CN105677072A - Touch panel and touch display equipment thereof - Google Patents

Abstract

The invention relates to a touch panel. The touch panel is defined with a non-visible region and a visible region corresponding to the non-visible region and comprises a cover plate, a sensing module arranged below the cover plate and equipped with a lead structure of the non-visible region, and an outer frame which at least covering the side edge of the cover plate and has a concealed part of the lead structure used for concealing the sensing module, wherein the concealed part is used for defining the non-visible region. The invention further provides touch display equipment having the touch panel. Therefore, the touch panel has following beneficial effects: without a shielding layer, the range of the non-visible range is decreased; and the touch panel with a narrower edge can be designed.

Description

Contact panel and touch-control display device thereof

Technical field

The present invention is a kind of touch technology, espespecially a kind of contact panel and touch-control display device thereof.

Background technology

Along with the development of touch technology, contact panel is widely used in various electronic products, refer to shown in Figure 12, contact panel as user's input interface of electronic product comprises a cover plate 21 conventionally, the one touch-control sensing module 22 of fitting with this cover plate 21, and the shielding layer 23 being arranged between this cover plate 21 and this touch-control sensing module 22, wherein this shielding layer 23 is light tight structure, and operated by rotary motion in the non-touch surface of cover plate 21 to form the non-visible area IVA of a contact panel, wherein, the non-touch surface of this cover plate 21 is the surface of this cover plate 21 in the face of this touch-control sensing module 22. this shielding layer 23 is the metallic circuit structure 221 of covering in touch-control sensing module 22, makes metallic circuit structure 221 not by consumer's finding.

Above-mentioned shielding layer 23 is formed on this cover plate 21 by the processing procedure being coated with or print conventionally, due to reasons such as processing procedure tolerances, the metallic circuit structure 221 that shielding layer 23 generally can will cover than it is wide a lot, thereby make the non-viewing area IVA of contact panel also can be relatively wide, therefore, prior art is unfavorable for the narrow frame design of contact panel, does not meet the development trend of the narrow frame of contact panel.

Summary of the invention

Because the shortcoming of prior art, the present invention system provides a kind of touch-control display device and contact panel thereof, and it does not have shielding layer, can reduce the scope of non-visible area, designs the contact panel of narrower frame.

Technological means that the present invention takes system makes this contact panel define a non-visible area and a pair of visible area that should non-visible area, and includes: a cover plate; One sensing module, is to be arranged at this cover plate below, comprises a pin configuration that is arranged at this non-visible area; And a housing, be coated this cover plate side, on this housing, be formed with the hidden portion of a conductor layer in order to hidden this sensing module, wherein this concealment part is in this cover plate below and define this non-visible area.

And touch-control display device of the present invention is to include above-mentioned contact panel and a display module, between the sensing module of this display module and this contact panel, cording has one the 3rd bonding coat, this display module is fitted in to this sensing module below, form this touch-control display device.

Hence one can see that, and contact panel of the present invention lies on housing and is formed with hidden portion, and hidden this pin configuration by this, is not seen this pin configuration by user. For this reason, just without being set, the shielding layer that processing procedure tolerance is larger covers this pin configuration, thereby the non-viewing area of contact panel can be reduced, the designer of contact panel just can design the contact panel of the narrower frame of frame, to meet the development trend of narrow frame of contact panel.

Brief description of the drawings

For the present invention's above and other object, feature, advantage and embodiment can be become apparent, appended graphic being described as follows:

Fig. 1 is the top view of contact panel of the present invention.

Fig. 2 is the profile of contact panel the first preferred embodiment of the present invention.

Fig. 3 is the profile that reinforced structure is set up in contact panel the first preferred embodiment of the present invention.

Fig. 4 is the profile of contact panel the second preferred embodiment of the present invention.

Fig. 5 is the profile of contact panel of the present invention the 3rd preferred embodiment.

Fig. 6 is the profile of contact panel of the present invention the 4th preferred embodiment.

Fig. 7 is the profile of touch-control display device the first preferred embodiment of the present invention.

Fig. 8 is the profile that reinforced structure is set up in touch-control display device the first preferred embodiment of the present invention.

Fig. 9 is the profile of touch-control display device the second preferred embodiment of the present invention.

Figure 10 is the profile of touch-control display device the 3rd preferred embodiment of the present invention.

Figure 11 is the profile of touch-control display device the 4th preferred embodiment of the present invention.

Figure 12 is the profile of prior art touch-control display device.

Detailed description of the invention

Below coordinate preferred embodiment graphic and of the present invention, further set forth the technological means that the present invention takes for reaching predetermined object.

