CN106814928A - OGS touch screen and preparation method thereof, touch control display apparatus - Google Patents

Abstract

The invention provides a kind of OGS touch screen and preparation method thereof, touch control display apparatus, belong to display technology field.Wherein, OGS touch screen, fringe region including touch area and the encirclement touch area, the fringe region is used to set the frame rubberizing bonded with display screen, the fringe region is at least provided with first pressure induction electrode, the first pressure induction electrode can be with the second pressure induction electrode decomposition pressure inductance capacitance on the display screen.By technical scheme, enable to sense touch pressure using the touch control display apparatus of frame patch OGS touch screen, realize pressure sensitive.

Description

OGS touch screen and preparation method thereof, touch control display apparatus

Technical field

The present invention relates to touching technique field, more particularly to a kind of OGS touch screen and preparation method thereof, touch-control display dress Put.

Background technology

OGS (One Glass Solution, touch-control glass is integrated with protective glass) touch-screen is straight on the glass substrate A kind of technology to form touch control electrode is connect, glass substrate can save glass simultaneously as protective glass and the substrate of touch control electrode The quantity of glass substrate, reduces the production cost of touch control display apparatus.

In existing Pressure identification scheme, usually pressure sensor is arranged in the display screen of touch display unit Portion, but for frame patch OGS touch screen, because frame patch OGS touch screen edge region fits with display screen, aobvious The corresponding position in viewing area of display screen, OGS touch screen is spaced apart with display screen, therefore it is tactile to be applied to OGS in pressure Touch when on screen, if still using existing Pressure identification scheme, then the pressure sensor inside display screen will be unable to sense Know pressing dynamics, and then pressure sensitive cannot be realized.

The content of the invention

The technical problem to be solved in the present invention is to provide a kind of OGS touch screen and preparation method thereof, display device, makes use The touch control display apparatus of frame patch OGS touch screen can sense touch pressure, realize pressure sensitive.

In order to solve the above technical problems, embodiments of the invention offer technical scheme is as follows：

On the one hand, there is provided a kind of OGS touch screen, including touch area and the fringe region of the touch area is surrounded, institute State fringe region and be used to set the frame rubberizing bonded with display screen, the fringe region is at least provided with first pressure sense Electrode is answered, the first pressure induction electrode can be with the second pressure induction electrode decomposition pressure induced electricity on the display screen Hold.

Further, the first pressure induction electrode include multiple spaced sub-electrodes, the sub-electrode around The touch area is set.

Further, the OGS touch screen is specifically included：

Underlay substrate；

Black matrix on the underlay substrate, the black matrix is arranged on the fringe region of the OGS touch screen；

Signal transmssion line in the black matrix；

Cover the insulating barrier of the signal transmssion line；

The first pressure induction electrode on the insulating barrier and positioned at the touch area of the OGS touch screen Touch control electrode；

Cover the flatness layer of the first pressure induction electrode and the touch control electrode.

The embodiment of the present invention additionally provides a kind of display device, including OGS touch screen as described above and display screen, described The fringe region of OGS touch screen is bonded together with the display screen by frame rubberizing.

Further, orthographic projection of the first pressure induction electrode on the display screen falls into the frame rubberizing in institute State in the orthographic projection on display screen.

Further, the display screen is provided with the second pressure induction electrode towards the side of the OGS touch screen, The second pressure induction electrode constitutes the pressure sensitive electric capacity with the first pressure induction electrode.

Further, the display screen is provided with grounded shield electrode, the ground connection towards the side of the OGS touch screen Bucking electrode is multiplexed with the second pressure induction electrode.

The embodiment of the present invention additionally provides a kind of preparation method of OGS touch screen, and the OGS touch screen includes touch area With the fringe region for surrounding the touch area, the fringe region is used to set the frame rubberizing bonded with display screen, institute Stating preparation method includes：

At least the fringe region formed first pressure induction electrode, the first pressure induction electrode can with it is described Second pressure induction electrode decomposition pressure inductance capacitance on display screen.

Further, the OGS touch screen includes touch control electrode, forms the first pressure induction electrode and is specially：

The first pressure induction electrode and the touch control electrode are formed by with a patterning processes.

Further, the preparation method is specifically included：

One underlay substrate is provided；

Black matrix is formed on the underlay substrate, the black matrix is located at the fringe region of the OGS touch screen；

Signal transmssion line is formed in the black matrix；

Form the insulating barrier of the covering signal transmssion line；

The first pressure induction electrode is formed on the insulating barrier, is formed in the touch area of the OGS touch screen The touch control electrode；

Form the flatness layer for covering the first pressure induction electrode and the touch control electrode.

