CN204242136U - Contactor control device - Google Patents

Abstract

The utility model provides a kind of contactor control device, comprises: a bearing structure, comprises a thin layer; One sensed layer, is arranged at this bearing structure; And one first polarizing layer, tool polarity, and lay respectively at two opposition sides of this sensed layer with this thin layer.The utility model, through release, the reprinting of displacement base material, can allow thin layer more frivolous compared to general bearing substrate, and realize the lightening development of contactor control device.

Description

Contactor control device

Technical field

The utility model relates to a kind of contactor control device, refer to especially a kind of there is lightening design, contactor control device that good display effect and being easy to is manufactured.

Background technology

Touch Screen is the display screen that current various electronic product is conventional, for the lightening development trend of electronic product, also has corresponding requirement to the volume of Touch Screen, weight.But, because current Touch Screen can use more thick and heavy substrate (such as glass substrate) as the supporting substrate of induction electrode usually, be therefore difficult to realize lightening target.In addition, except lightening requirement, the display effect of Touch Screen and robustness are also the important indicators of its performance.

Utility model content

Therefore, a wherein object of the utility model, namely has lightening design and has the contactor control device of good display effect and robustness providing a kind of.

So the utility model contactor control device, comprises a bearing structure, a sensed layer and one first polarizing layer.This bearing structure comprises a thin layer.This sensed layer is arranged at this bearing structure.This first polarizing layer tool polarity, and lay respectively at two opposition sides of this sensed layer with this thin layer.

Preferably, contactor control device also comprises a liquid crystal module, this liquid crystal module comprises main body and one second polarizing layer that includes liquid crystal molecule, and the polarity of this second polarizing layer perpendicular to this first polarizing layer, and lays respectively at two opposition sides of this main body with this bearing structure.

Preferably, this bearing structure also comprises a cushion, this cushion and this thin layer mutually stacked, and between this thin layer and this sensed layer.

Implement in aspect one, contactor control device also comprises a protective seam, and this protective seam is arranged at this sensed layer, and lays respectively at two opposition sides of this sensed layer with this bearing structure.

Implement in aspect one, this contactor control device also comprises a cover plate, and this cover plate is arranged at this first polarizing layer, and lays respectively at two opposition sides of this first polarizing layer with this protective seam.

Preferably, this contactor control device also comprises a housing, and this housing is at least around the outer rim of this bearing structure, this sensed layer, this protective seam, this first polarizing layer and this liquid crystal module.

Implement in aspect one, the thickness of this thin layer is 0.1 micron to 15 microns.

Implement in aspect one, the thickness of this thin layer is 2 microns to 5 microns.

Implement in aspect one, the thermal expansivity of this cushion is between the thermal expansivity and the thermal expansivity of this sensed layer of this thin layer.

Implement in aspect one, this bearing bed and this sensed layer are formed on described first polarizing layer for being reprinted by a film.

Effect of the utility model is: the utility model, through release, the reprinting of displacement base material, can allow thin layer more frivolous compared to general bearing substrate, and realize the lightening development of contactor control device.In addition, by the setting of cushion, protective seam, the stress of contactor control device, the visible problem of electrode pattern can be improved, and protective effect is provided, and promote display effect and the robustness of contactor control device.

Accompanying drawing explanation

Fig. 1 is a schematic side view, and the first embodiment of the utility model contactor control device is described;

Fig. 2 is a process flow diagram, and the Making programme of the contactor control device of the first embodiment is described;

Fig. 3 to Fig. 8 is the manufacturing process schematic diagram of the contactor control device of the first embodiment;

Fig. 9 is a schematic side view, and the second embodiment of the utility model contactor control device is described;

Figure 10 is a process flow diagram, and the Making programme of the contactor control device of the second embodiment is described;

Figure 11 and Figure 12 is the part manufacturing process schematic diagram of the contactor control device of the second embodiment.

Embodiment

About addressing other technologies content, feature and effect before the utility model, in the detailed description of following cooperation with reference to graphic two embodiments, can clearly present.

