CN108021283A - A kind of sensor and intelligent touch equipment - Google Patents
A kind of sensor and intelligent touch equipment Download PDFInfo
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- CN108021283A CN108021283A CN201711193802.9A CN201711193802A CN108021283A CN 108021283 A CN108021283 A CN 108021283A CN 201711193802 A CN201711193802 A CN 201711193802A CN 108021283 A CN108021283 A CN 108021283A
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- induction part
- drive division
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/03—Arrangements for converting the position or the displacement of a member into a coded form
- G06F3/041—Digitisers, e.g. for touch screens or touch pads, characterised by the transducing means
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- General Engineering & Computer Science (AREA)
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- General Physics & Mathematics (AREA)
- Position Input By Displaying (AREA)
Abstract
The present embodiments relate to terminating stage Sensor Design field, discloses a kind of sensor and intelligent touch equipment.The sensor includes the M induction part and N row drive divisions for extending transversely and being arranged side by side;Plane where the M induction part and the plane where the N rows drive division are parallel to each other;And the M is greater than or equal to 1;The N is the integral multiple of the M;Wherein, each induction part corresponds to a signal line, and each induction part and T row drive divisions are interlaced;The T is the natural number that value 2 arrives the N.Embodiment of the present invention is in terms of existing technologies, make each induction part interlaced with least two row drive divisions (at least corresponding two rows drive division of i.e. each induction part), and the only corresponding signal line of each induction part, this is incorporated into one equivalent to by multiple (at least two) induction parts of the prior art, greatly reduce the cabling quantity of induction part, the width of complete machine frame is advantageously reduced, improves screen accounting.
Description
Technical field
The present embodiments relate to terminating stage Sensor Design field, more particularly to a kind of sensor and intelligent touch are set
It is standby.
Background technology
With the fast development of the communication technology, " the screen accounting " of existing intelligent touch equipment is increasingly becoming consumer's concern
Hot spot.The raising of " screen accounting ", can bring more preferably visual effect to consumer.One of " screen accounting " method of raising is to reduce
The border width of equipment.
The touch module of existing intelligent touch equipment includes inductive layer and driving layer (also referred to as driving emission layer).Its
In, drive the cabling of layer to need not move through region where frame, therefore the quantity of its cabling and shared space is more
The width of frame is not interfered with less.And what the cabling (especially outcell screens) of inductive layer was then covered positioned at frame
Region.The size of screen is bigger, and the cabling of inductive layer is more, and shared area is bigger, and the width of frame will at this time
Ask bigger.This obviously can influence the raising of " screen accounting ".
The content of the invention
The purpose of embodiment of the present invention is to provide a kind of sensor and intelligent touch equipment, reduces the cabling of inductive layer
Quantity, so as to reduce the width of complete machine frame, improves screen accounting.
In order to solve the above technical problems, embodiments of the present invention provide a kind of sensor, including extend transversely and
The M induction part and N row drive divisions being arranged side by side;Plane where the M induction part and putting down where the N rows drive division
Face is parallel to each other;And the M is greater than or equal to 1;The N is the integral multiple of the M;Wherein, each induction part corresponds to one
Signal line, and each induction part and T row drive divisions are interlaced;The T is the natural number that value 2 arrives the N.
Embodiments of the present invention additionally provide a kind of intelligent touch equipment, including touch module, the touch module bag
Include sensor as described above;The M induction part forms sensing receiving layer, and the N rows drive division forms driving emission layer;Institute
The lower surface for stating sensing receiving layer is connected with the upper surface of the driving emission layer by the first optical cement layer.
Embodiment of the present invention in terms of existing technologies, makes each induction part and at least two row drive divisions interlaced
(i.e. each induction part at least corresponding two row drive divisions), and the only corresponding signal line of each induction part, this is equivalent to will be existing
Multiple (at least two) induction parts in technology are incorporated into one, greatly reduce the cabling quantity of induction part, are conducive to drop
The width of low complete machine frame, improves screen accounting.
In addition, each drive division with a line corresponds to different signal wires respectively.Be conducive to the hand that lifting is determined
The accuracy of the position of finger.
In addition, j-th of drive division of the i-th row same signal wire corresponding with j-th of drive division of the i-th+T rows;Wherein, it is described
I is the natural number that value 1 arrives (N-T);The j is natural number.Advantageously reduce the cabling quantity of drive division.
