CN204302936U - Contact panel and the contactor control device with this contact panel - Google Patents
Contact panel and the contactor control device with this contact panel Download PDFInfo
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- CN204302936U CN204302936U CN201420705742.XU CN201420705742U CN204302936U CN 204302936 U CN204302936 U CN 204302936U CN 201420705742 U CN201420705742 U CN 201420705742U CN 204302936 U CN204302936 U CN 204302936U
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- earth connection
- electrically connected
- conducting block
- contact panel
- substrate
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- Elimination Of Static Electricity (AREA)
Abstract
The utility model discloses a kind of contact panel, comprises a substrate, multiple signal pins, the wiring of many bars, one first conducting block and one first earth connection.Those signal pins systems are arranged on this substrate.Those signal wiring systems are arranged on this substrate, and are electrically connected those signal pins.First conducting block is arranged on this substrate, and independent of outside those signal pins, and for a chassics earth.First earth connection is also arranged on this substrate, be positioned at those signal wiring peripheral, and one end of this first earth connection is electrically connected this first conducting block.The utility model also provides a kind of contactor control device.So, avoid signal disturbing between earth connection and signal wiring even can reduce, be conducive to the ESD shield effectiveness improving earth connection, improve the reliability of contact panel.
Description
Technical field
The utility model relates to touch technology, particularly about contact panel and the contactor control device with this contact panel.
Background technology
Contact panel (touch panel) or Touch Screen (touch screen) are widely used in electronic installation gradually, particularly portable or portable electric device, such as personal digital assistant (PDA) or mobile phone.In some existing contact panel, be such as that some has in the panel of narrow frame design, the distance of plain conductor and glass substrate edge is more and more less, as static discharge (electrostatic discharge; When ESD) occurring, the outer plain conductor enclosed subjects to electric arc and wounds, and causes the touch controllable function of contact panel to have the anxiety of inefficacy.How to reach effective ESD to protect and the demand taking into account narrow frame design, then become one of contact panel industry item problem.
Utility model content
In view of this, one of the purpose of this utility model is that reaching effective ESD protects and the demand taking into account narrow frame design.
Embodiment of the present utility model provides a kind of contact panel, comprises a substrate, multiple signal pins, the wiring of many bars, one first conducting block and one first earth connection.Those signal pins systems are arranged on this substrate.Those signal wiring systems are arranged on this substrate, and are electrically connected those signal pins.First conducting block is arranged on this substrate, and independent of outside those signal pins, and for a chassics earth.First earth connection is also arranged on this substrate, be positioned at those signal wiring peripheral, and one end of this first earth connection is electrically connected this first conducting block.
In embodiment of the present utility model, separately comprise one second conducting block, to be arranged on this substrate and independent of outside those signal pins, wherein the other end of this first earth connection is electrically connected this second conducting block, this second conducting block is used for and this chassics earth.
In embodiment of the present utility model, separately comprise a pliability electric connector, be electrically connected to the plurality of signal pins, wherein this pliability electric connector has a grounding pin, and the other end of this first earth connection is electrically connected to this grounding pin.
In embodiment of the present utility model, separately comprise one second earth connection, be arranged on this substrate, and it is peripheral to be positioned at this first earth connection, wherein one end of this second earth connection is electrically connected this first conducting block.
In embodiment of the present utility model, separately comprise a pliability electric connector, be electrically connected to the plurality of signal pins, wherein this pliability electric connector has a grounding pin, and the other end of this first earth connection and the other end of this second earth connection are electrically connected this grounding pin respectively.
In embodiment of the present utility model, separately comprise one second conducting block, to be arranged on this substrate and independent of outside those signal pins, wherein the other end of this first earth connection and the other end of this second earth connection are all electrically connected this second conducting block, this second conducting block is used for and this chassics earth.
In embodiment of the present utility model, separately comprise one second conducting block and a pliability electric connector, this second conducting block to be arranged on this substrate and independent of outside those signal pins, this pliability electric connector is electrically connected to the plurality of signal pins, and also there is a grounding pin, the other end of this first earth connection is electrically connected this second conducting block, and the other end of this second earth connection is electrically connected this grounding pin.
