CN107479206B - A kind of preparation method of naked eye 3D touch-control display module - Google Patents

Abstract

The invention discloses a kind of preparation methods of naked eye 3D touch-control display module, naked eye 3D touch-control display module includes the cover board from top to bottom set gradually, touch control layer, grating carrier, reflecting layer and display component, which includes the following steps: reflecting layer to be arranged on the first side of grating carrier；After reflecting layer is arranged in the first side of grating carrier, touch control layer is transferred to second side of grating carrier, forms barrier grating；The reflecting layer of barrier grating is bonded with display component, reflecting layer is set between grating carrier and display component；The barrier grating for being fitted with display component is bonded with cover board, cover board is set to side of the touch control layer far from grating carrier.The preparation method can effectively improve the product yield of display module, reduce production cost.

Description

A method for preparing a naked-eye 3D touch display module

technical field

The invention relates to the technical field of touch display, in particular to a method for preparing a naked-eye 3D touch display module.

Background technique

At present, the mainstream naked-eye 3D touch display panel in the market is to set a grating barrier with touch function with suitable parameters between the display module and the protective cover. The production process is as follows: The metal reflective layer is etched into a strip structure to form a grating barrier, so that the image of the display is split, so that the left and right eyes of the person receive different images, which are fused by the central nervous system of the human brain to realize the naked eye 3D display function; then, in the On the other surface of the grating carrier, a conductive material such as ITO is vapor-deposited, and the touch electrode pattern is formed after exposure, development, and etching. Further, silver paste is screen-printed on the edge of the touch electrode pattern, and etched to form an edge silver paste lead, which is processed into a The grating barrier with touch function is bonded with the display module and the protective cover to form a naked-eye 3D touch display panel.

However, when processing the touch layer on the other side of the grating carrier, it is necessary to protect the grating carrier metal reflective layer prepared by the grating carrier, because the manufacturing process of the touch layer needs to go through the acid etching process to process the touch electrode pattern, and The material of the metal reflective layer on the surface of the grating carrier is generally a metal material that is easily soluble in acid solution, such as aluminum metal. Often, the metal reflective layer on the surface of the grating carrier is etched due to the damage of the protective layer of the metal reflective layer of the grating carrier, causing the product to be scrapped, resulting in The problem of low product yield and high cost.

Contents of the invention

In order to overcome the deficiencies of the prior art, one of the purposes of the present invention is to provide a method for manufacturing a naked-eye 3D touch display module, which can effectively improve product yield and reduce production cost.

One of purpose of the present invention adopts following technical scheme to realize:

A method for preparing a naked-eye 3D touch display module. The naked-eye 3D touch display module includes a cover plate, a touch layer, a grating carrier, a reflective layer, and a display component arranged sequentially from top to bottom. The preparation method includes the following steps: step:

disposing the reflective layer on a first side of the grating carrier;

After the reflective layer is arranged on the first side of the grating carrier, the touch layer is transferred to the second side of the grating carrier to form a barrier grating;

bonding the reflective layer of the barrier grating to the display component, the reflective layer being arranged between the grating carrier and the display component;

The barrier grating bonded with the display component is bonded to the cover plate, and the cover plate is arranged on a side of the touch layer away from the grating carrier.

Further, the touch layer is transferred to the second side of the grating carrier to form a barrier grating, which specifically includes:

setting a touch layer on the substrate;

Coating a first glue layer on the side of the touch layer away from the substrate;

bonding the side of the first adhesive layer away from the touch layer to the second side of the grating carrier to form a barrier grating semi-finished product;

The substrate of the barrier grating blank is removed to form the barrier grating.

Further, the step of setting the touch layer on the substrate specifically includes:

A conductive grid of nano-conductive material is arranged on one side of the substrate;

Etching the conductive grid to form a touch electrode pattern;

Silver paddle leads are arranged on the edge of the touch electrode pattern.

Further, the arranging the conductive grid of nano-conductive material on one side of the substrate specifically includes: screen-printing the dispersion of nano-conductive material on one side of the substrate, heating and curing to form a conductive grid of nano-conductive material.

Further, the thickness of the nano conductive material dispersion is 1-2um.

Further, arranging silver paste leads on the edge of the touch electrode pattern, specifically: silver paste is screen-printed on the edge of the touch electrode pattern of the substrate, baked and etched to form the silver paste lead.

Further, the bonding of the reflective layer of the barrier grating to the display component is specifically:

The reflective layer of the barrier grating is attached to the display component through the second adhesive layer.

Further, the bonding of the barrier grating bonded with the display component to the cover plate is specifically:

The barrier grating bonded with the display component is bonded to the cover plate through the third adhesive layer.

Further, the second adhesive layer and the third adhesive layer are both optical adhesive layers.

Further, the light transmittance of the first adhesive layer is greater than 90%.

