CN201607718U - Electronic device and resistance-type touch panel thereof - Google Patents

Abstract

The utility model relates to an electronic device and a resistance-type touch panel thereof. The electronic device is applied to a plane-type touch panel (Touch window), and comprises a lower base plate; the periphery of one surface of the lower base plate is provided with a ring of chamfers; one surface of the lower base plate, toward the chamfers, is provided with a lower glue film, a lower conductive film, a frame glue, an upper conductive film, an upper glue film and a decorative layer; the chamfers at the periphery of the lower base plate can provide burrs containing formed by the cutting of all layers of peripheries; a shell is additionally arranged and is provided with a containing space; the containing space can lead the touch panel to be contained; and the surface of the touch panel and the surface of the shell are substantially positioned in the same plane.

Description

Electronic installation and electric resistance touch-control panel thereof

Technical field

The utility model is the technical field that is applied to contact panel, refers to a kind of plane formula contact panel (Touch window) that is applied to especially, touches panel so that the smooth resistance-type of contact panel surface periphery to be provided.

Background technology

General existing electric resistance touch-control panel, extremely shown in Figure 6 as Fig. 4, it from bottom to top comprises an infrabasal plate 90 in regular turn, once glued membrane 91, one lower electrode film 92, the frame glue 93 of one shaped as frame, one upper electrode film 94, a glued membrane 95 and a decorative layer 96 on one, and the surperficial wire mark of described lower electrode film 92 is provided with a plurality of gaps 97, effectively to provide 92 formation of described upper electrode film 94 and described lower electrode film to be formed with an air layer, and be provided with a soft printing path plate 98 in a side of described frame glue 93, and described flexible printed wiring board 98 can electrically connect the circuit (not shown) of described upper electrode film 94 and described lower electrode film 92.

But, still have its disappearance on its existing electric resistance touch-control panel, wherein be owing to described glued membrane 91 down, described lower electrode film 92, described frame glue 93, described upper electrode film 94, described upward glued membrane 95 and decorative layer 96 are film slitting and become required size, organize to establish in regular turn again and form, and diaphragm such as described is when cutting, there are burr 99 in big city because of the various factors that cuts produces, but these a little burr 99 have in regular turn when stacked and add the effect of taking advantage of, cause the periphery of described decorative layer 96 to produce least smooth problem, cause the problem of fine ratio of product and reliability, as for the product in permissible range, though the out-of-flatness phenomenon initial stage that burr 99 are caused does not influence the result of use of described resistance-type control panel, but using a period of time easily, delineate because of carelessness, and cause problem such as perk, the puzzlement that forms serviceable life and use.

Summary of the invention

The utility model creator, still has the shortcoming existence that fraction defective increases, serviceable life is short and use, and is redesigned on reality is used in view of aforementioned existing electric resistance touch-control panel.

Fundamental purpose of the present utility model provides a kind of electronic installation and electric resistance touch-control panel thereof, and it is to be provided with chamfering by described infrabasal plate periphery, with the planarization on the described contact panel of effective maintenance surface, and can effectively increase fine ratio of product and serviceable life.

In order to reach aforesaid utility model purpose, the technological means that the utility model used is to be to provide a kind of electric resistance touch-control panel, it is to comprise an infrabasal plate, described infrabasal plate is provided with a chamfering at a periphery, and described infrabasal plate surface is provided with a lower conductive film, described lower conductive film surface periphery is provided with a frame glue, described lower conductive film surface is located in a plurality of gaps son (spacer), and be provided with a upper conductive film on the surface of described frame glue, and described upper conductive film is located at the one side that described frame glue differs from described lower conductive film, for spaced apart between described upper conductive film and described lower conductive film with described a plurality of gaps, other is provided with a decorative layer, described decorative layer is located at glued membrane surface on, and be formed with a start district in the middle of the described decorative layer, periphery forms an outer zone with respect to described chamfering position, and described lower conductive film, described frame glue, the outer peripheral edges of described upper conductive film and described decorative layer are formed at the chamfering position of described infrabasal plate respectively relatively.

In order to achieve the above object, the utility model also provides a kind of electronic installation, and it comprises:

One shell body, described shell body surface is concaved with a storage tank;

One display panels, described display panels are placed in the described storage tank;

One electric resistance touch-control panel, described electric resistance touch-control panel are located at described display panels surface, and are placed in the described storage tank, and described electric resistance touch-control panel comprises:

One infrabasal plate, described infrabasal plate is provided with a chamfering at a periphery;

One lower conductive film, described lower conductive film are located at described infrabasal plate surface;

One frame glue is located at described lower conductive film periphery;

A plurality of gaps, described a plurality of gaps is located at described lower conductive film surface;

One upper conductive film, described upper conductive film are located at the one side that described frame glue differs from described lower conductive film, and for spaced apart with described a plurality of gaps between described upper conductive film and described lower conductive film;

One decorative layer, described decorative layer is located at glued membrane surface on, and the outer peripheral edges of described lower conductive film, described frame glue, described upper conductive film and described decorative layer are formed at the chamfering position of described infrabasal plate respectively relatively, and the surperficial essence of the surface of described shell body and described decorative layer is positioned at same surface level.

