CN204102102U - Contact panel - Google Patents

Abstract

The utility model relates to touch-control field, provides a kind of contact panel and mainly comprises substrate, induction electrode structure, the first coupling assembling and pin configuration.Induction electrode structure is located on substrate, in order to define visible area, comprise a plurality of insulated from each other and staggered first sensing serial and second sensing serial.Pin configuration is located in non-visible area, in order to be electrically connected induction electrode structure and to be positioned at the first coupling assembling of non-visible area.Pin configuration comprises a plurality of first signal conductors, secondary signal wire and insulation assembly, wherein be arranged between substrate and insulation assembly at part first signal conductor of the second sensing serial homonymy, the first signal wire correspondence of other parts is arranged on insulation assembly.Pin configuration is divided into two-layer up and down by the contact panel utilization that the utility model provides, and reduces the width of pin configuration, reaches the effect of narrow frame.

Description

Contact panel

Technical field

The utility model system about a kind of contact panel, special system about a kind of by push-down stack on signal conductor to reach the contact panel of narrow border effect.

Background technology

Buy the propensity to consume of electronic product according to nowadays consumers, the liking of consumer starts to be partial to and has large contact panel and the frivolous product of casing.But contact panel is larger, induced inside electrode is more, connects induction electrode also more with the signal conductor of transmitting signals.In order to reach the target of frivolous casing simultaneously, the design of narrow frame (reducing non-visible area) just seems especially important.

The known practice realizing narrow frame in visible area be the signal conductor width, the signal conductor quantity that reduce and be centered around induction electrode outside, or the distance reduced between signal conductor is to achieve the goal.But the distance reduced between signal conductor width or signal conductor, but cause circuit easily to open a way or the problem of short circuit, reduce the quality that signal conductor quantity also may reduce contact panel.

Therefore, visible area is real is necessary to develop another kind of signal conductor structure, to reduce the width occupied by signal conductor.

Utility model content

A kind of contact panel of the utility model, is divided into Dual-layer by the pin configuration around induction electrode structure outside, reduces the width of pin configuration, to reach the effect of narrow frame.

For reaching above-mentioned purpose, a kind of contact panel of the utility model, mainly comprise substrate, induction electrode structure, the first coupling assembling and pin configuration, wherein substrate defines the non-visible area of visible area and correspondence.Visible area defines on substrate with induction electrode vibrational power flow.Induction electrode structure comprises a plurality of first sensing serial and a plurality of second and senses serial, and first senses serial and a plurality of second to sense serial insulated from each other and be staggered.First coupling assembling is also located on substrate equally, and is positioned at the non-visible area of second sensing serial one end.And pin configuration is arranged on substrate, comprise a plurality of first signal conductors, a plurality of secondary signal wire and insulation assemblies.

First signal conductor is in order to be electrically connected the first sensing serial and the first coupling assembling, and secondary signal wire is arranged between induction electrode structure and the first coupling assembling, in order to be electrically connected the second sensing serial and the first coupling assembling.

Be arranged between substrate and insulation assembly in the first signal conductor part of the second sensing serial homonymy, the first signal wire correspondence of other parts is arranged on insulation assembly.

In the utility model first embodiment, each the first sensing first signal conductor connected in series, and the first signal conductor is located at the same side of those the second sensing serials.

In the utility model second embodiment, each the first sensing first signal conductor connected in series, and the first signal conductor is divided into the not homonymy of those the second sensing serials.

In the utility model the 3rd embodiment, each the first sensing first signal conductor connected in series, and the first signal conductor is located at the same side of those the second sensing serials.Pin configuration more comprises a plurality of the 3rd signal conductors, in order to connect the other end and first coupling assembling of the second sensing serial.3rd signal conductor is arranged at the same side of the second sensing serial, wherein be arranged between substrate and insulation assembly at part first signal conductor of the second sensing serial homonymy and part the 3rd signal conductor, the 3rd signal conductor correspondence of the first signal wire of other parts and other parts is arranged on this insulation assembly.

In the utility model the 4th embodiment, each the first sensing first signal conductor connected in series, and the first signal conductor is located at the not homonymy of those the second sensing serials.Pin configuration more comprises a plurality of the 3rd signal conductors, in order to connect the other end and first coupling assembling of the second sensing serial.3rd signal conductor is arranged at the same side of the second sensing serial, wherein be arranged between substrate and insulation assembly at part first signal conductor of the second sensing serial homonymy and part the 3rd signal conductor, the 3rd signal conductor correspondence of the first signal wire of other parts and other parts is arranged on this insulation assembly.

In the utility model the 5th embodiment, each the first sensing first signal conductor connected in series, and the first signal conductor is located at the same side of those the second sensing serials.Pin configuration more comprises a plurality of the 3rd signal conductors, in order to connect the other end and first coupling assembling of the second sensing serial.3rd signal conductor is arranged at the not homonymy of the second sensing serial, wherein be arranged between substrate and insulation assembly at part first signal conductor of the second sensing serial homonymy and part the 3rd signal conductor, the 3rd signal conductor correspondence of the first signal wire of other parts and other parts is arranged on this insulation assembly.

In the utility model the 6th embodiment, each the first sensing first signal conductor connected in series, and the first signal conductor is located at the not homonymy of those the second sensing serials.Pin configuration more comprises a plurality of the 3rd signal conductors, in order to connect the other end and first coupling assembling of the second sensing serial.3rd signal conductor is arranged at the not homonymy of the second sensing serial, wherein be arranged between substrate and insulation assembly at part first signal conductor of the second sensing serial homonymy and part the 3rd signal conductor, the 3rd signal conductor correspondence of the first signal wire of other parts and other parts is arranged on this insulation assembly.

In the utility model the 7th embodiment, the two ends of each the first sensing serial connect first signal conductor respectively, and are connected to the second sensing serial is located in the first sensing serial the same side with the first signal conductor held.

In the utility model the 8th embodiment, the two ends of each the first sensing serial connect first signal conductor respectively, and the material difference that the first signal conductor of two ends connection is used.In addition, the second sensing serial is located in the first sensing serial the same side with the first signal conductor held is connected to.

In the utility model the 9th embodiment, the two ends of each the first sensing serial connect first signal conductor respectively, and are connected to the second sensing serial is located in the first sensing serial the same side with the first signal conductor held.Pin configuration more comprises a plurality of the 3rd signal conductors, in order to connect the other end and first coupling assembling of the second sensing serial.3rd signal conductor is arranged at the same side of the second sensing serial, wherein be arranged between this substrate and this insulation assembly at part first signal conductor of the second sensing serial homonymy and part the 3rd signal conductor, the 3rd signal conductor correspondence of the first signal wire of other parts and other parts is arranged on insulation assembly.

