CN206322130U - Electronic equipment, touching display screen, touch control component and its touch control conductive film - Google Patents
Electronic equipment, touching display screen, touch control component and its touch control conductive film Download PDFInfo
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- CN206322130U CN206322130U CN201621100885.3U CN201621100885U CN206322130U CN 206322130 U CN206322130 U CN 206322130U CN 201621100885 U CN201621100885 U CN 201621100885U CN 206322130 U CN206322130 U CN 206322130U
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- pin
- touch control
- transparent base
- conductive
- electrode lead
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Abstract
The utility model is related to a kind of electronic equipment, touching display screen, touch control component and its touch control conductive film, touch control conductive film includes transparent base, first conductive layer, first electrode lead, first pin, second conductive layer, second electrode lead and second pin, through hole is opened up at transparent base correspondence second pin, conductive material formation connector is filled in through hole again, the end of the second electrode lead positioned at second surface is set to be electrically connected by the conductive connector formed in through hole with the second pin positioned at first surface, because second pin and the first pin are respectively positioned on first surface, when therefore being bound with flexible PCB, without touch control conductive film is inverted, optimize binding operation, reduce the binding activity duration, reduce the technical requirements of bound device, reduce equipment cost.
Description
Technical field
The utility model is related to electronic technology field, more particularly to a kind of electronic equipment, touching display screen, touch control component
And its touch control conductive film.
Background technology
With the development of electronic technology, touch screen electronic installation is increasingly favored by young consumers.In general,
Diaphragm type touch screen electronic installation is usually one side circuit bilayer film or Double-side line single thin film structure.
Because Double-side line single thin film uses single thin film structure, slimming design can be realized in structure.But,
Pin of the Double-side line single thin film because being equipped with positive and negative in bindings bit so that in process of production because of wanting that positive and negative contraposition is bound
Ask, it is necessary to invert thin-film material in binding operation process, cause that binding operation contraposition is difficult, process is complicated, to bound device
Technical requirements it is high.
Utility model content
Based on this, it is necessary to can optimize binding operation, reduction bound device there is provided a kind of for above-mentioned technical problem
Electronic equipment, touching display screen, touch control component and its touch control conductive film of technical requirements.
A kind of touch control conductive film, including:
Transparent base, including first surface and the second surface back on the first surface;
First conductive layer, is arranged at the first surface of the transparent base;
First electrode lead, is arranged at the first surface, and one end of the first electrode lead is conductive with described first
Layer is connected;
First pin, is arranged at the first surface, the other end phase of first pin and the first electrode lead
Even;
Second conductive layer, is arranged at the second surface of the transparent base;
Second electrode lead, is arranged at the second surface, and one end of the second electrode lead is conductive with described second
Layer is connected;And
Second pin, is arranged to offer at the first surface, the transparent base correspondence second pin and runs through
Filled with conductive material formation connector, described second in the through hole of the first surface and the second surface, the through hole
The other end of contact conductor is electrically connected by the connector with the second pin.
In wherein one embodiment, also include:
First insulating protective layer, is covered in first conductive layer and the first electrode wire surface;
First tack coat, is arranged at the first surface of the transparent base, and first tack coat is exhausted around described first
The edge of edge protective layer is set, and positioned at the edge of first insulating protective layer and the transparent base first surface it
Between, the edge of first insulating protective layer is attached to the first surface of the transparent base, institute by first tack coat
State interval setting between the first tack coat and first conductive layer;
Second insulating protective layer, is covered in second conductive layer and the second electrode wire surface;And
Second tack coat, is arranged at the second surface of the transparent base, and second tack coat is exhausted around described second
The edge of edge protective layer is set, and positioned at the edge of second insulating protective layer and the transparent base second surface it
Between, the edge of second insulating protective layer is attached to the second surface of the transparent base, institute by second tack coat
State interval setting between the second tack coat and second conductive layer.
In wherein one embodiment, the quantity of the second pin is multiple, and multiple second pins are spaced apart
In the first surface, the through hole opened up at each second pin of the transparent base correspondence mutually staggers setting.
In wherein one embodiment, the through hole runs through the second pin, and the connector is extended to through described
Second pin.
