CN104699292A - Method for strengthening substrate and substrate of touch device - Google Patents

Abstract

The invention discloses a method for strengthening a substrate and a substrate of a touch device, wherein the method for strengthening the substrate comprises the following steps: first, a first substrate is provided, wherein the first substrate has a side surface, a first surface and a second surface opposite to the first surface. Then, a first acid-resistant film and a second acid-resistant film are respectively attached to the first surface and the second surface of the first substrate. Then, an edge etching process is performed on the first substrate to which the first acid-resistant film and the second acid-resistant film are attached, so as to generate a corner guiding and strengthening effect on the side surface of the first substrate.

Description

The strengthening method of substrate and the substrate of contactor control device

Technical field

The present invention relates to and a kind ofly strengthen the method for substrate and the substrate of contactor control device, particularly a kind of method utilizing edge etch technique or/and edge coating technique substrate to be formed to strengthening effect with manufacture in this approach and be used in the substrate of contactor control device.

Background technology

In recent years, touch-control sensing technology develops by leaps and bounds, and many consumption electronic products such as mobile phone (mobile phone), GPS (GPS navigator system), panel computer (tablet PC), personal digital assistant (PDA) and notebook (laptop PC) etc. all have the product be combined with touch controllable function to release.In the structure of contact panel, be positioned at the substrate (being commonly referred to as overlay) in outside owing to need there is high mechanical properties in order to form protection, to cover or beautify the effect of corresponding intrument, thus generally normal with tempered glass formation overlay.But, when complete chemical enhanced glass carry out again cutting wait process after the strengthening layer of glass regional area may be caused to be removed or to produce do not have the new surface of strengthening layer, and then reduce the intensity of glass itself, therefore need the effect otherwise again substrate being formed to strengthening.

Summary of the invention

The object of the present invention is to provide and a kind ofly strengthen the method for substrate and the substrate of contactor control device, utilize edge etch technique or/and edge coating technique to form strengthening effect to the side of substrate, and manufacture the substrate being used in contactor control device in this approach.

The invention provides a kind of method strengthening substrate, comprise the following steps.First, provide one first substrate, the first substrate has a side, a first surface and one contrary with first surface second.Then, the first surface of the first substrate and second attach one first antiacid film and one second antiacid film respectively.Then, an edge etch process is carried out to the first substrate being pasted with the first antiacid film and the second antiacid film, in order to produce the effect of lead angle and strengthening to the side of the first substrate.

The invention provides a kind of method strengthening substrate, comprise the following steps.First, provide multiple first substrate, each first substrate has a side, a first surface and one contrary with first surface second.Then, the first surface of each first substrate and second attach one first antiacid film and one second antiacid film respectively.Again then, the mutual storehouse of several first substrate of the first antiacid film and the second antiacid film will be pasted with.Then, an edge etch process is carried out to several first substrates being pasted with the first antiacid film and the second antiacid film, in order to produce the effect of lead angle and strengthening to the side of each first substrate.

The invention provides a kind of method strengthening substrate, comprise the following steps.First, provide one first substrate, the first substrate has a side, a first surface and one contrary with first surface second.Then, the first surface of the first substrate and second attach one first barricade and one second barricade respectively.Then, an edge coating technique is carried out to the first substrate being pasted with the first barricade and the second barricade, in order to form a protective seam on the side of the first substrate.

The invention provides a kind of method strengthening substrate, comprise the following steps.First, provide multiple first substrate, each first substrate has a side, a first surface and one contrary with first surface second.Then, the first surface of each first substrate and second attach one first barricade and one second barricade respectively.Again then, the mutual storehouse of several first substrate of the first barricade and the second barricade will be pasted with.Then, an edge coating technique is carried out to several first substrates being pasted with the first barricade and the second barricade, in order to form a protective seam on the side of each first substrate.

The invention provides a kind of method strengthening substrate, comprise the following steps.First, provide multiple first substrate, each first substrate has a side, a first surface and one contrary with first surface second.The first surface of each first substrate and one of them face of second are formed with a touch control component.Then, between every two adjacent the first substrates a configuration barricade and with the mutual storehouse of the first substrate.Then, an edge etch process is carried out to the first substrate, in order to produce the effect of lead angle and strengthening to each side of the first substrate.

The invention provides a kind of substrate of contactor control device, comprise one first substrate, first substrate has a side, a first surface and one contrary with first surface second, side comprises one the 3rd, a fourth face and one the 5th, 3rd face connects with first surface, 5th connects with the second face, and fourth face is arranged between the 3rd and the 5th.3rd with the 5th face wherein at least one be at least partly cambered surface, and the 3rd, fourth face and the 5th face wherein at least one there is dentalation.

The substrate of the contactor control device of an other embodiment of the present invention also comprises a touch control component and is arranged in the first substrate, and wherein touch control component is arranged on one of them face of first surface and second.

In the substrate of the contactor control device of an other embodiment of the present invention, the first substrate is included in the substrate of glass that side is formed with exchange ion strengthening layer.

In the substrate of the contactor control device of an other embodiment of the present invention, the 3rd is greater than 0.01 millimeter with distance in a horizontal direction of the intersection of first surface and fourth face or second and the intersection of the 5th and fourth face distance in the horizontal direction and is less than 0.2 millimeter.

In the substrate of the contactor control device of an other embodiment of the present invention, the 3rd is greater than 0.05 millimeter with distance in a horizontal direction of the intersection of first surface and fourth face or second and the intersection of the 5th and fourth face distance in the horizontal direction and is less than 0.1 millimeter.

The invention provides a kind of substrate of contactor control device, comprise one first substrate and a protective seam.First substrate has a side, a first surface and one contrary with first surface second.Side comprises one the 3rd, a fourth face and one the 5th, and the 3rd face connects with first surface, and the 5th connects with the second face, and fourth face is arranged between the 3rd and the 5th.Protective seam is arranged on the side of the first substrate, and protective seam covers side at least partly, and protective seam has at least one polished surface, and polished surface is corresponding with the 3rd or the 5th in a horizontal direction arranges.

In the substrate of the contactor control device of an other embodiment of the present invention, the 3rd is less than 45 degree with the angle of fourth face, and the 5th is less than 45 degree with the angle of fourth face.

