CN201628948U - Capacitance type touch control panel module - Google Patents

Abstract

The utility model relates to a capacitance type touch control panel module which mainly has the structure that the periphery of the top surface of an upper base plate of the touch control panel is provided with an ink layer, the range of the ink layer can relatively cover a wire which is arranged in the touch control panel, and the top surface of the ink layer can be provided with a brilliant varnish layer or a pattern layer. As the ink layer is directly arranged on the top surface of the upper base plate, the capacitance type touch control panel module does not need to arrange a top layer and a pasting layer, thereby achieving the aims of simplifying the manufacture technology, saving the material cost, and further reducing the integral depth of the final product of the touch control panel.

Description

The capacitance type touch-control panel module

Technical field

The utility model refers in particular to a kind of capacitance type touch-control panel of slimming about a kind of contact panel.

Background technology

The technology of touch panel is mainly divided into condenser type, resistance-type, acoustic wave, infrared-type or the like according to its principle, this capacitance type touch-control panel wherein, its inside is provided with tin indium oxide (ITO) layer, can on indium tin oxide layer, produce capacitance variations during user's finger touch, this variation signal also can export a controller to by the lead that is connected in indium tin oxide layer, thereby is detected the position of press points by controller.

Yet, because aforementioned wire is generally used silver-colored lead, it is a transparent materials, therefore for avoiding those leads when the user operates, to be seen, referring to shown in Figure 8, generally the end face at capacitance type touch-control panel 60 can further be provided with a top layer 61, binded with an adhesive layer 62 between this top layer 61 and the contact panel 60, and be coated with an opaque ink lay 63 corresponding to the conductor area in the capacitance type touch-control panel 60 on the bottom surface of top layer 61, can cover lead by this ink lay 63, just can not look and those leads when so the user operates, just the use of this top layer 61 and adhesive layer 62 is except that the problem that manufacture craft and material cost are arranged, also can cause the product integral thickness to increase, cause product can't satisfy the demand of slimming so the touch panel structure provided leeway that still has further improvement of prior art.

The utility model content

The mode of covering lead that adopts in view of above-mentioned capacitance type touch-control panel have cost to rise and can't slimming etc. many defectives, the utility model expectation is by the structure of improvement contact panel, under the prerequisite that keeps ink lay, exempt the setting of sclerosis rete and adhesive layer, thereby reach the purpose that addresses the aforementioned drawbacks.

For reaching above-mentioned utility model purpose, the employed technological means of the utility model is to provide a kind of capacitance type touch-control panel module, and it includes:

One capacitance type touch-control panel, its inside is provided with many leads;

One ink lay, it is arranged at the end face periphery of described capacitance type touch-control panel, and covers described lead relatively.

Capacitance type touch-control panel compared to prior art adopts the mode of covering lead, the utility model is the end face that ink lay directly is arranged at capacitance type touch-control panel, therefore can save top layer of the prior art and in order to the setting of the adhesive layer that binds top layer, so, the utility model can reach saves manufacture craft and materials cost, and and then reduces the purpose of capacitance type touch-control panel finished product integral thickness.

Description of drawings

Fig. 1 is a part three-dimensional exploded view of the present utility model.

Fig. 2 is the part three-dimensional exploded view of the utility model one embodiment.

Fig. 3 be the utility model one embodiment phantom view.

Fig. 4 be the utility model one embodiment vertical view.

Fig. 5 is the part three-dimensional exploded view of another embodiment of the utility model.

Fig. 6 is the vertical view of another embodiment of the utility model.

Fig. 7 is the utility model part three-dimensional exploded view of an embodiment again.

Fig. 8 is the part three-dimensional exploded view of the contact panel of prior art.

[main element symbol description]

The A contact panel

11 times inductive layers of 10 infrabasal plates

111 induction zones, 112 connectivity ports

12 leads

20 insulation glue-lines

Inductive layer on 30 upper substrates 31

311 induction zones, 312 connectivity ports

32 leads, 33 switches

10 ' infrabasal plate 11 ' following inductive layer

111 ' connectivity port, 12 ' lead

20 insulation glue-lines

30 ' upper substrate 31 ' last inductive layer

311 ' connectivity port, 32 ' lead

41 ink laies, 42 patterned layer

50 light enamelled coatings

60 contact panels, 61 top layers

62 adhesive layers, 63 ink laies

Embodiment

Referring to shown in Figure 1, capacitance type touch-control panel module of the present utility model, it includes:

One capacitance type touch-control panel A;

One ink lay 41, it is opaque, is arranged at the end face periphery of described capacitance type touch-control panel A;

One light enamelled coating 50, it is transparent, is arranged at the end face of described capacitance type touch-control panel A, and covers described ink lay 41, and light enamelled coating 50 can make capacitance type touch-control panel A finished surface have gloss.

