CN102004351A - Production method of 3D liquid crystal glasses - Google Patents

Abstract

An embodiment of the invention discloses a production method of a 3D liquid crystal glasses, which comprises the following steps: forming a transparent electrode layer pattern of a left eye upper lens and a right eye upper lens on a first glass substrate; forming a transparent electrode layer pattern of a left eye lower lens and a right eye lower lens on a second glass substrate; orderly forming a surface insulating layer, a liquid crystal molecule orientation layer and a sealing plastic frame on the transparent electrode layer patterns; and obtaining a left eye liquid crystal lens and a right eye liquid crystal lens by injecting the liquid crystal, gluing panels and cutting display regions. The method can simultaneously produce the left eye liquid crystal lens and the right eye liquid crystal lens, so that the left eye liquid crystal lens and the right eye liquid crystal lens having same technical parameters can be obtained, and defects of different colors displayed by the left eye liquid crystal lens and the right eye liquid crystal lens are solved.

Description

3D liquid crystal glasses production method

Technical field:

The present invention relates to liquid crystal display and make the field, relate in particular to a kind of 3D liquid crystal glasses production method.

Background technology:

In the last few years, along with the development of 3D industry, the 3D display technique had been deep in the daily life, was widely used in fields such as 3D video, the emulation of 3D games and simulation, and the consumer is increased greatly to the demand of 3D liquid crystal glasses.The liquid crystal lens of 3D liquid crystal glasses will use moulds such as mask, post skin and silk screen in process of production usually, and wherein, mask is used for forming the transparency electrode layer pattern as the mask of exposure by processing procedures such as photoetching, etchings; The post suitcase is drawn together TOP post skin and PI post skin, and TOP post skin is used for the surface printing layer of surface insulation course at the transparency electrode layer pattern, and PI post skin is used for the surface printing one deck liquid crystal molecular orientation layer at surface insulation layer; Silk screen is used on the surface of liquid crystal molecular orientation layer, and printing is used for the fluid sealant frame of encapsulated liquid crystals molecule and definition liquid crystal display area.

When industry is produced the liquid crystal lens of 3D liquid crystal glasses usually, generally adopt the separately design of right and left eyes liquid crystal lens, promptly in process of production, each needs a cover production mould left eye liquid crystal lens and right eye liquid crystal lens.And because left eye liquid crystal lens and right eye liquid crystal lens are irregularly shaped product, each liquid crystal lens is divided into eyeglass and following eyeglass again, and promptly a secondary 3D liquid crystal glasses comprises under eyeglass on the left eye, the left eye on eyeglass, the right eye four liquid crystal displays of eyeglass under the eyeglass and right eye.Wherein, eyeglass is because shape is different under eyeglass and the left eye on the left eye, and its production mould can not be shared, and in like manner, the production mould of eyeglass can not be shared under eyeglass and the right eye on the right eye.Therefore, in the production run of 3D liquid crystal glasses, need four masks, four post skins (two TOP post skins and two PI post skins, the shared post skin of eyeglass under eyeglass and the right eye on the left eye wherein, the shared post skin of eyeglass on eyeglass and the right eye under the left eye) and four pull spring nets.

By to above-mentioned Study on Technology, the inventor finds: in the existing 3D liquid crystal glasses production run, its left eye liquid crystal lens uses different moulds separately to produce respectively with the right eye liquid crystal lens, cause the technical parameter of left eye liquid crystal lens and right eye liquid crystal lens inconsistent easily, the color that causes the right and left eyes liquid crystal lens to show is inconsistent, has a strong impact on the display effect of 3D liquid crystal glasses.

Summary of the invention

For solving the problems of the technologies described above, the object of the present invention is to provide a kind of production method of 3D liquid crystal glasses, need use different moulds separately to solve the left eye liquid crystal lens that exists in the prior art respectively with the right eye liquid crystal lens, cause the technical parameter of the left eye liquid crystal lens that obtains and right eye liquid crystal lens inconsistent easily, the inconsistent technical matters of color that causes the right and left eyes liquid crystal lens to show, realization improves the display effect of 3D liquid crystal glasses.

