CN203365918U - Self-alignment exposure orientation equipment - Google Patents

Abstract

The utility model relates to the technical field of display, in particular to self-alignment exposure orientation equipment. The equipment comprises a base station and a display panel driving system, wherein the base station is used for accommodating a to-be-oriented display panel; the display panel driving system is connected with the to-be-oriented display panel, and first pixel groups and second pixel groups are distributed on the to-be-oriented display panel at intervals; a first polarizing film is arranged on a first substrate and provided with an optical orientation layer; light emitted to the first substrate from a second substrate is linear polarized light; a first exposure light source is located at the side close to the second substrate; and a second exposure light source is located at the side close to the first substrate, light emitted from the second exposure light source is linear polarized light, and the polarization direction of the linear polarized light is perpendicular to the direction of a light transmitting axis of the first polarizing film. The provided self-alignment exposure equipment doesn't adopt a mask plate to manufacture a phase difference plate, so that the production cost is reduced to the greatest extent, and the alignment accuracy is improved.

Description

A kind of artoregistration exposure orientation apparatus

Technical field

The utility model relates to the display technique field, particularly a kind of artoregistration exposure orientation apparatus.

Background technology

Along with the development of display technique, stereo display has become a megatrend in demonstration field.And the three-dimensional cardinal principle shown is exactly parallax generation solid, even people's left eye is seen left-eye image, right eye is seen eye image.Wherein the right and left eyes image is the stereoscopic image pair that parallax is arranged.

Realize that three-dimensional wherein a kind of mode is for adopting string type,, in first moment, display shows the left eye picture, now only allows beholder's left eye see display frame; Second constantly, and display shows the right eye picture, only allows beholder's right eye see display frame, utilizes the persisting property of image the human eye retina, makes the people feel that right and left eyes seen the right and left eyes picture simultaneously, thereby produce stereo perception.

Realize that another three-dimensional mode is for adopting parallel type, at synchronization, the content of last minute pixel demonstration left eye picture of display, another part pixel shows the content of right eye picture, by modes such as grating, polaroid glasses, the demonstration of one part of pixel can only be seen by right eye, another part can only be seen by left eye, thereby produce three-dimensional sensation.

In order to present stereoscopic visual effect preferably, usually adopt at present the polaroid glasses formula to carry out stereo display.The basic structure of this display technique is that the device that can regulate the emergent light polarization direction is installed before display panel.This device can be polarizer, can be also liquid crystal cell, or other can regulate the device of different pixels emergent light polarization direction.

The principle of this polarizer stereo display as shown in Figure 1.Display panel 7 ' is upper, and a line shows right eye figure, and a line shows left eye figure, in its front, places a polarizer 5 ', and a line λ/2 postpone, and a line 0 postpones, the polarization direction half-twist of the pixel emergent light that outgoing picture 6 ' can make λ/2 postpone like this.Like this, have on the polaroid glasses of right and left eyes polarization direction quadrature, just can only see the light that the right eye pixel is sent by right eye, left eye is only seen the light that the left eye pixel is sent, thereby produces stereoeffect.

In several polaroid glasses stereo displays, adopt the technology of polarizer (pattern retarder) most popular again.Its basic structure is on display panel after exactitude position, attach a polarizer, utilize zones of different on polarizer can produce different phase delay, thus the light that makes different pixels with the outgoing of different polarization direction, the beholder wears polaroid glasses just can see 3D effect.

As shown in Figure 2, in prior art, the process of making polarizer is as follows:

(1) at the upper light oriented material 2 ' that applies of substrate 1 ';

(2) mask plate 3 ' is placed on light oriented material 2 ';

(3) with polarized light 4 ' process mask plate 3 ', the light oriented material do not blocked by mask plate 3 ' is irradiated, completed exposure curing;

(4) remove mask plate 3 ', another part light oriented material 2 ' is carried out to exposure curing;

(5) apply reactive material, be orientated and solidify.