Embodiments of the invention have the advantages that：

In such scheme, the fringe region at least in OGS touch screen is provided with first for decomposition pressure inductance capacitance Pressure sensitive electrode, because first pressure induction electrode is provided in OGS touch screen, is not arranged in display screen, therefore, When pressure is applied in OGS touch screen, the first pressure induction electrode in OGS touch screen can perceive pressing force Degree, realizes pressure sensitive.Further, since frame patch OGS touch screen edge region fits with display screen, OGS touch screen Touch area is spaced apart with display screen, and the touch area of OGS touch screen can have certain deformation, if first pressed Power induction electrode is arranged on the touch area of OGS touch screen, then the precision of pressure sensitive can be than relatively low, and OGS touch screen Fringe region is bonded by frame rubberizing and display screen, will not typically be deformed upon, it is therefore preferred that by first pressure induced electricity Pole sets edge region；And because the touch control electrode of OGS touch screen is provided in touch area, therefore by first pressure sense Answer electrode that edge region is set, additionally it is possible to reduce interference of the touching signals to pressure sensitive.

Brief description of the drawings

Fig. 1 is the structural representation of existing frame patch OGS touch screen and display screen；

Fig. 2 is the structural representation of embodiment of the present invention display device；

Fig. 3 is the floor map of embodiment of the present invention OGS touch screen；

Fig. 4 is the structural representation of embodiment of the present invention display device.

Reference

The insulating barrier of 1 underlay substrate, 2 black matrix, 3 signal transmssion line 4

The frame rubberizing of 5 first pressure induction electrode, 6 flatness layer 7

The touch control electrode of 8 polaroid, 9 grounded shield electrode, 10 display screen 11

The sub-electrode of 12 touch area, 13 pressure sensitive electrode 14

15 touch control electrode bridge formation 16OGS touch-screens

Specific embodiment

For the technical problem, technical scheme and the advantage that to be solved embodiments of the invention are clearer, below in conjunction with Drawings and the specific embodiments are described in detail.

As shown in figure 1, in the prior art, if setting pressure sensitive electrode 13 in the inner side of frame patch OGS touch screen 16, due to Frame patch 16 edge regions of OGS touch screen are fitted by frame rubberizing 7 with display screen 10, in the viewing area pair of display screen 10 The position answered, OGS touch screen 16 is spaced apart with display screen 10, therefore is applied to OGS touch screen 16 with display in pressure During the corresponding position in region, pressure sensitive electrode 13 will be unable to perceive pressing dynamics, and then cannot realize pressure sensitive；If will Pressure sensor is arranged on inside display screen 10, then the pressure sensor inside display screen 10 cannot also perceive pressing force Degree, and then pressure sensitive cannot be realized.

In order to solve the above problems, the embodiment of the present invention provides a kind of OGS touch screen and preparation method thereof, display device, Enable to sense touch pressure using the touch control display apparatus of frame patch OGS touch screen, realize pressure sensitive.

Embodiment one

The present embodiment provides a kind of OGS touch screen, as shown in Figures 2 and 3, including touch area 12 and the encirclement touch-control The fringe region in region 12, the fringe region is used to set the frame rubberizing bonded with display screen, at least at the edge Region is provided with first pressure induction electrode 5, and the first pressure induction electrode 5 can be with the second pressure on the display screen Induction electrode decomposition pressure inductance capacitance.

In the present embodiment, the fringe region at least in OGS touch screen is provided with first for decomposition pressure inductance capacitance Pressure sensitive electrode, because first pressure induction electrode is provided in OGS touch screen, is not arranged in display screen, therefore, When pressure is applied in OGS touch screen, the first pressure induction electrode in OGS touch screen can perceive pressing force Degree, realizes pressure sensitive.Further, since frame patch OGS touch screen edge region fits with display screen, OGS touch screen Touch area is spaced apart with display screen, and the touch area of OGS touch screen can have certain deformation, if first pressed Power induction electrode is arranged on the touch area of OGS touch screen, then the precision of pressure sensitive can be than relatively low, and OGS touch screen Fringe region is bonded by frame rubberizing and display screen, will not typically be deformed upon, it is therefore preferred that by first pressure induced electricity Pole sets edge region；And because the touch control electrode of OGS touch screen is provided in touch area, therefore by first pressure sense Answer electrode that edge region is set, additionally it is possible to reduce interference of the touching signals to pressure sensitive.

Certainly, first pressure induction electrode 5 can also simultaneously set the other positions outside edge region, but, show And be clear to, in the other positions outside first pressure induction electrode 5 sets edge region, it is arranged on the first of other positions Pressure sensitive electrode 5 can be less than the first pressure induction electrode 5 for setting edge region to the precision of pressure sensitive to feeling of stress The precision answered.