For achieving the above object, the invention provides following technical scheme:

A kind of 3D liquid crystal glasses production method comprises:

The transparency electrode layer pattern of eyeglass on eyeglass and right eye on the formation left eye on first glass substrate;

The transparency electrode layer pattern of eyeglass under eyeglass and right eye under the formation left eye on second glass substrate;

On the transparency electrode layer pattern, form surface insulation layer, liquid crystal molecular orientation layer and fluid sealant frame successively;

By injecting liquid crystal, panel applying and viewing area cutting processing procedure, obtain left eye liquid crystal lens and right eye liquid crystal lens.

Preferably, forming the transparency electrode layer pattern specifically comprises:

Use first mask plate to be mask, successively by coating photoresists, exposure, development and etching processing procedure, the transparency electrode layer pattern of eyeglass on eyeglass and right eye on the formation left eye on first glass substrate;

Use second mask plate to be mask, successively by coating photoresists, exposure, development and etching processing procedure, the transparency electrode layer pattern of eyeglass under eyeglass and right eye under the formation left eye on second glass substrate.

Preferably, before forming the transparency electrode layer pattern, also comprise:

Adjust on first mask plate on the left eye on the eyeglass and right eye on eyeglass, second mask plate orientation of eyeglass corresponding mask figure under the eyeglass and right eye under the left eye respectively, make the post skin corresponding with first glass substrate after horizontally rotating 180 degree can with post skin-deep overlap corresponding with second glass substrate.

Preferably, forming surface insulation layer specifically comprises:

Use the first insulation course post skin, on the transparency electrode layer pattern on first glass substrate, printing forms surface insulation layer;

Second glass substrate is horizontally rotated 180 degree, use the first insulation course post skin, on the transparency electrode layer pattern on second glass substrate, printing forms surface insulation layer.

Preferably, forming surface insulation layer specifically comprises:

Use the second insulation course post skin, on the transparency electrode layer pattern on second glass substrate, printing forms surface insulation layer;

First glass substrate is horizontally rotated 180 degree, use the second insulation course post skin, on the transparency electrode layer pattern on first glass substrate, printing forms surface insulation layer.

Preferably, forming the liquid crystal molecular orientation layer specifically comprises:

Use the first oriented layer post skin, above the surface insulation layer on first glass substrate, printing forms the liquid crystal molecular orientation layer;

Second glass substrate is horizontally rotated 180 degree, use the first oriented layer post skin, on the surface insulation layer on second glass substrate, printing forms the liquid crystal molecular orientation layer.

Preferably, forming the liquid crystal molecular orientation layer specifically comprises:

Use the second oriented layer post skin, above the surface insulation layer on second glass substrate, printing forms the liquid crystal molecular orientation layer;

First glass substrate is horizontally rotated 180 degree, use the second oriented layer post skin, on the surface insulation layer on first glass substrate, printing forms the liquid crystal molecular orientation layer.

Preferably, forming the fluid sealant frame specifically comprises:

Use the first serigraphy fluid sealant, on the liquid crystal molecular orientation layer on first glass substrate, form on the left eye fluid sealant frame of eyeglass viewing area on the eyeglass and right eye respectively;

Use the second serigraphy fluid sealant, on the liquid crystal molecular orientation layer on second glass substrate, form under the left eye fluid sealant frame of eyeglass viewing area under the eyeglass and right eye respectively.

Preferably, after forming the liquid crystal molecular orientation layer, also comprise:

Friction liquid crystal molecular orientation layer is at the liquid crystal molecular orientation groove of liquid crystal molecular orientation laminar surface formation orientation unanimity.

Use the 3D liquid crystal glasses production method that the embodiment of the invention provided, eyeglass on eyeglass on the left eye and the right eye is arranged on the same glass substrate, simultaneously eyeglass under eyeglass under the left eye and the right eye is arranged on another glass substrate, like this, in the successive process, eyeglass on eyeglass and the right eye on the left eye, or eyeglass can shared same set of production mould under eyeglass and the right eye under the left eye, the right and left eyes liquid crystal lens can be produced simultaneously, and then can obtain identical left eye liquid crystal lens of technical parameter and right eye liquid crystal lens, can solve the inconsistent defective of color that the right and left eyes liquid crystal lens shows.

