CN105094400B - Manufacture the method and its embedded touch control panel of embedded touch control panel - Google Patents

Abstract

The present invention provides a kind of method and its embedded touch control panel of manufacture embedded touch control panel, and the method for manufacturing embedded touch control panel includes the following steps：A base is provided, base includes an inside；A light shield layer is provided, light shield layer is set on inside, and light shield layer includes a shading region and multiple emptying apertures；Multiple metal routings are provided, plurality of metal routing is set on shading region, and does not cover multiple emptying apertures；A conductive film layer is provided, conductive film layer covers filter membranous layer, another part metal routing and light shield layer.The present invention also provides a kind of embedded touch control panel, embedded touch control panel includes a base, a light shield layer, multiple metal routings, a filter membranous layer and a conductive film layer.

Description

Manufacture the method and its embedded touch control panel of embedded touch control panel

Technical field

It is the present invention relates to a kind of method of manufacture embedded touch control panel, more particularly to a kind of low and wear to manufacturing cost The method of the manufacture embedded touch control panel of the good embedded touch control panel of saturating rate.

Background technology

In modern society, since the product (such as tablet computer, smartphone) with Touch Screen is convenient and holds It easily uses, therefore very popular.Traditional Touch Screen is designed as the construction of table embedded (On Cell), embedding in table It, can be (also as closer to make close to outside in colored filter (Color Filter) in the manufacturing process of the Touch Screen of formula The side that user touches) surface on, stick color blocking layer and indium tin oxide (Indium Tin Oxide, ITO) layer.However, In one of the Touch Screen manufacturing process of existing table embedded step, it is necessary to by colored filter turn-over, and turn-over The step of be easy to make colored filter or color blocking layer to generate scratch, and be easy to happen static discharge (Electrostatic Discharge, ESD) the problem of, and the manufacturing yield of the Touch Screen of table embedded is declined, cost.Therefore, manufacturer Then the Touch Screen for developing embedded (In Cell) can avoid what the Touch Screen of table embedded occurred in the fabrication process Problem.

In the manufacturing process of embedded Touch Screen, by black-matrix layer (Black Matrix), metal net shaped line Colored filter is attached on the surface of inside (being also the side touched further away from user) with color blocking layer.Black matrix" Layer is used for covering the part for being not required to light transmission, and with multiple emptying apertures, hole part passes through for light, and the part of non-emptying aperture is then used To cover light, the effect of to reach the region for covering and being not required to light transmission.However, traditional metal net shaped line can stop black The emptying aperture of matrix layer, and the problem for causing the penetrance of light bad so that the picture that Touch Screen is presented is less desirable.

Therefore, it is necessary to provide a kind of method of new manufacture embedded touch control panel, can be used to manufacturing cost it is low and The good embedded touch control panel of penetrance.

Invention content

In view of this, the main object of the present invention is to provide a kind of method of manufacture embedded touch control panel, can be used to Manufacture thinner thickness, embedded touch control panel at low cost and good penetrance.

For the purpose for reaching above-mentioned, the method for manufacture embedded touch control panel of the invention, step includes：One base is provided Layer, base include an inside；There is provided a light shield layer, light shield layer is set on inside, and light shield layer includes a shading region and multiple Emptying aperture；Multiple metal routings are provided, plurality of metal routing is set on shading region, and does not cover multiple emptying apertures；There is provided one Filter membranous layer, filter membranous layer are set on light shield layer and a portion metal routing；A conductive film layer is provided, conductive film layer covers Lid filter membranous layer, another part metal routing and light shield layer.

In one embodiment of this invention, plurality of metal routing forms multiple conducting areas, and it is mutual that area is connected in two of which Phase separation.

In one embodiment of this invention, wherein conductive film layer further includes a conductive film area and an at least bridge region.It is conductive Film area is detached with an at least bridge region, and an at least bridge region connects two conducting areas disconnected from each other.

In one embodiment of this invention, wherein the method for manufacture embedded touch control panel further includes：There is provided one photosensitive Gap part, photosensitive gap part are set on conductive film layer.

