CN205050111U - Touch device - Google Patents
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- CN205050111U CN205050111U CN201520761693.6U CN201520761693U CN205050111U CN 205050111 U CN205050111 U CN 205050111U CN 201520761693 U CN201520761693 U CN 201520761693U CN 205050111 U CN205050111 U CN 205050111U
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- mucigel
- contactor control
- control device
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Abstract
The utility model provides a touch device contains touch panel, display module and first mucigel. The touch panel periphery has the line layer. First mucigel is laminated between touch panel and display module. First mucigel cover display module, and the edge that the bulge bulges the display module has. The bulge of first mucigel covers the line layer at least, and the surface that the line layer was kept away from to the bulge does not have the stickness. First mucigel not only can laminate display module and touch panel, first mucigel covers the line layer in addition, need not additionally to set up on the line layer protective layer to guarantee that the line layer is difficult for dragging because of external force splitting.
Description
Technical field
The utility model relates to technical field of touch control, particularly relates to a kind of contactor control device.
Background technology
Generally speaking, contactor control device comprises the contact panel and LCD MODULE that fit.Contact panel periphery has the line layer for conducting touch signal, is usually located at contact panel towards LCD MODULE side.When sticking touch control panel and LCD MODULE, optical cement (OpticalClearAdhesive; OCA) can be arranged between contact panel and LCD MODULE.Object due to optical cement is used to attach LCD MODULE, and therefore optical cement is usually designed to the same size with LCD MODULE.Such design, the line layer of contact panel is normally exposed, is not covered by optical cement.Thus, line layer easily ruptures because of external force in follow-up processing procedure.And the region of corresponding line layer resists to fall to falling, anti-pressure ability is poor, affects the reliability of contactor control device.
But if by the larger of optical cement, though can cover line layer completely, because optical cement is generally double sticky tape, the optical cement therefore protruding LCD MODULE can stick the particulate (such as dust) in air, yield is made to be difficult to promote.
Utility model content
In view of this, one of the utility model technology aspect is a kind of contactor control device.
According to the utility model one embodiment, a kind of contactor control device comprises contact panel, display module and the first mucigel.Contact panel periphery has line layer.First mucigel fits between contact panel and display module.First mucigel covers display module, and has the edge that protuberance protrudes display module.The protuberance of the first mucigel at least covers line layer, and protuberance does not have stickiness away from the surface of line layer.
In the utility model one embodiment, the material of above-mentioned first mucigel comprises hot melt adhesive, and the hot melt adhesive of hot melt state has stickiness with gluing contact panel and display module, the hot melt adhesive after solidification in not with the surface of the protuberance of display module laminating without stickiness.
In the utility model one embodiment, the thickness of above-mentioned first mucigel is between 80 μm to 200 μm.
In the utility model one embodiment, the hardness after after above-mentioned first mucigel solidification is between 30E to 70E.
In the utility model one embodiment, above-mentioned contact panel comprises euphotic cover plate and touch-control sensing structure.Touch-control sensing structure between euphotic cover plate and the first mucigel, and electrically in succession in line layer.
In the utility model one embodiment, above-mentioned contactor control device more comprises the second mucigel.Second mucigel is between touch-control sensing structure and euphotic cover plate.
In the utility model one embodiment, above-mentioned contactor control device more comprises light shield layer.Light shield layer is positioned at the periphery of euphotic cover plate, and the projection of light shield layer on euphotic cover plate at least covers the projection of line layer on euphotic cover plate.Between euphotic cover plate and light shield layer, there is difference in height, and the thickness of the second mucigel is greater than this difference in height.
In the utility model one embodiment, the thickness of above-mentioned second mucigel is between 25 μm to 50 μm.
In the utility model one embodiment, the hardness of above-mentioned second mucigel is between 30E to 70E.
In the utility model one embodiment, above-mentioned touch-control sensing structure comprises the first light-transmissive film and the first electrode pattern layer.First electrode pattern layer is formed on the first light-transmissive film, and the first electrode pattern layer is between the first light-transmissive film and the first mucigel.
In the utility model one embodiment, the thickness of above-mentioned first light-transmissive film is between 1 micron to 15 microns.
In the utility model one embodiment, above-mentioned touch-control sensing structure is first formed on loading plate, then remove loading plate, and be posted and formed to euphotic cover plate.