In addition, the drive division is connected to corresponding signal wire by nesa coating.Nesa coating is selected to be conducive to
Reduce the influence to the display effect of display screen.
In addition, when the drive division is greater than or equal to threshold distance value with the distance of the corresponding signal wire, then pair
The width for the nesa coating answered is greater than or equal to threshold width value.Drive division and signal wire it is distant when, increase is saturating
The width of bright conducting film, can reduce the resistance of nesa coating.
In addition, the width of the nesa coating is between 0.3 millimeter to 0.5 millimeter.Be conducive to put nesa coating
Between two row drive row portion.
In addition, the distance between two neighboring described induction part is less than 10 millimeters.Be conducive to lift touch-control performance, prevent out
Existing check frequency.
In addition, the distance between two neighboring described drive division is less than 5 millimeters.Be conducive to lift touch-control performance, prevent out
Existing check frequency.
In addition, the intelligent touch equipment further includes cover board and display module;The cover board is connected by the second optical cement layer
Connect the upper surface of the sensing receiving layer;The display module is positioned at the lower surface of the driving emission layer.A kind of sensing is provided
Layer, driving layer and glass cover-plate and the position relationship of display module.
Brief description of the drawings
One or more embodiments are illustrative by the picture in corresponding attached drawing, these exemplary theorys
The bright restriction not formed to embodiment, the element for having same reference numbers label in attached drawing are expressed as similar element, remove
Non- have a special statement, and composition does not limit the figure in attached drawing.
Fig. 1 is the structure diagram of sensor according to prior art;
Fig. 2 is the structure diagram of corresponding sensor when the T of first embodiment according to the present invention is equal to 2;
Fig. 3 is the structure diagram of corresponding sensor when the T of first embodiment according to the present invention is equal to 3;
Fig. 4 is the structure diagram of corresponding sensor when the T of first embodiment according to the present invention is equal to N;
Fig. 5 is the structure diagram of the touch module of the intelligent touch equipment of the 3rd embodiment according to the present invention;
Fig. 6 is the structure diagram of the intelligent touch equipment of the 3rd embodiment according to the present invention.
Embodiment
To make the purpose, technical scheme and advantage of the embodiment of the present invention clearer, below in conjunction with attached drawing to the present invention
Each embodiment be explained in detail.However, it will be understood by those skilled in the art that in each embodiment party of the present invention
In formula, many ins and outs are proposed in order to make reader more fully understand the application.But even if without these ins and outs
With many variations based on following embodiment and modification, the application technical solution claimed can also be realized.
The first embodiment of the present invention is related to a kind of sensor.The sensor includes what is extended transversely and be arranged side by side
M induction part and N row drive divisions.Plane where the M induction part and the plane where N row drive divisions are parallel to each other, each
Induction part and T row drive divisions are interlaced, and each induction part corresponds to a signal line.Wherein, M is oneself more than or equal to 1
So number, N are the integral multiple of M, and T is natural number of the value 2 to N.
Present embodiment will be equal to exemplified by 3, N is equal to 6, T equal to 2 by M to be illustrated.As shown in Fig. 2, 3 induction parts
Do not represented with RX1, RX2 and RX3;Drive division is then respectively with TX1, TX2 ..., and TX8 is represented.Induction part can equidistantly arrange, and adjacent
The width of finger is not to be exceeded in the distance between two induction parts L1, to avoid there is the position that can't detect, so as to influence to touch
Control performance.Similarly, drive division also can equidistantly arrange, and the distance between two neighboring drive division L2 also should be less than the width of finger
Degree.
In present embodiment, each induction part and two row drive divisions staggered (i.e. each induction part and two row drive divisions
It is corresponding), as RX1 and the drive division of the drive division of the first row (i.e. TX1, TX3, TX5 and TX7) and the second row (i.e. TX2, TX4,
TX6 and TX8) it is staggered, i.e. RX1 is corresponding with the drive division of the first row and the drive division of the second row.Similarly, present embodiment
In, RX2 is corresponding with the drive division of the third line and the drive division of fourth line;The drive of the drive division and the 6th row of RX3 and fifth line
Dynamic portion is corresponding.It is noted that usually it can also set one between plane where plane and drive division where induction part
Insulating layer (alternatively referred to as dielectric layer).The setting of the insulating layer make it that induction part is mutually isolated with drive division, that is to say, that sensing
Between two corresponding row drive divisions of portion and there is no the relation being electrically connected.