Compared with the prior art, the beneficial effects of the present invention are:

Since the preparation method of the embodiment of the present invention transfers the touch layer to the grating carrier provided with the reflective layer, the touch layer and the reflective layer are respectively arranged on both sides of the grating carrier to form a barrier grating with a touch function, and then The barrier grating is attached to the cover plate and the display component to realize the naked-eye 3D touch display function. The above preparation method can avoid that the material of the reflective layer is generally soluble in acid solution. When the touch layer is produced through an acid etching process on the grating carrier provided with the reflective layer, the reflective layer is easily etched, resulting in naked-eye 3D touch display. The problem of module scrapping. Therefore, the above preparation method successfully solves the problem of low yield of the reflective layer and the touch layer on both sides of the grating carrier, thereby improving the production yield of the naked-eye 3D touch display module and reducing the production cost.

Description of drawings

FIG. 1 is a flowchart of a method for preparing a naked-eye 3D touch display module provided by an embodiment of the present invention;

FIG. 2 is a schematic diagram of a naked-eye 3D touch display module provided by an embodiment of the present invention;

3 is a schematic diagram of the barrier grating of the naked-eye 3D touch display module in FIG. 2 , wherein the substrate is not separated from the combination of the touch layer, the first adhesive layer, the grating carrier and the reflective layer.

In the figure: 10, cover plate; 20, touch layer; 30, grating carrier; 40, reflective layer; 50, display component; 60, substrate; 70, first adhesive layer; 80, second adhesive layer; 90, second Three glue layers.

Detailed ways

Below, the present invention will be further described in conjunction with the accompanying drawings and specific implementation methods. It should be noted that, under the premise of not conflicting, the various embodiments described below or the technical features can be combined arbitrarily to form new embodiments. .

Referring to FIGS. 1-3 , the naked-eye 3D touch display module in the present invention includes a cover plate 10 , a touch layer 20 , a grating carrier 30 , a reflective layer 40 and a display component 50 arranged in sequence from top to bottom.

The method for preparing a naked-eye 3D touch display module according to an embodiment of the present invention includes the following steps:

S01 : Arranging the reflective layer 40 on the first side of the grating carrier 30 .

Specifically, the reflection layer 40 is a metal reflection layer.

S02: After disposing the reflective layer 40 on the first side of the grating carrier 30, transfer the touch layer 20 to the second side of the grating carrier 30 to form a barrier grating.

It can be understood that firstly, the touch layer 20 is disposed on the substrate 60 . This step is specifically: coating the dispersion liquid of the nano conductive material on the inorganic rigid substrate 60 with a flat surface, and removing the solvent in the dispersion liquid through heat treatment, thereby forming a conductive grid of the nano conductive material on one side of the inorganic rigid substrate 60 , etch the conductive grid to form a touch electrode pattern. The thickness of the nano conductive material dispersion liquid is 1-2um. Silver paste is screen-printed on the edge of the touch electrode pattern on the surface of the substrate 60 , baked and etched to form edge silver paste leads, that is, the touch layer 20 is made.

Secondly, the first adhesive layer 70 is coated on the side of the touch layer 20 away from the substrate 60 , and pre-cured by a light curing machine. The light transmittance of the first adhesive layer 70 is greater than 90%, and the curing shrinkage rate is less than 0.2%. The light pre-curing energy of the first adhesive layer 70 is 2000-4000mj/c㎡, which can not only avoid the difficulty of fixing the touch layer 20 on the grating carrier 30 due to insufficient curing of the first adhesive layer 70, but also avoid Because the light pre-curing energy is too high, the curing shrinkage of the first adhesive layer 70 is too large and warpage occurs, thereby improving the production yield of the display module.

After the first adhesive layer 70 is pre-cured, the side of the first adhesive layer 70 away from the touch layer 20 is bonded to the second side of the grating carrier 30, and finally cured by a light curing machine to form a semi-finished barrier grating. Wherein the touch layer 20 and the reflective layer 40 are respectively disposed on the grating carrier 30 .

The substrate 60 of the barrier grating blank is removed to form the barrier grating. Specifically, the substrate 60 is separated from the combination of the grating carrier 30 , the reflective layer 40 , the touch layer 20 , the first glue layer 70 and the substrate 60 to transfer the touch layer 20 to the second side of the grating carrier 30 And form a barrier grating.

S03: Attach the reflective layer 40 of the barrier grating to the display component 50 , and the reflective layer 40 is disposed between the grating carrier 30 and the display component 50 .

Specifically, the reflective layer 40 of the barrier grating is bonded to the display component 50 through the second adhesive layer 80, and degassed under pressure.

S04 : Bond the barrier grating with the display component 50 bonded to the cover plate 10 , and the cover plate 10 is disposed on a side of the touch layer 20 away from the grating carrier 30 .

Specifically, the barrier grating bonded with the display component 50 is bonded to the cover plate 10 through the third adhesive layer 90, that is, a naked-eye 3D touch display module is manufactured.

