CN208985133U - A kind of touch-control sensor and a kind of touch-control display panel - Google Patents
A kind of touch-control sensor and a kind of touch-control display panel Download PDFInfo
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- CN208985133U CN208985133U CN201822176695.5U CN201822176695U CN208985133U CN 208985133 U CN208985133 U CN 208985133U CN 201822176695 U CN201822176695 U CN 201822176695U CN 208985133 U CN208985133 U CN 208985133U
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- glass
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- conductive mesh
- control sensor
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Abstract
The utility model discloses a kind of touch-control sensors, and wherein substrate is AG glass.Since the rough surface of AG glass has rough structure, this rough structure can continue as far as second insulating layer, so that the first conductive mesh layer and the second conductive mesh layer all have rough structure, allow the first conductive mesh layer and the second conductive mesh layer that diffusing reflection occurs to light, to significantly reduce the reflectivity of the first conductive mesh layer and the second conductive mesh layer, so that conductive grid lines have lower visuality, so that naked eyes can not identify conductive grid lines easily, to promote user experience.Simultaneously because being located at the outermost dielectric layer of touch-control sensor backwards to one side surface of AG glass is flat surface, therefore the mist degree as brought by AG glass can also be eliminated, and not interfere with the transmitance of touch-control sensor.The utility model embodiment additionally provides a kind of touch-control display panel, equally has above-mentioned beneficial effect.
Description
Technical field
The utility model relates to technical field of touch control, more particularly to a kind of touch-control sensor and a kind of touch-control display surface
Plate.
Background technique
As the continuous progress of science and technology in recent years and touch-control show the development of product industry, touch-control sensor either from
Size or performance etc. all achieve great progress.Correspondingly, details of the user for touch-control product, appearance etc. have
Higher requirement.
In recent years, metal grill (metal mesh) class touch-control sensor is simple by its low resistance, integration, processing procedure
Advantage in the market more and more attention has been paid to.At this stage, mainly risen in metal grill electric action conductive layer be usually with
Copper, aluminium etc. are main material, this is but also metal grill has opaque characteristic and reflectivity with higher.Even if
The line width of plain conductor has accomplished that 5 μm or less still also can easily be seen by human eye in metal grill.
So a kind of touch-control sensor how is provided, so that it is this that metal grill lines therein, which have lower visuality,
Field technical staff's urgent problem.
Utility model content
The purpose of the utility model is to provide a kind of touch-control sensors, and wherein conductive grid lines have lower visual
Property;The another object of the utility model is to provide a kind of touch-control display panel, wherein conductive grid lines have it is lower can
Depending on property.
In order to solve the above technical problems, the utility model provides a kind of touch-control sensor, comprising:
AG glass;Wherein, described at least one surface of AG glass is rough surface;
Positioned at the first conductive mesh layer of the rough surface;
Positioned at first conductive mesh layer backwards to the first insulating layer of one side surface of AG glass;
Positioned at first insulating layer backwards to the second conductive mesh layer of one side surface of AG glass;
Positioned at second conductive mesh layer backwards to the second insulating layer of one side surface of AG glass;
Positioned at the second insulating layer backwards to the dielectric layer of one side surface of AG glass;Wherein, the dielectric layer is backwards
One side surface of AG glass is flat surface.
Optionally, the dielectric layer is rupture pressure disc.
Optionally, the dielectric layer is OCA layers.
Optionally, the thickness of the dielectric layer is not less than 50 μm.
Optionally, the value range of the surface roughness of the AG glass is 0.06 μm to 0.1 μm, including endpoint value;Institute
The value range for stating the glossiness of AG glass is 40% to 50%, including endpoint value;The value range of the mist degree of the AG glass
It is 1.5% to 2%, including endpoint value;The value range of the AG thickness degree of the AG glass is 1.5 μm to 2.5 μm including endpoint
Value.
