 °.

6. electrode structure as claimed in claim 5, is characterized in that, θ ₁=40 °, θ ₂=30 °, and θ ₃=50 °.

7. a display panels comprises:

One tft array substrate, comprises the electrode structure as claim 1 or 2; Wherein, in described tft array substrate, R pixel cell, G pixel cell and B pixel cell are respectively described first electrode, described second electrode and described 3rd electrode near the electrode of liquid crystal molecule.

8. display panels as claimed in claim 7, it is characterized in that, described display panels is FFS type display panels, and described R pixel cell, G pixel cell and B pixel cell are public electrode near the electrode of liquid crystal molecule.

9. display panels as claimed in claim 7, it is characterized in that, described display panels is FFS type display panels, and described R pixel cell, G pixel cell and B pixel cell are pixel electrode near the electrode of liquid crystal molecule.

10. display panels as claimed in claim 7, it is characterized in that, described display panels is IPS type display panels, comprising:

At least two the first electrodes are respectively as the pixel electrode of R pixel cell and public electrode;

At least two the second electrodes are respectively as the pixel electrode of G pixel cell and public electrode; And

At least two the 3rd electrodes are respectively as the pixel electrode of B pixel cell and public electrode.