CN104199205B - A kind of display device - Google Patents

A kind of display device Download PDF

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Publication number
CN104199205B
CN104199205B CN201410428831.9A CN201410428831A CN104199205B CN 104199205 B CN104199205 B CN 104199205B CN 201410428831 A CN201410428831 A CN 201410428831A CN 104199205 B CN104199205 B CN 104199205B
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China
Prior art keywords
substrate
pixel cell
display
region
drive circuit
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CN201410428831.9A
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Chinese (zh)
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CN104199205A (en
Inventor
吴昊
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京东方科技集团股份有限公司
北京京东方光电科技有限公司
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Priority to CN201410428831.9A priority Critical patent/CN104199205B/en
Publication of CN104199205A publication Critical patent/CN104199205A/en
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Publication of CN104199205B publication Critical patent/CN104199205B/en

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Abstract

The invention discloses a kind of display device, in order to realize reducing the purpose of display device frame.Described display device, including the first substrate being oppositely arranged and second substrate, liquid crystal molecule between first substrate and second substrate, the second grid drive circuit that arranges first grid drive circuit on the first substrate, be arranged on second substrate, first substrate includes the first pixel cell that array is arranged, and the thin film transistor (TFT) in every a line the first pixel cell is connected with first grid drive circuit by a gate line;Second substrate includes the second pixel cell that array is arranged, and the thin film transistor (TFT) in every a line the second pixel cell is connected with second grid drive circuit by a gate line;Wherein, there is overlapping region with the setting area of first grid drive circuit in part the second pixel cell view field on the first substrate;Overlapping region is there is in part the first pixel cell view field on second substrate with the setting area of second grid drive circuit.

Description

A kind of display device

Technical field

The present invention relates to display technology field, particularly relate to a kind of display device.

Background technology

The liquid crystal display (Liquid Crystal Display, LCD) of traditional use non-crystalline silicon (A-Si) technique As it is shown in figure 1, this LCD includes array base palte 10 and color membrane substrates 11, the array base palte being oppositely arranged Sealed plastic box 16 it is provided with between 10 and color membrane substrates 11.Array base palte row cutting (Gate Driver On Array, GOA) technology is will to be integrated on array base palte as the thin film transistor (TFT) of gate switch circuit, thus saves Grid-driving integrated circuit part.GOA 18 of the prior art is respectively arranged at the two of array base palte 10 Side, 15 expressions are arranged at the pixel cell of array arrangement on array base palte 10, are positioned at battle array in pixel cell 15 Thin film transistor (TFT) in the pixel cell of row substrate 10 left field passes through a gate line and is arranged at array GOA 18 on the left of substrate 10 connects, and is positioned at the picture of array base palte 10 right side area in pixel cell 15 Thin film transistor (TFT) in element unit is by a gate line and the GOA 18 being arranged on the right side of array base palte 10 Connect, it is achieved the bilateral driving to LCD.Array base palte 10 includes protective layer 17 and oriented layer 12, Color membrane substrates 11 includes black matrix 13, color film layer 14 and oriented layer 12.

Liquid crystal display in Fig. 1, when display, is only positioned at the liquid crystal of pixel cell 15 area just above Molecule 192 rotates under electric field action, it is achieved display, is positioned at the GOA 18 on the left of array base palte 10 The liquid crystal molecule 191 of upper area and the liquid crystal of GOA 18 upper area being positioned on the right side of array base palte 10 Molecule 193 is not owing to having the effect of electric field, and therefore the arrangement of liquid crystal molecule 191 and liquid crystal molecule 193 is miscellaneous Disorderly without chapter, it is impossible to realize showing normally, therefore liquid crystal molecule 191 and the district corresponding to liquid crystal molecule 193 Territory is non-display area, and the frame region of liquid crystal display is as it is shown in figure 1, this frame region is wider.

In sum, prior art uses the LCD product of A-Si technique when design due on array base palte The restriction in the space occupied by gate driver circuit, it is more difficult to realize the design of narrow frame.And along with mobile phone etc. The development of electronic product, the display screen of narrow frame has increasingly becomed the inexorable trend of development, has therefore passed The A-Si LCD product of system is limited by very large in the development of frame.

