CN201247462Y - Resistance array touch screen - Google Patents

Abstract

The utility model discloses a resistance array touch screen. The touch screen body comprises a detection layer and a working layer, a transparent spacer dot layer is arranged between the detecting layer and the working layer, the detection layer comprises a transparent conductive film detection layer, the transparent conductive film detection layer comprises a plurality of detecting units, all the detecting units are mutually independent and insulated, each detecting unit forms a detecting electrode used for determining the touch point, the working layer comprises a transparent conductive film resistance working layer matched with the detecting electrode, and the transparent conductive film resistance working layer forms a resistance working unit. The different areas of different points in the multi-touch of the resistance array touch screen are determined via different detecting electrodes to realize the multi-touch of the resistance array touch screen, and the resistance array touch screen can support the single-touch and the multi-touch with more than two points; and the concrete resistance characteristic signals detected by the detecting electrodes via the touch points are used for detecting the exact position of the touch points in the detecting electrode zone, and the utility model has the characteristic of accurate positioning of the ordinary resistance touch screen.

Description

Electric resistance array touch screen

Technical field

The utility model relates to a kind of touch-screen, relates in particular to a kind of electric resistance array touch screen that can support single-point or the multiple point touching more than 2.

Background technology

Existing touch-screen generally comprises a touch panel, a controller and a software driver.Touch panel is the transparent panel that has touch sensitive surface.Touch panel is positioned at the front of display screen, the viewing area of display screen that made touch-sensitive surface covers.Touch panel registers touch events, and touch signal sent to controller.Controller is handled these signals, and data are sent to computer system.Software driver is translated into the computing machine incident to touch event.

Known have several touch screen technologies, comprising: resistance-type, condenser type, infrared, surface acoustic wave, electromagnetism, near field imaging or the like.When designing or touch-screen is set, to consider the merits and demerits of every kind of equipment.In surface acoustic wave techniques, ultrasound wave is for example by transducer level and vertical transmission on touch panel.When panel was touched, acoustic wave energy was absorbed.Can device intersects the sensor of placing to this variation with holding under the arm, and the direct information controller is used for processing.

In infrared technique, light beam is for example by light emitting diode level and vertical transmission on touch panel.When panel was touched, a part of light beam of light emitting diode emission was blocked.Intersect the photodetector of placing with light emitting diode and detect this variation, and the direct information controller is used for handling.

In capacitive technologies, touch panel is coated a kind of material that can stored charge.When panel was touched, a little charge attracted to contact point.Be positioned at this electric charge of circuit measuring on each angle of panel, and the direct information controller is used for handling.

In resistive technologies, electric resistance touch screen is a kind of laminated film of multilayer, by one deck glass or organic glass as basic unit, the surface scribbles the transparency conducting layer of one deck ITO (indium oxide), be stamped one deck outside surface cure process, smooth scratch resistant plastic layer above again, its inside surface also scribbles one deck conductive layer (ITO or nickel gold), has many tiny transparent isolating points that they are separated insulation between two conductive layers.When the finger touch screen, usual two conductive layers of isolating has mutually just had a contact in the position, touch point, cause is the even voltage field of a conductive layer connection Y direction wherein, make the voltage of detecting layer become non-zero by zero, after controller detects this connection, carry out the A/D conversion, and the magnitude of voltage that obtains is compared the Y-axis coordinate that can obtain the touch point with reference voltage, in like manner draw the coordinate of X-axis, determine the position, touch point.

Even a problem of all above-mentioned these technology is when on the sensing surface a plurality of target being arranged, they also only can report a point.Also promptly, they lack the ability of following the trail of a plurality of contact points simultaneously.In resistance-type and capacitive technologies, a mean value is determined in all touch points that occur simultaneously, and report drops on certain locational point between the touch point.In surface wave and infrared technique, owing to there is mask, it can not determine the exact position of a plurality of touch points on fall on same level or the perpendicular line.Which kind of situation all can produce wrong result.

China Patent No. " 200620077008.9 " discloses a kind of " exempting from correction matrix formula resistance numeral touch-screen ", surface-coated at electro-conductive glass has conductive layer, conductive film is arranged above electro-conductive glass, it between electro-conductive glass and conductive film clearance layer, it on conductive film insulation course, divide some row buss on the conductive layer of electro-conductive glass, every row bus is divided into several conduction regions corresponding with above-mentioned conduction region again, also insulation side by side mutually between each row bus.Conductive film is divided into the several rows bus, and every capable bus is divided into several conduction regions again, also insulation side by side mutually between each row bus.Be connected lead respectively on every capable bus and every row bus, the other end of lead is connected with computer controller.Press the conduction region that matrix form is arranged by multirow, multiple row, come the tangible position of corresponding sufficient amount, be directly connected to computer controller with the form of " switch " digital signal.Principle is equivalent to matrix-scanning keyboard switch circuit common in the electronic circuit, and button has adopted the material and the technology of common electric resistance touch screen; Working method be " line making alive according to this; detect alignment according to this and have or not voltage signal " or " alignment making alive according to this; detect line according to this and have or not voltage signal " thus confirm touch location, the row, column line intersects to count always counts for full frame touch, exists the low shortcoming of resolution.

In recent years, the multiple point touching technology is growing, and demand grows to even greater heights.In the touch-screen, the electric resistance touch screen share still belongs to the dominance, but current conventional, electric-resistance touch-screen is not supported two or more multiple point touching, this will be to a certain extent can the limiting resistance touch-screen some application.