In the substrate of the contactor control device of an other embodiment of the present invention, the thickness of protective seam is less than 30 microns.

In the substrate of the contactor control device of an other embodiment of the present invention, the 3rd, fourth face and the 5th face be respectively a plane, and polished surface is a cambered surface.

In the substrate of the contactor control device of an other embodiment of the present invention, the 3rd, fourth face and the 5th be continuous print cambered surface, and polished surface is a cambered surface.

The invention provides a kind of substrate of contactor control device, comprise one first substrate and a protective seam.First substrate has a side, a first surface and one contrary with first surface second.Side comprises one the 3rd, a fourth face and one the 5th.3rd connects with first surface, and the 5th connects with the second face, and fourth face is arranged between the 3rd and the 5th.Protective seam is arranged on the side of the first substrate, and wherein protective seam covers side at least partly, and protective seam has at least one abrasive surface, and abrasive surface comprises one the 6th, one the 7th and an octahedral.6th connects with the first substrate with octahedral, and the 7th face is arranged between the 6th and octahedral, and the 6th, the 7th and octahedral are respectively a plane or a cambered surface.

The substrate of the contactor control device of an other embodiment of the present invention also comprises a decorative layer and a shielding layer.Decorative layer is arranged in the first substrate, and shielding layer is arranged in the first substrate, and at least part of protective mulch of shielding layer and decorative layer.

The substrate of the contactor control device of an other embodiment of the present invention also comprises a functional rete, is arranged in the first substrate, and wherein functional rete has antifouling, anti-hyun, to increase the function such as transmittance and protection wherein at least one function.

In the substrate of the contactor control device of an other embodiment of the present invention, the thickness of protective seam is greater than 60 microns.

In the substrate of the contactor control device of an other embodiment of the present invention, the thickness of protective seam is between 80 microns to 120 microns.

In the substrate of the contactor control device of an other embodiment of the present invention, the 3rd, fourth face and the 5th face be respectively a plane.

The invention provides a kind of substrate of contactor control device, comprise one first substrate and a protective seam.First substrate has a side, a first surface and one contrary with first surface second.Side comprises one the 3rd, a fourth face and one the 5th.3rd connects with first surface, and the 5th connects with the second face, and fourth face is arranged between the 3rd and the 5th.3rd is less than 45 degree with the angle of fourth face, and the 5th is less than 45 degree with the angle of fourth face.One protective seam is arranged on the side of the first substrate, and wherein protective seam covers side at least partly.

Accompanying drawing explanation

Figure 1 shows that the schematic flow sheet of the method for the strengthening substrate of the embodiment of the present invention 1;

Fig. 2 and the schematic diagram of method of strengthening substrate that Figure 3 shows that the embodiment of the present invention 1;

Figure 4 shows that the schematic diagram of the substrate of the contactor control device of this practical inventive embodiments 1;

Figure 5 shows that the schematic flow sheet of the method for the strengthening substrate of the embodiment of the present invention 2;

Fig. 6 is to the schematic diagram of method of strengthening substrate that Figure 14 shows that the embodiment of the present invention 2;

Figure 15 shows that the schematic diagram of the method for the strengthening substrate of the embodiment of the present invention 3;

Figure 16 shows that the schematic flow sheet of the method for the strengthening substrate of the embodiment of the present invention 4;

Figure 17 shows that the schematic diagram of the method for the strengthening substrate of the embodiment of the present invention 4;

Figure 18 and the schematic diagram of method of strengthening substrate that Figure 19 shows that the embodiment of the present invention 5;

Figure 20 shows that the schematic diagram of the method for the strengthening substrate of the embodiment of the present invention 6;

Figure 21 is depicted as the schematic diagram of the substrate of the contactor control device of the embodiment of the present invention 7.

Wherein, description of reference numerals is as follows:

100,201,202, the substrate of 300-303 contactor control device

110 first substrates

110A first surface

110B second

110S side

120 antiacid films

The antiacid film of 120A first

The antiacid film of 120B second

180 touch control components

190 etching solutions

220 barricades

220A first barricade

220B second barricade

230 protective seams

230P polished surface

230S abrasive surface

290 spray equipments

391 decorative layers

392 shielding layers

393 functional retes

A1 first angle

A2 second angle

A3 the 3rd angle

A4 the 4th angle

A5 the 5th angle

A6 the 6th angle

D distance

H horizontal direction

S3 the 3rd

S4 fourth face

S5 the 5th

S6 the 6th

S7 the 7th

S8 octahedral

S11-S15, S22-26, S36 step

T dentalation

TK thickness

Z vertical projection direction

Embodiment

For making those skilled in the art can understand the present invention further, hereafter spy enumerates several specific embodiment of the present invention, and coordinates accompanying drawing, describes technical scheme of the present invention in detail.

Embodiment 1

Please refer to Fig. 1 to Fig. 4.Figure 1 shows that the schematic flow sheet of the method for the strengthening substrate of the embodiment of the present invention 1, Fig. 2 and the schematic diagram of method of strengthening substrate that Figure 3 shows that the embodiment of the present invention 1, Figure 4 shows that the schematic diagram of the substrate of the contactor control device of the present embodiment.For convenience of description, each accompanying drawing of the present invention is only signal in order to easily to understand the present invention, and its detailed ratio can adjust according to the demand of design.The method of the strengthening substrate of embodiments of the invention 1 comprises the following steps.First, as shown in Figures 1 and 2, carry out step S11, provide one first substrate 110, first substrate 110 to have a side 110S, a first surface 110A and one second 110B contrary with first surface 110A.First surface 110A and second 110B are upper and lower surface relative on the vertical projection direction Z of vertical first substrate 110, and side 110S can be considered the residue side surface of the first substrate 110 except first surface 110A and second 110B, but not as limit.In other words, side 110S can be considered the first surface of substrate 110 on a horizontal direction H, and horizontal direction H is orthogonal with vertical projection direction Z, but not as limit.First substrate 110 can comprise the substrate that substrate of glass, sapphire substrates, ceramic bases, plastic cement substrate or other applicable materials are formed.First substrate 110 of the present embodiment preferably formed via cutting by more large stretch of substrate, therefore the physical strength of its side 110S is relatively weak, but not as limit.Such as, in other embodiments, the first substrate also can be the substrate that side has after chemistry or physics mode strengthening, such as after ion-exchange or thermal treatment, be formed with the substrate of glass of exchange ion strengthening layer in side.