It can be understood that both the second adhesive layer 80 and the third adhesive layer 90 are optical adhesive layers.

The manufacturing method of the naked-eye 3D touch display module provided in the above embodiment is to separately manufacture the touch layer 20 on the surface of the substrate 60, and coat the first adhesive layer 70 on the side of the touch layer 20 away from the substrate 60, and pass the second An adhesive layer 70 transfers the touch layer 20 to the side of the grating carrier 30 close to the cover plate 10, and then separates the substrate from the above-mentioned assembly to form a barrier grating with a touch function, and then connects the barrier grating to the cover plate and The display components are bonded to realize the naked-eye 3D touch display function. The above preparation method can avoid that the reflective layer 40 is easily etched when the touch layer 20 is produced through an acid etching process on the grating carrier 30 provided with the reflective layer 40 because the material of the reflective layer 40 is generally soluble in acid solution, resulting in The problem of scrapping naked-eye 3D touch display modules. Therefore, the manufacturing method of the naked-eye 3D touch display module provided by the embodiment of the present invention successfully solves the problem of low yield of the reflective layer and the touch layer on both sides of the grating carrier at the same time, thereby improving the efficiency of the naked-eye 3D touch display module. The production yield of the group is reduced, and the production cost is reduced.

The embodiment of the present invention also provides a display panel, the display panel includes the display module produced by the above preparation method, the production yield of the display panel is high, and the production cost is low.

The above-mentioned embodiment is only a preferred embodiment of the present invention, and cannot be used to limit the protection scope of the present invention. Any insubstantial changes and substitutions made by those skilled in the art on the basis of the present invention belong to the scope of the present invention. Scope of protection claimed.

Claims (10)

1. a kind of preparation method of naked eye 3D touch-control display module, naked eye 3D touch-control display module includes from top to bottom successively setting Cover board, touch control layer, grating carrier, reflecting layer and the display component set, which is characterized in that the preparation method includes the following steps:

The reflecting layer is arranged on the first side of the grating carrier；

After reflecting layer is arranged in the first side of the grating carrier, the touch control layer is transferred to the second of the grating carrier Side forms barrier grating；

The reflecting layer of the barrier grating is bonded with the display component, the reflecting layer be set to the grating carrier with it is described Between display component；

The barrier grating for being fitted with the display component is bonded with the cover board, the cover board is set to the touch control layer far from institute State the side of grating carrier.

2. the preparation method of naked eye 3D touch-control display module as described in claim 1, which is characterized in that turn the touch control layer Second side of the grating carrier is printed to, barrier grating is formed, specifically includes:

Touch control layer is set on substrate；

The first glue-line is coated with far from the side of the substrate in touch control layer；

Side by first glue-line far from the touch control layer is bonded with second side of the grating carrier, forms barrier grating Semi-finished product；

The substrate of barrier grating semi-finished product is removed, barrier grating is formed.

3. the preparation method of naked eye 3D touch-control display module as claimed in claim 2, which is characterized in that described to be set on substrate Touch control layer step is set to specifically include:

In the conductive grid of substrate side setting nanometer conductive material；

The conductive grid is etched, touch control electrode pattern is formed；

In the touch control electrode pattern edge, silver-colored paddle lead is set.

4. the preparation method of naked eye 3D touch-control display module as claimed in claim 3, which is characterized in that described in substrate side The conductive grid of nanometer conductive material is set, specifically: by nanometer conductive material dispersion liquid silk-screen in the side of substrate, heating is solid Change, forms the conductive grid of nanometer conductive material.

5. the preparation method of naked eye 3D touch-control display module as claimed in claim 4, which is characterized in that the conductive nano material Expect dispersion liquid with a thickness of 1-2um.

6. the preparation method of naked eye 3D touch-control display module as claimed in claim 3, which is characterized in that in the touch control electrode Silver paste lead is arranged in pattern edge, specifically: in the touch control electrode pattern edge silk-screen silver paddle of the substrate, toasts and etch, Form silver-colored paddle lead.

7. the preparation method of naked eye 3D touch-control display module as described in claim 1, which is characterized in that described by the barrier The reflecting layer of grating is bonded with the display component, specifically:

The reflecting layer of the barrier grating is bonded by the second glue-line with the display component.

8. the preparation method of naked eye 3D touch-control display module as claimed in claim 7, which is characterized in that described to be bonded The barrier grating for stating display component is bonded with the cover board, specifically:

The barrier grating for being fitted with the display component is bonded by third glue-line with the cover board.

9. the preparation method of naked eye 3D touch-control display module as claimed in claim 8, which is characterized in that second glue-line and Third glue-line is optical adhesive layer.

10. the preparation method of naked eye 3D touch-control display module as claimed in claim 2, which is characterized in that first glue-line Light transmittance be greater than 90%.