CN207742442U - Dot structure - Google Patents
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- CN207742442U CN207742442U CN201721809568.3U CN201721809568U CN207742442U CN 207742442 U CN207742442 U CN 207742442U CN 201721809568 U CN201721809568 U CN 201721809568U CN 207742442 U CN207742442 U CN 207742442U
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Abstract
The utility model embodiment discloses a kind of dot structure:Scan line, with scan line data line arranged in a crossed manner, and the pixel unit of the infall in scan line and data line is set, which includes active switch group and pixel electrode group, wherein pixel electrode group includes:First electrode area is provided with and intersects and the hollow out elongated slot that is connected to is to form multiple first electrode subregions, each first electrode subregion, which has, to be arranged in parallel and relative to the inclined a plurality of short slot of hollow out elongated slot;The second electrode region is provided with cross one another entity stem portion to form multiple second electrode subregions, each second electrode subregion, which has, to be arranged in parallel and relative to the inclined a plurality of slit of entity stem portion.The utility model embodiment makes the display panel for applying this dot structure have the advantages that visible angle is big, contrast is high by the pixel electrode of two kinds of different structures of setting in a pixel unit region.
Description
Technical field
The utility model is related to display technology field more particularly to a kind of dot structures.
Background technology
Liquid crystal display has high image quality, small, light-weight, low voltage drive, low consumpting power and application range
Therefore the advantages that wide, has been widely used in medium and small portable TV, mobile phone, shot with video-corder, notes type electricity
The consumer electronics such as brain, desktop displays and projection TV or computer product, and more gradually replace cathode-ray tube
(Cathode Ray Tube, CRT) and as display mainstream.VA (Vertical Alignment vertical orientation technologies) face
Display unit of the plate as liquid crystal display, the characteristics of having wider visual angle, high contrast and be not necessarily to friction orientation, big
Size shows that the application in equipment is increasingly extensive.However, existing VA panels still have, angular field of view is narrow, contrast is more low
Defect is one of the project for needing to improve at present.
Utility model content
The embodiments of the present invention provide a kind of dot structure, to realize the technique effect for increasing visible angle.
A kind of dot structure that the utility model embodiment provides, including:
Scan line;
Data line, it is arranged in a crossed manner with the scan line;And
Pixel unit is arranged in the infall of the scan line and the data line and includes active switch group and pixel electricity
Pole group, the pixel electrode group connect the scan line and the data line by the active switch group;
Wherein, the pixel electrode group includes:
First electrode area is provided with and intersects and the hollow out elongated slot that is connected to is to form multiple first electrode subregions,
Each described first electrode subregion, which has, to be arranged in parallel and relative to the inclined a plurality of short slot of the hollow out elongated slot, and described
The differently- oriented directivity of multiple respective short slots of first electrode subregion is different;And
The second electrode region, is provided with cross one another entity stem portion to form multiple second electrode subregions, each
A second electrode subregion, which has, to be arranged in parallel and relative to the inclined a plurality of slit of the entity stem portion, the multiple
The differently- oriented directivity of the respective slit of second electrode subregion is different.
In one embodiment of the utility model, the active switch group includes active switching element, the pixel electricity
Pole group includes pixel electrode, and the pixel electrode connects the scan line and the data by the active switching element
Line;The first electrode area and the second electrode region are respectively two of the area equation of the same pixel electrode
Point.
In one embodiment of the utility model, the active switch group includes active switching element, the pixel electricity
Pole group includes pixel electrode, and the pixel electrode connects the scan line and the data by the active switching element
Line;
The pixel electrode group further includes:
Third electrode zone is provided with and intersects and the second hollow out elongated slot for being connected to is to form multiple third electrode sub-districts
Domain, each described third electrode subzone, which has, to be arranged in parallel and relative to the second hollow out elongated slot inclined a plurality of second
Short slot, and the differently- oriented directivity of the respective second short slot in the multiple third electrode subzone is different;
Wherein, the first electrode area, the second electrode region and the third electrode zone are respectively same
The different piece of the pixel electrode.
In one embodiment of the utility model, the area of the first electrode area and the third electrode zone it
With the area equal to the second electrode region.
In one embodiment of the utility model, the third electrode zone is located at the first electrode area and described
Between the second electrode region.
In one embodiment of the utility model, the third electrode zone is located at the first electrode area and described
Between the second electrode region, and the area of the first electrode area, the second electrode region and the third electrode zone
It is equal.
