CN206312096U - Touching display screen and its suspension touch control component - Google Patents

Abstract

The utility model is related to a kind of touching display screen and its suspension touch control component, touching display screen includes display screen, suspension touch control component, control board, circuit chip and connector, suspension touch control component includes transparency carrier, the first inductive layer, the second inductive layer and drives layer, first inductive layer includes the first induction electrode, second inductive layer includes the second induction electrode, drives layer to include driving electrodes.First induction electrode is used as the line of induction in horizontal coordinate, second induction electrode is used as the 3D lines of induction, driving electrodes are both as the drives line in horizontal coordinate, again as 3D drives lines, the 3D lines of induction form the electric field of stabilization with 3D drives lines in visible area superjacent air space after energization, when thering is conductor to enter the electric field, the electric field line distribution of conductor position can be changed, change the electric-field intensity that the 3D lines of induction that the position connected are received, when conductor is moved in the electric field, by recording direction and the intensity that electric field changes, suspension touch control is realized.

Description

Touching display screen and its suspension touch control component

Technical field

The utility model is related to electronic technology field, more particularly to a kind of touching display screen and its suspension touch control component.

Background technology

At present for consumer electronics, industry control and vehicle-mounted industry, touch-screen undoubtedly instead of physical button to be become most Extensively with most popular input equipment, this has benefited from the very convenient and abundant man-machine interaction means of touch-screen offer, people As long as being clicked on by simple touch-control and gesture being rule and can complete all input functions that even more than physical button can be provided.

Traditional touch-screen is mostly to lean on conductor (such as finger or palm) directly contact touch screen surface to complete input Function, but this can only realize the detecting and locking of horizontal coordinate, it is impossible to meet change on the vertical plane and demand, i.e., cannot Meet the function of suspension touch control.

Utility model content

Based on this, it is necessary to for above-mentioned technical problem, there is provided a kind of touch-control that can realize suspension touch control function shows Screen and its suspension touch control component.

A kind of suspension touch control component, including：

Transparency carrier, including visible area and non-visible area, the non-visible area are set around the visible area；

First inductive layer, including multiple the first induction electrodes for being spaced and be arrangeding in parallel, first induction electrode are set In the visible area；

Second inductive layer, including multiple spaced second induction electrodes, second induction electrode is arranged at described Non-visible area, first induction electrode is set with the second induction electrode mutually insulated；And

Layer, including multiple driving electrodes for being spaced and be arrangeding in parallel, the driving electrodes are driven to be arranged at the visible area, The driving electrodes are set with the first induction electrode mutually insulated, and the driving electrodes are empty with first induction electrode Between be vertically arranged.

Wherein in one embodiment, the transparency carrier includes that the first transparency carrier, the second transparency carrier and the 3rd are saturating Bright substrate, the driving layer is arranged on first transparency carrier, and first inductive layer is arranged at the described second transparent base On plate, second inductive layer is arranged on the 3rd transparency carrier, first transparency carrier and the described second transparent base Separated by Optical transparent adhesive respectively between plate, between second transparency carrier and the 3rd transparency carrier.

Wherein in one embodiment, also including first electrode lead, second electrode lead, the 3rd contact conductor and shielding Layer, the first electrode lead is electrically connected with the driving electrodes, and the second electrode lead and first induction electrode are electric Connection, the 3rd contact conductor electrically connects with second induction electrode, the first electrode lead and the 3rd electrode Lead is located at the non-visible area, and the screen layer is located at the first electrode lead and the 3rd contact conductor and described the Between two induction electrodes, the second electrode lead is located at the non-visible area and staggers setting with the first electrode lead.

Wherein in one embodiment, the transparency carrier includes the first transparency carrier, the second transparency carrier, the 3rd transparent Substrate, the 4th transparency carrier, the suspension touch control component also include screen layer, and the driving layer is arranged at the described first transparent base On plate, first inductive layer is arranged on second transparency carrier, and the screen layer is arranged at the 3rd transparency carrier On, second inductive layer is arranged on the 4th transparency carrier, first transparency carrier and second transparency carrier Between, between second transparency carrier and the 3rd transparency carrier, the 3rd transparency carrier and the 4th transparent base Separated by Optical transparent adhesive respectively between plate.