In the utility model one embodiment, above-mentioned touch-control sensing structure more comprises the second light-transmissive film and the second electrode pattern layer.Second light-transmissive film is positioned at the second mucigel back on the surface of euphotic cover plate.Second electrode pattern layer is positioned at the second light-transmissive film back on the surface of the second mucigel.
In the utility model one embodiment, above-mentioned line layer more comprises bonding land.First mucigel has breach.First mucigel covers line layer and exposes bonding land from breach.
In the above-mentioned embodiment of the utility model, the first mucigel not only can be fitted display module and contact panel, and the first mucigel covers line layer, without the need to additionally arranging protective seam on line layer, to ensure that line layer not easily ruptures because external force pulls.Meanwhile, by protection and the stress buffer effect of the first mucigel, line layer region can be improved and even contactor control device entirety resists to fall to falling, the shearing force that can bear and pulling capacity, improve reliability and the durability of contactor control device.
In addition, the first mucigel is such as hot melt adhesive, to be heated under hot melt state and can to react with thing surfaces cross-link of fit, thus combining by laminating thing, and after solidifying, and is not then had a stickiness by the surface of the first mucigel attached.Utilizing this characteristic, although the first mucigel can protrude the edge of display module, because not having a stickiness with the surface of the protuberance of display module laminating after solidification, this protuberance can be avoided to stick particulate and affect yield.
Accompanying drawing explanation
Fig. 1 illustrates the sectional view of the contactor control device according to the utility model one embodiment.
Fig. 2 illustrates the sectional view of the contactor control device according to another embodiment of the utility model.
Fig. 3 illustrates the partial top view of the contactor control device according to the utility model one embodiment.
Fig. 4 illustrates the sectional view of the contactor control device according to the another embodiment of the utility model.
Main element symbol:
100,100a, 100b: contactor control device
105: contact panel
110: touch-control sensing structure
112: line layer
113: surface
114: the first light-transmissive films
115: surface
116: the first electrode pattern layer
120: the first mucigels
121,121a: surface
122: breach
123: protuberance
130: the second mucigels
132: surface
140: display module
150: euphotic cover plate
151: surface
160: light shield layer
170: bonding land
182: line layer
184: the second light-transmissive films
185: surface
186: the second electrode pattern layer
190: the three mucigels
H1: thickness
H2: thickness
H: difference in height
Embodiment
Below in conjunction with accompanying drawing and embodiment, the utility model is described in further detail.
Fig. 1 illustrates the sectional view of the contactor control device 100 according to the utility model one embodiment.Contactor control device 100 comprises contact panel 105, display module 140 and the first mucigel 120.Contact panel 105 periphery has line layer 112.First mucigel 120 fits between contact panel 105 and display module 140.First mucigel 120 covers display module 140, and has the edge that protuberance 123 protrudes display module 140.In addition, the protuberance 123 of the first mucigel 120 at least covers line layer 112, and protuberance 123 does not have stickiness away from the surperficial 121a of line layer 112.
Such design, first mucigel 120 not only can be fitted display module 140 and contact panel 105, realize the full laminating between display module 140 and contact panel 105, and the first mucigel 120 covers line layer 112, therefore line layer 112 not easily ruptures because external force pulls.Meanwhile, by protection and the stress buffer effect of the first mucigel 120, line layer 112 region and even contactor control device 100 entirety can be improved and resist and fall to falling ability and the shearing force that can bear and pulling capacity, improve reliability and the durability of contactor control device 100.In addition, the first mucigel 120 has laminating and protective effect concurrently, without the need to additionally arranging other protective seam on line layer 112, can simplify processing procedure, reduces cost of manufacture.
The contactor control device 100 of Fig. 1 is OGS (OneGlassSolution) structure.Contact panel 105 comprises euphotic cover plate 150 and touch-control sensing structure 110 (i.e. electrode layer).Touch-control sensing structure 110 between euphotic cover plate 150 and the first mucigel 120, and electrically in succession in line layer 112.In the present embodiment, touch-control sensing structure 110 is directly formed on euphotic cover plate 150.Euphotic cover plate 150 can be glass cover-plate (coverglass), but not in order to limit the utility model.