Optionally, first conductive mesh layer is located at the visible area of the AG glass surface;
The touch-control sensor further includes the ink layer positioned at the AG glass surface non-visible area domain.
Optionally, the ink layer is black ink layer.
Optionally, the touch-control sensor further include:
Positioned at the dielectric layer backwards to the cover board of one side surface of AG glass.
Optionally, the cover board is tempered glass cover plate.
The utility model additionally provides a kind of touch-control display panel, including display screen and touch-control as described in any one of the above embodiments
Inductor.
A kind of touch-control sensor provided by the utility model, including AG glass;Wherein, described at least one table of AG glass
Face is rough surface;Positioned at the first conductive mesh layer of the rough surface;Positioned at first conductive mesh layer backwards to described
First insulating layer of one side surface of AG glass;Positioned at first insulating layer backwards to the second conduction of one side surface of AG glass
Clathrum;Positioned at second conductive mesh layer backwards to the second insulating layer of one side surface of AG glass;Positioned at described second
Dielectric layer of the insulating layer backwards to one side surface of AG glass;Wherein, the dielectric layer is backwards to one side surface of AG glass
Flat surface.
Since the rough surface of AG glass has rough structure, simultaneously because the first conductive mesh layer, first are absolutely
Edge layer, the second conductive mesh layer and second insulating layer are the rough surface for being successively successively set on AG glass, this bumps
Uneven structure can continue as far as second insulating layer from the rough surface of AG glass, so that the first conductive mesh layer and second is led
Mesh layer all has because the rough surface of AG glass is formed by rough structure, so that the first conductive mesh layer and
To light diffusing reflection can occur for two conductive mesh layers, to significantly reduce the first conductive mesh layer and the second conductive mesh layer
Reflectivity so that conductive grid lines have lower visuality so that naked eyes can not identify conductive grid lines easily, from
And promote user experience.Simultaneously because being located at the outermost dielectric layer of touch-control sensor backwards to one side surface of AG glass is smooth table
Therefore face, the mist degree as brought by AG glass can also be eliminated, the transmitance of touch-control sensor is not interfered with.
The utility model embodiment additionally provides a kind of touch-control display panel, equally has above-mentioned beneficial effect, herein not
It is repeated again.
Detailed description of the invention
For the clearer technical solution for illustrating the utility model embodiment or the prior art, below will to embodiment or
Attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only
Some embodiments of the utility model, for those of ordinary skill in the art, without creative efforts,
It is also possible to obtain other drawings based on these drawings.
Fig. 1 is a kind of structural schematic diagram of touch-control sensor provided by the utility model embodiment;
Fig. 2 is a kind of structural schematic diagram of specific touch-control sensor provided by the utility model embodiment.
In figure: 1.AG glass, 2. first conductive mesh layers, 3. first insulating layers, 4. second conductive mesh layers, 5. second are absolutely
Edge layer, 6. dielectric layers, 7. ink layers, 8. cover boards.
Specific embodiment
The core of the utility model is to provide a kind of touch-control sensor.In the prior art, it is mainly risen in metal grill
The conductive layer of electric action is usually with copper, aluminium etc. for main material, this but also the conductor wire of metal grill have it is impermeable
Bright characteristic and reflectivity with higher.Due to reflectivity height, so that metal grill lines visuality with higher.
And a kind of touch-control sensor provided by the utility model, since the rough surface of AG glass is with rough
Structure, simultaneously because the first conductive mesh layer, the first insulating layer, the second conductive mesh layer and second insulating layer be successively according to
The secondary rough surface that AG glass is arranged in, this rough structure can continue as far as second from the rough surface of AG glass
Insulating layer, so that the first conductive mesh layer and the second conductive mesh layer all have because the rough surface of AG glass is formed by bumps
Uneven structure allows the first conductive mesh layer and the second conductive mesh layer that diffusing reflection occurs to light, to substantially drop
The low reflectivity of first conductive mesh layer and the second conductive mesh layer, so that conductive grid lines have lower visuality,
So that naked eyes can not identify conductive grid lines easily, to promote user experience.Simultaneously because it is outermost to be located at touch-control sensor
The dielectric layer of side is flat surface backwards to one side surface of AG glass, therefore the mist degree as brought by AG glass can also be eliminated, will not
Influence the transmitance of touch-control sensor.