In one embodiment of the utility model, the second electrode region is located at the first electrode area and described
Between third electrode zone, and the area of the first electrode area, the second electrode region and the third electrode zone
It is equal.
In one embodiment of the utility model, the active switch group includes active switching element, the pixel electricity
Pole group includes pixel electrode, and the pixel electrode connects the scan line and the data by the active switching element
Line;
The pixel electrode group further includes:
Third electrode zone, is provided with cross one another second instance stem portion to form multiple third electrode subzones,
Each described third electrode subzone, which has, to be arranged in parallel and relative to the second instance stem portion inclined a plurality of second
The differently- oriented directivity of slit, the multiple respective second slit in third electrode subzone is different;
Wherein, the first electrode area, the second electrode region and the third electrode zone are respectively same
The different piece of the pixel electrode.
In one embodiment of the utility model, the first electrode area is located at the second electrode region and described
Between third electrode zone, and the area of the first electrode area, the second electrode region and the third electrode zone
It is equal.
In one embodiment of the utility model, the active switch group includes the first active switching element and the second master
Dynamic switch element, the pixel electrode group includes spaced first pixel electrode and the second pixel electrode, first picture
Plain electrode connects the scan line by first active switching element and the data line, second pixel electrode pass through
Second active switching element connects the scan line and the data line;The first electrode area is as first picture
Plain electrode, and the second electrode region is as second pixel electrode.
In one embodiment of the utility model, the area of the first electrode area and the second electrode region
Area is different.
In one embodiment of the utility model, the area of the first electrode area and the second electrode region
Area ratio is 2:3 or 3:2.
Above-mentioned technical proposal has the following advantages that or advantageous effect:Two kinds are arranged in the pixel electrode of a dot structure
The pixel electrode area of different structure makes the dot structure have both the characteristics of there are two types of pixel electrodes, makes to apply this pixel knot
The display panel of structure has the advantages that visible angle is big, contrast is high.
Description of the drawings
It is required in being described below to embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment
The attached drawing used is briefly described, it should be apparent that, the accompanying drawings in the following description is only some implementations of the utility model
Example, for those of ordinary skill in the art, without creative efforts, can also obtain according to these attached drawings
Obtain other attached drawings.
Fig. 1 is the schematic layout pattern of the dot structure in one embodiment of the utility model;
Fig. 2 is the schematic layout pattern of the dot structure in another embodiment of the utility model;
Fig. 3 is the schematic layout pattern of the dot structure in the utility model another embodiment;
Fig. 4 is the schematic layout pattern of the dot structure in another embodiment of the utility model;
Fig. 5 is the schematic layout pattern of the dot structure in the utility model another embodiment;
Fig. 6 is the schematic layout pattern of the dot structure in the utility model yet another embodiment.
Specific implementation mode
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without creative efforts
The every other embodiment obtained, shall fall within the protection scope of the present invention.
As shown in Figure 1, a kind of dot structure 10 that one embodiment of the utility model provides, including:Scan line 111, with sweep
Line data line 121 arranged in a crossed manner is retouched, and the pixel unit of the infall in scan line 111 and data line 121, pixel are set
Unit includes active switch group and pixel electrode group, and pixel electrode group connects scan line 111 and data by active switch group
Line 121.
Pixel electrode group includes first electrode area 131 and the second electrode region 132, and wherein first electrode area 131 is set
It is equipped with and intersects and the hollow out elongated slot 1311 that is connected to is to form multiple first electrode subregions 1310, each first electrode
Region 1310, which has, to be arranged in parallel and relative to the inclined a plurality of short slot 1312 of hollow out elongated slot 1311, and multiple first electrode sub-districts
The differently- oriented directivity of the respective short slot in domain 1,310 1312 is different;And the second electrode region 132 is provided with cross one another entity trunk
Portion MB is to form multiple second electrode subregions, and in the present embodiment, there are four second electrode subregions in total, such as institute in Fig. 1
Show, including ST1, ST2, ST3, ST4, each in four second electrode subregions, which all has, to be arranged in parallel and relative to reality
The inclined a plurality of slits 1321 of body stem portion MB, this four respective slits of second electrode subregion of ST1, ST2, ST3, ST4
1321 differently- oriented directivity is different.
First electrode area 131 includes two 1311 Hes of elongated slot that such as square crossing arranged in a crossed manner is arranged and is interconnected
The a plurality of short slot 1312 with different orientation to be formed is extended laterally from two elongated slots 1311, the pixel electricity in the electrode zone
Pole may be generally referred to as flakes electrode.
