CN110275353A - Display panel motherboard and its alignment apparatus - Google Patents

Abstract

Present applicant proposes a kind of display panel motherboard and its alignment apparatus, which includes the first electrode and second electrode that color membrane substrates motherboard includes insulation set；Array substrate motherboard, including motherboard the second electrode lay；Conducting block, between the color membrane substrates motherboard and the array substrate motherboard, which is electrically connected by the conducting block with the first electrode；The first electrode is different from the current potential of the second electrode.The application is by by the first electrode layer patterned process on color membrane substrates motherboard, to form the first electrode and second electrode of insulation set, first electrode is electrically connected with array substrate motherboard, the display panel motherboard, which only needs to be powered on jig input two kinds of level signals of high potential and low potential, may make the display panel motherboard to carry out orientation, so that the liquid crystal display panel of each size only needs a set of power-up jig being separately configured corresponding, which is shared by various sizes of liquid crystal display panel.

Description

Display panel motherboard and its alignment apparatus

Technical field

This application involves display field, in particular to a kind of display panel motherboard and its alignment apparatus.

Background technique

Liquid crystal light alignment technique refers in the case where applying voltage to liquid crystal display panel, by ultraviolet light, promotes liquid Monomer reaction in crystalline substance makes liquid crystal molecule form pre-tilt angle, to achieve the purpose that LCD alignment.

It in the prior art, include several liquid crystal display panels and several application voltage points on same liquid crystal light orientation panel Group, each liquid crystal display panel respectively correspond an application electrical voltage point hyte, and each application electrical voltage point hyte includes G_Odd (Gate_ Odd, grid surprise electrode) apply voltage point, G_Even (Gate_Even, grid idol electrode) application voltage point, R (Red, source Pole red pixel) apply voltage point, G (Green, source electrode green pixel) application voltage point, B (Blue, source electrode blue picture Element) apply voltage point, CF_Com (Color Filter_Com, colored optical filtering substrates public electrode) apply voltage point and TFT_Com (Thin Film Transistor_Com, thin film transistor base plate public electrode) applies voltage point.

And for the liquid crystal display panel of different sizes or different typesettings, the quantity for being powered on signal and power-up probe location are not It is identical, so that the liquid crystal display panel of each size requires a set of power-up jig being separately configured and corresponds to, so that the power-up jig It can not be shared by various sizes of liquid crystal display panel, cause the waste of resource.

Therefore, a kind of display panel motherboard is needed at present to solve the above technical problems.

Summary of the invention

This application provides a kind of display panel motherboard and its alignment apparatus, cannot be total to solving existing power-up orientation jig The technical issues of using.

To achieve the above object, technical solution provided by the present application is as follows:

The application provides a kind of display panel motherboard comprising:

Color membrane substrates motherboard, including first electrode layer, the first electrode layer include at least one first electricity of insulation set Pole and at least a second electrode；

Array substrate motherboard is oppositely arranged with the color membrane substrates motherboard, and array substrate includes motherboard the second electrode lay, institute Stating the second electrode lay includes an at least third electrode；

An at least conducting block, between the color membrane substrates motherboard and the array substrate motherboard, the third electrode It is electrically connected by the conducting block with the first electrode or the second electrode；

Wherein, the first electrode is different from the current potential of the second electrode.

In the display panel motherboard of the application,

The area of the array substrate motherboard is less than the area of the color membrane substrates motherboard.

In the display panel motherboard of the application,

The display panel motherboard further includes the first end sub-district positioned at the display panel motherboard periphery；

An at least input terminal subgroup is provided in the first end sub-district；

The input terminal subgroup is located on the color membrane substrates motherboard；

Wherein, the display panel motherboard includes an at least display panel, an input terminal subgroup and a display panel It is corresponding.

In the display panel motherboard of the application,

The corresponding at least conducting block of one display panel.

