CN103336624B - Optical filter assembly and touch display screen using same - Google Patents

Abstract

An optical filter assembly comprises a substrate, a first imprinting glue layer, a first conducting layer, a light-filtering layer, a second imprinting glue layer and a second conducting layer. The first imprinting glue layer and the second imprinting glue layer are directly formed on the two sides of the substrate. The first conducting layer and the second conducting layer are embedded into the first imprinting glue layer and the second imprinting glue layer respectively. The width of electric conduction silk-covered wires of any one of the first conduction layer and the second conducting layer is 0.2-5microns. Projections, on the light-filtering layer, of electric conduction silk-covered wires of the other conducting layer fall on grid wires. According to the optical filter assembly, an induction structure is formed by the first conducting layer and the second conducting layer, so that the optical filter assembly is operated in a touching mode and beside has the function of light filtering. Reduction of the thickness of an electronic product is facilitated, and material and assembly cost are further saved. The invention further provides a touch display screen.

Description

Optical filter box and the touch display screen using this optical filter box

Technical field

The present invention relates to flat panel display technology field, more particularly to a kind of optical filter box and use this optical filter box Touch display screen.

Background technology

Touch-screen is the inductive arrangement that can receive the input signals such as touch.Touch-screen imparts the brand-new face of information exchange Looks, are extremely attractive brand-new information exchange equipment.The development of touch screen technology causes the general of domestic external information medium circle All over concern, it has also become the Chaoyang new high-tech industry that photovoltaic industry is a dark horse.

At present, the electronic product with touch display function all includes display screen and the touch-screen being located on display screen.So And, touch-screen, as the assembly with display screen independence, when realizing the electronic product of man-machine interaction for some, is required to basis The size of display screen is ordered, and is assembled afterwards again, and to form touch display screen, touch display screen can have simultaneously can be touched Control operation and display function.Existing touch-screen mainly has two ways with the assembling of display screen, i.e. frame patch and full laminating.Frame pastes It is that touch-screen is fitted with the edge of display screen, full laminating is to paste whole for the upper surface of the lower surface of touch-screen and display screen face Close.

Polaroid that display screen mainly includes being sequentially overlapped, optical filter box, Liquid Crystal Module and thin film transistor (TFT) (TFT, Thin Film Transistor), therefore, display screen itself has had larger thickness, and continues the laminating toward on display screen During touch-screen, its thickness will be further increased, furthermore, how one attaching process is it is meant that increased the bad probability of product, Greatly increase the production cost of product.

Content of the invention

Based on this it is necessary to for the larger and relatively costly problem of thickness, provide one kind to advantageously reduce electronic product The optical filter box of thickness and production cost and the touch display screen using this optical filter box.

A kind of optical filter box, including substrate, also includes：

First impressing glue-line, covers the surface in described substrate, and described first impressing glue-line offers the first groove；

First conductive layer, is embedded at described first impressing glue-line, including multiple spaced first conductive patterns, described First conductive pattern includes the first conductive grid, and described first conductive grid is intersected to form by the first conductive thread, and first is conductive Silk thread intersects to form grid node, and described first conductive thread is contained in described first groove；

Filter layer, covers and imprints glue-line and the first conductive layer side away from described substrate in described first, including shading Portion and multiple filter unit, described light shielding part is in lattice-shaped, including cross one another gridline, is split by described gridline Space forms some grid cells, and each filter unit is contained in a corresponding grid cell, the plurality of filter unit shape Become optical filtering portion；

Second impressing glue-line, is located at the same side of described substrate and covers in described filter layer with the described first impressing glue-line Away from the side of described substrate, described second impressing glue-line offers the second groove；

Second conductive layer, is embedded at described second impressing glue-line, including multiple spaced second conductive patterns, described Second conductive pattern includes the second conductive grid, and described second conductive grid is intersected to form by the second conductive thread, and second is conductive Silk thread intersects to form grid node, and described second conductive thread is contained in described second groove；

Wherein, in described first conductive thread and the second conductive thread, the live width of one of which is 0.2 μm～5 μm, another Person fully falls on described gridline in the projection of described filter layer.