Fig. 1 shows the schematic diagram of inductor of the prior art, its induction part is respectively with RX1, RX2 ..., and RX6 is represented,
Drive division is then represented with TX1, TX2, TX3 and TX4 respectively.Each induction part of the prior art also corresponds to a signal line.But
For existing technology, present embodiment makes each induction part correspond to two row drive divisions, this is equivalent to will be of the prior art
Two induction parts are incorporated into one, and the quantity of the corresponding signal wire of whole induction part reduces half, i.e., whole induction part
Cabling quantity reduces half, since cabling is laid in the both sides of terminal device more in the prior art, when cabling quantity subtracts
When few, take up space corresponding reduction, so that beneficial to the width for reducing complete machine frame, improves screen accounting.
In addition, it is necessary to explanation, present embodiment is only to be equal to 2 (i.e. each induction part corresponds to 2 row drive divisions) with T to be
What example illustrated, so it is not limited to this, in practical applications, can be according to the value for being actually needed specific setting T.Fig. 3, Fig. 4 points
Do not show a case that T takes 3 (i.e. each induction part corresponds to 3 row drive divisions) and T to take N (i.e. induction part corresponds to N rows drive division),
The still corresponding signal line of each induction part.Fig. 3, Fig. 4 are illustrated so that N is equal to 6 as an example.Wherein, only have one in Fig. 4
A induction part, i.e. RX1, therefore whole induction part only needs a signal line.RX1 and the drive division of the first row to Nth row interlock
Arrangement, i.e. RX1 are corresponding with N row drive divisions.Each drive division (i.e. TX1, TX2 ... TX24) in the N row drive divisions is right
A signal line is answered, and different drive divisions corresponds to different signal wires.In this case, the specific location of finger is being determined
When, touch chip is only needed by corresponding signal wire to each drive division input signal, and according to the signal of each drive division
Change, so that it may determine the specific location of finger.As can be seen that the line number of the corresponding drive division of each induction part is more, (i.e. T is got over
Greatly), the quantity of the corresponding signal wire of whole induction part is fewer, and the cabling quantity of whole induction part is also fewer, this is more favourable
In the width for reducing complete machine frame.
Present embodiment, making each induction part and at least two row drive divisions, interlaced (i.e. each induction part is at least corresponding
Two row drive divisions), and the only corresponding signal line of each induction part, this is equivalent to will be of the prior art multiple (at least two)
Induction part is incorporated into one, greatly reduces the cabling quantity of induction part, advantageously reduces the width of complete machine frame, improves screen
Accounting.
Second embodiment of the present invention is related to a kind of sensor.Second embodiment is on the basis of first embodiment
On, that does further improves, and mainly thes improvement is that:In second embodiment, corresponded to respectively not with each drive division of a line
Same signal wire.
Still by taking T is equal to 2 as an example, as shown in Fig. 2, in present embodiment, drive division TX1, TX3, TX5 in same a line and
TX6 corresponds to different signal wires respectively.Similarly, drive division TX2, TX4, TX6 and TX8 in same a line are also corresponded to not respectively
Same signal wire.That is, in the corresponding T rows drive division of each induction part, each drive division corresponds to a signal line, and
The corresponding signal wire of different drive divisions is different.
To reduce the corresponding signal wire quantity of drive division, present embodiment can also make the i-th row j-th of drive division and i-th+
J-th of drive division of T rows corresponds to same signal wire (i is the natural number that value 1 arrives (N-T), and j is natural number), i.e., in same row
Drive division same signal wire corresponding with the drive division positioned at the i-th+T rows positioned at the i-th row.For example, in Fig. 2, first row is located at the 1st
Capable drive division TX1 same signal wires corresponding with the drive division TX1 of drive division TX1 and the 5th row positioned at the 3rd row.Similarly,
Each TX2 in one row also corresponds to same signal wire.
When determining the touch location of finger, touch chip can be respectively by corresponding signal wire to each induction part and driving
Portion sends signal, and then the signal intensity in each induction part and drive division (can be voltage, electric current, frequency, capacitance respectively
Deng the change of signal), the induction part and drive division where finger are determined, so that it is determined that the coordinate of finger.For example, referring to Fig. 2, if
Determine generation signal intensity is the signal for being passed through TX1, and TX1 has three, i.e. TX1, the TX1 of the 3rd row of the 1st row of first row
And the 5th row TX1.At this time, the specific location of finger according to the induction part determined, can be determined.Such as the induction part determined
For RX3, so that it may which the coordinate for determining finger is (TX1+RX3).