In wherein one embodiment, the second surface is additionally provided with contiguous block, and the width of the contiguous block is more than institute
The width of second electrode lead is stated, the other end of the second electrode lead is connected by the contiguous block with the connector.
A kind of touch control component, including:
The 3rd pin and the 4th pin, the 3rd pin and institute are provided with flexible PCB, the flexible PCB
State the same side that the 4th pin is located at the flexible PCB;And
As above the touch control conductive film described in any one, first pin is mutually bound to realize with the 3rd pin
Electrical connection, the second pin is mutually bound with the 4th pin and electrically connected with realizing.
In wherein one embodiment, the first conductive adhesive layer is provided between first pin and the 3rd pin;
The second conductive adhesive layer is provided between the second pin and the 4th pin.
In wherein one embodiment, the through hole is through to second conductive adhesive layer, and the connector, which is extended to, to be passed through
The second pin is worn to connect to be joined directly together with the 4th pin.
A kind of touching display screen, including:
Touch control component described in display screen and as above any one, the display screen is stacked with the touch control component.
A kind of electronic equipment, including:
Touching display screen as described above.
Above-mentioned touch control component and its touch control conductive film at least have advantages below:
Through hole is opened up at transparent base correspondence second pin, then conductive material formation connector is filled in through hole, is made
Positioned at second surface second electrode lead end by the conductive connector that is formed in through hole with positioned at first surface
Second pin is electrically connected, because second pin and the first pin are respectively positioned on first surface, therefore when being bound with flexible PCB, nothing
Touch control conductive film need to be inverted, be optimized binding operation, reduced the binding activity duration, reduce the technology of bound device
It is required that, reduce equipment cost.
Brief description of the drawings
Fig. 1 is the structural representation of touch control component in an embodiment;
Fig. 2 is the partial sectional view in Fig. 1;
Fig. 3 is the partial sectional view of Fig. 2 another embodiment;
Fig. 4 is the partial sectional view at another place in Fig. 1.
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 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 is not by following public affairs
The limitation for the specific implementation opened.
It should be noted that when element is referred to as " being fixed on " another element, it can be directly on another element
Or can also have element placed in the middle.When an element is considered as " connection " another element, it can be directly connected to
To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " level ", " left side ",
For illustrative purposes only, it is unique embodiment 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 belonging to technology of the present utility model
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 it 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.
Electronic equipment in one embodiment, including a touching display screen.The touching display screen includes display screen and touch-control
Component, display screen is used to show the various information such as word, figure, image, animation, market, video, video signal.Display screen with
Touch control component is stacked.
Referring to Fig. 1, touch control component 10 include touch control conductive film 100 and flexible PCB 200, touch control conductive film 100 with
Flexible PCB 200 is electrically connected.Also referring to Fig. 2, touch control conductive film 100 is Double-side line single thin film structure.Specifically,
Touch control conductive film 100 is led including transparent base 110, the first conductive layer 120, first electrode lead 130, the first pin 140, second
Electric layer 150, second electrode lead 160, second pin 170 and connector 180.
Transparent base 110 includes first surface 111 and the second surface 112 back on first surface 111.Transparent base
110 can be made up of clear glass material, or transparent PET materials are made.
First conductive layer 120 is arranged at the first surface 111 of transparent base 110.Specific in present embodiment, first leads
Electric layer 120 can be formed for transparent conductive material by the processing procedure mode of exposure-development-etching.For example, the first conductive layer
120 can be the transparent materials such as ITO.First conductive layer 120 includes the first conductive pattern 121 of multiple elongated shapes, multiple
The spaced and parallel setting of first conductive pattern 121.
First electrode lead 130 is arranged at first surface 111, and one end of first electrode lead 130 and the first conductive layer
120 are connected, to realize that first electrode lead 130 is electrically connected with the first conductive layer 120.Specifically, the number of first electrode lead 130
Measure as many, one end of a first electrode lead 130 is connected with one first conductive pattern 121.First electrode lead 130 and first
Conductive pattern 121 is located in first surface 111.
First pin 140 is arranged at first surface 111, the other end phase of the first pin 140 and first electrode lead 130
Even.Therefore, the quantity of the first pin 140 is corresponding with the quantity of first electrode lead 130, and the first conductive pattern 121 passes through
One contact conductor 130 is electrically connected with the first pin 140.First pin 140 is used for binding with flexible PCB 200.
