CN201917893U - Resistive type touch panel - Google Patents

Abstract

The utility model relates to a resistive type touch panel which comprises an upper panel module and a lower panel module, wherein the upper panel module and the lower panel module respectively comprise a base plate; a touch layer, two electrodes and two conductive ink layers are formed on one side of each base plate; each electrode is respectively arranged on the side of the corresponding touch layer; and each conductive ink layer is arranged between the corresponding electrode and the base plate. The conductive ink layer of the base plate of the upper panel module is arranged above the electrodes, so that the electrodes are shielded by the conductive ink layer. When the upper panel module and the lower panel module are superposed into the touch panel, the electrodes cannot be exposed to the view field of a common user, so that the attractive appearance is greatly improved.

Description

Electric resistance touch-control panel

Technical field

The utility model makes silver electrode be able to the electric resistance touch-control panel of crested about a kind of electric resistance touch-control panel especially in regard to a kind of setting by electrically conductive ink.

Background technology

Enjoy the facility life that electronics technology is now brought for the ease of people, many electronic installations all develop towards the direction of hommization gradually, therefore for the input media of control electronic installation, also little by little develop into the contact panel of controlling in the touching mode by general button input mode, be beneficial to the user and operate this electronic installation.Existing contact panel is divided into resistance-type, condenser type, acoustic wave, optical profile type etc. with principle of work, but what really occupy most of market is main flow with resistance-type and capacitance type touch-control panel still, although the transmittance of electric resistance touch-control panel relatively low (being 85%), and be afraid of to scrape, inflammable, but still include more than half market share, maximum reason is that its cost is low, and can not worn gloves influence on mode of operation, also can use pointer.

Existing electric resistance touch-control panel mainly comprises a upper substrate and an infrabasal plate, and the bottom surface of upper substrate covers a conductive layer, and conductive layer is provided with a plurality of silver electrodes being adjacent to edge, and these a little silver electrodes and flexible flat cable of probably being the T font forms and is electrically connected; Upper substrate periphery and be provided with the dielectric ink layer of a ring-type in these a little silver electrode outer side edges; The setting of infrabasal plate is identical with upper substrate.But upper substrate is positioned at the outermost of panel usually in contact panel is provided with, so the silver electrode of upper substrate periphery is exposed to the user easily and sees, and makes product attractive in appearance inadequately; In addition, be arranged at the terminal of silver electrode tail end and winding displacement connection often because of the terminal end face is stretched on the dielectric ink layer, and can't fit fully, cause the surface irregularity of contact panel, and then influence the operating result of contact panel with winding displacement.

The utility model content

Because the electric resistance touch-control panel of prior art can't effectively cover silver electrode, and can't fit fully with being connected of winding displacement and cause surface irregularity, the utility model provides a kind of electric resistance touch-control panel, by changing the defective that the wherein setting of ink lay improves prior art.

For achieving the above object, the utility model provides a kind of electric resistance touch-control panel, and it comprises:

Plate module on one, it includes a substrate; Substrate bottom surface is provided with touch control layer on, two top electrodes, two conductive ink layers and one first dielectric ink layer; The first dielectric ink layer is located at the bottom surface periphery of substrate and around last touch control layer; Described two top electrodes and two conductive ink layers are located at the limit, two opposite sides of touch control layer and between the last touch control layer and the first dielectric ink layer; Wherein conductive ink layer is between substrate and corresponding top electrode;

Plate module once, it includes a substrate; Substrate top surface is provided with touch control layer, two bottom electrodes and one first dielectric ink layer; The first dielectric ink layer is located at down the touch control layer periphery; Described two bottom electrodes are located at down the limit, two opposite sides of touch control layer and between the first dielectric ink layer and following touch control layer; Wherein descend two bottom electrodes of plate module and two top electrode non-overlappings of last plate module;

One clearance layer, it is located between the touch control layer of plate module and following plate module;

One mucigel, it is located at the periphery of wall and between last plate module and following plate module;

One flexible circuit board, it is located at a side of mucigel, and joins with the described upper and lower electrode electricity of last plate module with following plate module.

Preferably, each electrode of plate module was respectively equipped with a lead on the corresponding first dielectric ink layer under last plate module reached; The front end of each lead is connected with corresponding upper and lower electrode, and tail end is respectively equipped with a terminal, and the end face of each terminal is stretched on the corresponding first dielectric ink layer;

Preferably, last plate module comprises the second dielectric ink layer respectively with following plate module, and is located at respectively between corresponding first dielectric ink layer and the mucigel; Each second dielectric ink layer is provided with two through hole, and the terminal of each substrate is placed in the corresponding through hole, and concordant with a side of corresponding second dielectric ink layer and mucigel applying; Described mucigel is located between the two second dielectric ink layers of plate module and following plate module.

