CN205809836U - A kind of difunctional touch-control sensor of Variable Array, touch module and touch control display apparatus - Google Patents

Abstract

This utility model relates to the difunctional touch-control sensor of a kind of Variable Array, difunctional touch module and the display device with difunctional touch module.Wherein the difunctional touch-control sensor of Variable Array includes Variable Array difunctional touch-control sensing aerial array, and difunctional induction antenna array includes first direction aerial array group and the second direction aerial array group that mutually insulated arranges.The first direction transparent conductive body that first direction aerial array group is parallel to each other by two or more is constituted；The second direction transparent conductive body that second direction aerial array group is parallel to each other by two or more is constituted.The most difunctional touch-control controls detecting system and includes touch-control master control borad, the first array switch and the second array switch, and touch-control master control borad is made up of electromagnetism electric capacity switching circuit, capacitance touching control signal scanning testing circuit, capacitance touching control signal scanning testing circuit and processor；The most difunctional touch module includes that the difunctional touch-control sensor of Variable Array and difunctional touch-control control detecting system；Wherein the display device with difunctional touch module includes difunctional touch module and display screen module.

Description

A kind of difunctional touch-control sensor of Variable Array, touch module and touch control display apparatus

Technical field

This utility model relates to a kind of difunctional touch-control sensor of Variable Array, difunctional touch-control controls detecting system, especially It relates to a kind of difunctional touch module and touch control display apparatus.

Background technology

Along with the development of touch technology, it is a lot of convenient, owing to user can be direct to bring to people's routine work and life Contact touch screen to input information with hands or other objects, thus user is decreased or even eliminated other input equipments are depended on Rely, user friendly operation.But, different touch control manner ranges also receive a lot of restriction.Capacitance touching control operating function Supporting hands touch control operation, electromagnetic touch operating function supports the electromagnetic touch behaviour of time writer touch control operation and the operation of former handwriting Make function, but the product of these touch controllable functions all must be correspondingly arranged capacitance touching control induction apparatus module and electromagnetic touch sense respectively Answering device module, two set touch-control sensor modules, this spline structure is the thickest, and complicated, with high costs, is not easy to marketing real Execute.

Meanwhile, various touch control manners there is also a lot of shortcoming.Although capacitance plate can realize multiple point touching and style of writing control merit Can, but it is low with the slow resolution of response speed of hands touch-control, and there is the shortcoming that positioning precision is relatively low.Although electromagnetic screen is permissible Large scale is widely used, accurate positioning, but the convenience of multiple point touching cannot be realized, it is achieved human-computer interaction.

Utility model content

In order to overcome drawbacks described above, this utility model provides a kind of difunctional touch-control sensor of Variable Array, uses same Touch-control sensor module, and be with the identical touch-control sensor antenna element on a touch-control sensor module, by two groups of battle arrays Being respectively turned on and disconnecting of row switch changes touch-control sensor antenna element so that touch-control sensor is capacitance touching control antenna array Row form, or be capacitance touching control aerial array form, it is achieved in that capacitance touching control hands operating function and time writer touch-control behaviour Make with former handwriting operating function, and propose in the lump highly integrated difunctional touch-control processing system integrated chip and The touch control display apparatus of double touch controllable functions.It is thin that device of the present utility model has structural thickness, and simple in construction is with low cost etc. Advantage.

The difunctional touch-control sensor of Variable Array of the present utility model is by first direction aerial array group and second direction sky Linear array group constitute, first direction aerial array group in the effective district of touch-control by more than one difunctional touch-control sensor antenna list Unit is constituted, and is made up of more than one single electromagnetic touch induction apparatus antenna element outside the effective district of touch-control；Second direction aerial array group It is made up of more than one difunctional touch-control sensor antenna element in the effective district of touch-control, single by more than one outside the effective district of touch-control Electromagnetic touch induction apparatus antenna element is constituted.

One is had for the first folder more than 0 degree between the direction of first direction aerial array group and second direction aerial array group Mutually insulated between angle, and described first direction aerial array group and second direction aerial array group.