In one embodiment of this invention, wherein photosensitive gap part is set to conductive film area.

Another main purpose of the present invention is to provide a kind of embedded touch control panel.Embedded touch control panel includes a base Layer, a light shield layer, multiple metal routings, a filter membranous layer and a conductive film layer.Base includes an inside.Light shield layer is set to inside On, and light shield layer includes a shading region and multiple emptying apertures.Multiple metal routings are set on shading region, and do not cover multiple skies Hole.Filter membranous layer is set on light shield layer and a portion metal routing.Conductive film layer covers filter membranous layer, another part gold Belong to cabling and light shield layer.

Below in conjunction with the drawings and specific embodiments, the present invention will be described in detail, but not as a limitation of the invention.

Description of the drawings

Fig. 1 is the step flow chart of the method for the manufacture embedded touch control panel of one embodiment of the invention；

Fig. 2 is the schematic diagram of the base of one embodiment of the invention；

Fig. 3 is the vertical view of the light shield layer of one embodiment of the invention；

Fig. 4 is the light shield layer of one embodiment of the invention and the schematic diagram of base；

Fig. 5 is the vertical view of the light shield layer provided with metal routing of one embodiment of the invention；

Fig. 6 is the schematic diagram of the light shield layer provided with metal routing of one embodiment of the invention；

Fig. 7 is the vertical view of the filter membranous layer for covering metal routing and light shield layer of one embodiment of the invention；

Fig. 8 is the schematic diagram of the filter membranous layer for covering metal routing and light shield layer of one embodiment of the invention；

Fig. 9 is the vertical view of the conductive film layer for covering filter membranous layer of one embodiment of the invention；

Figure 10 is the schematic diagram of the conductive film layer for covering filter membranous layer of one embodiment of the invention；

Figure 11 is the schematic diagram of the embedded touch control panel of one embodiment of the invention；

Figure 12 is the circuit structure diagram of the touch control electronic device of one embodiment of the invention.

Wherein, reference numeral：

Embedded touch control panel 1

Base 10

Inside 11

Outside 12

Light shield layer 20

Shading region 21

Emptying aperture 22

Metal routing 30,30a

Area 31,31a is connected

Filter membranous layer 40,40a, 40b

Conductive film layer 50

Conductive film area 51

Bridge region 52

Photosensitive gap part 60

Touch control electronic device 100

Display module circuit 110

Touch-control module circuit 120

Controller 130

101~106：Step

Specific implementation mode

To will appreciate that the technology contents of the present invention, spy are enumerated specific embodiment and are described as follows.

Side please also refer to Fig. 1 to Figure 12 about the manufacture embedded touch control panel according to one embodiment of the invention below Method and embedded touch control panel.Fig. 1 is the step flow of the method for the manufacture embedded touch control panel of one embodiment of the invention Figure；Fig. 2 is the schematic diagram of the base of one embodiment of the invention；Fig. 3 is the vertical view of the light shield layer of one embodiment of the invention； Fig. 4 is the light shield layer of one embodiment of the invention and the schematic diagram of base；Fig. 5 is one embodiment of the invention provided with metal The vertical view of the light shield layer of cabling；Fig. 6 is the schematic diagram of the light shield layer provided with metal routing of one embodiment of the invention；Figure 7 be the vertical view of the filter membranous layer for covering metal routing and light shield layer of one embodiment of the invention；Fig. 8 is the one of the present invention The schematic diagram of the filter membranous layer for covering metal routing and light shield layer of embodiment；Fig. 9 is the covering of one embodiment of the invention The vertical view of the conductive film layer of filter membranous layer；Figure 10 is the conductive film layer for covering filter membranous layer of one embodiment of the invention Schematic diagram；Figure 11 is the schematic diagram of the embedded touch control panel of one embodiment of the invention；Figure 12 is the implementation of the present invention The circuit structure diagram of the touch control electronic device of example.