The utility model content

The purpose of this utility model is to overcome the problems referred to above that existing resistance-type exists, a kind of electric resistance array touch screen is provided, the utility model is determined the place zones of different of the difference in the electric resistance array touch screen multiple point touching by different detecting electrodes, realize the electric resistance array touch screen multiple point touching, can support single-point or the multiple point touching more than 2; Come the exact position of detected touch point by the detected concrete resistance characteristic signal of place, touch point detecting electrode, have the pinpoint characteristic of conventional, electric-resistance touch-screen, and have high resolving power in the detecting electrode zone.

For achieving the above object, the technical solution adopted in the utility model is as follows:

A kind of electric resistance array touch screen, comprise controller and touch-screen body, it is characterized in that: described touch-screen body comprises detection layers and working lining, be transparent insulation point layer between detection layers and the working lining, described detection layers comprises the transparent conductive film detection layers, the transparent conductive film detection layers comprises a plurality of detecting units, separate and insulation between each detecting unit, each detecting unit forms a detecting electrode that is used for determining the touch point, described working lining comprises the transparent conductive film resistance working lining that cooperates with detecting electrode, and transparent conductive film resistance working lining forms the resistance working cell.

Described detecting electrode is connected with controller control detection circuit, and two ends, resistance working cell are connected with the controller control detection circuit that operating voltage is provided to it.

Described detecting electrode two ends are connected with the controller control detection circuit that operating voltage is provided to it, two ends, resistance working cell with provide the controller control detection circuit of operating voltage to it.

Described detection layers also comprises the plastic film layer, and the transparent conductive film detection layers is arranged on the plastic film layer; Working lining also comprises the transparency carrier layer, transparent conductive film resistance working lining is arranged on the transparency carrier layer, transparent conductive film resistance working lining comprises a plurality of resistance working cell, is parallel to each other between the resistance working cell and insulate, and detecting unit is vertical mutually with the resistance working cell.

Described working lining also comprises the plastic film layer, transparent conductive film resistance working lining is arranged on the plastic film layer, transparent conductive film resistance working lining comprises a plurality of resistance working cell, be parallel to each other between the resistance working cell and insulate, detecting unit is vertical mutually with the resistance working cell, detection layers also comprises the transparency carrier layer, and the transparent conductive film detection layers is arranged on the transparency carrier layer.

Described transparency carrier layer is arranged on the transparent conductive film ground plane.

Described detection layers also comprises the plastic film layer, and the transparent conductive film detection layers is arranged on the plastic film layer, and the transparent conductive film detection layers comprises a plurality of detecting units, forms the detection layers array of detection units; Transparent conductive film resistance working lining on the working lining forms a resistance working cell, and working lining also comprises the transparency carrier layer, and transparent conductive film resistance working lining is arranged on the transparency carrier layer.

Described detection layers also comprises the plastic film layer, and the transparent conductive film detection layers is arranged on the plastic film layer, and the transparent conductive film detection layers comprises a plurality of detecting units, forms the detection layers array of detection units; Transparent conductive film resistance working lining on the working lining forms a resistance working cell, and working lining also comprises transparency carrier layer and transparent conductive film ground plane, and the transparency carrier layer is between transparent conductive film resistance working lining and transparent conductive film ground plane.

Described detection layers comprises detection layers and following detection layers, and last detection layers comprises the transparent conductive film detection layers on plastic film layer and the plastic film layer, and the detecting unit on the transparent conductive film detection layers is parallel to each other; Following detection layers comprises the transparent conductive film detection layers on transparency carrier layer and the transparency carrier layer, and the detecting unit on the transparent conductive film detection layers is parallel to each other; Detecting unit on the last detection layers is vertical with detecting unit on the following detection layers; Working lining comprises transparent conductive film resistance working lining, transparent conductive film resistance working lining forms a resistance working cell, working lining is positioned in the middle of detection layers and the following detection layers, and transparent insulation point layer is set respectively between working lining and last detection layers and the following detection layers.

Described detection layers down also comprises the transparent conductive film ground plane, and the transparency carrier layer is between transparent conductive film detection layers and transparent conductive film ground plane.

Adopt advantage of the present utility model to be:

One, the utility model is determined the place zones of different of the difference in the electric resistance array touch screen multiple point touching by different detecting electrodes, realize the electric resistance array touch screen multiple point touching, has the ability of following the trail of a plurality of touch points simultaneously, can support single-point or the multiple point touching more than 2, can determine the exact position of a plurality of touch points on fall on same level or the perpendicular line, can not produce wrong result.

Two, come the exact position of detected touch point by the detected concrete resistance characteristic signal of place, touch point detecting electrode, have the pinpoint characteristic of conventional, electric-resistance touch-screen, and have high resolving power in the detecting electrode zone.

Three, detection layers comprises the transparent conductive film detection layers in the utility model, the transparent conductive film detection layers comprises a plurality of detecting units, separate and insulation between each detecting unit, each detecting unit forms a detecting electrode that is used for determining the touch point, described working lining comprises the transparent conductive film resistance working lining that cooperates with detecting electrode, transparent conductive film resistance working lining forms the resistance working cell, thereby, detecting electrode and resistance working cell can be for a plurality of in the utility model, when part scuffing damage appears in screen body of touch screen, the integral body that can not influence touch-screen is used, and has improved the utilization rate of touch-screen.

Four, in the utility model, the transparency carrier layer is arranged on the transparent conductive film ground plane, the transparent conductive film ground plane is made of and is connected to the reference ground of touch-screen work system transparent conductive material, can avoid the external interference signal to cause voltage dithering to bring the problem that daps.