In the present embodiment; hardness after first mucigel 120 solidifies measures between 30E to 70E with sclerometer CL-150; with known protective seam (such as PET; HC film (Hardcoatingfilm)) compare; hardness is larger; thickness is thicker, effectively can promote the intensity of contactor control device 100.In addition, the thickness H1 of the first mucigel 120 can between 80 μm to 200 μm.In above-mentioned thickness range, can average out in the intensity of contactor control device 100 and thickness.
First mucigel 120 can have different adhesive properties respectively under solid state under hot melt state.For example, the material of the first mucigel 120 can comprise hot melt adhesive, and its solidification can adopt ultraviolet light (UVA) to irradiate solidification.At the hot melt adhesive of hot melt state, there is stickiness, with gluing contact panel 105 and display module 140.Hot melt adhesive after solidification in not with the surface of the protuberance 123 of display module 140 laminating without stickiness.When hot melt adhesive is under hot melt state, can there is crosslinked grade for chemical reaction with thing surface of being fitted in hot melt adhesive, makes hot melt adhesive and sticked together by laminating thing through cross-linking reaction.Relatively hot melt adhesive is in the surface of not fitting because without crosslinked action, therefore does not have stickiness after solidification.According to above-mentioned principle, first mucigel 120 is being heated under hot melt state and can reacting with thing of being fitted (such as touch-control sensing structure 110, line layer 112 and display module 140) surfaces cross-link, thus combine by laminating thing, and after solidification, then do not had a stickiness by the surperficial 121a of the first mucigel 120 attached.Utilize this characteristic, although the first mucigel 120 has the protuberance 123 protruding display module 140 edge, but after the first mucigel 120 solidification, this protuberance 123 does not have stickiness away from the surperficial 121a of line layer 112, and surperficial 121a can be avoided to stick particulate and affect yield.In addition, first mucigel 120 after hardening, if reheat again, its stickiness can not be recovered, therefore in the fabrication process, the exception if discovery display module 140 and touch-control sensing structure 110 are fitted, can reheat and the first mucigel 120 is softened, but its stickiness can not be recovered, so easily display module 140 or the first mucigel 120 can be removed, facilitate heavy industry (rework), more elasticity can be provided on processing procedure.
Display module 140 is positioned at the first mucigel 120 back on the surface 121 of touch-control sensing structure 110, makes the first mucigel 120 between display module 140 and touch-control sensing structure 110.That is, display module 140 is through the first mucigel 120 and is assembled in touch-control sensing structure 110.In the present embodiment, display module 140 can be LCD MODULE (LiquidCrystalDisplayModule; LCM), but not as limit.
In order to the convenience manufactured, the area of the first mucigel 120 is roughly the same with the area of contact panel 105, to guarantee that the line layer 112 of touch-control sensing structure 110 is covered by the first mucigel 120 completely.In this article, " roughly " can mean the error manufactured, the error range of such as 10%.In the present embodiment, the area of the first mucigel 120 is greater than the area of display module 140, makes the first mucigel 120 protrude the edge of display module 140 at least partly.The design identical with display module area with known mucigel is compared, contactor control device 100 of the present utility model for the position of the first mucigel 120 and dimension precision requirement lower.For example, when assembling display module 140 in the first mucigel 120, display module 140 not easily makes part not paste on the first mucigel 120 because of slight shift when contraposition, helpful on processing procedure.
Contactor control device 100 also comprises light shield layer 160.Light shield layer 160 is between line layer 112 and euphotic cover plate 150.Light shield layer 160 can be black light shield layer (BlackMask; BM), its material can be black light resistance or ink, can be used to cover light tight assembly in the non-visible area of contactor control device 100.In addition, contactor control device 100 can demonstrate colored border because having light shield layer 160, and that is, light shield layer 160 has decoration function.
Should be appreciated that, in the following description, the assembly material described and assembly annexation are by it is no longer repeated, and conjunction is first chatted bright.In the following description, the contactor control device of other patterns will be described.