In order to make those skilled in the art better understand the scheme of the utility model, with reference to the accompanying drawing and specific implementation
The utility model is described in further detail for mode.Obviously, described embodiment is only the utility model a part
Embodiment, instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art are not doing
Every other embodiment obtained under the premise of creative work out, fall within the protection scope of the utility model.
Referring to FIG. 1, Fig. 1 is a kind of structural schematic diagram of touch-control sensor provided by the utility model embodiment.
Referring to Fig. 1, in the utility model embodiment, the touch-control sensor includes AG glass 1;Wherein, the AG glass
At least one surface of glass 1 is rough surface;Positioned at the first conductive mesh layer 2 of the rough surface;It is conductive positioned at described first
First insulating layer 3 of the clathrum 2 backwards to 1 one side surface of AG glass;Positioned at first insulating layer 3 backwards to the AG glass
Second conductive mesh layer 4 of 1 one side surfaces;Positioned at second conductive mesh layer 4 backwards to the of 1 one side surface of AG glass
Two insulating layers 5;Positioned at the second insulating layer 5 backwards to the dielectric layer 6 of 1 one side surface of AG glass;Wherein, the dielectric layer
6 backwards to 1 one side surface of AG glass be flat surface.
Above-mentioned AG glass 1 is also commonly known as anti-reflective glass or glare proof glass, so-called AG glass 1, i.e., in glass substrate
At least one surface is rough surface, which has rough structure, which is also commonly referred to as AG
Layer.When light exposes to the rough structure, the diffusing reflection of light can be caused, so that having the uneven structure
Component, such as AG glass 1 rough surface reflectivity it is very low, reflectivity is close to 0.
Above-mentioned first conductive mesh layer 2 is located at the rough surface of AG glass 1.So-called first conductive mesh layer 2, i.e. setting exist
The conductive mesh layer of 1 rough surface of AG glass.First conductive mesh layer 2 is usually one layer of netted knot being made of conductor wire
Structure.The contents such as specific material and specific structure in relation to the first conductive mesh layer 2 can refer to the prior art, herein no longer into
Row repeats.
Since the rough surface of AG glass 1 has rough structure, corresponding above-mentioned first conductive mesh layer 2 itself
There is rough structure, so that the diffusing reflection of light can be caused when light exposes to first conductive mesh layer 2, from
And make the reflectivity of the first conductive mesh layer 2 very low, so that the first conductive mesh layer 2 has lower visuality.
Above-mentioned first insulating layer 3 is located at the first conductive mesh layer 2 backwards to 1 one side surface of AG glass.First insulating layer 3 is logical
Often also referred to as OC (Over Coat) layer, primarily serves the effect of insulation and protection, prevent above-mentioned first conductive mesh layer 2 with
Short circuit occurs between following second conductive mesh layers 4, while playing the role of protecting conductive mesh layer.It should be noted that by
The touch-control sensor provided by the utility model embodiment usually requires cooperation display and uses, and touch-control sensor usually requires
It keeps to the higher transmitance of light, the generally transparent insulating layer of above-mentioned first insulating layer 3.Specific material in relation to the first insulating layer 3
Matter can refer to the prior art, in the utility model embodiment and be not specifically limited.
It should be noted that since above-mentioned first conductive mesh layer 2 has a rough structure, it is corresponding this first absolutely
Edge layer 3 equally has rough structure.