Then, carry out step S12, first surface 110A and second 110B of the first substrate 110 attaches primary antibodie sorrel 120 respectively, for example one first antiacid film 120A and one second antiacid film 120B can be attached on first surface 110A and second 110B of the first substrate 110 respectively.Then, as shown in Figures 1 and 3, step S13 is carried out, by multiple the first substrate 110 storehouse being mutually pasted with the first antiacid film 120A and the second antiacid film 120B.Afterwards, carry out step S14, carry out an edging technique together to the first substrate 110 of storehouse, this edging technique preferably utilizes numerically-controlled machine (computer numeralcontrol, CNC) to carry out, but not as limit.Then, carry out step S15, an edge etch process is carried out to the first substrate 110 being pasted with the first antiacid film 120A and the second antiacid film 120B, in order to produce the effect of lead angle and strengthening to the side 110S of the first substrate 110.After above-mentioned technique, the first antiacid film 120A and the second antiacid film 120B can be removed the substrate 100 in order to form contactor control device as shown in Figure 4.

In the present embodiment, the first substrate 110 being pasted with the first antiacid film 120A and the second antiacid film 120B can be utilized to be immersed in an etching solution 190 and to carry out above-mentioned edge etch technique, but not as limit.The material of visual first substrate 110 of composition of etching solution 190 is different and adjust, for example, when the first substrate 110 is a substrate of glass, can select to be used as etching solution 190 with hydrofluorite (HF), antiacid film 120 then preferably can the film material of resistant to hydrogen fluoric acid or glue material, in other embodiments, antiacid film can be anti-etching etchant resist material or glue material.Except carrying out partly or entirely removing in order to produce except strengthening effect to the slight crack (crack) of the side 110S of the first substrate 110 when passing through edge etch technique, antiacid film 120 also can be utilized to attach the relatively weak characteristic of power at the first substrate 110 edge, and the effect of lead angle can be produced simultaneously at side 110S.What deserves to be explained is, the present embodiment is by multiple the first substrate 110 storehouse being mutually pasted with the first antiacid film 120A and the second antiacid film 120B, in order to carry out edging technique and edge etch technique in the lump, mode reaches batch effect of production in order to shorten man-hour whereby.But the present invention is not as limit, in other embodiments of the invention, edge etch technique is carried out in first substrate 110 that also only can be pasted with the first antiacid film 120A and the second antiacid film 120B with monolithic.In other words, in the method for the strengthening substrate of the present embodiment, directly can carry out step S15 (skipping step S13 and step S14) after step s 12 or directly can carry out step S14 and step S15 (skipping step S13) afterwards after step s 12.

It is worth mentioning that, if design the first antiacid film 120A and the second antiacid film 120B is greater than the first substrate 110, then also can be recessed within the first antiacid film 120A and the second antiacid film 120B in order to make the first substrate 110, in order to formed follow-up be used for carrying out edge etch technique time required space, whereby when carrying out edge etch strengthening, synchronously carry out lead angle operation, thus tradition can be saved utilize external tool to carry out the operation of lead angle.In addition, in other embodiments, such as can after edging technique be carried out to the first substrate 110, the first antiacid film 120A and the second antiacid film 120B is attached respectively again at first surface 110A and second 110B of the first substrate 110, and optionally several first substrate 110 of storehouse mutually, carry out edge etch operation more afterwards, at the same time, the design of the first substrate 110 and antiacid film 120 is greater than at the first substrate 110 edge than being easier to be eclipsed the characteristic of carving liquid 190 and invading by the first antiacid film 120A and the second antiacid film 120B, the effect of lead angle synchronously can be produced to the side 110S of the first substrate 110.

As shown in Figure 4, the substrate 100 of the contactor control device of the present embodiment comprises one first substrate 110.First substrate 110 has a side 110S, a first surface 110A and one second 110B contrary with first surface 110A, side 110S comprises one the 3rd S3, a fourth face S4 and the 5th S5,3rd S3 connects with first surface 110A, 5th S5 connects with second 110B, and fourth face S4 is arranged between the 3rd S3 and the 5th S5.In the present embodiment, 3rd S3 and the 5th S5 wherein at least one be cambered surface at least partly, between first surface 110A and the 3rd S3, there is one first included angle A 1, between second 110B and the 5th S5, there is one second included angle A 2, first included angle A 1 and the second included angle A 2 are preferably greater than 135 degree respectively, and the first included angle A 1 and the second included angle A 2 are preferably less than 155 degree respectively, but not as limit.In addition, because the 3rd S3, fourth face S4 and the 5th S5 are directly contact with etching solution in above-mentioned edge etch technique, thus the 3rd S3, fourth face S4 and the 5th S5 wherein at least one can because being had dentalation T (also can be considered groove structure) by etching.In addition, owing to being form the 3rd S3, fourth face S4 and the 5th S5 by edge etch technique, therefore the distance of the intersection of fourth face S4 and first surface 110A and the 3rd S3 can be reduced.For example, the intersection of fourth face S4 and first surface 110A and the 3rd S3 or with the intersection of second 110B and the 5th S5 in the horizontal direction H on there is a distance D, distance D is greater than 0.01 millimeter and is less than 0.2 millimeter, and distance D is preferably greater than 0.05 millimeter and is less than 0.1 millimeter, but not as limit.In addition, the substrate 100 of the contactor control device of the present embodiment also can comprise a touch control component 180 and be arranged on first surface 110A or second 110B of the first substrate 110, but not as limit.In other words, all optionally also can be included in the first substrate 110 in the method for the method of the strengthening substrate of above-mentioned the present embodiment and the strengthening substrate of other embodiments described later and form touch control component 180, and touch control component 180 is formed on one of them face of first surface 110A and second 110B.Also optionally touch control component 180 can be arranged in other embodiments of the invention other substrates are combined with the first substrate 110 and form contactor control device.What deserves to be explained is, touch control component 180 can be formed in the first substrate 110 after or before above-mentioned edge etch technique.In addition, the first substrate 110 also can optionally be formed with decorative layer (not shown), and the technique of this decorative layer also can be carried out after or before above-mentioned edge etch technique.

