CN103927031A - Touching control structure - Google Patents

Abstract

The invention discloses a touching control structure. The touching control structure comprises a first sensing electrode, a second sensing electrode, a first illusive placement pattern and a second illusive placement pattern, wherein the first sensing electrode and the second sensing electrode are arranged in stagger mode and electrically insulated from each other, the first illusive placement pattern is adjacent to the first sensing electrode and provided with a first pattern acute angle, the second illusive placement pattern is adjacent to the second sensing electrode and provided with a second pattern acute angle, the first illusive placement pattern and the second illusive placement pattern are separated from each other, and the first pattern acute angle and the second pattern acute angle substantially face the same stagger position between the first sensing electrode and the second sensing electrode.

Description

Touch-control structure

Technical field

The present invention relates to touch-control structure, particularly relate to the touch-control structure of capacitance type touch-control panel.

Background technology

Contact panel is widely used, for example household supplies, communication device and electronics information device etc.Contact panel can allow user to come input signal to reach operation object with finger or pen strokes and dots contact panel.Along with consumer is more and more higher for the quality requirements of contact panel, the operation usefulness of contact panel also needs to promote, to meet the need of market.

Summary of the invention

The object of the present invention is to provide a kind of touch-control structure, can promote the operation usefulness of contact panel.

For reaching above-mentioned purpose, the invention provides a kind of touch-control structure.Touch-control structure comprises the first sensing electrode, the second sensing electrode, the first dummy pattern and the second dummy pattern.The first sensing electrode and the second sensing electrode are crisscross arranged and are mutually electrically insulated.Contiguous the first sensing electrode of the first dummy pattern also has the first pattern acute angle.Contiguous the second sensing electrode of the second dummy pattern also has the second pattern acute angle.The first dummy pattern and the second dummy pattern are separated from each other.The first pattern acute angle and the second pattern acute angle be identical staggered place between the first sensing electrode and the second sensing electrode in fact.

Preferred embodiment cited below particularly, and coordinate appended accompanying drawing, be described in detail below:

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the touch-control structure of one embodiment of the invention;

Fig. 2 is the schematic diagram of the touch-control structure of one embodiment of the invention;

Fig. 3 is the schematic diagram of the touch-control structure of one embodiment of the invention;

Fig. 4 is the schematic diagram of the touch-control structure of one embodiment of the invention;

Fig. 5 is the schematic diagram of the touch-control structure of one embodiment of the invention.

Main element symbol description

102～the first sensing electrodes; 104～the first electrode pattern portions; 106～the first electrode bridge parts; 108～the second sensing electrodes; 110～the second electrode pattern portions; 112～the second electrode bridge parts; 114～the first electrode sides; 116～third electrode side; 118～the second electrode sides; The 120～four electrode side; 122,122A～the first dummy pattern; 124,124A, 124B～the second dummy pattern; 126～the first void are put side; The 128～three void is put side; 130～the second void are put side; The 132～four void is put side; The 134～three dummy pattern; The 136～five void is put side; The 138～seven void is put side; The 140～four dummy pattern; The 142～six void is put side; The 144～eight void is put side; The 146～nine void is put side; The 148～ten void is put side; 150～the 11 void are put side; 152～the 12 void are put side; The dummy pattern of 154～rectangle; 156～the 13 void are put side; 158～the 14 void are put side; A, B, C, C1, C2, D, D1, D2～length; E, F, G, H, I, J, K, L, L1, M, N, P, Q～spacing; First pattern acute angle～θ; Second pattern acute angle～λ; The 3rd pattern acute angle～α; The 4th pattern acute angle～β.