Summary of the invention

Embodiments provide a kind of display device, in order to realize reducing the purpose of display device frame.

A kind of display device that the embodiment of the present invention provides, including: the first substrate being oppositely arranged and the second base Plate, liquid crystal molecule and sealed plastic box between described first substrate and described second substrate, be arranged on described First grid drive circuit on first substrate, the second grid being arranged on described second substrate drive electricity Road,

Described first substrate includes the first pixel cell that some arrays are arranged, in every a line the first pixel cell Thin film transistor (TFT) be connected with described first grid drive circuit by a gate line;

Described second substrate includes the second pixel cell that some arrays are arranged, in every a line the second pixel cell Thin film transistor (TFT) be connected with described second grid drive circuit by a gate line;Wherein,

Part described second pixel cell view field on described first substrate drives with described first grid There is overlapping region, and the throwing that described second pixel cell is on described first substrate in the setting area on galvanic electricity road Territory, shadow zone is the most overlapping with the region of described first pixel cell;

Part described first pixel cell view field on described second substrate drives with described second grid There is overlapping region, and the throwing that described first pixel cell is on described second substrate in the setting area on galvanic electricity road Territory, shadow zone is the most overlapping with the region of described second pixel cell.

The display device provided by the embodiment of the present invention, owing to the first grid drive circuit in display device sets Putting on the first substrate, second grid drive circuit is arranged on second substrate, and each on first substrate Thin film transistor (TFT) in row the first pixel cell is connected with first grid drive circuit by a gate line, the The thin film transistor (TFT) in every a line the second pixel cell on two substrates passes through a gate line and second grid Drive circuit connects, due to part described second pixel cell view field on described first substrate and institute There is overlapping region in the setting area stating first grid drive circuit;Described first pixel cell of part is described Overlapping region is there is in the view field on second substrate with the setting area of described second grid drive circuit, because of This can enable prior art the originally disorderly and unsystematic arrangement of display device marginal area liquid crystal molecule just Often display, it is possible to achieve the purpose that display device frame narrows.

It is preferred that the view field that described first pixel cell is on described second substrate and described second pixel The region of unit is symmetrical arranged with the center of display device for minute surface.

So, first pixel cell view field on described second substrate and described second pixel cell Region with the center of display device for minute surface be symmetrical arranged time, convenient in actual manufacture process, simple, It is capable of showing normally simultaneously.

It is preferred that the view field that described first pixel cell is on described second substrate and described second pixel The region of unit is symmetrical arranged with the center of display device for minute surface is upper and lower, or, described first pixel cell The region of the view field on described second substrate and described second pixel cell is with the center of display device It is symmetrical arranged for minute surface is left and right.

So, convenient in actual manufacture process, simple.

It is preferred that set between the view field that adjacent two described first pixel cells are on described second substrate Put described second pixel cell;The throwing on described first substrate of adjacent two described second pixel cells One described first pixel cell is set between territory, shadow zone.

So, the first pixel cell and the second pixel cell are set to the distribution of checkerboard type, the most in fact Show the most normally.

It is preferred that the view field that described each first pixel cell is on described second substrate and adjacent institute The region stating the second pixel cell is that minute surface is symmetrical arranged;Described each second pixel cell is at described first base View field on plate is that minute surface is symmetrical arranged with the region of adjacent described first pixel cell.

So, each first pixel cell view field on described second substrate and adjacent described second The region of pixel cell is that minute surface is symmetrical arranged, the projection on described first substrate of each second pixel cell Region and the region of adjacent described first pixel cell are minute surface when being symmetrical arranged, and are capable of normal equally Display.

It is preferred that the view field that described first pixel cell is on described second substrate be provided with black matrix and Color film layer, described second pixel cell view field on described first substrate is provided with black matrix and color film Layer.

So, first pixel cell view field on second substrate is provided with black matrix and color film layer, the Two pixel cells view field on the first substrate is provided with black matrix and color film layer, it is possible to realize display dress The normal display put.