The second electrode region 132 include stem portion MB arranged in a crossed manner with formed four electrode zone ST1, ST2, ST3,
ST4, and the slit 1321 of this four electrode zones be orientated it is different.Specifically, the second electrode region 132 is for example including intersecting
The stem portion MB of such as right-angled intersection is set to form four electrode zones i.e. ST1, ST2, ST3 and ST4, each electrode zone
Slit 1321 be orientated it is different, such as respectively be in 45 degree be orientated, 135 degree be orientated, 225 degree orientations and 315 degree be orientated, the electricity
Pixel electrode in polar region domain can generally become four domain electrodes.
Hold above-mentioned, active switch group includes active switching element 141, and pixel electrode group includes pixel electrode, the present embodiment
Pixel electrode be typically transparent electrode such as ITO (Indium Tin Oxide, indium tin oxide) electrode.Wherein, actively
The source electrode s of switch element 141 is connect with data line 121, and the grid g of active switching element 141 is connect with scan line 111, actively
The drain electrode d of switch element 141 is connect with pixel electrode.
First electrode area 131 and the second electrode region 132 are respectively two of the area equation of the same pixel electrode
Point, in other words, first electrode area 131 is identical with the area of the second electrode region 132.Specifically, the second electrode region 132
Can close scan line 111 as shown in Figure 1 be located at the lower section of pixel electrode, first electrode area 131 is close to another scanning
Line 112 is located at the top of pixel electrode;The position of certain first electrode area 131 and the second electrode region 132 can also be mutual
It mutually exchanges, i.e., the second electrode region 132 is located at the top of pixel electrode close to scan line 112, and first electrode area 131 is close
Scan line 111 is located at the lower section of pixel electrode.
To sum up, dot structure 10 provided in this embodiment in pixel electrode by being arranged two different structures and area phase
Deng pixel electrode, make liquid crystal display panel using the dot structure 10 with increasing visible angle and improve penetrance
Advantageous effect.
As shown in Fig. 2, a kind of dot structure 20 provided in another embodiment of the utility model, including:Scan line 211,
The data line 221 arranged in a crossed manner with scan line 211, and the pixel list of the infall in scan line 211 and data line 221 is set
Member, pixel unit includes active switch group and pixel electrode group, and pixel electrode group connects scan line 211 by active switch group
With data line 221.
Pixel electrode group includes first electrode area 231, the second electrode region 232 and third electrode zone 233, wherein
One electrode zone 231, which is provided with, to intersect and the hollow out elongated slot 2311 that is connected to is to form multiple first electrode subregions 2310,
Each first electrode subregion 2310, which has, to be arranged in parallel and relative to the inclined a plurality of short slot 2312 of hollow out elongated slot 2311, and
The differently- oriented directivity of the respective short slot of multiple first electrode subregions 2,310 2312 is different;And the second electrode region 232 is provided with phase
The entity stem portion MB mutually intersected is to form multiple second electrode subregions, and in the present embodiment, there are four second electrodes in total
Subregion is followed successively by ST1, ST2, ST3, ST4 as shown in fig. 1, each in four second electrode subregions all has
It is arranged in parallel and relative to the inclined a plurality of slits 2321 of entity stem portion MB, this four second electrodes of ST1, ST2, ST3, ST4
The differently- oriented directivity of the respective slit of subregion 2321 is different.
Specifically, first electrode area 231 is arranged and is interconnected two long including such as square crossing arranged in a crossed manner
Slot 2311 and a plurality of short slot 2312 with different orientation to be formed is extended laterally from two elongated slots 2311, in the electrode zone
Pixel electrode may be generally referred to as flakes electrode;
The second electrode region 232 include stem portion MB arranged in a crossed manner with formed four electrode zone ST1, ST2, ST3,
ST4, and the slit 23211321 of this four electrode zones be orientated it is different.Specifically, the second electrode region 232 for example including
The stem portion MB of such as right-angled intersection arranged in a crossed manner is to form four electrode zones i.e. ST1, ST2, ST3 and ST4, this four electrodes
The slit 2321 in region 4 be orientated it is different, such as respectively be in 45 degree be orientated, 135 degree orientations, 225 degree orientations and 315 degree take
To the pixel electrode in the electrode zone can generally become four domain electrodes;
The structure of third electrode zone 233 is similar to first electrode area 231, and therefore not to repeat here.