At this, it should be noted that, orientation alleged in the detailed description of the utility model embodiment " on " and D score, only be used to represent relative position relationship, for the schematic side view such as Fig. 1, Fig. 9 of this instructions, top system is comparatively close to user, and below is then comparatively away from user, but these narrating contents about orientation shall not be applied to restriction embodiment of the present utility model.

In addition, before the utility model is described in detail, should be noted that in the following description content, similar element represents with identical numbering.

First embodiment:

Consulting Fig. 1, is the first embodiment of the utility model contactor control device 100.Herein, contactor control device 100 is be applied to lcd technology, and it comprises bearing structure 1, sensed layer 2, protective seam 3,1 first polarizing layer 4, cover plate 5, housing 6 and a liquid crystal module 8.

Bearing structure 1 is fitted by not shown adhesive coating and liquid crystal module 8, and it comprises mutually stacked thin layer 11 and a cushion 12.

Thin layer 11 is between liquid crystal module 8 and cushion 12, and in the manufacturing process of contactor control device 100, for providing cushion 12, sensed layer 2, protective seam 3 and the first polarizing layer 4 to make structure on it, this portion of techniques will illustrate in subsequent paragraph.In the present embodiment, thin layer 11 adopts polyimide (PI), polypropylene (PP), polystyrene (PS), acrylonitrile-butadiene-styrene (ABS) (ABS), polyethylene terephthalate (PET), Polyvinylchloride (PVC), polycarbonate (PC), tygon (PE), polymethylmethacrylate (PMMA), teflon, cyclic olefine copolymer (COP, etc. Arton) material makes, its structure can be single or multiple lift, and better employing polyimide (PI), thickness range is between 0.1 micron to 15 microns, goodly be about 2 microns to 5 microns, far be thinner than general glass substrate or flexible substrate, therefore the lightening of contactor control device 100 can be realized.

Cushion 12 is arranged at thin layer 11, and between thin layer 11 and sensed layer 2, it is the single or multiple lift membrane structure made by inorganic and organic material, and preferably thickness range between 1, how rice to 300 is how between rice, integral thickness is much smaller than thin layer 11.About the inorganic making cushion 12, titanium dioxide (TiO can be selected ₂), monox (SiO ₂), zirconia (ZrO ₂), tantalum oxide (Ta ₂o ₅), tungsten oxide (WO ₃), yttria (Y ₂o ₃), cerium oxide (CeO ₂), antimony oxide (Sb ₂o ₃), niobium oxide (Nb ₂o ₅), boron oxide (B ₂o ₃), aluminium oxide (Al ₂o ₃), zinc paste (ZnO), indium oxide (In ₂o ₃), cerium fluoride (CeF ₃), magnesium fluoride (MgF ₂), calcium fluoride (CaF ₂) etc. material.As for organic material part, then can select high molecular polymer or the resins such as acryl resin, polyimide (PI), polypropylene (PP), polystyrene (PS), acrylonitrile-butadiene-styrene copolymer (ABS), polyethylene terephthalate (PET), Polyvinylchloride (PVC), polycarbonate (PC), tygon (PE), polymethylmethacrylate (PMMA).And in different enforcement aspects, cushion 12 also can make by inorganic and organic material simultaneously.

In architectural characteristic part, cushion 12 can selecting according to above-mentioned material, by the characteristic of its thermal expansivity and mechanical property, provides diversified effect.In thermal expansivity part, that the thermal expansivity of cushion 12 is configured between thin layer 11 and sensed layer 2 in the present embodiment, therefore when temperature change, effectively can slow down the structural stress between each Rotating fields, and promote the robustness of contactor control device 100.And in mechanical property part, in the present embodiment, the hardness system of cushion 12 is greater than thin layer 11, therefore bearing structure 1 is lower by hardness but the ductility cushion 12 that preferably thin layer 11 coordinates hardness higher is formed, contribute to the release processing procedure carrying out base material in the manufacturing process of contactor control device 100, and promote the overall construction intensity of bearing structure 1.But in different enforcement aspects, bearing structure 1 also can omit the setting of cushion 12, and that is now bearing structure 1 only comprises the part of thin layer 11, and sensed layer is formed on the thin layer 11 of bearing structure 1.