In the display panel motherboard of the application,

The input terminal subgroup includes at least first terminal and Second terminal；

The first terminal is electrically connected with the first electrode；

The Second terminal is electrically connected with the second electrode；

Wherein, the current potential that the first terminal inputs and the current potential that the Second terminal inputs be not identical.

In the display panel motherboard of the application,

The array substrate motherboard further includes signal lead layer；

The first terminal receives first electric signal, and by first electric signal transmission to the first electrode, The first electrode is by the conducting block by first electric signal transmission to the signal lead layer, the signal lead layer First electric signal is transferred to the corresponding third electrode in the second electrode lay by data signal line.

In the display panel motherboard of the application,

The array substrate motherboard further includes second end sub-district；

The conducting block is electrically connected the telecommunications for transmitting the first electrode with terminal corresponding in the second end sub-district It number is transferred in the array substrate motherboard.

In the display panel motherboard of the application,

The display panel motherboard includes viewing area and non-display area；

The first electrode is located at the non-display area；

The second electrode and the second electrode lay are located at the viewing area.

The application also proposed a kind of alignment apparatus comprising above-mentioned display panel motherboard and signal output system；

Wherein, the signal output system includes multiple signal paths, and each signal path exists independently of each other.

In the alignment apparatus of the application,

Each signal path includes a signal input interface and a signal output interface；

One signal output interface corresponds to any one signal input interface or does not correspond to the input of any one signal Interface；

Wherein, a terminal in the corresponding input terminal subgroup of a signal path.

The utility model has the advantages that the application with being formed by being insulated the first electrode layer patterned process on color membrane substrates motherboard The first electrode and second electrode of setting, first electrode are electrically connected with array substrate motherboard, which only needs to add Electric jig input two kinds of level signals of high potential and low potential may make the display panel motherboard to carry out orientation, so that each The liquid crystal display panel of size only needs a set of power-up jig being separately configured corresponding, enables the power-up jig by various sizes of liquid Crystal panel shares.

Detailed description of the invention

It, below will be to embodiment or the prior art in order to illustrate more clearly of embodiment or technical solution in the prior art Attached drawing needed in description is briefly described, it should be apparent that, the accompanying drawings in the following description is only some of invention Embodiment for those of ordinary skill in the art without creative efforts, can also be attached according to these Figure obtains other attached drawings.

Fig. 1 is the sectional view of the application display panel motherboard；

Fig. 2 is the top view of color membrane substrates motherboard in the application display panel motherboard.

Specific embodiment

The explanation of following embodiment is referred to the additional illustration, the particular implementation that can be used to implement to illustrate the application Example.The direction term that the application is previously mentioned, such as [on], [under], [preceding], [rear], [left side], [right side], [interior], [outer], [side] Deng being only the direction with reference to annexed drawings.Therefore, the direction term used be to illustrate and understand the application, rather than to Limit the application.The similar unit of structure is with being given the same reference numerals in the figure.

In the prior art, liquid crystal display panel includes color film (Color Filter, CF) substrate, liquid crystal layer and thin film transistor (TFT) (Thin Film Transistor, TFT) substrate.Electrode layer, and the surface of electrode layer are respectively equipped on CF substrate and TFT substrate It is equipped with polyimide alignment film, contains monomer in the liquid crystal layer between CF substrate and TFT substrate, when the CF base for giving liquid crystal display panel When plate and TFT substrate are powered (i.e. application voltage) and carry out ultraviolet light, the monomer in liquid crystal layer will react, and make liquid The liquid crystal molecule of crystal layer is with scheduled tilt angle proper alignment, to achieve the purpose that LCD alignment.

