CN106445211A - Touch module - Google Patents

Abstract

The invention discloses a touch module. The touch module comprises a thick substrate, a first thin substrate, a first electrode layer, a first adhesive layer, a second thin substrate, a second electrode layer and a second adhesive layer. The thick substrate is used for providing rigid support for the touch module. The first electrode layer is arranged on the first thin substrate. The first adhesive layer adheres the thick substrate to the first thin substrate provided with the first electrode layer. The second thin substrate comprises a surface for touch operation. The second electrode layer is arranged on the other surface, opposite to the surface for the touch operation, of the second thin substrate. The second adhesive layer adheres the first thin substrate provided with the first electrode layer to the second electrode layer. The second thin substrate has a first thickness, and the second thickness of the thick substrate is greater than the first thickness. The touch module can be used for fingerprint identification application in need of high-precision induction.

Description

Touch-control module

Technical field

The present invention relates to a kind of touch-control module, in particular to a kind of identification of fingerprint touch-control module.

Background technology

With the rapid progress of electronics technology, touch-control module has been widely used in various electronic installation, As mobile phone, tablet PC etc..Typical touch-control module may be disposed on display screen, including multiple Touch control electrode.Object (finger or touching pen etc.) close to or during touching display screen, corresponding touch control electrode Produce the signal of telecommunication, thereby reach touch-control sensing.

The framework of existing touch-control module be from top to bottom sequentially glass cover-plate (cover glass), adhesion layer, Receive inductive layer (Rx sensor), glass substrate and drive inductive layer (Tx sensor).Glass cover-plate and glass Glass substrate in order to provide certain intensity to have larger thickness, usually 500-700 micron.This is existing Framework is applied for general touch-control on (for example, execution click, the identification of the touch-control behavior such as the page that slides) simultaneously No problem, but and special touch-control application (for example, identification of fingerprint) needing high precision sensing cannot be competent at. Particularly, this existing framework, will when the existing intensity of glass cover-plate to be maintained is applied to identification of fingerprint Sensitivity (sensitivity) and the identification (identification) of fingerprint sensing can be faced because of thickness factor Not enough problem.

Content of the invention

In view of this, the structure design improvement by touch-control module for the present invention, proposes one kind and can be applicable to fingerprint The touch-control module of identification.

According to one embodiment of the present invention, a kind of touch-control module is provided, comprises thick substrate, in order to for touch-control Module provides rigid support；First thin substrate, in order to carry electrode layer；First electrode layer, is arranged at first In thin substrate；First bonding coat, bonding thick substrate and the first thin substrate being provided with first electrode layer；Second is thin Substrate, comprises the surface of operation for touch；The second electrode lay, is arranged at the second thin substrate with respect to for touch On another surface on surface of operation；And second bonding coat, it is bonding on and be provided with the first thin of first electrode layer Substrate and the second electrode lay, the wherein second thin substrate has first thickness, and thick substrate has second thickness and is more than First thickness.

In one or more embodiments of the present invention, the above-mentioned thickness of the first thin substrate and the second thin substrate Thickness identical.

In one or more embodiments of the present invention, above-mentioned first thickness is 75 to 125 microns.

In one or more embodiments of the present invention, above-mentioned first thickness is 100 microns.

In one or more embodiments of the present invention, above-mentioned first electrode layer separates one with the second electrode lay Distance, and this distance is 100 to 200 microns.

In one or more embodiments of the present invention, above-mentioned distance is 125 microns.

In one or more embodiments of the present invention, above-mentioned first electrode layer is respectively comprised with the second electrode lay Multiple electrodes line.Electrode wires are arranged in parallel according to a spacing, and this spacing is 50 to 70 microns.

In one or more embodiments of the present invention, above-mentioned spacing is 60 microns.

In one or more embodiments of the present invention, above-mentioned first electrode layer is respectively comprised with the second electrode lay Multiple electrodes line.Each electrode wires have a live width, and this live width is 3 to 10 microns.

In one or more embodiments of the present invention, above-mentioned live width is 5 microns.

In one or more embodiments of the present invention, above-mentioned second thickness is 500 to 600 micromillimetres.