Fig. 2 illustrates the sectional view of the contactor control device 100a according to another embodiment of the utility model.Contactor control device 100a comprises touch-control sensing structure 110, first mucigel 120, euphotic cover plate 150 and display module 140.The function of the first mucigel 120 in contactor control device 100a and the functional similarity in Fig. 1 contactor control device 100, do not repeat to repeat.The place different from Fig. 1 embodiment is: contactor control device 100a also comprises the second mucigel 130, and touch-control sensing structure 110 comprises the first light-transmissive film 114 and the first electrode pattern layer 116.Second mucigel 130 is between touch-control sensing structure 110 and euphotic cover plate 150.First electrode pattern layer 116 is formed on the first light-transmissive film 114, and the first electrode pattern layer 116 is between the first light-transmissive film 114 and the first mucigel 120.In more detail, the first light-transmissive film 114 has two relative surfaces 113,115.The surface 113 of the first light-transmissive film 114 is positioned on the second mucigel 130.First electrode pattern layer 116 is positioned on the surface 115 of the first light-transmissive film 114.
In one or more embodiment, touch-control sensing structure 110 is first formed on a loading plate, then remove this loading plate, and be posted to euphotic cover plate 150 and formed.Such as comprise the following steps: a loading plate (not shown) is provided; Form the first light-transmissive film 114 (being such as Kapton) on loading plate, then on the first light-transmissive film 114, form the first electrode pattern layer 116, now the first light-transmissive film 114 is between loading plate and the first electrode pattern layer 116; Form a transfer layer (not shown) such as one side glue-line in the first electrode pattern layer 116; Remove loading plate; Fit in euphotic cover plate 150 on together with transfer layer by the second mucigel 130 by the first electrode pattern layer 116, first light-transmissive film 114, now, the first light-transmissive film 114 and the first electrode pattern layer 116 are between the second mucigel 130 and transfer layer; And then remove transfer layer.Thus, namely the first electrode pattern layer 116 utilizes the second mucigel 130 to be formed on euphotic cover plate 150 together with the first light-transmissive film 114.It should be noted that, in the present embodiment, first electrode pattern layer 116 fits on euphotic cover plate 150 together with the first light-transmissive film 114, is with the side of the first light-transmissive film 114 laminating euphotic cover plate 150, makes the first electrode pattern layer 116 between the first light-transmissive film 114 and the first mucigel 120.
In the present embodiment, the material of the first light-transmissive film 114 is preferably polyimide (Polyimide), solution can be used to be coated with solidification again or other proper methods are formed, and the relatively common glass substrate of its thickness is thin, can be about 1 μm to 15 μm, be goodly about 2 μm to 5 μm.In addition, the material of the first electrode pattern layer 116 can indium tin oxide (IndiumTinOxide; ITO), but not as limit.
The processing procedure of aforementioned film transfer is adopted to form the first electrode pattern layer 116, first light-transmissive film 114 on euphotic cover plate 150, because the first light-transmissive film 114 itself is very thin, and it is soft, first electrode pattern layer 116 is formed on the first light-transmissive film 114 by the supporting role by loading plate, and follow-uply remove loading plate again, again by the reprinting effect of transfer layer, the first light-transmissive film 114 and the first electrode pattern layer 116 are attached on euphotic cover plate 150, the integral thickness of contact panel 100a can be reduced.
On the other hand, the first mucigel 120 covers touch-control sensing structure 110 and line layer 112 completely.Therefore, the first mucigel 120 can protect touch-control sensing structure 110 and line layer 112, and improve corresponding line layer 112 region anti-ly to fall, anti-pressure ability, promote shearing force and pulling capacity that line layer 112 can bear, avoid line layer 112 to rupture because of external force.
In addition, the first mucigel 120 and the second mucigel 130 all have light transmission, can pass through for light.The material of the second mucigel 130 can be identical with the material of the first mucigel 120, and such as the material of the second mucigel 130 also can comprise hot melt adhesive.That is, the second mucigel 130 need be heated into hot melt state and just has stickiness.In addition, the hardness of the second mucigel 130 measures between 30E to 70E with sclerometer CL-150, and compared with common optical cement, the second mucigel 130 hardness is higher, can provide the anchorage force that line layer 112 is larger.For example, when line layer 112 needs and flexible circuit board (FlexiblePrintedCircuitBoard; FPC) when pressing, pressure may act directly on the bonding land 170 (see Fig. 3) of line layer 112, and particularly when the very thin thickness of the first light-transmissive film 114 when, the supporting role of land 170 mainly relies on the second mucigel 130.Because the thickness of the second mucigel 130 and hardness are greater than the first light-transmissive film 114, and hardness ratio ordinary optical glue is large, and the second mucigel 130 can support line layer 112, and line layer 112 therefore can be avoided to rupture under the effect of the pressure.