Embodiment

Fig. 1 illustrates according to the schematic diagram of the touch-control structure of an embodiment.Contact panel can be for example capacitance type touch-control panel.The first sensing electrode 102 comprises the first electrode pattern portion 104 and the first electrode bridge part 106 coupling.The second sensing electrode 108 comprises the second electrode pattern portion 110 and the second electrode bridge part 112 coupling.The first sensing electrode 102 and the second sensing electrode 108 are crisscross arranged by the first electrode bridge part 106 and the second electrode bridge part 112.In an embodiment, the first sensing electrode 102 and the second sensing electrode 108 are electrically insulated mutually by being arranged on the insulation course (not shown) between the first electrode bridge part 106 and the second electrode bridge part 112.The first electrode bridge part 106 and the second electrode bridge part 112 are not limit for example strip of rectangle as shown in Figure 1, can comprise the shape that other are suitable yet.

Comprise the first electrode pattern portion 104 and the first electrode bridge part 106 the first sensing electrode 102, utilize conductive material formation with the second sensing electrode 108 that comprises the second electrode pattern portion 110 and the second electrode bridge part 112, for example there is the material of light transmission as indium tin oxide (ITO), aluminium zinc oxide (AZO) etc.The first recursive structural units of sensing electrode 102 (for example being defined from the first electrode pattern portion 104 and the first electrode bridge part 106) for example, toward laterally (directions X) extension, and the second recursive structural units of sensing electrode 112 (for example being defined with the second electrode bridge part 112 from the second electrode pattern portion 110) for example, toward longitudinally (Y-direction of vertical in fact directions X) extension.The first sensing electrode 102 and the second sensing electrode 108 can be formed in substrate (not shown).Substrate can comprise the material with light transmission,

Clear glass for example.In one embodiment, the first sensing electrode 102 has identical area with the second sensing electrode 108, has identical area, the function that so can arbitrarily convert and drive, receive each other, and improve use, operational elasticity.

Please refer to Fig. 1, the first electrode pattern portion 104 has the first electrode side 114 and third electrode side 116 of adjacency.Third electrode side 116 is in abutting connection with the first electrode bridge part 106.The first electrode side 114 can abut against between two third electrode sides 116.The second electrode pattern portion 110 has the second electrode side 118 and the 4th electrode side 120 of adjacency.The 4th electrode side 120 is in abutting connection with the second electrode bridge part 112.The second electrode side 118 can abut against between two the 4th electrode sides 120.

Please refer to Fig. 1, in one embodiment, the first electrode pattern portion 104 and the second electrode pattern portion 110 are hexagon, for example symmetrical hexagon.For instance, the length of the first electrode side 114 of the first electrode pattern portion 104 can be greater than the length of third electrode side 116.The first relative electrode side 114 can be parallel to each other in fact, and have identical length.Relative third electrode side 116 can be parallel to each other in fact, and all third electrode sides 116 can have identical length.The length of the second electrode side 118 of the second electrode pattern portion 110 can be greater than the length of the 4th electrode side 120.The second relative electrode side 118 can be parallel to each other in fact, and have identical length.The 4th relative electrode side 120 can be parallel to each other in fact, and the 4th all electrode sides 120 can have identical length.

The first electrode pattern portion 104 and the second electrode pattern portion 110 be not limited to as shown in Figure 1 for hexagon, also can comprise the shape that other are suitable, for example rhombus, rectangle, triangle or other polygons.The first electrode pattern portion 104 is not limited to have as shown in Figure 1 symmetrical shape, for example, with the virtual orthographic line being defined along the first electrode side 114 center, become symmetrical mirror-image structure, also can be asymmetric shape.The second electrode pattern portion 110 is not limited to have as shown in Figure 1 symmetrical shape, for example, with the virtual orthographic line being defined along the second electrode side 118 center, become laterally zygomorphic mirror-image structure, also can be asymmetric shape.In certain embodiments, the first electrode pattern portion 104 has identical area with the second electrode pattern portion 110, the function that so can arbitrarily convert and drive, receive each other, and improve use, operational elasticity.In certain embodiments, the first electrode pattern portion 104 and the second electrode pattern portion 110 compared with rhombus, use hexagonal the first electrode pattern portion 104 and the second electrode pattern portion 110 as shown in Figure 1 can reduce the noise of responding to when capacitance type touch-control panel operates, and can improve input signal simultaneously, to improve signal to noise ratio.

