CN108415619A - Touch screen, touch-control display panel and touch control display apparatus - Google Patents

Abstract

The present invention relates to a kind of touch screen, touch-control display panel and touch control display apparatus, including the first conductive layer, the second conductive layer and anti-vibration structure sheaf, anti-vibration structure sheaf may be contained between the first conductive layer and the second conductive layer, wherein anti-vibration structure sheaf includes at least one layer of organic film.Anti-vibration structure sheaf is set among the first conductive layer and the second conductive layer, targetedly directly protects the touch control unit of touch screen, and anti-vibration structure sheaf includes at least one layer of organic film, the anti-vibration effect of organic film is good, improves the anti seismic efficiency of touch screen.

Description

Touch screen, touch-control display panel and touch control display apparatus

Technical field

The present invention relates to display technology fields, show and fill more particularly to a kind of touch screen, touch-control display panel and touch-control It sets.

Background technology

Electronic product (such as mobile phone, tablet computer etc.) is inseparable with people’s lives, facet when leading to electronic product Face and the physical shocks such as knocks, touches, falling.This irregular physical shock will result directly in the damage of touch screen, and then cause to touch The reduction or forfeiture of performance are controlled, traditional touch screen anti seismic efficiency is poor.

Invention content

Based on this, it is necessary in view of the above-mentioned problems, provide a kind of touch screen that anti-vibration effect is good, touch-control display panel and Touch control display apparatus.

A kind of touch screen, including the first conductive layer, the second conductive layer and anti-vibration structure sheaf, the anti-vibration structure sheaf are set It is placed between first conductive layer and second conductive layer, wherein the anti-vibration structure sheaf includes at least one layer of organic Film layer.

Further include touch screen middle dielectric layer in one of the embodiments, the touch screen middle dielectric layer is set to Between first conductive layer and second conductive layer.

The touch screen middle dielectric layer includes first medium layer and second dielectric layer, institute in one of the embodiments, Anti-vibration structure sheaf is stated to be set between the first medium layer and the second dielectric layer.

The anti-vibration structure sheaf is set in first conductive layer and the touch screen in one of the embodiments, Between between dielectric layer and/or between second conductive layer and the touch screen middle dielectric layer.

The anti-vibration structure sheaf is the organic film structure of single layer in one of the embodiments,.

The anti-vibration structure sheaf is the laminated construction of organic film and inorganic film in one of the embodiments,.

The organic film and the inorganic film are flexible electrically non-conductive material film layer in one of the embodiments,.

A kind of touch-control display panel, including display panel and touch screen, the touch screen are led including the first conductive layer, second Electric layer and anti-vibration structure sheaf, the anti-vibration structure sheaf are set between first conductive layer and second conductive layer, The display panel is stacked with second conductive layer, wherein the anti-vibration structure sheaf includes at least one layer of organic film Layer.

Further include against shock mechanism in one of the embodiments, what the against shock mechanism was stacked described in The outer rim of display panel and touch screen is arranged.

A kind of touch control display apparatus, including display panel and touch screen, the touch screen are led including the first conductive layer, second Electric layer and anti-vibration structure sheaf, the anti-vibration structure sheaf are set between first conductive layer and second conductive layer, The display panel is stacked with second conductive layer, wherein the anti-vibration structure sheaf includes at least one layer of organic film Layer.

Above-mentioned touch screen, touch-control display panel and touch control display apparatus, including the first conductive layer, the second conductive layer and antidetonation Dynamic structure sheaf, anti-vibration structure sheaf are set between the first conductive layer and the second conductive layer, wherein the anti-vibration structure sheaf packet Include at least one layer of organic film.Anti-vibration structure sheaf is set among the first conductive layer and the second conductive layer, targetedly directly The touch control unit of protection touch screen is connect, and anti-vibration structure sheaf includes at least one layer of organic film, the anti-vibration effect of organic film Fruit is good, improves the anti seismic efficiency of touch screen.

Description of the drawings

Fig. 1 is touch screen structure schematic diagram in one embodiment；

Fig. 2 is touch screen structure schematic diagram in another embodiment；

Fig. 3 is touch screen structure schematic diagram in another embodiment；

Fig. 4 is touch screen structure schematic diagram in another embodiment；

Fig. 5 is touch screen structure schematic diagram in another embodiment；

Fig. 6 is touch screen structure schematic diagram in another embodiment；

Fig. 7 is touch screen structure schematic diagram in another embodiment；

Fig. 8 is touch screen structure schematic diagram in another embodiment.