Above-mentioned second conductive mesh layer 4 is located at the first insulating layer 3 backwards to 1 one side surface of AG glass.With the first conductive grid
The first insulating layer 3 is arranged in backwards to the conductive mesh of 1 one side surface of AG glass in 2 similar, so-called second conductive mesh layer 4 of layer
Compartment.Second conductive mesh layer 4 is generally also one layer of reticular structure being made of conductor wire.It should be noted that usual feelings
It needs mutually to align between the second conductive mesh layer 4 and above-mentioned first conductive mesh layer 2 under condition, so-called contraposition typically refers to first
The grid element center phase that the cross one another point of conductor wire needs to constitute with conductor wire in the second conductive mesh layer 4 in conductive mesh layer 2
Alignment, with by forming capacitor between above-mentioned first conductive mesh layer 2 and the second conductive mesh layer 4, to realize to being used to touch
The positioning in region.Under normal conditions, the first conductive mesh layer 2 described in the utility model embodiment is usually the channel RX,
Referred to as induction channels;And the second conductive mesh layer 4 is usually the channel TX, also referred to as drives channel;Between the channel RX and the channel TX
Form capacitor.
The contents such as specific material and specific structure in relation to the second conductive mesh layer 4 can refer to the prior art, herein
No longer repeated.Concrete operating principle in relation to conductive grid class touch-control sensor can refer to the prior art, herein equally
No longer repeated.
Since above-mentioned first insulating layer 3 has rough structure, corresponding above-mentioned second conductive mesh layer 4 itself is i.e.
With rough structure, so that the diffusing reflection of light can be caused when light exposes to second conductive net layer, so that
The reflectivity of second conductive mesh layer 4 is very low, so that the second conductive mesh layer 4 has lower visuality.
Above-mentioned second insulating layer 5 is located at the second conductive mesh layer 4 backwards to 1 one side surface of AG glass.With 3 phase of the first insulating layer
Similar, which is also commonly referred to as OC layers, primarily serves the effect of insulation and protection, and it is above-mentioned to primarily serve protection
The effect of second conductive mesh layer 4.It should be noted that the touch-control sensor as provided by the utility model embodiment is usual
It needs that display is cooperated to use, touch-control sensor usually requires to keep to the higher transmitance of light, and above-mentioned second insulating layer 5 is usually
For transparent insulating layer.Specific material in relation to second insulating layer 5 can refer to the prior art, in the utility model embodiment simultaneously
It is not specifically limited.
It should be noted that since above-mentioned second conductive mesh layer 4 has a rough structure, it is corresponding this second absolutely
Edge layer 5 equally has rough structure.
Above-mentioned dielectric layer 6 is located at second insulating layer 5 backwards to 1 one side surface of AG glass;Wherein, the dielectric layer 6 is backwards to AG glass
1 one side surface of glass is flat surface.From the coarse of AG glass 1 in the touch-control sensor as provided by the utility model embodiment
Surface to above-mentioned second insulating layer 5 all has rough structure, can have biggish mist degree, will affect the transmission of light
Rate, so that the transmitance of light is lower.And above-mentioned dielectric layer 6 is mainly used for eliminating by 1 rough structure institute band of AG glass
The mist degree come influences, so that touch-control sensor provided by the utility model embodiment has normal light transmission rate.Specifically,
Above-mentioned dielectric layer 6 is flat surface backwards to 1 one side surface of AG glass, which is also commonly referred to as smooth surface.On give an account of
Matter layer 6 can balance out rough structure possessed by second insulating layer 5, can balance out as brought by AG glass 1
Uneven structure, so that it is flat surface that touch-control sensor, which is ultimately towards extraneous surface, to eliminate since AG glass 1 is recessed
Mist degree brought by the structure of convex injustice influences, so that touch-control sensor provided by the utility model embodiment has normally
Light transmission rate.