Description of drawings

In order to be illustrated more clearly in the embodiment of the invention or technical scheme of the prior art, to do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below, apparently, accompanying drawing in describing below only is some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is an eyeglass synoptic diagram on eyeglass and the left eye under the left eye of 3D liquid crystal glasses;

Fig. 2 is an eyeglass synoptic diagram on eyeglass and the right eye under the right eye of 3D liquid crystal glasses;

Fig. 3 a to Fig. 3 d is followed successively by under the left eye of 3D liquid crystal glasses on eyeglass, the left eye under eyeglass, the right eye concrete structure synoptic diagram of eyeglass on the eyeglass and right eye;

The arrangement mode synoptic diagram of eyeglass on eyeglass and the right eye on the left eye that Fig. 4 provides for the embodiment of the invention;

The arrangement mode synoptic diagram of eyeglass under eyeglass and the right eye under the left eye that Fig. 5 provides for the embodiment of the invention;

The last eyeglass arrangement mode that Fig. 6 provides for the embodiment of the invention and the concrete structure synoptic diagram of following eyeglass arrangement mode.

Embodiment

As shown in Figure 1,11 is the synoptic diagram of eyeglass under the left eye of 3D liquid crystal glasses, and 12 is the synoptic diagram of eyeglass on the left eye.As shown in Figure 2,21 is the synoptic diagram of eyeglass under the right eye, and 22 is the synoptic diagram of eyeglass on the right eye.Accompanying drawing 3a is followed successively by under the left eye of 3D liquid crystal glasses on eyeglass, the left eye under eyeglass, the right eye concrete structure synoptic diagram of eyeglass on the eyeglass and right eye to accompanying drawing 3d.

By above-mentioned accompanying drawing as can be known, eyeglass is because shape is different under eyeglass and the left eye on the left eye, and its production mould can not be shared, and in like manner, the production mould of eyeglass can not be shared under eyeglass and the right eye on the right eye.Therefore, in the production run of existing 3D liquid crystal glasses, need four masks, four post skins (two TOP post skins and two PI post skins, the shared post skin of eyeglass under eyeglass and the right eye on the left eye wherein, the shared post skin of eyeglass on eyeglass and the right eye under the left eye) and four pull spring nets.In addition, the color that also can cause the right and left eyes liquid crystal lens to show is inconsistent.

For this reason, the embodiment of the invention provides a kind of 3D liquid crystal glasses production method, comprising: the transparency electrode layer pattern of eyeglass on eyeglass and right eye on the formation left eye on first glass substrate; The transparency electrode layer pattern of eyeglass under eyeglass and right eye under the formation left eye on second glass substrate; On the transparency electrode layer pattern, form surface insulation layer, liquid crystal molecular orientation layer and fluid sealant frame successively; By injecting liquid crystal, panel applying and viewing area cutting processing procedure, obtain left eye liquid crystal lens and right eye liquid crystal lens.

It more than is the application's core concept, below in conjunction with the accompanying drawing in the embodiment of the invention, the technical scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiment only is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment among the present invention, those of ordinary skills belong to the scope of protection of the invention not making the every other embodiment that is obtained under the creative work prerequisite.

The embodiment of the invention provides a kind of 3D liquid crystal glasses production method, comprising:

The transparency electrode layer pattern of eyeglass on eyeglass and right eye on the formation left eye on first glass substrate;

The transparency electrode layer pattern of eyeglass under eyeglass and right eye under the formation left eye on second glass substrate;

On the transparency electrode layer pattern, form surface insulation layer, liquid crystal molecular orientation layer and fluid sealant frame successively;

By injecting liquid crystal, panel applying and viewing area cutting processing procedure, obtain left eye liquid crystal lens and right eye liquid crystal lens.