Please refer to Fig. 1, the first dummy pattern 122 and the second dummy pattern 124 are separated from each other, and, insulation separated from each other with the first sensing electrode 102, the second sensing electrode 108, for example, utilize insulating material to be separated from each other, to insulate.For instance, the material of the first dummy pattern 122 and the second dummy pattern 124 can comprise that the conductive material with light transmission is as indium tin oxide (ITO), aluminium zinc oxide (AZO) etc.The first dummy pattern 122 and the second dummy pattern 124 can not be electrically connected to any electrode or wire or can ground connection, maybe can be electrically connected to any known fixed reference electrode or floating electrode.After identical concept, repeat no more.

The first dummy pattern 122 arranges the first electrode pattern 104 of contiguous the first sensing electrode 102.The first void that the first dummy pattern 122 has an adjacency puts side 126 and the 3rd void is put side 128, between press from both sides out the first pattern acute angle theta.The second dummy pattern 124 arranges the second electrode pattern 110 of contiguous the second sensing electrode 108.The second void that the second dummy pattern 124 has an adjacency puts side 130 and the 4th void is put side 132, between press from both sides out the second pattern acute angle λ.The first pattern acute angle theta and the second pattern acute angle λ be identical staggered place between the first sensing electrode 102 and the second sensing electrode 108 in fact.

Please refer to Fig. 1, for instance, the first void is put side 126 can be parallel in fact the first contiguous electrode side 114.The second void is put side 130 can be parallel in fact the second contiguous electrode side 118.The 3rd contiguous void is put side 128 and the 4th void and is put side 132 and can be parallel to each other in fact.The 3rd void is put side 128 can parallel in fact third electrode side 116.The 4th void is put parallel in fact the 4th electrode side 120 of side 132.

Please refer to Fig. 1, in this embodiment, the first dummy pattern 122 and the second dummy pattern 124 are triangle, for example isosceles triangle.For instance, the length that the first void is put side 126 can be greater than the length that the 3rd void is put side 128.Two the 3rd void equal in length and adjacent to each other are put side 128 can press from both sides out right angle, obtuse angle or acute angle.The length that the second void is put side 130 can be greater than the length that the 4th void is put side 132.Two the 4th void equal in length and adjacent to each other are put side 132 and are pressed from both sides out right angle, obtuse angle or acute angle.

In one embodiment, for instance, the length A of the third electrode side 116 of the first electrode pattern portion 104 is 3mm.The length B of the 4th electrode side 120 of the second electrode pattern portion 110 is 3mm.The length C that the 3rd void of the first dummy pattern 122 is put side 128 is 3mm.The length D that the 4th void of the second dummy pattern 124 is put side 132 is 3mm.The spacing E that the first electrode side 114 and the first void are put between side 126 is 20 μ m.The spacing F that the second electrode side 118 and the second void are put between side 130 is 20 μ m.It is 20 μ m that the 3rd void is put the spacing G that side 128 and the 4th void puts between side 132.In other embodiments, size also visual actual conditions suitably adjust.

In other embodiments, the first dummy pattern 122 and the second dummy pattern 124 can comprise suitable shape, for example right-angle triangle, equilateral triangle or other polygon etc.Moreover the first dummy pattern 122 is not limited to have as shown in Figure 1 symmetrical shape, for example to put the virtual orthographic line that side 126 center defined along the first void, become symmetrical mirror-image structure, also can be asymmetric shape.The second dummy pattern 124 is not limited to have as shown in Figure 1 symmetrical shape, for example, to put the virtual orthographic line that side 130 center defined along the second void, become laterally zygomorphic mirror-image structure, also can be asymmetric shape.In an embodiment, the size of each first dummy pattern 122 and the second dummy pattern 124, shape can be identical or different.

Can two (upper and lower) contiguous the first electrode pattern of touch control unit defines with the region that the second electrode pattern that two (left and right) is close to crosses.In the example shown in Fig. 1, in single touch control unit, corresponding single the first electrode pattern portion 104 be single the first dummy pattern 122, single the second electrode pattern portion 110 of correspondence be single the second dummy pattern 124.That is, in single touch control unit, there are two the first dummy patterns 122 and two the second dummy patterns 124.So, the present invention is not limited to this, in other embodiments, also can in single touch control unit, use the first dummy pattern 122 and second dummy pattern 124 of other quantity, shape, collocation method.