It is preferred that the setting area of described first grid drive circuit is positioned at the left side district of described first substrate Territory, the setting area of described second grid drive circuit is positioned at the right side area of described second substrate;Or, institute The setting area stating first grid drive circuit is positioned at the right side area of described first substrate, described second grid The setting area of drive circuit is positioned at the left field of described second substrate.

So, the setting area of first grid drive circuit is positioned at the left field of first substrate, second gate The setting area of pole drive circuit is positioned at the right side area of second substrate;Or, setting of first grid drive circuit Putting region and be positioned at the right side area of first substrate, the setting area of second grid drive circuit is positioned at second substrate Left field, convenient in actual design, simple.

It is preferred that described first substrate and the first flexible circuit connect, described second substrate and the second flexible electrical Road connects, and described first flexible circuit is positioned on described first substrate, and described second flexible circuit is positioned at described On second substrate.

So, first substrate and the first flexible circuit connect, and second substrate and the second flexible circuit connect, the One substrate drives the first grid drive circuit on first substrate by the first flexible circuit, and second substrate passes through Second flexible circuit drives the second grid drive circuit on second substrate, it is possible to realize the first flexible circuit and Second flexible circuit respectively drives the half of pixel of the gate driver circuit connection close to oneself, reduces raster data model The driving load of circuit.

It is preferred that described display device is fringing field rotation in surface display, or in-plane crossover display terminal, Or senior super dimension field crossover display terminal.

So, when display device is fringing field rotation in surface display, or in-plane crossover display terminal, or During senior super dimension field crossover display terminal, the electric field of generation is the electric field of horizontal direction, it is possible to preferably control liquid The rotation of brilliant molecule.

Accompanying drawing explanation

Fig. 1 is the structural representation of prior art display device;

The structural representation of a kind of display device that Fig. 2 provides for the embodiment of the present invention;

The structural representation of the bezel locations of a kind of display device that Fig. 3 provides for the embodiment of the present invention one;

The structural representation of the bezel locations of a kind of display device that Fig. 4 provides for the embodiment of the present invention two;

Knot when Fig. 5 (a) and Fig. 5 (b) separately drives for the display device that the embodiment of the present invention one provides Structure schematic diagram.

Detailed description of the invention

Embodiments provide a kind of display device, in order to realize reducing the purpose of display device frame.

Display device that the specific embodiment of the invention provide is discussed in detail below in conjunction with the accompanying drawings.

The GOA unit obtained by GOA fabrication techniques is referred to as gate driver circuit by the present invention.

As in figure 2 it is shown, the specific embodiment of the invention provides a kind of display device, including: it is oppositely arranged First substrate 20 and second substrate 21, liquid crystal molecule between first substrate 20 and second substrate 21 22 and sealed plastic box 27, the first grid drive circuit 23 being arranged on first substrate 20, be arranged on the second base Second grid drive circuit 24 on plate 21,

First substrate 20 includes the first pixel cell 25 that some arrays are arranged, every a line the first pixel cell Thin film transistor (TFT) in 25 is connected with first grid drive circuit 23 by a gate line;

Second substrate 21 includes the second pixel cell 26 that some arrays are arranged, every a line the second pixel cell Thin film transistor (TFT) in 26 is connected with second grid drive circuit 24 by a gate line;Wherein,

Part the second pixel cell 26 view field 260 on first substrate 20 drives electricity with first grid There is overlapping region A, and the throwing that the second pixel cell 26 is on first substrate 20 in the setting area on road 23 Territory, shadow zone 260 is the most overlapping with the region of the first pixel cell 25;

Part the first pixel cell 25 view field 250 on second substrate 21 drives electricity with second grid There is overlapping region B, and the throwing that the first pixel cell 25 is on second substrate 21 in the setting area on road 24 Territory, shadow zone 250 is the most overlapping with the region of the second pixel cell 26.

Below in conjunction with specific embodiment, the present invention is described in detail.It should be noted that the present embodiment In be to preferably explain the present invention, but be not intended to the present invention.