Sensed layer 2 is arranged at bearing structure 1, and is positioned at two opposition sides of cushion 12 with thin layer 11, and it comprises many not shown touch-control sensing electrodes, can provide touch-control sensing function.In the present embodiment, the touch-control sensing electrode that sensed layer 2 includes can by tin indium oxide (ITO), aluminum zinc oxide (AZO), zinc paste (ZnO), tin-antiomony oxide (ATO), tin ash (SnO ₂), indium oxide (In ₂o ₃) etc. the conductive materials such as transparent conductive material or Nai meter Yin, how rice copper, carbon nanotube, metal grill make, when user touches cover plate 5, corresponding touch signal can be produced by this capacitance variation.

Protective seam 3 is arranged in sensed layer 2, and lays respectively at two opposition sides of sensed layer 2 with bearing structure 1, can reduce in manufacture process, the air of external environment, steam or other objectionable impurities to the harmful effect of sensed layer 2, to provide the effect of protection.Specifically, in the present embodiment, protective seam 3 is by titanium dioxide (TiO ₂), silicon dioxide (SiO ₂), zirconium dioxide (ZrO ₂), organic material make single or multiple lift structure, when sensed layer 2 is sandwich construction, also can by the configuration of suitable refractive index, thickness, and provide slow down sensed layer 2 have electrode zone and electrodeless region to the different effect causing the visible problem of electrode pattern of light reflection.But in different enforcement aspects, contactor control device 100 also can omit the setting of protective seam 3, and is not limited with the content disclosed herein.

First polarizing layer 4 tool polarity; it is arranged on protective seam 3; and lay respectively at two opposition sides of protective seam 3 with sensed layer 2; it is used as the upper polarizing layer (upper polarizer) of contactor control device 100; and by its polarized light property, the visible problem of electrode pattern of sensed layer 2 can be slowed down.

Cover plate 5 is arranged on the first polarizing layer 4, by laminating layer 51 and the first polarizing layer 4 bonded to each other, itself and protective seam 3 lay respectively at two opposition sides of the first polarizing layer 4, and are the surface structure of contactor control device 100.In the present embodiment, cover plate 5 can adopt hard or flexible material to make.Such as, cover plate 5 specifically can adopt the materials such as glass, sapphire glass, polyimide (PI), polypropylene (PP), polystyrene (PS), acrylonitrile-butadiene-styrene (ABS) (ABS), polyethylene terephthalate (PET), Polyvinylchloride (PVC), polycarbonate (PC), tygon (PE), polymethylmethacrylate (PMMA), teflon (PTFE) to make, and can strengthen the structural strength on its each surface further by intensive treatment.In addition, namely the upper surface of cover plate 5 supplies the surface of user's touch-control, can be configured to as Fig. 1 flat surface or optionally and be adjusted to have height rise and fall curved surfaces, or contactor control device 100 also can omit the setting of cover plate 5, directly using the first polarizing layer 4 as the surface structure of contactor control device 100, and be not limited with particular implementation kenel.

Housing 6 can adopt the material such as metal, plastic cement to make; and around the outer rim of bearing structure 1, sensed layer 2, protective seam 3, first polarizing layer 4, cover plate 5 and liquid crystal module 8; to provide the functions such as assembling, protection, decoration; and have the effect of covering contactor control device 100 perimeter circuit concurrently, thus be omitted on cover plate 5 additionally shielding layer is set.