The difference of the touch-control structure that Fig. 2 and Fig. 1 illustrate is, the 3rd dummy pattern 134 of the first electrode side 114 of contiguous the first sensing electrode 102 is configured between three the first dummy patterns 122.The 5th void that the 3rd dummy pattern 134 has an adjacency puts side 136 and the 7th void is put side 138, between press from both sides out the 3rd pattern sharp angle α.The 5th void is put side 136 and is abutted against two the 7th void and put between side 138.For instance, the 5th void puts that side 136 can be parallel in fact the first electrode side 114 of the first sensing electrode 102 or the first void of the first dummy pattern 122 is put side 126.The 7th void is put the 3rd void that side 138 can be parallel in fact the first contiguous dummy pattern 122 and is put side 128.

Please refer to Fig. 2, the 4th dummy pattern 140 that is adjacent to the second electrode side 118 of the second sensing electrode 108 is configured between three the second dummy patterns 124.The 4th dummy pattern 140 has that the 6th void is put side 142 and the 8th void is put side 144, between press from both sides out the 4th pattern acute angles beta.The 6th void is put side 142 and is abutted against two the 8th void and put between side 144.The 6th void puts that side 142 can be parallel in fact the second electrode side 118 of the second sensing electrode 108 or the second void of the second dummy pattern 124 is put side 130.The 8th void is put side 144 and can be parallel in fact the second contiguous void and put the 4th void of side 130 and put side 132.

In an embodiment, each first dummy pattern 122, the second dummy pattern 124, the 3rd dummy pattern 134, the size of the 4th dummy pattern 140, shape can be identical or different.

In one embodiment, for instance, the length A of the third electrode side 116 of the first electrode pattern portion 104 is 2mm.The length B of the 4th electrode side 120 of the second electrode pattern portion 110 is 2mm.Corresponding single the second electrode pattern portion 110 is three the second dummy patterns 124, the length D1 that wherein puts side 132 near the 4th void of the second dummy pattern 124 of the second electrode pattern portion 110 is 1.5mm, and the length D2 that puts side 132 away from the 4th void of the second dummy pattern 124 of the second electrode pattern portion 110 is 2.5mm.The spacing F that the second electrode side 118 and the second void are put between side 130 is 20 μ m.It is 20 μ m that the 3rd void is put the spacing H that side 128 and the 7th void puts between side 138.The spacing I that the first electrode side 114 and the 4th void are put between side 132 is 20 μ m.In other embodiments, size also visual actual conditions suitably adjust.

The difference of the touch-control structure that Fig. 3 and Fig. 1 illustrate is, near the first dummy pattern 122A of the first electrode pattern portion 104, is quadrilateral, and it has by the first void puts side 126 and the 3rd void is put the first pattern acute angle theta that side 128 presss from both sides out.The first void is put side 126 and is abutted against two the 3rd void and put between side 128.The 9th void of the first dummy pattern 122A is put side 146 and is abutted against two the 3rd void and put between side 128.Tetragonal the first dummy pattern 122A is than the first electrode pattern portion 104 of more close first sensing electrode 102 of the first dummy pattern 122 of triangle.The first dummy pattern 122A is not limited to as shown in Figure 3 trapezoidal, and for example isosceles trapezoid, also can comprise the symmetrical or asymmetric quadrilateral that other are suitable.

Please refer to Fig. 3, is quadrilateral near the second dummy pattern 124A of the second electrode pattern portion 110, and it has by the second void puts side 130 and the 4th void is put the second pattern acute angle λ that side 132 presss from both sides out.The second void is put side 130 and is abutted against two the 4th relative void and put between side 132.The tenth void of the second dummy pattern 124A is put side 148 and is abutted against two the 4th relative void and put between side 132.Tetragonal the second dummy pattern 124A is than the second electrode pattern portion 110 of more close second sensing electrode 108 of the second dummy pattern 124 of triangle.The second dummy pattern 124A is not limited to as shown in Figure 3 trapezoidal, and for example isosceles trapezoid, also can comprise symmetrical or asymmetric quadrilateral or other shape that other are suitable.