In embodiment of the present utility model, separately comprise one second earth connection and a pliability electric connector, this second earth connection is arranged on this substrate and to be positioned at this first earth connection peripheral, this pliability electric connector is electrically connected to the plurality of signal pins, and also there is a grounding pin, the two ends of this second earth connection are electrically connected this grounding pin respectively.
In embodiment of the present utility model, those signal wiring are electrically connected between those signal pins and a touch-control sensing electrode layer.
Embodiment of the present utility model also provides a kind of contactor control device, comprises contact panel and a casing of above-mentioned any embodiment.Casing this contact panel coated, and the first conducting block having that a grounding assembly is electrically connected this contact panel
In embodiment of the present utility model, separately comprise a conducting connecting part, this conducting connecting part is electrically connected this first conducting block and this second conducting block to this grounding assembly.
In embodiment of the present utility model, this conducting connecting part comprises an elasticity connecting key, an elastic fastening plate and conducts electricity adhesion layer thrin.
In embodiment of the present utility model, this conducting connecting part system insert molding is connected with this grounding assembly in this casing.
In embodiment of the present utility model, this conduction adhesion layer comprises one of an optical cement and an optical adhesive tape with electric conductivity.
In the embodiment of the utility model, earth connection one of is at least electrically connected to the grounding assembly of casing via both the first conducting block or the second conducting block.First conducting block and the second conducting block are independent of outside pliability electric connector, make earth connection directly can be electrically connected to the grounding assembly of casing, without the need to being electrically connected to the earth terminal of mainboard via pliability electric connector, signal disturbing between earth connection and signal wiring is avoided even can reduce, be conducive to the ESD shield effectiveness improving earth connection, improve the reliability of contact panel.
Accompanying drawing explanation
Figure 1A is depicted as according to one of the utility model embodiment, the structural representation of contactor control device;
Figure 1B is depicted as according to one of the utility model embodiment, the contact panel schematic diagram of Figure 1A contactor control device;
Be respectively shown in Fig. 1 C and 1D according to one of the utility model embodiment, the right side view of Figure 1A contactor control device and left side view;
Fig. 2 A is depicted as according to one of the utility model embodiment, the schematic diagram of the earthing mechanism of contactor control device;
Fig. 2 B is depicted as another embodiment according to the utility model, the schematic diagram of the earthing mechanism of contactor control device;
Fig. 2 C is depicted as the another embodiment according to the utility model, the schematic diagram of the earthing mechanism of contactor control device;
Figure 3 shows that according to one of the utility model embodiment, the schematic top plan view of contactor control device;
Figure 4 shows that according to one of the utility model embodiment there is the schematic top plan view of the contactor control device of many earth connections;
Figure 5 shows that according to one of the utility model embodiment there is the schematic top plan view of the contactor control device of many earth connections;
Figure 6 shows that according to one of the utility model embodiment there is the schematic top plan view of the contactor control device of many earth connections; And
Figure 7 shows that according to one of the utility model embodiment there is the schematic top plan view of the contactor control device of many earth connections.
[symbol description]
10 contactor control devices
12 contact panels
14 mainboards
15 conducting connecting parts
15A elasticity connecting key
15B elastic fastening plate
15C conducts electricity adhesion layer
16 pliability electric connectors
16G grounding pin
16G1 grounding pin
16G2 grounding pin
18 casings
18G grounding assembly
20 contactor control devices
30 contactor control devices
40 contactor control devices
50 contactor control devices
60 contactor control devices
70 contactor control devices
125 touch areas
128 neighboring areas
160 signal pins
171 first conducting blocks
172 second conducting blocks
185 earth terminals
G1 first earth connection
G2 second earth connection
The wiring of S signal
Detailed description of the invention
Below in conjunction with accompanying drawing and detailed description of the invention, the utility model is described in further detail.
Figure 1A is depicted as according to one of the utility model embodiment, the structural representation of contactor control device 10.Please refer to Figure 1A, contactor control device 10 comprises an one of contact panel 12 and coated contact panel 12 casing 18.