It is described also including first electrode lead, second electrode lead and the 3rd contact conductor wherein in one embodiment First electrode lead is electrically connected with the driving electrodes, and the second electrode lead is electrically connected with first induction electrode, institute State the 3rd contact conductor to be electrically connected with second induction electrode, the first electrode lead staggers with the second electrode lead Set, the 3rd contact conductor and second induction electrode are by the screen layer and the first electrode lead and described Second electrode lead separates.

Wherein in one embodiment, the transparency carrier includes the first transparency carrier and the second transparency carrier, described the One inductive layer is arranged on first transparency carrier, and to be arranged at described second transparent for the driving layer and second inductive layer On substrate, separated by Optical transparent adhesive between first transparency carrier and second transparency carrier.

Wherein in one embodiment, also including first electrode lead, second electrode lead, the 3rd contact conductor and shielding Layer, the first electrode lead is electrically connected with the driving electrodes, and the second electrode lead and first induction electrode are electric Connection, the 3rd contact conductor is electrically connected with second induction electrode, and the first electrode lead and described second senses Separated by the screen layer between layer.

Wherein in one embodiment, also including transparent cover plate, the transparent cover plate is covered on second inductive layer Side, and separated by Optical transparent adhesive between second inductive layer.

Wherein in one embodiment, transparent filling block is provided with the driving electrodes, the transparent filling block is located at The position that the driving electrodes stagger with first induction electrode.

A kind of touching display screen, including：

Display screen；

Suspension touch control component as described in any of the above one；

Control board, circuit chip and connector, first inductive layer, the second inductive layer and driving layer are by control Circuit board is electrically connected with the circuit chip, the connector be used for by the information that obtains after circuit chip treatment send to On mainboard.

Above-mentioned touching display screen and its suspension touch control component at least have advantages below：

, used as the line of induction (i.e. the 2D lines of induction, 2D Rx) in horizontal coordinate, driving electrodes are used as level for first induction electrode Drives line (i.e. 2D drives lines, 2D Tx) in coordinate, the 2D lines of induction constitute conventional mutual capacitance type touch control screen with 2D drives lines Stacking cabling, you can realize the touch controllable function in horizontal coordinate；Second induction electrode as 3D suspension touch controls the line of induction (i.e. The 3D lines of induction, 3D Rx), also as the drives line (i.e. 3D drives lines, 3D Tx) of 3D suspension touch controls, 3D feels driving electrodes after energization Line is answered to form the electric field of stabilization in visible area superjacent air space with 3D drives lines, electric field line direction is from 3D drives lines, 3D The line of induction is received, and when there is conductor (such as hand) to enter the electric field, can change the electric field line distribution of conductor position, so as to change Become the electric-field intensity that the 3D lines of induction that the position connected are received, when conductor is moved in the electric field, can be by note Direction and intensity that record electric field changes, realize suspension touch control.

Brief description of the drawings

Fig. 1 is the principle assumption diagram of suspension touch control component in an implementation method；

Fig. 2 is the structural representation that suspension touch control component shown in Fig. 1 forms consistent electric field；

Fig. 3 is the schematic diagram that electric field line changes after hand enters electric field shown in Fig. 2；

Fig. 4 is the sectional view of suspension touch control component in first embodiment；

Fig. 5 is the partial exploded view of suspension touch control component shown in Fig. 4；

Fig. 6 is the sectional view of suspension touch control component in second embodiment；

Fig. 7 is the partial exploded view of suspension touch control component shown in Fig. 6；

Fig. 8 is the sectional view of suspension touch control component in the 3rd implementation method；

Fig. 9 is the partial exploded view of suspension touch control component shown in Fig. 8.

Specific embodiment

To enable above-mentioned purpose of the present utility model, feature and advantage more obvious understandable, below in conjunction with the accompanying drawings to this The specific embodiment of utility model is described in detail.Elaborate many details in order to abundant in the following description Understand the utility model.But the utility model can be implemented with being much different from other manner described here, this area Technical staff can do similar improvement in the case of without prejudice to the utility model intension, therefore the utility model does not receive following public affairs The limitation of the specific implementation opened.