In the utility model the tenth embodiment, the two ends of each the first sensing serial connect first signal conductor respectively, and are connected to the second sensing serial is located in the first sensing serial the same side with the first signal conductor held.Pin configuration more comprises a plurality of the 3rd signal conductors, in order to connect the other end and first coupling assembling of the second sensing serial.3rd signal conductor is arranged at the not homonymy of the second sensing serial, wherein be arranged between this substrate and this insulation assembly at part first signal conductor of the second sensing serial homonymy and part the 3rd signal conductor, the 3rd signal conductor correspondence of the first signal wire of other parts and other parts is arranged on insulation assembly.

In the utility model the 11 embodiment, contact panel more comprises the second coupling assembling and the 4th signal conductor.Second coupling assembling is arranged on substrate, corresponding first coupling assembling, is positioned at the non-visible area of the second sensing serial other end.4th signal conductor is arranged between induction electrode structure and the second coupling assembling, is electrically connected the second sensing serial and the second coupling assembling respectively.And part first signal conductor is connected to the first coupling assembling, the first signal conductor of other parts is connected to the second coupling assembling.

According to aforesaid 11 embodiments, the first signal conductor wherein between substrate and insulation assembly and the first signal conductor be positioned on insulation assembly, also have the embodiment that can change.

Wherein a kind of change mode is, the first signal conductor between substrate and insulation assembly and the first signal conductor be positioned on insulation assembly are in overlapping perpendicular to the projection on orientation substrate.

Another kind of change mode is, the first signal conductor between substrate and insulation assembly and the first signal conductor be positioned on insulation assembly are in perpendicular to the projection zero lap on orientation substrate.

Another change mode is, the first signal conductor between substrate and insulation assembly and the first signal conductor be positioned on insulation assembly are in overlapping without part perpendicular to the projection on orientation substrate.

Another change mode is, the width of the first signal conductor between substrate and insulation assembly is identical with the width of the first signal conductor be positioned on insulation assembly.

Another change mode is, the width of the first signal conductor between substrate and insulation assembly is different from the width of the first signal conductor be positioned on insulation assembly.

Another change mode is, the width of the first signal conductor between substrate and insulation assembly is directly proportional to the length of himself to the width of the first signal conductor be positioned on insulation assembly.

Another change mode is, is arranged at part first signal wire on insulation assembly and is electrically connected by the conductive material of filling in the through hole on insulation assembly and through hole and the first coupling assembling.

Another change mode is, part first signal wire be arranged on insulation assembly senses serial by the conductive material and first of filling in the through hole on insulation assembly and through hole and is electrically connected.

In addition, the narrow frame mode of the utility model the best is set with the quantity absolute difference of the first signal conductor be positioned on insulation assembly by the first signal conductor between substrate and insulation assembly to be not more than one.

The utility model insulation assembly more comprises the first insulation course and the second insulation course, and is provided with a screen layer between the first insulation course and the second insulation course.First insulation series of strata adjacent substrates and arranging, the second insulation course is then relative to be arranged away from substrate.The utility model more can comprise the operator guards at least covering pin configuration.

The explanation system of the explanation about this disclosure above and following embodiment in order to demonstration and spirit and the principle of explaining the utility model, and provides the patent claim explanation further of the utility model.

Accompanying drawing explanation

The contact panel vertical view that Fig. 1 is drawn by disclosing first embodiment according to the utility model.

The sectional view that Fig. 2 A system draws according to an embodiment of Figure 12 A-2A line.

The sectional view of Fig. 2 B by being drawn according to Figure 12 B-2B line.

The sectional view of Fig. 2 C by being drawn according to Figure 12 C-2C line.

The sectional view of 2D figure by being drawn according to another embodiment of Figure 12 A-2A line.

The contact panel vertical view that Fig. 3 A is drawn by disclosing second embodiment according to the utility model

The sectional view of Fig. 3 B by being drawn according to Fig. 3 A2-2 line.

Fig. 4 A is the contact panel vertical view drawn according to the utility model the 3rd embodiment.

The sectional view of Fig. 4 B by being drawn according to Fig. 4 A4B-4B line.

Fig. 5 is the contact panel vertical view drawn according to the utility model the 4th embodiment.

Fig. 6 A is the contact panel vertical view drawn according to the utility model the 5th embodiment.

The sectional view of Fig. 6 B by being drawn according to Fig. 6 A6B-6B line

Fig. 7 is the contact panel vertical view drawn according to the utility model the 6th embodiment.

Fig. 8 A is the contact panel vertical view drawn according to the utility model the 7th embodiment,

The sectional view of Fig. 8 B by being drawn according to Fig. 8 A8B-8B line.

Fig. 9 is the contact panel vertical view drawn according to the utility model the 8th embodiment.

Figure 10 is the contact panel vertical view drawn according to the utility model the 9th embodiment.

Figure 11 is the contact panel vertical view drawn according to the utility model the tenth embodiment.

Figure 12 A be according to Fig. 1 a kind of schematic diagram of the first signal conductor set-up mode drawn.

Figure 12 B be according to Fig. 1 the schematic diagram of another kind of first signal conductor set-up mode drawn.

Figure 12 C be according to Fig. 1 the schematic diagram of another kind of first signal conductor set-up mode drawn.

Figure 12 D be according to Fig. 1 the schematic diagram of another the first signal conductor set-up mode drawn.

Embodiment

Below detailed features and the advantage of the utility model is described in embodiments in detail, its content is enough to make those skilled in the art understand the technology contents of the utility model and implement according to this, and content disclosed by this instructions, claim and graphic, those skilled in the art can understand the relevant object of the utility model and advantage easily.Following examples further describe viewpoint of the present utility model, but non-with the category limiting the utility model anyways.

It is noted that the utility model institute accompanying drawings is the schematic diagram of simplification, the basic structure of the utility model is only described in a schematic way.Therefore, only the assembly relevant with the utility model is indicated in institute's accompanying drawings, and the number, shape, dimension scale etc. of shown assembly when not implementing with reality are drawn, specification during its actual enforcement is a kind of design of selectivity in fact, and its assembly layout form may be more complicated, first give chat bright.In addition, between the description assembly occurred in instructions it " on ", D score, "left", "right" position relationship, be the description carried out with reference to diagram, be not limitation of the utility model.