Second conductive layer 150 is arranged at the second surface 112 of transparent base 110, therefore the first conductive layer 120 is led with second
Electric layer 150 is located at the not homonymy of transparent base 110 respectively.Second conductive layer 150 can for transparent conductive material by exposure-
The processing procedure mode of development-etching is formed.For example, the second conductive layer 150 can be the transparent materials such as ITO.Second conductive layer 150 is wrapped
The second conductive pattern 151 of multiple elongated shapes is included, multiple second conductive patterns 151 are spaced and parallel to be set.
Second electrode lead 160 is arranged at second surface 112, and one end of second electrode lead 160 and the second conductive layer
150 are connected, to realize that second electrode lead 160 is electrically connected with the second conductive layer 150.Specifically, the number of second electrode lead 160
Measure as many, one end of a second electrode lead 160 is connected with one second conductive pattern 151.Second electrode lead 160 and second
Conductive pattern 151 is located in second surface 112.
Second pin 170 is arranged at first surface 111, therefore the pin 140 of second pin 170 and first is located at transparent base
110 the same side.Offered at the correspondence second pin 170 of transparent base 110 through first surface 111 and second surface 112
Filled with conductive material formation connector 180 in through hole 110a, through hole 110a.Therefore, connector 180 possesses electric conductivity.The
The other end of two contact conductors 160 is electrically connected by connector 180 with second pin 170.
Specifically, through hole 110a is cylinder, is easy to conductive material to adhere on through hole 110a hole wall.Conductive material can
Think metal material.
The quantity of second pin 170 is multiple, and a second pin 170 is electrically connected with a second electrode lead 160.Multiple
Two pins 170 are spaced apart the through hole 110a opened up at first surface 111, each second pin 170 of the correspondence of transparent base 110
Mutually stagger setting.That is, on the no longer same straight lines of through hole 110a on transparent base 110, after preventing that transparent base 110 from punching,
There is stress concentration and produce jackknifing phenomenon.
In the embodiment shown in fig. 3, through hole 110a runs through second pin 170, and connector 180 is extended to through second pin
170, therefore connector 180 is embedded in second pin 170.The electric conductivity of connector 180 and second pin 170 can not only be increased
Can, moreover it is possible to increase the adhesive force between connector 180 and second pin 170 and transparent base 110.
Second surface 112 is additionally provided with contiguous block 190, and the width of contiguous block 190 is more than the width of second electrode lead 160
Degree, the other end of second electrode lead 160 is connected by contiguous block 190 with connector 180.Because the width of contiguous block 190 is big
In the width of second electrode lead 160, therefore second electrode lead 160 by contiguous block 190 with connector 180 when being connected, can
To increase the area that connector 180 is contacted with contiguous block 190, so as to ensure the conduction of second electrode lead 160 and contiguous block 190
Performance.
The 3rd pin (not shown) and the 4th pin 210, the 3rd pin and the 4th pin are provided with flexible PCB 200
210 are located at the same side of flexible PCB 200.First pin 140 is mutually bound with the 3rd pin to be electrically connected with realizing, second draws
Pin 170 is electrically connected with the 4th mutually binding of pin 210 with realizing.
Specifically, the first conductive adhesive layer is provided between the first pin 140 and the 3rd pin, the first conductive adhesive layer both had
Electric conductivity, has viscosity again, therefore can both ensure the viscosity between the first pin 140 and the 3rd pin, can ensure again
Electric conductivity between first pin 140 and the 3rd pin.First conductive adhesive layer can be conducting particles glue.
The second conductive adhesive layer 300 is provided between the pin 210 of second pin 170 and the 4th, the second conductive adhesive layer 300 both had
Have conductivity, there is viscosity again, therefore can both ensure the viscosity between the pin 210 of second pin 170 and the 4th, again can be with
Ensure the electric conductivity between the pin 210 of second pin 170 and the 4th.Second conductive adhesive layer 300 can be conducting particles glue.