Refer to shown in Fig. 1 and Fig. 2, contact panel 10 of the present invention is to include a cover plate 11, a sensing module 12 and a housing 13. This sensing module 12 is to be arranged at this cover plate 11 belows, and includes a pin configuration 121. And this housing 13 is coated these cover plate 11 sides, and be formed with the hidden portion 131 of a pin configuration 121 in order to hidden this sensing module 12. The hidden portion 131 of this housing 13 is positioned at this cover plate 11 belows, and the setting area of hidden portion 131 defines a non-visible area IVA of contact panel 10, and the opposed area of contact panel 10 beyond non-visible area IVA can define a visible area VA. Pin configuration 121 is positioned at this non-visible area IVA. This sensing module 12 also includes a transparent electrode layer 122, and this transparent electrode layer 122 is be positioned at this visible area VA and partly extend to this non-visible area IVA to be electrically connected with this pin configuration 121. This hidden portion 131 is by after coated these cover plate 11 sides of this housing 13,, is formed, and be a light tight structure to the central projection of this cover plate 11 towards side within this cover plate 11 by this housing 13. As shown in Figure 2, the section of this housing 13 and hidden portion 131 thereof is L-type. Those pin configurations 121 are to include complex lead.

Refer to shown in Fig. 2, the sensing module 12 of the first preferred embodiment of contact panel 10 of the present invention is direct forming surface under this cover plate 11, therefore this housing 13 is coated this cover plate 11 and this sensing module 12, and the hidden portion 131 of this housing 13 is positioned at side under this sensing module 12, equally to pin configuration 121 that should sensing module 12, with hidden this pin configuration 121. Contact panel 10 of the present invention is not provided with shielding layer, but on this housing 13, is formed with this hidden portion 131, uses the pin configuration 121 of hidden this sensing module 12, and this pin configuration 121 is not seen by user. And the formation method of hidden portion 131 conventionally can be by modes such as injection moldeds, it is compared to printing or the coating process of shielding layer (ink) in prior art, processing procedure tolerance is less, therefore size that can more accurate corresponding pin configuration 121 is controlled the width of hidden portion 131, thereby reduce the size of non-viewing area IVA, make contact panel 10 can be designed out more narrow frame.

Furthermore, the hidden portion 131 of this housing 13 is arranged at side under this sensing module 12 by the present invention the first preferred embodiment system, and be provided with this pin configuration 121 in these hidden portion 131 tops, therefore user just can direct viewing arrive this pin configuration 121 in the time using, and causes perception not good. Therefore the complex lead of this pin configuration 121 system is made up of the metal of tool anti-reflection structure, makes the complex lead of this pin configuration 121 by light diffuse reflection, avoids this pin configuration 121 to be discovered by user. In a preferred embodiment, the anti-reflection structure system of the complex lead of this pin configuration 121 is coated those wires, is formed one deck black silver sulfide or conductive line surfaces is carried out to roughening processing in wire outer surface by conductive carbon, make those wires there is anti-reflection structure, reduce light reflection or make light diffuse reflection, allowing user be not easy to perceive this conductor structure 121. And this roughening is processed system and seen through electron beam or ion beam and shoot those wires and make those conductive line surfaces roughenings, or make those conductive line surfaces roughenings by chemical etching.

In a preferred embodiment, also can make the color of the color of this pin configuration 121 and the hidden portion 131 of this housing 13 identical or approximate, that black or dark material (as Graphene) are made as what use when pin configuration 121, the color of hidden portion 131 can also with corresponding black or the dark color made, or what use when pin configuration 121 is silver color material (as silver slurry), the color of hidden portion 131 can be corresponding be set to silver color, can allow by this user find easily, reach effect of hidden pin configuration 121.

In a preferred embodiment, the complex lead in this pin configuration 121 also can be transparent wire, as the materials such as tin indium oxide are made, thereby makes user discover.

It should be noted that in other embodiments, hidden portion 131 also can be arranged on the top of cover plate 11, that is this cover plate 11 is arranged between the hidden portion 131 and this sensing module 12 of this housing 13. Therefore user just can direct viewing in the time using to this hidden portion 131, thereby user cannot be found be positioned at the pin configuration 121 of hidden portion 131 belows, reach effect of hidden pin configuration 121. In a preferred embodiment, in the time that hidden portion 131 also can be arranged on the top of cover plate 11, the periphery of cover plate 11 can set out corresponding hidden 131 ledge structure (not shown), thereby make, in chimeric this cover plate 11 of hidden portion 131, to be rendered as a flat surfaces to reach contact panel 10 near the surface integral of user's use.