Hold above-mentioned, active switch group includes active switching element 241, and pixel electrode group includes pixel electrode, the present embodiment
Pixel electrode be typically transparent electrode such as ITO (Indium Tin Oxide, indium tin oxide) electrode.Wherein, actively
The source electrode s of switch element 241 is connect with data line 221, and the grid g of active switching element 241 is connect with scan line 211, actively
The drain electrode d of switch element 241 is connect with pixel electrode.
The sum of area of first electrode area 231 and third electrode zone 233 in the present embodiment is equal to second electrode area
The area in domain 232, in other words, the second electrode region 232 can be positioned close to scan line 211 and be located under pixel electrode
Side, first electrode area 231 are located at the top of pixel electrode close to another scan line 212, and third electrode zone 233 is positioned at the
Between one electrode zone 231 and the second electrode region 232.Can certainly be that the second electrode region 232 is close to scan line 212
Positioned at the top of pixel electrode, first electrode area 231 is located at the lower section of pixel electrode, third electrode district close to scan line 211
Domain 233 is between first electrode area 231 and the second electrode region 232.
As shown in figure 3, a kind of dot structure 30 provided in the utility model another embodiment, including:Scan line 311,
The data line 321 arranged in a crossed manner with scan line 311, and the pixel list of the infall in scan line 311 and data line 321 is set
Member, pixel unit includes active switch group and pixel electrode group, and pixel electrode group connects scan line 311 by active switch group
With data line 321.
Pixel electrode group includes first electrode area 331, the second electrode region 332 and third electrode zone 333, wherein
One electrode zone 331, which is provided with, to intersect and the hollow out elongated slot 3311 that is connected to is to form multiple first electrode subregions 3310,
Each first electrode subregion 3310, which has, to be arranged in parallel and relative to the inclined a plurality of short slot 3312 of hollow out elongated slot 3311, and
The differently- oriented directivity of the respective short slot of multiple first electrode subregions 3,310 3312 is different;And the second electrode region 332 is provided with phase
The entity stem portion MB mutually intersected is to form multiple second electrode subregions, and in the present embodiment, there are four second electrodes in total
Subregion is followed successively by ST1, ST2, ST3, ST4 as shown in fig. 1, each in four second electrode subregions all has
It is arranged in parallel and relative to the inclined a plurality of slits 3321 of entity stem portion MB, this four second electrodes of ST1, ST2, ST3, ST4
The differently- oriented directivity of the respective slit of subregion 3321 is different.
Specifically, first electrode area 331 is arranged and is interconnected two long including such as square crossing arranged in a crossed manner
Slot 3311 and a plurality of short slot 3312 with different orientation to be formed is extended laterally from two elongated slots 3311, in the electrode zone
Pixel electrode may be generally referred to as flakes electrode;
The second electrode region 332 include stem portion MB arranged in a crossed manner with formed four electrode zone ST1, ST2, ST3,
ST4, and the slit 3321 of this four electrode zones be orientated it is different.Specifically, the second electrode region 332 is for example including intersecting
The stem portion MB of such as right-angled intersection is set to form four electrode zones i.e. ST1, ST2, ST3 and ST4, ST1, this four electrodes
The slit 3321 in region be orientated it is different, such as respectively be in 45 degree be orientated, 135 degree be orientated, 225 degree orientations and 315 degree be orientated,
Pixel electrode in the electrode zone can generally become four domain electrodes;
The structure of third electrode zone 333 is similar to first electrode area 331, and therefore not to repeat here.
Hold above-mentioned, active switch group includes active switching element 341, and pixel electrode group includes pixel electrode, the present embodiment
Pixel electrode be typically transparent electrode such as ITO (Indium Tin Oxide, indium tin oxide) electrode.Wherein, actively
The source electrode s of switch element 341 is connect with data line 321, and the grid g of active switching element 341 is connect with scan line 311, actively
The drain electrode d of switch element 341 is connect with pixel electrode.
The area phase of first electrode area 331, the second electrode region 332 and third electrode zone 333 in the present embodiment
Deng in other words, three respectively accounts for the one third of pixel electrode area.The second electrode region 332 can be positioned close to scan
Line 311 is located at the lower section of pixel electrode, and first electrode area 331 is located at the top of pixel electrode close to another scan line 312,
Third electrode zone 333 is between first electrode area 331 and the second electrode region 332.Can certainly be, second electrode
Region 332 is located at the top of pixel electrode close to scan line 312, and first electrode area 331 is located at pixel electricity close to scan line 311
The lower section of pole, third electrode zone 333 is between first electrode area 331 and the second electrode region 332.