In the embodiment shown in fig. 3, through hole 110a is through to the second conductive adhesive layer 300, and connector 180, which is extended to, to be run through
Second pin 170 is connect with being joined directly together with the 4th pin 210.
Also referring to Fig. 4, specific in present embodiment, touch control conductive film 100 also includes the first insulating protective layer
410th, the first tack coat 420, the second insulating protective layer 430 and the second tack coat 440.
First insulating protective layer 410 is covered in the first conductive layer 120 and the surface of first electrode lead 130.Specifically, first
The area of insulating protective layer 410 is greater than the face of the first conductive layer 120 and the allomeric function circuit of the formation of first electrode lead 130
Product, to ensure the protection of 410 pair of first conductive layer 120 of the first insulating protective layer and first electrode lead 130, protection circuit not by
Oxidation, isolates aqueous vapor, improves the reliability of product.First insulating protective layer 410 can be by dielectric ink or photosensitive resin dry film
Formed.
First tack coat 420 is arranged at the first surface 111 of transparent base 110, and the first tack coat 420 is around the first insulation
The edge of protective layer 410 is set, and positioned at the edge of the first insulating protective layer 410 and transparent base 110 first surface 111 it
Between.The edge of first insulating protective layer 410 is attached to the first surface 111 of transparent base 110 by the first tack coat 420, the
One tack coat 420 is used to increase the adhesive force between the first insulating protective layer 410 and transparent base.
Interval setting between first tack coat 420 and the first conductive layer 120.First tack coat 420 and the first conductive layer 120
Material is identical, and with the first conductive layer 120 while being formed at the first surface 111 of transparent base 110.Because increased first glues
Tie layer 420 identical with the material of the first conductive layer 120, be transparent conductive material, and the first tack coat 420 is not conductive with first
Layer 120 is connected, it is possible to influence of the electrostatic of isolation periphery to the first conductive layer 120, and the first tack coat 420 and first
Conductive layer 120 is formed simultaneously by same process, can simplify processing step, improves production efficiency.
Specific in present embodiment, the first tack coat 420 includes multiple spaced first coherent mass 421.First
Coherent mass 421 is generally rectangular shaped, and multiple first coherent mass 421 surround the big rectangular shape of the first insulating protective layer 410 jointly.Cause
This, the first insulating protective layer 410 is attached on transparent base by small the first rectangular-shaped coherent mass 421 one by one, when wherein
When one or some first coherent mass 421 come off, it is unlikely to whole first insulating protective layer 410 of influence and is taken off from transparent base
Fall.
Specific in present embodiment, the part of the first tack coat 420 be located at the edge of the first insulating protective layer 410 with it is transparent
Between base material 110, remainder exposes to the first insulating protective layer 410.It therefore, it can be effectively isolated the electrostatic of periphery to first
The influence of conductive layer 120.Certainly, in other embodiments, the first tack coat 420 can also be entirely located in the first insulation guarantor
Between the edge and transparent base 110 of sheath 410, i.e., the whole face of the first tack coat 420 is connected with the first insulating protective layer 410,
Increase the adhesive force between the first tack coat 420 and the first insulating protective layer 410.
Second insulating protective layer 430 is covered in the second conductive layer 150 and the surface of second electrode lead 160.Specifically, second
The area of insulating protective layer 430 is greater than the face of the second conductive layer 150 and the allomeric function circuit of the formation of second electrode lead 160
Product, to ensure the protection of 430 pair of second conductive layer 150 of the second insulating protective layer and second electrode lead 160, protection circuit not by
Oxidation, isolates aqueous vapor, improves the reliability of product.Second insulating protective layer 430 can be by dielectric ink or photosensitive resin dry film
Formed.
Second tack coat 440 is arranged at the second surface 112 of transparent base 110, and the second tack coat 440 is around the second insulation
The edge of protective layer 430 is set, and positioned at the edge of the second insulating protective layer 430 and transparent base 110 second surface 112 it
Between.The edge of second insulating protective layer 430 is attached to the second surface 112 of transparent base 110 by the second tack coat 440, the
Two tack coats 440 are used to increase the adhesive force between the second insulating protective layer 430 and transparent base.