Wherein, relatively common alignment technique is that vertical orientation LCD alignment solidifies (Vertical Alignment Curing, VA Curing).This method will mix a certain proportion of high-purity reactive liquid crystals (phototaxis list first in VA liquid crystal Body), the liquid crystal core of such existing common liquid crystals molecule of liquid crystal, and end have one or more acrylic bases etc can be anti- Answer luminous energy base；An additional voltage between subsequent upper and lower base plate, makes liquid crystal molecule generate a pretilt angle, and respective pixel is different Farmland, liquid crystal molecule tendency is different, then carry out ultraviolet light (Ultraviolet Rays, UV) in particular range of wavelengths from After TFT side irradiation, reactive liquid crystals aggregate into macromolecule network and the liquid crystal molecule on surface layer are attracted to form fixed pre-tilt angle.

Referring to Fig. 1, Fig. 1 is the sectional view of the application display panel motherboard 100.

The display panel motherboard 100 is including color membrane substrates motherboard 200, array substrate motherboard 300 and is located at the color film Liquid crystal layer 400 between substrate motherboard 200 and the array substrate motherboard 300.

The display panel motherboard 100 forms muti-piece display panel after cutting, each display panel include color membrane substrates, Array substrate and the corresponding liquid crystal layer 400 between the color membrane substrates and the array substrate.

The color membrane substrates motherboard 200 includes the first substrate 210 and the first electrode layer on first substrate 210 220。

The first electrode layer 220 includes an at least first electrode 221 and an at least second electrode 222.

In the present embodiment, the first electrode 221 and 222 insulation set of second electrode.

In the present embodiment, the corresponding first electrode 221 of a display panel and a second electrode 222.

Referring to Fig. 2, Fig. 2 is the top view of color membrane substrates motherboard 200 in the application display panel motherboard 100.

The display panel motherboard 100 includes viewing area and non-display area.

In the present embodiment, the first electrode 221 is located at the non-display area, and the second electrode 222 is located at described Viewing area.

The color membrane substrates motherboard 200 further includes the first both alignment layers (not shown) in the first electrode layer 220. In the present embodiment, the material of first both alignment layers can be made of polyimide alignment film.

Referring to Fig. 1, array substrate motherboard 300 is oppositely arranged with the color membrane substrates motherboard 200.

The array substrate includes the second substrate of motherboard 310, the tft layer on second substrate 310 (not shown), the second electrode lay 320 on the tft layer.

In the present embodiment, the material of first substrate 210 and second substrate 310 can be glass substrate, stone One of English substrate, resin substrate etc..

In the present embodiment, the tft layer includes multiple thin film transistor (TFT)s.The thin film transistor (TFT) can be Barrier type, the back structures such as channel etch type or top-gate thin-film transistors type are etched, specific there is no limit.Such as top-gate thin-film crystal The thin film transistor (TFT) of cast includes active layer, signal lead layer.

The active layer is located on second substrate 310.

The active layer can be semiconductor layer, or polysilicon layer, the application do not limit specifically.

The signal lead layer is located on the active layer.

The signal lead layer may include grid layer and source-drain electrode layer.

In the present embodiment, the source-drain electrode layer is electrically connected with the second electrode lay 320.

The second electrode lay 320 includes an at least third electrode.The corresponding thin film transistor (TFT) of each third electrode.

In the present embodiment, the third electrode is electrically connected with the source/drain in the thin film transistor (TFT).

In the present embodiment, the third electrode is located at the viewing area.

The material of the first electrode layer 220 and the second electrode lay 320 can be made of transparent material.In this implementation In example, the material of the first electrode layer 220 and the second electrode lay 320 can be tin indium oxide (ITO).

The array substrate motherboard 300 further includes the second both alignment layers (not shown) on the second electrode lay 320. In the present embodiment, the material of first both alignment layers can be made of polyimide alignment film.

Referring to Fig. 1, the display panel motherboard 100 further includes conducting block 500.

The conducting block 500 is between the color membrane substrates motherboard 200 and the array substrate motherboard 300, and described Two electrode layers 320 are electrically connected by the conducting block 500 with the first electrode layer 220.

The second electrode lay 320 passes through the conducting block 500 and the first electrode in the first electrode layer 220 221 or the second electrode 222 be electrically connected.