Described capacitance type touch-control panel A, it can be projected capacitive touch panel or matrix capacitance type touch-control panel, and this both structure has belonged to prior art, only enumerates explanation one embodiment in the present embodiment.

When described capacitance type touch-control panel A is projected capacitive touch panel, cooperate referring to shown in Fig. 2,3, it has:

One infrabasal plate 10, it is transparent, be provided with a plurality of inductive layers 11 down that constitute by tin indium oxide (ITO) at end face, those down inductive layers 11 be and be arranged in parallel and have common one axial, each time inductive layer 11 has a plurality of induction zones 111 of serial connection mutually, the edge of one induction zone 111 of an axial last side of each time inductive layer 11 is provided with a connectivity port 112, those connectivity ports 112 are for conductive material and be opaque, infrabasal plate 10 end faces are provided with the corresponding lead 12 of connectivity port 112 quantity down in addition, these lead 12 1 ends are connected to corresponding connectivity port 112, and the other end extends to a side edge of infrabasal plate;

One insulation glue-line 20, it is arranged at the end face of described infrabasal plate 10;

One upper substrate 30, it is transparent, be arranged at the end face of described insulation glue-line 20, be provided with inductive layer 31 on constitute by tin indium oxide a plurality of in the bottom surface, inductive layer 31 is and is arranged in parallel and has jointly that another is axial on those, and inductive layer 31 correspondences are positioned at the position that infrabasal plate 10 end faces are not provided with down inductive layer 11 on those, inductive layer 31 has a plurality of induction zones 311 of serial connection mutually on each, the edge of an induction zone 311 of an axial last side of inductive layer 31 is provided with a connectivity port 312 on each, these connectivity ports 312 are for conductive material and be opaque, in addition, upper substrate 30 bottom surfaces are provided with the lead 32 of corresponding connectivity port 312 quantity, one end of these leads 32 is connected to corresponding connectivity port 312, and the other end extends to a side edge of upper substrate 30;

And in the present embodiment, described ink lay 41 cooperates referring to shown in Figure 4, and it is arranged at described upper substrate 30 end faces, and is covered in lead 12,32 relatively and the connectivity port 112,312 of inductive layer 11 and following inductive layer 31 each on.

When if described capacitance type touch-control panel A is the matrix capacitance type touch-control panel, cooperate referring to shown in Figure 5, it has:

One infrabasal plate 10 ', it is transparent, end face be provided with a plurality of side by side following inductive layer 11 ', inductive layer 11 under those ' can constitute by tin indium oxide, each time inductive layer 11 ' be microscler, and long to an end be provided with a connectivity port 111 ', this connectivity port 111 ' be conductive material and opaque, in the present embodiment, following inductive layer 11 ' be to be laterally to be arranged side by side, in addition, infrabasal plate 10 ' end face be provided with the lead 12 of corresponding connectivity port 111 ' quantity ', the one end be connected to a connectivity port 111 ', and lead 12 ' the other end extend to infrabasal plate 10 ' a side;

One the insulation glue-line 20 ', its be arranged at described infrabasal plate 10 ' end face;

One upper substrate 30 ', it is transparent, its be arranged at the insulation glue-line 20 ' end face, upper substrate 30 ' bottom surface be provided with a plurality of side by side last inductive layer 31 ', inductive layer 31 on those ' can constitute by tin indium oxide, inductive layer 31 on each ' be microscler and long to an end be provided with a connectivity port 311 ', this connectivity port 311 ' be conductive material and be opaque, in the present embodiment, inductive layer 31 on these ' be to be vertically to be arranged side by side, thereby with infrabasal plate 10 ' a plurality of down inductive layers 11 ' be matrix intersection, in addition, upper substrate 30 ' end face be provided with the lead 32 of corresponding connectivity port 311 ' quantity ', the one end be connected to a connectivity port 311 ', and lead 32 ' the other end extend to upper substrate 30 ' a side;

And in the present embodiment, described ink lay 41 cooperates referring to shown in Figure 6, its be arranged at upper substrate 30 ' end face, and be covered in relatively lead 12 ', 32 ' and inductive layer 31 on each ' with following inductive layer 11 ' connectivity port 311 ', 111 '.