As shown in figure 4, a kind of dot structure 40 provided in another embodiment of the utility model, including:Scan line 411,
The data line 421 arranged in a crossed manner with scan line 411, and the pixel list of the infall in scan line 411 and data line 421 is set
Member, pixel unit includes active switch group and pixel electrode group, and pixel electrode group connects scan line 411 by active switch group
With data line 421.
Pixel electrode group includes first electrode area 431, the second electrode region 432 and third electrode zone 433, wherein
One electrode zone 431, which is provided with, to intersect and the hollow out elongated slot 4311 that is connected to is to form multiple first electrode subregions 4310,
Each first electrode subregion 4310, which has, to be arranged in parallel and relative to the inclined a plurality of short slot 4312 of hollow out elongated slot 4311, and
The differently- oriented directivity of the respective short slot of multiple first electrode subregions 4,310 4312 is different;And the second electrode region 432 is provided with phase
The entity stem portion MB mutually intersected is to form multiple second electrode subregions, and in the present embodiment, there are four second electrodes in total
Subregion is followed successively by ST1, ST2, ST3, ST4 as shown in fig. 1, each in four second electrode subregions all has
It is arranged in parallel and relative to the inclined a plurality of slits 4321 of entity stem portion MB, this four second electrodes of ST1, ST2, ST3, ST4
The differently- oriented directivity of the respective slit of subregion 4321 is different.
Specifically, first electrode area 431 is arranged and is interconnected two long including such as square crossing arranged in a crossed manner
Slot 4311 and a plurality of short slot 4312 with different orientation to be formed is extended laterally from two elongated slots 4311, in the electrode zone
Pixel electrode may be generally referred to as flakes electrode;
The second electrode region 432 include stem portion MB arranged in a crossed manner with formed four electrode zone ST1, ST2, ST3,
ST4, and the slit 4321 of this four electrode zones be orientated it is different.Specifically, the second electrode region 432 is for example including intersecting
The stem portion MB of such as right-angled intersection is set to form four electrode zones i.e. ST1, ST2, ST3 and ST4, this four electrode zones
Slit 4321 be orientated it is different, such as respectively be in 45 degree be orientated, 135 degree be orientated, 225 degree orientations and 315 degree be orientated, the electricity
Pixel electrode in polar region domain can generally become four domain electrodes;
The structure of third electrode zone 433 is similar to first electrode area 431, and therefore not to repeat here.
Hold above-mentioned, active switch group includes active switching element 441, and pixel electrode group includes pixel electrode, the present embodiment
Pixel electrode be typically transparent electrode such as ITO (Indium Tin Oxide, indium tin oxide) electrode.Wherein, actively
The source electrode s of switch element 441 is connect with data line 421, and the grid g of active switching element 441 is connect with scan line 411, actively
The drain electrode d of switch element 441 is connect with pixel electrode.
The area phase of first electrode area 431, the second electrode region 432 and third electrode zone 433 in the present embodiment
Deng in other words, three respectively accounts for the one third of pixel electrode area.Third electrode zone 433 can be positioned close to scan
Line 411 is located at the lower section of pixel electrode, and first electrode area 431 is located at the top of pixel electrode close to another scan line 412,
The second electrode region 432 is between first electrode area 431 and the second electrode region 432.It can certainly be third electrode
Region 433 is located at the top of pixel electrode close to scan line 412, and first electrode area 431 is located at pixel electricity close to scan line 411
The lower section of pole, the second electrode region 432 is between first electrode area 431 and the second electrode region 432.
As shown in figure 5, a kind of dot structure 50 provided in the utility model another embodiment, including:Scan line
511, with the data line 521 arranged in a crossed manner of scan line 511, and the picture of the infall in scan line 511 and data line 521 is set
Plain unit, pixel unit includes active switch group and pixel electrode group, and pixel electrode group is connected by active switch group and scanned
Line 511 and data line 521.