Specifically, above-mentioned dielectric layer 6 can be specially rupture pressure disc or OCA layers in the utility model embodiment.It is being arranged
During, above-mentioned rupture pressure disc and OCA (Optically ClearAdhesive, optical cement) are in a liquid state first, can fill
Structure of the second insulating layer 5 backwards to 1 side surface irregularity of AG glass;After cured, above-mentioned to be made of rupture pressure disc or OCA
Dielectric layer 6 is flat surface backwards to 1 one side surface of AG glass.In order to enable above-mentioned dielectric layer 6 can be effectively eliminated by AG
Mist degree brought by glass 1, the thickness of above-mentioned dielectric layer 6 are usually required not less than 50 μm.Certainly, in the utility model embodiment
In can also select the dielectric layer 6 of other materials, as long as can guarantee dielectric layer 6 backwards to 1 one side surface of AG glass be flat surface
, the specific material in relation to dielectric layer 6 in the utility model embodiment and is not specifically limited.It should be noted that working as
When selecting the so-called dielectric layer 6 of rupture pressure disc in the utility model embodiment, explosion prevention function can be increased in touch-control sensor;When
Selected in the utility model embodiment OCA layer as dielectric layer 6 when, the cost of touch-control sensor can be significantly reduced.
Specifically, in the utility model embodiment, in order to guarantee above-mentioned first conductive mesh layer 2 and the second conductive mesh
Compartment 4 all has lower visuality, in order to guarantee the surface of the first conductive mesh layer 2 and the second conductive mesh layer 4
Effectively to carry out diffusing reflection to light, the value range of the surface roughness of above-mentioned AG glass 1 can be 0.06 μm to 0.1 μm, packet
Include endpoint value;The value range of the glossiness of the AG glass 1 can be 40% to 50%, including endpoint value;The AG glass 1
The value range of mist degree can be 1.5% to 2%, including endpoint value;The value range of the AG thickness degree of the AG glass 1 can
Think 1.5 μm to 2.5 μm including endpoint value.The parameters of AG glass 1 are arranged in correspondence in the utility model embodiment
Above range in, it is ensured that the surface of the first conductive mesh layer 2 and the second conductive mesh layer 4 can effectively to light carry out
Diffusing reflection.
A kind of touch-control sensor provided by the utility model embodiment, since the rough surface of AG glass 1 has bumps
Uneven structure, simultaneously because the first conductive mesh layer 2, the first insulating layer 3, the second conductive mesh layer 4 and second insulating layer 5
It is the rough surface for being successively successively set on AG glass 1, this rough structure can be from the rough surface one of AG glass 1
Directly extend to second insulating layer 5 so that the first conductive mesh layer 2 and the second conductive mesh layer 4 all have it is coarse because of AG glass 1
Surface is formed by rough structure, and light occurs for the first conductive mesh layer 2 and the second conductive mesh layer 4
Diffusing reflection, so that the reflectivity of the first conductive mesh layer 2 and the second conductive mesh layer 4 is significantly reduced, so that conductive mesh ruling
Item has lower visuality, so that naked eyes can not identify conductive grid lines easily, to promote user experience.Simultaneously because
Positioned at the outermost dielectric layer 6 of touch-control sensor, 1 one side surface of AG glass is flat surface backwards, as brought by AG glass 1
Therefore mist degree can also be eliminated, the transmitance of touch-control sensor is not interfered with.
It will be in following utility model embodiments in relation to a kind of specific structure of touch-control sensor provided by the utility model
In be described in detail.
Referring to FIG. 2, Fig. 2 is a kind of structural representation of specific touch-control sensor provided by the utility model embodiment
Figure.
It is different from above-mentioned utility model embodiment, the utility model embodiment is on the basis of above-mentioned utility model embodiment
On, further the structure of touch-control sensor is specifically limited.Remaining content in above-mentioned utility model embodiment into
It has gone and has been discussed in detail, no longer repeated herein.
Referring to fig. 2, in the utility model embodiment, first conductive mesh layer 2 is usually located at 1 table of AG glass
The visible area in face;Correspondingly, above-mentioned first insulating layer 3, the second conductive mesh layer 4, second insulating layer 5 and dielectric layer 6
It is respectively positioned on the visible area of touch-control sensor.At this point, the touch-control sensor can also include non-positioned at 1 surface of AG glass
The ink layer 7 of visible area.