Table one respectively illustrates sensor construction (left side form) according to prior art and the sensor of present embodiment
The coordinate that structure (right side form) calculates.
Table one:
As can be seen from Table I, in the prior art, since passage longitudinally in each is single drive division, i.e., each driving
Portion occupies a row (according to Fig. 1, TX1, TX2, TX3 and TX4 respectively occupy a row).Therefore become according to the signal of each drive division
Change, it may be determined that the row where finger, that is, determine the drive division where finger;And according to the signal intensity of each induction part, can be true
Determine the induction part where finger.For example the drive division and TX1 determined, the induction part determined are RX1, so that it may determine finger
Coordinate is (TX1+RX1).It can be seen from the above that in the prior art, according to the signal intensity of each drive division, it just can determine that finger place
Drive division.
And in present embodiment, passage includes several drive divisions longitudinally in each, i.e., each row are by several drive division groups
Into.And the drive division same signal wire corresponding with the drive division positioned at the i-th+T rows in same row positioned at the i-th row, therefore basis
Signal intensity in drive division, what is determined is the institute of the corresponding signal wire (signal wire corresponding to i.e. changed signal)
There is drive division, just need to be distinguish between according to the induction part determined at this time.For example what is determined is all in first row
TX1, just needs according to the induction part determined out, determines the TX1 that bottom is the first row, or the TX1 of the third line at this time, or
The TX1 of fifth line, to determine the drive division where finger, so that it is determined that the coordinate of finger.
In addition, it is noted that the cabling of drive division is usually located between two row drive divisions, to avoid walking for drive division
Line influences the display effect of display module, and present embodiment can be selected nesa coating as its cabling, drive division is connected
To corresponding signal wire.Each drive division of identical signal wire is corresponded in same row, can first pass through nesa coating will be connected to one
Rise, then again draw nesa coating, and be connected to corresponding signal wire.
During in view of the distance between drive division and signal wire too far, the electricity of the conducting film of the drive division and signal wire is connected
Hindering for the increase because of distance and increasing.Present embodiment can be set when drive division is greater than or equal to the distance of corresponding signal wire
During threshold distance value, the width of the corresponding nesa coating of the drive division is greater than or equal to threshold width value.I.e. drive division with
Signal wire it is distant when, by increasing the width of nesa coating, to reduce the resistance of nesa coating.The threshold value and threshold
It is worth width value, can be flexibly set according to actual conditions, present embodiment is without limitation.In present embodiment, electrically conducting transparent
The width of film is can be controlled between 0.3 millimeter to 0.5 millimeter.
In addition, influencing touch-control performance to avoid the occurrence of the position that can't detect, present embodiment can set two neighboring
The distance between induction part L1 is less than 10 millimeters, and the distance between two neighboring drive division L2 is less than 5 millimeters.
Original drive division is split into N rows by present embodiment, and each induction part is corresponded at least two row drive divisions, and
Each drive division corresponds to different signal wires in the corresponding at least two row drive divisions of each induction part.This not only reduces sensing
The cabling quantity in portion, reduces the width of complete machine frame;Also the accuracy for the people's hand position determined is improved.
Third embodiment of the present invention is related to a kind of intelligent touch equipment.Intelligent touch equipment includes touch module, should
Touch module includes the sensor as described in first embodiment or second embodiment.
As shown in figure 5, in present embodiment, which forms sensing receiving layer 22, and N rows drive division forms driving
Emission layer 24.The first optical cement layer 23 is equipped between sensing receiving layer 22 and driving emission layer 24.First optical cement layer 23 has
Body is between the lower surface of sensing receiving layer 22 and the upper surface for driving emission layer 24.
The touch module may also include cover board 20 (such as glass cover-plate) and display module 25.Cover board 20 is covered in sensing and receives
The top of layer 22, it can connect the upper surface of sensing receiving layer 22 by the second optical cement layer 21.Display module 25 is then positioned at drive
The lower surface of dynamic emission layer 24.
As shown in fig. 6, touch module is usually located at the touch interaction area 11 of intelligent touch equipment.Sense receiving layer 22
Cabling (i.e. the cabling of the M induction part) is located at the region that the frame 12 of intelligent touch equipment is covered.