Contact panel 12 comprises a substrate, and it is divided into a touch area 125 and around the neighboring area 128 of touch area 125.Touch-control sensing electrode layer (not being illustrated in figure) is provided with, in order to sense touch position on contact panel 12 or track in touch area 125.Be provided with signal wiring S in neighboring area 128, signal wiring S is electrically connected multiple signal pins 160, and its signal being configured to touch-control sensing electrode layer to be sensed is sent to a mainboard 14 (Figure 1B) via multiple signal pins 160.In addition, be also provided with earth connection G1 in neighboring area 112, it is around signal wiring S and touch area 125, and provides electrostatic discharge protective to signal wiring S.
In one of the utility model embodiment, substrate can be a rigid transparent substrates or a bendable transparent substrates, the transparent materials such as its material selectable from glass, acryl (PMMA), polyvinyl chloride (PVC), polypropylene (PP), PETG (PET), PEN (PEN), Merlon (PC), polystyrene (PS).
In addition, in one of the utility model embodiment, the touch-control sensing electrode layer in touch area 125 comprises the sensing conductor along first direction (such as column direction) arrangement and the sensing conductor along second direction (such as line direction) arrangement.The material of sensing conductor can comprise various transparent conductive material, such as tin indium oxide (indium tinoxide; ITO), also nano metal material can be comprised, such as nano-silver thread, metal grill (metal mesh) etc.
Earth connection G1 is arranged in neighboring area 128, and is positioned at touch-control sensing electrode layer and signal wiring S periphery, and bears the ESD protective action of signal wiring S.One of earth connection G1 is connected to one first conducting block 171, and the other end is then connected to one second conducting block 172.First conducting block 171 and the second conducting block 172 are arranged in neighboring area 128, and independent of outside these signal pins 160, in the present embodiment, the first conducting block 171 and the second conducting block 172 lay respectively at the both sides of these signal pins 160.In one of the utility model embodiment, the material of earth connection G1 is selected from one or more the combination in silver, molybdenum, aluminium, gold, copper, tin indium oxide, and the material of the first conducting block 171 and the second conducting block 172 is selected from copper, silver, aluminium or its alloy.
Casing 18 comprises the grounding assembly 18G that provides the grounding function of contactor control device 10, and the earth terminal 185 that corresponds to the first conducting block 171.In addition, also please refer to the enlarged drawing of Figure 1A, the first conducting block 171 is directly electrically connected to the grounding assembly 18G of casing 18 with a conducting connecting part 15.In like manner, the second conducting block 172 another conducting connecting part (not shown) can be electrically connected to the grounding assembly 18G of casing 18.Through this configuration, when ESD occurs, earth connection G1 is able to ESD electric current to be disposed to grounding assembly 18G through the first conducting block 171 and the second conducting block 172, conducting connecting part 15, makes signal wiring S not by the destruction of ESD, thus reaches the ESD safeguard function of contactor control device 10.In other embodiments of the utility model, earth connection G1 can also only wherein an end be connected to conducting block, such as the first conducting block 171, the other end does not then connect conducting block.
Figure 1B is depicted as according to one of the utility model embodiment, contact panel 12 schematic diagram of Figure 1A contactor control device 10.Please refer to Figure 1B, signal pins 160 is configured to be electrically connected contact panel 12 and mainboard 14 via a pliability electric connector 16.Pliability electric connector 16 can comprise flexible circuit board (flexibleprinted circuit; FPC).The touch-control sensing electrode layer of touch area 125 is electrically connected to mainboard 14 by signal pins 160, to process the sensing signal from touch-control sensing electrode layer in order to do mainboard 14.Again, each signal pins 160 is electrically connected one of touch-control sensing electrode layer row or a line sensing conductor via a corresponding signal wiring S.In one of the utility model embodiment, the material of signal pins 160 can be copper, and the material of signal wiring S can be silver, molybdenum aluminium molybdenum, gold, copper, but is not limited thereto.