Interval setting between second tack coat 440 and the second conductive layer 150.Second tack coat 440 and the second conductive layer 150
Material is identical, and with the second conductive layer 150 while being formed at the second surface 112 of transparent base 110.Because increased second glues
Tie layer 440 identical with the material of the second conductive layer 150, be transparent conductive material, and the second tack coat 440 is not conductive with second
Layer 150 is connected, it is possible to while isolate influence of the electrostatic to the second conductive layer of periphery, and the second tack coat 440 and the
Two conductive layers 150 are formed simultaneously by same process, can simplify processing step, improve production efficiency.
Specific in present embodiment, the second tack coat 440 includes multiple spaced second coherent mass (not shown).
Second coherent mass is generally rectangular shaped, and multiple second coherent mass surround the big rectangular shape of the second insulating protective layer 430 jointly.Cause
This, the second insulating protective layer 430 is attached on transparent base by small the second rectangular-shaped coherent mass one by one, when one of them
Or some second coherent mass are when coming off, it is unlikely to whole second insulating protective layer 430 of influence and is come off from transparent base.
Specific in present embodiment, the part of the second tack coat 440 be located at the edge of the second insulating protective layer 430 with it is transparent
Between base material 110, remainder exposes to the second insulating protective layer 430.It therefore, it can be effectively isolated the electrostatic of periphery to second
The influence of conductive layer 150.Certainly, in other embodiments, the second tack coat 440 can also be entirely located in the second insulation guarantor
Between the edge and transparent base 110 of sheath 430, i.e., the whole face of the second tack coat 440 is connected with the second insulating protective layer 430,
Increase the adhesive force between the second tack coat 440 and the second insulating protective layer 430.
By setting the first tack coat 420 around the edge of the first insulating protective layer 410, and the first tack coat 420 is located at
Between the edge and transparent base 110 of first insulating protective layer 410, the edge of the first insulating protective layer 410 is bonded by first
Layer 420 is attached on transparent base 110, set second tack coat 440 at the edge for surrounding the second insulating protective layer 430, second
Tack coat 440 is located between the edge of the second insulating protective layer 430 and transparent base 110, the edge of the second insulating protective layer 430
It is attached to by the second tack coat 440 on transparent base 110, therefore the first tack coat 420, the second tack coat 440 and transparent base
Adhesive force, the first insulating protective layer 410 and the first tack coat 420, the second insulating protective layer 430 and second between material 110 is viscous
Adhesive force between knot layer 440 is all higher than the first insulating protective layer 410, the second insulating protective layer 430 and is attached directly to transparent base
Adhesive force when on material 110, and the first tack coat 420, the second tack coat 440 itself have certain thickness, and the first insulation is protected
The tensile force that sheath 410, the edge of the second insulating protective layer 430 are produced is less than the first insulating protective layer 410, the second insulation protection
Layer 430 is attached directly to the tensile force produced when on transparent base 110, it is possible to prevente effectively from the first insulating protective layer 410, second
There is obscission in the outline edge of insulating protective layer 430.
Above-mentioned touch control component 10 and its touch control conductive film 100 at least have advantages below:
Through hole 110a is opened up at the correspondence second pin 170 of transparent base 110, then conductive material is filled in through hole 110a
Connector 180 is formed, the end of the second electrode lead 160 positioned at second surface 112 is passed through leading for being formed in through hole 110a
The connector 180 of electricity is electrically connected with the second pin 170 positioned at first surface 111, due to the pin of second pin 170 and first
140 are respectively positioned on first surface 111, therefore when being bound with flexible PCB 200, it is excellent without touch control conductive film 100 is inverted
Binding operation is changed, has reduced the binding activity duration, reduce the technical requirements of bound device, reduce equipment cost.
Embodiment described above only expresses several embodiments of the present utility model, and it describes more specific and detailed,
But therefore it 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 touch control conductive film, it is characterised in that including:
Transparent base, including first surface and the second surface back on the first surface;
First conductive layer, is arranged at the first surface of the transparent base;
First electrode lead, is arranged at the first surface, one end of the first electrode lead and the first conductive layer phase
Even;
First pin, is arranged at the first surface, and first pin is connected with the other end of the first electrode lead;
Second conductive layer, is arranged at the second surface of the transparent base;
Second electrode lead, is arranged at the second surface, one end of the second electrode lead and the second conductive layer phase
Even;And
Second pin, is arranged at the first surface, the transparent base correspondence second pin and offers through described
Filled with conductive material formation connector, the second electrode in the through hole of first surface and the second surface, the through hole
The other end of lead is electrically connected by the connector with the second pin.