Be disclose the contact panel vertical view that first embodiment draw, the sectional view that Fig. 2 A system draws according to an embodiment of Figure 12 A-2A line according to the utility model please with reference to Fig. 1 and Fig. 2 A, Fig. 1.As shown in the figure, contact panel comprises substrate 1A, induction electrode structure 3A, the first coupling assembling 5A and pin configuration 7A, and wherein induction electrode structure 3A, the first coupling assembling 5A and pin configuration 7A system are located on substrate 1A.In practice, described contact panel can with being used in intelligent mobile phone screen, ATM (Automatic Teller Machine), touch computer screen, touch TV screen, GPS man-machine interface, and the utility model is not limited at this.Below each composition structure respectively with regard to contact panel is described.

Substrate 1A can be a transparent cover plate with some strength, please refer to Fig. 2 A, substrate 1A upper surface is provided with induction electrode structure 3A, first coupling assembling 5A and pin configuration 7A, its lower surface can carry out touch control operation for user, its material can be tempered glass, sapphire glass, polyimide (PI), polypropylene (PP), polystyrene 5 (PS), acrylonitrile-butadiene-styrene (ABS) (ABS), polyethylene terephthalate (PET), Polyvinylchloride (PVC), polycarbonate (PC), tygon (PE), polymethylmethacrylate (PMMA), the transparent materials such as teflon (PTFE), it can be holds material or flexible material firmly.Substrate 1A also can be a transparent membrane, for carrying the assemblies such as laying induction electrode structure thereon, its material can comprise polyimide, polypropylene, polystyrene, acrylonitrile-butadiene-styrene (ABS), polyethylene terephthalate, Polyvinylchloride, polycarbonate, tygon, polymethylmethacrylate, teflon, cyclic olefine copolymer or aforementioned combination.

Substrate 1A defines visible area 11A and the non-visible area 13A except the 11A of visible area, the region that wherein substrate 1A is provided with induction electrode structure 3A may be defined as visible area 11A haply, and the region not arranging induction electrode structure 3A may be defined as non-visible area 13A.In embodiment of the present utility model, non-visible area 13A such as can be positioned at the arranged on left and right sides of induction electrode structure 3A, arranged on left and right sides adds downside, four outer circumferential sides, or the combination of wherein any position, in the present embodiment, visible area 11A tetra-outer circumferential side will be positioned at for non-visible area 13A and be described.

Induction electrode structure 3A is positioned at visible area 11A, comprises a plurality of first sensing serial 31A, a plurality of second sensing serial 33A and collets 35A.It is insulated from each other and be staggered that first sensing serial 31A and second senses serial 33A.In the present embodiment, first sensing serial 31A and second senses serial 33A mode insulated from each other and is spaced each other for plural number first senses serial 31A, plural number second sensing serial 33A is spaced each other, and senses the overlapping place of serial 33A in the first sensing serial 31A and second and arrange collets 35A.It should be noted that the first sensing serial 31A and second senses the mode of mutually insulated between serial 33A can also for other mode, and the utility model is not restricted.For convenience of description, following examples are all to illustrate transversely arranged sensing serial as the first sensing serial 31A, and the sensing serial of longitudinal arrangement is described as the second sensing serial 33A.In graphic, sensing serial system forms with the sensing block serial of multiple rhombus, but other all can apply in the utility model as circle, rectangle, pentagon, ellipse or other applicable external forms, are not limited at this.

First coupling assembling 5A is positioned at non-visible area 13A, and in the present embodiment, the first coupling assembling 5A is positioned at one end of the second sensing serial 33A, is namely positioned at the downside of induction electrode structure 3A, but not as limit.First coupling assembling 5A one end is electrically connected by pin configuration 7A and induction electrode structure 3A, the other end and outside microprocessor (be not shown in graphic in) are connected, touch signal in order to be received by induction electrode structure 3A is sent in microprocessor, carries out the analysis of signal and the action of other unit follow-up by microprocessor.

Pin configuration 7A is located on substrate 1A, and is positioned at non-visible area 13A, in order to be electrically connected induction electrode structure 3A and the first coupling assembling 5A.Pin configuration 7A comprises a plurality of first signal conductors 71A, a plurality of secondary signal wire 73A and insulation assembly 75A, wherein secondary signal wire 73A system is arranged between induction electrode structure 3A and the first coupling assembling 5A, is electrically connected the first coupling assembling 5A and second sensing serial 33A.

First signal conductor 71A is electrically connected the first coupling assembling 5A and first sensing serial 31A, wherein each first sensing serial 31A is all electrically connected to the first coupling assembling 5A respectively with a corresponding first signal conductor 71A, in other words, each first sensing serial 31A only connects in plural first signal conductor 71A.In the present embodiment, the first signal conductor 71A is all gone out by the same termination of the first sensing serial 31A, and it is all positioned at the same side (Fig. 1 is shown on the left of the second sensing serial 33A) of the second sensing serial 33A.

Please refer to Fig. 2 A, part the first signal conductor 71A is arranged on substrate 1A, between substrate 1A and insulation assembly 75A (hereinafter referred to as lower floor position 77A), and other part first signal conductor 71A systems are arranged at (hereinafter referred to as topside position 79A) on insulation assembly 75A, wherein, be positioned at the first signal conductor 71A region V1A of lower floor position 77A, at least part is overlapping with the first orthogonal projection of signal conductor 71A region V2A on substrate 1A being positioned at topside position 79A.

In the present embodiment, by the first signal conductor 71A is divided into lower floor position 77A and topside position 79A, and insulation assembly 75A is set to realize mutually insulated, simultaneously, the the first signal conductor 71A region V1 being positioned at lower floor position 77A is set, on the direction perpendicular to substrate 1A, at least part is overlapping with the first signal conductor 71A region V2 being positioned at topside position 79A, to reduce the width W 1 of the first signal conductor 71A region, thus realizes the design of the narrow frame of contact panel.

Referring to Fig. 1, Fig. 2 B and Fig. 2 C, the wherein sectional view of Fig. 2 B by being drawn according to Figure 12 B-2B line, the sectional view of Fig. 2 C by being drawn according to Figure 12 C-2C line.

2B figure illustrates in the present embodiment the electric connection mode that the first signal conductor 71A and first being positioned at lower floor position 77A senses serial 31A.The the first signal conductor 71A being positioned at lower floor position 77A realizes electric connection each other by directly sensing serial 31A phase with first and overlapping, in the present embodiment, the one end being positioned at the first signal conductor 71A of lower floor position 77A is stacked on the first sensing serial 31A, it should be noted that, different according to the order of actual fabrication steps, also can be sense between serial 31A and substrate 1A first in one end of the first signal conductor 71A of lower floor position 77A, or by setting up a clinch to realize being electrically connected, the utility model is not as limit.