Five, detection layers comprises the transparent conductive film detection layers in the utility model, the transparent conductive film detection layers comprises a plurality of detecting units, separate and insulation between each detecting unit, each detecting unit forms a detecting electrode that is used for determining the touch point, described working lining comprises the transparent conductive film resistance working lining that cooperates with detecting electrode, transparent conductive film resistance working lining forms the resistance working cell, thereby, detecting electrode and resistance working cell can be for a plurality of in the utility model, when touching, have only the detecting electrode at touch point place and resistance working cell in work, significantly reduced electromagnetic radiation, reduced health effects.

Six, the utility model form of implementation is various, can select different combinations according to different demand environments, has enlarged the usable range of touch-screen.

Seven, be called " exempting from correction matrix formula resistance numeral touch-screen " compares with China Patent No. " 200620077008.9 " name, be the switch of connection effect than what form in the patent, and what form in the utility model is a plurality of detecting electrodes and resistance working cell, and a plurality of detecting electrodes reach the purpose of identification multiple point touching.

Description of drawings

Fig. 1 is the utility model embodiment 1 structural representation

Fig. 2 is the utility model embodiment 2 structural representations

Fig. 3 is the utility model embodiment 3 structural representations

Fig. 4 is the utility model embodiment 4 structural representations

Fig. 5 is the utility model embodiment 5 structural representations

Fig. 6 is the utility model embodiment 6 structural representations

Be labeled as among the figure: 1, transparent conductive film detection layers, 2, transparent conductive film resistance working lining, 3, the plastic film layer, 4, the transparency carrier layer, 5, transparent insulation point layer, 6, the transparent conductive film ground plane.

Embodiment

Embodiment 1

A kind of electric resistance array touch screen, comprise controller and touch-screen body, described touch-screen body comprises detection layers and working lining, be transparent insulation point layer 5 between detection layers and the working lining, described detection layers comprises transparent conductive film detection layers 1, transparent conductive film detects 1 layer and comprises a plurality of detecting units, separate and insulation between each detecting unit, each detecting unit forms a detecting electrode that is used for determining the touch point, described working lining comprises the transparent conductive film resistance working lining 2 that cooperates with detecting electrode, and transparent conductive film resistance working lining 2 forms the resistance working cell.

Detection layers and working lining be detection layers each other.Also comprise plastic film layer 3 as detection layers, transparent conductive film detection layers 1 is arranged on the plastic film layer 3; Working lining also comprises transparency carrier layer 4, transparent conductive film resistance working lining 2 is arranged on the transparency carrier layer 4, transparent conductive film resistance working lining 2 comprises a plurality of resistance working cells arranged side by side, be parallel to each other between each row resistance working cell and insulate, the detecting unit on the transparent conductive film detection layers 1 is vertical with the resistance working cell on the transparent conductive film resistance working lining 2.

Perhaps detection layers also comprises the transparency carrier layer, and the transparent conductive film detection layers is arranged on the transparency carrier layer; Working lining also comprises the plastic film layer, transparent conductive film resistance working lining is arranged on the plastic film layer, transparent conductive film resistance working lining comprises a plurality of resistance working cells arranged side by side, be parallel to each other between each row resistance working cell and insulate, the detecting unit on the transparent conductive film detection layers is vertical with the resistance working cell on the transparent conductive film resistance working lining.

In the utility model, detection layers or each other detection layers working lining by detecting electrode, detecting electrode to detection layers controller resistance or detection track lead, the gap of signal deteching circuit form.Resistance or signal deteching circuit can place the detection layers neighboring area, deliver to the outer controller of detection layers after a plurality of resistance or the signal deteching circuit set.Each layer of touch viewing area of electric resistance array touch screen body must be to satisfy the optical clear that touches application demand, and each layer of non-touch viewing area both can be to satisfy the optical clear that touches application demand, also was can be opaque.The detecting electrode of detection layers what by multiple point touching performance requirement and the decision of implementing process ability.Gap between the detecting electrode of detection layers is by multiple point touching performance, touch resolution and the decision of implementing process ability.Detection layers or each other the material that detecting electrode adopts of the working lining of detection layers can be indium tin oxide target (ITO); The touch material that adopt the viewing area of the working lining of detection layers can not be an indium tin oxide target (ITO) each other.

In the utility model, transparency carrier layer 4 can be made of the transparent non-conductive material of rigidity, also can be made of the non-conductive material of flexible and transparent; The transparent conductive film layer that is coated with on the transparency carrier layer 4, the transparent conductive film layer is divided into the row resistance working cell of some mutual electrical isolation, each row resistance working cell is parallel to each other and has the resistance characteristic material by electrically conducting transparent and constitutes, clearance for insulation between the row resistance working cell can use with the deformable insulating material that transparent conductive material has a solid of identical or approximate light refractive index and fill, row resistance working cell one end ground connection, the other end is connected with controller.

Plastic film layer 3, constitute by the non-conductive material of flexible and transparent, flexible plastic film layer is coated with the transparent conductive film layer 3 times, the transparent conductive film layer is divided into the row resistance working cell of some mutual electrical isolation, each row resistance working cell is parallel to each other and is made of transparent conductive material, clearance for insulation between each row resistance working cell can use with the deformable insulating material that transparent conductive material has a solid of identical or approximate light refractive index and fill, row resistance working cell one end ground connection, the other end is connected with controller.

Separated by transparent insulation point layer 5 between transparent conductive film layer on the transparency carrier layer 4 and the transparent conductive film layer on the plastic film layer 3, the transparent insulation point layer 5 transparent insulation lattice array of being made up of the deformable insulating material of solid constitute.