In an embodiment, each first dummy pattern 122,122A, the second dummy pattern 124, the size of 124A, shape can be identical or different.

In one embodiment, for instance, the length A of the third electrode side 116 of the first electrode pattern portion 104 is 1.7mm.The length B of the 4th electrode side 120 of the second electrode pattern portion 110 is 1.7mm.The length C that the 3rd void of the first dummy pattern 122 is put side 128 is 1.7mm.The length C 1 that the 3rd void of the first dummy pattern 122A is put side 128 is 1.7mm.The length D that the 4th void of the second dummy pattern 124 is put side 132 is 1.7mm.The length D1 that the 4th void of the second dummy pattern 124A is put side 132 is 1.7mm.It is 20 μ m that the first void of the first dummy pattern 122 is put the spacing J that the 9th void of side 126 and the first dummy pattern 122A puts between side 146.The spacing K that the second electrode side 118 of the second electrode pattern portion 110 and the second void of the second dummy pattern 124A are put between side 130 is 20 μ m.It is 20 μ m that the tenth void of the second dummy pattern 124A is put the spacing L that the second void of side 148 and the second dummy pattern 124 puts between side 130.In other embodiments, size also visual actual conditions suitably adjust.

The difference of the touch-control structure that Fig. 4 and Fig. 3 illustrate is, near two the first dummy pattern 122B of the first electrode pattern portion 104, is quadrilateral, has respectively by the first void and puts side 126 and the 3rd void is put the first pattern acute angle theta that side 128 presss from both sides out.The 11 void of the first dummy pattern 122B is put side 150 and is abutted against that the 9th void is put side 146 and the first void is put between side 126, and can be in fact perpendicular to the 9th void put side 146, the first void is put side 126.Moreover, near two the second dummy pattern 124B of the second electrode pattern portion 110, be quadrilateral, have respectively by the second void and put side 130 and the 4th void is put the second pattern acute angle λ that side 132 presss from both sides out.The 12 void of the second dummy pattern 124 is put side 152 and is abutted against that the second void is put side 130 and the tenth void is put between side 148, and can be in fact perpendicular to the second void put side 130, the tenth void is put side 148.

In an embodiment, each first dummy pattern 122,122B, the second dummy pattern 124, the size of 124B, shape can be identical or different.

In one embodiment, for instance, the length A of the third electrode side 116 of the first electrode pattern portion 104 is 2mm.The length B of the 4th electrode side 120 of the second electrode pattern portion 110 is 2mm.The length C that the 3rd void of the first dummy pattern 122 is put side 128 is 2mm.The length C 2 that the 3rd void of the first dummy pattern 122B is put side 128 is 2mm.The length D that the 4th void of the second dummy pattern 124 is put side 132 is 2mm.The length D2 that the 4th void of the second dummy pattern 124B is put side 132 is 2mm.The spacing K that the second electrode side 118 of the second electrode pattern portion 110 and the second void of the second dummy pattern 124B are put between side 130 is 30 μ m.It is 30 μ m that the tenth void of the second dummy pattern 124B is put the spacing L1 that the second void of side 148 and the second dummy pattern 124 puts between side 130.It is 30 μ m that the 3rd void of the first dummy pattern 122 is put the spacing M that the 4th void of side 128 and the second dummy pattern 124 puts between side 132.The spacing N that the 11 void of the first adjacent dummy pattern 122 is put between side 150 is 30 μ m.In other embodiments, size also visual actual conditions suitably adjust.