The 3D liquid crystal glasses production method that present embodiment provides, eyeglass on eyeglass on the left eye and the right eye is arranged on the same glass substrate, simultaneously eyeglass under eyeglass under the left eye and the right eye is provided with on another glass substrate, like this, in the successive process, eyeglass on eyeglass and the right eye on the left eye, or eyeglass can shared same set of production mould under eyeglass and the right eye under the left eye, the right and left eyes liquid crystal lens can be produced simultaneously, and then can obtain identical left eye liquid crystal lens of technical parameter and right eye liquid crystal lens, can solve the inconsistent defective of color that the right and left eyes liquid crystal lens shows.

Form the transparent electrode layer method of patterning of liquid crystal glasses in the embodiment of the invention at glass substrate, specifically can comprise:

Use first mask plate to be mask, successively by coating photoresists, exposure, development and etching processing procedure, the transparency electrode layer pattern of eyeglass on eyeglass and right eye on the formation left eye on first glass substrate;

Use second mask plate to be mask, successively by coating photoresists, exposure, development and etching processing procedure, the transparency electrode layer pattern of eyeglass under eyeglass and right eye under the formation left eye on second glass substrate.

In the present embodiment, described first mask plate can comprise two independently mask graph zones, and one of them is used to form the transparency electrode layer pattern of eyeglass on the left eye, and another is used to form the transparency electrode layer pattern of eyeglass on the right eye.Described first mask plate also can comprise two independently mask graph zones, and one of them is used to form the transparency electrode layer pattern of eyeglass under the left eye, and another is used to form the transparency electrode layer pattern of eyeglass under the right eye.

Wherein, form the manufacturing process of transparency electrode layer pattern, specifically can comprise: glass substrate cleans, and is used to remove dust and impurity on the glass baseplate surface; Coating photoresists, photoresists splash into the crack of even rubber tire and glue coating wheel, and the groove on the glue coating wheel is transferred to the transparency electrode laminar surface with photoresists, and by hot plate glass substrate is heated, and makes the solvent evaporates in the photoresists, solidify photoresists; Exposure, for covering, the photoresists that use the ultraviolet light irradiation to expose make photoresists generation chemical reaction with mask plate; Develop, clean with developer solution and remove the photoresists that react, make photoresists form electrode pattern; Etching, the concrete harsh mode that can adopt is removed the transparent electrode layer that exposes, and forms the transparency electrode layer pattern.In addition, can also comprise cleaning step, with photoresists and other impurity of removing the transparent electrode layer patterned surfaces.

Simultaneously, in order to make follow-up formation surface insulation layer, in the processing procedure of liquid crystal molecular orientation layer and fluid sealant frame, eyeglass can shared insulation course post skin or oriented layer post skin under eyeglass and the right eye under the left eye on eyeglass and second glass substrate on eyeglass and the right eye on the left eye on first glass substrate, to reduce the cost of post skin mould, and avoid frequently more mold exchange, realization is enhanced productivity, in the 3D liquid crystal glasses production method that present embodiment provides, can adjust eyeglass on the left eye, eyeglass under the left eye, the orientation of eyeglass under eyeglass and the right eye on the right eye, with realize making the post skin corresponding with first glass substrate after horizontally rotating 180 degree can with post skin-deep overlap corresponding with second glass substrate.

In the present embodiment, as shown in Figure 4, be the relative position synoptic diagram of eyeglass on eyeglass and the right eye on the left eye on first glass substrate after the adjustment orientation, 12 is that eyeglass on the left eye, 22 is eyeglass on the right eye.Accompanying drawing 5 is for having adjusted on second glass substrate after the orientation under the left eye relative position synoptic diagram of eyeglass under the eyeglass and right eye, and 11 be that eyeglass under the left eye, 21 is an eyeglass under the right eye.As shown in Figure 3 and Figure 4, Fig. 3 energy and Fig. 4 coincidence after horizontally rotating 180 degree.In level in actual production process, can be by the orientation of figure on definition first and second mask plates, realize adjusting on the left eye under eyeglass, the left eye orientation of eyeglass under the eyeglass and right eye on eyeglass, the right eye.As shown in Figure 6, the left side is the concrete structure synoptic diagram of last eyeglass arrangement mode shown in Figure 4, and the right side is the concrete structure synoptic diagram of following eyeglass arrangement mode shown in Figure 5.