The difunctional touch-control sensor of Variable Array of the present utility model can use one piece of insulated substrate, heavy in substrate side The long-pending touch-control sensor antenna element forming first direction aerial array group, deposits on the another side of insulation insulant substrate Form the touch-control sensor antenna element of second direction aerial array group.

The difunctional touch-control sensor of Variable Array of the present utility model may be used without it and uses two pieces of insulant substrates, The touch-control sensor antenna element of one formation of deposits first direction aerial array group of the first insulated substrate, at the second insulation base The touch-control sensor antenna element of one formation of deposits second direction aerial array group of plate, exhausted by first with transparent adhesive tape the most again Edge substrate and the whole face of the second insulated substrate stick to one.

Antenna element in the effective district of Variable Array difunctional touch-control sensor touch-control can not directly identification live width by human eye Superfine copper less than 30 microns or the continuous metal of the tinsel filling of silver or aluminum or molybdenum or chromium or nickel or ferrum or alloy Net filling forms.

The continuous metal net that antenna element in the effective district of Variable Array difunctional touch-control sensor touch-control is filled is square Shape, or rhombus, or random tetragon, or irregular fibrage shape, or irregular polygon.

Antenna element in the effective district of Variable Array difunctional touch-control sensor touch-control is traditional transparent conduction material Material, or development transparent conductive material.

The figure side of the being bar shaped of Variable Array difunctional touch-control sensor touch-control effective district internal antenna unit, or mouth word Shape, or wooden ladder shape, or series connection rhombus, or series connection rectangle, or equally distributed arbitrary graphic.

Touch-control antenna element outside the effective district of touch-control is the electromagnetic touch induction apparatus antenna list that single electromagnetic touch pattern is used Unit, is the opaque width low impedance metal wire less than 1 millimeter.

Difunctional touch-control of the present utility model controls detecting system by touch-control master control borad, the first array switch and the second array Switch is constituted.Touch-control master control borad is by processor, signal switching circuit, capacitance touching control signal scanning testing circuit, electromagnetic touch letter Number scanning detecting circuit is constituted, and includes that more than one bridges code switch in the first array switch；Include in second array switch More than one bridges code switch；First array switch and the second array switch Variable Array Switch Control bus connect to be touched Control master control borad.The upper end of first direction aerial array group connects the first array switch；The right-hand member of second direction aerial array group is even Connect the second array switch；The lower end of first direction aerial array group and the left end of second direction aerial array group connect touch-control master control The input signal bus of plate.

Difunctional touch-control of the present utility model controls the touch-control master control borad of detecting system through input signal bus marco the Code switch is all off and bridging code switch in the second array switch is all off in bridging in an array switch, variable The difunctional touch-control sensor of array is transformed into capacitance touching control aerial array.

Difunctional touch-control of the present utility model controls the touch-control master control borad of detecting system through input signal bus marco the Bridging code switch in an array switch all turns on and all turns on the bridging code switch in the second array switch, variable The difunctional touch-control sensor of array is transformed to electromagnetic touch aerial array.

Difunctional touch-control of the present utility model controls the difunctional touch-control master control borad of detecting system, the first array switch and the Two array switch can be fully integrated into a chips.

Difunctional touch-control of the present utility model controls the difunctional touch-control master control borad of detecting system can be integrated in a chips, First array switch and the second array switch are integrated in another chips.

Difunctional touch-control of the present utility model control the difunctional touch-control master control borad of detecting system, the first array switch, the Two array switch can be integrated in a chips respectively.

Difunctional touch module of the present utility model is controlled by the difunctional touch-control sensor of Variable Array and difunctional touch-control Detecting system is constituted.

The difunctional touch control display apparatus of the difunctional touch module of band of the present utility model is by difunctional touch module, display Screen transparent panel and display screen module are constituted, and difunctional touch-control touch module is arranged on display screen transparent panel and display screen module Between.