Wherein in an embodiment, the live width of described first conductive thread is 0.2 μm～5 μm, described second conductive filament Line fully falls on described gridline in the projection of described filter layer.

Wherein in an embodiment, the distance of the two neighboring grid node of described first conductive layer is 50 μm～800 μm, The live width of described second conductive thread is not more than the live width of described gridline.

Wherein in an embodiment, described first conductive thread all falls within described grid in the projection of described filter layer Line.

Wherein in an embodiment, the thickness in described optical filtering portion is not less than the thickness of described light shielding part.

Wherein in an embodiment, described light shielding part is that the photoresist with black dyes imprints glue-line described first The lattice-shaped structure of upper formation.

Wherein in an embodiment, the interval width of two neighboring first conductive pattern of described first conductive layer is 0.5 μm～50 μm, the interval width of two neighboring second conductive pattern of described second conductive layer is the width of a filter unit.

Wherein in an embodiment, the throwing on described filter layer of every one first conductive grid of described first conductive layer Shadow accommodates at least one filter unit, the projection on described filter layer of every one second conductive grid of described second conductive layer Accommodate at least one filter unit.

Wherein in an embodiment, the filter unit number of the projection receiving in described filter layer for described first conductive grid Amount is not more than the filter unit quantity of the projection receiving in described filter layer for described second conductive grid.

A kind of touch display screen, including the TFT electrode stacking gradually, Liquid Crystal Module, public electrode, optical filter box and partially Mating plate, described optical filter box is above-described optical filter box.

Above-mentioned optical filter box and the touch display screen using this optical filter box, optical filter box can realize touch-control simultaneously Operation and filtering functions, as the combination of two assemblies indispensable in display screen, for, when in display screen, can directly make to show Display screen has touch controllable function, need not assemble a touch-screen more on a display screen, not only contributes to reduce the thickness of electronic product, with When also greatly save material and assembly cost.

Brief description

Fig. 1 is the structural representation of the touch display screen of an embodiment；

Fig. 2 is the structural representation of the optical filter box of an embodiment；

Fig. 3 is the structural representation of the optical filter box of another embodiment；

Fig. 4 is the structural representation of the optical filter box of another embodiment；

Fig. 5 is the structural representation of the optical filter box of a further embodiment；

Fig. 6 is the structural representation at another visual angle of optical filter box shown in Fig. 5；

Fig. 7 is the interval schematic diagram of multiple second conductive patterns of the second conductive layer of optical filter box shown in Fig. 5；

Fig. 8 is the interval schematic diagram of multiple first conductive patterns of the first conductive layer of optical filter box shown in Fig. 5；

Fig. 9～Figure 12 is that the second conductive thread of the second conductive layer shown in Fig. 5 projects to four kinds of differences during filter layer The structural representation of embodiment；

Figure 13～Figure 16 is that the first conductive thread of the first conductive layer shown in Fig. 5 projects to four kinds of differences during filter layer The structural representation of embodiment.

Specific embodiment

Understandable for enabling the above objects, features and advantages of the present invention to become apparent from, below in conjunction with the accompanying drawings to the present invention Specific embodiment be described in detail.Elaborate a lot of details in order to fully understand this in the following description Bright.But the present invention can be much to implement different from alternate manner described here, and those skilled in the art can be not Similar improvement is done, therefore the present invention is not embodied as being limited by following public in the case of running counter to intension of the present invention.

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 there is element placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or may be simultaneously present centering elements.

Unless otherwise defined, all of technology used herein and scientific terminology and the technical field belonging to the present invention The implication that technical staff is generally understood that is identical.The term being used in the description of the invention herein is intended merely to description tool The purpose of the embodiment of body is it is not intended that in limiting the present invention.Term as used herein " and/or " include one or more phases The arbitrary and all of combination of the Listed Items closing.

Refer to Fig. 1, be the touch display screen 100 of an embodiment, including the down polaroid 10 stacking gradually, TFT electricity Pole 20, Liquid Crystal Module 30, public electrode 40, diaphragm 50, optical filter box 200 and upper polaroid 60.In other embodiments In, diaphragm 50 need not be set and also may be used.