In the technique of actual fabrication polarizer, because needs adopt mask plate, cause the processing cost costliness, and aligning accuracy is not high.

The utility model content

(1) technical matters that will solve

The utility model solves following technical matters, and a kind of artoregistration exposure orientation apparatus is provided, and to overcome the available technology adopting mask plate, makes the high and not high defect of aligning accuracy of cost that polarizer causes.

(2) technical scheme

In order to solve the problems of the technologies described above, the utility model provides a kind of artoregistration exposure orientation apparatus, comprising:

Base station, described base station is for placing display panel to be orientated, the transparent setting in zone that described base station is corresponding with display panel described to be orientated viewing area;

With the display panel driving system that display panel described to be orientated is connected, the first pixel groups spaced apart and the second pixel groups on display panel described to be orientated; Under the control of described display panel driving system, controlling display panel described the to be orientated zone corresponding with described the first pixel groups is light transmission state, and controlling display panel described the to be orientated zone corresponding with described the second pixel groups is shading status;

Display panel described to be orientated comprises first substrate and second substrate, and described first substrate is provided with the first polaroid, and described the first polaroid is provided with the light oriented layer; From the light of the described first substrate of described second substrate directive, it is linearly polarized photon;

The first exposure light source, be positioned at the side near described second substrate;

The second exposure light source, be positioned at the side near described first substrate, and the light that described the second exposure light source penetrates is linearly polarized photon, and the light transmission shaft direction of the polarization direction of described linearly polarized photon and described the first polaroid is perpendicular.

Preferably, from the light of the described first substrate of described second substrate directive, be that the linearly polarized photon specific implementation comprises:

The light that described the first exposure light source sends is natural light, and described second substrate is provided with the second polaroid, and described natural light is by the described first substrate of described the second polaroid directive.

Preferably, from the light of the described first substrate of described second substrate directive, be that the linearly polarized photon specific implementation comprises:

The light that described the first exposure light source sends is linearly polarized photon, and described second substrate is provided with the second polaroid, and the polarization direction of described linearly polarized photon parallels with the light transmission shaft direction of described the second polaroid;

Perhaps, the light that described the first exposure light source sends is linearly polarized photon, and the second polaroid is not set on described second substrate.

Preferably, from the light of the described first substrate of described second substrate directive, be that the linearly polarized photon specific implementation comprises:

On described base station, quartz plate is set, the light that described the first exposure light source sends is natural light, and described natural light is by the described first substrate of described quartz plate directive.

Preferably, described artoregistration exposure orientation apparatus also comprises the first light-source control system, and described the first light-source control system has arc-shaped guide rail, controls described the first exposure light source and moves to display surface board to explosure described to be orientated along described arc-shaped guide rail.

Preferably, the best that the home position of described arc-shaped guide rail is positioned at display panel bright dipping side described to be orientated is watched a little.

Preferably, described artoregistration exposure orientation apparatus also comprises the secondary light source control system, and controlling described the second exposure light source can be moved horizontally display surface board to explosure described to be orientated in the plane parallel with display panel described to be orientated.

(3) beneficial effect

The utility model provides a kind of artoregistration exposure orientation apparatus, avoids adopting mask plate to make polarizer, farthest reduces production costs and makes aligning accuracy be improved.

The accompanying drawing explanation

The principle schematic that Fig. 1 is polarizer stereo display in prior art;

Fig. 2 is prior art polarizer manufacture craft schematic diagram;

Fig. 3 is the utility model embodiment artoregistration exposure orientation apparatus structural representation;

Fig. 4 is the utility model embodiment display panel pixel schematic diagram.

Embodiment

Below in conjunction with drawings and Examples, embodiment of the present utility model is described in further detail.Following examples are used for the utility model is described, but are not used for limiting scope of the present utility model.