Accompanying drawing explanation

Fig. 1 is illustrated that difunctional touch module of the present utility model；

Fig. 2 is illustrated that difunctional touch module of the present utility model；

Fig. 3 is illustrated that difunctional touch-control sensing aerial array of the present utility model；

Fig. 4 is illustrated that difunctional touch-control first direction aerial array of the present utility model；

Fig. 5 is illustrated that difunctional touch-control second direction aerial array of the present utility model；

Fig. 6 is illustrated that capacitance touching control aerial array of the present utility model；

Fig. 7 is illustrated that electromagnetic touch aerial array of the present utility model；

Fig. 8 is illustrated that equivalent circuit diagram of the present utility model；

Fig. 9 is illustrated that equivalent circuit diagram of the present utility model；

Figure 10 is illustrated that the schematic diagram of this utility model difunctional touch module monolayer material structure.

Figure 11 is illustrated that the schematic diagram of this utility model difunctional touch module double layer material structure.

Figure 12 is illustrated that the schematic diagram of this utility model difunctional touch-control sensing aerial array antenna element wire netting.

Figure 13 is illustrated that this utility model is the figure of this utility model difunctional touch-control sensing aerial array antenna element Shape schematic diagram.

Figure 14 is illustrated that the structural scheme of mechanism of this utility model touch control display apparatus.

Detailed description of the invention

The difunctional touch-control sensor of Variable Array of the present utility model (Fig. 3) by first direction aerial array group (Fig. 4) and Second direction aerial array group (Fig. 5) is constituted.First direction aerial array group (Fig. 4) is double by more than one in the effective district of touch-control Function touch-control sensor antenna element (401) is constituted, by more than one single electromagnetic touch induction apparatus antenna outside the effective district of touch-control Unit (402) is constituted；Second direction aerial array group (Fig. 5) in the effective district of touch-control by more than one difunctional touch-control sensor Antenna element (501) is constituted, and is made up of more than one single electromagnetic touch induction apparatus antenna element (502) outside the effective district of touch-control.

One is had for being more than between the direction of first direction aerial array group (Fig. 4) and the 2nd 5 directional aerial array group (Fig. 5) Between first angle of 0 degree, and described first direction aerial array group (Fig. 4) and second direction aerial array group, (Fig. 5) is mutual Insulation.

Figure 10 shows that a kind of of the difunctional touch-control sensor of this utility model Variable Array (Fig. 3) implements structure.Its The touch-control sensor antenna list of formation of deposits first direction aerial array group (Fig. 4) in first insulant substrate (600) one side Unit (401 and 402).Then formation of deposits second direction antenna array on the another side of the first insulation insulant substrate (600) The touch-control sensor antenna element (501 and 502) of row group (Fig. 5), is so constituted this practicality with single layer dielectrics substrate for carrier The difunctional touch-control sensor of novel Variable Array.

Figure 11 shows that the another kind of of the difunctional touch-control sensor of this utility model Variable Array (Fig. 3) implements structure.Its Use the first insulated substrate (601) and (602) two pieces of insulant substrates of the second insulated substrate, at the first insulated substrate 601 The touch-control sensor antenna element (401 and 402) of one formation of deposits first direction aerial array group (Fig. 4), in the second insulation The touch-control sensor antenna element (501 and 502) of one formation of deposits second direction aerial array group (Fig. 5) of substrate 602, so After with transparent adhesive tape 701, first insulated substrate (601) and the second insulated substrate (602) whole face are sticked to one again, the most both constituted The difunctional touch-control sensor of Variable Array of the present utility model.

Figure 12 shows that this utility model Variable Array difunctional touch-control sensor this utility model Variable Array is difunctional The preferred material of the antenna element in the effective district of touch-control sensor (Fig. 3) touch-control is directly identification live width can not to be less than 30 by human eye The continuous metal net conduction that the superfine copper of micron or the tinsel of silver or aluminum or molybdenum or chromium or nickel or ferrum or alloy are filled Material；This continuous metal net can be square (801), in order to eliminate this difunctional touch module antenna element wire netting of composition The interference of light between grid cycle of lattice and behind pixels of display screen lattice cycle and form a mole phenomenon, affect difunctional touch-control Module (332) shows the image effect of module behind, and utility model people finds through groping research and experiment, of the present utility model The microcosmos pattern of continuous metal net conductive material can be rhombus (804), can be random tetragon (802), can be not advise Then fibrage shape (803), it is also possible to be irregular polygon, this touch-control sensing antenna constituted with low-resistance continuous metal net Impedance is extremely low, and signal to noise ratio is the highest, and touch control operation is sensitive good, it is possible to achieve more than 100 cun oversize Variable Array are difunctional tactile The design application of control induction apparatus.