TFT electrode 20 includes glass-base 24 and the show electrode 22 being arranged on glass-base 24.Liquid Crystal Module includes Liquid crystal 32 and the alignment film 34 being held on liquid crystal 32 both sides.

It is appreciated that when backlight being used as polarized light source, such as OLED polarized light source, without down polaroid 10, only Need upper polaroid 60.The down polaroid 10 of the present embodiment, TFT electrode 20, Liquid Crystal Module 30, public electrode 40, protection Film 50, the structure of upper polaroid 60 and function can be identical with existing product, will not be described here.

Optical filter box 200 have simultaneously tangible operation and can filtering functions, make touch display screen 100 have touch aobvious Show function.Touch display screen can be the LCDs of straight-down negative or side entering type light source.

Refer to Fig. 2 to Fig. 5, expression is 200 4 different embodiments of optical filter box.In aforementioned four embodiment Optical filter box 200 all include substrate 210, first impressing glue-line 220, the first conductive layer 230, filter layer 240, second impressing Glue-line 250 and the second conductive layer 260.The material of substrate 210 can be sillico aluminate glass and calcium soda-lime glass, at Plasma After reason, surface has good cohesive force.General, the thickness range of substrate 210 can be 0.1mm～0.5mm.

First impressing glue-line 220 covers a surface in substrate 210, and the first impressing glue-line 220 is away from the one of substrate 210 Side offers the first groove 222.First groove 222 is the groove of mesh shape, and mesh shape can be preset to institute as needed Need figure.First conductive layer 230 is embedded at the first impressing glue-line 220, and including multiple first conductive patterns 232, multiple first lead It is provided with interval, so that multiple first conductive pattern 232 insulate between electrical pattern 232.First conductive pattern 232 includes some first leads Power grid, the first conductive grid is intersected to form by the first conductive thread 2322, and the first conductive thread 2322 intersects to form grid section Point, described first conductive thread 2322 is contained in described first groove 222.In other embodiments, can also be in the first pressure Print glue-line 220 offers the first groove 222 near the side of substrate 210.

Filter layer 240 covers and imprints glue-line 220 and the first conductive layer 230 side away from substrate 210 in first, including screening Light portion 242 and multiple filter unit.Light shielding part 242 is in lattice-shaped, including some cross one another gridlines.Divided by gridline The space cut forms some grid cells, and each filter unit is contained in a corresponding grid cell, multiple filter unit shapes Become optical filtering portion 244.

Second impressing glue-line 250 and the first impressing glue-line 220 are positioned at the same side of substrate 210, and cover in filter layer 240 Side away from substrate 210.Second impressing glue-line 250 offers the second groove 252 away from the side of substrate 210.Second groove 252 is the groove of mesh shape, and mesh shape can be preset to required figure as needed.Second conductive layer 260 is embedded at Two impressing glue-lines 250, including multiple second conductive patterns 262.It is provided with interval between multiple second conductive patterns 262, so that multiple Second conductive pattern 262 mutually insulated.Second conductive pattern 262 includes some second conductive grids, and the second conductive grid is by Two conductive threads 2622 intersect to form, and the second conductive thread 2622 intersects to form grid node, and the second conductive thread 2622 houses In the second groove 252.Specific in the present embodiment, the first conductive thread 2322 and the second conductive thread 2622 are by conductive material It solidify to form.In other embodiments, second can also be offered in the second impressing glue-line 250 near the side of substrate 210 Groove 252.

Wherein, in the first conductive thread 2322 and the second conductive thread 2622, the live width of one of which is 0.2 μm～5 μm, Another one fully falls on gridline in the projection of filter layer 240.