Hereafter will be described for different embodiments of the invention, and be simplified illustration, and below illustrate that the part mainly for each embodiment is different describes in detail, and no longer identical part is repeated.In addition, assembly identical in various embodiments of the present invention indicates with identical label, checks one against another between each embodiment in order to convenient.

Embodiment 2

Please refer to Fig. 5 to Figure 14.Figure 5 shows that the schematic flow sheet of the method for the strengthening substrate of the embodiment of the present invention 2.Fig. 6 is to the schematic diagram of method of strengthening substrate that Figure 14 shows that the embodiment of the present invention 2.The method of the strengthening substrate of the embodiment of the present invention 2 comprises the following steps.First, as shown in Fig. 5 to Fig. 7, carry out step S11, provide one first substrate 110, first substrate 110 to have a side 110S, a first surface 110A and one second 110B contrary with first surface 110A.Then, carry out step S22, a lead angle treatment process is carried out to the side 110S of the first substrate 110, in order to form the situation of the side 110S of the first substrate 110 as shown in Figures 6 and 7.The lead angle treatment process of the present embodiment is preferred for a physical treatment technique and such as utilizes CNC to carry out, but not as limit.As shown in Figures 6 and 7, after above-mentioned lead angle treatment process, side 110S can comprise one the 3rd S3, a fourth face S4 and the 5th S5,3rd S3 connects with first surface 110A, 5th S5 connects with second 110B, and fourth face S4 is arranged between the 3rd S3 and the 5th S5.3rd S3, fourth face S4 and the 5th S5 can be respectively a plane (as shown in Figure 6, be commonly referred to as C angle), or the 3rd S3, fourth face S4 and the 5th S5 also can be continuous print cambered surface (as shown in Figure 7, being commonly referred to as R angle), but not as limit.In the present embodiment, have between first surface 110A and the 3rd S3 and between one the 3rd included angle A, 3, second 110B and the 5th S5, there is one the 4th included angle A the 4, three included angle A 3 and the 4th included angle A 4 is preferably less than 130 degree respectively, but not as limit.

Then, optionally carry out step S23, an edge etch reinforcement process is carried out to the first substrate 110, in order to form strengthening effect to the side 110S of the first substrate 110.But not as limit.Such as also can change and replace with polishing operation, or change and adopt ion-exchange process, the side 110S in order to the first substrate 110 forms chemical enhanced effect; Certainly, step S23 and above-mentioned polishing, ion-exchange process also can not be carried out.Then, as shown in Fig. 5 and Fig. 8, carry out step S24, first surface 110A and second 110B of the first substrate 110 attaches a barricade 220 respectively, for example one first barricade 220A and one second barricade 220B can be attached on first surface 110A and second 110B of the first substrate 110 respectively.What deserves to be explained is, first barricade 220A and the second barricade 220B is preferably greater than the first substrate 110, in order to make the first substrate 110 be recessed within the first barricade 220A and the second barricade 220B, in order to formed follow-up be used for carrying out edge coating technique time required space.In addition, in the method for the strengthening substrate of the present embodiment, also optionally optionally can directly carry out step S24 (skipping step S22 and step S23) after step s 11, directly can carry out step S23 and step S24 (skipping step S22) afterwards after step s 11 or can directly carry out step S24 (skipping step S23) after step s 22.The shelves wall of the present embodiment can comprise insulation diaphragm or antiacid diaphragm, but not as limit.

Then, as shown in Fig. 5, Fig. 9 and Figure 10, carry out step S25, by multiple the first substrate 110 storehouse being mutually pasted with the first barricade 220A and the second barricade 220B.What deserves to be explained is, two mutual storehouses and the first barricade 220A and the second barricade 220B (as shown in Figure 9) can be had between the first adjacent substrate 110, or two mutual storehouses and only can have a barricade 220 (as shown in Figure 10) between the first adjacent substrate 110, in order to reduce the integral thickness of the first substrate 110 of storehouse, but not as limit.Afterwards, as shown in Fig. 5, Figure 11 and Figure 12, carry out step S26, an edge coating technique is carried out, in order to form a protective seam 230 on the side 110S of the first substrate 110 to the first substrate 110 being pasted with the first barricade 220A and the second barricade 220B.Protective seam 230 can comprise organic material, inorganic material or organic-inorganic hybrid material, and the wet mode such as above-mentioned edge coating technique can comprise spraying, wiping, immerses, transfer printing, but not as limit.For example, as shown in figure 11, a spray equipment 290 can be utilized from top to bottom the first substrate 110 to be carried out to the spraying of UV glue, but not as limit.In addition, a curing process such as ultraviolet light (UV) solidification or heat curing mode also can be utilized to produce solidification effect to protective seam 230.In addition, the present embodiment is by multiple the first substrate 110 storehouse being mutually pasted with the first barricade 220A and the second barricade 220B, and in order to carry out edge coating technique in the lump, mode reaches batch effect of production in order to shorten man-hour whereby.But the present invention is not as limit, in other embodiments of the invention, edge coating technique is carried out in first substrate 110 that also only can be pasted with the first barricade 220A and the second barricade 220B with monolithic.In other words, in the method for the strengthening substrate of the present embodiment, can directly carry out step S26 (skipping step S25) after step S24, but not as limit.