Be respectively shown in Fig. 1 C and 1D according to one of the utility model embodiment, the right side view of Figure 1A contactor control device 10 and left side view.Please refer to Fig. 1 C and Fig. 1 D, in the earthing mechanism of contactor control device 10, conducting connecting part 15 makes earth connection G1 be electrically connected to the grounding assembly 18G of casing 18 via the first conducting block 171 or the second conducting block 172.In one of the utility model embodiment, the material of casing 18 is selected from Merlon (PC), polyacrylonitrile (ABS) or carbon fiber, and the material of conducting connecting part 15 is selected from the one in aluminium alloy, magnadure, titanium-aluminium alloy.
In the earthing mechanism of some existing contactor control device, ground connection linear system is electrically connected to the earth terminal of mainboard via the grounding pin of FPC.The earthing mechanism of these earth connections and FPC pressing can because the distance more and more less (such as narrow frame design) of signal wiring and substrate edges, make when ESD occurs, outer signal wiring of enclosing subjects to ESD electric arc and wounds, the touch controllable function of contact panel is caused to lose efficacy, in addition, earth connection and signal lead are all connected to FPC, easily cause signal disturbing between earth connection G1 and signal wiring S, cause ESD shield effectiveness not good.Review in the earthing mechanism of the contactor control device 10 of the utility model, to be arranged in neighboring area 128 and independent of the first conducting block 171 or the second conducting block 172 outside pliability electric connector 16, earth connection G1 is made directly to be electrically connected to the grounding assembly 18G of casing 18, without the need to being electrically connected to the earth terminal (not being illustrated in figure) of mainboard 14 via pliability electric connector 16.Therefore, compared to the earthing mechanism of earth connection and FPC pressing, the earthing mechanism of contactor control device 10 allows the more flexible spatial design of signal wiring S, contributes to the space constraint of mitigation signal wiring S.In addition, earth connection G1 and the first conducting block 171, second conducting block 172 are directly electrically connected to the grounding assembly 18G of casing 18 independent of signal wiring S, signal disturbing between earth connection G1 and signal wiring S is avoided even can reduce, be conducive to the ESD shield effectiveness improving earth connection G1, improve the reliability of contact panel.
Fig. 2 A is depicted as according to one of the utility model embodiment, the schematic diagram of the earthing mechanism of contactor control device 20.Please refer to Fig. 2 A, the assembly of contactor control device 20 and Structure type are same as Figure 1A shownschematically contactor control device 10, and only the conducting connecting part of contactor control device 20 comprises an elasticity connecting key 15A.In one of the utility model embodiment, elasticity connecting key 15A system embeds in casing 18 in the mode of insert molding (insert molding) and is connected with grounding assembly 18G, the structural strength of elasticity connecting key 15A improved, does not subject to wear and tear, tear, distortion.
Fig. 2 B is depicted as another embodiment according to the utility model, the schematic diagram of the earthing mechanism of contactor control device 20.Please refer to Fig. 2 B, the assembly of contactor control device 20 and Structure type are same as Figure 1A shownschematically contactor control device 10, and only the conducting connecting part of contactor control device 20 comprises an elastic fastening plate 15B.In one of the utility model embodiment, elastic fastening plate 15B system embeds in casing 18 in the mode of insert molding and is connected with grounding assembly 18G, and the structural strength of elastic fastening plate 15B is improved, and does not subject to wear and tear, tears, distortion.
Fig. 2 C is depicted as the another embodiment according to the utility model, the schematic diagram of the earthing mechanism of contactor control device 20.Please refer to Fig. 2 C, the assembly of contactor control device 20 and Structure type are same as Figure 1A shownschematically contactor control device 10, and only the conducting connecting part of contactor control device 20 comprises a conduction adhesion layer 15C.In one of the utility model embodiment, conduction adhesion layer 15C can comprise optical cement (the Optical Clear Resin with electric conductivity; Or optical adhesive tape (Optical Clear Adhesive OCR); OCA).Again, optical cement can be glue or optically transparent special double faced adhesive tape.