In the utility model embodiment, touch-control sensor is divided into visible area and non-visible area domain.Above-mentioned visible area
It is provided with the induction region being made of the first conductive mesh layer 2, the second conductive mesh layer 4 and associated components, the induction zone
The region that domain is used to touch user positions;And it is usually provided in above-mentioned non-visible area domain and above-mentioned conductive mesh layer electricity
The lead of connection, drives portion of the IC etc. for electric signal caused by above-mentioned induction region to be transmitted and identified at FPC
Part, to realize the identification to user's touch area.Under normal conditions, above-mentioned visible area is usually located in touch-control sensor
The heart, non-visible area domain usually surround above-mentioned visible area in a ring.
And in the utility model embodiment, in order to cover the components such as the lead that non-visible area domain is arranged in, FPC, so that
Touch-control sensor is more beautiful, and the non-visible area domain on above-mentioned 1 surface of AG glass is usually provided with ink layer 7;Specifically, the oil
Layer of ink 7 is usually black ink layer 7.Above-mentioned ink layer 7 can play the role of decoration, masking setting touch-control sensor is non-can
The components such as lead, the FPC of viewed area, so that touch-control sensor is more beautiful.
In the utility model embodiment, the touch-control sensor can also include being located at the dielectric layer 6 backwards to described
The cover board 8 of 1 one side surface of AG glass.Above-mentioned cover board 8 is usually located at the outermost layer of entire touch-control sensor, i.e., the cover board 8 is backwards
1 one side surface of AG glass is usually directly contacted with external environment, with protect the first conductive mesh layer 2 in entire touch-control sensor,
The structures such as the second conductive mesh layer 4, dielectric layer 6 are not easily susceptible to damage.Under normal conditions, above-mentioned cover board 8 needs to have centainly
Structural strength, with cover sheet 8 towards each layer structure of 1 side of AG glass.Specifically, above-mentioned in the utility model embodiment
Cover board 8 can be preferably tempered glass cover plate 8.Since 8 surface of tempered glass cover plate is previously provided with compression, so that tempering glass
Glass cover board 8 has biggish intensity, can be with effective protection cover board 8 towards each layer structure of 1 side of AG glass.It needs to illustrate
It is that, since touch-control sensor usually requires that display screen is cooperated to be used at this stage, above-mentioned cover board 8 usually requires to be transparent cover plate 8.
A kind of touch-control sensor provided by the utility model embodiment passes through the non-visible area domain on 1 surface of AG glass
Ink layer 7 is set, the components such as the lead that touch-control sensor non-visible area domain is set, FPC can be covered, so that touch-control sensor
It is more beautiful;It, can be with the first conductive grid of effective protection by the way that cover board 8 is arranged backwards to 1 one side surface of AG glass in dielectric layer 6
The structures such as the 2, second conductive mesh layer 4 of layer, dielectric layer 6 are not easily susceptible to damage.
The utility model additionally provides a kind of touch-control display panel, including as any of the above-described utility model embodiment provides
Touch-control sensor and display screen.Remaining part please refers to the prior art, is no longer repeated herein.
It is lower that the touch-control sensor as provided by above-mentioned utility model embodiment can make conductive grid lines have
Visuality, touch-control display panel provided by corresponding the utility model embodiment can make conductive grid lines have compared with
Low visuality, and do not interfere with the transmitance of touch-control sensor in touch-control display panel.
Each embodiment in this specification is described in a progressive manner, the highlights of each of the examples are with it is other
The difference of embodiment, same or similar part may refer to each other between each embodiment.