Present embodiment can reduce the cabling quantity of induction part, be conducive to the width of complete machine frame, improve screen accounting.Even if
In the case where frame is fixed, the cabling quantity for reducing induction part is also beneficial to the Electro-static Driven Comb energy of enhancing TP (contact panel)
Caused by power, reduction environmental testing the problem of TP dysfunctions.And present embodiment need not change the equipment and work of module factory
Skill, can also influence the rising of cost.Impedance rise is completely in the driving scope of touch chip as caused by the increasing of drive division
It is interior, extra burden will not be produced.
It will be understood by those skilled in the art that the respective embodiments described above are to realize the specific embodiment of the present invention,
And in practical applications, can to it, various changes can be made in the form and details, without departing from the spirit and scope of the present invention.
Claims (10)
1. a kind of sensor, it is characterised in that including the M induction part and N row drive divisions for extending transversely and being arranged side by side;Institute
State the plane where M induction part and the plane where the N rows drive division is parallel to each other;And the M is greater than or equal to 1;Institute
State the integral multiple that N is the M;
Wherein, each induction part corresponds to a signal line, and each induction part and T row drive divisions are interlaced;Institute
It is the natural number that value 2 arrives the N to state T.
2. sensor according to claim 1, it is characterised in that corresponding different respectively with each drive division of a line
Signal wire.
3. sensor according to claim 1, it is characterised in that j-th of j-th of drive division of the i-th row and the i-th+T rows
Drive division corresponds to same signal wire;Wherein, the i is the natural number that value 1 arrives (N-T);The j is natural number.
4. sensor according to claim 1, it is characterised in that the drive division is connected to correspondence by nesa coating
Signal wire.
5. sensor according to claim 4, it is characterised in that the distance of the drive division and the corresponding signal wire
During more than or equal to threshold distance value, then the width of corresponding nesa coating is greater than or equal to threshold width value.
6. sensor according to claim 4, it is characterised in that the width of the nesa coating is at 0.3 millimeter to 0.5
Between millimeter.
7. sensor according to claim 1, it is characterised in that the distance between two neighboring described induction part is less than 10
Millimeter.
8. sensor according to claim 1, it is characterised in that the distance between two neighboring described drive division is less than 5
Millimeter.
9. a kind of intelligent touch equipment, it is characterised in that including touch module, the touch module includes such as claim 1 to 8
Sensor described in any one;
The M induction part forms sensing receiving layer, and the N rows drive division forms driving emission layer;
The lower surface of the sensing receiving layer is connected with the upper surface of the driving emission layer by the first optical cement layer.
10. intelligent touch equipment according to claim 9, it is characterised in that the intelligent touch equipment further includes cover board
And display module;The cover board connects the upper surface of the sensing receiving layer by the second optical cement layer;The display module position
In the lower surface of the driving emission layer.
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CN201711193802.9A CN108021283A (en) | 2017-11-24 | 2017-11-24 | A kind of sensor and intelligent touch equipment |
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CN201711193802.9A CN108021283A (en) | 2017-11-24 | 2017-11-24 | A kind of sensor and intelligent touch equipment |
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CN105573554A (en) * | 2015-12-31 | 2016-05-11 | 厦门天马微电子有限公司 | Touch display panel |
CN106354351A (en) * | 2016-08-30 | 2017-01-25 | 京东方科技集团股份有限公司 | Touch substrate, manufacturing method, display device, fingerprint identification device and method |
CN106775113A (en) * | 2017-01-12 | 2017-05-31 | 厦门天马微电子有限公司 | Touch-control display panel, touch control display apparatus and touch control detecting method |
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CN202205184U (en) * | 2011-08-16 | 2012-04-25 | 深圳宝龙达信息技术股份有限公司 | Narrow frame touch screen |
CN102419655A (en) * | 2011-12-09 | 2012-04-18 | 天津富纳源创科技有限公司 | Touch screen panel |
CN202720612U (en) * | 2012-03-07 | 2013-02-06 | 深圳市汇顶科技有限公司 | Single-layer two-dimensional touch sensor and touch control terminal |
CN105319753A (en) * | 2015-11-18 | 2016-02-10 | 武汉华星光电技术有限公司 | Mixed embedded type touch display panel |
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CN106354351A (en) * | 2016-08-30 | 2017-01-25 | 京东方科技集团股份有限公司 | Touch substrate, manufacturing method, display device, fingerprint identification device and method |
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