As shown in figure 5, represent is that the second conductive thread 2622 fully falls on gridline in the projection of filter layer 240, The live width of the second conductive thread 2622 is equal to the live width of gridline, and the live width of the first conductive thread 2322 is 0.2 μm～5 μm.? In other embodiments, as shown in figure 4, the live width of the second conductive thread 2622 can also be equal to the live width of gridline.Work as optical filtering When piece assembly 200 is applied to product, be generally substrate 210 towards user, filter layer 240 is away from client, so being embedded The first conductive layer 230 in the first impressing glue-line 220 is easier to be seen by user's naked eyes and affects Consumer's Experience sense.So by Two conductive threads 2622 fall into gridline and without departing from gridline in the projection of filter layer 240.The line of the first conductive thread 2322 A width of 0.2 μm～5 μm, make visually-clear, be conducive to improving Consumer's Experience sense.In other examples, can also be by The projection that one conductive thread 2322 is arranged in filter layer 240 all falls within gridline, improves Consumer's Experience sense further.

As shown in Fig. 2 represent is that the second conductive thread 2622 live width is 0.2 μm～5 μm, the first conductive thread 2322 exists The projection of filter layer 240 fully falls on gridline, and the live width of the first conductive thread 2322 is less than the live width of gridline.As Fig. 3 Shown, expression is that the second conductive thread 2622 live width is 0.2 μm～5 μm, and the first conductive thread 2322 is in the throwing of filter layer 240 Shadow fully falls on gridline, and the live width of the first conductive thread 2322 is equal to the live width of gridline.

Above-mentioned optical filter box 200, the first conductive layer 230 and the second conductive layer 260 interval setting constitute capacitive sensing knot Structure, makes optical filter box 200 can realize touch control operation and filtering functions simultaneously, and need not carry out design of putting up a bridge, and reduces operation Difficulty.When above-mentioned optical filter box 200 is applied to display screen, display screen can be directly made to have touch controllable function, need not be again aobvious Display screen over-assemble one touch-screen, not only contributes to reduce the thickness of electronic product, also greatlys save material and assembly cost.With When the first impressing glue-line 220 and the second impressing glue-line 250 be located at the same side of substrate, so the first conductive layer 230 and second is led Interval between electric layer 260 is less, because electric capacity is inversely proportional to the distance of capacitor plate, so the first conductive layer 230 and second Inductance capacitance between conductive layer 260 increases, and is conducive to increasing the sensitivity of optical filter box 200.When the first conductive thread When the live width of 2322 and second one of which in conductive thread 2622 is 0.2 μm～5 μm, visually-clear can be reached, need not be right Quasi- gridline, reduces fraction defective and production cost；Another one fully falls on gridline in the projection of filter layer 240, because Light shielding part 242 has opaqueness, as long as ensureing that the live width of another one is not more than the width of gridline so that it may so that this conductive filament Line is without departing from gridline, thus not blocking filter layer 240, will not reduce the light transmittance of filter layer 240.

In first conductive layer 230, the distance of two neighboring grid node is 50 μm～800 μm.When the distance of grid node is got over When big, the density of conductive grid is less, and now light permeable rate is big, and cost also can be low, but resistance can be larger.When grid node Distance more hour, the density of conductive grid is bigger, and resistance is less, but transmitance reduces, and the consumption of conductive material is also got over simultaneously Greatly, so that cost is higher.Therefore considering cost, light transmittance and resistance factors, grid node spacing is traditionally arranged to be 50 μm ～800 μm.

Refer to Fig. 5 and Fig. 6, specific in the present embodiment, optical filtering portion 244 includes chromatic photoresist, in each grid cell It is formed with a chromatic photoresist, chromatic photoresist forms filter unit.Chromatic photoresist is that the photoresist with coloured dye is formed, permissible Using exposure-development processing procedure.Chromatic photoresist is generally red（Red, R）Photoresistance, green（Green, G）Photoresistance or indigo plant（Blue, B）Light Resistance, is used for making incident light be transformed into monochromatic light, realizes filtering functions.Light shielding part is that the photoresist with black dyes is formed at One impressing glue-line 220, and light shielding part is in lattice-shaped, has opaqueness, can adopt exposure-development processing procedure.Grid in lattice-shaped Lattice unit is square so that the photoresistance arrangement in optical filtering portion 244 is more compact and uniform.Light shielding part 242 can be prevented effectively from chromatic photoresist Colour contamination each other, and the contrast of R, G, B light can be increased.