Figure 3 shows that according to one of the utility model embodiment, the schematic top plan view of contactor control device 30.Please refer to Fig. 3, the assembly of contactor control device 30 and Structure type are same as Figure 1A shownschematically contactor control device 10, and only the earth connection G1 one of contactor control device 30 is connected to the first conducting block 171, and the other end is then connected to one of pliability electric connector 16 grounding pin 16G.Grounding pin 16G is electrically connected to the earth terminal of mainboard 14, and the earth terminal of mainboard 14 is then electrically connected to grounding assembly 18G (Figure 1A).
Through this configuration, when ESD occurs, earth connection G1 is able to ESD electric current to be disposed to grounding assembly 18G through the first conducting block 171, conducting connecting part 15, separately also can pass through grounding pin 16G, the earth terminal of mainboard 14 is disposed to grounding assembly 18G, make signal wiring S not by the destruction of ESD, thus reach the ESD safeguard function of contactor control device 30.Again, contribute to reducing signal disturbing between signal wiring and earth connection G1 to a certain extent independent of the first conducting block 171 outside pliability electric connector 16.
Figure 4 shows that according to one of the utility model embodiment there is the schematic top plan view of the contactor control device 40 of many earth connections.Please refer to Fig. 4, the assembly of contactor control device 40 and Structure type are same as Figure 1A shownschematically contactor control device 10, and only contactor control device 40 is except earth connection G1, have another earth connection G2.It is peripheral and be electrically insulated to each other with signal wiring S with signal wiring S that earth connection G1, G2 are positioned at touch area 125.Earth connection one of G1, G2 are connected to the first conducting block 171, and the other end is then connected to the second conducting block 172.
In the present embodiment, simplify for asking diagram and illustrate conveniently, only disclosing two earth connections G1, G2.But in other embodiments of the utility model, earth connection can be more than three or three.Configure according to this, be positioned at more peripheral earth connection G2 and bear first ESD protective action, earth connection G1 then, such as when earth connection G2 is punctured, bears second ESD protective action.In one of the utility model embodiment, the material of earth connection G1, G2 is selected from the one in silver, molybdenum aluminium molybdenum, gold, copper, tin indium oxide.Again, in another embodiment of the utility model, earth connection G1 and G2 is not identical material.For example, the material of earth connection G1 is metal, and the material of earth connection G2 is tin indium oxide, and vice versa.
Through this configuration, when ESD occurs, earth connection G1 is able to ESD electric current to be disposed to grounding assembly 18G through the first conducting block 171, conducting connecting part 15, or is disposed to grounding assembly 18G through the second conducting block 172, another conducting connecting part 15.In addition, earth connection G2 also can pass through the first conducting block 171, conducting connecting part 15 is disposed to grounding assembly 18G, or is disposed to grounding assembly 18G through the second conducting block 172, this another conducting connecting part 15.As above configuration makes signal wiring S not by the destruction of ESD, thus reaches the ESD safeguard function of contactor control device 40.Again, contribute to reducing signal disturbing between signal wiring and earth connection G1 independent of the first conducting block 171, second conducting block 172 outside pliability electric connector 16, improve ESD shield effectiveness.
Figure 5 shows that according to one of the utility model embodiment there is the schematic top plan view of the contactor control device 50 of many earth connections.Please refer to Fig. 5, the assembly of contactor control device 50 and Structure type are same as Fig. 4 shownschematically contactor control device 40, only earth connection one of G1, G2 of contactor control device 50 are connected to the first conducting block 171, and the other end is then connected to grounding pin 16G1,16G2 of pliability electric connector 16 respectively.Grounding pin 16G1,16G2 are electrically connected to the earth terminal of mainboard 14, and the earth terminal of mainboard 14 is then electrically connected to grounding assembly 18G.
Through this configuration, when ESD occurs, earth connection G1 is able to ESD electric current to be disposed to grounding assembly 18G through the first conducting block 171, conducting connecting part 15, and earth connection G2 also can pass through the second conducting block 172, another conducting connecting part 15 is disposed to grounding assembly 18G.In addition, earth connection G1 also can pass through grounding pin 16G1, the earth terminal of mainboard 14 is disposed to grounding assembly 18G, and earth connection G2 separately also can pass through grounding pin 16G2, the earth terminal of mainboard 14 is disposed to grounding assembly 18G.As above configuration makes signal wiring S not by the destruction of ESD, thus reaches the ESD safeguard function of contactor control device 50.