Embodiment one:

As it is shown on figure 3, the display device that the specific embodiment of the invention provides includes: the first base being oppositely arranged Plate 20 and second substrate 21, liquid crystal molecule 22 between first substrate 20 and second substrate 21 and envelope Frame glue 27, the first grid drive circuit 23 being arranged on first substrate 20, it is arranged on second substrate 21 On second grid drive circuit 24, first substrate 20 includes the first pixel cell 25 that some arrays are arranged, Figure shows two the first pixel cells 251 and 252, the film crystal in every a line the first pixel cell Pipe is connected with first grid drive circuit 23, such as by a gate line: the first pixel cell 251 in figure In the grid of thin film transistor (TFT) and the grid of thin film transistor (TFT) in the first pixel cell 252 be connected to same Bar gate line, is connected with first grid drive circuit 23 by this gate line, first grid drive circuit 23 Control the thin film transistor (TFT) in the first pixel cell 251 and the thin film transistor (TFT) in the first pixel cell 252 Open and close.

Second substrate 21 includes the second pixel cell 26 that some arrays are arranged, and shows two second in figure Pixel cell 261 and 262, the thin film transistor (TFT) in every a line the second pixel cell by gate line with Second grid drive circuit 24 connects, such as: the grid of the thin film transistor (TFT) in the second pixel cell 261 in figure Pole is connected to same gate line, by these grid with the grid of the thin film transistor (TFT) in the second pixel cell 262 Polar curve is connected with second grid drive circuit 24, and second grid drive circuit 24 controls the second pixel cell 261 In thin film transistor (TFT) and the opening and closing of thin film transistor (TFT) in the second pixel cell 262.

The first pixel cell 25 in the specific embodiment of the invention includes the first film transistor and the first pixel Electrode, the second pixel cell 26 includes the second thin film transistor (TFT) and the second pixel electrode.First pixel cell The concrete technology of the concrete structure of 25 and this pixel cell of making and prior art use A-Si technique to make picture The method of element unit is identical, in the same manner, and the concrete structure of the second pixel cell 26 and this pixel cell of making Concrete technology and prior art to use A-Si technique to make the method for pixel cell identical, existing A-si work Skill comparative maturity, usually uses 4 times or 5 mask plate layerings form required figure, does not repeats them here.

As it is shown on figure 3, the first pixel cell 251 in the specific embodiment of the invention is on second substrate 21 View field 31 the most overlapping with the region of the second pixel cell 261 and 262, the first pixel cell 252 View field 32 on second substrate 21 is the most overlapping with the region of the second pixel cell 261 and 262.? In actual production process, in order to make display device normally show, the first pixel cell 251 is at the second base View field 31 on plate 21 is provided with black matrix and color film layer, and the first pixel cell 252 is at second substrate View field 32 on 21 is provided with black matrix and color film layer.Second pixel cell 261 is at first substrate 20 On view field 33 the most overlapping with the region of the first pixel cell 251 and 252, the second pixel cell 262 View field 34 on first substrate 20 is the most overlapping with the region of the first pixel cell 251 and 252.? In actual production process, in order to make display device normally show, the second pixel cell 261 is at the first base View field 33 on plate 20 is provided with black matrix and color film layer, and the second pixel cell 262 is at first substrate View field 34 on 20 is provided with black matrix and color film layer.

Preferably, by the projection on second substrate 21 of first pixel cell 25 in the specific embodiment of the invention The region of region and the second pixel cell 26 is symmetrical arranged with the center of display device for minute surface.It is embodied as Time, can be by first pixel cell 25 view field on second substrate 21 and the second pixel cell 26 Region be symmetrical arranged with the center of display device for minute surface is upper and lower, it is also possible to by the first pixel cell 25 The region of the view field on second substrate 21 and the second pixel cell 26 is with the center of display device as mirror Face is left and right to be symmetrical arranged.

Specifically, as it is shown on figure 3, in actual production process, by the first pixel cell 251 at the second base View field's the 31, first pixel cell 252 on plate 21 view field 32 on second substrate 21, With the center of display device for the upper and lower symmetry of minute surface or left with the region of the second pixel cell 261 and 262, The right side is symmetrical arranged.That is: all first pixel cells 25 view field on second substrate 21 is positioned at display The side of the central area of device, the region of all second pixel cells 26 is positioned at the center of display device The opposite side in territory.By second pixel cell 261 view field's the 33, second pixel on first substrate 20 The unit 262 view field 34 on first substrate 20, with the region of the first pixel cell 251 and 252 With the center of display device for the upper and lower symmetry of minute surface, or left and right it is symmetrical arranged.That is: all second pixel The unit 26 view field on first substrate 20 is positioned at the side of the central area of display device, and all The region of one pixel cell 25 is positioned at the opposite side of the central area of display device.