Specific in the present embodiment, the material of the first impressing glue-line 220 and the second impressing glue-line 250 is that solvent-free ultraviolet is solid Change acryl resin, thickness is 2 μm～10 μm.First impressing glue-line 220 and the second impressing glue-line 250 are transparence, do not affect Overall transmitance.In other embodiments, the material of the first impressing glue-line 220 and the second impressing glue-line 250 can also be On Visible Light Cured Resin or heat reactive resin.

The above-mentioned optical filter box with touch controllable function, the first conductive pattern 232 and the second conductive pattern 262 are impressing Mode is formed, and comprises the following steps that：

(1) carry out plasma on a surface of substrate 210（Plasma）Process.To remove the dirty of substrate 210 surface, and Make substrate 210 surface ionizing, increase the follow-up cohesive force with the first impressing glue-line 220.

(2) that surface coating impressing glue processing through Plasma in substrate 210, forms the first impressing glue-line.This reality Apply example and adopt solvent-free ultra-violet curing acryl resin.And with the impression formboard that is nested with the first conductive pattern 232 first Impressing glue-line 220 surface is imprinted and is solidified, and obtains the first groove 222 mating with the first conductive pattern 232.

(3) fill conductive material into the first groove 222 and solidify, obtain the first conductive layer 230.Conductive material can be At least one in metal, CNT, Graphene, organic conductive macromolecule or ITO, forms by the first conductive thread 2322 The first conductive grid constituting.It is preferably metal, such as nanometer silver paste.When from metal, it is possible to decrease resistance and reduction touch The energy consumption of display screen.

(4) cover one layer of light carrying black dyes in the first impressing glue-line 220 and the whole face in the first conductive pattern 232 surface Photoresist.

(5) adopt exposure-development technology, the photoresist in filter unit region is removed, form the light shielding part of lattice-shaped 242.

(6) plate/coat R/G/B chromatic photoresist in the gradation of filter unit region, form optical filtering portion 244.Optical filtering portion 244 and screening Light portion 242 forms filter layer 240.

(7) it is coated with impressing glue on filter layer 240 surface, form the second impressing glue-line 250.The present embodiment adopts solvent-free purple Outer solidification acryl resin.And imprint glue-line 250 surface using the impression block being nested with the second conductive pattern 262 second Imprinted and solidified, obtained the second groove 252 mating with the second conductive pattern 262.

(8) fill conductive material into the second groove 252 and solidify, obtain the second conductive layer 260.Conductive material can be Metal, CNT, Graphene, organic conductive macromolecule or ITO, form second being made up of the second conductive thread 2622 and lead Power grid.It is preferably metal, such as nanometer silver paste.When from metal, it is possible to decrease resistance and the energy consumption reducing touch display screen. Ensure that the live width of one of which in described first conductive thread 2322 and the second conductive thread 2622 is 0.2 μm～5 μm, another one Fully fall on described gridline in the projection of described filter layer 240.

Specific in the present embodiment, the second conductive grid and filter unit similar fitgures each other, the second conductive thread 2622 Center line overlap with the center line of described gridline in the projection of filter layer 240, that is, the second conductive thread 2622 be aligned grid Line.Second conductive grid intersects to form for the second conductive thread 2622, and grid cell is formed by gridline segmentation, and the list that filters Unit is formed at grid cell.So the shape of the second conductive grid and the shape phase of filter unit in the present embodiment, can be made Together but of different sizes, that is, the second conductive grid and filter unit similar fitgures each other, ensure that the second conductive thread 2622 exists simultaneously The projection of filter layer 240 is without departing from gridline.Further reduce the probability that the second conductive thread 2622 exposes gridline region.

Specific in the present embodiment, the thickness in optical filtering portion 244 is not less than the thickness of light shielding part 242.Refer to Fig. 5, represent Be filter unit thickness be more than gridline thickness.When the thickness in optical filtering portion 244 is more than the thickness of light shielding part 242, from The light that optical filtering portion 244 appears, not only can see from front, from side it can be seen that, such that it is able to increase going out of optical filtering portion 244 Light rate.Certainly, as shown in figure 4, the thickness in optical filtering portion 244 can also be equal to the thickness of gridline.

