CN201032535Y - Resistance type touch control panel with writing tolerance - Google Patents

Abstract

The utility model discloses a resistance type touch panel with write well performance, which comprises first basis material, a first conducting layer which is arranged on the first basis material, a plurality of spacing devices which are arranged on the first conducting layer, a second conducting layer which is arranged on the spacing devices, third basis material which is arranged on the second conducting layer, second basis material which is combined with the third basis material through colloid, and a first hardening treatment layer which is arranged on the second basis material. The write well performance of the touch panel can be improved through the structure.

Description

The electric resistance touch-control panel of the anti-property write of tool

Technical field

The utility model relates to the electric resistance touch-control panel of the anti-property write of a kind of tool, particularly a kind of electric resistance touch-control panel that is applied to the anti-property write of tool of contact panel.

Background technology

Along with the continuous progress of science and technology, all types of electronic products also designs more humanely, is easier to use.In numerous input methods, contact panel is most convenient, simply reaches direct input method.Contact panel is widely used in laptop computer, personal digital aid (PDA), video camera, duplicating machine, mobile phone, public's pay telephone, machine operation bench, testing tool at present ... on all types of electronic products.

Electric resistance touch-control panel (resistive touch panel) thus mainly by measuring and the variation of comparison resistance/voltage calculates the position of touching by point.The structure of electric resistance touch-control panel mainly is made up of 2 conductive bases that are coated with indium tin oxide layer (ITO, Indium Tin Oxide), is separated by atomic thin and transparent insulated particle (spacer dot) between these 2 conductive bases.When finger or nib touched screen film by electric resistance touch-control panel, 2 conductive layers produced electric signal because of contact, thereby can calculate the position that touch by point by controller.

As shown in Figure 1, be the structural representation of a known contact panel.Known contact panel comprises: one first base material 11; One first conductive layer 12 is arranged on first base material 11; A plurality of spacers 13 are arranged on first conductive layer 12; One second conductive layer 14 is arranged on those spacers 13; One second base material 15 is arranged on second conductive layer 14; And one first cure process layer 16, being arranged on second base material 15, the cure process layer that then can prevent the second base material scratch and can select to have mist degree is to reach anti-effect of dazzling light.Known contact panel, when the user operates on the first cure process layer 16 for a long time, be applied to the acting force of the first cure process layer 16, can directly act on second base material 15 and directly be delivered on second conductive layer 14, spacer 13, first conductive layer 12 and first base material 11.Write the damage that more easily causes this body structure of contact panel in the test anti-.

The utility model content

Fundamental purpose of the present utility model is to improve known contact panel, when on second base material, operating for a long time because of the user, apply acting force for a long time at contact panel, thereby cause second base material wearing and tearing of contact panel and the damage of this body structure of contact panel, and make the not good problem of anti-writing property of contact panel.

Based on above-mentioned purpose, the utility model provides the electric resistance touch-control panel framework of the anti-property write of a kind of tool, and it comprises: one first base material; One first conductive layer is arranged on first base material; A plurality of spacers are arranged on first conductive layer; One second conductive layer is arranged on those spacers; One the 3rd base material is arranged on second conductive layer; One second base material is incorporated on the 3rd base material by colloid; And one first cure process layer, be arranged on second base material.

The utility model provides the electric resistance touch-control panel of the anti-property write of a kind of tool again, and it comprises: one first base material; One first conductive layer is arranged on first base material; A plurality of spacers are arranged on first conductive layer; One second conductive layer is arranged on those spacers; One second cure process layer is arranged on second conductive layer; One the 3rd base material is arranged on the second cure process layer; One second base material is incorporated on the 3rd base material by colloid; And one first cure process layer, be arranged on second base material.

Compared with prior art, the utlity model has following advantage:

By enforcement of the present utility model, can reach following effect at least:

One, can increase the structural strength of contact panel.

Two, can improve anti-the writing property of contact panel.

Description of drawings

Fig. 1 is the structural representation of a known contact panel;

Fig. 2 is the enforcement illustration of the electric resistance touch-control panel of the anti-property write of a kind of tool of the present utility model;

Fig. 3 is the electric resistance touch-control panel of the anti-property write of Fig. 2 tool, further is provided with the enforcement illustration of one second cure process layer;

Fig. 4 is the electric resistance touch-control panel of the anti-property write of tool of the present utility model and application implementation illustration after a display panel combines.

[primary clustering symbol description]

11 first base materials

12 first conductive layers

13 spacers

14 second conductive layers

15 second base materials

16 first cure process layers

The electric resistance touch-control panel of the anti-property write of 20 tools

21 the 3rd base materials

22 colloids

23 second cure process layers

31 display panels

32 housings

33 motherboards

34 controllers

35 main systems

Embodiment

As shown in Figure 2, be the enforcement illustration of the electric resistance touch-control panel 20 of the anti-property write of a kind of tool of the present utility model.The electric resistance touch-control panel 20 of the anti-property write of a kind of tool of present embodiment, it comprises: one first base material 11, one first conductive layer 12, a plurality of spacer 13, one second conductive layer 14, one second base material 15, colloid 22, one the 3rd base material 21 and one first cure process layer 16.