Fig. 2 C illustrates in the present embodiment the electric connection mode that the first signal conductor 71A and first being positioned at topside position 79A senses serial 31A.To be provided with insulation assembly 75A between serial 31A owing to sensing at the first signal conductor 71A and first of topside position 79A and cannot to be electrically connected by the mode directly overlapped, in the present embodiment, by arranging through hole 750A on the corresponding position of insulation assembly 75A, and filled conductive material 9A has realized sensing electrical overlap joint between serial 31A at the first signal conductor 71A and first of topside position 79A in through hole 750A, wherein the corresponding position of insulation assembly 75A refers to the first signal wire 71A of being positioned at topside position 79A and will sense the overlapping region of the orthogonal projection of serial 31A on insulation assembly 75A with it is electrically connected mutually first.In other embodiments of the present utility model, also mutual electric connection between the two can be realized by other means, such as set up both other conductive components electric connections or by setting of stepping down to insulation assembly 75A, directly can overstate that the edge being located at insulation assembly 75A directly carries out the mode such as overlapping to make both.

In the present embodiment, first signal conductor 71A and secondary signal wire 73A can be single layer structure, such as by a kind of single layer structure formed in the conductive materials such as copper, aluminium, silver, tin indium oxide, it can also be structure that is two-layer or multilayer, such as mutually folded to establish by conductive materials such as molybdenum, aluminium, silver, tin indium oxides and formed, as molybdenum-aluminium-molybdenum, the structure of the two-layer or multilayer such as copper-tin indium oxide.

In the present embodiment, insulation assembly 75A is single layer structure, is formed by the insulating material such as silicon dioxide or photoresist, insulate between the first signal conductor 71A being mainly used in making to be divided into upper and lower two-layer position, in other embodiments of the present utility model, insulation assembly 75A can be sandwich construction.

Please refer to 2D figure, the sectional view of Fig. 2 C by being drawn according to Figure 12 C-2C line, as shown in figure 2d, insulation assembly 75A comprises the first insulation course 751A, screen layer 753A and the second insulation course 755A, wherein, from schematic structure, from bottom to top comprise substrate 1A, the first signal conductor 71A in position lower floor position 77A, the first insulation course 751A, screen layer 753A, the second insulation course 755A successively and be positioned at the first signal conductor 71A of topside position 79A.Screen layer 753 is formed by conductive material, be arranged between bilevel first signal conductor 71A, can, in order to shield the electromagnetic noise between the first signal conductor 71A, to reduce the mutual interference up and down between two-layer first signal conductor 71A, make the transmission of touch signal more stable.

Be the contact panel vertical view drawn according to the utility model second embodiment referring to Fig. 3 A and Fig. 3 B, Fig. 3 A, the sectional view of Fig. 3 B by being drawn according to Fig. 3 A3B-3B line.As shown in the figure, the difference of the contact panel in the contact panel in the present embodiment and the first embodiment is composition and the set-up mode of pin configuration 7B, and other assembly, the mode arranged as substrate 1B, induction electrode structure 3B, the first coupling assembling 5B is identical with the first embodiment, the definition mode of visible area 11B and non-visible area 13B on substrate 1B, first embodiment visible area 11A is identical with non-visible area 13A too, is no longer repeated.

Specifically, in the present embodiment, the pin configuration 7B of contact panel comprises plural first signal conductor 71B, plural secondary signal wire 73B and a plurality of the 3rd signal conductor 74B, wherein, the set-up mode of the first signal conductor 71B and secondary signal wire 73B is identical with the first embodiment, therefore repeats no more.3rd signal conductor 74B connects one end that the second sensing serial 33B is not connected with secondary signal wire 73B, and be all connected to the first coupling assembling 5B via the same side of the second sensing serial 33B, wherein those the 3rd signal conductor 74B are divided into the upper and lower two-layer position of insulation assembly 75B, namely part the 3rd signal conductor 74B is arranged between substrate 1B and insulation assembly 75B, and other parts the 3rd signal conductor 74B is arranged on insulation assembly 75B.The present embodiment is connected to the situation of the first coupling assembling 5B respectively for the second sensing serial 33B two ends by secondary signal wire 73B and the 3rd signal conductor 74B, the laying mode of the first signal conductor 71B in pin configuration 7B and the 3rd signal conductor 74B is arranged, with the width W 2 of the width W 1 and the 3rd signal conductor 74B region of reducing the first signal conductor 71B region simultaneously, thus realize the design of the narrow frame of contact panel.

Graphic middle display the 3rd signal conductor 74B of the present embodiment is all connected with the first assembly 5B via the right side of the second sensing serial 33B, first signal conductor 71B is then all connected with the first assembly 5B via the left side of the second sensing serial 33B, setting like this, signal conductor concentrations and second can be avoided to sense the same side of serial 33B and the appearance of the problem such as signal disturbing occurred, but in other embodiments of the present utility model, also according to the actual demand of product, and other distribution mode can be used to the 3rd signal conductor 74B.

Please refer to Fig. 4 A and Fig. 4 B, Fig. 4 A is the contact panel vertical view drawn according to the utility model the 3rd embodiment, the sectional view of Fig. 4 B by being drawn according to Fig. 4 A4B-4B line.As shown in the figure, the difference of the contact panel in the contact panel in the present embodiment and the second embodiment is the set-up mode of the 3rd signal conductor 74C in pin configuration 7C, and the mode that other assembly is arranged as the first signal conductor 71C in substrate 1C, induction electrode structure 3C, the first coupling assembling 5C and pin configuration 7C and secondary signal wire 73C is identical with the second embodiment, the definition mode of visible area 11C and non-visible area 13C on substrate 1C, second embodiment visible area 11B is identical with non-visible area 13B too, is no longer repeated.

Specifically, in the present embodiment, 3rd signal conductor 74C connects second sensing non-one end be connected with secondary signal wire 73C of serial 33C, and be connected to the first coupling assembling 5C via the both sides of the second sensing serial 33C respectively, in other words, 3rd signal conductor 74C part is connected to the first coupling assembling 5C via the left side of the second sensing serial 33C, other parts are then connected to the first coupling assembling 5C via the right side of the second sensing serial 33C, thus, the width W 2 of the 3rd signal conductor 74C region can be reduced further.In the present embodiment, 3rd signal conductor 74C is also divided into the upper and lower of insulation assembly 75C, but it should be noted that, in the present embodiment, the left side of the second sensing serial 33C is provided with the first signal conductor 71C and part the 3rd signal conductor 74C, therefore when arranging the position of those signal conductors (be positioned at the upper of insulation assembly 75C or under), can arrange more flexibly, such as, first signal conductor 71C is most or all between insulation assembly 75C and substrate 1C, the utility model is not restricted, but in a preferred embodiment, be divided into the first signal conductor 71C that insulation assembly 75C is upper and lower, orthogonal projection on insulation assembly 75C is overlapped, and with the orthogonal projection zero lap of the 3rd signal conductor 74C in insulation assembly 75C, so can avoid the signal cross-talk between axially different sensing serial, to avoid having a negative impact to the sensing accuracy of contact panel.