It should be noted that when element is referred to as " being fixed on " another element, it can directly on another element Or can also there is element placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or may be simultaneously present centering elements.Term as used herein " vertical ", " level ", " left side ", For illustrative purposes only, it is unique implementation method to be not offered as " right side " and similar statement.

Unless otherwise defined, all of technologies and scientific terms used here by the article is led with technology of the present utility model is belonged to The implication that the technical staff in domain is generally understood that is identical.It is herein to be in term used in the description of the present utility model The purpose of description specific embodiment, it is not intended that in limitation the utility model.Each technical characteristic of embodiment described above Can arbitrarily be combined, to make description succinct, not to all possible combination of each technical characteristic in above-described embodiment All it is described, as long as however, the combination of these technical characteristics is all considered to be the model of this specification record in the absence of contradiction Enclose.

A kind of touching display screen, can both realize the 2D touch-controls in horizontal coordinate, it is also possible to realize 3D suspension touch controls, with suitable Should be in the development of 3D UI designs.Fig. 1 is referred to, touching display screen includes display screen, suspension touch control component 101, control board 102nd, circuit chip 103 and connector 104.

Display screen is used to show the various information such as word, figure, image, animation, market, video, video signal.Display screen It is stacked with suspension touch control component 101.

Fig. 1 to Fig. 3 is referred to, suspension touch control component 101 includes that transparency carrier 1010, the first inductive layer 1020, second are felt Answer layer 1030 and drive layer 1040.Transparency carrier 1010 includes visible area and non-visible area, and non-visible area sets around visible area Put.Specifically, transparency carrier 1010 is probably rectangle structure, and visible area is also probably rectangle structure, and non-visible area is general In hollow block form, visible area is located at the middle vacancy of block form.

First inductive layer 1020 includes multiple intervals and the first induction electrode 1021 be arrangeding in parallel, the first induction electrode 1021 are arranged in visible area.For example, the first induction electrode 1021 can be rectangle, or shape is connected with each other by multiple rhombuses Into elongate in shape etc..First induction electrode 1021 is used as the line of induction (i.e. the 2D lines of induction, 2D Rx) in horizontal coordinate.

Second inductive layer 1030 includes multiple spaced second induction electrodes 1031, and the second induction electrode 1031 is set In in non-visible area.Mutually insulated is set between first induction electrode 1021 and the second induction electrode 1031.For example, the second sensing The quantity of electrode 1031 be four, four the second induction electrodes 1031 are separately positioned on rectangle four edges, and positioned at it is non-can In vision area.Second induction electrode 1031 as 3D suspension touch controls the line of induction, (i.e. the 3D lines of induction, 3D Rx).

Driving layer 1040 includes multiple intervals and the driving electrodes 1041 be arrangeding in parallel, and driving electrodes 1041 are arranged at visually In area.The mutually insulated of 1041 and first induction electrode of driving electrodes 1021 is set, and the induction electrode of driving electrodes 1041 and first 1021 spatial verticals are set.For example, driving electrodes 1041 can be rectangle, or the length being interconnected to form by multiple rhombuses Strip etc..Driving electrodes 1041 suspend both as the drives line (i.e. 2D drives lines, 2D Tx) in horizontal coordinate as 3D The drives line (i.e. 3D drives lines, 3D Tx) of touch-control.

First inductive layer 1020, the second inductive layer 1030 and driving layer 1040 are drawn and are connected in control board 102, so Electrically connected with circuit chip 103 by the copper cash in control board 102 again afterwards, circuit chip 103 again by connector 104 and Mainboard is connected, and the information that connector 104 is used to be obtained after circuit chip 103 is processed is sent to mainboard, and mainboard is by entering one Step treatment, in reflection to the interface of display screen.Circuit chip 103 can be IC chip 103 (MCU).

Specifically, transparent filling block 1042 can also be set in driving electrodes 1041, and transparent filling block 1042 is located at and drives The position that the induction electrode 1021 of moving electrode 1041 and first staggers.The purpose for setting transparent filling block 1042 is to avoid driving electrodes 1041 pattern is visually too obvious, to improve visual experience sense.Transparent filling block 1042 can be by printing or exposing The techniques such as light are molded simultaneously with driving electrodes 1041.