Liquid crystal module 8 comprises main body 81 and one second polarizing layer 82 that includes liquid crystal molecule.Main body 81 includes the structures such as not shown liquid crystal layer, chromatic filter layer, membrane transistor layer, both alignment layers, for controlling the main member of the display frame of contactor control device 100.The polarity of the second polarizing layer 82 perpendicular to the first polarizing layer 4, and lays respectively at two opposition sides of main body 81 with bearing structure 1, is lower polarizing layer (lowerpolarizer) structure of contactor control device 100.

Consult the process flow diagram of Fig. 2 and the processing procedure schematic diagram of Fig. 3 ~ Fig. 8, the manufacture method of the contactor control device 100 of the present embodiment is below described.

Step S01: first, this step needs previously prepared one first polarizing layer 4, cover plate 5, housing 6, displacement base material 71 and a liquid crystal module 8.

Due to the manufacture method of the present embodiment, be perform by the release technology of base material, therefore in above-mentioned component, have partial component to belong to the temporary structure temporarily used in manufacture process, another partial component then belongs to the final structure of contactor control device 100.Specifically, displacement base material 71 belongs to above-mentioned temporary structure, therefore can adopt transparent/opaque substrate of the lower costs such as such as plain glass (raw glass), and can repeat to recycle.First polarizing layer 4, cover plate 5, housing 6 and liquid crystal module 8 then belong to final structure.

Step S02: consult Fig. 1, Fig. 3, this step will sequentially make adhesive coating 72, thin layer 11 and cushion 12 on displacement base material 71.

Adhesive coating 72 is arranged at the outer edge area of displacement base material 71, it belongs to the temporary structure in manufacturing process, the adhesion promoter (adhesionpromoter) of the functional group of functional group and the inorganic material of parent comprising close organic material can be adopted, by solution coating, then the mode of solidifying is formed on displacement base material 71.Because the tack between adhesive coating 72 and displacement base material 71 is better than the tack between thin layer 11 and displacement base material 71, therefore can the problem of bond strength deficiency between reinforcement thin layer 11 and displacement base material 71, be beneficial to processing procedure and carry out.And, according to adhesive coating 72, both thin layers 11 respectively for the characteristic that the tack of displacement base material 71 is different, contribute to the release program that successive process carries out replacing base material 71.But according to different embodiments, adhesive coating 72 whole formulas also can be arranged on displacement base material 71 by the present embodiment, or omit its setting, and are not limited with foregoing teachings.

The material that thin layer 11 can adopt aforementioned paragraphs to illustrate, is coated with heating and baking method again by solution and is formed on displacement base material 71, and can change its characteristic by composition, structure of modification, copolymerization, the method such as blended further.Although thin layer 11 be in subsequent fabrication process for the bearing structure of other structure fabrications on it, owing to replacing the support of base material 71, therefore can be made as thinner structural sheet, and the contactor control device 100 finally completed can be allowed to have more frivolous architectural characteristic.

Cushion 12 can make by the mode such as physical vapour deposition (PVD), chemical vapor deposition, solution coating solidification, printing, photoetching, can promote the load-bearing capacity of bearing structure 1, be convenient to follow-up carrying out and replace the release of base material 71.Certainly, depending on actual needs, this step also can omit the making of cushion 12.

Step S03: consult Fig. 1, Fig. 4, this step will make sensed layer 2 on cushion 12.Sensed layer 2 can comprise a patterned electrode layer, and sensed layer 2 can be the structure of single or multiple lift.Depending on the material of sensed layer 2, it can coordinate photoetching technique to make by the physical gas phase deposition technology such as sputter, evaporation, or also by fabrication techniques such as printing, sprayings, and can not be limited in particular production mode.

Step S04: consult Fig. 1, Fig. 5, this step will make protective seam 3 in sensed layer 2.Specifically; protective seam 3 can make by modes such as physical vapour deposition (PVD), chemical vapor deposition, ink jet printing (ink jet printing), slot coated (slit coating), spin coating (spin coating), spraying or rollers coating (roller coating), but is not limited with these technology.Certainly, depending on actual needs, the manufacture method of the present embodiment also can omit the making of step S06 to protective seam 3.