First base material 11, its major function provide the support on touch panel structure provided.When the electric resistance touch-control panel 20 of the anti-property write of tool combines with a display screen, first base material 11 can be a clear glass or a transparent plastic substrate, and it mainly uses polycarbonate (polycarbonate derived resins), acryl (acrylics derived resins), polyester (polyester derived resins), pi (polyimide derived resins), polyether ester wherein a kind of materials such as (polyethersulfon derived resins) to be made.The thickness of general first base material 11 is about 0.3～3mm.

First conductive layer 12 is arranged on first base material 11, and it also can be a transparency conducting layer.First conductive layer 12 is generally an indium tin oxide layer or an indium zinc oxide layer (IZO, Indium Zinc Oxide) or an aluminum zinc oxide layer (AZO, Aluminum Zinc Oxide).And the thickness of first conductive layer 12 is about 10～500nm.

Spacer 13 is arranged on first conductive layer 12, in order to produce at interval an effect, makes first conductive layer 12 and second conductive layer 14, only operates when pushing the user, just can produce the state of conducting.

Second conductive layer 14 is arranged on those spacers 13, and second conductive layer 14 also can be a transparency conducting layer.Second conductive layer 14 is generally an indium tin oxide layer or an aluminum zinc oxide layer (IZO, Indium Zinc Oxide) or an indium oxide aluminium lamination (AZO, Aluminum ZincOxide).The thickness of second conductive layer 14 is about 10～500nm.By the setting corresponding of first conductive layer 12 and the effect of collocation spacer 13 with second conductive layer 14, can allow the user when push, contact panel is produced move, and export a specific signal.

The 3rd base material 21 is arranged on second conductive layer 14, and it also can be a transparent base.The 3rd base material 21 can be made for a polyester or a polycarbonate or a pi ester or an acryl or a polyether ester.Its thickness is about 10～200 μ m.

Second base material 15 is incorporated on the 3rd base material 21 by colloid 22, and colloid 22 is a transparent optical viscose.Second base material 15 also can be a transparent base, and it also can be made for a polyester or a polycarbonate or a pi ester or an acryl or a polyether ester.Its thickness is about 10～200 μ m.

The first cure process layer 16 is arranged on second base material 15, and it can be a transparent cure process layer.The first cure process layer 16 can be made by silicones (silicon derivedresins) or acryl (acrylics derived resins) or potassamide acid fat (urethanederived resins) or alkyd resin materials such as (alkyd derived resins).The thickness of the first cure process layer 16 is about 1～10 μ m, and its mist degree (haze range) is 0.5%～10%.When mist degree was low, for example mist degree was 0.5% o'clock, and the first cure process layer 16 is the most transparent and clear.Higher when mist degree, for example mist degree is 10% o'clock, still is transparence, but therefore has anti-effect of dazzling light.

As shown in Figure 3, be the electric resistance touch-control panel 20 of the anti-property write of Fig. 2 tool, further be provided with the enforcement illustration of one second cure process layer 23.The electric resistance touch-control panel 20 of the anti-property write of tool also can directly or further be provided with one second cure process layer 23 in 21 of second conductive layer 14 and the 3rd base materials.The thickness of the second cure process layer 23 is 1～10 μ m, and its mist degree is about 0.5%～10%.The second cure process layer 23 can be made by a silicones or an acryl or potassamide acid fat or an alkyd resin.Cooperate when having first hardened layer of mist degree, when mist degree was higher, except having anti-glare function, other had the effect of Newton's ring-resisting.

As shown in Figure 4, be the electric resistance touch-control panel 20 of the anti-property write of tool of the present utility model and application implementation illustration after a display panel 31 combines.The electric resistance touch-control panel 20 of the anti-property write of tool is arranged in the housing 32 and with the display surface of a display panel 31 and combines.When the electric resistance touch-control panel 20 of the anti-property write of tool combined with a display panel 31, in order to allow the user clearly see the content that display panel 31 is shown, so the material of electric resistance touch-control panel 20 manufacturings of the anti-property write of tool was transparent material.But when if the electric resistance touch-control panel 20 of the anti-property write of tool is applied to the contact panel of mobile computer for example, then the electric resistance touch-control panel 20 of the anti-property write of tool can be made by opaque material.

After the user watches screen picture displayed information, can be according to the shown information content, at the electric resistance touch-control panel 20 enterprising line operates of the anti-property write of tool.When the user operates the electric resistance touch-control panel 20 of the anti-property write of tool, push the position can spread out of a position signal to a controller 34 that is positioned at motherboard 33 to decipher, signal after the decoding can pass to the main system of being located on the motherboard 33 35 once more, with the foundation as main system 35 subsequent actions.

The above only is preferred embodiment of the present utility model, when can not with restriction scope of the present utility model.Promptly the equalization of being done according to the utility model claim generally changes and modifies, and will not lose main idea of the present utility model place, does not also break away from spirit of the present utility model and scope, and the former capital should be considered as further enforcement situation of the present utility model.