The difference of the touch-control structure that Fig. 5 and Fig. 3 illustrate is, the dummy pattern 154 of rectangle arranges contiguous the first dummy pattern 122A and the second dummy pattern 124A.The 13 void of the dummy pattern 154 of rectangle puts that the first void that side 156 can be parallel in fact the first dummy pattern 122A is put side 126, the 9th void is put the first electrode side 114 of side 146 or the first electrode pattern portion 104.The 14 void of the dummy pattern 154 of rectangle puts that the second void that side 158 can be parallel in fact the first dummy pattern 122A is put side 130, the tenth void is put the second electrode side 118 of side 148 or the second electrode pattern portion 110.The first dummy pattern 122A is than more close the first sensing electrode 102 of the dummy pattern of rectangle 154.The second dummy pattern 124A is than more close the second sensing electrode 108 of the dummy pattern of rectangle 154.The dummy pattern 154 of rectangle is not limit square as shown in Figure 5, can comprise other shapes yet, for example symmetrical or asymmetric quadrilateral or other polygons etc.In single touch control unit, do not limit the dummy pattern 154 that uses single rectangle, can use the dummy pattern 154 of the rectangle of other applicable quantity yet.

In an embodiment, the dummy pattern 154 of each rectangle, the size of the first dummy pattern 122A, the second dummy pattern 124A, shape can be identical or different.

In one embodiment, for instance, the length A of the third electrode side 116 of the first electrode pattern portion 104 is 2mm.The length B of the 4th electrode side 120 of the second electrode pattern portion 110 is 2mm.The length C 1 that the 3rd void of the first dummy pattern 122A is put side 128 is 2mm.The length D1 that the 4th void of the second dummy pattern 124A is put side 132 is 2mm.The spacing K that the second electrode side 118 of the second electrode pattern portion 110 and the second void of the second dummy pattern 124A are put between side 130 is 30 μ m.It is 30 μ m that the 3rd void of the first dummy pattern 122A is put the spacing P that the 4th void of side 128 and the second dummy pattern 124A puts between side 132.It is 30 μ m that the 13 void of the dummy pattern 154 of rectangle is put the spacing Q that the 9th void of side 156 and the first dummy pattern 122A puts between side 146.In other embodiments, size also visual actual conditions suitably adjust.

Touch-control structure can be used for for example capacitance type touch-control panel of contact panel.According to the touch-control structure of the design configurations of embodiment, contact panel can have excellent operation usefulness.

Although disclose the present invention in conjunction with above preferred embodiment; yet it is not in order to limit the present invention, be anyly familiar with this operator, without departing from the spirit and scope of the present invention; can do a little change and retouching, thus protection scope of the present invention should with enclose claim was defined is as the criterion.

Claims (17)

1. a touch-control structure, comprising:

The first sensing electrode;

The second sensing electrode, this first sensing electrode and this second sensing electrode are crisscross arranged and are mutually electrically insulated;

The first dummy pattern, contiguous this first sensing electrode also has the first pattern acute angle; And

The second dummy pattern, contiguous this second sensing electrode also has the second pattern acute angle, wherein this first dummy pattern and this second dummy pattern are separated from each other, and this first pattern acute angle and this second pattern acute angle be identical staggered place between this first sensing electrode and this second sensing electrode in fact.

2. touch-control structure as claimed in claim 1, wherein this first sensing electrode has the first electrode side, this second sensing electrode has the second electrode side, this first dummy pattern has one first void and puts side, this second dummy pattern has one second void and puts side, this the first electrode side is parallel in fact this first void and puts side, and this second electrode side is parallel in fact this second void and puts side.

3. touch-control structure as claimed in claim 1, wherein this first dummy pattern and this second dummy pattern comprise triangle or quadrilateral.

4. touch-control structure as claimed in claim 1, wherein this first sensing electrode comprises the first electrode pattern portion and the first electrode bridge part coupling, this second sensing electrode comprises the second electrode pattern portion and the second electrode bridge part coupling, and this first sensing electrode and this second sensing electrode are crisscross arranged by this first electrode bridge part and this second electrode bridge part.

5. touch-control structure as claimed in claim 4, wherein this first electrode pattern portion and this second electrode pattern portion are respectively hexagon.