In other embodiments of the utility model, earth connection one of G1, G2 of contactor control device 50 are connected to the first conducting block 171, and the other end is then connected to one of pliability electric connector 16 grounding pin jointly, such as grounding pin 16G1 or 16G2.
Figure 6 shows that according to one of the utility model embodiment there is the schematic top plan view of the contactor control device 60 of many earth connections.Please refer to Fig. 6, the assembly of contactor control device 60 and Structure type are same as Fig. 4 shownschematically contactor control device 40, only one of the earth connection G1 of contactor control device 60 is connected to the first conducting block 171, the other end is connected to the second conducting block 172, and one end of earth connection G2 is also connected to the first conducting block 171, the other end is then connected to the grounding pin 16G2 of pliability electric connector 16.In the present embodiment, grounding pin 16G2 can between any two signal pins 160.
Through this configuration, when ESD occurs, earth connection G1 is able to ESD electric current to be disposed to grounding assembly 18G through the first conducting block 171, conducting connecting part 15, or is disposed to grounding assembly 18G through the second conducting block 172, another conducting connecting part 15.In addition, earth connection G2 also can pass through the first conducting block 171, conducting connecting part 15 is disposed to grounding assembly 18G, or is disposed to grounding assembly 18G through the earth terminal of grounding pin 16G2, mainboard 14.As above configuration makes signal wiring S not by the destruction of ESD, thus reaches the ESD safeguard function of contactor control device 60.
Figure 7 shows that according to one of the utility model embodiment there is the schematic top plan view of the contactor control device 70 of many earth connections.Please refer to Fig. 7, the assembly of contactor control device 70 and Structure type are same as Fig. 4 shownschematically contactor control device 40, only one of the earth connection G1 of contactor control device 70 is connected to the first conducting block 171, the other end is connected to the second conducting block 172, and one of earth connection G2 is connected to the grounding pin 16G1 of pliability electric connector 16, the other end is then connected to the grounding pin 16G2 of pliability electric connector 16.
Through this configuration, when ESD occurs, earth connection G1 is able to ESD electric current to be disposed to grounding assembly 18G through the first conducting block 171, conducting connecting part 15, or is disposed to grounding assembly 18G through the second conducting block 172, another conducting connecting part 15.In addition, earth connection G2 is disposed to grounding assembly 18G through the earth terminal of grounding pin 16G1, mainboard 14, or is disposed to grounding assembly 18G through the earth terminal of grounding pin 16G2, mainboard 14.As above configuration makes signal wiring S not by the destruction of ESD, thus reaches the ESD safeguard function of contactor control device 70.Again, contribute to reducing signal disturbing between signal wiring S and earth connection G1 independent of the first conducting block 171, second conducting block 172 outside pliability electric connector 16, improve ESD shield effectiveness.
The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment made, equivalent replacements, improvement etc., all should be included within scope that the utility model protects.
Claims (14)
1. a contact panel, is characterized in that, comprises:
One substrate;
Multiple signal pins, is arranged on this substrate;
The wiring of many bars, is arranged on this substrate, and is electrically connected the plurality of signal pins;
One first conducting block, is arranged on this substrate, and independent of outside those signal pins, and for a chassics earth; And
One first earth connection, is arranged on this substrate, and be positioned at those signal wiring peripheral, wherein one end of this first earth connection is electrically connected this first conducting block.
2. contact panel according to claim 1, it is characterized in that, separately comprise one second conducting block, to be arranged on this substrate and independent of outside those signal pins, wherein the other end of this first earth connection is electrically connected this second conducting block, and this second conducting block is used for and this chassics earth.
3. contact panel according to claim 1, it is characterized in that, separately comprise a pliability electric connector, be electrically connected to the plurality of signal pins, wherein this pliability electric connector has a grounding pin, and the other end of this first earth connection is electrically connected to this grounding pin.
4. contact panel according to claim 1, is characterized in that, separately comprises one second earth connection, is arranged on this substrate, and it is peripheral to be positioned at this first earth connection, and wherein one end of this second earth connection is electrically connected this first conducting block.