In above-described embodiment, first signal conductor (71A, 71B, 71C) all connection senses serial (31A with first, 31B, left end 31C), and all via the second sensing serial (33A, 33B, the same side 33C), in other embodiments of the present utility model, first signal conductor also can be divided into the both sides of the second sensing serial via the both sides of the second sensing serial, it should be noted that, in embodiment of the present utility model, the mode first signal conductor being divided into the second sensing serial both sides roughly can comprise two kinds of designs: first kind of way is, first signal conductor all connects same one end of the first sensing serial, wherein part the first signal conductor is drawn from the left side of the second sensing serial, other part first signal conductors are then by the mode of coiling, draw from the right side of the second sensing serial, the second way is, part the first signal conductor connecting portion first senses the left end of serial, and other part first signal conductors then connect the right-hand member of other part first sensing serials, and the first signal conductor like this is divided into the both sides of the second sensing serial.Known this area those skilled in the art can according to the actual needs of product, the wire laying mode that choice for use is different.

Please refer to the 5th, Fig. 5 is the contact panel vertical view drawn according to the utility model the 4th embodiment.The difference of the contact panel in the contact panel in the present embodiment and the first embodiment is the set-up mode of the first signal conductor 71D in pin configuration 7D, and the mode that other assembly is arranged as secondary signal wire 73D in substrate 1D, induction electrode structure 3D, the first coupling assembling 5D and pin configuration 7D is identical with the first embodiment, the definition mode of visible area 11D and non-visible area 13D on substrate 1D, first embodiment is identical too, is no longer repeated.

Specifically, in the present embodiment, the first signal conductor 71D of pin configuration 7D is divided into the not homonymy of the second sensing serial 33D, in other words, first signal conductor 71D part is connected to the left end of part first sensing serial 31D, and other parts the first signal conductor 71D is connected to the right-hand member of other part first sensing serials 31D, this two part the first signal conductor 71D is connected with the first coupling assembling 5D via the left and right sides of the second sensing serial 33D respectively.In the present embodiment, by the first signal conductor 71D concentrating on second sensing serial 33D the same side being divided into the both sides of the second sensing serial 33D, again the first signal conductor 71D being positioned at the second sensing serial 33D homonymy is separated into different levels by arranging insulation assembly 75D, thus farthest reduces the width W 1 of the first signal conductor 71D region.

Please refer to Fig. 6 A and Fig. 6 B, Fig. 6 A is the contact panel vertical view drawn according to the utility model the 5th embodiment, the sectional view of Fig. 6 B by being drawn according to Fig. 6 A6B-6B line.As shown in the figure, the difference of the contact panel in the contact panel in the present embodiment and the 4th embodiment is composition and the set-up mode of pin configuration 7E, and other assembly, the mode arranged as substrate 1E, induction electrode structure 3E, the first coupling assembling 5E is identical with the first embodiment, the definition mode of visible area 11E and non-visible area 13E on substrate 1E, 4th embodiment visible area 11D is identical with non-visible area 13D too, is no longer repeated.

Specifically, in the present embodiment, the pin configuration 7E of contact panel comprises plural first signal conductor 71E, plural secondary signal wire 73E and a plurality of the 3rd signal conductor 74E, wherein, the set-up mode of the first signal conductor 71E and secondary signal wire 73E is identical with the 4th embodiment, therefore repeats no more.3rd signal conductor 74E connects one end that the second sensing serial 33E is not connected with secondary signal wire 73E, and be all connected to the first coupling assembling 5E via the same side of the second sensing serial 33E, wherein those the 3rd signal conductor 74E are divided into the upper and lower two-layer position of insulation assembly 75E, namely part the 3rd signal conductor 74E is arranged between substrate 1E and insulation assembly 75E, and other parts the 3rd signal conductor 74E is arranged on insulation assembly 75E.The present embodiment is connected to the situation of the first coupling assembling 5E respectively for the second sensing serial 33E two ends by secondary signal wire 73E and the 3rd signal conductor 74E, the laying mode of the first signal conductor 71E in pin configuration 7E and the 3rd signal conductor 74E is arranged, with the width W 2 of the width W 1 and the 3rd signal conductor 74E region of reducing the first signal conductor 71E region simultaneously, thus realize the design of the narrow frame of contact panel.

Please refer to Fig. 7, Fig. 7 is the contact panel vertical view drawn according to the utility model the 6th embodiment.The difference of the contact panel in the contact panel in the present embodiment and the 5th embodiment is the set-up mode of the 3rd signal conductor 74F in pin configuration 7F, and the mode that other assembly is arranged as the first signal conductor 71F in substrate 1F, induction electrode structure 3F, the first coupling assembling 5F and pin configuration 7F and secondary signal wire 73F is identical with the 5th embodiment, the definition mode of visible area 11F and non-visible area 13F on substrate 1F, identical with non-visible area 13E with the 5th embodiment visible area 11E too, no longer repeated.

Specifically, in the present embodiment, 3rd signal conductor 74F connects one end that the second sensing serial 33F is not connected with secondary signal wire 73F, and be connected to the first coupling assembling 5F via the both sides of the second sensing serial 33F respectively, in other words, 3rd signal conductor 74F part is connected to the first coupling assembling 5F via the left side of the second sensing serial 33F, other parts are then connected to the first coupling assembling 5F via the right side of the second sensing serial 33F, thus, the width W 2 of the 3rd signal conductor 74F region can be reduced further.In the present embodiment, 3rd signal conductor 74F is also divided into the upper and lower of insulation assembly 75F, but it should be noted that, in the present embodiment, the left side of the second sensing serial 33F is provided with the first signal conductor 71F and part the 3rd signal conductor 74F, therefore when arranging the position of those signal conductors (be positioned at the upper of insulation assembly 75F or under), can arrange more flexibly, such as, first signal conductor 71F is most or all between insulation assembly 75F and substrate 1F, the utility model is not restricted, but in a preferred embodiment, be divided into the first signal conductor 71F that insulation assembly 75F is upper and lower, orthogonal projection on insulation assembly 75F is overlapped, and with the orthogonal projection zero lap of the 3rd signal conductor 74F in insulation assembly 75F, so can avoid the signal cross-talk between axially different sensing serial, to avoid having a negative impact to the sensing accuracy of contact panel.