The detection layers detecting unit adopts identical or close material to form with working lining resistance working cell, make detecting unit have identical or close resistance characteristic with the resistance working cell, detection layers and working lining are relativeness, and when detection layers was made working lining, working lining was made detection layers.

Principle of work is as follows:

In the moment of certain, transparent conductive film layer on the transparency carrier layer 4 does not apply voltage as electrode and each row resistance working cell, transparent conductive film layer on the plastic film layer 3 applies the voltage of different gradients as resistor network workplace and each row resistance working cell, when flexible plastic film layer is touched, local electric contact takes place between transparent conductive film layer on the transparency carrier layer 4 and the transparent conductive film layer on the plastic film layer 3 causing under the suitable dynamics, the voltage reference value at place, touch point can reflect on certain path electrode of x1 (n) [or x2 (n)], can obtain the position of touch point at the touch-screen directions X by voltage ratio; At next constantly, transparent conductive film layer on the plastic film layer 3 does not apply voltage as electrode and each row resistance working cell, transparent conductive film layer on the transparency carrier layer 4 applies the voltage of different gradients as resistor network workplace and each row resistance working cell, in like manner can obtain the position of touch point Y direction on touch-screen; The controller location information is discerned and is handled, and outputs to main process equipment then.

When multiple point touching takes place in diverse location place on the touch-screen, sometime, transparent conductive film layer on the transparency carrier layer 4 does not apply voltage as electrode and each row resistance working cell, transparent conductive film layer on the plastic film layer 3 applies the voltage of different gradients as resistor network workplace and each row resistance working cell, touch-screen feeds back a plurality of voltage reference values in the different gradient scope simultaneously to controller, the voltage reference value at place, a plurality of touch point can reflect on x1 (*) [or x2 (*)] multi-electrode simultaneously, can obtain the position of a plurality of touch points at the touch-screen directions X by voltage ratio; At next constantly, transparent conductive film layer B2 on the plastic film layer 3 do not apply voltage as electrode and each row resistance working cell, transparent conductive film layer on the transparency carrier layer 4 applies the voltage of different gradients as resistor network workplace and each row resistance working cell, in like manner can obtain the position of a plurality of touch points in touch-screen Y direction; Controller is to discerning and handle at simultaneous multiple point touching in diverse location place or contiguous the touch, and touches to produce and represented to output to main process equipment then by the unlike signal of touching position information on the touch-screen for every in the multiple point touching.

Embodiment 2

A kind of electric resistance array touch screen, comprise controller and touch-screen body, described touch-screen body comprises detection layers and working lining, be transparent insulation point layer 5 between detection layers and the working lining, described detection layers comprises transparent conductive film detection layers 1, transparent conductive film detection layers 1 comprises a plurality of detecting units, separate and insulation between each detecting unit, each detecting unit forms a detecting electrode that is used for determining the touch point, described working lining comprises the transparent conductive film resistance working lining 2 that cooperates with detecting electrode, and transparent conductive film resistance working lining 2 forms the resistance working cell.

Detection layers and working lining be detection layers each other.Also comprise plastic film layer 3 as detection layers, transparent conductive film detection layers 1 is arranged on the plastic film layer 3; Working lining also comprises transparency carrier layer 4, transparent conductive film resistance working lining 2 is arranged on the transparency carrier layer 3, transparent conductive film resistance working lining 2 comprises a plurality of resistance working cells arranged side by side, be parallel to each other between each row resistance working cell and insulate, the detecting unit on the transparent conductive film detection layers 1 is vertical with the resistance working cell on the transparent conductive film resistance working lining.

Perhaps detection layers also comprises the transparency carrier layer, and the transparent conductive film detection layers is arranged on the transparency carrier layer; Working lining also comprises the plastic film layer, transparent conductive film resistance working lining is arranged on the plastic film layer, transparent conductive film resistance working lining comprises a plurality of resistance working cells arranged side by side, be parallel to each other between each row resistance working cell and insulate, the detecting unit on the transparent conductive film detection layers is vertical with the resistance working cell on the transparent conductive film resistance working lining.

In the utility model, transparency carrier layer 4 can be made of the transparent non-conductive material of rigidity, also can be made of the non-conductive material of flexible and transparent; The transparent conductive film layer that is coated with on the transparency carrier layer 4, the transparent conductive film layer is divided into the row resistance working cell of some mutual electrical isolation, each row resistance working cell is parallel to each other and has the resistance characteristic material by electrically conducting transparent and constitutes, clearance for insulation between the row resistance working cell can use with the deformable insulating material that transparent conductive material has a solid of identical or approximate light refractive index and fill, row resistance working cell one end ground connection, the other end is connected with controller.

Plastic film layer 3, constitute by the non-conductive material of flexible and transparent, be coated with the transparent conductive film layer under the flexible plastic film layer, the transparent conductive film layer is divided into the row resistance working cell of some mutual electrical isolation, each row resistance working cell is parallel to each other and is made of transparent conductive material, clearance for insulation between each row resistance working cell can use with the deformable insulating material that transparent conductive material has a solid of identical or approximate light refractive index and fill, row resistance working cell one end ground connection, the other end is connected with controller.

Separated by transparent insulation point layer 5 between transparent conductive film layer on the transparency carrier layer 4 and the transparent conductive film layer on the plastic film layer, the transparent insulation point layer 5 transparent insulation lattice array of being made up of the deformable insulating material of solid constitute.