Further, as shown in figure 3, the first pressure induction electrode includes multiple spaced sub-electrodes 14, institute State sub-electrode 14 to be set around the touch area 12, sub-electrode 14 can line up the ring-type around touch area 12, sub-electrode 14 can be arranged in a circle, it is also possible to be arranged in multi-turn, and Fig. 3 illustrate only the situation that sub-electrode 14 is arranged in a circle.Sub-electrode 14 quantity is more, then the precision to pressure sensitive is bigger.

Further, as shown in Fig. 2 OGS touch screen is specifically included：

Underlay substrate 1, underlay substrate 1 can be quartz base plate or glass substrate；

Black matrix 2 on underlay substrate 1, black matrix 2 is arranged on the fringe region of OGS touch screen, and black matrix 2 is main It is the metal routing intensive in order to block OGS touch screen edge, in case metal reflective is observed；

Signal transmssion line 3 and touch control electrode bridge formation 15 in black matrix 2, signal transmssion line 3 and touch control electrode 11 Connection, for transmitting touch-control sensing signal, signal transmssion line 3 can be made of metal, it would however also be possible to employ transparent conductive material It is made, touch control electrode builds bridge 15 for connecting touch control electrode 11, and touch control electrode bridge formation 15 and signal transmssion line 3 can use identical Material be made, formed simultaneously using with patterning processes；

Covering signal transmssion line 3 and touch control electrode build bridge 15 insulating barrier 4, insulating barrier 4 can by signal transmssion line 3 and touch Control electrode builds bridge 15 with the insulation of other film layers, and insulating barrier 4 can be made of inorganic material such as silica or silicon nitride, also may be used It is made with using organic material；

First pressure induction electrode 5 on insulating barrier 4 and the touch control electrode positioned at the touch area of OGS touch screen 11, wherein the material of first pressure induction electrode 5 can be consistent with the material of touch control electrode 11, and first pressure induction electrode 5 can simultaneously be formed with touch control electrode 11 by a patterning processes, can so not increase the patterning processes of touch-screen First pressure induction electrode 5 is made on the premise of number of times, the production cost of the OGS touch screen of the present embodiment can be lowered, in order to Not influenceing transmitance, first pressure induction electrode 5 and touch control electrode 11 can be made of transparent conductive material, such as ITO, IZO or Graphene；

The flatness layer 6 of covering first pressure induction electrode 5 and touch control electrode 11, flatness layer 6 can be provided for successive process Flat surface, flatness layer 6 can be made of inorganic material such as silica or silicon nitride, it would however also be possible to employ organic material system Into.

Embodiment two

A kind of display device is present embodiments provided, as shown in figure 4, including OGS touch screen as described above and display screen 10, fringe region and the display screen 10 of OGS touch screen are bonded together by frame rubberizing 7.The display device can be：Liquid crystal Any product or part with display function such as TV, liquid crystal display, DPF, mobile phone, panel computer, wherein, institute Stating display device also includes flexible PCB, printed circuit board (PCB) and backboard.

In the display device of the present embodiment, the fringe region at least in OGS touch screen is provided with for decomposition pressure sensing The first pressure induction electrode 5 of electric capacity, because first pressure induction electrode 5 is provided in OGS touch screen, is not arranged in showing In display screen 10, therefore, when pressure is applied in OGS touch screen, the energy of first pressure induction electrode 5 in OGS touch screen Pressing dynamics is enough perceived, pressure sensitive is realized.Further, since frame patch OGS touch screen edge region and the phase of display screen 10 Laminating, the touch area of OGS touch screen is spaced apart with display screen 10, and the touch area of OGS touch screen can be present necessarily Deformation, if first pressure induction electrode 5 to be arranged on the touch area of OGS touch screen, then the precision meeting of pressure sensitive Than relatively low, and the fringe region of OGS touch screen is bonded by frame rubberizing 7 with display screen 10, will not typically be deformed upon, therefore, Preferably, first pressure induction electrode is set into edge region；And because the touch control electrode of OGS touch screen is provided in touching Control region, therefore first pressure induction electrode 5 is set into edge region, additionally it is possible to reduce touching signals and pressure sensitive is done Disturb.

Further, as shown in figure 4, the orthographic projection on the display screen 10 of first pressure induction electrode 5 falls into frame rubberizing 7 exists In orthographic projection on display screen 10.Because frame rubberizing 7 can provide support for OGS touch screen, it is to avoid the marginal zone of OGS touch screen Domain deforms upon, therefore, first pressure induction electrode 5 is preferably provided in the corresponding region of frame rubberizing 7.