In one or more embodiments of the present invention, above-mentioned first electrode layer is to drive inductive layer, and the Two electrode layers are to receive inductive layer.

In one or more embodiments of the present invention, above-mentioned thick substrate has the first perforation, the first thin base Plate has the second perforation, and the first perforation exposes the second perforation.

In one or more embodiments of the present invention, above-mentioned touch-control module also comprise the first touch chip with And second touch chip.First touch chip is arranged in the first thin substrate and is located in the first perforation, and It is bonded to first electrode layer.Second touch chip is arranged in the second thin substrate and is located in the second perforation, And it is bonded to the second electrode lay.

In one or more embodiments of the present invention, above-mentioned touch-control module also comprises touch chip.Touch-control Chip is bonded to first electrode layer and the second electrode lay via the first perforation with the second perforation respectively.

In one or more embodiments of the present invention, above-mentioned touch-control module also comprises light shield layer.Light shield layer Be arranged between the second thin substrate and partial second electrode layer, and the first orthographic projection bored a hole to light shield layer with Light shield layer is overlapping.

In one or more embodiments of the present invention, above-mentioned second thickness is the 4 to 6 of first thickness Times.

In sum, the touch-control module of the present invention will receive inductive layer (i.e. the second electrode lay) and be arranged at a thin base On plate (i.e. the second thin substrate), and using this thin substrate as the assembly of finger directly contact during user touch-control, Sensitivity when receiving inductive layer sensing fingerprint and identification therefore can be lifted.And, the driving of touch-control module Inductive layer (i.e. first electrode layer) is also disposed in another thin substrate (i.e. the first thin substrate), and this thin substrate is again Fit with receiving inductive layer, use and increase the mutual capacitance driving between inductive layer and reception inductive layer, and can be by Existing IC is driven.Furthermore, touch-control module is more than the thickness of the first thin substrate and the second thin substrate again with thickness Substrate is fitted with driving inductive layer, uses the deficiency making up above-mentioned two thin substrate on laser intensity.By upper State structure configuration, the touch-control module of the present invention can be used in needs the identification of fingerprint of high precision sensing to answer With.

Describe the present invention below in conjunction with the drawings and specific embodiments, but not as to the present invention's Limit.

Brief description

Fig. 1 is that the touch-control module illustrating an embodiment of the present invention is applied to the section of touch control display device and shows It is intended to.

Fig. 2A is the three-dimensional combination figure of the touch-control module illustrating an embodiment of the present invention.

Fig. 2 B is the exploded perspective figure illustrating the touch-control module in Fig. 2A.

Fig. 3 is the partial top view with the second electrode lay for the first electrode layer illustrating an embodiment of the present invention.

Fig. 4 A is the top view illustrating the thick substrate in Fig. 2A.

Fig. 4 B is the top view of the thick substrate illustrating another embodiment of the present invention.

Fig. 5 is that the touch-control module illustrating another embodiment of the present invention is applied to the section of touch control display device Schematic diagram.

Fig. 6 is the generalized section illustrating the touch-control module in Fig. 5 along line segment 6-6 '.

Specific embodiment

With specific embodiment, technical solution of the present invention is described in detail below in conjunction with the accompanying drawings, more to enter one Step understands the purpose of the present invention, scheme and effect, but is not intended as scope of the appended claims of the present invention Restriction.

Refer to Fig. 1 to Fig. 2 B.Fig. 1 is that the touch-control module 12 illustrating an embodiment of the present invention is applied to The generalized section of touch control display device 1.Fig. 2A is the touch-control module 12 illustrating an embodiment of the present invention Three-dimensional combination figure.Fig. 2 B is the exploded perspective figure illustrating the touch-control module 12 in Fig. 2A.

As shown in Fig. 1 to Fig. 2 B, in present embodiment, touch control display device 1 include at least back-cover 10, Touch-control module 12 and display module 14.Back-cover 10 has assembly mouth 100.Touch-control module 12 is fixed on Assembly mouth 100.Display module 14 is arranged between back-cover 10 and touch-control module 12, and is located at back-cover 10 In the accommodation space being formed with touch-control module 12.Touch-control module 12 is light-permeable, and therefore user can be saturating Cross touch-control module 12 and watch the picture shown by display module 14.In an embodiment, display module 14 is LCD MODULE 14, but the present invention is not limited thereto.