In addition, compared with prior art, owing to there being the existence of shielding layer in prior art, cover plate 11 is provided with on the surface of shielding layer, the region that crested layer covers and the interregional offset that presents that crested layer not covers, cause the follow-up sensing module 12 that carries out while arranging, because pin configuration 121 is arranged on shielding layer, when the transparent electrode layer 122 of this sensing module 12 is connected with this pin configuration 121, need to cross over the offset that shielding layer causes. But transparent electrode layer 122 is normally made up of the larger material of the fragility such as tin indium oxide, it is as easy as rolling off a log because in the problem of crossing over the structural break occurring in the process of offset. But in the present invention's the first preferred embodiment, due to the existence of hidden portion 131, do not need to be additionally provided with shielding layer, so, can make this transparent electrode layer 122 be located on the same plane of cover plate 11 with this pin configuration 121, in the process that can effectively avoid being connected with this pin configuration 121 at transparent electrode layer 122, the situation of structural break occurs.

Refer to shown in Fig. 3, between the hidden portion 131 of this housing 13 of the present invention's the first preferred embodiment and this pin configuration 121, be to be further provided with a reinforced structure 123, this reinforced structure 123 is by attaching or mode of printing forms in this hidden portion 131, and the cie system of color representation cie of this reinforced structure 123 is identical or approximate with the color of this pin configuration 121, to reach effect of hidden this pin configuration 121. By this, in the present embodiment, housing 13 can be different colors from the color of its hidden portion 131, for instance, and for reaching effect of hidden pin configuration 121, the color of this hidden portion 131 can be the color of dark-coloured system, as black, and the color of this housing 13 can be random color, as white, allow the housing 13 of contact panel 10 in playing effect of hidden pin configuration 121, also there is appearance colour diversity, can attract user's sight, improve its commercial value.

In this preferred embodiment, this sensing module 12 and this cover plate 11 are to be integrated into an one chip glass contact panel. In other words, sensing module 12 is directly to be originally used for protecting the cover plate 11 of sensing module 12 as the bearing substrate of transparent electrode layer 122 and pin configuration 121.

Refer to shown in Fig. 4, it is the second preferred embodiment of the present invention, the present embodiment and above-mentioned the first preferred embodiment structure compared are roughly the same, but the sensing module 12 of the present invention's the second preferred embodiment also includes a substrate 124, this substrate 124 is to be arranged at this cover plate 11 belows, and and between this cover plate 11, be to be provided with another the first bonding coat 151, this first bonding coat 151 is to be positioned at this visible area VA, with the offset between the hidden portion 131 of planarization and the lower surface of cover plate 11, and this substrate 124 is fitted in to surface under this cover plate 11. The pin configuration 121 of this sensing module 12 and transparent electrode layer 122 are to be arranged at this substrate 124 surfaces, and are positioned at this substrate 124 and deviate from one of this cover plate 11 side. And this housing 13 is coated these cover plate 11 sides, and the hidden portion 131 of this housing 13 is between this cover plate 11 and this sensing module 12. In this preferred embodiment, the material of this substrate 124 is glass, poly terephthalic acid class plastics, ethene terephthalic acid (TPA), polyether sulfone, polyacrylate, PEN, polyphenylene sulfide, polyene propyl group, Merlon or PET. In this preferred embodiment, be to be further provided with a glue-line 111 in these cover plate 11 sides, to paste this housing 13 in this cover plate 11.

Refer to shown in Fig. 5, it is the 3rd preferred embodiment of the present invention, the present embodiment and above-mentioned the second preferred embodiment structure compared are roughly the same, only the pin configuration of this sensing module 12 121 and transparent electrode layer 122 are arranged to this substrate 124 and are positioned at this substrate 124 towards one of this cover plate 11 side. Therefore, this first bonding coat 151 is to fit with this transparent electrode layer 122, makes this sensing module 12 and these cover plate 11 combinations. In this preferred embodiment, be to be further provided with a glue-line 111 in these cover plate 11 sides, to paste this housing 13 in this cover plate 11.