Second pressure induction electrode with 6 one-tenth pressure sensitive electric capacity of first pressure induction electrode group can be arranged on display screen 10 inner sides, it is also possible to be arranged on the outside of display screen 10, it is preferable that second pressure induction electrode is arranged on display screen 10 towards OGS The side of touch-screen, can so reduce influence of the memory storage electric capacity of display screen 10 to pressure sensitive electric capacity.

Further, as shown in figure 4, display screen 10 is provided with grounded shield electrode 9 towards the side of OGS touch screen, can Second pressure induction electrode is multiplexed with by grounded shield electrode 9, so second pressure induced electricity can be made without special again Pole.

It is of course also possible to by special manufacture craft in the inner side of display screen 10 or display screen 10 towards OGS touch screen Side make second pressure induction electrode.

Further, as shown in figure 4, display screen 10 is additionally provided with polaroid 8 towards the side of OGS touch screen.

Embodiment three

A kind of preparation method of OGS touch screen is present embodiments provided, OGS touch screen includes touch area and surrounds touch-control The fringe region in region, fringe region is used to set the frame rubberizing bonded with display screen, and the preparation method includes：

At least edge region forms first pressure induction electrode, and first pressure induction electrode can be with the on display screen Two pressure sensitive electrodes constitute pressure sensitive electric capacity.

The present embodiment is at least formed with the first pressure for decomposition pressure inductance capacitance in the fringe region of OGS touch screen Induction electrode, because first pressure induction electrode is provided in OGS touch screen, is not arranged in display screen, therefore, work as pressure Power is applied to when in OGS touch screen, and the first pressure induction electrode in OGS touch screen can perceive pressing dynamics, real Existing pressure sensitive.Further, since frame patch OGS touch screen edge region fits with display screen, the Touch Zone of OGS touch screen Domain is spaced apart with display screen, and the touch area of OGS touch screen can have certain deformation, if first pressure sensed Electrode is arranged on the touch area of OGS touch screen, then the precision of pressure sensitive can be than relatively low, and the marginal zone of OGS touch screen Domain is bonded by frame rubberizing with display screen, will not typically be deformed upon, it is therefore preferred that first pressure induction electrode is set Edge region；And because the touch control electrode of OGS touch screen is provided in touch area, therefore by first pressure induction electrode Edge region is set, additionally it is possible to reduce interference of the touching signals to pressure sensitive.

Certainly, first pressure induction electrode can also simultaneously form the other positions outside edge region, but, show and It is clear to, in the other positions outside first pressure induction electrode forms edge region, is formed in the first pressure of other positions Power induction electrode can be less than the first pressure induction electrode for forming edge region to the precision of pressure sensitive to pressure sensitive Precision.

Further, OGS touch screen includes touch control electrode, forms first pressure induction electrode and is specially：

First pressure induction electrode and touch control electrode are formed by with a patterning processes, need not so increase extra structure Figure technique, can realize the preparation of first pressure induction electrode with relatively low cost.

Further, the preparation method of OGS touch screen is specifically included：

Step 1：A underlay substrate 1 is provided, underlay substrate 1 can use glass substrate or quartz base plate；

Step 2：One layer of BM (Black Matrix, black matrix) material is coated on underlay substrate 1, by a composition work Skill forms the figure of black matrix 2, and black matrix 2 is located at the fringe region of OGS touch screen, black matrix 2 and is touched primarily to blocking OGS The intensive metal routing of platen edge is touched, in case metal reflective is observed；

Step 3：Signal transmssion line 3 is formed in black matrix 2, and forms touch control electrode bridge formation 15；

Signal transmssion line 3 is connected with touch control electrode 11, and for transmitting touch-control sensing signal, signal transmssion line 3 can be used Metal is made, it would however also be possible to employ transparent conductive material is made, and touch control electrode builds bridge 15 for connecting touch control electrode 11, touch control electrode Bridge formation 15 and signal transmssion line 3 can be made of identical material, be formed simultaneously using with a patterning processes.

Step 4：Form the insulating barrier 4 of covering signal transmssion line 3 and touch control electrode bridge formation 15；

Signal transmssion line 3 and touch control electrode can be built bridge 15 with the insulation of other film layers by insulating barrier 4, and insulating barrier 4 can be adopted It is made of inorganic material such as silica or silicon nitride, it would however also be possible to employ organic material is made.