Advantage of the present utility model is, the conductive ink layer of the substrate by last plate module is arranged at the electrode top, electrode is covered by conductive ink layer, when last plate module and following plate module are overlapped into a contact panel, those electrodes can not be exposed in general user's the visual field, significantly promote apparent aesthetic feeling; In addition, cover the accommodation space that on the corresponding first dielectric ink layer, keeps described terminal simultaneously by each second dielectric ink layer, and the end face of each second dielectric ink layer and the top of corresponding terminal are pasted neat, make described terminal no longer highlight, join and can fit fully, reach the effect of surfacing of the present utility model with flexible flat cable.

Description of drawings

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

Fig. 2 is the sectional view of 2-2 line of cut of the present utility model.

Fig. 3 is the sectional view of 3-3 line of cut of the present utility model.

Fig. 4 is the enforcement exploded view of patterned layer of the present utility model and dielectric ink layer.

Fig. 5 is the enforcement state vertical view of patterned layer of the present utility model and dielectric ink layer.

Embodiment

Following conjunction with figs. and preferred embodiment of the present utility model, further setting forth the utility model is to reach the technological means that predetermined utility model purpose is taked.

See also shown in Figure 1ly, the utility model is a kind of electric resistance touch-control panel, and it comprises: plate module 10 on, once plate module 20, a clearance layer 30, a mucigel 40 and a flexible circuit board 50.

See also Figure 1 and Figure 2, the aforesaid plate module 10 that goes up comprises a substrate 11, substrate 11 by polyethylene terephthalate (polyethylene terephthalate, PET) or other alternative material constitute; The bottom surface of substrate 11 forms touch control layer 12, one first dielectric ink layer 13, two top electrodes 14 and two conductive ink layers 140 on one; Last touch control layer 12 is made of tin indium oxide (ITO) or other alternative material; The first dielectric ink layer 13 is formed at the periphery of substrate 11 and around the periphery of last touch control layer 12; Two top electrodes 14 and two conductive ink layers 140 all are formed at the limit, two opposite sides of touch control layer 12, and between the last touch control layer 12 and the first dielectric ink layer 13; Each top electrode 14 is formed at the bottom surface of corresponding conductive ink layer 140, and is provided with in an overlapping with corresponding conductive ink layer 140; Wherein conductive ink layer 140 can be made of carbon black, metal powder or other alternative material.

Aforesaid plate module 20 down comprises a substrate 21, and substrate 21 is made of glass or other alternative material; The end face of substrate 21 be shaped touch control layer 22, one first dielectric ink layer 23 and two bottom electrodes 24; Following touch control layer 22 can be made of tin indium oxide (ITO), and down the side of touch control layer 22 is corresponding with the side of the touch control layer 12 of last plate module 10 respectively; The first dielectric ink layer 23 is formed at the periphery of substrate 21 and around the periphery of touch control layer 22; Two bottom electrodes 24 are formed at down the limit, two opposite sides of touch control layer 22 and are descending between the touch control layer 22 and the first dielectric ink layer 23, wherein two top electrodes, 14 non-overlappings of two bottom electrodes 24 and last plate module 10.

Aforesaid clearance layer 30 is arranged between the upper and lower touch control layer 12,22 of plate module 10 and following plate module 20, and clearance layer 30 is made of a plurality of separation material 300; Clearance layer 30 will go up plate module 10 isolates mutually with the upper and lower touch control layer 12,22 of following plate module 20, makes upper and lower touch control layer 12,22 push Shi Caihui the user and contacts and form and conduct.Aforesaid mucigel 40, it is located at the periphery of clearance layer 30 and between the first dielectric ink layer 13,23 of last plate module 10 and following plate module 20, so that will go up the bonding that interfixes of plate module 10 and following plate module 20.

Please further consult shown in Figure 3, last plate module 10 comprises the second dielectric ink layer 17,27 respectively with following plate module 20, and be located at respectively between the first dielectric ink layer 13,23 and the mucigel 40, last plate module 10 reaches down, and each electrode 14,24 of plate module 20 extends to form the side of a lead 15,25 at the end face of the corresponding first dielectric ink layer 13,23 respectively, and the front end of each lead 15,25 is connected with corresponding upper and lower electrode 14,24, and tail end then is formed separately a terminal 16,26; The end face of terminal 16,26 is stretched on the corresponding first dielectric ink layer 13,23; Each second dielectric ink layer 17,27 covers on the upper and lower electrode 14,24 and lead 15,25 of corresponding substrate 11,21; Each second dielectric ink layer 17,27 is provided with two through hole 170,270, and the side that the terminal 16,26 of each substrate 11,21 is placed in the corresponding through hole 170,270 and the top of terminal 16,26 and the corresponding second dielectric ink layer 17,27 and mucigel 40 are fitted is concordant.

See also Fig. 1 and shown in Figure 3, aforesaid flexible circuit board 50 is located between plate module 10 and the following plate module 20 and is fixedly arranged on the periphery of mucigel 40, and comprises four pins 500; Each pin 500 joins with corresponding terminal 16, the 26 mutual electricity of last plate module 10 with following plate module 20, makes each touch control layer 12,22 and each lead 15,25 respectively and the purpose that reaches the conveying signal between the flexible circuit board 50 and operate the power supply of usefulness.