Compared with prior art, the beneficial effects of the utility model are: because described glued membrane down, described lower conductive film, described frame glue, described upper conductive film and described glued membrane and the described decorative layer gone up, no matter arbitrary layer produces when burr or out-of-flatness are arranged in periphery in the process of cutting, all can be ccontaining in the chamfering that periphery is provided with via described infrabasal plate, with planarization and the lifting process rate that keeps described electric resistance touch-control panel periphery end face, increase the serviceable life of described electric resistance touch-control panel simultaneously.

Description of drawings

Fig. 1 is an element three-dimensional exploded view of the present utility model.

Fig. 2 is an assembled sectional view of the present utility model.

Fig. 3 is the part enlarged diagram of Fig. 2.

Fig. 4 is existing element three-dimensional exploded view.

Fig. 5 is existing assembled sectional view.

Fig. 6 is the part enlarged diagram of Fig. 5.

Description of reference numerals: 10,90-infrabasal plate; The 11-chamfering; 20, glued membrane under the 91-; The 30-lower conductive film; The 92-lower electrode film; 31,97-gap; 40,93-frame glue; 41,98-flexible printed wiring board; The 50-upper conductive film; The 94-upper electrode film; 60, the last glued membrane of 95-; 70,96-decorative layer; The 80-shell body; 81 storage tanks; The 82-display panels; The 99-burr.

Embodiment

Below in conjunction with accompanying drawing, be described in more detail with other technical characterictic and advantage the utility model is above-mentioned.

As shown in Figure 1 to Figure 3, electric resistance touch-control panel of the present utility model, it comprises:

One infrabasal plate 10, described infrabasal plate 10 is provided with a chamfering 11 at a periphery, described chamfering 11 is at least apart from more than the periphery 0.15mm, and described chamfering 11 can be the shape of unspecified angle according to the actual needs setting, for example: chamfer, filleted corner or bull nose etc., and described infrabasal plate 10 can be transparent glass, polycarbonate (Polycarbonate, PC) or acryl (Acrylic Alloy, PMMA);

Once glued membrane 20, and described glued membrane 20 down is located at the one side that described infrabasal plate 10 is provided with described chamfering 11;

One lower conductive film 30, described lower conductive film 30 is located at described glued membrane 20 surfaces down, for described glued membrane 20 bonding described lower conductive film 30 and described infrabasal plates 10 down, and described lower conductive film 30 comprises a transparency conductive electrode and a plurality of conducting wire of being located at periphery, described transparency conductive electrode can be indium tin oxide (ITO), and described conducting wire can be metal materials such as silver, molybdenum, chromium, aluminium or its alloy, also can be indium tin oxide;

One frame glue 40, described frame glue 40 can be a two-sided adhesive tape, and glues and be located at described lower conductive film 30 peripheries;

A plurality of gaps (spacer) 31, described a plurality of gaps 31 can be wire mark and are printed in described lower conductive film 30 surfaces or can be graininess and be laid in described lower conductive film 30 surfaces;

One upper conductive film 50, described upper conductive film 50 glues is located at the one side that described frame glue 40 differs from described lower conductive film 30, and it is spaced apart with described a plurality of gaps son (spacer) 31 for described upper conductive film 50 and 30 of described lower conductive films, and described upper conductive film 50 comprises a transparency conductive electrode and a plurality of conducting wire of being located at periphery, described transparency conductive electrode can be indium tin oxide (ITO), and described conducting wire can be metal materials such as silver, molybdenum, chromium, aluminium or its alloy, also can be indium tin oxide;

One flexible printed wiring board 41, described flexible printed wiring board 41 is located at a side of described frame glue 40, and between described upper conductive film 50 and described lower conductive film 30;

Glued membrane 60 on one, described glued membrane 60 glutinous described upper conductive film 50 surfaces of being located at of going up;

One decorative layer 70, described decorative layer 70 sticks is located at described glued membrane 60 surfaces of going up, and described upward glued membrane 60 is sticking respectively establishes described decorative layer 70 and described upper conductive film 50, and the outer peripheral edges of described lower conductive film 30, described frame glue 40, described upper conductive film 50 and described decorative layer 70 are formed at chamfering 11 positions of described infrabasal plate 10 respectively relatively; By above-mentioned structure, to finish electric resistance touch-control panel of the present utility model.