As shown in Figure 1, Figure 11 and Figure 12, the method for the manufacture embedded touch control panel of the present embodiment is to manufacture one to touch Embedded (In Cell) touch panel 1 of control formula electronic device 100 (such as smartphone or tablet computer).It is embedded Touch panel 1 is electrically connected other electronic building bricks in touch control electronic device 100, such as display module circuit 110, touch-control module Circuit 120 and controller 130.In the method for the manufacture embedded touch control panel of the present embodiment, first, step need to be carried out 101：A base is provided, base includes an inside.

As shown in Fig. 2, an embodiment according to the present invention, provides a base 10, base 10 includes outside an inside 11 and one Side 12.In the present invention, inside 11 is far from the one side for user's touch-control, and outside 12 is proximate to one for user's touch-control Face.The base 10 of the present invention is a glass substrate, however the type of base 10 is not limited with glass substrate.

Then, step 102 is carried out：A light shield layer is provided, light shield layer is set to the upper of inside, and light shield layer includes a shading region With multiple emptying apertures.

As shown in Figure 3 and Figure 4, a light shield layer 20 is provided, light shield layer 20 is set to the upper of the inside 11 of base 10.The present invention's Light shield layer 20 is, for example, a black-matrix layer (Black Matrix) comprising a shading region 21 and multiple emptying apertures 22.Shading region 21 are not required to the region of light transmission to cover, and multiple emptying apertures 22 are then penetrated with for light.

Then, step 103 is carried out：Multiple metal routings are provided, multiple metal routings are set on shading region, and are not covered Multiple emptying apertures.

As shown in Figure 5 and Figure 6, multiple metal routings 30,30a are provided, multiple metal routings 30,30a are provided at shading region On 21, and multiple emptying apertures 22 are not covered；Thereby, multiple metal routings 30,30a will not cover the light for penetrating multiple emptying apertures 22 Line, and make embedded touch control panel 1 that there is good penetrance.Connected metal routing 30,30a can be formed with capacitance work( Multiple conducting areas 31 of energy, 31a；Two of which conducting area 31 is disconnected from each other, and connected conducting area 31a can then form one vertically Axial capacitance.Due between two conducting areas 31 not for the metal routing of electric connection 30,30a connections, at this time Two conducting areas 31 can not be electrically connected mutually.However, the conducting area 31 of the metal routing 30 of the present invention, 30a formation, 31a Between electrical connection, be not limited with above-mentioned, can be changed according to the circuit design demand of embedded touch control panel 1 Become, such as metal routing 30,30a also may be designed to be formed the conducting area of a piece of large area.Actual experiment by the present invention is demonstrate,proved In fact, multiple metal routings 30 of the invention, the resistance value of 30a are fairly small, and the electricity of consumption is smaller, and may achieve preferably energy-efficient Effect；In addition, since consumption electricity is smaller, the electronic noise caused by embedded touch control panel 1 also can be smaller.

Then, step 104 is carried out：A filter membranous layer is provided, filter membranous layer is set to light shield layer and a portion metal is walked On line.

As shown in Figure 7 and Figure 8, a filter membranous layer 40,40a, 40b are provided, filter membranous layer 40 of the invention, 40a, 40b are Chromatic photoresist (Color Resist) with translucency, such as filter membranous layer 40 are red photoresists, and filter membranous layer 40a is green The photoresist of color, filter membranous layer 40b are the photoresists of blue.Filter membranous layer 40,40a, 40b are set to light shield layer 20 and a portion gold Belong on cabling 30, and does not cover the metal routing 30a of another part.When light penetrates the emptying aperture 22 of light shield layer 20, light Line will continue to across filter membranous layer 40,40a, 40b, and so that light is presented by the filter membranous layer of different color 40,40a, 40b Different colors.Among the embodiment of the present invention, the region that filter membranous layer 40,40a, 40b are not covered is two disconnected from each other Conducting area 31 part metal routing 30a (as shown in Figure 7).However, the filter membranous layer 40 of the present invention, 40a, 40b do not cover The region of lid is not limited with above-mentioned, can be changed according to the design requirement of embedded touch control panel 1.In addition, filter membranous layer 40, the effect of 40a, 40b also can provide protection and insulation to the metal routing 30 covered.

Then, step 105 is carried out：A conductive film layer is provided, conductive film layer covers filter membranous layer, another part metal routing And light shield layer.