Present embodiment provides a kind of transparent electrode layer method of patterning that forms liquid crystal glasses, in addition, and by adjusting the orientation of liquid crystal lens, make first glass substrate and second glass substrate can be in subsequent technique shared production mould, and then can reduce the cost of post skin mould, and avoid frequently more mold exchange, realize enhancing productivity.

On the basis of above-mentioned adjustment liquid crystal lens orientation scheme, present embodiment also provides the method that forms surface insulation layer.

A kind of specific implementation of this method is:

Use the first insulation course post skin, on the transparency electrode layer pattern on first glass substrate, printing forms surface insulation layer;

Second glass substrate is horizontally rotated 180 degree, use the first insulation course post skin, on the transparency electrode layer pattern on second glass substrate, printing forms surface insulation layer.

The another kind of specific implementation of this method is:

Use the second insulation course post skin, on the transparency electrode layer pattern on second glass substrate, printing forms surface insulation layer;

First glass substrate is horizontally rotated 180 degree, use the second insulation course post skin, on the transparency electrode layer pattern on first glass substrate, printing forms surface insulation layer.

Wherein, form the manufacturing process of surface insulation layer, specifically can comprise: use insulation course post skin that insulating material is transferred to the surface of glass substrate, and form surface insulation layer by precuring, radiation curing, main curing and cleaning step successively.In the present embodiment, since the insulation course post skin of the first glass substrate correspondence after horizontally rotating 180 degree can with the insulation course post skin-deep coincidence corresponding with second glass substrate, therefore, by adjusting the direction of first glass substrate or second glass substrate, can only use on the sturdy present left eye of insulation course post the transparency electrode layer pattern of eyeglass on the eyeglass and right eye, form surface insulation layer on the transparent electrode layer patterned surfaces of eyeglass under eyeglass and the right eye under the left eye, in prior art, the scheme that needs two insulation course post skins, present embodiment can reduce the use to insulation course post skin, reduce the cost of mould, and avoid frequently more mold exchange, realize enhancing productivity.

On the basis of above-mentioned adjustment liquid crystal lens orientation scheme, present embodiment also provides the method that forms the liquid crystal molecular orientation layer specifically to comprise:

A kind of specific implementation of this method is:

Use the first oriented layer post skin, above the surface insulation layer on first glass substrate, printing forms the liquid crystal molecular orientation layer;

Second glass substrate is horizontally rotated 180 degree, use the first oriented layer post skin, on the surface insulation layer on second glass substrate, printing forms the liquid crystal molecular orientation layer.

The another kind of specific implementation of this method is:

Use the second oriented layer post skin, above the surface insulation layer on second glass substrate, printing forms the liquid crystal molecular orientation layer;

First glass substrate is horizontally rotated 180 degree, use the second oriented layer post skin, on the surface insulation layer on first glass substrate, printing forms the liquid crystal molecular orientation layer.

Wherein, form the manufacturing process of liquid crystal molecular orientation layer, specifically can comprise: use oriented layer post skin on glass substrate, to print polyimide (Polyamide), and successively by precuring, main curing and cooling water temperature step formation liquid crystal molecular orientation layer.Simultaneously, after forming the liquid crystal molecular orientation layer, can also form the liquid crystal molecular orientation groove of orientation unanimity at the liquid crystal molecular orientation laminar surface by the friction pulley liquid crystal molecular orientation layer that rubs.The rotating speed of friction pulley, the translational speed of glass substrate, the contact length of glass substrate and friction hair has determined density, the degree of depth of groove, directly influences the display effect of liquid crystal glasses.The angle decision liquid crystal twist angle of friction pulley and glass substrate and the view directions of liquid crystal display.In the present embodiment, form in the process of liquid crystal molecular orientation layer, on the left eye on eyeglass and the right eye eyeglass can realize rubbing simultaneously, under the left eye under eyeglass and the right eye eyeglass also can realize simultaneously the friction, therefore can guarantee the isoparametric unanimity of orientation, the degree of depth of groove of the opposite position of right and left eyes liquid crystal lens, the effect unanimity that the right and left eyes eyeglass is shown, the display effect of raising 3D liquid crystal glasses.