Step 5：First pressure induction electrode 5 is formed on insulating barrier 4, touch-control is formed in the touch area of OGS touch screen Electrode 11；

Wherein the material of first pressure induction electrode 5 can be consistent with the material of touch control electrode 11, and first pressure sense Answering electrode 5 can simultaneously be formed with touch control electrode 11 by a patterning processes, can so not increase the composition of touch-screen First pressure induction electrode 5 is made on the premise of the number of times of technique, the OGS touch screen that can lower the present embodiment is produced into This, is in order to not influence transmitance, first pressure induction electrode 5 and touch control electrode 11 to be made of transparent conductive material, than Such as ITO, IZO or Graphene；

While first pressure induction electrode 5 are formed, also form the pressure sensitive for transmitting pressure sensitive signal and believe Number transmission line.

Step 6：The flatness layer 6 of covering first pressure induction electrode 5 and touch control electrode 11 is formed, after flatness layer 6 can be Continuous processing procedure provides flat surface, and flatness layer 6 can be made of inorganic material such as silica or silicon nitride, it would however also be possible to employ Organic material is made.

It is that can obtain OGS touch screen as shown in Figure 2 by above-mentioned steps 1-6, the OGS touch screen that will be prepared afterwards is led to Cross frame rubberizing to be fitted with display screen, you can obtain display device as shown in Figure 4.First pressure induced electricity in OGS touch screen Pole 5 forms pressure sensitive electric capacity with the second pressure induction electrode on display screen 10, by first pressure induction electrode and second Capacitance variations between pressure sensitive electrode, are capable of identify that pressure change, so as to carry out pressure sensitive.

The above is the preferred embodiment of the present invention, it is noted that for those skilled in the art For, on the premise of principle of the present invention is not departed from, some improvements and modifications can also be made, these improvements and modifications Should be regarded as protection scope of the present invention.

Claims (10)

1. a kind of OGS touch screen, including touch area and the fringe region of the encirclement touch area, the fringe region are used to The frame rubberizing bonded with display screen is set, it is characterised in that the fringe region is at least provided with first pressure sensing Electrode, the first pressure induction electrode can be with the second pressure induction electrode decomposition pressure induced electricity on the display screen Hold.

2. OGS touch screen according to claim 1, it is characterised in that between the first pressure induction electrode includes multiple Every the sub-electrode of arrangement, the sub-electrode is set around the touch area.

3. OGS touch screen according to claim 1, it is characterised in that the OGS touch screen is specifically included：

Underlay substrate；

Black matrix on the underlay substrate, the black matrix is arranged on the fringe region of the OGS touch screen；

Signal transmssion line in the black matrix；

Cover the insulating barrier of the signal transmssion line；

The first pressure induction electrode on the insulating barrier and the touch-control positioned at the touch area of the OGS touch screen Electrode；

Cover the flatness layer of the first pressure induction electrode and the touch control electrode.

4. a kind of display device, it is characterised in that including the OGS touch screen as any one of claim 1-3 and display Screen, the fringe region of the OGS touch screen is bonded together with the display screen by frame rubberizing.

5. display device according to claim 4, it is characterised in that the first pressure induction electrode is in the display screen On orthographic projection fall into the frame rubberizing in the orthographic projection on the display screen.

6. display device according to claim 4, it is characterised in that the display screen towards the OGS touch screen one Side is provided with the second pressure induction electrode, and the second pressure induction electrode constitutes institute with the first pressure induction electrode State pressure sensitive electric capacity.

7. display device according to claim 6, it is characterised in that the display screen towards the OGS touch screen one Side is provided with grounded shield electrode, and the grounded shield electrode is multiplexed with the second pressure induction electrode.

8. a kind of preparation method of OGS touch screen, the OGS touch screen includes touch area and surrounds the side of the touch area Edge region, the fringe region is used to set the frame rubberizing bonded with display screen, it is characterised in that the preparation method bag Include：

First pressure induction electrode at least is formed in the fringe region, the first pressure induction electrode can be with the display Second pressure induction electrode decomposition pressure inductance capacitance on screen.

9. the preparation method of OGS touch screen according to claim 8, it is characterised in that the OGS touch screen includes touch-control Electrode, forms the first pressure induction electrode and is specially：

The first pressure induction electrode and the touch control electrode are formed by with a patterning processes.

10. the preparation method of OGS touch screen according to claim 9, it is characterised in that the preparation method is specifically wrapped Include：

One underlay substrate is provided；

Black matrix is formed on the underlay substrate, the black matrix is located at the fringe region of the OGS touch screen；

Signal transmssion line is formed in the black matrix；

Form the insulating barrier of the covering signal transmssion line；

The first pressure induction electrode is formed on the insulating barrier, forms described in the touch area of the OGS touch screen Touch control electrode；

Form the flatness layer for covering the first pressure induction electrode and the touch control electrode.