As shown in Figure 12 to Figure 14; after above-mentioned edge coating technique; the protective seam 230 formed may have ox horn phenomenon; therefore ox horn technique need be carried out after removing the first barricade 220A and the second barricade 220B; such as available metal cloth removes the ox horn of protective seam 230; in order to form the substrate 201 of contactor control device as shown in fig. 13 that, or form the substrate 202 of the contactor control device as shown in the 14th.As shown in figure 13, the substrate 201 of contactor control device comprises the first substrate 110 and protective seam 230.First substrate 110 has a side 110S, a first surface 110A and one second 110B contrary with first surface 110A.Side 110S comprises one the 3rd S3, a fourth face S4 and the 5th S5, and the 3rd S3 connects with first surface 110A, and the 5th S5 connects with second 110B, and fourth face S4 is arranged between the 3rd S3 and the 5th S5.Protective seam 230 is arranged on the side 110S of the first substrate 110, and protective seam 230 covers side 110S at least partly.In other words, protective seam 230 can cover side 110S comprehensively, or also optionally only partly can cover side 110S, such as, can only cover fourth face S4 and expose the 3rd S3 and the 5th S5, but not as limit.In addition, protective seam 230 through above-mentioned go ox horn technique after there is at least one polished surface 230P, polished surface 230P can be a cambered surface, and polished surface 230P is corresponding with the 3rd S3 or the 5th S5 on H in the horizontal direction setting, but not as limit.As shown in figures 13 and 14, with the difference of the substrate 201 of contactor control device, the substrate 202 of contactor control device is only that its side 110S is R angle or C angle.In addition, the substrate 201 of contactor control device also optionally can comprise a touch control component 180 respectively with the substrate 202 of contactor control device and be arranged on first surface 110A or second 110B of the first substrate 110, but not as limit.Also optionally touch control component 180 can be arranged in other embodiments of the invention other substrates are combined with the first substrate 110 and form contactor control device.It is worth mentioning that, the subregion that the first barricade 220A and the second barricade 220B at least exceeds substrate 110 at it if can design does not possess viscosity, then can improve ox horn phenomenon further.

Embodiment 3

Please refer to Figure 15.Figure 15 shows that the schematic diagram of the method for the strengthening substrate of the embodiment of the present invention 3.The place different from above-described embodiment 2 is; in the method for the strengthening substrate of the present embodiment; a spray equipment 290 can be utilized to spray the first substrate 110 from lower to upper, in order to form protective seam 230, in order to the thickness utilizing terrestrial attraction to increase protective seam 230.In addition, terrestrial attraction also can be utilized to improve problem that above-mentioned protective seam 230 has ox horn.After having sprayed, then remove the first barricade 220A and the second barricade 220B.In addition, in the present invention, also can form one or more layers functional rete in the substrate of every a slice first, every a slice functional membrane layer can be that selectivity at least has antifouling, anti-hyun, to increase transmittance or/and protection function.

Embodiment 4

Please refer to Figure 16 and Figure 17.Figure 16 shows that the schematic flow sheet of the method for the strengthening substrate of the embodiment of the present invention 4.Figure 17 shows that the schematic diagram of the method for the strengthening substrate of the embodiment of the present invention 4.As shown in figure 16 and figure 17; the place different from above-described embodiment 1 is; the method of the strengthening substrate of the present embodiment also comprises carries out a step S36 after the step s 15; one edge coating technique is carried out, in order to form a protective seam 230 on the side 110S of the first substrate 110 to the first substrate 110 being pasted with the first antiacid film 120A and the second antiacid film 120B.In addition, the place different from above-described embodiment 2 is, the method of the present embodiment directly utilizes the first antiacid film 120A and the second antiacid film 120B as barricade during edge coating technique, forms follow-up being used for carry out the required space of edge coating technique because the first substrate 110 being pasted with the first antiacid film 120A and the second antiacid film 120B can be recessed in after edge etch technique within the first antiacid film 120A and the second antiacid film 120B.The edge coating technique of the present embodiment is except utilizing the first antiacid film 120A and the second antiacid film 120B as except barricade, remaining manufacturing process feature is similar to above-described embodiment 2 or embodiment 3, therefore repeats no more at this.The method of the present embodiment can carry out edge coating technique after edge etch technique, whereby further strengthening effect is produced to the side 110S of the first substrate 110, and also can utilize the first antiacid film 120A and the second antiacid film 120B as barricade during edge coating technique to reach simplified manufacturing technique and the effect using material.

Similarly, before step S14 also can advance to step S12, and the first antiacid film 120A can be designed and the second antiacid film 120B is greater than the first substrate 110, so, the design of the first substrate 110 and antiacid film 120 is greater than at the first substrate 110 edge than being easier to be eclipsed the characteristic of carving liquid 190 and invading by the first antiacid film 120A and the second antiacid film 120B, synchronously can produce the effect of lead angle to the side 110S of the first substrate 110, and can then again utilize the first antiacid film 120A and the second antiacid film 120B as barricade during edge coating technique.

As shown in figure 17, the substrate 300 of contactor control device can be produced by the method for above-mentioned strengthening substrate, the place different from above-described embodiment 2 is, in the side 110S of first substrate 110 of the present embodiment, 3rd S3 and the 5th S5 wherein at least one be cambered surface at least partly, between first surface 110A and the 3rd S3, there is one first included angle A 1, between second 110B and the 5th S5, there is one second included angle A 2, first included angle A 1 and the second included angle A 2 are preferably greater than 135 degree respectively, and the first included angle A 1 and the second included angle A 2 are preferably less than 155 degree respectively, but not as limit.In addition, because the 3rd S3, fourth face S4 directly contact with etching solution in above-mentioned edge etch technique with the 5th S5, thus the 3rd S3, fourth face S4 and the 5th S5 wherein at least one can because being had dentalation T (also can be considered groove structure) by etching.In addition, owing to being formed the 3rd S3, fourth face S4 and the 5th S5 by edge etch technique, therefore the distance of the intersection of fourth face S4 and first surface 110A and the 3rd S3 can be reduced.For example, the intersection of fourth face S4 and first surface 110A and the 3rd S3 or with the intersection of second 110B and the 5th S5 in the horizontal direction H on there is a distance D, distance D is greater than 0.01 millimeter and is less than 0.2 millimeter, and distance D is preferably greater than 0.05 millimeter and is less than 0.1 millimeter, but not as limit.In addition, the protective seam 230 of the present embodiment through above-mentioned go ox horn technique after there is at least one polished surface 230P, and polished surface 230P is corresponding with the 3rd S3 or the 5th S5 on H in the horizontal direction setting, but not as limit.The substrate 300 of the contactor control device of the present embodiment also can comprise a touch control component 180 and be arranged on first surface 110A or second 110B of the first substrate 110, but not as limit.Also optionally touch control component 180 can be arranged in other embodiments of the invention other substrates are combined with the first substrate 110 and form contactor control device.