The transparent conductive film ground plane 6 that the transparency carrier layer is coated with for 4 times, transparent conductive film ground plane 6 are made of and are connected to the reference ground of touch-screen work system transparent conductive material, cause the problem of dapping that voltage dithering is brought to avoid the external interference signal.

Principle of work is as follows:

In the moment of certain, transparent conductive film layer on the transparency carrier layer 4 does not apply voltage as electrode and each row resistance working cell, transparent conductive film layer on the plastic film layer 3 applies the voltage of different gradients as resistor network workplace and each row resistance working cell, when flexible plastic film layer is touched, local electric contact takes place between transparent conductive film layer on the transparency carrier layer 4 and the transparent conductive film layer on the plastic film layer 3 causing under the suitable dynamics, the voltage reference value at place, touch point can reflect on certain path electrode of x1 (n) [or x2 (n)], can obtain the position of touch point at the touch-screen directions X by voltage ratio; At next constantly, transparent conductive film layer on the plastic film layer 3 does not apply voltage as electrode and each row resistance working cell, transparent conductive film layer on the transparency carrier layer 4 applies the voltage of different gradients as resistor network workplace and each row resistance working cell, in like manner can obtain the position of touch point Y direction on touch-screen; The controller location information is discerned and is handled, and outputs to main process equipment then.

When multiple point touching takes place in diverse location place on the touch-screen, sometime, transparent conductive film layer on the transparency carrier layer 4 does not apply voltage as electrode and each row resistance working cell, transparent conductive film layer on the plastic film layer 3 applies the voltage of different gradients as resistor network workplace and each row resistance working cell, touch-screen feeds back a plurality of voltage reference values in the different gradient scope simultaneously to controller, the voltage reference value at place, a plurality of touch points can x1 ( ^*) [or x2 ( ^*)] reflect simultaneously on the multi-electrode, can obtain the position of a plurality of touch points by voltage ratio at the touch-screen directions X; At next constantly, transparent conductive film layer B2 on the plastic film layer 3 do not apply voltage as electrode and each row resistance working cell, transparent conductive film layer on the transparency carrier layer 4 applies the voltage of different gradients as resistor network workplace and each row resistance working cell, in like manner can obtain the position of a plurality of touch points in touch-screen Y direction; Controller is to discerning and handle at simultaneous multiple point touching in diverse location place or contiguous the touch, and touches to produce and represented to output to main process equipment then by the unlike signal of touching position information on the touch-screen for every in the multiple point touching.

Embodiment 3

A kind of electric resistance array touch screen, comprise controller and touch-screen body, described touch-screen body comprises detection layers and working lining, be transparent insulation point layer 5 between detection layers and the working lining, described detection layers comprises transparent conductive film detection layers 1, transparent conductive film detection layers 1 comprises a plurality of detecting units, separate and insulation between each detecting unit, each detecting unit forms a detecting electrode that is used for determining the touch point, described working lining comprises the transparent conductive film resistance working lining 2 that cooperates with detecting electrode, and transparent conductive film resistance working lining 2 forms the resistance working cell.

Detection layers comprises detection layers and following detection layers, last detection layers comprises the transparent conductive film detection layers 1 on plastic film layer 3 and the plastic film layer 3, following detection layers comprises the transparent conductive film detection layers 1 on transparency carrier layer 4 and the transparency carrier layer 4, and the detecting unit in the detecting unit in the last detection layers on the transparent conductive film detection layers 1 and the following detection layers on the transparent conductive film detection layers is vertical; Working lining comprises transparent conductive film resistance working lining 2, and working lining is positioned in the middle of detection layers and the following detection layers, and transparent insulation point layer 5 is set respectively between working lining and last detection layers and the following detection layers.

In the utility model, transparency carrier layer 4 can be made of the transparent non-conductive material of rigidity, also can be made of the non-conductive material of flexible and transparent; Be coated with transparent conductive film detection layers 1 on the transparency carrier layer 4, row resistance working cell has the resistance characteristic material by electrically conducting transparent and constitutes, and the clearance for insulation between the row resistance working cell can use with the deformable insulating material that transparent conductive material has a solid of identical or approximate light refractive index and fill.

Flexible plastic film layer 3 is made of the non-conductive material of flexible and transparent; The transparent conductive film detection layers 1 that is coated with under the flexible plastic film layer has the resistance characteristic material by electrically conducting transparent and constitutes, and the clearance for insulation of row resistance working cell can use with the deformable insulating material that transparent conductive material has a solid of identical or approximate light refractive index and fill.

Transparent conductive film resistance working lining 2 has the resistance characteristic material by electrically conducting transparent and constitutes, and the transparent insulation point layer 5 transparent insulation lattice array of being made up of the deformable insulating material of solid constitute.

Principle of work is as follows:

In the moment of certain, transparent conductive film resistance working lining 2 is as electrode and do not apply voltage, transparent conductive film detection layers on the plastic film layer 3 applies the voltage of different ladders as resistor network workplace and each row resistance working cell, when flexible plastic film layer 3 is touched, local electric contact takes place between the transparent conductive film detection layers that causes under the suitable dynamics on transparent conductive film resistance working lining 2 and the transparency carrier layer 4, the voltage reference value at place, touch point can reflect on certain path electrode of x1 (n) [or x2 (n)], can obtain the position of touch point at the touch-screen directions X by voltage ratio; At next constantly, transparent conductive film resistance working lining 2 is as electrode and do not apply voltage, transparent conductive film detection layers on the transparency carrier layer 4 applies the voltage of different ladders as resistor network workplace and each row resistance working cell, in like manner can obtain the position of touch point Y direction on touch-screen; The controller location information is discerned and is handled, and outputs to main process equipment then.