Antenna element (401) in the effective district of this utility model Variable Array difunctional touch-control sensor (Fig. 3) touch-control and 501 can be preferably used traditional ITO and Low ESR development transparent conductive material.

Figure 13 shows this utility model Variable Array difunctional touch-control sensor difunctional touch-control sensor of Variable Array (Fig. 3) figure of touch-control effective district internal antenna unit.Can side bar shaped (901), can be square shape (902), can be wooden ladder Shape (903), can be series connection rhombus (904), and rectangle (905) of can connecting, can be equally distributed arbitrary graphic.

Touch-control antenna element outside the effective district of this utility model Variable Array difunctional touch-control sensor (Fig. 3) touch-control is single The electromagnetic touch induction apparatus antenna element that electromagnetic touch pattern is used, is that the opaque width low impedance metal less than 1 millimeter is led Line (402 and 502), so can save the wiring space outside Touch Zone, it is simple to the wiring of difunctional touch-control sensor (Fig. 3) sets Meter.

Figure 10, Figure 11, Figure 13 and Figure 14 only provide the structural representation manufacturing simplest aerial array group.Other structures Identical with the circuit structure above stated, do not add to repeat.

Difunctional touch-control of the present utility model control detecting system by master control borad (100), the first array switch (200), the Two array switch (300) are constituted.Touch-control master control borad (100), by processor (101), signal switching circuit (114), capacitance touching control Signal scanning testing circuit (107), electromagnetic touch signal scanning testing circuit (108) are constituted；First array switch (200), bag Include more than one bridging code switch (201)；Second array switch (300), including more than one bridging code switch (301).

The Xj1 to Xj26 of first direction aerial array group (Fig. 4) connects the first array switch 200；Second direction antenna array The Yj1 to Yj22 of row group (Fig. 5) connects the second array switch 300.

The Xs1 to Xs26 of first direction aerial array group (Fig. 4) and the Ys1 of second direction aerial array group (Fig. 5) is extremely Ys22 connects the input signal bus 102 of touch-control master control borad (100).

First array switch 200 and the second array switch 300 connect tactile through Variable Array Switch Control bus 114 Control mainboard 100.

Preferably, touch-control master control borad (100) cross input signal bus (114) control in the first array switch (200) across Connect code switch (201) all off, the first array switch (200) isoboles 8.1, Fig. 8 .1 isoboles 8.4, i.e. Xj1 to Xj26 Unsettled, first direction aerial array group (Fig. 4) is transformed into capacitance touching control first direction aerial array group (Fig. 6 .1)；Touch-control master The bridging code switch (301) that control plate 100 controls in the second array switch (300) through input signal bus 114 is all off, Bridging code switch 301 in second array switch (300) is all off, the second array switch (300) isoboles 9.1, Fig. 9 .1 Isoboles 9.4, i.e. Yj1 to Yj22 are unsettled, and second direction aerial array group (Fig. 5) is transformed into capacitance touching control second direction sky Linear array group (Fig. 6 .2), first direction aerial array group (Fig. 4) and second direction aerial array group (Fig. 5) are transformed into electric capacity The difunctional touch-control sensor of touch-control array group i.e. Variable Array (Fig. 3) is transformed into capacitance touching control aerial array (Fig. 6)；First gust Bridging code switch 201 in row switch (200) is all off, and Xj1 to Xj26 is unsettled, first direction aerial array group (Fig. 5 4) capacitance touching control first direction aerial array group (Fig. 6 .1), capacitance touching control first direction aerial array group Xs1 simultaneously it are transformed into Export the input signal bus (102) of touch-control master control borad (100) to Xs26 is capacitance touching control signal；Second array switch (300) the bridging code switch 301 in is all off, and Yj1 to Yj22 is unsettled, and second direction aerial array group (Fig. 5) is transformed Become capacitance touching control second direction aerial array group (Fig. 6 .2), capacitance touching control second direction aerial array group (Fig. 6 .2) Xs1 simultaneously Export the input signal bus (102) of touch-control master control borad 100 to Xs22 is capacitance touching control signal.