Finally, it is to be noted that, herein, relational terms such as first and second and the like be used merely to by
One entity or operation are distinguished with another entity or operation, without necessarily requiring or implying these entities or operation
Between there are any actual relationship or orders.Moreover, the terms "include", "comprise" or its any other variant meaning
Covering non-exclusive inclusion, so that the process, method, article or equipment for including a series of elements not only includes that
A little elements, but also including other elements that are not explicitly listed, or further include for this process, method, article or
The intrinsic element of equipment.In the absence of more restrictions, the element limited by sentence "including a ...", is not arranged
Except there is also other identical elements in the process, method, article or apparatus that includes the element.
Detailed Jie has been carried out to a kind of touch-control sensor provided by the utility model and a kind of touch-control display panel above
It continues.Specific case used herein is expounded the principles of the present invention and embodiment, and above embodiments are said
The bright method and its core concept for being merely used to help understand the utility model.It should be pointed out that for the common of the art
For technical staff, without departing from the principle of this utility model, can also to the utility model carry out it is several improvement and
Modification, modifications and modifications also fall within the protection scope of the claims of the utility model.
Claims (10)
1. a kind of touch-control sensor characterized by comprising
AG glass;Wherein, described at least one surface of AG glass is rough surface;
Positioned at the first conductive mesh layer of the rough surface;
Positioned at first conductive mesh layer backwards to the first insulating layer of one side surface of AG glass;
Positioned at first insulating layer backwards to the second conductive mesh layer of one side surface of AG glass;
Positioned at second conductive mesh layer backwards to the second insulating layer of one side surface of AG glass;
Positioned at the second insulating layer backwards to the dielectric layer of one side surface of AG glass;Wherein, the dielectric layer is backwards to described
One side surface of AG glass is flat surface.
2. touch-control sensor according to claim 1, which is characterized in that the dielectric layer is rupture pressure disc.
3. touch-control sensor according to claim 1, which is characterized in that the dielectric layer is OCA layers.
4. touch-control sensor according to claim 2 or 3, which is characterized in that the thickness of the dielectric layer is not less than 50 μm.
5. touch-control sensor according to claim 1, which is characterized in that the value model of the surface roughness of the AG glass
It encloses for 0.06 μm to 0.1 μm, including endpoint value;The value range of the glossiness of the AG glass is 40% to 50%, including end
Point value;The value range of the mist degree of the AG glass is 1.5% to 2%, including endpoint value;The AG thickness degree of the AG glass
Value range is 1.5 μm to 2.5 μm including endpoint value.
6. touch-control sensor according to claim 1, which is characterized in that first conductive mesh layer is located at the AG glass
The visible area on glass surface;
The touch-control sensor further includes the ink layer positioned at the AG glass surface non-visible area domain.
7. touch-control sensor according to claim 6, which is characterized in that the ink layer is black ink layer.
8. touch-control sensor according to claim 1, which is characterized in that the touch-control sensor further include:
Positioned at the dielectric layer backwards to the cover board of one side surface of AG glass.
9. touch-control sensor according to claim 8, which is characterized in that the cover board is tempered glass cover plate.
10. a kind of touch-control display panel, which is characterized in that including display screen and such as any one of claim 1 to 9 claim institute
The touch-control sensor stated.
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Cited By (1)
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WO2022178659A1 (en) * | 2021-02-23 | 2022-09-01 | Boe Technology Group Co., Ltd. | Mesh structure in electronic device, touch control structure, display panel, method of enhancing light transmittance in display panel, and method of fabricating mesh structure |
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WO2022178659A1 (en) * | 2021-02-23 | 2022-09-01 | Boe Technology Group Co., Ltd. | Mesh structure in electronic device, touch control structure, display panel, method of enhancing light transmittance in display panel, and method of fabricating mesh structure |
US11861122B2 (en) | 2021-02-23 | 2024-01-02 | Boe Technology Group Co., Ltd. | Mesh structure in electronic device, touch control structure, display panel, method of enhancing light transmittance in display panel, and method of fabricating mesh structure |
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