5. contact panel according to claim 4, it is characterized in that, separately comprise a pliability electric connector, be electrically connected to the plurality of signal pins, wherein this pliability electric connector has a grounding pin, and the other end of this first earth connection and the other end of this second earth connection are electrically connected this grounding pin respectively.
6. contact panel according to claim 4, it is characterized in that, separately comprise one second conducting block, to be arranged on this substrate and independent of outside those signal pins, wherein the other end of this first earth connection and the other end of this second earth connection are all electrically connected this second conducting block, and this second conducting block is used for and this chassics earth.
7. contact panel according to claim 4, it is characterized in that, separately comprise one second conducting block and a pliability electric connector, this second conducting block to be arranged on this substrate and independent of outside those signal pins, this pliability electric connector is electrically connected to the plurality of signal pins, and also there is a grounding pin, the other end of this first earth connection is electrically connected this second conducting block, and the other end of this second earth connection is electrically connected this grounding pin.
8. contact panel according to claim 1, it is characterized in that, separately comprise one second earth connection and a pliability electric connector, this second earth connection is arranged on this substrate and to be positioned at this first earth connection peripheral, this pliability electric connector is electrically connected to the plurality of signal pins, and also there is a grounding pin, the two ends of this second earth connection are electrically connected this grounding pin respectively.
9. contact panel according to claim 1, is characterized in that, those signal wiring are electrically connected between those signal pins and a touch-control sensing electrode layer.
10. a contactor control device, is characterized in that, comprises:
The contact panel of above-mentioned arbitrary claim;
One casing, this contact panel coated, and the first conducting block having that a grounding assembly is electrically connected this contact panel.
11. contactor control devices according to claim 10, is characterized in that, separately comprise a conducting connecting part, and this conducting connecting part is electrically connected this first conducting block to this grounding assembly.
12. contactor control devices according to claim 11, is characterized in that, this conducting connecting part comprises an elasticity connecting key, an elastic fastening plate and conducts electricity adhesion layer thrin.
13. contactor control devices according to claim 11, is characterized in that, this conducting connecting part system insert molding is connected with this grounding assembly in this casing.
14. contactor control devices according to claim 12, is characterized in that, this conduction adhesion layer comprises one of an optical cement and an optical adhesive tape with electric conductivity.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420705742.XU CN204302936U (en) | 2014-11-20 | 2014-11-20 | Contact panel and the contactor control device with this contact panel |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420705742.XU CN204302936U (en) | 2014-11-20 | 2014-11-20 | Contact panel and the contactor control device with this contact panel |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN204302936U true CN204302936U (en) | 2015-04-29 |
Family
ID=53108464
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201420705742.XU Expired - Fee Related CN204302936U (en) | 2014-11-20 | 2014-11-20 | Contact panel and the contactor control device with this contact panel |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN204302936U (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105607769A (en) * | 2014-11-20 | 2016-05-25 | 宸鸿科技(厦门)有限公司 | Touch panel and touch device with touch panel |
| CN105930010A (en) * | 2016-05-11 | 2016-09-07 | 华勤通讯技术有限公司 | Wiring method of sensor of touch screen and sensor of touch screen |
| CN105655379B (en) * | 2016-01-12 | 2019-03-22 | 上海天马微电子有限公司 | Array substrate and manufacturing method thereof |
-
2014
- 2014-11-20 CN CN201420705742.XU patent/CN204302936U/en not_active Expired - Fee Related
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105607769A (en) * | 2014-11-20 | 2016-05-25 | 宸鸿科技(厦门)有限公司 | Touch panel and touch device with touch panel |
| CN105607769B (en) * | 2014-11-20 | 2018-10-26 | 宸鸿科技(厦门)有限公司 | Touch panel and the touch device with the touch panel |
| CN105655379B (en) * | 2016-01-12 | 2019-03-22 | 上海天马微电子有限公司 | Array substrate and manufacturing method thereof |
| CN105930010A (en) * | 2016-05-11 | 2016-09-07 | 华勤通讯技术有限公司 | Wiring method of sensor of touch screen and sensor of touch screen |
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