Specific in the present embodiment, adjacent first conductive pattern 232 is provided with interval, adjacent the second conductive pattern 262 It is provided with interval, with mutually insulated.As shown in figure 8, represent is multiple the first of the first conductive layer 230 as shown in Figure 5 to lead The interval schematic diagram of electrical pattern 232.As shown in fig. 7, represent is multiple second to lead in the second conductive layer 260 as shown in Figure 5 The interval schematic diagram of electrical pattern 262.Specific in the present embodiment, two neighboring first conductive pattern 232 of the first conductive layer 230 Interval width be 0.5 μm～50 μm, now can by by conductive thread marginal portion disappearance be separated.Described second is conductive The interval width of two neighboring second conductive pattern 262 of layer 260 is the width of a filter unit, now can pass through full line or whole Row conductive thread lacks, and is separated.In other examples, when the first conductive thread 2322 of the first conductive layer 230 When the projection of filter layer 240 all falls within gridline, the first two neighboring conductive pattern 232 of the first conductive layer 230 Can also be a filter unit as the interval width of the second two neighboring conductive pattern 262 of the second conductive layer 260 Width, as shown in Figure 7.

Refer to Fig. 6, specific in the present embodiment, the first conductive thread 2322 and the second conductive thread 2622 be straight line, Curve or broken line.When first conductive thread 2322 and the second conductive thread 2622 can be different shape, reduce production requirement.

As shown in figure 9, represent is that the second conductive thread 2622 of the second conductive layer 260 as shown in Figure 5 projects to filter During photosphere 240, every one second conductive grid accommodates a filter unit.As shown in figure 13, expression is as shown in Figure 5 When first conductive thread 2322 of one conductive layer 230 projects to filter layer 240, every one first conductive grid accommodates at least one Filter unit.Because each grid cell is to there being a conductive grid, so the density of conductive grid is larger, electric conductivity Preferably.

As shown in Figure 10 to Figure 12, expression is that the second conductive thread 2622 of the second conductive layer 260 as shown in Figure 5 is thrown When shadow is on filter layer 240, every one second conductive grid accommodates at least two filter unit, can be according to conductive to second Layer 260 resistance requirement and conductive material coating weight requirement come to determine accommodate filter unit quantity.Three now can be divided into The situation of kind, with laterally as X-axis, the direction of vertical transverse is Y-axis.As shown in Figure 10, only in the X-axis direction, the second conductive layer 260 Projection on filter layer 240 for every one second conductive grid accommodate at least two filter units.As shown in figure 11, only in Y-axis On direction, the projection on filter layer 240 of every one second conductive grid of the second conductive layer 260 accommodate at least two filter single Unit.As shown in figure 12, simultaneously in X-axis and Y direction, every one second conductive grid of the second conductive layer 260 is in filter layer 240 On projection accommodate at least two filter units.

As shown in Figure 14 to Figure 16, expression is that the first conductive thread 2322 of the first conductive layer 230 as shown in Figure 5 is thrown When shadow is to filter layer 240, every one first conductive grid accommodates at least two filter units, can be according to the first conductive layer The requirement of 230 resistance requirement and the coating weight of conductive material come to determine accommodate filter unit quantity.Now also can be divided into three The situation of kind, with laterally as X-axis, the direction of vertical transverse is Y-axis.As shown in figure 14, only in the X-axis direction, the first conductive layer 230 Projection on filter layer 240 for every one first conductive grid accommodate at least two filter units.As shown in figure 15, only in Y-axis On direction, the projection on filter layer 240 of every one first conductive grid of the first conductive layer 230 accommodate at least two filter single Unit.As shown in figure 16, simultaneously in X-axis and Y direction, every one first conductive grid of the first conductive layer 230 is in filter layer 240 On projection accommodate at least two filter units.