In the present embodiment, the second electrode lay 320 passes through in the conducting block 500 and the first electrode layer 220 The first electrode 221 be electrically connected.

In the present embodiment, the first electrode 221 is different from the current potential of the second electrode 222.

The array substrate further includes second end sub-district 330.Be provided in the Second terminal 242 data signal terminal, Scanning signal terminal etc..

In the present embodiment, the conducting block 500 will be described with terminal corresponding in the second end sub-district 330 electrical connection The electric signal that first electrode 221 transmits is transferred in the array substrate motherboard 300.

In the present embodiment, corresponding at least one conducting block 500 of a display panel.

In the present embodiment, in order to which the terminal region for guaranteeing the array substrate motherboard 300 is exposed, the array substrate motherboard 300 area is less than the area of the color membrane substrates motherboard 200.

In the present embodiment, the conducting block 500 can be at least one in sphere, cone, cuboid or square etc. Kind, the application does not limit specifically.

Referring to Fig. 2, the display panel motherboard 100 further includes first end sub-district 230.

The first end sub-district 230 is located at 100 periphery of display panel motherboard.Setting in the first end sub-district 230 There is an at least input terminal subgroup 240.

In the present embodiment, the input terminal subgroup 240 is located on the color membrane substrates motherboard 200.

In the present embodiment, an input terminal subgroup 240 is corresponding with a display panel.

The input terminal subgroup 240 includes at least first terminal 241 and Second terminal 242.

In the present embodiment, the first terminal 241 is electrically connected with the first electrode 221, the Second terminal 242 with The second electrode 222 is electrically connected.

In the present embodiment, the current potential that the current potential that the first terminal 241 inputs is inputted with the Second terminal 242 not phase Together.

The first terminal 241, which can input, belongs to the first electric signal of high potential or low potential, the Second terminal 242 Input second electric signal different from first electric signal.

In the present embodiment, the first terminal 241 receives first electric signal, and by first electric signal transmission To the first electrode 221, the first electrode 221 is by the conducting block 500 by first electric signal transmission to described First electric signal is transferred to the second electrode lay by data signal line by signal lead layer, the signal lead layer The corresponding third electrode in 320.

In the present embodiment, first electric signal is high potential electric signal, and second electric signal is low potential telecommunications Number.

For example, second electric signal that the color membrane substrates motherboard 200 connects is 0V, the institute of the array substrate connection Stating the first electric signal is 20V.Potential difference between the color membrane substrates motherboard 200 and the array substrate motherboard 300 is 20V's Electric field, and the liquid crystal molecule in the liquid crystal layer 400 is driven to deflect, after the irradiation of UV light, 400 monomer of liquid crystal layer with it is described Both alignment layers solidification.

The application also proposed a kind of alignment apparatus, and the alignment apparatus includes above-mentioned display panel motherboard 100 and letter Number output system.

The signal output system includes multiple signal paths.Each signal path exists independently of each other.Each institute Stating signal path includes a signal input interface and a signal output interface.One signal output interface can call any one A signal input interface is never called.For example, the signal input interface can input grid surprise electrode, grid idol electrode, source Pole red pixel, source electrode green pixel, source electrode blue pixel, colored optical filtering substrates public electrode, thin film transistor base plate are public Electrode corresponds to electric signal.

In the present embodiment, a terminal in the corresponding input terminal subgroup 240 of a signal path.

In the present embodiment, the electrical signal types of signal output interface output can automatically switch, and the application passes through to not The electric signal of same terminal input different potentials, makes to form current potential between array substrate motherboard 300 and color membrane substrates motherboard 200 Difference, to carry out orientation.As long as guaranteeing that the position of terminal and quantity are certain, it can female to the liquid crystal display panel of different sizes and type Plate carries out orientation.