6. touch-control structure as claimed in claim 4, wherein

This first electrode pattern portion has the first electrode side and the third electrode side of adjacency, and this third electrode side is in abutting connection with this first electrode bridge part,

This second electrode pattern portion has the second electrode side and the 4th electrode side of adjacency, and the 4th electrode side is in abutting connection with this second electrode bridge part,

The first void that this first dummy pattern has an adjacency puts side and the 3rd void is put side, this first void is put parallel in fact this first electrode side of side, the 3rd void is put parallel in fact this third electrode side of side, and this first void is put side and the 3rd void and put side and press from both sides out this first pattern acute angle

The second void that this second dummy pattern has an adjacency puts side and the 4th void is put side, this second void is put parallel in fact this second electrode side of side, the 4th void is put parallel in fact the 4th electrode side of side, and this second void is put side and the 4th void and put side and press from both sides out this second pattern acute angle.

7. touch-control structure as claimed in claim 1, wherein this first sensing electrode has the first electrode side, this second sensing electrode has the second electrode side, this first dummy pattern and this second dummy pattern are respectively triangle or quadrilateral and have a short side and a long side of adjacency, contiguous also parallel in fact this first electrode side of this long side of this first dummy pattern, contiguous also parallel in fact this second electrode side of this long side of this second dummy pattern, contiguous also this short side of parallel in fact this second dummy pattern of this short side of this first dummy pattern.

8. touch-control structure as claimed in claim 7, wherein

This first sensing electrode comprises the first electrode pattern portion and the first electrode bridge part coupling, this the first electrode pattern portion is hexagon this first electrode side with adjacency and a third electrode side, this third electrode side is in abutting connection with this first electrode bridge part, parallel in fact this third electrode side of this short side of this first dummy pattern

This second sensing electrode comprises the second electrode pattern portion and the second electrode bridge part coupling, this the second electrode pattern portion is hexagon this second electrode side with adjacency and one the 4th electrode side, the 4th electrode side is in abutting connection with this second electrode bridge part, parallel in fact the 4th electrode side of this short side of this second dummy pattern

This first sensing electrode and this second sensing electrode are crisscross arranged by this first electrode bridge part and this second electrode bridge part.

9. touch-control structure as claimed in claim 8, wherein the length of this first electrode side is greater than the length of this third electrode side, and the length of this second electrode side is greater than the length of the 4th electrode side.

10. touch-control structure as claimed in claim 1, also comprises the dummy pattern of rectangle, contiguous this first dummy pattern or this second dummy pattern.

11. touch-control structures as claimed in claim 10, wherein this first dummy pattern is than more close this first sensing electrode of the dummy pattern of this rectangle, and this second dummy pattern is than more close this second sensing electrode of the dummy pattern of this rectangle.

12. touch-control structures as claimed in claim 1, also comprise the 3rd dummy pattern, have that the 5th void is put side, the 7th void is put side and the 3rd pattern acute angle, and wherein the 5th void is put side and the 7th void and put side and press from both sides out the 3rd pattern acute angle.

13. touch-control structures as claimed in claim 12, wherein this first sensing electrode has the first electrode side, and the 5th void is put parallel in fact this first electrode side of side.

14. touch-control structures as claimed in claim 13, comprising several these first dummy patterns, the 3rd dummy pattern is configured between those first dummy patterns.

15. touch-control structures as claimed in claim 12, also comprise the 4th dummy pattern, have that the 6th void is put side, the 8th void is put side and the 4th pattern acute angle, and wherein the 6th void is put side and the 8th void and put side and press from both sides out the 4th pattern acute angle.

16. touch-control structures as claimed in claim 15, wherein this second sensing electrode has the second electrode side, and the 6th void is put parallel in fact this second electrode side of side.

17. touch-control structures as claimed in claim 1, comprise several these first dummy patterns, the dummy pattern that wherein part in those first dummy patterns is triangle, another part in those first dummy patterns is tetragonal dummy pattern, and this tetragonal dummy pattern is than more close this first sensing electrode of the dummy pattern of this triangle.