Above-mentioned touching display screen and its suspension touch control component 101 at least have advantages below：

First induction electrode 1021 is used as the line of induction (i.e. the 2D lines of induction, 2D Rx) in horizontal coordinate, driving electrodes 1041 Used as the drives line (i.e. 2D drives lines, 2D Tx) in horizontal coordinate, the 2D lines of induction constitute conventional mutual capacitance with 2D drives lines The stacking cabling of formula touch screen, you can realize the touch controllable function in horizontal coordinate.Second induction electrode 1031 suspends as 3D and touches The line of induction (i.e. the 3D lines of induction, 3D Rx) of control, driving electrodes 1041 also as 3D suspension touch controls drives line (i.e. 3D drives lines, 3D Tx), after energization the 3D lines of induction and 3D drives lines formd in visible area superjacent air space stabilization electric field (as shown in Fig. 2 What the dotted line with arrow do not represented in figure is equipotential line), the direction of electric field line 10 (direction of arrow of such as Fig. 2 and Fig. 3) drives from 3D Moving-wire is set out, and the 3D lines of induction are received.When there is conductor (such as hand) to enter the electric field (as shown in Figure 3), conductor place can be changed The electric field line 10 of position is distributed, so that change the electric-field intensity that the 3D lines of induction that the position connected are received, when conductor is in electricity When being moved in, suspension touch control can be realized by recording direction and the intensity that electric field changes.

This case is described further with three specific embodiments below：

Fig. 4 and Fig. 5 is referred to, is the suspension touch control component 100 in first embodiment.Transparency carrier includes that first is transparent Substrate 111, the second transparency carrier 112 and the 3rd transparency carrier 113.Layer 120 is driven to be arranged on the first transparency carrier 111, the One inductive layer 130 is arranged on the second transparency carrier 112, and the second inductive layer 140 is arranged on the 3rd transparency carrier 113.First Pass through respectively between the transparency carrier 112 of transparency carrier 111 and second, between the second transparency carrier 112 and the 3rd transparency carrier 113 Optical transparent adhesive 150 separates.

Specific in first embodiment, suspension touch control component 100 also draws including first electrode lead 160, second electrode Line 170, the 3rd contact conductor 180 and screen layer 190.First electrode lead 160 is electrically connected with driving electrodes 121, driving electrodes 121 electrically connect 102 by first electrode lead 160 with control board.The induction electrode 131 of second electrode lead 170 and first Electrical connection, the first induction electrode 131 is electrically connected by second electrode lead 170 with control board 102.3rd contact conductor 180 electrically connect with the second induction electrode 141, and the second induction electrode 141 is by the 3rd contact conductor 180 and control board 102 Electrical connection.

Specific in first embodiment, the contact conductor 180 of first electrode lead 160 and the 3rd is located in non-visible area, But the contact conductor 180 of first electrode lead 160 and the 3rd is not in the same plane.Screen layer 190 is located at first electrode lead 160 and the 3rd between contact conductor 180 and the second induction electrode 141, to reach the effect of shielding isolation electric signal between them. Second electrode lead 170 is located in non-visible area and staggers setting with first electrode lead 160.For example, first electrode lead 160 Positioned at a rectangular wherein edge, second electrode lead 170 is located at rectangle other edge adjacent thereto or relative.Screen Cover in layer 190 and second electrode lead 170 be generally aligned in the same plane.

Suspension touch control component 100 also includes that transparent cover plate 100a, transparent cover plate 100a are covered on the second inductive layer 140 Side, and separated by Optical transparent adhesive 150 between the second inductive layer 140.

Fig. 6 and Fig. 7 is referred to, is the suspension touch control component 200 in second embodiment.Transparency carrier includes that first is transparent Substrate 211, the second transparency carrier 212, the 3rd transparency carrier 213 and the 4th transparency carrier 214.Suspension touch control component 200 is also wrapped Include screen layer 220.Layer 230 is driven to be arranged on the first transparency carrier 211, the first inductive layer 240 is arranged at the second transparency carrier On 212, screen layer 220 is arranged on the 3rd transparency carrier 213, and the second inductive layer 250 is arranged on the 4th transparency carrier 214. Between first transparency carrier 211 and the second transparency carrier 212, between the second transparency carrier 212 and the 3rd transparency carrier 213, Separated by Optical transparent adhesive 260 respectively between three transparency carriers 213 and the 4th transparency carrier 214.