As shown in Figure 3 and Figure 4, the utility model provides a kind of artoregistration exposure orientation apparatus, comprising:

Base station 1, this base station 1 is for placing display panel 2 to be orientated, the transparent setting in zone that described base station 1 is corresponding with display panel to be orientated 2 viewing areas;

With the display panel driving system 3 that display panel 2 described to be orientated is connected, the first pixel groups 21 spaced apart and the second pixel groups 22 on display panel 2 to be orientated; Under the control of display panel driving system 3, controlling zone corresponding with the first pixel groups 21 on display panel 2 to be orientated is light transmission state, and controlling zone corresponding with the second pixel groups 22 on display panel 2 to be orientated is shading status; Wherein, this first pixel groups 21 and the second pixel groups 22 can be gone form, row form or matrix form and come spaced apart.

Display panel 2 described to be orientated comprises first substrate 23 and second substrate 24, described first substrate 23 is provided with the first polaroid 7, the first polaroid 7 is provided with light oriented layer 9, from the light (direction of arrow display panel 2 is the light exit direction) of second substrate 24 directive first substrates 23, is linearly polarized photon;

The first exposure light source 4, be positioned at the side near described second substrate 24;

The second exposure light source 6, it is arranged on a side of first substrate 23, and the light that this second exposure light source 6 penetrates is linearly polarized photon, and the light transmission shaft direction of the polarization direction of described linearly polarized photon and the first polaroid 7 is perpendicular.

Wherein, the implementation that is linearly polarized photon from the light of second substrate 24 directive first substrates 23 specifically comprises several as follows:

It is natural light that the light that described the first exposure light source 4 sends is set, and described second substrate 24 is provided with the second polaroid 8, and described natural light is by the second polaroid 8 directive first substrates 23.

Perhaps, it is linearly polarized photon that the light that the first exposure light source 4 sends is set, and described second substrate 24 is provided with the second polaroid 8, and the polarization direction of described linearly polarized photon parallels with the light transmission shaft direction of the second polaroid 8; Perhaps, the light sent when the first exposure light source 4 is the linear polarization light time, on described second substrate 24, the second polaroid 8 can be set.

Again or, quartz plate is set on base station, the light that described the first exposure light source sends is natural light, described natural light by quartz plate after the light of outgoing be linearly polarized photon, described linearly polarized photon directive first substrate 23.

Above-mentioned several situation can guarantee that from the light of second substrate 24 directive first substrates 23 be linearly polarized photon.

In addition, this artoregistration exposure orientation apparatus also comprises the first light-source control system and secondary light source control system, described the first light-source control system has arc-shaped guide rail 5, controls described the first exposure light source 4 and moves to display surface board to explosure described to be orientated along described arc-shaped guide rail 5.Wherein, the best that the home position of arc-shaped guide rail 5 is positioned at display panel bright dipping side to be orientated is watched a little.

This secondary light source control system is controlled the second exposure light source 6 and can in the plane parallel with display panel described to be orientated, be moved horizontally display panel 2 described to be orientated is exposed, thereby guarantees that the exposure of regional is even.

It should be noted that, the display panel in the present embodiment can be TN pattern, ADS pattern, IPS pattern or other any display modes.

Below specifically describe the process that adopts artoregistration exposure orientation apparatus to be made polarizer, specifically comprise:

Display panel 2 to be orientated is placed on base station 1, display panel 2 to be orientated is connected with display panel driving system 3, and controlling display panel the to be orientated zone corresponding with the first pixel groups is light transmission state, controlling display panel the to be orientated zone corresponding with the second pixel groups is shading status;

Open the first exposure light source 4, the light source that makes these the first exposure light source 4 directive first substrates 23 is linearly polarized photon, this linear polarization light transmission base station 1, see through the zone corresponding with the first pixel groups 21 on display panel 2 to be orientated, the light oriented material of the first pixel groups 21 correspondences is carried out to exposure curing;

The first exposure light source 4 is under the control of light-source control system, to part corresponding with the first pixel groups 21 in display panel 2 to be orientated in the light oriented layer orientation of exposing;

Close the first exposure light source 4, open the second exposure light source 6, to part corresponding with the second pixel groups 22 in display panel 2 to be orientated in the light oriented layer orientation of exposing;

After being orientated, splash into liquid crystal, first substrate 23 and second substrate 24 are carried out the box setting, and liquid crystal is cured to processing, completed the making of polarizer.