Every bar first in above-described embodiment in contact panel senses serial (31A, 31B, 31C, 31D, 31E, 31F) all only there are one end and the first signal conductor (71A, 71B, 71C, 71D, 71E, 71F) be electrically connected, the other end is not connected with any signal conductor, the i.e. contact panel of monolateral pin configuration (single routing), in other words, above-described embodiment is all the Curve guide impeller carried out for the contact panel of monolateral pin configuration, and in other embodiment of the present utility model, also the Curve guide impeller of the contact panel for bilateral pin configuration (double routing) is had, wherein the contact panel of bilateral pin configuration (double routing) refers to that the two ends that every bar first senses serial are electrically connected first signal conductor respectively, in this structure, many in the more monolateral pin configuration of quantity of the first signal conductor, region shared by it also will be more, therefore more need to make improvements, to meet the demand of the narrow frame of contact panel.

Please refer to Fig. 8 A and Fig. 8 B, Fig. 8 A is the contact panel vertical view drawn according to the utility model the 7th embodiment, the sectional view of Fig. 8 B by being drawn according to Fig. 8 A8B-8B line.The difference of the contact panel in the contact panel in the present embodiment and the first embodiment is the set-up mode of the first signal conductor 71G in pin configuration 7G, and the mode that other assembly is arranged as secondary signal wire 73G in substrate 1G, induction electrode structure 3G, the first coupling assembling 5G and pin configuration 7G is identical with the first embodiment, the definition mode of visible area 11G and non-visible area 13G on substrate 1G, first embodiment is identical too, is no longer repeated.

Specifically, plural number first signal conductor 71G in pin configuration 7G in the present embodiment is connected to the two ends of the first sensing serial 31G, and be electrically connected and the first coupling assembling 5G via the both sides of the second sensing serial 33G, in other words, the two ends of each the first sensing serial 31G connect a first signal conductor 71A respectively, and those first signal conductors 71G is connected with the first coupling assembling 5G via the both sides of the second sensing serial 33G respectively.Wherein, identical with the first embodiment is, the first signal conductor 71G at the second sensing serial 33G homonymy to be divided between substrate 1G and insulation assembly 75A on (hereinafter referred to as lower floor position 77G) and insulation assembly 75A (hereinafter referred to as topside position 79G), and make the first signal conductor 71G region V1G of a lower floor position 77G, on the direction perpendicular to substrate 1G, at least part is overlapping with the first signal conductor 71G region V2G being positioned at topside position 79G, synchronously to reduce the width W 1 of the first signal conductor 71G region being positioned at the second sensing serial 33G both sides.

Please refer to Fig. 9, Fig. 9 is the contact panel vertical view drawn according to the utility model the 8th embodiment.The difference of the contact panel in the contact panel in the present embodiment and the 7th embodiment is composition and the set-up mode of pin configuration 7H, and other assembly, the mode arranged as substrate 1H, induction electrode structure 3H, the first coupling assembling 5H is identical with the first embodiment, the definition mode of visible area 11H and non-visible area 13H on substrate 1H, identical too in the 7th embodiment, is no longer repeated.

Specifically, in the present embodiment, the pin configuration 7H of contact panel comprises plural first signal conductor 71H, plural secondary signal wire 73H and a plurality of the 3rd signal conductor 74H, wherein, the set-up mode of the first signal conductor 71H and secondary signal wire 73H is identical with the 7th embodiment, therefore repeats no more.3rd signal conductor 74H connects one end that the second sensing serial 33H is not connected with secondary signal wire 73H, and be all connected to the first coupling assembling 5H via the same side of the second sensing serial 33H, wherein those the 3rd signal conductor 74H are divided into the upper and lower two-layer position of insulation assembly 75H, namely part the 3rd signal conductor 74H is arranged between substrate 1H and insulation assembly 75H, and other parts the 3rd signal conductor 74H is arranged on insulation assembly 75H.The present embodiment is connected to the situation of the first coupling assembling 5H respectively for the second sensing serial 33H two ends by secondary signal wire 73H and the 3rd signal conductor 74H, the laying mode of the first signal conductor 71H in pin configuration 7H and the 3rd signal conductor 74H is arranged, with the width W 2 of the width W 1 and the 3rd signal conductor 74H region of reducing the first signal conductor 71H region simultaneously, thus realize the design of the narrow frame of contact panel.

Please refer to Figure 10, Figure 10 is the contact panel vertical view drawn according to the utility model the 9th embodiment.The difference of the contact panel in the contact panel in the present embodiment and the 8th embodiment is the set-up mode of the 3rd signal conductor 74I in pin configuration 7I, and the mode that other assembly is arranged as the first signal conductor 71I in substrate 1I, induction electrode structure 3I, the first coupling assembling 5I and pin configuration 7I and secondary signal wire 73I is identical with the 8th embodiment, the definition mode of visible area 11I and non-visible area 13I on substrate 1I, identical with non-visible area 13H with the 5th embodiment visible area 11H too, no longer repeated.

Specifically, in the present embodiment, 3rd signal conductor 74I connects one end that the second sensing serial 33I is not connected with secondary signal wire 73I, and be connected to the first coupling assembling 5I via the both sides of the second sensing serial 33I respectively, in other words, part the 3rd signal conductor 74I is connected to the first coupling assembling 5I via the left side of the second sensing serial 33I, other parts are then connected to the first coupling assembling 5I via the right side of the second sensing serial 33I, thus, the width W 2 of the 3rd signal conductor 74I region can be reduced further.In the present embodiment, 3rd signal conductor 74I is divided into the upper and lower of insulation assembly 75I, but it should be noted that, in the present embodiment, the both sides of the second sensing serial 33I are provided with the first signal conductor 71I and the 3rd signal conductor 74I, therefore when arranging those and being positioned at the position of the signal conductor of homonymy (be positioned at the upper of insulation assembly 75I or under), can arrange more flexibly, such as, first signal conductor 71I is most or all between insulation assembly 75I and substrate 1I, the utility model is not restricted, but in a preferred embodiment, be divided into the first signal conductor 71I that insulation assembly 75I is upper and lower, orthogonal projection on insulation assembly 75I is overlapped, and with the orthogonal projection zero lap of the 3rd signal conductor 74I in insulation assembly 75I, so can avoid the signal cross-talk between axially different sensing serial, to avoid having a negative impact to the sensing accuracy of contact panel.