Please consult Fig. 2 and shown in Figure 3 simultaneously, electric resistance touch-control panel of the present utility model mainly is the design that is applied in plane display electronics assemblies (Touch window), wherein said electronic installation has a shell body 80, described shell body 80 surfaces are concaved with a storage tank 81, and can be provided with a display panels 82 in the described storage tank 81, and described electric resistance touch-control panel is located at described display panels 82 surfaces, and described electric resistance touch-control panel is placed in the described storage tank 81, and shell body 80 surfaces after the combination of described electric resistance touch-control panel and described electronic installation form the same level face of essence, form electronic installation of the present utility model thus.

Therefore because described glued membrane 20 down, described lower conductive film 30, described frame glue 40, described upper conductive film 50 and described glued membrane 60 and the described decorative layer 70 gone up, no matter arbitrary layer produces when burr or out-of-flatness are arranged in periphery in the process of cutting, all can be ccontaining in the chamfering 11 that periphery is provided with via described infrabasal plate 10, with planarization and the lifting process rate that keeps described electric resistance touch-control panel periphery end face, increase the serviceable life of described electric resistance touch-control panel simultaneously.

More than explanation is just illustrative for the utility model; and it is nonrestrictive; those of ordinary skills understand; under the situation of the spirit and scope that do not break away from following claims and limited; can make many modifications; change, or equivalence, but all will fall in the protection domain of the present utility model.

Claims (10)

1. electric resistance touch-control panel is characterized in that it comprises:

One infrabasal plate, described infrabasal plate is provided with a chamfering at a periphery;

One lower conductive film, described lower conductive film are located at described infrabasal plate surface;

One frame glue is located at described lower conductive film periphery;

A plurality of gaps, described a plurality of gaps is located at described lower conductive film surface;

One upper conductive film, described upper conductive film are located at the one side that described frame glue differs from described lower conductive film, and for spaced apart with described a plurality of gaps between described upper conductive film and described lower conductive film;

One decorative layer, described decorative layer is located at glued membrane surface on, and be formed with a start district in the middle of the described decorative layer, periphery forms an outer zone with respect to described chamfering position, and the outer peripheral edges of described lower conductive film, described frame glue, described upper conductive film and described decorative layer are formed at the chamfering position of described infrabasal plate respectively relatively.

2. electric resistance touch-control panel as claimed in claim 1 is characterized in that, the chamfering of described infrabasal plate is at least apart from more than the periphery 0.15mm.

3. electric resistance touch-control panel as claimed in claim 1 is characterized in that, the chamfering of described infrabasal plate is chamfer, filleted corner or bull nose.

4. electric resistance touch-control panel as claimed in claim 1 is characterized in that, is provided with glued membrane between described infrabasal plate and described lower conductive film, for described bonding described infrabasal plate of difference of glued membrane down and described lower conductive film.

5. electric resistance touch-control panel as claimed in claim 1 is characterized in that, described lower conductive film comprises a transparency conductive electrode and a plurality of conducting wire of being located at periphery.

6. electric resistance touch-control panel as claimed in claim 1 is characterized in that, described upper conductive film comprises a transparency conductive electrode and a plurality of conducting wire of being located at periphery.

7. electric resistance touch-control panel as claimed in claim 1 is characterized in that, described a plurality of gaps for wire mark is printed in described lower conductive film surperficial or be laid in described lower conductive film surface for graininess.

8. electric resistance touch-control panel as claimed in claim 1 is characterized in that, is provided with the described glued membrane of going up between described upper conductive film and described decorative layer, for described glued membrane bonding described upper conductive film and the described decorative layer respectively gone up.

9. electric resistance touch-control panel as claimed in claim 1, it is characterized in that, other is provided with a shell body, described shell body surface is concaved with a storage tank, be placed in the described storage tank for described infrabasal plate, described lower conductive film, described frame glue, described upper conductive film and described decorative layer, and the surperficial essence of the surface of described shell body and described decorative layer is positioned at same surface level.

10. electronic installation is characterized in that it comprises:

One shell body, described shell body surface is concaved with a storage tank;

One display panels, described display panels are placed in the described storage tank;

One electric resistance touch-control panel, described electric resistance touch-control panel are located at described display panels surface, and are placed in the described storage tank, and described electric resistance touch-control panel comprises:

One infrabasal plate, described infrabasal plate is provided with a chamfering at a periphery;

One lower conductive film, described lower conductive film are located at described infrabasal plate surface;

One frame glue is located at described lower conductive film periphery;

A plurality of gaps, described a plurality of gaps is located at described lower conductive film surface;

One upper conductive film, described upper conductive film are located at the one side that described frame glue differs from described lower conductive film, and for spaced apart with described a plurality of gaps between described upper conductive film and described lower conductive film;

One decorative layer, described decorative layer is located at glued membrane surface on, and the outer peripheral edges of described lower conductive film, described frame glue, described upper conductive film and described decorative layer are formed at the chamfering position of described infrabasal plate respectively relatively, and the surperficial essence of the surface of described shell body and described decorative layer is positioned at same surface level.

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