The process of the making polarizer that the utility model provides, avoid adopting mask plate to make polarizer, farthest reduces production costs and make aligning accuracy be improved.

The above is only preferred implementation of the present utility model; should be understood that; for those skilled in the art; under the prerequisite that does not break away from the utility model know-why; can also make some improvement and modification, these improve and modification also should be considered as protection domain of the present utility model.

Claims (7)

1. an artoregistration exposure orientation apparatus, is characterized in that, comprising:

Base station, described base station is for placing display panel to be orientated, the transparent setting in zone that described base station is corresponding with display panel described to be orientated viewing area;

With the display panel driving system that display panel described to be orientated is connected, the first pixel groups spaced apart and the second pixel groups on display panel described to be orientated; Under the control of described display panel driving system, controlling display panel described the to be orientated zone corresponding with described the first pixel groups is light transmission state, and controlling display panel described the to be orientated zone corresponding with described the second pixel groups is shading status;

Display panel described to be orientated comprises first substrate and second substrate, and described first substrate is provided with the first polaroid, and described the first polaroid is provided with the light oriented layer; From the light of the described first substrate of described second substrate directive, it is linearly polarized photon;

The first exposure light source, be positioned at the side near described second substrate;

The second exposure light source, be positioned at the side near described first substrate, and the light that described the second exposure light source penetrates is linearly polarized photon, and the light transmission shaft direction of the polarization direction of described linearly polarized photon and described the first polaroid is perpendicular.

2. artoregistration exposure orientation apparatus as claimed in claim 1, is characterized in that, from the light of the described first substrate of described second substrate directive, is that the linearly polarized photon specific implementation comprises:

The light that described the first exposure light source sends is natural light, and described second substrate is provided with the second polaroid, and described natural light is by the described first substrate of described the second polaroid directive.

3. artoregistration exposure orientation apparatus as claimed in claim 1, is characterized in that, from the light of the described first substrate of described second substrate directive, is that the linearly polarized photon specific implementation comprises:

The light that described the first exposure light source sends is linearly polarized photon, and described second substrate is provided with the second polaroid, and the polarization direction of described linearly polarized photon parallels with the light transmission shaft direction of described the second polaroid;

Perhaps, the light that described the first exposure light source sends is linearly polarized photon, and the second polaroid is not set on described second substrate.

4. artoregistration exposure orientation apparatus as claimed in claim 1, is characterized in that, from the light of the described first substrate of described second substrate directive, is that the linearly polarized photon specific implementation comprises:

On described base station, quartz plate is set, the light that described the first exposure light source sends is natural light, and described natural light is by the described first substrate of described quartz plate directive.

5. as described as claim 1-4 any one artoregistration exposure orientation apparatus, it is characterized in that, described artoregistration exposure orientation apparatus also comprises the first light-source control system, described the first light-source control system has arc-shaped guide rail, controls described the first exposure light source and moves to display surface board to explosure described to be orientated along described arc-shaped guide rail.

6. artoregistration exposure orientation apparatus as claimed in claim 5, is characterized in that, the home position of described arc-shaped guide rail is positioned at the best of display panel bright dipping side described to be orientated to be watched a little.

7. artoregistration as claimed in claim 5 exposure orientation apparatus, it is characterized in that, described artoregistration exposure orientation apparatus also comprises the secondary light source control system, and controlling described the second exposure light source can be moved horizontally display surface board to explosure described to be orientated in the plane parallel with display panel described to be orientated.

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