In specific to second embodiment, also including first electrode lead 270, the electrode of second electrode lead 280 and the 3rd Lead 290.First electrode lead 270 is electrically connected with driving electrodes 231, and driving electrodes 231 are by first electrode lead 270 and control Circuit board processed 102 is electrically connected.Second electrode lead 280 is electrically connected with the first induction electrode 241, and the first induction electrode 241 passes through Second electrode lead 280 is electrically connected with control board 102.3rd contact conductor 290 is electrically connected with the second induction electrode 251, Second induction electrode 251 is electrically connected by the 3rd contact conductor 290 with control board.

Specific in second embodiment, first electrode lead 270, second electrode lead 280, the 3rd contact conductor 290 And screen layer 220 is each located in different planes.First electrode lead 270 is respectively positioned on non-visual with second electrode lead 280 In area, and setting of mutually staggering.3rd contact conductor 290 and the second induction electrode 251 are located in non-visible area, and by shielding Layer 220 separates with first electrode lead 270 and second electrode lead 280, to reach the purpose of isolation electric signal.This structure can So that 3D signals and 2D signals is completely isolated, make the cabling of the second induction electrode 251 more fully around visible area so that electric field Distribution is more uniform.

Specific in present embodiment, suspension touch control component 200 also includes transparent cover plate 200a, and transparent cover plate 200a lids set In the top of the second inductive layer 250, and separated by Optical transparent adhesive 260 between the second inductive layer 250.

Fig. 8 and Fig. 9 is referred to, is the suspension touch control component 300 in the 3rd implementation method.Transparency carrier includes that first is transparent The transparency carrier 312 of substrate 311 and second.First inductive layer 320 is arranged on the first transparency carrier 311, drives layer 330 and second Inductive layer 340 is arranged on the second transparency carrier 312.That is, in the driving inductive layer 340 of layer 330 and second is generally aligned in the same plane, drive Dynamic layer 330 is located in visible area, and the second inductive layer 340 is arranged in non-visible area.First transparency carrier 311 and the second transparent base Separated by Optical transparent adhesive 350 between plate 312.

Specific in second embodiment, suspension touch control component 300 also draws including first electrode lead 360, second electrode Line 370, the 3rd contact conductor 380 and screen layer 390.First electrode lead 360 is electrically connected with driving electrodes 331, driving electrodes 331 are electrically connected by first electrode lead 360 with control board 102.The induction electrode 321 of second electrode lead 370 and first Electrical connection, the first induction electrode 321 is electrically connected by second electrode lead 370 with control board 102.3rd contact conductor 380 electrically connect with the second induction electrode 341, and the second induction electrode 341 is by the 3rd contact conductor 380 and control board 102 Electrical connection.

Second electrode lead 370 is located in non-visible area, and the contact conductor 380 of first electrode lead 360 and the 3rd also is located at In non-visible area.Second electrode lead 370 and first electrode lead 360 are located in different planes, first electrode lead 360 with In 3rd contact conductor 380 is generally aligned in the same plane.I.e. the induction electrode 341 of first electrode lead 360 and second also is located at same flat In face.Therefore, screen layer 390 is set between the induction electrode 341 of first electrode lead 360 and second, by the screen of screen layer 390 Cover the electric signal isolated between them.First electrode lead 360 is separated with the 3rd contact conductor 380 by GND.This structure can be with Layer of transparent substrate and Optical transparent adhesive 350 are reduced, is conducive to reducing integral thickness.

Specific in present embodiment, suspension touch control component 300 also includes transparent cover plate 300a, and transparent cover plate 300a lids set In the top of the second inductive layer 340, and separated by Optical transparent adhesive 350 between the second inductive layer 340.