Refer to shown in Fig. 6, the present invention's the 4th preferred embodiment and above-mentioned the 3rd preferred embodiment structure compared are roughly the same, but this sensing module 12 is to include a first substrate 1241 and a second substrate 1242, and this first substrate 1241 and second substrate 1242 opposing parallel settings. This pin configuration 121 is to include plural number the first lead-in wire 1211 and plural number the second lead-in wire 1212, and this transparent electrode layer 122 is to include plural the first axial electrode 1221 and plural the second axial electrode 1222. Those plural number the first lead-in wires 1211 and those plural first axial electrodes 1221 are to be formed at this first substrate 1241 surfaces, and are mutually electrically connected. Those plural number the second lead-in wires 1212 and those plural second axial electrodes 1222 are to be formed at this second substrate 1242 surfaces, and are mutually electrically connected. Between this first substrate 1241 and this second substrate 1242, cording has one second bonding coat 152 with by bonded to each other to this first substrate 1241 and this second substrate 1242, and this first substrate 1241 deviates from this first bonding coat 151 of another side-line of this second substrate 1242, to fit with this cover plate 11. In this preferred embodiment, those plural number the first lead-in wires 1211 and those plural first axial electrodes 1221 are to be arranged at this first substrate 1241 towards one of this cover plate 11 side, and those plural number the second lead-in wires 1212 and those plural second axial electrodes 1222 are to be arranged at this second substrate 1242 towards one of this first substrate 1241 side. The material of this first substrate 1241 and a second substrate 1242 is glass, poly terephthalic acid class plastics, ethene terephthalic acid (TPA), polyether sulfone, polyacrylate, PEN, polyphenylene sulfide, polyene propyl group, Merlon or PET. In this preferred embodiment, be to be further provided with a glue-line 111 in these cover plate 11 sides, to paste this housing 13 in this cover plate 11.

Furthermore, touch-control display device 1 of the present invention is that first to fourth preferred embodiment of this contact panel 10 and a display module 14 are integrated and formed, refer to shown in Fig. 7 and Fig. 8, it is the first preferred embodiment of touch-control display device of the present invention, this display module 14 is to be arranged at this sensing module 12 belows, and and between this sensing module 12, be also provided with one the 3rd bonding coat 153, in order to display module 14 is sticked in to surface under this sensing module 12. This display module 14 is to comprise a viewing area and a non-display area around this viewing area, the setting corresponding to this visible area VA of the viewing area of this display module 14, and the viewing area of this display module 14 is greater than or equal to this visible area VA. As shown in Figure 8, outside this contact panel 10, between the hidden portion 131 of frame 13 and this pin configuration 121, be to be further provided with a reinforced structure 123, and the cie system of color representation cie of this reinforced structure 123 is identical or approximate with the color of this pin configuration 121, to reach effect of hidden this pin configuration 121.

Refer to shown in Fig. 9, the second preferred embodiment of touch-control display device 1 of the present invention lies in surface under the sensing module 12 of the second preferred embodiment of this contact panel 10 and is further provided with the 3rd bonding coat 153, this display module 14 is sticked in to surface under this sensing module 12, be that this display module 14 is pasted with this transparent electrode layer 122. In this preferred embodiment, be to be further provided with a glue-line 111 in these cover plate 11 sides, to paste this housing 13 in this cover plate 11.

Refer to shown in Figure 10, the 3rd preferred embodiment of touch-control display device 1 of the present invention lies in surface under the sensing module 12 of the 3rd preferred embodiment of this contact panel 10 and is further provided with the 3rd bonding coat 153, this display module 14 is sticked in to surface under this sensing module 12, be that this display module 14 is pasted with this substrate 124. In this preferred embodiment, be to be further provided with a glue-line 111 in these cover plate 11 sides, to paste this housing 13 in this cover plate 11.

Refer to shown in Figure 11, the 3rd preferred embodiment of touch-control display device 1 of the present invention lies in surface under the sensing module 12 of the 4th preferred embodiment of this contact panel 10 and is further provided with the 3rd bonding coat 153, this display module 14 is sticked in to surface under this sensing module 12, be that this display module 14 is pasted with this second substrate 1242. In this preferred embodiment, be to be further provided with a glue-line 111 in these cover plate 11 sides, to paste this housing 13 in this cover plate 11.

In each above-mentioned embodiment, this housing 13 is to be directly sticked in (as sensing module 12) between this cover plate 11 and other assemblies, or as shown in Fig. 4～6,9～11 embodiment, also can be provided with this glue-line 111 in these cover plate 11 sides, to paste this housing 13 in this cover plate 11.

In sum, contact panel 10 of the present invention, owing to being formed with this hidden portion 131 on housing 13, is used the pin configuration 121 of hidden this sensing module 12. Therefore do not need to be additionally provided with shielding layer and cover this pin configuration 121, thereby the non-viewing area IVA of contact panel 10 is reduced, the designer of contact panel just can design the narrower contact panel of frame 10.