When multiple point touching takes place in diverse location place on the touch-screen, in the moment of certain, transparent conductive film resistance working lining 2 is as electrode and do not apply voltage, transparent conductive film detection layers on the plastic film layer 3 applies the voltage of different ladders as resistor network workplace and each row resistance working cell, the voltage reference value at place, a plurality of touch points can x1 ( ^*) [or x2 ( ^*)] reflect on the multi-electrode, can obtain the position of a plurality of touch points by voltage ratio at the touch-screen directions X; At next constantly, transparent conductive film resistance working lining 2 is as electrode and do not apply voltage, transparent conductive film detection layers on the transparency carrier layer 4 applies the voltage of different ladders as resistor network workplace and each row resistance working cell, in like manner can obtain the position of a plurality of touch points Y direction on touch-screen; Controller is to discerning and handle at simultaneous multiple point touching in diverse location place or contiguous the touch, and touches to produce and represented to output to main process equipment then by the unlike signal of touching position information on the touch-screen for every in the multiple point touching.

Embodiment 4

A kind of electric resistance array touch screen, comprise controller and touch-screen body, described touch-screen body comprises detection layers and working lining, be transparent insulation point layer 5 between detection layers and the working lining, described detection layers comprises transparent conductive film detection layers 1, transparent conductive film detection layers 1 comprises a plurality of detecting units, separate and insulation between each detecting unit, each detecting unit forms a detecting electrode that is used for determining the touch point, described working lining comprises the transparent conductive film resistance working lining 2 that cooperates with detecting electrode, and transparent conductive film resistance working lining 2 forms the resistance working cell.

Detection layers comprises detection layers and following detection layers, last detection layers comprises the transparent conductive film detection layers 1 on plastic film layer 3 and the plastic film layer 3, following detection layers comprises the transparent conductive film detection layers 1 on transparency carrier layer 4 and the transparency carrier layer 4, and the detecting unit in the detecting unit in the last detection layers on the transparent conductive film detection layers 1 and the following detection layers on the transparent conductive film detection layers is vertical; Working lining comprises transparent conductive film resistance working lining 2, and working lining is positioned in the middle of detection layers and the following detection layers, and transparent insulation point layer 5 is set respectively between working lining and last detection layers and the following detection layers.

In the utility model, transparency carrier layer 4 can be made of the transparent non-conductive material of rigidity, also can be made of the non-conductive material of flexible and transparent; Be coated with transparent conductive film detection layers 1 on the transparency carrier layer 4, row resistance working cell has the resistance characteristic material by electrically conducting transparent and constitutes, and the clearance for insulation between the row resistance working cell can use with the deformable insulating material that transparent conductive material has a solid of identical or approximate light refractive index and fill.

Flexible plastic film layer 3 is made of the non-conductive material of flexible and transparent; The transparent conductive film detection layers 1 that is coated with under the flexible plastic film layer has the resistance characteristic material by electrically conducting transparent and constitutes, and the clearance for insulation of row resistance working cell can use with the deformable insulating material that transparent conductive material has a solid of identical or approximate light refractive index and fill.

Transparent conductive film resistance working lining 2 has the resistance characteristic material by electrically conducting transparent and constitutes, and the transparent insulation point layer 5 transparent insulation lattice array of being made up of the deformable insulating material of solid constitute.

The transparent conductive film ground plane 6 that the transparency carrier layer is coated with for 4 times, transparent conductive film ground plane 6 are made of and are connected to the reference ground of touch-screen work system transparent conductive material, cause the problem of dapping that voltage dithering is brought to avoid the external interference signal.

Principle of work is as follows:

In the moment of certain, transparent conductive film resistance working lining 2 is as electrode and do not apply voltage, transparent conductive film detection layers on the plastic film layer 3 applies the voltage of different ladders as resistor network workplace and each row resistance working cell, when flexible plastic film layer 3 is touched, local electric contact takes place between the transparent conductive film detection layers that causes under the suitable dynamics on transparent conductive film resistance working lining 2 and the transparency carrier layer 4, the voltage reference value at place, touch point can reflect on certain path electrode of x1 (n) [or x2 (n)], can obtain the position of touch point at the touch-screen directions X by voltage ratio; At next constantly, transparent conductive film resistance working lining 2 is as electrode and do not apply voltage, transparent conductive film detection layers on the transparency carrier layer 4 applies the voltage of different ladders as resistor network workplace and each row resistance working cell, in like manner can obtain the position of touch point Y direction on touch-screen; The controller location information is discerned and is handled, and outputs to main process equipment then.

When multiple point touching takes place in diverse location place on the touch-screen, in the moment of certain, transparent conductive film resistance working lining 2 is as electrode and do not apply voltage, transparent conductive film detection layers on the plastic film layer 3 applies the voltage of different ladders as resistor network workplace and each row resistance working cell, the voltage reference value at place, a plurality of touch points can x1 ( ^*) [or x2 ( ^*)] reflect on the multi-electrode, can obtain the position of a plurality of touch points by voltage ratio at the touch-screen directions X; At next constantly, transparent conductive film resistance working lining 2 is as electrode and do not apply voltage, transparent conductive film detection layers on the transparency carrier layer 4 applies the voltage of different ladders as resistor network workplace and each row resistance working cell, in like manner can obtain the position of a plurality of touch points Y direction on touch-screen; Controller is to discerning and handle at simultaneous multiple point touching in diverse location place or contiguous the touch, and touches to produce and represented to output to main process equipment then by the unlike signal of touching position information on the touch-screen for every in the multiple point touching.