Embodiment 5

Please refer to Figure 18 and Figure 19.Figure 18 and the schematic diagram of method of strengthening substrate that Figure 19 shows that embodiments of the invention 5.As shown in figure 18, the place different from above-described embodiment 2 is, in the method for the strengthening substrate of the present embodiment, the thickness TK of the protective seam 230 formed with edge coating technique is thicker, for example, the thickness TK of the protective seam 230 of the present embodiment after edge coating technique is more than 200 microns, between being preferably 400 microns to 500 microns, or can flush with the lateral border essence of the second barricade 220B with the first barricade 220A, in order to convenient processing and by coating technique summary, specifically, glue material can first be filled between the first barricade 220A (or first etchant resist) and the second barricade 220B (or second etchant resist), with scraper, unnecessary glue material is struck off and recycling again, need not management and control gluing situation, but not as limit.Then, as shown in figure 19, a grinding technics is carried out to protective seam 230, in order to make protective seam 230, there is an abrasive surface 230S.The substrate 301 of contactor control device as shown in figure 19 can be produced by the method for above-mentioned strengthening substrate.In other words, the place that the substrate 301 of the contactor control device of the present embodiment is different from above-described embodiment 2 is, the protective seam 230 of the present embodiment has an abrasive surface 230S.Above-mentioned grinding technics preferably utilizes numerically-controlled machine (CNC) to carry out, but not as limit.Abrasive surface 230S comprises one the 6th S6, one a 7th S7 and octahedral S8,6th S6 connects with the first substrate 110 with octahedral S8,7th S7 is at the 6th between S6 and octahedral S8, and the 6th S6, the 7th S7 and octahedral S8 can be respectively a plane (being namely commonly referred to as C angle), but the present invention is not as limit.In other embodiments of the invention, the 6th S6, the 7th S7 and octahedral S8 also can be continuous print cambered surface (being namely commonly referred to as R angle).In addition, what deserves to be explained is, after above-mentioned grinding technics; the thickness TK of protective seam 230 reduces, and such as thickness is more than 60um, preferably reduces between 80 microns to 120 microns; in order to make outward appearance better more unified, and intensity also obtains raising, but not as limit.In other words, by the method for the present embodiment, the thickness TK of the protective seam 230 formed during edge coating technique can be made thicker, the difficulty in process degree of edge coating technique can be reduced whereby, and then reach the object improving integrated artistic qualification rate.Also note that also can being optionally applied in other embodiments above-mentioned the mode that protective seam 230 carries out grinding technics of the present embodiment.

Embodiment 6

Please refer to Figure 20.Figure 20 shows that the schematic diagram of the method for the strengthening substrate of embodiments of the invention 6.As shown in figure 20, the place different from above-described embodiment 5 is, the method for the strengthening substrate of the present embodiment is also included in the first substrate 110 and forms decorative layer 391 and a shielding layer 392.Touch control component 180, decorative layer 391 and shielding layer 392 are preferably formed in the same side in the first substrate 110, but not as limit.For example, the touch control component 180 of the present embodiment, decorative layer 391 and shielding layer 392 are formed on the first surface 110A of the first substrate 110, second 110B of the first substrate 110 then optionally can form a functional rete 393, but not as limit.The substrate 302 of contactor control device as shown in figure 20 can be produced by the method for above-mentioned strengthening substrate.In other words, the place that the substrate 302 of the contactor control device of the present embodiment is different from above-described embodiment 5 is, the substrate 302 of contactor control device also comprises decorative layer 391, shielding layer 392 and functional rete 393 and is arranged in the first substrate 110.Functional rete 393 can have antifouling, anti-hyun, to increase the function such as transmittance and protection wherein at least one function.Decorative layer 391 and shielding layer 392 can be formed by ornament materials such as colored ink, colored photic anti-etching dose or other materials with color or material effect of single or multiple lift storehouse respectively.Shielding layer 392 preferably has close or identical color with decorative layer 391, but not as limit.Shielding layer 392 is at least part of protective mulch 230 and decorative layer 391 preferably, reaches the object of compensation first substrate 110 edge color developing effect whereby.In addition, shielding layer 392 also only can cover the 6th S6 of part, or extends outwardly to and cover the 7th S7.What deserves to be explained is; protective seam 230 also can optionally be selected formed with transparent or the coloured material of tool; and protective seam 230 also can have close or identical color with decorative layer 391 or/and shielding layer 392; in other words; thicker protective seam 230 provides the collocation of more outward appearance and selects; contactor control device can be made to have more variation, but not as limit.Also note that the decorative layer 391 of the present embodiment, shielding layer 392 or/and functional rete 393 also can optionally be applied in other embodiments above-mentioned.Other one carry be; in the above-described embodiments; although the side 110S of the first substrate 110 in accompanying drawing is all for C angle; but be not limited to this; such as also can be R angle or without the plane being processed into special shape; and can be the protective seam 230 (such as shown in above-mentioned Figure 13) at the side 110S collocation R angle of first substrate 110 at C angle; or the protective seam 230 at the side 110S collocation C angle of first substrate 110 at R angle, may also be the side 110S collocation C angle of the first plane substrate 110 or the protective seam 230 at R angle.

Embodiment 7

Please refer to Figure 21.Figure 21 is depicted as the schematic diagram of the substrate of the contactor control device of embodiments of the invention 7.As shown in figure 21; the place different from above-described embodiment 2 is; in the substrate 303 of the contactor control device of the present embodiment; 3rd has one the 5th included angle A 5 between S3 and fourth face S4; there is between fourth face S4 and the 5th S5 one the 6th included angle A 6; and the 5th included angle A 5 and the 6th included angle A 6 are less than 45 degree respectively; and be preferably less than or equal to 30 degree; make the surface undulation of the side 110S of the first substrate 110 relatively mild whereby, and then the thickness TK of the protective seam 230 of follow-up formation can be made to be less than 30 microns.In other words; in the side 110S of first substrate 110 of the present embodiment; the angle of the 3rd S3 and fourth face S4 is less than 45 degree; and the angle of the 5th S5 and fourth face S4 is less than 45 degree, makes still can effectively to cover the side 110S of the first substrate 110 whereby under the thickness TK of protective seam 230 is less than the situation of 30 microns and reach required protection and strengthening effect.What deserves to be explained is, the protective seam 230 of the present embodiment also optionally can as above be stated embodiment 2 and have a polished surface, but not as limit.The protective seam 230 of the present embodiment also can directly be formed by above-mentioned edge coating technique and not have polished surface.