In above-described embodiment of the present utility model, first signal conductor, secondary signal wire and the 3rd signal conductor are all connected to the first coupling assembling, to realize signal from sensing electrode structure to the transmission of the first coupling assembling, the utility model also proposes a kind of contact panel having additional the second coupling assembling, and the part signal wire being connected to the first coupling assembling is connected to the second coupling assembling, to alleviate the cloth linear pressure of the first coupling assembling place substrate side.It should be noted that in above-described embodiment, all by setting up the second coupling assembling, and the mode adjusting signal conductor access path is to realize the narrow frame demand of product, is described by the framework based on the 9th embodiment below.

Please refer to Figure 11, is the contact panel vertical view drawn according to the utility model the tenth embodiment.The difference of the contact panel in the contact panel in the present embodiment and the 9th embodiment is more to comprise the second coupling assembling 6J.Specifically, second coupling assembling 6J is arranged on substrate 1J, and be positioned at the non-visible area 13J of the second sensing serial 33J other end, wherein, the second sensing serial 33J other end refers to the one end not arranging the first connection 5J, according to diagram, the first coupling assembling 5J is positioned at the non-visible area of the second sensing serial 33J lower end, and the second coupling assembling 6J is then positioned at the non-visible area of the second sensing serial 33J upper end.It should be noted that in embodiment of the present utility model, the second coupling assembling 6J its also can be arranged at left end or the right-hand member of the first sensing serial 31J, the utility model is not restricted.

As mentioned above, the setting of the second coupling assembling 6J is the cloth linear pressure in order to alleviate the first coupling assembling place substrate side, to meet the design requirement of different product, accordingly, in the present embodiment, part first signal conductor 71J in pin configuration 7J and whole 3rd signal conductor 74J one end are connected to corresponding first sensing serial 31J and second sensing serial 33J, the other end is then connected to the second coupling assembling 6J, from icon, in the present embodiment, second coupling assembling 6J is located at the upper end of the second sensing serial 33J, in order to simplify the laying mode of signal conductor, 3rd signal conductor 74J and part the first signal conductor 71J is according to the shortest principle of circuit, be connected to the second coupling assembling 6J.Be understandable that, in other embodiments of the present utility model, can the actual position according to the second coupling assembling 6J, based on the principle that circuit is the shortest, plan the wiring route of the first signal conductor 71J, secondary signal wire 73J and the 3rd signal conductor 74J.It should be noted that in embodiment of the present utility model, also according to the difference of product actual demand, and can adjust accordingly the laying of signal conductor, the utility model is not as limit.

The mode that in the contact panel of the present embodiment, other assembly is arranged as substrate 1J, induction electrode structure 3J, the first coupling assembling 5J and pin configuration 7J is identical with the 9th embodiment, the definition mode of visible area 11J and non-visible area 13J on substrate 1J, also implement with the 9th identical, no longer repeated.

In sum, in above-described embodiment of the present utility model, by by the first signal conductor and or the 3rd signal conductor be divided into the upper and lower two-layer position of insulation assembly, and by limiting the signal conductor region being positioned at upper and lower two-layer position, at least part is overlapping, to reduce signal conductor in the wiring area area shared by the non-visible area of substrate, thus realize the object of the narrow frame of contact panel.

In embodiment of the present utility model, preferably, the signal conductor region being positioned at upper and lower two-layer position is overlapped, thus save signal conductor to greatest extent in the wiring area area shared by the non-visible area of substrate, also there is different position relationships each other, please refer to Figure 12 A, Figure 12 B and Figure 12 C.

Please refer to Figure 12 A, Figure 12 A be according to Fig. 1 a kind of first signal conductor 71A of drawing change the schematic diagram of set-up mode.As shown in 11A figure, the first signal conductor 71A between substrate 1A and insulation assembly 75A and the first signal conductor 71A be positioned on insulation assembly 75A, the orthogonal projection zero lap on substrate 1A.In other words, be positioned at the first signal conductor 71A of topside position 79A and be positioned at the first signal conductor 71A of lower floor position 77A, overlap side by side up and down.Design like this, can in reducing the signal disturbing between the first signal conductor 71A at topside position 79A and the first signal conductor 71A at lower floor position 77A to a certain extent.

Please refer to Figure 12 B, Figure 12 B be according to Fig. 1 the another kind of first signal conductor 71A that draws change the schematic diagram of set-up mode, as shown in Figure 12 B, the first signal conductor 71A between substrate 1A and insulation assembly 75A and the first signal conductor 71A be positioned on the insulation assembly 75A orthogonal projection part on substrate 1A is overlapping.

Please refer to Figure 12 C, Figure 12 C be according to Fig. 1 the another kind of first signal conductor 71A that draws change the schematic diagram of set-up mode, as indicated in fig. 12 c, the first signal conductor 71A between substrate 1A and insulation assembly 75A is overlapped with the first orthogonal projection of signal conductor 71A on substrate 1A be positioned on insulation assembly 75A.

Please refer to Figure 12 D, Figure 12 D be according to Fig. 1 another first signal conductor 71A of drawing change the schematic diagram of set-up mode.As shown in 12D figure, the first signal conductor 71A between substrate 1A and insulation assembly 75A is different from the width of the first signal conductor 71A be positioned on insulation assembly 75A.Now, the width of non-visible area 13A is identical with the first wider signal conductor 71A by being reduced to.In like manner known, topside position 79A can also be identical with the first signal conductor 71A width of lower floor position 77A, belongs to the simple change of the present embodiment.In addition, in other embodiments of the present utility model, the width of signal conductor also can be directly proportional to the length of himself, and namely signal conductor is longer, and himself width is wider, with the dough softening of balancing touch signal on the signal conductor of different length.

Need one to carry, described contact panel has more a kind of operator guards (not shown), in order to cover and to protect pin configuration.This operator guards is except covering pin configuration, and more can need the assembly of protection in order to covered substrate or other, the utility model is not limited.

In above-mentioned lifted various embodiments, the effect of best narrow frame makes the signal conductor between substrate and insulation assembly (signal conductor of lower floor position) be not more than one with the quantity absolute difference of both signal conductors of the signal conductor (signal conductor of topside position) be positioned on insulation assembly, but not as limit.

Comprehensive the above, the pin configuration around induction electrode structure periphery is divided into Dual-layer by the utility model, to reduce the width occupied by pin configuration, and then reduces the area of non-visible area scope, reaches the effect of narrow frame.Due to the known mode in order to reduce non-visible area width, reach the limit of reduced width, deviser singly only can utilize the design of the utility model double-deck lead structure, or utilize the utility model double-deck lead structure in conjunction with the mode of known reduced width, meet the object on narrower for non-inductive sector width limit.

Above illustrated embodiment, only with the utility model for convenience of description with being not in a limitative way, not departing from the utility model scope, those skilled in the art illustrate the various Simple transformed and modification done according to the utility model claim and utility model, all must include in the application's the scope of the claims.