Present applicant proposes a kind of display panel motherboard and its alignment apparatus, the display panel motherboard includes color membrane substrates Motherboard includes the first electrode and second electrode of insulation set；Array substrate motherboard, including motherboard the second electrode lay；Conducting block, Between the color membrane substrates motherboard and the array substrate motherboard, the second electrode lay by the conducting block with it is described First electrode electrical connection；The first electrode is different from the current potential of the second electrode.The application is by by color membrane substrates motherboard On first electrode layer patterned process, to form the first electrode and second electrode of insulation set, first electrode and array base The electrical connection of plate motherboard, which, which only needs to be powered on jig input two kinds of level signals of high potential and low potential, to make It obtains the display panel motherboard and carries out orientation, so that the liquid crystal display panel of each size only needs a set of power-up jig being separately configured It is corresponding, which is shared by various sizes of liquid crystal display panel.

Although above preferred embodiment is not to limit in conclusion the application is disclosed above with preferred embodiment The application processed, those skilled in the art are not departing from spirit and scope, can make various changes and profit Decorations, therefore the protection scope of the application subjects to the scope of the claims.

Claims (10)

1. a kind of display panel motherboard characterized by comprising

Color membrane substrates motherboard, including first electrode layer, the first electrode layer include insulation set an at least first electrode and An at least second electrode；

Array substrate motherboard is oppositely arranged with the color membrane substrates motherboard, and array substrate includes motherboard the second electrode lay, and described Two electrode layers include an at least third electrode；

An at least conducting block, between the color membrane substrates motherboard and the array substrate motherboard, the third electrode passes through The conducting block is electrically connected with the first electrode or the second electrode；

Wherein, the first electrode is different from the current potential of the second electrode.

2. display panel motherboard according to claim 1, which is characterized in that

The area of the array substrate motherboard is less than the area of the color membrane substrates motherboard.

3. display panel motherboard according to claim 1, which is characterized in that

The display panel motherboard further includes the first end sub-district positioned at the display panel motherboard periphery；

An at least input terminal subgroup is provided in the first end sub-district；

The input terminal subgroup is located on the color membrane substrates motherboard；

Wherein, the display panel motherboard includes an at least display panel, and an input terminal subgroup is corresponding with a display panel.

4. display panel motherboard according to claim 3, which is characterized in that

The corresponding at least conducting block of one display panel.

5. display panel motherboard according to claim 3, which is characterized in that

The input terminal subgroup includes at least first terminal and Second terminal；

The first terminal is electrically connected with the first electrode；

The Second terminal is electrically connected with the second electrode；

Wherein, the current potential that the first terminal inputs and the current potential that the Second terminal inputs be not identical.

6. display panel motherboard according to claim 5, which is characterized in that

The array substrate motherboard further includes signal lead layer；

The first terminal receives first electric signal, and by first electric signal transmission to the first electrode, described By the conducting block by first electric signal transmission to the signal lead layer, the signal lead layer passes through first electrode First electric signal is transferred to the corresponding third electrode in the second electrode lay by data signal line.

7. display panel motherboard according to claim 1, which is characterized in that

The array substrate motherboard further includes second end sub-district；

The conducting block is electrically connected the electric signal for transmitting the first electrode with terminal corresponding in the second end sub-district and passes It is handed in the array substrate motherboard.

8. display panel motherboard according to claim 1, which is characterized in that

The display panel motherboard includes viewing area and non-display area；

The first electrode is located at the non-display area；

The second electrode and the second electrode lay are located at the viewing area.

9. a kind of alignment apparatus, which is characterized in that including display panel motherboard as described in any one of claims 1 to 8 and letter Number output system；

Wherein, the signal output system includes multiple signal paths, and each signal path exists independently of each other.

10. alignment apparatus according to claim 9, which is characterized in that

Each signal path includes a signal input interface and a signal output interface；

One signal output interface corresponds to any one signal input interface or does not correspond to any one signal input interface；

Wherein, a terminal in the corresponding input terminal subgroup of a signal path.