Specific implementation mode

In one embodiment, as shown in Figure 1, a kind of touch screen, including the first conductive layer 110,130 and of the second conductive layer Anti-vibration structure sheaf 120, anti-vibration structure sheaf 120 are set between the first conductive layer 110 and the second conductive layer 130, wherein anti- Shock structure layer 120 includes at least one layer of organic film.

Specifically, the first conductive layer 110 is touch screen Upper conductive layer, and the second conductive layer 130 is touch screen underlying conductive Layer, the first conductive layer 110 and the second conductive layer 130 form touch screen function unit, and anti-vibration structure sheaf 120 is arranged in touch screen In functional unit.

Anti-vibration structure sheaf 120 is set among the first conductive layer 110 and the second conductive layer 130, needle by above-mentioned touch screen To the touch control unit of the protection touch screen of property, can directly absorbing external shake, touch screen function unit receives effective anti- Shield, and anti-vibration structure sheaf 120 includes at least one layer of organic film, the anti-vibration effect of organic film is good, improves touch screen Anti seismic efficiency solves traditional supporting point by composite screen shell and is fixed on different buffer units so that when shock Deformation strength cannot be transmitted along single buffer unit, influence is not directly contributed on screen, but can only indirect absorbing external Vibrations, the poor problem of anti seismic efficiency.

In one embodiment, touch screen further includes touch screen middle dielectric layer, and touch screen middle dielectric layer is set to Between one conductive layer 110 and the second conductive layer 130.

Further, the first conductive layer 110, the second conductive layer 130 and touch screen middle dielectric layer form touch screen function Unit, touch screen middle dielectric layer can further improve the anti seismic efficiency of touch screen, be situated between among anti-vibration structure sheaf and touch screen Matter layer is set to there are many modes between the first conductive layer 110 and the second conductive layer 130, is had in the word below and is retouched in detail It states.

In one embodiment, as shown in Fig. 2, touch screen middle dielectric layer includes first medium layer 142 and second medium Layer 144, anti-vibration structure sheaf 120 is set between first medium layer 142 and second dielectric layer 144.

Specifically, first medium layer 142 is upper dielectric layer, and second dielectric layer 144 is lower dielectric layer, by anti-vibration structure sheaf 120 are embedded in the centre position of touch screen middle dielectric layer, to the anti seismic efficiency of the first conductive layer 110 and the second conductive layer 130 Uniformly, anti seismic efficiency is good.

Further, in another embodiment, as shown in figure 3, anti-vibration structure sheaf is three layers, the anti-vibration of first layer Structure sheaf 122 is set between first medium layer 142 and second dielectric layer 144, and the anti-vibration structure sheaf 124 of the second layer is set to Between first conductive layer 110 and first medium layer 142, the anti-vibration structure sheaf 126 of third layer is set to 144 He of second dielectric layer Between second conductive layer 130；In yet another embodiment, as shown in Figure 4 and Figure 5, anti-vibration structure sheaf is two layers, the second layer Anti-vibration structure sheaf 124 is set between first medium layer 142 and second dielectric layer 144, and the anti-vibration structure sheaf of first layer is (such as It 122) is set between the first conductive layer 110 and first medium layer 142 in Fig. 3 or the anti-vibration structure sheaf of first layer is (as schemed It 126) is set between second dielectric layer 144 and the second conductive layer 130 in 4.Anti seismic efficiency can be further improved, as long as ensureing While anti-vibration effect, the performance of touchscreen will not be had an impact, ensure that touchscreen has normal touch-control performance. Specifically, the specific arrange parameter range needs of anti-vibration structure sheaf area, thickness etc. are led according to the first conductive layer 110, second The data of electric layer 130 determine after carrying out emulation experiment.

In one embodiment, as shown in Fig. 6,7,8, anti-vibration structure sheaf 120 is set to the first conductive layer 110 and touches Between screen middle dielectric layer 140 and/or between the second conductive layer 130 and touch screen middle dielectric layer 140.