Simultaneously, in the present embodiment, since the oriented layer post skin of the first glass substrate correspondence after horizontally rotating 180 degree can with the oriented layer post skin-deep coincidence corresponding with second glass substrate, therefore, by adjusting the direction of first glass substrate or second glass substrate, can only use on the sturdy present left eye of oriented layer post the transparency electrode layer pattern of eyeglass on the eyeglass and right eye, form the liquid crystal molecular orientation layer under the left eye under eyeglass and the right eye on the surface insulation layer of eyeglass, in prior art, the scheme that needs two oriented layer post skins, present embodiment can reduce the use to oriented layer post skin, reduce the cost of mould, and avoid frequently more mold exchange, realize enhancing productivity.

On the basis of above-mentioned adjustment liquid crystal lens orientation scheme, present embodiment also provides the method that forms the fluid sealant frame, specifically comprises:

Use the first serigraphy fluid sealant, on the liquid crystal molecular orientation layer on first glass substrate, form on the left eye fluid sealant frame of eyeglass viewing area on the eyeglass and right eye respectively;

Use the second serigraphy fluid sealant, on the liquid crystal molecular orientation layer on second glass substrate, form under the left eye fluid sealant frame of eyeglass viewing area under the eyeglass and right eye respectively.

In the present embodiment, first silk screen can comprise the display area graphic of eyeglass on the display area graphic of eyeglass on the left eye and the right eye, and second silk screen can comprise the display area graphic of eyeglass under the display area graphic of eyeglass under the left eye and the right eye.In the method that this enforcement provides, can only use two pull spring reticulated printings to form on the left eye on eyeglass, the right eye under eyeglass, the left eye viewing area of eyeglass under the eyeglass and right eye, in prior art, need to use four pull spring nets to print the scheme of four viewing areas respectively, present embodiment can reduce the use to silk screen, reduce the cost of mould, and avoid frequently more mold exchange, realize enhancing productivity.

In addition, in the 3D liquid crystal glasses manufacture method that present embodiment provides, after serigraphy,, obtain left eye liquid crystal lens and right eye liquid crystal lens by injecting liquid crystal, panel applying and viewing area cutting processing procedure.And, obtain the 3D liquid crystal glasses by final assembling.

The 3D liquid crystal glasses manufacture method that the embodiment of the invention provides, eyeglass on eyeglass on the left eye and the right eye is arranged on the same glass substrate, simultaneously eyeglass under eyeglass under the left eye and the right eye is arranged on another glass substrate, like this, in the successive process, eyeglass on eyeglass and the right eye on the left eye, or eyeglass can shared same set of production mould under eyeglass and the right eye under the left eye, the right and left eyes liquid crystal lens can be produced simultaneously, and then can obtain identical left eye liquid crystal lens of technical parameter and right eye liquid crystal lens, can solve the inconsistent defective of color that the right and left eyes liquid crystal lens shows.Simultaneously, can reduce use, reduce the cost of mould, and avoid frequently more mold exchange, realize enhancing productivity insulation course post skin, oriented layer post skin and silk screen.

Various piece adopts the mode of going forward one by one to describe in this instructions, and what each part stressed all is and the difference of other parts that identical similar part is mutually referring to getting final product between the various piece.To the above-mentioned explanation of the disclosed embodiments, make this area professional and technical personnel can realize or use the present invention.Multiple modification to these embodiment will be conspicuous concerning those skilled in the art, and defined herein General Principle can realize under the situation that does not break away from the spirit or scope of the present invention in other embodiments.Therefore, the present invention will can not be restricted to embodiment illustrated herein, but will meet and principle disclosed herein and features of novelty the wideest corresponding to scope.