Embodiment two:

As shown in Figure 4, the display device that the specific embodiment of the invention provides includes: the first base being oppositely arranged Plate 20 and second substrate 21, liquid crystal molecule 22 between first substrate 20 and second substrate 21 and envelope Frame glue 27, the first grid drive circuit 23 being arranged on first substrate 20, it is arranged on second substrate 21 On second grid drive circuit 24, first substrate 20 includes the first pixel cell 25 that some arrays are arranged, Figure shows two the first pixel cells 251 and 252, the film crystal in every a line the first pixel cell Pipe is connected with first grid drive circuit 23 by a gate line;Second substrate 21 includes that some arrays set The second pixel cell 26 put, shows two the second pixel cells 261 and 262, every a line second in figure Thin film transistor (TFT) in pixel cell is connected with second grid drive circuit 24 by a gate line.

As shown in Figure 4, the first pixel cell 251 in the specific embodiment of the invention is on second substrate 21 View field 31 the most overlapping with the region of the second pixel cell 261 and 262, the first pixel cell 252 View field 32 on second substrate 21 is the most overlapping with the region of the second pixel cell 261 and 262.? In actual production process, in order to make display device normally show, the first pixel cell 251 is at the second base View field 31 on plate 21 is provided with black matrix and color film layer, and the first pixel cell 252 is at second substrate View field 32 on 21 is provided with black matrix and color film layer.Second pixel cell 261 is at first substrate 20 On view field 33 the most overlapping with the region of the first pixel cell 251 and 252, the second pixel cell 262 View field 34 on first substrate 20 is the most overlapping with the region of the first pixel cell 251 and 252.? In actual production process, in order to make display device normally show, the second pixel cell 261 is at the first base View field 33 on plate 20 is provided with black matrix and color film layer, and the second pixel cell 262 is at first substrate View field 34 on 20 is provided with black matrix and color film layer.

Preferably, in the specific embodiment of the invention adjacent two the first pixel cells 251 and 252 at the second base One the second pixel cell 262 is set between the view field 31 and 32 on plate 21;Adjacent two the second pictures Between the element unit 261 and 262 view field 33 and 34 on first substrate 20, first picture is set Element unit 251.In the specific implementation, can be by each first pixel cell 25 on second substrate 21 It is symmetrical that view field is set to minute surface with the region of the second adjacent pixel cell 26;By each second pixel The unit 26 view field on first substrate 20 is set to the region of the first adjacent pixel cell 25 Minute surface is symmetrical.

Specifically, as shown in Figure 4, in actual production process, by the first pixel cell 251 at the second base View field 31 on plate 21 is symmetrical arranged with the region minute surface of the second adjacent pixel cell 261, by One pixel cell 252 view field 32 on second substrate 21 and the second adjacent pixel cell 262 Region minute surface is symmetrical arranged.By second pixel cell 261 view field 33 on first substrate 20 and phase The region minute surface of the first adjacent pixel cell 251 is symmetrical arranged, by the second pixel cell 262 at first substrate View field 34 on 20 is symmetrical arranged with the region minute surface of the first adjacent pixel cell 252.

As shown in Figure 3 and Figure 4, the setting of the first grid drive circuit 23 in the specific embodiment of the invention Region is positioned at the left field of first substrate 20, and the setting area of second grid drive circuit 24 is positioned at second The right side area of substrate 21;It is of course also possible to make the setting area of first grid drive circuit 23 be positioned at The right side area of one substrate 20, the setting area of second grid drive circuit 24 is positioned at second substrate 21 Left field, it is not made concrete restriction by the specific embodiment of the invention.But, the present invention is embodied as If the setting area of first grid drive circuit 23 is positioned at the left field of first substrate 20 in example, second The setting area of gate driver circuit 24 must be positioned at the right side area of second substrate 21, it is impossible to is positioned at second The left field of substrate 21, simultaneously need to part the second pixel cell 26 met in Fig. 2 is at first substrate Overlapping region A, portion is there is in the view field 260 on 20 with the setting area of first grid drive circuit 23 Divide first pixel cell 25 view field 250 on second substrate 21 and second grid drive circuit 24 Setting area there is overlapping region B.