Touch-control module 12 comprise thick substrate 120, the first thin substrate 121, first electrode layer 122, first stick Close layer 123a, the second thin substrate 124, the second electrode lay 125 and the second bonding coat 123b.Thick substrate 120 In order to provide rigid support for touch-control module 12；Thick substrate 120 is sticked in back-cover 10.First electrode layer 122 It is arranged in the first thin substrate 121, the first electrode layer 122 of the present embodiment is for example to be arranged at the first thin base On the lower surface of plate 121, and in other embodiments, it is thin that first electrode layer 122 can also be arranged on first The upper surface of substrate 121.Second thin substrate 124 comprises the surface of an operation for touch, specifically, the The upper surface of two thin substrate 124 is the surface for user touch operation.The second electrode lay 125 is arranged at In two thin substrate 124, the second electrode lay 125 of the present embodiment is disposed on the following table of the second thin substrate 124 Face.

First bonding coat 123a in order to bind thick substrate 120 be provided with first electrode layer 122 the first thin base Plate 121, the first bonding coat 123a of the present embodiment is specifically bonding on thick substrate 120 and first electrode layer Between 122.Second bonding coat 123b is provided with the first thin substrate 121 of first electrode layer 122 in order to bind With the second thin substrate 124 being provided with the second electrode lay 125, the second bonding coat 123b of the present embodiment is glutinous Together between the first thin substrate 121 and the second electrode lay 125.From the point of view of overall architecture, thick substrate 120 is tactile The substrate of the control closest display module 14 of module 12, and the second thin substrate 124 is that touch-control module 12 is farthest From the substrate of display module 14, carry out touch-control behavior with the finger contact for user.

Illustrate further, the second thin substrate 124 has first thickness t1, it is thick that thick substrate 120 has second Degree t2, second thickness t2 is 4 to 6 times of first thickness t1.In multiple embodiments, the second thin base First thickness t1 that plate 124 has is 75 to 125 microns, and is preferably 100 microns.Compare For existing glass cover-plate (about 500 to 700 microns), the thickness of second thin substrate 124 of the present invention Design can further the distance between finger and the second electrode lay 125 of user, therefore can be greatly improved second The sensitivity of electrode layer 125 finger sensing and identification, are conducive to the related application of identification of fingerprint.Yu Yishi Apply in mode, the first thin substrate 121 and the second thin substrate 124 have same thickness, but the present invention not with This is limited.

In actual manufacture process, first electrode layer 122 and the second electrode lay 125 are respectively arranged at first In thin substrate 121 and the second thin substrate 124 and semi-finished product that are bonded to each other and forming touch-control module 12.As Upper described, the thickness of the first thin substrate 121 and the second thin substrate 124 in order to identification of fingerprint application and significantly Spend thinning, and the present invention designs further by the semi-finished product of thick substrate 120 and above-mentioned touch-control module 12 Laminating, to strengthen the integrated model intensity of touch-control module 12.In an embodiment, thick substrate 120 Second thickness t2 is 500 to 600 microns, but the present invention is not limited thereto.Generally speaking, this enforcement The thickness of the first thin substrate 121 of example and the second thin substrate 124 is less than the thickness of thick substrate 120.

Refer to Fig. 3, it is first electrode layer 122 and the second electrode lay illustrating an embodiment of the present invention 125 partial top view.As illustrated, first electrode layer 122 (as driven inductive layer) and the second electrode lay 125 (as received inductive layer) respectively comprise multiple electrodes line 122a, 125a.Arbitrary electricity of first electrode layer 122 Polar curve 122a is perpendiculared to one another so that with the bearing of trend of arbitrary electrode wires 125a of the second electrode lay 125 One electrode layer 122 and the second electrode lay 125 form grid (mesh), but the present invention is not limited thereto.