As shown in Figure 9 and Figure 10, a conductive film layer 50 is provided, can be used as required when embedded touch control panel generation electric field The common electrode (Vcom) wanted.The conductive film layer 50 of the present invention is an indium tin oxide (Indium Tin Oxide, ITO) layer, It includes a conductive film area 51 and a bridge region 52.Conductive film area 51 and bridge region 52 detach.Bridge region 52 is covered without filter The metal routing 30a that light film layer 40,40a, 40b are covered, so that two conducting areas 31 disconnected from each other are electrically connected mutually.By The design that bridge region 52 is connect with two conducting areas 31 disconnected from each other can make two conducting areas 31 disconnected from each other mutual It is electrically connected；By the design of bridge region 52, each conducting area 31 that also can further make same axis online is electrical mutually Connection.However the quantity of bridge region 52 is not limited with above-mentioned, can be changed according to design requirement.Due to insulating property (properties) Filter membranous layer 40,40a, 40b be set between conducting area 31a and conductive film area 51 and bridge region 52, therefore be connected and area 31a and lead Electrolemma area 51 and bridge region 52 will not be electrically connected.

Finally, step 106 is carried out：A photosensitive gap part is provided, photosensitive gap part is set on conductive film layer.

As shown in figure 11, a photosensitive gap part 60 is provided, photosensitive gap part 60 is made to be set on conductive film layer 50.In the present invention Among, photosensitive gap part 60 is to make to keep a uniform spacing between embedded touch control panel 1 and other substrates, photosensitive Gap part 60 is provided in the conductive film area 51 of conductive film layer 50, without being located on bridge region 52, is electrically connected to avoid interference. However, the quantity of photosensitive gap part 60 is not limited with above-mentioned, can change according to design requirement.

By the method for the manufacture embedded touch control panel of the present invention, it is possible to produce an embedded touch control panel 1.Such as figure Shown in 11, embedded touch control panel 1 of the invention includes a base 10, a light shield layer 20, multiple metal routings 30,30a, a filter Light film layer 40, a conductive film layer 50 and a photosensitive gap part 60.Base 10 includes an inside 11 and an outside 12 (such as Fig. 2 institutes Show).Inside 11 is far from the one side for user's touch-control, and outside 12 is then proximate to the one side for user's touch-control.The present invention's Base 10 is a glass substrate.

As shown in Figures 3 to 6, light shield layer 20 is set on the inside 11 of base 10.The present invention light shield layer 20 be, for example, One black-matrix layer (Black Matrix) a comprising shading region 21 and multiple emptying apertures 22.Multiple metal routings 30,30a are On shading region 21, and multiple emptying apertures 22 are not covered.Connected metal routing 30,30a can form leading with capacitive function Logical area 31,31；Among the embodiment of the present invention, disjunct multiple metal routings 30,30a formed multiple conducting areas 31, 31a, it is disconnected from each other that area 31 is connected in two of which.

As shown in Figure 7 and Figure 8, filter membranous layer 40,40a, 40b be set to light shield layer 20 and a portion metal routing 30 it On, and the metal routing 30a of another part is not covered.As shown in Figure 9 and Figure 10, conductive film layer 50 includes a conductive film area 51 With a bridge region 52, conductive film area 51 and bridge region 52 detach.Bridge region 52 covers non-filtered film layer 40,40a, 40b cover The metal routing 30a of lid, so that two conducting areas 31 disconnected from each other are electrically connected mutually.As shown in figure 11, photosensitive gap part 60 are set in the conductive film area 51 of conductive film layer 50, without being located on bridge region 52.