The above is only preferred embodiment of the present invention, not the present invention is done to any pro forma restriction, although the present invention preferred embodiment discloses as above, but not in order to limit the present invention, under any, in technical field, have and conventionally know the knowledgeable, not departing from the scope of technical solution of the present invention, when can utilizing the technology contents of above-mentioned announcement to make a little change or being modified to the equivalent embodiment of equivalent variations, in every case be the content that does not depart from technical solution of the present invention, any simple modification of above embodiment being done according to technical spirit of the present invention, equivalent variations and modification, all still belong in the scope of technical solution of the present invention.

Claims (20)

1. a contact panel, is to define a non-visible area and a pair of visible area that should non-visible area, and comprises:

One cover plate;

One sensing module, is arranged at this cover plate below, comprises a pin configuration that is arranged at this non-visible area; And

One housing, at least coated this cover plate side, is formed with hidden in order to hidden this pin configuration on this housingPortion, wherein the setting area of this hidden portion defines this non-visible area.

2. contact panel as claimed in claim 1, wherein this sensing module more comprises a transparent electrode layer, coversThis visible area and part extend to this non-visible area and this pin configuration is electrically connected.

3. contact panel as claimed in claim 2, wherein this sensing module is that direct forming is in the end of this cover plate tableFace, coated this cover plate of this housing and this sensing module side, and the hidden portion of this housing is arranged on this sensing mouldPiece below.

4. contact panel as claimed in claim 1, wherein the hidden portion of this housing is a light tight structure.

5. contact panel as claimed in claim 3, wherein this pin configuration comprises complex lead, those wire systemsThe wire of tool anti-reflection structure.

6. contact panel as claimed in claim 5, wherein the wire of this tool anti-reflection structure system is coated by conductive carbonThose wires, or form one deck black silver sulfide in the surface of those wires.

7. contact panel as claimed in claim 5, wherein the wire of this tool anti-reflection structure system by those wires itRoughening processing is carried out on surface.

8. contact panel as claimed in claim 7, wherein this roughening is processed system and is seen through electron beam or ion beamHit those conductive line surfaces, or by chemical etching, make those conductive line surfaces roughenings.

9. contact panel as claimed in claim 3, wherein this pin configuration comprises complex lead, those wire systemsFor transparent wire.

10. contact panel as claimed in claim 3, wherein this pin configuration comprises complex lead, those wires itCie system of color representation cie is identical or approximate with the color of the hidden portion of this housing.

11. contact panels as claimed in claim 3, are wherein provided with between the hidden portion of this housing and this pin configurationOne reinforced structure, and the color of this reinforced structure is identical with the color of wire or approximate.

12. contact panels as claimed in claim 11, wherein this reinforced structure is to attach or mode of printing formationIn the hidden portion of this housing.

13. contact panels as claimed in claim 2, wherein this sensing module further comprises a substrate, and this is transparentElectrode layer and this pin configuration are arranged at this substrate surface, and this housing is coated this cover plate side, this housing hiddenThe portion of covering is positioned between this cover plate and this sensing module.

14. contact panels as claimed in claim 13, wherein this contact panel more comprises one first bonding coat, establishesBe placed between this cover plate and this sensing module, with this cover plate and this sensing module of fitting.

15. contact panels as claimed in claim 13, wherein the material of this substrate is glass, poly terephthalic acidClass plastics, ethene terephthalic acid (TPA), polyether sulfone, polyacrylate, PEN, polyphenylThioether, polyene propyl group, Merlon or PET.

16. contact panels as claimed in claim 2, wherein this sensing module system further includes a first substrateAnd a second substrate, this first substrate and this second substrate opposing parallel arrange, and this pin configuration system comprisesThere are plural number the first lead-in wire and plural number the second lead-in wire; And these transparency electrode series of strata include plural the first axial electrode andPlural number the second axial electrode, those first axial electrodes and those the first lead-in wire systems are arranged at the surface of this first substrate,And those second axial electrodes and those the second lead-in wire systems are arranged at the surface of this second substrate; This housing is coated shouldCover plate side, the concealment part of this housing is between this cover plate and this sensing module.

17. contact panels as claimed in claim 1, this cover plate is arranged on hidden portion and this sensing module of this housingBetween.

18. contact panels as claimed in claim 1, wherein this cover plate side is provided with a glue-line, to bind this housingWith this cover plate.

19. 1 kinds of touch-control display devices, comprise arbitrary described contact panel in claims 1 to 18, a display moduleIntegrate mutually with this contact panel.

20. touch-control display devices as claimed in claim 19, wherein this display module comprises a viewing area and a ringAround the non-display area of this viewing area, the setting corresponding to the visible area of this contact panel of the viewing area of this display module,And the viewing area of this display module is greater than or equal to the visible area of this contact panel.