When end face of the present utility model is watched, because ink lay 41 is opaque, so it can cover lead 12,32,12 ', 32 ' with connectivity port 112,312,111 ', 311 ', though and the utility model adopts the mode that ink lay is set above contact panel to reach the purpose of covering with prior art equally, but in the utility model, ink lay 41 is to be set directly at upper substrate 30,30 ' end face on, therefore the utility model can be exempted top layer and in order to the use of the adhesive layer of pasting this top layer, simplify manufacture craft and save the materials cost thereby reach, and and then reduce the purpose of contact panel finished product integral thickness.

Referring to shown in Figure 7, if above-mentioned contact panel A, further be provided with on its upper substrate 30 end faces and can be pressed and when carrying out the switch 33 of other specific function, then described ink lay 41 end faces can further be formed with patterned layer 42 with respect to this switch 33, form light enamelled coating 50 at ink lay 41 end faces more subsequently, these patterned layer 42 purposes are to indicate the position of this switch 33, so that the user correctly pushes this switch 33, and the pattern of patterned layer 42 can be designed to represent the function of switch 33, the quantity that is beneficial to switch 33 more for a long time, the user can clearly be distinguished.

Claims (6)

1. capacitance type touch-control panel module is characterized in that it includes:

One capacitance type touch-control panel, its inside is provided with many leads;

One ink lay, it is arranged at the end face periphery of described capacitance type touch-control panel, and covers described lead relatively.

2. capacitance type touch-control panel module as claimed in claim 1 is characterized in that, described ink lay end face is formed with at least one patterned layer.

3. capacitance type touch-control panel module as claimed in claim 1 is characterized in that, it further includes a light enamelled coating, and this light enamelled coating is arranged at the end face of described capacitance type touch-control panel, and covers described ink lay.

4. capacitance type touch-control panel module as claimed in claim 2 is characterized in that, it further includes a light enamelled coating, and this light enamelled coating is arranged at the end face of described capacitance type touch-control panel, and covers described ink lay and patterned layer.

5. as the described capacitance type touch-control panel module of each claim in the claim 1 to 4, it is characterized in that described capacitance type touch-control panel has:

One infrabasal plate, its end face is provided with a plurality of inductive layers down, those down inductive layers be arranged in parallel have common one axial, each time inductive layer has a plurality of induction zones of serial connection mutually, the edge of one induction zone of an axial last side of each time inductive layer is provided with a connectivity port, and in addition, the infrabasal plate end face is provided with the described lead of corresponding connectivity port quantity, those lead one ends are connected to corresponding connectivity port, and the other end extends to a side edge of infrabasal plate;

One insulation glue-line, it is arranged at the end face of described infrabasal plate;

One upper substrate, it is arranged at the end face of described insulation glue-line, the bottom surface be provided with a plurality of on inductive layer, inductive layer is and is arranged in parallel and has jointly that another is axial on those, and inductive layer correspondence is positioned at the position that the infrabasal plate end face is not provided with down inductive layer on those, inductive layer has a plurality of induction zones of serial connection mutually on each, the edge of an induction zone of an axial last side of inductive layer is provided with a connectivity port on each, the upper substrate bottom surface is provided with the described lead of corresponding connectivity port quantity in addition, one end of those leads is connected to corresponding connectivity port, and the other end extends to a side edge of upper substrate;

Described ink lay further relatively cover described each go up the connectivity port of inductive layer and following inductive layer.

6. as the described capacitance type touch-control panel module of each claim in the claim 1 to 4, it is characterized in that described capacitance type touch-control panel has:

One infrabasal plate, its end face is provided with a plurality of following inductive layers side by side, each time inductive layer is microscler, and long to an end be provided with a connectivity port, the infrabasal plate end face is provided with the described lead of corresponding connectivity port quantity in addition, the one end is connected to a connectivity port, and the other end of lead extends to a side of infrabasal plate;

One insulation glue-line, it is arranged at the end face of described infrabasal plate;

One upper substrate, it is arranged at the end face of insulation glue-line, the upper substrate bottom surface is provided with a plurality of last inductive layers side by side, inductive layer is microscler and is the matrix intersection with a plurality of down inductive layers of infrabasal plate on each, and the length of inductive layer is provided with a connectivity port to an end on each, the upper substrate end face is provided with the described lead of corresponding connectivity port quantity in addition, and the one end is connected to a connectivity port, and the other end of lead extends to a side of upper substrate;

Described ink lay further relatively cover described each go up the connectivity port of inductive layer and following inductive layer.

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