Claims (37)

1. the electric resistance touch-control panel of the anti-property write of tool is characterized in that, this contact panel comprises:

One first base material;

One first conductive layer is arranged on this first base material;

A most spacer are arranged on this first conductive layer;

One second conductive layer is arranged on those spacers;

One the 3rd base material is arranged on this second conductive layer;

One second base material is incorporated on the 3rd base material by colloid; And

One first cure process layer is arranged on this second base material.

2. electric resistance touch-control panel according to claim 1 is characterized in that this first base material is a clear glass or a transparent plastic substrate.

3. electric resistance touch-control panel according to claim 1 is characterized in that the thickness of this first base material is 0.3～3mm.

4. electric resistance touch-control panel according to claim 1 is characterized in that this first conductive layer is a transparency conducting layer.

5. electric resistance touch-control panel according to claim 1 is characterized in that the thickness of this first conductive layer is 10～500nm.

6. electric resistance touch-control panel according to claim 1 is characterized in that this second conductive layer is a transparency conducting layer.

7. electric resistance touch-control panel according to claim 1 is characterized in that the thickness of this second conductive layer is 10～500nm.

8. electric resistance touch-control panel according to claim 1 is characterized in that this second base material is a transparent base.

9. electric resistance touch-control panel according to claim 1 is characterized in that the thickness of this second base material is 10～200 μ m.

10. electric resistance touch-control panel according to claim 1 is characterized in that this colloid is the transparent optical viscose.

11. electric resistance touch-control panel is characterized in that according to claim 1, the thickness of this colloid is 1～100 μ m.

12. electric resistance touch-control panel is characterized in that according to claim 1, the 3rd base material is a transparent base.

13. electric resistance touch-control panel is characterized in that according to claim 1, the thickness of the 3rd base material is 10～200 μ m.

14. electric resistance touch-control panel is characterized in that according to claim 1, this first cure process layer is a transparent cure process layer.

15. electric resistance touch-control panel is characterized in that according to claim 1, the thickness of this first cure process layer is 1～10 μ m.

16. electric resistance touch-control panel is characterized in that according to claim 1, the mist degree of this first cure process layer is 0.5%～10%.

17. electric resistance touch-control panel is characterized in that according to claim 1, between this second conductive layer and the 3rd base material, further is provided with one second cure process layer.

18., it is characterized in that the thickness of this second cure process layer is 1～10 μ m as electric resistance touch-control panel as described in the claim 17.

19., it is characterized in that the mist degree of this second cure process layer is 0.5%～10% as electric resistance touch-control panel as described in the claim 17.

20. the electric resistance touch-control panel of the anti-property write of tool is characterized in that, comprising:

One first base material;

One first conductive layer is arranged on this first base material;

A plurality of spacers are arranged on this first conductive layer;

One second conductive layer is arranged on those spacers;

One second cure process layer is arranged on this second conductive layer;

One the 3rd base material is arranged on this second cure process layer;

One second base material is incorporated on the 3rd base material by colloid; And

One first cure process layer is arranged on this second base material.

21., it is characterized in that this first base material is a clear glass or a transparent plastic substrate as electric resistance touch-control panel as described in the claim 20.

22., it is characterized in that the thickness of this first base material is 0.3～3mm as electric resistance touch-control panel as described in the claim 20.

23., it is characterized in that this first conductive layer is a transparency conducting layer as electric resistance touch-control panel as described in the claim 20.

24., it is characterized in that the thickness of this first conductive layer is 10～500nm as electric resistance touch-control panel as described in the claim 20.

25., it is characterized in that this second conductive layer is a transparency conducting layer as electric resistance touch-control panel as described in the claim 20.

26., it is characterized in that the thickness of this second conductive layer is 10～500nm as electric resistance touch-control panel as described in the claim 20.

27., it is characterized in that this second base material is a transparent base as electric resistance touch-control panel as described in the claim 20.

28., it is characterized in that the thickness of this second base material is 10～200 μ m as electric resistance touch-control panel as described in the claim 20.

29., it is characterized in that this colloid is a transparent optical viscose as electric resistance touch-control panel as described in the claim 20.

30., it is characterized in that the thickness of this colloid is 1～100 μ m as electric resistance touch-control panel as described in the claim 20.

31., it is characterized in that the 3rd base material is a transparent base as electric resistance touch-control panel as described in the claim 20.

32., it is characterized in that the 3rd base material thickness is 10～200 μ m as electric resistance touch-control panel as described in the claim 20.

33., it is characterized in that this first cure process layer is a transparent cure process layer as electric resistance touch-control panel as described in the claim 20.

34., it is characterized in that the thickness of this first cure process layer is 1～10 μ m as electric resistance touch-control panel as described in the claim 20.

35. electric resistance touch-control panel as claimed in claim 20 is characterized in that, the mist degree of this first cure process layer is 0.5%～10%.

36., it is characterized in that the thickness of this second cure process layer is 1～10 μ m as electric resistance touch-control panel as described in the claim 20.

37., it is characterized in that the mist degree of this second cure process layer is 0.5%～10% as electric resistance touch-control panel as described in the claim 20.

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