The display device that the specific embodiment of the invention provides is with fringing field rotation in surface (Fringe Field Switching, FFS) display of pattern, or in-plane conversion (In-Plane-Switching, IPS) The display of pattern, or senior super Wei Chang conversion (Advanced Super Dimension Switch, ADS) Illustrate as a example by the display of pattern.Therefore, the display device in the specific embodiment of the invention is when display The electric field that electric field is horizontal direction produced.

Below in conjunction with Fig. 1, Fig. 3 and Fig. 4, illustrate that display device that the specific embodiment of the invention provides is with existing The display device in technology is had to compare, it is possible to realize the purpose that LCD frame narrows.

First substrate 20 in the display device that the specific embodiment of the invention provides is equivalent to of the prior art Array base palte 10, second substrate 21 is equivalent to color membrane substrates 11 of the prior art.In Fig. 3, Fig. 4 13 represent black matrix, and 30 represent alignment films.Compared with prior art, the specific embodiment of the invention is first The second pixel cell 261 it is provided with, due to the present invention on second substrate 21 above gate driver circuit 23 The electric field that electric field is horizontal direction that display device in specific embodiment produces when display, therefore in display Time, the liquid crystal molecule 191 of disorderly and unsystematic arrangement in prior art is at the electric field action of the second pixel cell 261 Under can be orientated, and rotate according to the size of horizontal component of electric field, owing under horizontal component of electric field, liquid crystal divides The most in the horizontal direction, the level that therefore first substrate 20 and second substrate 21 are formed is electric in the rotation of son The electric field that field is formed in the horizontal direction is identical, and the second pixel cell 26 on second substrate 21 is formed Electric field and first substrate 20 on first pixel cell 25 formed electric field convergent, now liquid crystal molecule 191 can realize normal display, and the region of liquid crystal molecule 191 correspondence is viewing area, the therefore frame of LCD Being displaced outwardly, as shown in Figure 3, Figure 4, relative to prior art, it is aobvious that the specific embodiment of the invention provides The LCD frame in the left side of showing device narrows.

Similarly, compared with prior art, the specific embodiment of the invention is second grid drive circuit 24 times It is provided with the first pixel cell 252, due to the display in the specific embodiment of the invention on the first substrate 20 of side The electric field that electric field is horizontal direction that device produces when display, therefore when display, mixed and disorderly in prior art Liquid crystal molecule 193 without chapter arrangement can be orientated under the electric field action of the first pixel cell 252, and Size according to horizontal component of electric field rotates, owing under horizontal component of electric field, the rotation of liquid crystal molecule is mainly at water Square upwards, the horizontal component of electric field that therefore first substrate 20 and second substrate 21 are formed is formed in the horizontal direction Electric field is identical, the electric field of the second pixel cell 26 formation on second substrate 21 and first substrate 20 On the electric field that formed of the first pixel cell 25 convergent, now liquid crystal molecule 193 can realize showing normally Showing, the region of liquid crystal molecule 193 correspondence is viewing area, and therefore the frame of LCD is displaced outwardly, as Fig. 3, Shown in Fig. 4, relative to prior art, the LCD on the right side of the display device that the specific embodiment of the invention provides Frame narrows.

Below as a example by the specific embodiment of the invention one, simply introduce the display that the specific embodiment of the invention provides The situation that device is connected with flexible circuit when separately driving, as shown in Fig. 5 (a) and 5 (b), the present invention The arranged on the first pixel cell 25 arranged on specific embodiment first substrate 20 and second substrate 21 Two pixel cells 26 are symmetrical, and first substrate 20 is connected with the first flexible circuit 42, second substrate 21 and the Two flexible circuits 43 connect, and the first flexible circuit 42 is positioned on first substrate 20, the second flexible circuit 43 It is positioned on second substrate 21.40 expressions in Fig. 5 (a) are positioned on first substrate 20 and the first flexible electrical The drive integrated circult that road 42 connects, when actual displayed, the first flexible circuit 42 receives system input Data, 41 expressions are positioned on second substrate 21 drive integrated circult being connected with the second flexible circuit 43, During actual displayed, the second flexible circuit 43 receives the data of system input.