In sum, the method for strengthening substrate of the present invention utilizes edge etch technique or/and edge coating technique to form strengthening effect to the side of substrate, and method manufacture is used in the substrate of contactor control device whereby.In addition, the present invention can also utilize the antiacid film used in edge etch reinforcement process as barricade during edge coating technique, whereby while respectively strengthening effect being produced to substrate with edge etch technique and edge coating technique, reach simplified manufacturing technique and the object using material.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (44)

1. strengthen a method for substrate, it is characterized in that, comprising:

There is provided at least one first substrate, described first substrate has a side, a first surface and one contrary with described first surface second;

The described first surface of described first substrate and described second attach one first antiacid film and one second antiacid film respectively; And

One edge etch process is carried out to described first substrate being pasted with described first antiacid film and described second antiacid film, in order to produce the effect of lead angle and strengthening to the described side of described first substrate.

2. the method for strengthening substrate according to claim 1, is characterized in that, also comprise: in described first substrate, form a touch control component, wherein said touch control component is formed in described first

On one of them face of face and described second.

3. the method for strengthening substrate according to claim 1, is characterized in that, also comprise: provide multiple described first substrate;

The described first surface of each described first substrate and described second attach described first antiacid film and described second antiacid film respectively;

The mutual storehouse of described first substrate of described first antiacid film and described second antiacid film will be pasted with;

And

Described edge etch technique is carried out to described first substrate being pasted with described first antiacid film and described second antiacid film, in order to produce the effect of lead angle and strengthening to the described side of each described first substrate.

4. the method for strengthening substrate according to claim 3, is characterized in that, also comprise:

Before described edge etch technique, carry out an edging technique together to described first substrate of storehouse, wherein said edge etch technique is the slight crack of the described side of removing described first substrate at least partly.

5. the method for strengthening substrate according to claim 1, is characterized in that, described first substrate is recessed within described first antiacid film and described second antiacid film.

6. the method for strengthening substrate according to claim 1, it is characterized in that, described side comprises one the 3rd, a fourth face and one the 5th, described 3rd connects with described first surface, described 5th connects with described second face, described fourth face is arranged between described 3rd and described 5th, wherein said 3rd with described 5th face wherein at least one be at least partly cambered surface, and described 3rd, described fourth face and described 5th face wherein at least one there is dentalation.

7. strengthen a method for substrate, it is characterized in that, comprising:

There is provided at least one first substrate, described first substrate has a side, a first surface and one contrary with described first surface second;

The described first surface of described first substrate and described second attach one first barricade and one second barricade respectively; And

One edge coating technique is carried out to described first substrate being pasted with described first barricade and described second barricade, in order to form a protective seam on the described side of described first substrate.

8. the method for strengthening substrate according to claim 7, is characterized in that, also comprise:

Described first substrate forms a touch control component, and wherein said touch control component is formed on one of them face of described first surface and described second.

9. the method for strengthening substrate according to claim 7, is characterized in that, also comprise:

Described first substrate is formed a decorative layer and a shielding layer, and wherein said shielding layer covers described protective seam and described decorative layer at least partly.

10. the method for strengthening substrate according to claim 7, is characterized in that, also comprise:

Multiple described first substrate is provided;

The described first surface of each described first substrate and described second attach described first barricade and described second barricade respectively;

The mutual storehouse of described first substrate of described first barricade and described second barricade will be pasted with; And described edge coating technique is carried out to described first substrate being pasted with described first barricade and described second barricade, in order to form described protective seam on the described side of each described first substrate.

The method of 11. strengthening substrates according to claim 7, is characterized in that, also comprise:

One grinding technics is carried out to described protective seam; in order to make described protective seam, there is an abrasive surface; wherein said abrasive surface comprises one the 6th, one the 7th and an octahedral; described 6th connects with described first substrate with described octahedral; described 7th face is between described 6th and described octahedral, and described 6th, described 7th and described octahedral be respectively a plane or a cambered surface.

The method of 12. strengthening substrates according to claim 11, it is characterized in that, the thickness of described protective seam before described grinding technics is more than or equal to 200 microns, and the thickness of described protective seam after described grinding technics is more than or equal to 60 microns.

The method of 13. strengthening substrates according to claim 11, is characterized in that, also comprise:

Before described grinding technics, the described protective seam exceeding described first barricade and described second barricade is removed.

The substrate of 14. 1 kinds of contactor control devices, is characterized in that, comprising:

One first substrate, described first substrate has a side, a first surface and one contrary with described first surface second, wherein said side comprises one the 3rd, a fourth face and one the 5th, described 3rd connects with described first surface, described 5th connects with described second face, described fourth face is arranged between described 3rd and described 5th, wherein said 3rd with described 5th face wherein at least one be at least partly cambered surface, and described 3rd, described fourth face and described 5th face wherein at least one there is dentalation.

The substrate of 15. contactor control devices according to claim 14, is characterized in that, also comprises a touch control component and is arranged in described first substrate, and wherein said touch control component is arranged on one of them face of described first surface and described second.

The substrate of 16. contactor control devices according to claim 14, is characterized in that, described first substrate is included in the substrate of glass that side is formed with exchange ion strengthening layer.

The substrate of 17. contactor control devices according to claim 14, it is characterized in that, described 3rd is greater than 0.01 millimeter with distance in a horizontal direction of the intersection of described first surface and described fourth face or described second with the intersection of described 5th and the distance of described fourth face in described horizontal direction and is less than 0.2 millimeter.

The substrate of 18. contactor control devices according to claim 14, it is characterized in that, described 3rd is greater than 0.05 millimeter with distance in a horizontal direction of the intersection of described first surface and described fourth face or described second with the intersection of described 5th and the distance of described fourth face in described horizontal direction and is less than 0.1 millimeter.

The substrate of 19. 1 kinds of contactor control devices, is characterized in that, comprising:

One first substrate, described first substrate has a side, a first surface and one contrary with described first surface second, wherein said side comprises one the 3rd, a fourth face and one the 5th, described 3rd connects with described first surface, described 5th connects with described second face, and described fourth face is arranged between described 3rd and described 5th; And

One protective seam; be arranged on the described side of described first substrate; wherein said protective seam covers described side at least partly, and described protective seam has at least one polished surface, and described polished surface correspondingly to be arranged with described 3rd or described 5th in a horizontal direction.