Preferably, touch-control master control borad (100) through input signal bus 114 control in the first array switch (200) across Connecing code switch (201) to all turn on, the first array switch (200) isoboles 8.2, Fig. 8 .2 also isoboles 8.3, i.e. Xj1 is extremely Bridging between the two not adjacent to each other is got up by Xj26 by bridge switch；First direction aerial array group (Fig. 4) is transformed into electricity Magnetic touch-control first direction aerial array group (Fig. 7 .1), touch-control master control borad (100) controls second gust through input signal bus 114 Bridging code switch (301) in row switch (300) all turns on, the second array switch (300) isoboles 9.2, and Fig. 9 .2 is also etc. Bridging between the two not adjacent to each other is got up by effect Fig. 9 .3, i.e. Yj1 to Yj22 by bridge switch, second direction aerial array group (Fig. 5) capacitance touching control second direction aerial array group (Fig. 7 .2), first direction aerial array group (Fig. 4) and second it are transformed into Directional aerial array group (Fig. 5) is transformed into the difunctional touch-control sensor of electromagnetic touch array group i.e. Variable Array (Fig. 3) and is become It is changed to electromagnetic touch aerial array (Fig. 7)；In described first array switch, the bridging code switch (201) of (200) all turns on, Bridging between the two not adjacent to each other is got up by Xj1 to Xj26 by bridge switch, and first direction aerial array group (Fig. 4) is transformed Become electromagnetic touch first direction aerial array group (Fig. 7 .1), electromagnetic touch first direction aerial array group (Fig. 7 .1) Xs1 simultaneously Export the input signal bus (102) of touch-control master control borad (100) 5 to Xs26 is electromagnetic touch signal；

In second array switch, the bridging code switch (301) of (300) all turns on, and Yj1 to Yj22 will by bridge switch Bridging between the two not adjacent to each other is got up, and second direction aerial array group (Fig. 5) is transformed into electromagnetic touch second direction sky Linear array group (Fig. 7 .2), electromagnetic touch second direction aerial array group (7.2) Xs1 to Xs22 is to touch-control master control borad (100) simultaneously Input signal bus (102) exports is electromagnetic touch signal.

Difunctional touch-control of the present utility model controls detecting system, and its touch-control master control borad (100) is difunctional by Variable Array While touch-control sensor (Fig. 3) is transformed into capacitance touching control aerial array (Fig. 6), the input signal of touch-control master control borad (100) is total Capacitance touching control signal (105) on line (102) will be switched to capacitance touching control signal scanning testing circuit (107), capacitance touching control Signal scanning testing circuit (107) demodulates capacitance touching control signal (109), processor under the control of array scanning bus 111 (101) capacitance touching control signal (109) is processed into signal corresponding to capacitance touching control (112) again, and delivers to Peripheral Interface (113), Thus achieve the difunctional touch-control sensor of Variable Array (Fig. 3) to the conversion of capacitance touching control aerial array (Fig. 6), capacitive touch Control signal switching and Scanning Detction and all processes of process；Its touch-control master control borad (100) is by difunctional for Variable Array touch-control sense While answering device (Fig. 3) to be transformed into this touch-control aerial array (Fig. 7) of electricity, the input signal bus (102) of touch-control master control borad (100) On electromagnetic touch signal (106) electromagnetic touch signal scanning testing circuit (108), electromagnetic touch signal scanning will be switched to Testing circuit (108) demodulates capacitance touching control signal (110) under the control of array scanning bus 111, and processor (101) will again Electromagnetic touch signal (110) is processed into signal corresponding to electromagnetic touch (112), and delivers to Peripheral Interface (113), thus realizes The difunctional touch-control sensor of Variable Array (Fig. 3) is to the conversion of electromagnetic touch aerial array (Fig. 7), the switching of electromagnetic touch signal With Scanning Detction and all processes of process.

Preferably, difunctional touch-control master control borad (100), the first array switch (200), the second array switch (300) are all It is integrated in a chips.

Preferably, difunctional touch-control master control borad (100) is integrated in a chips, the first array switch (200) and second gust Row switch (300) are integrated in another chips.