Step S05: consult Fig. 1, Fig. 6, this step will arrange the first polarizing layer 4 on protective seam 3.First polarizing layer 4 can fit on protective seam 3 by not shown adhesive coating, not only can be used as the upper polarizing layer of contactor control device 100, the supporting substrate after can also removing as displacement base material 71.

Step S06: consult Fig. 1, Fig. 6, Fig. 7, displacement base material 71 will remove by this step, and forms the structure as comprised bearing structure 1, sensed layer 2, protective seam 3, first polarizing layer 4 in Fig. 8.

Specifically, this step is wanted first to cut along the position (the L1 line as in Figure 13) of corresponding adhesive coating 72, will comprise the structure excision of adhesive coating 72, and form the structure as Fig. 7.Or in different enforcement aspects, above-mentioned cutting processing procedure also can control by suitable processing procedure, under the state not injuring displacement base material 71, carry out cutting process, displacement base material 71 can be reused once again after release.

After above-mentioned cutting processing procedure, because the adhesive coating 72 not having tack stronger between thin layer 11 and displacement base material 71 carries out reinforcing set, therefore replace base material 71 easily by the mode of solution immersions, thermal treatment, cold treatment, external force stripping or aforementioned combination, to be separated from each other with thin layer 11.Wherein, solution used can be the solution such as 1-METHYLPYRROLIDONE (NMP) of water, alcohol, 1-Methoxy-2-propyl acetate (PGMEA) solution, polyvinylidene fluoride (PVDF).On the other hand, adopt thermal treatment and cold treatment to be then heat displacement base material 71 or cool, utilize thin layer 11 different from the thermal expansivity of displacement base material 71 and carry out release.

Step S07, S08: consult Fig. 1, Fig. 8, the structure that step S06 makes will be fitted in liquid crystal module 8 by this step, and cover plate 5 is fitted in the structure of step S06 making.Specifically, cover plate 5 then can be fitted in the first polarizing layer 4 by laminating layer 51 (not drawing in figure) by the adhesive coating of scheming not show by the main body 81, step S08 that assembled component fits in liquid crystal module 8 by thin layer 11 side by step S07.

Illustrate, when the first polarizing layer 4 that the present embodiment adopts structural strength stronger, contactor control device 100 by the first polarizing layer 4 as surface structure, can omit the setting of cover plate 5, now needn't carry out the Making programme of step S08.

Step S09: consult Fig. 1, Fig. 8, complete the laminating program of cover plate 5 in step S08 after, this step carries out the package program of housing 6 again, namely completes the making of contactor control device 100.

According to above-mentioned Making programme, the present embodiment, by replacing the setting of base material 71 and release technology, at utmost can reduce the thickness of thin layer 11, and realize the lightening of contactor control device 100 with changing.But above-mentioned Making programme can optionally corresponding adjustment.

Such as, the present embodiment also can prepare another displacement base material (hereinafter referred to as the second displacement base material) in step S01; Step S05 changes into and is arranged on protective seam 3 by the second displacement base material, does not first carry out the setting of the first polarizing layer 4, is namely replaced the part of the first polarizing layer 4 by the second displacement base material; Subsequently; in step S07 by comprise bearing structure 1, sensed layer 2, protective seam 3, first polarizing layer 4, second displacement base material vibrational power flow after liquid crystal module 8; first the second displacement base material to be removed; subsequently the first polarizing layer 4 is arranged on protective seam 3; and then carrying out step S08, the cover plate 5 of S09, the installing of housing, the processing procedure before namely can being slightly different from completes the making of the contactor control device 100 of the first embodiment.

Second embodiment:

Consulting Fig. 9, is the second embodiment of the utility model contactor control device 100.In the present embodiment, the component of contactor control device 100 is roughly the same with the first embodiment, and Main Differences is the part of housing 6.

In the present embodiment, the part of the not coated cover plate 5 of housing 6, therefore cover plate 5 is attached at by laminating layer on the first polarizing layer 4 and housing 6.And according to this textural difference, its production method is also different from aforementioned first embodiment.