Pixel electrode group includes first electrode area 531, the second electrode region 532 and third electrode zone 533, wherein
One electrode zone 531, which is provided with, to intersect and the hollow out elongated slot 5311 that is connected to is to form multiple first electrode subregions 5310,
Each first electrode subregion 5310, which has, to be arranged in parallel and relative to the inclined a plurality of short slot 5312 of hollow out elongated slot 5311, and
The differently- oriented directivity of the respective short slot of multiple first electrode subregions 5,310 5312 is different;And the second electrode region 532 is provided with phase
The entity stem portion MB mutually intersected is to form multiple second electrode subregions, and in the present embodiment, there are four second electrodes in total
Subregion is followed successively by ST1, ST2, ST3, ST4 as shown in fig. 1, each in four second electrode subregions all has
It is arranged in parallel and relative to the inclined a plurality of slits 5321 of entity stem portion MB, this four second electrodes of ST1, ST2, ST3, ST4
The differently- oriented directivity of the respective slit of subregion 5321 is different.
Specifically, first electrode area 531 is arranged and is interconnected two long including such as square crossing arranged in a crossed manner
Slot 5311 and a plurality of short slot 5312 with different orientation to be formed is extended laterally from two elongated slots 5311, in the electrode zone
Pixel electrode may be generally referred to as flakes electrode;
The second electrode region 532 include stem portion MB arranged in a crossed manner with formed four electrode zone ST1, ST2, ST3,
ST4, and the slit 5321 of this four electrode zones be orientated it is different.Specifically, the second pixel electrode 132 is for example including intersecting
The stem portion MB of such as right-angled intersection is set to form four electrode zones i.e. ST1, ST2, ST3 and ST4, this four electrode zones
Slit 5321 be orientated it is different, such as respectively be in 45 degree be orientated, 135 degree be orientated, 225 degree orientations and 315 degree be orientated, the electricity
Pixel electrode in polar region domain can generally become four domain electrodes;
The structure of third electrode zone 533 is similar to the second electrode region 532, and therefore not to repeat here.
Hold above-mentioned, active switch group includes active switching element 541, and pixel electrode group includes pixel electrode, the present embodiment
Pixel electrode be typically transparent electrode such as ITO (Indium Tin Oxide, indium tin oxide) electrode.Wherein, actively
The source electrode s of switch element 541 is connect with data line 521, and the grid g of active switching element 541 is connect with scan line 511, actively
The drain electrode d of switch element 541 is connect with pixel electrode.
The area phase of first electrode area 531, the second electrode region 532 and third electrode zone 533 in the present embodiment
Deng in other words, three respectively accounts for the one third of pixel electrode area.The second electrode region 532 can be positioned close to scan
Line 511 is located at the lower section of pixel electrode, and third electrode zone 533 is located at the top of pixel electrode close to another scan line 512,
First electrode area 531 is between the second electrode region 532 and third electrode zone 533.Can certainly be, second electrode
Region 532 is located at the top of pixel electrode close to scan line 512, and third electrode zone 533 is located at pixel electricity close to scan line 511
The lower section of pole, first electrode area 531 is between the second electrode region 532 and third electrode zone 533.
As shown in fig. 6, a kind of dot structure 60 that the utility model yet another embodiment provides, including:Scan line 611,
The data line 621 arranged in a crossed manner with scan line 611, and the pixel list of the infall in scan line 611 and data line 621 is set
Member, pixel unit includes active switch group and pixel electrode group, and pixel electrode group connects scan line 611 by active switch group
With data line 621.
Pixel electrode group includes first electrode area 631 and the second electrode region 632, and wherein first electrode area 631 is set
It is equipped with and intersects and the hollow out elongated slot 6311 that is connected to is to form multiple first electrode subregions 6310, each first electrode
Region 6310, which has, to be arranged in parallel and relative to the inclined a plurality of short slot 6312 of hollow out elongated slot 6311, and multiple first electrode sub-districts
The differently- oriented directivity of the respective short slot in domain 6,310 6312 is different;And the second electrode region 632 is provided with cross one another entity trunk
Portion MB is to form multiple second electrode subregions, and in the present embodiment, there are four second electrode subregions in total, such as institute in Fig. 1
Show, be followed successively by ST1, ST2, ST3, ST4, each in four second electrode subregions all have be arranged in parallel and relative to
The inclined a plurality of slits 6321 of entity stem portion MB, this four respective slits of second electrode subregion of ST1, ST2, ST3, ST4
6321 differently- oriented directivity is different.
First electrode area 631 includes two 6311 Hes of elongated slot that such as square crossing arranged in a crossed manner is arranged and is interconnected
The a plurality of short slot 6312 with different orientation to be formed is extended laterally from two elongated slots 6311, the pixel electricity in the electrode zone
Pole may be generally referred to as flakes electrode.