The substrate of 20. contactor control devices according to claim 19, is characterized in that, also comprises a touch control component and is arranged in described first substrate, and wherein said touch control component is arranged on one of them face of described first surface and described second.

The substrate of 21. contactor control devices according to claim 19, is characterized in that, described 3rd is less than 45 degree with the angle of described fourth face, and described 5th is less than 45 degree with the angle of described fourth face.

The substrate of 22. contactor control devices according to claim 19, is characterized in that, the thickness of described protective seam is less than 30 microns.

The substrate of 23. contactor control devices according to claim 19, is characterized in that, described first substrate is included in the substrate of glass that side is formed with exchange ion strengthening layer.

The substrate of 24. contactor control devices according to claim 19, it is characterized in that, described 3rd is greater than 0.01 millimeter with distance in a horizontal direction of the intersection of described first surface and described fourth face or described second with the intersection of described 5th and the distance of described fourth face in described horizontal direction and is less than 0.2 millimeter.

The substrate of 25. contactor control devices according to claim 19, it is characterized in that, described 3rd is greater than 0.05 millimeter with distance in a horizontal direction of the intersection of described first surface and described fourth face or described second with the intersection of described 5th and the distance of described fourth face in described horizontal direction and is less than 0.1 millimeter.

The substrate of 26. contactor control devices according to claim 19, is characterized in that, described 3rd, described fourth face and described 5th face be respectively a plane, and described polished surface is a cambered surface.

The substrate of 27. contactor control devices according to claim 19, is characterized in that, described 3rd, described fourth face and described 5th be continuous print cambered surface, and described polished surface is a cambered surface.

28. 1 kinds of methods strengthening substrate, is characterized in that, comprising:

There is provided multiple first substrate, each described first substrate has a side, a first surface and one contrary with described first surface second, and the described first surface of wherein each described first substrate and one of them face of described second are formed with a touch control component;

A configuration barricade between every two adjacent described first substrates and with the mutual storehouse of described first substrate; And

One edge etch process is carried out to described first substrate, in order to produce the effect of lead angle and strengthening to each described side of described first substrate.

The method of 29. strengthening substrates according to claim 28, is characterized in that, also comprise:

One edge coating technique is carried out to described first substrate, in order to form a protective seam on the described side of each described first substrate.

The method of 30. strengthening substrates according to claim 29, is characterized in that, also comprise:

Remove described barricade, wherein each described barricade is an insulation diaphragm and primary antibodie sorrel sheet one wherein.

The method of 31. strengthening substrates according to claim 29, is characterized in that, also comprise:

One grinding technics is carried out to each described protective seam; in order to make described protective seam, there is an abrasive surface; wherein said abrasive surface comprises one the 6th, one the 7th and an octahedral; described 6th connects with described first substrate with described octahedral; described 7th face is located between described 6th and described octahedral, and described 6th, described 7th and described octahedral be respectively a plane or a cambered surface.

The method of 32. strengthening substrates according to claim 29, is characterized in that, also comprise:

Each described first substrate forms a decorative layer and a shielding layer, and wherein said shielding layer covers described protective seam and described decorative layer at least partly.

The method of 33. strengthening substrates according to claim 18, is characterized in that, also comprise:

Each described first substrate forms a functional rete, and wherein said functional rete has antifouling, anti-hyun, to increase the function such as transmittance and protection wherein at least one function.

The substrate of 34. 1 kinds of contactor control devices, is characterized in that, comprising:

One first substrate, described first substrate has a side, a first surface and one contrary with described first surface second, wherein said side comprises one the 3rd, a fourth face and one the 5th, described 3rd connects with described first surface, described 5th connects with described second face, and described fourth face is arranged between described 3rd and described 5th; And

One protective seam; be arranged on the described side of described first substrate; wherein said protective seam covers described side at least partly; described protective seam has at least one abrasive surface; described abrasive surface comprises one the 6th, one the 7th and an octahedral; described 6th connects with described first substrate with described octahedral, and described 7th face is arranged between described 6th and described octahedral, and described 6th, described 7th and described octahedral be respectively a plane or a cambered surface.

The substrate of 35. contactor control devices according to claim 34, is characterized in that, also comprises a touch control component and is arranged in described first substrate, and wherein said touch control component is arranged on one of them face of described first surface and described second.

The substrate of 36. contactor control devices according to claim 34, is characterized in that, also comprise:

One decorative layer, is arranged in described first substrate; And

One shielding layer, be arranged in described first substrate, wherein said shielding layer covers described protective seam and described decorative layer at least partly.

The substrate of 37. contactor control devices according to claim 34; it is characterized in that; also comprise a functional rete, be arranged in described first substrate, wherein said functional rete has antifouling, anti-hyun, to increase the function such as transmittance and protection wherein at least one function.

The substrate of 38. contactor control devices according to claim 34, is characterized in that, described first substrate is included in the substrate of glass that side is formed with exchange ion strengthening layer.

The substrate of 39. contactor control devices according to claim 34, is characterized in that, the thickness of described protective seam is greater than 60 microns.

The substrate of 40. contactor control devices according to claim 34, is characterized in that, the thickness of described protective seam is between 80 microns to 120 microns.

The substrate of 41. contactor control devices according to claim 34, is characterized in that, described 3rd, described fourth face and described 5th face be respectively a plane.

The substrate of 42. 1 kinds of contactor control devices, is characterized in that, comprising:

One first substrate, described first substrate has a side, a first surface and one contrary with described first surface second, wherein said side comprises one the 3rd, a fourth face and one the 5th, described 3rd connects with described first surface, described 5th connects with described second face, described fourth face is arranged between described 3rd and described 5th, and described 3rd is less than 45 degree with the angle of described fourth face, and described 5th is less than 45 degree with the angle of described fourth face;

And

One protective seam, be arranged on the described side of described first substrate, wherein said protective seam covers described side at least partly.

The substrate of 43. contactor control devices according to claim 42, is characterized in that, the thickness of described protective seam is less than 30 microns.

The substrate of 44. contactor control devices according to claim 42, is characterized in that, described first substrate is included in the substrate of glass that side is formed with exchange ion strengthening layer.