In addition, see also Fig. 4 and shown in Figure 5, after last plate module 10 is overlapped into a contact panel with following plate module 20, can cover a patterned layer 100 that is transparence again at the end face of the substrate 11 of last plate module 10, patterned layer 100 can be provided with at least one function pattern 101, and in last plate module or be a mac function with each function pattern 101 corresponding position of patterned layer 100 on the touch control layer 12,22 of plate module down, in the present embodiment, mac function 120 is located on the touch control layer 12 of plate module 10.The coordinate of mac function 120 can utilize software program to set specific function in advance; Between the substrate 11 of patterned layer 100 and last plate module 10, also one the 3rd dielectric ink layer 102 can be set, further mac function 120 shared positions are separated out in the viewing area of panel by the 3rd dielectric ink layer 102 that will be black, and make function pattern 101 more showy, be beneficial to indicate the user to operate specific function.In preferred embodiment of the present utility model, function pattern 101 can be a homepage pattern, a note pattern or a search pattern, but is not to be defined in those forms.

Comprehensive the above, because the conductive ink layer 140 of going up plate module 10 of the present utility model is arranged at the top of corresponding electrode 14, electrode 14 is covered by conductive ink layer 140, allow the user can in the viewing area of panel, not see comparatively significantly electrode 14 and influence visual sense of beauty of color; In addition, the two through hole 170,270 of each second dielectric ink layer 17,27 is as the accommodation space of corresponding terminal 16,26, the rough phenomenon that the outstanding terminal 16,26 of shape is caused can correspondingly be improved, and can fit fully with flexible circuit board 50 and join, reach the effect of surfacing of the present utility model.

The above only is a preferred embodiment of the present utility model, be not that the utility model is done any pro forma restriction, though the utility model discloses as above with preferred embodiment, yet be not in order to limit the utility model, any those skilled in the art, in the scope that does not break away from technical solutions of the utility model, should utilize the technology contents of above-mentioned announcement to make a little change or be modified to the equivalent embodiment of equivalent variations, in every case be the content that does not break away from technical solutions of the utility model, according to technical spirit of the present utility model to any simple modification that above embodiment did, equivalent variations and modification all still belong in the scope of technical solutions of the utility model.

Claims (6)

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

Plate module on one, it comprises a substrate; Described substrate bottom surface is provided with touch control layer on, two top electrodes, two conductive ink layers and one first dielectric ink layer; The described first dielectric ink layer is located at the bottom surface periphery of substrate and around last touch control layer; Described two top electrodes and two conductive ink layers are located at the limit, two opposite sides of touch control layer and between the last touch control layer and the first dielectric ink layer; Wherein conductive ink layer is between substrate and corresponding top electrode;

Plate module once, it comprises a substrate; Described substrate top surface is provided with touch control layer, two bottom electrodes and one first dielectric ink layer; The described first dielectric ink layer is located at down the touch control layer periphery; Described two bottom electrodes are located at down the limit, two opposite sides of touch control layer and between the first dielectric ink layer and following touch control layer; Wherein descend two bottom electrodes of plate module and two top electrode non-overlappings of last plate module;

One clearance layer, it is located between the touch control layer of plate module and following plate module;

One mucigel, it is located at the periphery of wall and between last plate module and following plate module;

One flexible circuit board, it is located at a side of mucigel, and joins with the described upper and lower electrode electricity of last plate module with following plate module.

2. electric resistance touch-control panel as claimed in claim 1 is characterized in that: each electrode of described last plate module and following plate module is respectively equipped with a lead on the corresponding first dielectric ink layer; The front end of each lead is connected with corresponding upper and lower electrode, and tail end is respectively equipped with a terminal, and the end face of each terminal is stretched on the corresponding first dielectric ink layer.

3. electric resistance touch-control panel as claimed in claim 2 is characterized in that: the described plate module that goes up comprises the second dielectric ink layer respectively with following plate module, and each second dielectric ink layer covers upper and lower electrode and the lead in corresponding substrate; Each second dielectric ink layer is provided with two through hole, and the terminal of each substrate is placed in the corresponding through hole, and concordant with a side of corresponding second dielectric ink layer and mucigel applying; Described mucigel is located between the two second dielectric ink layers of plate module and following plate module.

4. as each described electric resistance touch-control panel in the claim 1 to 3, it is characterized in that: the described substrate top surface of going up plate module is established a patterned layer, establishes one the 3rd dielectric ink layer between the substrate of patterned layer and last plate module.

5. as each described electric resistance touch-control panel in the claim 1 to 3, it is characterized in that: described clearance layer is made of a plurality of separation material.

6. as each described electric resistance touch-control panel in the claim 1 to 3, it is characterized in that: described flexible circuit board comprises four pins; The mutual electricity of corresponding terminal of each pin and last plate module and following plate module joins.

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