Embodiment 5

A kind of electric resistance array touch screen, comprise controller and touch-screen body, described touch-screen body comprises detection layers and working lining, be transparent insulation point layer 5 between detection layers and the working lining, described detection layers comprises transparent conductive film detection layers 1, transparent conductive film detection layers 1 comprises a plurality of detecting units, separate and insulation between each detecting unit, each detecting unit forms a detecting electrode that is used for determining the touch point, described working lining comprises the transparent conductive film resistance working lining 2 that cooperates with detecting electrode, and transparent conductive film resistance working lining 2 forms the resistance working cell.

Detection layers also comprises plastic film layer 3, transparent conductive film detection layers 1 is arranged on the plastic film layer 3, transparent conductive film detection layers 1 is made up of a plurality of detecting units, each detecting unit is laterally and vertically even side by side the distribution, form the detection layers array of detection units, be filled with insulating material between each detecting unit; Working lining is a transparent conductive film resistance working lining 2, comprises a transparent conductive film resistance working cell, and working lining also comprises transparency carrier layer 4, and transparent conductive film working lining 2 is arranged on the transparency carrier layer.

Transparency carrier layer 4 can be made of the transparent non-conductive material of rigidity, also can be made of the non-conductive material of flexible and transparent; Be coated with transparent conductive film resistance working lining 2 on the transparency carrier layer 4.

Flexible plastic film layer 3 is made of the non-conductive material of flexible and transparent, and the transparent conductive film detection layers 1 that flexible plastic film layer is coated with for 3 times, transparent conductive film detection layers 1 have the resistance characteristic material by electrically conducting transparent and constitute;

Separated by transparent insulation point layer 5 between transparent conductive film detection layers 1 and the transparent conductive film resistance working lining 2, the transparent insulation point layer 5 transparent insulation lattice array of being made up of the deformable insulating material of solid constitute.

Principle of work is as follows:

The transparent conductive film detection layers does not apply voltage as electrode and each resistance bolck, the conductive film working lining is as the resistor network workplace and apply the voltage of different gradients, when flexible plastic film layer is touched, causing the electric contact that the part takes place between transparent conductive film detection layers and the transparent conductive film resistance working lining under the suitable dynamics, the voltage reference value at place, touch point can reflect on certain path electrode of x (n) [or y (n)], can obtain the position of touch point in touch-screen directions X and Y direction by voltage ratio.The controller location information is discerned and is handled, and outputs to main process equipment then.

When multiple point touching takes place in diverse location place on the touch-screen, the transparent conductive film detection layers does not apply voltage as electrode and each resistance bolck, transparent conductive film resistance working lining is as the resistor network workplace and apply the voltage of different gradients, the voltage reference value at place, a plurality of touch points can x ( ^*) [or y ( ^*)] reflect on the multi-electrode, can obtain the position of a plurality of touch points by voltage ratio in touch-screen directions X and Y direction; Controller is to discerning and handle at simultaneous multiple point touching in diverse location place or contiguous the touch, and touches to produce and represented to output to main process equipment then by the unlike signal of touching position information on the touch-screen for every in the multiple point touching.

Embodiment 6

A kind of electric resistance array touch screen, comprise controller and touch-screen body, described touch-screen body comprises detection layers and working lining, be transparent insulation point layer 5 between detection layers and the working lining, described detection layers comprises transparent conductive film detection layers 1, transparent conductive film detection layers 1 comprises a plurality of detecting units, separate and insulation between each detecting unit, each detecting unit forms a detecting electrode that is used for determining the touch point, described working lining comprises the transparent conductive film resistance working lining 2 that cooperates with detecting electrode, and transparent conductive film resistance working lining 2 forms the resistance working cell.

Detection layers also comprises plastic film layer 3, transparent conductive film detection layers 1 is arranged on the plastic film layer 3, transparent conductive film detection layers 1 is made up of a plurality of detecting units, each detecting unit is laterally and vertically even side by side the distribution, form the detection layers array of detection units, be filled with insulating material between each detecting unit; Working lining is a transparent conductive film resistance working lining 2, comprises a transparent conductive film resistance working cell, and working lining also comprises transparency carrier layer 4, and transparent conductive film working lining 2 is arranged on the transparency carrier layer.

Transparency carrier layer 4 can be made of the transparent non-conductive material of rigidity, also can be made of the non-conductive material of flexible and transparent; Be coated with transparent conductive film resistance working lining 2 on the transparency carrier layer 4.

Flexible plastic film layer 3 is made of the non-conductive material of flexible and transparent, and the transparent conductive film detection layers 1 that flexible plastic film layer is coated with for 3 times, transparent conductive film detection layers 1 have the resistance characteristic material by electrically conducting transparent and constitute;

Separated by transparent insulation point layer 5 between transparent conductive film detection layers 1 and the transparent conductive film resistance working lining 2, the transparent insulation point layer 5 transparent insulation lattice array of being made up of the deformable insulating material of solid constitute.

The transparency carrier layer is coated with transparent conductive film ground plane 64 times, and transparent conductive film ground plane 6 is made of and is connected to the reference ground of touch-screen work system transparent conductive material, cause the problem of dapping that voltage dithering is brought to avoid the external interference signal.