2. touch control conductive film according to claim 1, it is characterised in that also include:
First insulating protective layer, is covered in first conductive layer and the first electrode wire surface;
First tack coat, is arranged at the first surface of the transparent base, and first tack coat is protected around the described first insulation
The edge of sheath is set, and between the edge of first insulating protective layer and the first surface of the transparent base, institute
The edge for stating the first insulating protective layer is attached to the first surface of the transparent base, described first by first tack coat
Interval setting between tack coat and first conductive layer;
Second insulating protective layer, is covered in second conductive layer and the second electrode wire surface;And
Second tack coat, is arranged at the second surface of the transparent base, and second tack coat is protected around the described second insulation
The edge of sheath is set, and between the edge of second insulating protective layer and the second surface of the transparent base, institute
The edge for stating the second insulating protective layer is attached to the second surface of the transparent base, described second by second tack coat
Interval setting between tack coat and second conductive layer.
3. touch control conductive film according to claim 1, it is characterised in that the quantity of the second pin be it is multiple, it is multiple
The second pin is spaced apart the through hole phase opened up at the first surface, each second pin of the transparent base correspondence
Mutual setting of staggering.
4. touch control conductive film according to claim 1, it is characterised in that the through hole runs through the second pin, described
Connector is extended to through the second pin.
5. touch control conductive film according to claim 1, it is characterised in that the second surface is additionally provided with contiguous block, institute
The width for stating contiguous block is more than the width of the second electrode lead, and the other end of the second electrode lead passes through the connection
Block is connected with the connector.
6. a kind of touch control component, it is characterised in that including:
It is provided with the 3rd pin and the 4th pin on flexible PCB, the flexible PCB, the 3rd pin and described the
Four pins are located at the same side of the flexible PCB;And
Touch control conductive film as described in any one in claim 1 to 5, first pin is mutually tied up with the 3rd pin
Determine to realize electrical connection, the second pin is mutually bound with the 4th pin and electrically connected with realizing.
7. touch control component according to claim 6, it is characterised in that set between first pin and the 3rd pin
It is equipped with the first conductive adhesive layer;The second conductive adhesive layer is provided between the second pin and the 4th pin.
8. touch control component according to claim 7, it is characterised in that the through hole is through to second conductive adhesive layer,
The connector is extended to be connect through the second pin with being joined directly together with the 4th pin.
9. a kind of touching display screen, it is characterised in that including:
Display screen and the touch control component as described in any one in claim 6 to 8, the display screen and touch control component layer
It is folded to set.
10. a kind of electronic equipment, it is characterised in that including:
Touching display screen as claimed in claim 9.
Priority Applications (1)
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CN201621100885.3U CN206322130U (en) | 2016-09-30 | 2016-09-30 | Electronic equipment, touching display screen, touch control component and its touch control conductive film |
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CN201621100885.3U CN206322130U (en) | 2016-09-30 | 2016-09-30 | Electronic equipment, touching display screen, touch control component and its touch control conductive film |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107621913A (en) * | 2017-09-15 | 2018-01-23 | 张家港康得新光电材料有限公司 | A kind of touch control film and preparation method thereof |
CN111538440A (en) * | 2020-04-27 | 2020-08-14 | 南昌欧菲显示科技有限公司 | Touch panel, preparation method of touch panel and electronic equipment |
-
2016
- 2016-09-30 CN CN201621100885.3U patent/CN206322130U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107621913A (en) * | 2017-09-15 | 2018-01-23 | 张家港康得新光电材料有限公司 | A kind of touch control film and preparation method thereof |
CN107621913B (en) * | 2017-09-15 | 2020-11-03 | 张家港康得新光电材料有限公司 | Touch film and preparation method thereof |
CN111538440A (en) * | 2020-04-27 | 2020-08-14 | 南昌欧菲显示科技有限公司 | Touch panel, preparation method of touch panel and electronic equipment |
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