Specific in the present embodiment, described first conductive grid is in the filter unit projecting receiving of described filter layer 240 Quantity is not more than the filter unit quantity of the projection receiving in described filter layer 240 for described second conductive grid.Because first leads The live width of the first conductive thread 2322 of power grid is 0.2 μm～5 μm, as long as the second conductive thread 2322 of the second conductive grid It is not more than the live width of gridline.So the live width of the second conductive thread 2622 is larger, resistance is relatively small.So will be described The filter unit quantity of the projection receiving in described filter layer 240 for first conductive grid is arranged to no more than described second conductive mesh The filter unit quantity of the projection receiving in described filter layer 240 for the lattice, that is to say that the density of the first conductive grid is led more than second The density of power grid, thus reduce the resistance of the first conductive layer 230, it is to avoid the resistance difference of two conductive layers is too big.

Embodiment described above only have expressed the several embodiments of the present invention, and its description is more concrete and detailed, but simultaneously Therefore the restriction to the scope of the claims of the present invention can not be interpreted as.It should be pointed out that for those of ordinary skill in the art For, without departing from the inventive concept of the premise, some deformation can also be made and improve, these broadly fall into the guarantor of the present invention Shield scope.Therefore, the protection domain of patent of the present invention should be defined by claims.

Claims (8)

1. a kind of optical filter box, including substrate it is characterised in that also including：

First impressing glue-line, covers the surface in described substrate, and described first impressing glue-line offers the first groove；

First conductive layer, is embedded at described first impressing glue-line, including multiple spaced first conductive patterns, described first Conductive pattern includes the first conductive grid, and described first conductive grid is intersected to form by the first conductive thread, the first conductive thread Intersect to form grid node, described first conductive thread is contained in described first groove；

Filter layer, cover in described first impressing glue-line and the first conductive layer away from described substrate side, include light shielding part with Multiple filter units, described light shielding part is in lattice-shaped, including cross one another gridline, the space split by described gridline Form some grid cells, each filter unit is contained in a corresponding grid cell, the plurality of filter unit forms filter Light portion；

Second impressing glue-line, with the described first impressing glue-line be located at the same side of described substrate and cover in described filter layer away from The side of described substrate, described second impressing glue-line offers the second groove back on the surface of described substrate；

Second conductive layer, is embedded at described second impressing glue-line, including multiple spaced second conductive patterns, described second Conductive pattern includes the second conductive grid, and described second conductive grid is intersected to form by the second conductive thread, the second conductive thread Intersect to form grid node, described second conductive thread is contained in described second groove；

Wherein, the live width of described first conductive thread is 0.2 μm～5 μm, and described second conductive thread is in the throwing of described filter layer Shadow fully falls on described gridline, and the filter unit quantity of the projection receiving in described filter layer for described first conductive grid is not Filter unit quantity more than the projection receiving in described filter layer for described second conductive grid.

2. optical filter box according to claim 1 is it is characterised in that the two neighboring grid node of described first conductive layer Distance be 50 μm～800 μm, the live width of described second conductive thread is not more than the live width of described gridline.

3. optical filter box according to claim 1 is it is characterised in that described first conductive thread is in described filter layer Projection all falls within described gridline.

4. optical filter box according to claim 1 is it is characterised in that the thickness in described optical filtering portion is not less than described shading The thickness in portion.

5. optical filter box according to claim 1 is it is characterised in that described light shielding part is the photoetching with black dyes The lattice-shaped structure that glue is formed on the described first impressing glue-line.

6. optical filter box according to claim 1 is it is characterised in that two neighboring first the leading of described first conductive layer The interval width of electrical pattern is 0.5 μm～50 μm, the interval width of two neighboring second conductive pattern of described second conductive layer Width for a filter unit.

7. optical filter box as claimed in any of claims 2 to 3 is it is characterised in that described first conductive layer Projection on described filter layer for every one first conductive grid accommodates at least one filter unit, described second conductive layer every Projection on described filter layer for one second conductive grid accommodates at least one filter unit.

8. a kind of touch display screen it is characterised in that include stacks gradually TFT electrode, Liquid Crystal Module, optical filter box and partially Mating plate, described optical filter box is the optical filter box described in claim 1 to 7 any one.