Claims (9)

1. a 3D liquid crystal glasses production method is characterized in that, comprising:

The transparency electrode layer pattern of eyeglass on eyeglass and right eye on the formation left eye on first glass substrate;

The transparency electrode layer pattern of eyeglass under eyeglass and right eye under the formation left eye on second glass substrate;

On the transparency electrode layer pattern, form surface insulation layer, liquid crystal molecular orientation layer and fluid sealant frame successively;

By injecting liquid crystal, panel applying and viewing area cutting processing procedure, obtain left eye liquid crystal lens and right eye liquid crystal lens.

2. method according to claim 1 is characterized in that, forms the transparency electrode layer pattern and specifically comprises:

Use first mask plate to be mask, successively by coating photoresists, exposure, development and etching processing procedure, the transparency electrode layer pattern of eyeglass on eyeglass and right eye on the formation left eye on first glass substrate;

Use second mask plate to be mask, successively by coating photoresists, exposure, development and etching processing procedure, the transparency electrode layer pattern of eyeglass under eyeglass and right eye under the formation left eye on second glass substrate.

3. method according to claim 2 is characterized in that, before forming the transparency electrode layer pattern, also comprises:

Adjust on first mask plate on the left eye on the eyeglass and right eye on eyeglass, second mask plate orientation of eyeglass corresponding mask figure under the eyeglass and right eye under the left eye respectively, make the post skin corresponding with first glass substrate after horizontally rotating 180 degree can with post skin-deep overlap corresponding with second glass substrate.

4. method according to claim 3 is characterized in that, forms surface insulation layer and specifically comprises:

Use the first insulation course post skin, on the transparency electrode layer pattern on first glass substrate, printing forms surface insulation layer;

Second glass substrate is horizontally rotated 180 degree, use the first insulation course post skin, on the transparency electrode layer pattern on second glass substrate, printing forms surface insulation layer.

5. method according to claim 3 is characterized in that, forms surface insulation layer and specifically comprises:

Use the second insulation course post skin, on the transparency electrode layer pattern on second glass substrate, printing forms surface insulation layer;

First glass substrate is horizontally rotated 180 degree, use the second insulation course post skin, on the transparency electrode layer pattern on first glass substrate, printing forms surface insulation layer.

6. method according to claim 3 is characterized in that, forms the liquid crystal molecular orientation layer and specifically comprises:

Use the first oriented layer post skin, above the surface insulation layer on first glass substrate, printing forms the liquid crystal molecular orientation layer;

Second glass substrate is horizontally rotated 180 degree, use the first oriented layer post skin, on the surface insulation layer on second glass substrate, printing forms the liquid crystal molecular orientation layer.

7. method according to claim 3 is characterized in that, forms the liquid crystal molecular orientation layer and specifically comprises:

Use the second oriented layer post skin, above the surface insulation layer on second glass substrate, printing forms the liquid crystal molecular orientation layer;

First glass substrate is horizontally rotated 180 degree, use the second oriented layer post skin, on the surface insulation layer on first glass substrate, printing forms the liquid crystal molecular orientation layer.

8. method according to claim 3 is characterized in that, forms the fluid sealant frame and specifically comprises:

Use the first serigraphy fluid sealant, on the liquid crystal molecular orientation layer on first glass substrate, form on the left eye fluid sealant frame of eyeglass viewing area on the eyeglass and right eye respectively;

Use the second serigraphy fluid sealant, on the liquid crystal molecular orientation layer on second glass substrate, form under the left eye fluid sealant frame of eyeglass viewing area under the eyeglass and right eye respectively.

9. method according to claim 1 is characterized in that, after forming the liquid crystal molecular orientation layer, also comprises:

Friction liquid crystal molecular orientation layer is at the liquid crystal molecular orientation groove of liquid crystal molecular orientation laminar surface formation orientation unanimity.

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