Specifically, anti-vibration structure sheaf is one layer, and anti-vibration structure sheaf 120 may be disposed at the first conductive layer 110 and touch Between screen middle dielectric layer 140 or between the second conductive layer 130 and touch screen middle dielectric layer 140, in another embodiment In, anti-vibration structure sheaf is two layers, and the anti-vibration structure sheaf 122 of first layer is set among the first conductive layer 110 and touch screen Between dielectric layer 140, the anti-vibration structure sheaf 124 of the second layer is set to the second conductive layer 130 and touch screen middle dielectric layer 140 Between, the anti-vibration structure sheaf of the first two technical solution in three above technical solution can be played to touch screen function unit Anti seismic efficiency, only to the anti seismic efficiency of the first conductive layer 110 and the second conductive layer 130 and asymmetric, anti seismic efficiency is opposite It decreases in third technical solution.

In one embodiment, anti-vibration structure sheaf is the organic film structure of single layer.In another embodiment, antidetonation Dynamic structure sheaf is the laminated construction of organic film and inorganic film.

Specifically, artificial synthesized film product is divided into polymer membrane by people's custom according to the material of membrane component has Machine film and inorganic material film inoranic membrane.The material of organic film is very extensive, has cellulose derivative class, polysulfones, polyamide sub- Amine, polyesters, polyolefins, silicon-containing polymer, fluoropolymer etc., inoranic membrane are one be process by inorganic material Kind solid film, is divided into perforated membrane and dense film two major classes, and metal film, alloy film, ceramic membrane can be divided into again by being distinguished according to membrane material Have per membrane area manufacturing cost cheap Deng, organic film, membrane module loading density is big etc., and advantages, inoranic membrane have chemical stabilization The advantages that property is good, mechanical strength is big, service life is long.

When making anti-vibration structure sheaf, because the anti seismic efficiency of organic film is good, therefore anti-vibration structure sheaf is being made When, it needs that organic film is added, that is, anti-vibration structure sheaf includes at least one layer of organic film, can individually use organic film Anti-vibration structure sheaf is made, can also be while using inoranic membrane and organic film production anti-vibration structure sheaf, uses having for single layer Machine film layer makes anti-vibration structure sheaf, and film formation step is few, simple for process, easy to operate.It is laminated using organic film and inoranic membrane Layer makes anti-vibration structure sheaf, and anti-vibration effect is more preferable.

By using organic film or organic film and inorganic film production anti-vibration structure sheaf, it can ensure anti-vibration effect While fruit, the performance of touch screen will not be had an impact, ensure that touch screen has normal touch-control performance.

In one embodiment, organic film and inorganic film are flexible electrically non-conductive material film layer.

Specifically, organic film and inorganic film are flexible electrically non-conductive material film layer, can ensure anti-vibration effect Meanwhile the performance of touch screen will not be had an impact, ensure that touch screen has normal touch-control performance.

In one embodiment, a kind of method making anti-vibration structure is provided, is given birth to first by chemical vapor deposition At inorganic film, wherein chemical vapor deposition (CVD, Chemical Vapor Deposition) refers to that the gas phase under high temperature is anti- It answers, for example, the thermal decomposition of metal halide, organic metal, hydrocarbon etc., hydrogen reduction or makes its mixed gas in high temperature Biochemical reaction is issued in the method for the inorganic material such as precipitating metal, oxide, carbide；Followed by the upper organic film of coating Layer, coating refer to that paste polymer, molten polymer or molten polymer are coated on paper, cloth, are made multiple on plastic film The method of condensation material (film), further, coating can be Slit coatings i.e. slot coateds, can also be Spin coatings, specifically Slit coatings or Spin coating methods can be selected according to actual conditions, in general, when coated substrates area is less than predetermined threshold value constantly, Spin coating methods may be used, when coated substrates area is greater than or equal to predetermined threshold value, using Slit coating methods；Most Afterwards, after upper organic film is coated on inorganic film, inorganic film is generated on organic film again by chemical vapor deposition, Further, the inorganic film of this layer can be consistent with the inorganic film material of one layer of front, can not also be consistent, specific root It is set according to actual conditions, completes the making of anti-vibration structure.

Anti-vibration structure sheaf is set between the first conductive layer 110 and the second conductive layer 130, specifically by above-mentioned touch screen There are many ground set-up modes, as shown in figures 1-8, targetedly protects the touch control unit of touch screen, can directly absorbing external shake Dynamic, touch screen function unit receives effective protection, improves the anti seismic efficiency of touch screen, and anti seismic efficiency is good.Avoid tradition Anti-vibration mechanism is arranged outside touch screen function unit, be only capable of the vibrations of indirect absorbing external, touch screen function unit does not have Have effectively protected and the protection object of anti-vibration mechanism be composite screen (display device+touch screen), without needle Independent aseismatic design, the defect for causing the anti-vibration effect of touch screen poor are carried out to single touch screen.