Consult Fig. 9 to Figure 12, the manufacture method of the contactor control device 100 of the present embodiment is below described.

Step S11 ~ S16: these steps are similar to abovementioned steps S01 ~ S06, therefore no longer repeat specification.

Step S17: consult Fig. 9, Figure 11, the similar abovementioned steps S07 of this step, by remove displacement base material 71 comprise bearing structure 1, sensed layer 2, protective seam 3, first polarizing layer 4 structure to be attached at the main body 81 of liquid crystal module 8 by thin layer 11 side.

Step S18, S19: consult Fig. 9, Figure 12, these steps want the package program first being carried out housing 6 by step S18, and then carry out the laminating program of cover plate 5 by laminating layer 51, to complete the making of the contactor control device 100 of the present embodiment.

Comprehensively above-mentioned two embodiments, sensed layer 2 is formed on bearing structure 1 by the supporting role of displacement base material 71 by the utility model contactor control device 100, the reprinting effect of base material or the first polarizing layer 4 is replaced again by another, the sensed layer 2 of thin layer 11 and upper formation thereof is attached in the main body 81 of cover plate 5 or liquid crystal module 8, thin layer 11 can be allowed more slim compared to general bearing substrate, and realize the lightening of contactor control device 100.In addition, by the setting of cushion 12, protective seam 3, the stress of contactor control device 100, the visible problem of electrode pattern can be improved, and protective effect is provided.And first polarizing layer 4 of the present embodiment, not only as the upper polarizing layer of contactor control device 100, also can be used as the supporting substrate in contactor control device 100 manufacturing process, and the visible problem of electrode pattern of sensed layer 2 can be slowed down by its polarized light property.Therefore the utility model contactor control device 100 and manufacture method thereof, really can reach the object of the utility model.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all within spirit of the present utility model and principle, any amendment made, equivalent replacements, improvement etc., all should be included within scope that the utility model protects.

Claims (10)

1. a contactor control device, is characterized in that, comprises:

One bearing structure, comprises a thin layer;

One sensed layer, is arranged at this bearing structure; And

One first polarizing layer, tool polarity, and lay respectively at two opposition sides of this sensed layer with this thin layer.

2. contactor control device as claimed in claim 1, it is characterized in that, also comprise a liquid crystal module, this liquid crystal module comprises main body and one second polarizing layer that includes liquid crystal molecule, the polarity of this second polarizing layer perpendicular to this first polarizing layer, and lays respectively at two opposition sides of this main body with this bearing structure.

3. contactor control device as claimed in claim 2, it is characterized in that, this bearing structure also comprises a cushion, this cushion and this thin layer mutually stacked, and between this thin layer and this sensed layer.

4. contactor control device as claimed in claim 3, it is characterized in that, also comprise a protective seam, this protective seam is arranged at this sensed layer, and lays respectively at two opposition sides of this sensed layer with this bearing structure.

5. contactor control device as claimed in claim 4, it is characterized in that, also comprise a cover plate, this cover plate is arranged at this first polarizing layer, and lays respectively at two opposition sides of this first polarizing layer with this protective seam.

6. the contactor control device as described in claim 4 or 5, is characterized in that, also comprises a housing, and this housing is at least around the outer rim of this bearing structure, this sensed layer, this protective seam, this first polarizing layer and this liquid crystal module.

7. contactor control device as claimed in claim 1, it is characterized in that, the thickness of this thin layer is 0.1 micron to 15 microns.

8. contactor control device as claimed in claim 7, it is characterized in that, the thickness of this thin layer is 2 microns to 5 microns.

9. contactor control device as claimed in claim 3, it is characterized in that, the thermal expansivity of this cushion is between the thermal expansivity and the thermal expansivity of this sensed layer of this thin layer.

10. contactor control device as claimed in claim 1, is characterized in that, this bearing bed and this sensed layer are formed on this first polarizing layer for being reprinted by a film.