The trough spacing (pitch) of the fingerprint of general adult is about 75 microns.In multiple embodiments, Electrode wires 125a of electrode wires 122a of first electrode layer 122 and the second electrode lay 125 are respectively according to a spacing P is arranged in parallel, and this spacing is 50 to 70 microns, preferably 60 microns.By make first electricity Electrode wires 122a of pole layer 122 are less than with the spacing P design of electrode wires 125a of the second electrode lay 125 75 microns, then it is micro- to coordinate live width W with each electrode wires 122a, 125a to be designed as 3 to 10 Rice, preferably 5 microns, you can reach the wave crest of detecting user fingerprint and the purpose of trough, even if also First electrode layer 122 is promoted to identification of fingerprint grade with the induction precision of the second electrode lay 125.

In multiple embodiments, electrode wires 122a of above-mentioned first electrode layer 122 and the second electrode lay 125 Electrode wires 125a be plain conductor, and can be by such as ultrafine wire printing technology (fine line printing) Or manufactured by gold-tinted technique, but the present invention is not limited thereto.

Under the metal grill framework that above-mentioned first electrode layer 122 is formed with the second electrode lay 125, in order to Mutual capacitance between first electrode layer 122 and the second electrode lay 125 is increased to the driving force of existing IC Scope in one's power, the present invention further by first electrode layer 122 and the second electrode lay 125 separate apart from D It is designed as 100 to 200 microns.For example, in an embodiment, the first of the first thin substrate 121 Thickness t1 is 100 microns, and the thickness of the second bonding coat 123b can be 25 microns, therefore first electrode What layer 122 and the second electrode lay 125 separated is 125 microns apart from D.

In multiple embodiments, in order to bind the first bonding coat of thick substrate 120 and first electrode layer 122 123a and the second bonding coat 123b in order to bind the first thin substrate 121 and the second electrode lay 125, all Can be optical cement (Optically Clear Adhesive, OCA) or glue, but the present invention is not limited thereto.

As shown in Fig. 1 and Fig. 2 B, in present embodiment, thick substrate 120 has the first perforation 120a, First thin substrate 121 has the second perforation 121a, and the first perforation 120a exposes the second perforation 121a. And, touch-control module 12 also comprises the first touch chip 126a and the second touch chip 126b.First Touch chip 126a is arranged in the first thin substrate 121, and is located at the first perforation 120a of thick substrate 120 Interior, and it is bonded to first electrode layer 122.For example, (the figure of the conductive projection in the first touch chip 126a Do not show) engage first electrode layer 122 on joint sheet (not shown).Second touch chip 126b is arranged at In two thin substrate 124, and it is located in the second perforation 121a of the first thin substrate 121, and be bonded to the Two electrode layers 125.For example, the conductive projection (not shown) in the second touch chip 126b engages second Joint sheet (not shown) on electrode layer 125.In addition, display module 14 also bag sequencing contro plate (Timing-Control board) 140 and flexible circuit board 142.Flexible circuit board 142 connects sequencing contro Plate 140, and it is each passed through the first perforation 120a of thick substrate 120 and the second of the first thin substrate 121 Perforation 121a and be bonded to first electrode layer 122 and the second electrode lay 125.

It is noted that in general, first electrode layer 122 (is schemed with the respective joint sheet of the second electrode lay 125 Do not show) be spaced about 12 microns.Present embodiment adopts the first touch chip 126a and the second touch-control core Piece 126b is respectively engaged to the framework of first electrode layer 122 and the second electrode lay 125, the therefore first thin base Can relax by tolerance allowance of fitting between the two with the second thin substrate 124 for plate 121, is conducive to attaching process The lifting of qualification rate.Furthermore, due to electrode wires 122a and the second electrode lay 125 of first electrode layer 122 Electrode wires 125a each closely thousands of of quantity, using the first touch chip 126a and the second touch chip 126b independently drives the framework of first electrode layer 122 and the second electrode lay 125, the first touch chip The size of 126a and the second touch chip 126b would not be excessive, and therefore both just have more spaces and can set Count the circuit such as some amplifiers to increase driving force.Additionally, the first touch chip 126a is touched with second Control chip 126b is respectively arranged in the first perforation 120a and second perforation 121a, also can subsequently fall The first touch chip 126a and the second touch-control core is prevented in test (Drop Test) or thrust test (Push Test) Piece 126b is impaired.