Preferably, difunctional touch-control master control borad (100), the first array switch (200), the second array switch (300) are respectively It is integrated in a chips.

The invention also discloses a kind of difunctional touch module (332), it includes that Variable Array as above is double Function touch-control sensor (Fig. 3) and difunctional touch-control control detecting system.

The invention also discloses a kind of touch control display apparatus with difunctional touch module (332), it includes above-mentioned Difunctional touch module (332), display screen transparent panel (331) and display screen module (333), difunctional touch-control touch module (332) it is arranged between display screen transparent panel (331) and display screen module (333).

Claims (11)

1. the difunctional touch-control sensor of Variable Array, including: by first direction aerial array group and second direction antenna array Row group, wherein

Described first direction aerial array group in the effective district of touch-control by more than one difunctional touch-control sensor

Antenna element is constituted, and is made up of more than one single electromagnetic touch induction apparatus antenna element outside the effective district of touch-control；Second direction Aerial array group is made up of more than one difunctional touch-control sensor antenna element in the effective district of touch-control, outside the effective district of touch-control by More than one single electromagnetic touch induction apparatus antenna element is constituted；

One is had for the first folder more than 0 degree between described first direction aerial array group and the direction of second direction aerial array group Mutually insulated between angle, and described first direction aerial array group and second direction aerial array group.

The difunctional touch-control sensor of Variable Array the most according to claim 1, it is characterised in that: include

Insulated substrate, the touch-control sensor antenna element of the first direction aerial array group of formation of deposits in substrate side, with And on the another side of insulation insulant substrate the touch-control sensor antenna list of second direction aerial array group of formation of deposits Unit.

The difunctional touch-control sensor of Variable Array the most according to claim 1, it is characterised in that include

Two pieces of insulant substrates, the respectively first insulated substrate and the second insulated substrate, the one side at the first insulated substrate is sunk The touch-control sensor antenna element of the long-pending first direction aerial array group formed, at a formation of deposits of the second insulated substrate The touch-control sensor antenna element of second direction aerial array group, the first insulated substrate and whole of the second insulated substrate are by transparent Gluing it is integrated.

The difunctional touch-control sensor of Variable Array the most according to claim 1, it is characterised in that: Variable Array is difunctional to be touched Antenna element in the control effective district of induction apparatus touch-control by human eye can not directly identification live width be less than the superfine copper of 30 microns or silver, Or the continuous metal net filling that the tinsel of aluminum or molybdenum or chromium or nickel or ferrum or alloy is filled forms.

5. according to the difunctional touch-control sensor of the Variable Array described in claim 1 or 4, it is characterised in that: the double merit of Variable Array The continuous metal net that antenna element in the energy effective district of touch-control sensor touch-control is filled is square, or rhombus, or at random Tetragon, or irregular fibrage shape, or irregular polygon.

6. according to the difunctional touch-control sensor of the Variable Array described in claim 1 or 4, it is characterised in that: the double merit of Variable Array Antenna element in the energy effective district of touch-control sensor touch-control is traditional transparent conductive material, or development is transparent leads Electric material.

7. according to the difunctional touch-control sensor of the Variable Array described in claim 1 or 4, it is characterised in that: the double merit of Variable Array The figure side of the being bar shaped of energy touch-control sensor touch-control effective district internal antenna unit, or square shape, or wooden ladder shape, or series connection Rhombus, or series connection rectangle, or equally distributed arbitrary graphic.

8. according to the difunctional touch-control sensor of the Variable Array described in claim 1 or 4, it is characterised in that: outside the effective district of touch-control Touch-control antenna element be the electromagnetic touch induction apparatus antenna element that single electromagnetic touch pattern is used, be that opaque width is less than 1 The low impedance metal wire of millimeter.

9. a difunctional touch module, it includes according to the difunctional touch-control of Variable Array described in any one of claim 1-8 Induction apparatus and difunctional touch-control control detecting system.

10. the difunctional touch control display apparatus with difunctional touch module, it includes according to claim 9 pair of merit Energy touch module, display screen transparent panel and display screen module.

11. difunctional touch control display apparatus according to claim 10, it is characterised in that: difunctional touch-control touch module sets Put between display screen transparent panel and display screen module.