Embodiment described above only expresses several embodiments of the present utility model, and its description is more specific and detailed, But therefore can not be interpreted as the limitation to utility model patent scope.It should be pointed out that for the common skill of this area For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to Protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (10)

1. a kind of suspension touch control component, it is characterised in that including：

Transparency carrier, including visible area and non-visible area, the non-visible area are set around the visible area；

First inductive layer, including multiple the first induction electrodes for being spaced and be arrangeding in parallel, first induction electrode are arranged at institute State visible area；

Second inductive layer, including multiple spaced second induction electrode, second induction electrode be arranged at it is described it is non-can Vision area, first induction electrode is set with the second induction electrode mutually insulated；And

Layer, including multiple driving electrodes for being spaced and be arrangeding in parallel are driven, the driving electrodes are arranged at the visible area, described Driving electrodes are set with the first induction electrode mutually insulated, and the driving electrodes are hung down with the first induction electrode space It is straight to set.

2. suspension touch control component according to claim 1, it is characterised in that the transparency carrier includes the first transparent base Plate, the second transparency carrier and the 3rd transparency carrier, the driving layer are arranged on first transparency carrier, first sensing Layer is arranged on second transparency carrier, and second inductive layer is arranged on the 3rd transparency carrier, and described first is saturating Pass through light between bright substrate and second transparency carrier, between second transparency carrier and the 3rd transparency carrier respectively Transparent adhesive tape is learned to separate.

3. suspension touch control component according to claim 2, it is characterised in that also including first electrode lead, second electrode Lead, the 3rd contact conductor and screen layer, the first electrode lead are electrically connected with the driving electrodes, and the second electrode is drawn Line is electrically connected with first induction electrode, and the 3rd contact conductor is electrically connected with second induction electrode, and described first Contact conductor is located at the non-visible area with the 3rd contact conductor, and the screen layer is located at the first electrode lead and institute State between the 3rd contact conductor and second induction electrode, the second electrode lead be located at the non-visible area and with it is described First electrode lead staggers setting.

4. suspension touch control component according to claim 1, it is characterised in that the transparency carrier includes the first transparent base Plate, the second transparency carrier, the 3rd transparency carrier, the 4th transparency carrier, the suspension touch control component also include screen layer, the drive Dynamic layer is arranged on first transparency carrier, and first inductive layer is arranged on second transparency carrier, the shielding Layer is arranged on the 3rd transparency carrier, and second inductive layer is arranged on the 4th transparency carrier, and described first is saturating Between bright substrate and second transparency carrier, between second transparency carrier and the 3rd transparency carrier, the described 3rd Separated by Optical transparent adhesive respectively between transparency carrier and the 4th transparency carrier.

5. suspension touch control component according to claim 4, it is characterised in that also including first electrode lead, second electrode Lead and the 3rd contact conductor, the first electrode lead are electrically connected with the driving electrodes, the second electrode lead and institute The electrical connection of the first induction electrode is stated, the 3rd contact conductor is electrically connected with second induction electrode, and the first electrode is drawn Line and the second electrode lead stagger setting, and the 3rd contact conductor and second induction electrode pass through the screen layer Separate with the first electrode lead and the second electrode lead.

6. suspension touch control component according to claim 1, it is characterised in that the transparency carrier includes the first transparency carrier And second transparency carrier, first inductive layer is arranged on first transparency carrier, the driving layer and second sense Answer layer to be arranged on second transparency carrier, optical lens are passed through between first transparency carrier and second transparency carrier Gelatin separates.

7. suspension touch control component according to claim 6, it is characterised in that also including first electrode lead, second electrode Lead, the 3rd contact conductor and screen layer, the first electrode lead are electrically connected with the driving electrodes, and the second electrode is drawn Line is electrically connected with first induction electrode, and the 3rd contact conductor is electrically connected with second induction electrode, and described first Separated by the screen layer between contact conductor and second inductive layer.

8. suspension touch control component as claimed in any of claims 1 to 7, it is characterised in that also including transparent cover plate, The transparent cover plate is covered on second inductive layer top, and between second inductive layer by Optical transparent adhesive every Open.

9. suspension touch control component according to claim 1, it is characterised in that transparent filling is provided with the driving electrodes Block, the transparent filling block is located at the position that the driving electrodes stagger with first induction electrode.

10. a kind of touching display screen, it is characterised in that including：

Display screen；

Suspension touch control component as in one of claimed in any of claims 1 to 9；

Control board, circuit chip and connector, first inductive layer, the second inductive layer and driving layer are by controlling circuit Plate is electrically connected with the circuit chip, and the connector is used to send the information obtained after circuit chip treatment to mainboard On.