As shown in figure 1, in present embodiment, touch-control module 12 also comprises light shield layer 127.Light shield layer 127 are arranged between the second thin substrate 124 and partial second electrode layer 125.In general, touch-control shows The region of the corresponding light shield layer 127 of equipment 1 is defined as non-visible area domain, and touch control display device 1 corresponds to shading Region beyond layer 127 is defined as viewing area.First electrode layer 122 is formed with the second electrode lay 125 Metal grill cover whole viewing area, and extend at least partially into non-visible area domain.According to above-mentioned relevant The structure configuration of touch-control module 12, you can allow user carry out the touch-control application of identification of fingerprint in viewing area. And, present embodiment design makes the first of thick substrate 120 to bore a hole 120a to the orthographic projection of light shield layer 127 Overlapping with light shield layer 127.That is, the first perforation 120a of thick substrate 120 and the first thin substrate 121 the second perforation 121a all can be located at non-visible area domain, therefore can't affect first electrode layer 122 Sense touch-control behavior conducted in viewing area for the user with the second electrode lay 125.

In an embodiment, light shield layer 127 is ink layer, but the present invention is not limited thereto.

Refer to Fig. 4 A, it is the top view illustrating the thick substrate 120 in Fig. 2A.In present embodiment In, the first perforation 120a of thick substrate 120 is closed perforation.Enclosed first perforation 120a can make Thick substrate 120 has preferable structural strength.However, the present invention is not limited thereto.Refer to figure 4B, it is the top view of the thick substrate 120 illustrating another embodiment of the present invention.In present embodiment, First perforation 120a of thick substrate 120 is open perforation.That is, the first perforation 120a extends to The edge of thick substrate 120, in other words, from the point of view of top view angle, the edge of thick substrate 120 passes through the The one perforation setting of 120a and form the aspect of edge indent.The first open perforation 120a is conducive to thickness The processing and manufacturing of substrate 120.

Refer to Fig. 5, its be illustrate another embodiment of the present invention touch-control module 32 be applied to touch-control show Show the generalized section of equipment 3.As illustrated, touch control display device 3 comprises back-cover 10, touch-control module 32 and display module 14.Touch-control module 32 comprises thick substrate 120, first thin substrate the 121, first electricity Pole layer 122, the first bonding coat 123a, the second thin substrate 124, the second electrode lay 125 and the second bonding coat 123b.The structure of same components, function and the annexation and other assemblies between in Fig. 5 and in Fig. 1, Can refer to above related description, will not be described here.Here is noted that present embodiment and Fig. 1 At the difference of shown embodiment, it is that the touch-control module 32 of present embodiment only comprises single touch-control core Piece 326.Touch chip 326 is respectively via the first perforation 120a and first thin substrate 121 of thick substrate 120 The second opening up of 121a of perforation and be bonded to first electrode layer 122 and the second electrode lay 125.

Specifically, refer to Fig. 6, it is to illustrate touch-control module 32 in Fig. 5 along line segment 6-6 ' Generalized section.As illustrated, first electrode layer 122 has joint sheet 122b is located at the first thin substrate 121 On, and the second electrode lay 125 has joint sheet 125b and is located in the first thin substrate 121 and the second perforation In 121a.Relatively, touch chip 326 has conductive projection 326a, 326b.For example, conductive Projection 326a, 326b are golden projection (golden bump), but the present invention is not limited thereto.Touch chip 326 are bonded to joint sheet 122b, 125b with conductive projection 326a, 326b respectively.In practical application, As long as the first thin substrate 121 is with the second thin substrate 124, and tolerance of fitting between the two can be controlled and is made smaller than first The spacing of joint sheet 122b of electrode layer 122 and the spacing of the joint sheet 125b of the second electrode lay 125, Conductive projection 326a, 326b can be bonded to respectively exactly joint sheet when engaging touch chip 326 122b、125b.