Claims (24)

1. a contact panel, is characterized in that, comprising:

One substrate, defines the non-visible area of a visible area and a correspondence;

One induction electrode structure, to be arranged on this substrate and to define this visible area, and this induction electrode structure comprises a plurality of first sensing serial and a plurality of second and senses serial, wherein those first sense serials and those second to sense serial insulated from each other and be staggered;

One first coupling assembling, is arranged on this substrate, and is positioned at the non-visible area of those the second sensing serial one end; And

One pin configuration, is positioned at this non-visible area, is arranged on this substrate, comprises:

A plurality of first signal conductors, are electrically connected those first sensing serial and this first coupling assemblings respectively;

A plurality of secondary signal wires, are arranged between this induction electrode structure and this first coupling assembling, are electrically connected those second sensing serial and this first coupling assemblings respectively; And

One insulation assembly, be wherein arranged between this substrate and this insulation assembly in those the first signal conductor parts of those the second sensing serial homonymies, those first signal wires of other parts are arranged on this insulation assembly.

2. contact panel as claimed in claim 1, is characterized in that, wherein of each those the first sensing those the first signal conductors connected in series.

3. contact panel as claimed in claim 2, is characterized in that, those first signal conductors are located at the same side of those the second sensing serials.

4. contact panel as claimed in claim 2, is characterized in that, those first signal conductors are divided into the not homonymy of those the second sensing serials.

5. the contact panel as described in claim 3 or 4, it is characterized in that, this pin configuration more comprises a plurality of the 3rd signal conductors, connect the other end and this first coupling assembling of those the second sensing serials, those the 3rd signal conductors are arranged at the same side of those the second sensing serials, wherein be arranged between this substrate and this insulation assembly at those first signal conductors of those the second sensing serial homonymies and those the 3rd signal conductors part, those the 3rd signal conductor correspondences of those first signal wires of other parts and other parts are arranged on this insulation assembly.

6. the contact panel as described in claim 3 or 4, it is characterized in that, this pin configuration more comprises a plurality of the 3rd signal conductors, connect the other end and this first coupling assembling of those the second sensing serials, those the 3rd signal conductors are arranged at the not homonymy of those the second sensing serials, wherein be arranged between this substrate and this insulation assembly at those first signal conductors of those the second sensing serial homonymies and those the 3rd signal conductors part, those the 3rd signal conductor correspondences of those first signal wires of other parts and other parts are arranged on this insulation assembly.

7. contact panel as claimed in claim 1, is characterized in that, the two ends of each those the first sensing serial connect wherein one of those the first signal conductors respectively.

8. contact panel as claimed in claim 7, it is characterized in that, this pin configuration more comprises a plurality of the 3rd signal conductors, connect the other end and this first coupling assembling of those the second sensing serials, those the 3rd signal conductors are arranged at the same side of those the second sensing serials, wherein be arranged between this substrate and this insulation assembly at those first signal conductors of those the second sensing serial homonymies and those the 3rd signal conductors part, those the 3rd signal conductor correspondences of those first signal wires of other parts and other parts are arranged on this insulation assembly.

9. contact panel as claimed in claim 7, it is characterized in that, this pin configuration more comprises a plurality of the 3rd signal conductors, connect the other end and this first coupling assembling of those the second sensing serials, those the 3rd signal conductors are arranged at the not homonymy of those the second sensing serials, wherein be arranged between this substrate and this insulation assembly at those first signal conductors of those the second sensing serial homonymies and those the 3rd signal conductors part, those the 3rd signal conductor correspondences of those first signal wires of other parts and other parts are arranged on this insulation assembly.

10. contact panel as claimed in claim 7, is characterized in that, the material connecting two those first signal conductors at the two ends of those the first sensing serials same is different.

11. contact panels as claimed in claim 1, it is characterized in that, this contact panel more comprises one second coupling assembling, is arranged on substrate, is positioned at the non-visible area of the other end of this second sensing serial.

12. contact panels as claimed in claim 11, it is characterized in that, this pin configuration more comprises a plurality of the 4th signal conductors, wherein, those the 4th signal conductors are arranged between this induction electrode structure and this second coupling assembling, are electrically connected those second sensing serial and this second coupling assemblings respectively.

13. contact panels as claimed in claim 12, is characterized in that, those first signal conductors of part connect this first coupling assembling, and other parts connect this second coupling assembling.

14. contact panels as claimed in claim 1, is characterized in that, those first signal conductors between this substrate with this insulation assembly are overlapping perpendicular to the projection on this orientation substrate in one with those first signal conductors be positioned on this insulation assembly.

15. contact panels as claimed in claim 1, is characterized in that, those first signal conductors between this substrate and this insulation assembly be positioned at those first signal conductors on this insulation assembly in one perpendicular to the projection zero lap on this orientation substrate.

16. contact panels as claimed in claim 1, is characterized in that, those first signal conductors between this substrate with this insulation assembly are overlapping perpendicular to the projection part on this orientation substrate in one with those first signal conductors be positioned on this insulation assembly.

17. contact panels as claimed in claim 1, is characterized in that, those first signal conductors between this substrate with this insulation assembly are identical with the width being positioned at those the first signal conductors on this insulation assembly.

18. contact panels as claimed in claim 1, is characterized in that, those first signal conductors between this substrate from this insulation assembly are different with the width being positioned at those the first signal conductors on this insulation assembly.

19. contact panels as claimed in claim 1, it is characterized in that, those first signal conductors are directly proportional to the length of himself to the width of those secondary signal wires.

20. contact panels as claimed in claim 1, is characterized in that, those first signal conductors between this substrate and this insulation assembly are not more than one with the quantity absolute difference of those the first signal conductors be positioned on this insulation assembly.

21. contact panels as claimed in claim 1, it is characterized in that, this insulation assembly comprises one first insulation course and one second insulation course, and the screen layer between this first insulation course and this second insulation course, wherein, this first insulation course this substrate contiguous is arranged, and this second insulation course is relatively away from this substrate.

22. contact panels as claimed in claim 1, is characterized in that, more comprise an operator guards, at least cover this pin configuration.

23. contact panels as claimed in claim 1, is characterized in that, are arranged at those first signal wires of part on this insulation assembly by arranging a through hole on this insulation assembly, and in this through hole filled conductive material and those first sense serial and be electrically connected.

24. contact panels as claimed in claim 1, is characterized in that, those first signal wires of part be arranged on this insulation assembly pass through to arrange a through hole on this insulation assembly, and filled conductive material and this first coupling assembling are electrically connected in this through hole.