As is illustrated by figs. 11 and 12, when the embedded touch control panel 1 of the present invention is in actual installation to touch control electronic device When 100 inside, one end of the induction electrode (Rx) of a controller 130 and a touch-control module circuit 120 can be electrically connected to.Control Device 130 processed is to switching circuit, so that embedded touch control panel 1 is electrically connected to a display module circuit 110；Or it will be electric Road switches to one end of the driving electrodes (Tx) of a touch-control module circuit 120 so that embedded touch control panel 1 be electrically connected to it is tactile The driving electrodes and induction electrode for controlling modular circuit 120, to form a complete touch-control circuit.When 130 switching circuit of controller, When embedded touch control panel 1 being made to be electrically connected to display module circuit 110, controller 130 can also control conductive film layer 50, make to lead Electrolemma layer 50 is as the generation required common electrode of electric field；Thereby, as 50 meeting of the conductive film layer of common electrode and display mould Block circuit 11 generates an electric field, which can change the liquid crystal of the LCD panel (not shown) of touch control electronic device 100 The axial direction of molecule, to adjust the incident light direction of LCD panel.When 130 switching circuit of controller, make embedded touch control panel 1 When being electrically connected to the driving electrodes and induction electrode of touch-control module circuit 120, the signal of driving electrodes and induction electrode can pass It send to the conductive film layer 50 of embedded touch control panel 1, thereby, conductive film layer 50 can have the effect of induction touch-control.

By the method for the embedded touch control panel of the present invention, it is embedded tactile that one can be produced with more easy processing procedure Panel 1 is controlled, to reach the effect of reducing cost.It is embedded tactile made by the method for embedded touch control panel through the invention Controlling panel 1 has good penetrance, good energy-saving effect and lower noise.In addition, the metal routing 30 of the present invention can Form an axial capacitance touching control component, and the connection of metal routing 30a and bridge region 52 can then be formed it is another axial Capacitance touching control component；Thereby, embedded touch control panel 1 can form complete touch tablet.In addition, 1 He of embedded touch control panel The cooperation of controller 130 can make embedded touch control panel 1 have the effect of common electrode or induction touch-control.

Certainly, the present invention can also have other various embodiments, without deviating from the spirit and substance of the present invention, ripe It knows those skilled in the art and makes various corresponding change and deformations, but these corresponding changes and change in accordance with the present invention Shape should all belong to the protection domain of appended claims of the invention.

Claims (6)

1. a kind of method of manufacture embedded touch control panel, which is characterized in that this approach includes the following steps：

A base is provided, which includes an inside；

A light shield layer is provided, which is set on the inside, and the light shield layer includes a shading region and multiple emptying apertures；

Multiple metal routings are provided, wherein multiple metal routing is set on the shading region, and do not cover multiple emptying aperture, it should Multiple metal routings form multiple conducting areas, and it is disconnected from each other that area is connected in two of which；

A filter membranous layer is provided, which is set on the light shield layer and a portion metal routing；And

A conductive film layer is provided, which covers the filter membranous layer, another part metal routing and the light shield layer, wherein should Conductive film layer further includes a conductive film area and an at least bridge region, and at least a bridge region detaches with this in the conductive film area, and this is extremely A few bridge region connects this two conducting areas disconnected from each other.

2. the method for manufacture embedded touch control panel according to claim 1, which is characterized in that this method further includes following Step：

A photosensitive gap part is provided, which is set on the conductive film layer.

3. the method for manufacture embedded touch control panel according to claim 2, which is characterized in that the wherein photosensitive gap part Set on the conductive film area.

4. a kind of embedded touch control panel, which is characterized in that the embedded touch control panel includes：

One base, including an inside；

One light shield layer is set on the inside, and the light shield layer includes a shading region and multiple emptying apertures；

Multiple metal routings are set on the shading region, and do not cover multiple emptying aperture, and multiple metal routing forms multiple lead Logical area, it is disconnected from each other that area is connected in two of which；

One filter membranous layer is set on the light shield layer and a portion metal routing；And

One conductive film layer covers the filter membranous layer, another part metal routing and the light shield layer, and the wherein conductive film layer further includes One conductive film area and at least a bridge region, at least a bridge region detaches with this in the conductive film area, and an at least bridge region connects Wherein two conducting areas.

5. embedded touch control panel according to claim 4, which is characterized in that the embedded touch control panel further includes a sense Light gap part, the photosensitive gap part are set on the conductive film layer.

6. embedded touch control panel according to claim 5, which is characterized in that wherein the photosensitive gap part is set to the conduction Film area.