The second electrode region 632 include stem portion MB arranged in a crossed manner with formed four electrode zone ST1, ST2, ST3,
ST4, and the slit 6321 of this four electrode zones be orientated it is different.Specifically, the second pixel electrode 132 is for example including intersecting
The stem portion MB of such as right-angled intersection is set to form four electrode zones i.e. ST1, ST2, ST3 and ST4, this four electrode zones
Slit 6321 be orientated it is different, such as respectively be in 45 degree be orientated, 135 degree be orientated, 225 degree orientations and 315 degree be orientated, the electricity
Pixel electrode in polar region domain can generally become four domain electrodes.
Hold it is above-mentioned, active switch group include the first active switching element 641 and the second active switching element 642, pixel electricity
Pole group includes spaced first pixel electrode and the second pixel electrode, and the first pixel electrode passes through the first active switching element
641 connection scan lines 611 and data line 621, the second pixel electrode connect scan line 611 by the second active switching element 642
With data line 621;First electrode area 631 is used as the first pixel electrode, and the second electrode region 632 is as the second pixel electricity
Pole.First pixel electrode, the second pixel electrode of the present embodiment are typically transparent electrode such as ITO (Indium Tin
Oxide, indium tin oxide) electrode.Wherein, the source electrode s1 of the first active switching element 641 is connect with data line 621, the first master
The grid g1 of dynamic switch element 641 is connect with scan line 611, the drain electrode d1 of the first active switching element 641 and the first pixel electricity
Pole connects;The source electrode s2 of second active switching element 642 is connect with data line 621, the grid g2 of the second active switching element 642
It is connect with scan line 611, the drain electrode d2 of the second active switching element 642 is connect with the second pixel electrode.
The area of first electrode area 631 is 2 with the area ratio of the second electrode region 632:3 or 3:2.Specifically, such as
Shown in Fig. 6, first electrode area 631 is located at top and its shared face of pixel electrode group close to another scan line 612
Product ratio is two parts, and the second electrode region 632 is located at lower section and its occupied area ratio of pixel electrode group close to scan line 611
Example is three parts;The position of certain first electrode area 631 and the second electrode region 632 can also be to exchange mutually, i.e., and first
It is two parts that electrode zone 631 is located at the lower section of pixel electrode and its occupied area ratio close to scan line 611, the second electrode region
632 top and its occupied area ratio for being located at pixel electrode close to scan line 612 are three parts.
In addition, the present embodiment can also be, such as first electrode area 631 is located at pixel close to another scan line 612
The top of electrode group and its occupied area ratio are three parts, and the second electrode region 632 is located at pixel electrode close to scan line 611
The lower section organized and its occupied area ratio are two parts;The position of certain first electrode area 631 and the second electrode region 632 also may be used
To exchange mutually, i.e., first electrode area 631 is located at lower section and its occupied area ratio of pixel electrode close to scan line 611
Example is three parts, and it is two that the second electrode region 632 is located at the top of pixel electrode and its occupied area ratio close to scan line 612
Part.
In several embodiments provided herein, it should be understood that disclosed system, device and method can be with
It realizes by another way.For example, the apparatus embodiments described above are merely exemplary, for example, the unit
It divides, only a kind of division of logic function, formula that in actual implementation, there may be another division manner, such as multichannel unit or component
It can be combined or can be integrated into another system, or some features can be ignored or not executed.Another point, it is shown or
The mutual coupling, direct-coupling or communication connection discussed can be the indirect coupling by some interfaces, device or unit
It closes or communicates to connect, can be electrical, machinery or other forms.
The unit illustrated as separating component may or may not be physically separated, aobvious as unit
The component shown may or may not be physical unit, you can be located at a place, or may be distributed over multichannel
In network element.Some or all of unit therein can be selected according to the actual needs to realize the mesh of this embodiment scheme
's.
Finally it should be noted that:Above example is only to illustrate the technical solution of the utility model, rather than its limitations;
Although the utility model is described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that:
It still can be with technical scheme described in the above embodiments is modified, or is carried out to which part technical characteristic etc.
With replacement;And these modifications or replacements, various embodiments of the utility model technology that it does not separate the essence of the corresponding technical solution
The spirit and scope of scheme.