In one embodiment, a kind of touch-control display panel, including display panel and touch screen, touch screen are led including first Electric layer, the second conductive layer and anti-vibration structure sheaf, anti-vibration structure sheaf are set between the first conductive layer and the second conductive layer, are shown Show that panel is stacked with the second conductive layer, wherein anti-vibration structure sheaf includes at least one layer of organic film.

Anti-vibration structure sheaf is set among the first conductive layer and the second conductive layer by above-mentioned touch-control display panel, for Property the touch control unit for directly protecting touch screen, and anti-vibration structure sheaf includes at least one layer of organic film, organic film it is anti- Vibrating effect is good, improves the anti seismic efficiency of touch screen.

In one embodiment, touch-control display panel further includes against shock mechanism, display of the against shock mechanism around stacking The outer rim of panel and touch screen is arranged.

Specifically, the outer rim of touch-control display panel, that is, composite screen (display panel and touch screen) is fixed on against shock In mechanism so that deformation strength when shock cannot be transmitted along single buffer unit, and influence is directly contributed on screen, can be further Protect touch screen without damage.

A kind of touch control display apparatus, including display panel and touch screen, touch screen include the first conductive layer, the second conductive layer With anti-vibration structure sheaf, anti-vibration structure sheaf is set between the first conductive layer and the second conductive layer, and display panel is led with second Electric layer is stacked, wherein anti-vibration structure sheaf includes at least one layer of organic film.

Anti-vibration structure sheaf is set among the first conductive layer and the second conductive layer by above-mentioned touch control display apparatus, for Property the touch control unit for directly protecting touch screen, and anti-vibration structure sheaf includes at least one layer of organic film, organic film it is anti- Vibrating effect is good, improves the anti seismic efficiency of touch screen.

Each technical characteristic of embodiment described above can be combined arbitrarily, to keep description succinct, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, it is all considered to be the range of this specification record.

Several embodiments of the invention above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the protection of the present invention Range.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (10)

1. a kind of touch screen, which is characterized in that including the first conductive layer, the second conductive layer and anti-vibration structure sheaf, the antidetonation Dynamic structure sheaf is set between first conductive layer and second conductive layer, wherein the anti-vibration structure sheaf includes extremely Few one layer of organic film.

2. touch screen according to claim 1, which is characterized in that further include touch screen middle dielectric layer, the touch screen Middle dielectric layer is set between first conductive layer and second conductive layer.

3. touch screen according to claim 2, which is characterized in that the touch screen middle dielectric layer includes first medium layer And second dielectric layer, the anti-vibration structure sheaf are set between the first medium layer and the second dielectric layer.

4. touch screen according to claim 2, which is characterized in that it is conductive that the anti-vibration structure sheaf is set to described first Between layer and the touch screen middle dielectric layer and/or between second conductive layer and the touch screen middle dielectric layer.

5. touch screen according to claim 1, which is characterized in that the anti-vibration structure sheaf is the organic film knot of single layer Structure.

6. touch screen according to claim 1, which is characterized in that the anti-vibration structure sheaf is organic film and inoranic membrane The laminated construction of layer.

7. touch screen according to claim 6, which is characterized in that the organic film and the inorganic film be it is flexible not Conductive material film layer.

8. a kind of touch-control display panel, which is characterized in that including display panel and touch screen, the touch screen includes first conductive Layer, the second conductive layer and anti-vibration structure sheaf, the anti-vibration structure sheaf are set to first conductive layer and described second and lead Between electric layer, the display panel is stacked with second conductive layer, wherein the anti-vibration structure sheaf includes at least one Layer organic film.

9. touch-control display panel according to claim 8, which is characterized in that further include against shock mechanism, the against shock Outer rim setting of the mechanism around the display panel and touch screen being stacked.

10. a kind of touch control display apparatus, which is characterized in that including display panel and touch screen, the touch screen is led including first Electric layer, the second conductive layer and anti-vibration structure sheaf, the anti-vibration structure sheaf are set to first conductive layer and described second Between conductive layer, the display panel is stacked with second conductive layer, wherein the anti-vibration structure sheaf includes at least One layer of organic film.