Obviously, those skilled in the art can carry out various change and modification without deviating from this to the present invention Bright spirit and scope.So, if the present invention these amendment and modification belong to the claims in the present invention and Within the scope of its equivalent technologies, then the present invention is also intended to comprise these change and modification.

Claims (9)

1. a display device, it is characterised in that including: the first substrate being oppositely arranged and second substrate, Liquid crystal molecule and sealed plastic box between described first substrate and described second substrate, it is arranged on described first First grid drive circuit on substrate, the second grid drive circuit being arranged on described second substrate,
Described first substrate includes the first pixel cell that some arrays are arranged, in every a line the first pixel cell Thin film transistor (TFT) be connected with described first grid drive circuit by a gate line;
Described second substrate includes the second pixel cell that some arrays are arranged, in every a line the second pixel cell Thin film transistor (TFT) be connected with described second grid drive circuit by a gate line;Wherein,
Part described second pixel cell view field on described first substrate drives with described first grid There is overlapping region, and the throwing that described second pixel cell is on described first substrate in the setting area on galvanic electricity road Territory, shadow zone is the most overlapping with the region of described first pixel cell;
Part described first pixel cell view field on described second substrate drives with described second grid There is overlapping region, and the throwing that described first pixel cell is on described second substrate in the setting area on galvanic electricity road Territory, shadow zone is the most overlapping with the region of described second pixel cell.
Display device the most according to claim 1, it is characterised in that described first pixel cell exists View field on described second substrate with the region of described second pixel cell with the center of display device is Minute surface is symmetrical arranged.
Display device the most according to claim 2, it is characterised in that described first pixel cell exists View field on described second substrate with the region of described second pixel cell with the center of display device is Minute surface is upper and lower to be symmetrical arranged, or, described first pixel cell view field on described second substrate with The region of described second pixel cell is symmetrical arranged with the center of display device for minute surface is left and right.
Display device the most according to claim 1, it is characterised in that adjacent two described first pictures Between element unit view field on described second substrate, described second pixel cell is set;Adjacent two Individual described second pixel cell arranges described first picture between the view field on described first substrate Element unit.
Display device the most according to claim 4, it is characterised in that described each first pixel list View field on described second substrate of the unit is minute surface pair with the region of adjacent described second pixel cell Claim to arrange;Described each second pixel cell view field on described first substrate and adjacent described The region of one pixel cell is that minute surface is symmetrical arranged.
Display device the most according to claim 1, it is characterised in that described first pixel cell exists View field on described second substrate is provided with black matrix and color film layer, and described second pixel cell is described View field on first substrate is provided with black matrix and color film layer.
Display device the most according to claim 1, it is characterised in that described first grid drives electricity The setting area on road is positioned at the left field of described first substrate, the setting area of described second grid drive circuit Territory is positioned at the right side area of described second substrate;Or,
The setting area of described first grid drive circuit is positioned at the right side area of described first substrate, and described The setting area of two gate driver circuits is positioned at the left field of described second substrate.
Display device the most according to claim 1, it is characterised in that described first substrate and first Flexible circuit connects, and described second substrate and the second flexible circuit connect, and described first flexible circuit is positioned at institute Stating on first substrate, described second flexible circuit is positioned on described second substrate.
Display device the most according to claim 1, it is characterised in that described display device is edge Field rotation in surface display, or in-plane crossover display terminal, or senior super dimension field crossover display terminal.
CN201410428831.9A 2014-08-27 2014-08-27 A kind of display device CN104199205B (en)

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TW201428705A (en) * 2013-01-11 2014-07-16 Au Optronics Corp Display panel and display device
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CN103744205A (en) * 2013-12-25 2014-04-23 合肥京东方光电科技有限公司 Color film substrate, manufacturing method thereof, display panel and liquid crystal display device

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