Claims (12)
1. a kind of dot structure, which is characterized in that including:
Scan line;
Data line, it is arranged in a crossed manner with the scan line;And
Pixel unit is arranged in the infall of the scan line and the data line and includes active switch group and pixel electrode
Group, the pixel electrode group connect the scan line and the data line by the active switch group;
Wherein, the pixel electrode group includes:
First electrode area is provided with and intersects and the hollow out elongated slot that is connected to is to form multiple first electrode subregions, each
A first electrode subregion, which has, to be arranged in parallel and relative to the inclined a plurality of short slot of the hollow out elongated slot, and the multiple
The differently- oriented directivity of the respective short slot of first electrode subregion is different;And
The second electrode region, is provided with cross one another entity stem portion to form multiple second electrode subregions, each institute
It states second electrode subregion and has and be arranged in parallel and relative to the inclined a plurality of slit of the entity stem portion, the multiple second
The differently- oriented directivity of the respective slit in electrode subzone is different.
2. dot structure according to claim 1, which is characterized in that the active switch group includes active switching element,
The pixel electrode group includes pixel electrode, and the pixel electrode by the active switching element connect the scan line and
The data line;The first electrode area and the second electrode region are respectively the area phase of the same pixel electrode
Deng two parts.
3. dot structure according to claim 1, which is characterized in that the active switch group includes active switching element,
The pixel electrode group includes pixel electrode, and the pixel electrode by the active switching element connect the scan line and
The data line;
The pixel electrode group further includes:
Third electrode zone is provided with and intersects and the second hollow out elongated slot for being connected to is to form multiple third electrode subzones,
Each described third electrode subzone, which has, to be arranged in parallel and short relative to the second hollow out elongated slot inclined a plurality of second
Slot, and the differently- oriented directivity of the respective second short slot in the multiple third electrode subzone is different;
Wherein, the first electrode area, the second electrode region and the third electrode zone are respectively same described
The different piece of pixel electrode.
4. dot structure according to claim 3, which is characterized in that the first electrode area and the third electrode district
The sum of the area in domain is equal to the area of the second electrode region.
5. dot structure according to claim 4, which is characterized in that the third electrode zone is located at the first electrode
Between region and the second electrode region.
6. dot structure according to claim 3, which is characterized in that the third electrode zone is located at the first electrode
Between region and the second electrode region, and the first electrode area, the second electrode region and the third electrode
The area equation in region.
7. dot structure according to claim 3, which is characterized in that the second electrode region is located at the first electrode
Between region and the third electrode zone, and the first electrode area, the second electrode region and the third electrode
The area equation in region.
8. dot structure according to claim 1, which is characterized in that the active switch group includes active switching element,
The pixel electrode group includes pixel electrode, and the pixel electrode by the active switching element connect the scan line and
The data line;
The pixel electrode group further includes:
Third electrode zone, is provided with cross one another second instance stem portion to form multiple third electrode subzones, each
A third electrode subzone, which has, to be arranged in parallel and relative to inclined a plurality of second slit of the second instance stem portion,
The differently- oriented directivity of the multiple respective second slit in third electrode subzone is different;
Wherein, the first electrode area, the second electrode region and the third electrode zone are respectively same described
The different piece of pixel electrode.
9. dot structure according to claim 8, which is characterized in that the first electrode area is located at the second electrode
Between region and the third electrode zone, and the first electrode area, the second electrode region and the third electrode
The area equation in region.
10. dot structure according to claim 1, which is characterized in that the active switch group includes the first active switch
Element and the second active switching element, the pixel electrode group include spaced first pixel electrode and the second pixel electricity
Pole, first pixel electrode connect the scan line and the data line by first active switching element, and described the
Two pixel electrodes connect the scan line and the data line by second active switching element;The first electrode area
As first pixel electrode, and the second electrode region is as second pixel electrode.
11. dot structure according to claim 10, which is characterized in that the area of the first electrode area and described
The area of two electrode zones is different.
12. dot structure according to claim 11, which is characterized in that the area of the first electrode area and described the
The area ratio of two electrode zones is 2:3 or 3:2.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107908051A (en) * | 2017-12-21 | 2018-04-13 | 惠科股份有限公司 | Dot structure |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107908051A (en) * | 2017-12-21 | 2018-04-13 | 惠科股份有限公司 | Dot structure |
WO2019119887A1 (en) * | 2017-12-21 | 2019-06-27 | 惠科股份有限公司 | Pixel structure and liquid crystal display panel |
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