By the detailed description of the above specific embodiment for the present invention, it is apparent that the present invention's touches Control module will receive inductive layer (i.e. the second electrode lay) and be arranged in a thin substrate (i.e. the second thin substrate), and with This thin substrate, as the assembly of finger directly contact during user touch-control, therefore can lift reception inductive layer sensing Sensitivity during fingerprint and identification.And, the driving inductive layer (i.e. first electrode layer) of touch-control module also sets It is placed in another thin substrate (i.e. the first thin substrate), and this thin substrate is fitted with reception inductive layer again, uses increasing Plus the mutual capacitance between driving inductive layer and reception inductive layer, and can be driven by existing IC.Furthermore, touch Control module is more than the first thin substrate with thickness again and the thick substrate of the second thin substrate is fitted with driving inductive layer, mat To make up deficiency on laser intensity for above-mentioned two thin substrate.By said structure configuration, the touch-control of the present invention Module can be used in the identification of fingerprint application needing high precision sensing.

Certainly, the present invention also can have other various embodiments, in the feelings spiritual and its substantive without departing substantially from the present invention Under condition, those of ordinary skill in the art work as and can make various corresponding changes and deformation according to the present invention, but These change accordingly and deform the protection domain that all should belong to appended claims of the invention.

Claims (17)

1. a kind of touch-control module is it is characterised in that comprise：

One thick substrate, in order to provide rigid support for this touch-control module；

One first thin substrate；

One first electrode layer, is arranged in this first thin substrate；

One first bonding coat, binds this thick substrate and this first thin substrate being provided with this first electrode layer；

One second thin substrate, comprises the surface of an operation for touch；

One the second electrode lay, is arranged at another table that this second thin substrate is with respect to the surface of this operation for touch On face；And

One second bonding coat, is bonding on this first thin substrate being provided with this first electrode layer and this second electrode lay Between；

Wherein this second thin substrate has a first thickness, the second thickness that this thick substrate has be more than this One thickness.

2. touch-control module as claimed in claim 1 it is characterised in that the thickness of this first thin substrate with The thickness of this second thin substrate is identical.

3. touch-control module as claimed in claim 1 is it is characterised in that this first thickness is 75 to 125 Micron.

4. touch-control module as claimed in claim 3 is it is characterised in that this first thickness is 100 microns.

5. touch-control module as claimed in claim 1 it is characterised in that this first electrode layer with this second Electrode layer separates a distance, and this distance is 100 to 200 microns.

6. touch-control module as claimed in claim 5 is it is characterised in that this distance is 125 microns.

7. touch-control module as claimed in claim 1 it is characterised in that this first electrode layer with this second Electrode layer respectively comprises multiple electrodes line, and those electrode wires are arranged in parallel according to a spacing, and this spacing is 50 to 70 microns.

8. touch-control module as claimed in claim 7 is it is characterised in that this spacing is 60 microns.

9. touch-control module as claimed in claim 1 it is characterised in that this first electrode layer with this second Electrode layer respectively comprises multiple electrodes line, and those electrode wires each have a live width, and this live width be 3 to 10 microns.

10. touch-control module as claimed in claim 9 is it is characterised in that this live width is 5 microns.

11. touch-control modules as claimed in claim 1 it is characterised in that this second thickness be 500 to 600 micromillimetres.

12. touch-control modules as claimed in claim 1 are it is characterised in that this first electrode layer is to drive sense Answer layer, and this second electrode lay is to receive inductive layer.

13. touch-control modules as claimed in claim 1 are it is characterised in that this thick substrate has one first wears Hole, this first thin substrate has one second perforation, and this first perforation exposes this second perforation.

14. touch-control modules as claimed in claim 13 are it is characterised in that also comprise：

One first touch chip, is arranged in this first thin substrate and is located in this first perforation, and engage To this first electrode layer；And

One second touch chip, is arranged in this second thin substrate and is located in this second perforation, and engage To this second electrode lay.

15. touch-control modules as claimed in claim 13 it is characterised in that also comprising a touch chip, This touch chip respectively via this first perforation with this second perforation be bonded to this first electrode layer with this second Electrode layer.

16. touch-control modules as claimed in claim 13, should it is characterised in that also comprising a light shield layer Light shield layer is arranged between this second thin substrate and this second electrode lay of part, and this first is bored a hole to this screening One orthographic projection of photosphere is overlapping with this light shield layer.

17. touch-control modules as claimed in claim 1 are it is characterised in that this second thickness is this first thickness 4 to 6 times of degree.