Principle of work is as follows:

The transparent conductive film detection layers does not apply voltage as electrode and each resistance bolck, the conductive film working lining is as the resistor network workplace and apply the voltage of different gradients, when flexible plastic film layer is touched, causing the electric contact that the part takes place between transparent conductive film detection layers and the transparent conductive film resistance working lining under the suitable dynamics, the voltage reference value at place, touch point can reflect on certain path electrode of x (n) [or y (n)], can obtain the position of touch point in touch-screen directions X and Y direction by voltage ratio.The controller location information is discerned and is handled, and outputs to main process equipment then.

When multiple point touching takes place in diverse location place on the touch-screen, the transparent conductive film detection layers does not apply voltage as electrode and each resistance bolck, transparent conductive film resistance working lining is as the resistor network workplace and apply the voltage of different gradients, the voltage reference value at place, a plurality of touch points can x ( ^*) [or y ( ^*)] reflect on the multi-electrode, can obtain the position of a plurality of touch points by voltage ratio in touch-screen directions X and Y direction; Controller is to discerning and handle at simultaneous multiple point touching in diverse location place or contiguous the touch, and touches to produce and represented to output to main process equipment then by the unlike signal of touching position information on the touch-screen for every in the multiple point touching.

Claims (10)

1, a kind of electric resistance array touch screen, comprise controller and touch-screen body, it is characterized in that: described touch-screen body comprises detection layers and working lining, be transparent insulation point layer (5) between detection layers and the working lining, described detection layers comprises transparent conductive film detection layers (1), transparent conductive film detection layers (1) comprises a plurality of detecting units, separate and insulation between each detecting unit, each detecting unit forms a detecting electrode that is used for determining the touch point, described working lining comprises the transparent conductive film resistance working lining (2) that cooperates with detecting electrode, and transparent conductive film resistance working lining (2) forms the resistance working cell.

2, electric resistance array touch screen according to claim 1 is characterized in that: described detecting electrode is connected with controller control detection circuit, and two ends, resistance working cell are connected with the controller control detection circuit that operating voltage is provided to it.

3, electric resistance array touch screen according to claim 1, it is characterized in that: be filled with insulating material between the described detecting unit, described resistance working cell is one or more, when a plurality of, be filled with insulating material between the resistance unit, resistance unit is vertical with detecting unit.

4, according to claim 1,2 or 3 described electric resistance array touch screens, it is characterized in that: described detection layers also comprises plastic film layer (3), and transparent conductive film detection layers (1) is arranged on the plastic film layer (3); Working lining also comprises transparency carrier layer (4), transparent conductive film resistance working lining (2) is arranged on the transparency carrier layer (4), transparent conductive film resistance working lining (2) comprises a plurality of resistance working cell, be parallel to each other between the resistance working cell and insulate, detecting unit is vertical mutually with the resistance working cell.

5, according to claim 1,2 or 3 described electric resistance array touch screens, it is characterized in that: described working lining also comprises plastic film layer (3), transparent conductive film resistance working lining (2) is arranged on the plastic film layer (3), transparent conductive film resistance working lining (2) comprises a plurality of resistance working cell, be parallel to each other between the resistance working cell and insulate, detecting unit is vertical mutually with the resistance working cell, detection layers also comprises transparency carrier layer (4), and transparent conductive film detection layers (1) is arranged on the transparency carrier layer (4).

6, electric resistance array touch screen according to claim 5 is characterized in that: described transparency carrier layer (4) is arranged on the transparent conductive film ground plane (6).

7, according to claim 1,2 or 3 described electric resistance array touch screens, it is characterized in that: described detection layers also comprises plastic film layer (3), transparent conductive film detection layers (1) is arranged on the plastic film layer (3), transparent conductive film detection layers (1) comprises a plurality of detecting units, forms the detection layers array of detection units; Transparent conductive film resistance working lining on the working lining forms a resistance working cell, and working lining also comprises transparency carrier layer (4), and transparent conductive film resistance working lining (2) is arranged on the transparency carrier layer (4).

8, according to claim 1,2 or 3 described electric resistance array touch screens, it is characterized in that: described detection layers also comprises plastic film layer (3), transparent conductive film detection layers (1) is arranged on the plastic film layer (3), transparent conductive film detection layers (1) comprises a plurality of detecting units, forms the detection layers array of detection units; Transparent conductive film resistance working lining on the working lining forms a resistance working cell, working lining also comprises transparency carrier layer (4) and transparent conductive film ground plane (6), and transparency carrier layer (4) is positioned between transparent conductive film resistance working lining (2) and the transparent conductive film ground plane (6).

9, according to claim 1,2 or 3 described electric resistance array touch screens, it is characterized in that: described detection layers comprises detection layers and following detection layers, last detection layers comprises the transparent conductive film detection layers on plastic film layer (3) and the plastic film layer (3), and the detecting unit on the transparent conductive film detection layers is parallel to each other; Following detection layers comprises the transparent conductive film detection layers on transparency carrier layer (4) and the transparency carrier layer (4), and the detecting unit on the transparent conductive film detection layers is parallel to each other; Detecting unit on the last detection layers is vertical with detecting unit on the following detection layers; Working lining comprises transparent conductive film resistance working lining (2), transparent conductive film resistance working lining (2) forms a resistance working cell, working lining is positioned in the middle of detection layers and the following detection layers, and transparent insulation point layer (5) is set respectively between working lining and last detection layers and the following detection layers.

10, electric resistance array touch screen according to claim 9 is characterized in that: described detection layers down also comprises transparent conductive film ground plane (6), and transparency carrier layer (4) is positioned between transparent conductive film detection layers and the transparent conductive film ground plane (6).

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