On the other hand, the first mucigel 120 is whole covering first electrode pattern layer 116 and line layer 112.With known, protective seam is set on line layer; and compare in the mode that electrode pattern layer arranges mucigel; first electrode pattern layer 116 of the present utility model and line layer 112 are subject to the stress of the first mucigel 120 comparatively even; can effectively avoid in the prior art, protective seam and the uneven line layer 112 that causes of mucigel junction stress rupture.
Contactor control device 100a also can comprise light shield layer 160.Light shield layer 160 is positioned at the periphery of euphotic cover plate 150, and the projection of light shield layer 160 on euphotic cover plate 150 at least covers the projection of line layer 112 on euphotic cover plate 150.Have difference in height h between euphotic cover plate 150 and light shield layer 160, and the thickness H2 of the second mucigel 130 is greater than this difference in height h, the thickness H2 of such as the second mucigel 130 can between 25 μm to 50 μm.When the second mucigel 130 is heated into hot melt state, not only there is stickiness and the difference in height h between the surface 151 of euphotic cover plate 150 and light shield layer 160 can be filled up, make euphotic cover plate 150 and light shield layer 160 inside region not easily produce bubble, for the visible area display quality of contactor control device 100a and yield helpful.
Should be appreciated that, in the following description, the assembly material described and assembly annexation are by it is no longer repeated, and conjunction is first chatted bright.In the following description, other architectural features of contactor control device 100a will be described.
Fig. 3 illustrates the partial top view of the contactor control device 100a according to the utility model one embodiment, for for purpose of brevity, only draws primary clustering in Fig. 3.Consult Fig. 2 and Fig. 3, line layer 112 more comprises bonding land 170 simultaneously.In addition, the first mucigel 120 has breach 122, and the first mucigel 120 covers line layer 112 and exposes bonding land 170 from breach 122.Bonding land 170 can be used to be electrically connected flexible circuit board, with transmission signal.In the present embodiment, first mucigel 120 with breach 122 covers other region of touch-control sensing structure 110 except bonding land 170, can avoid having influence on line layer 112 during the shell of follow-up assembling contactor control device 100a.It should be noted that, in the corresponding embodiment of Fig. 1, the first mucigel 120 can do similar setting, does not repeat them here.
Fig. 4 illustrates the sectional view of the contactor control device 100b according to the another embodiment of the utility model.Contactor control device 100b comprises touch-control sensing structure 110, first mucigel 120, second mucigel 130, euphotic cover plate 150 and display module 140.The function of the first mucigel 120 in contactor control device 100b and the functional similarity in Fig. 1 contactor control device 100, do not repeat to repeat.The place different from Fig. 2 embodiment is: contactor control device 100b also comprises the 3rd mucigel 190, and touch-control sensing structure 110 also comprises the second light-transmissive film 184 and the second electrode pattern layer 186.Second light-transmissive film 184 is positioned at the second mucigel 130 back on the surface 132 of euphotic cover plate 150.Second electrode pattern layer 186 is positioned at the second light-transmissive film 184 back on the surface 185 of the second mucigel 130.3rd mucigel 190 is between the second electrode pattern layer 186 and the first light-transmissive film 114.That is, the 3rd mucigel 190 is used to laminating second electrode pattern layer 186 and the first light-transmissive film 114.
In addition, the second electrode pattern layer 186 has line layer 182, roughly aligns in the position of line layer 182,112.Line layer 182 is formed on the second light-transmissive film 184.The material of the second light-transmissive film 184 is soft, thickness is thin, if therefore line layer 182 only relies on the supporting role of the second light-transmissive film 184, easily ruptures because anchorage force is not enough when engaging with flexible circuit board.But the thickness of the 3rd mucigel 190 of the present utility model and hardness are all large compared with the second light-transmissive film 184, can make its not easy fracture by protection circuit layer 182.
In the present embodiment, the material of the 3rd mucigel 190 can be identical with the material of the second mucigel 130, the material of the second light-transmissive film 184 can be identical with the material of the first light-transmissive film 114, and the material of the second electrode pattern layer 186 can be identical with the material of the first electrode pattern layer 116.
In sum, the first mucigel of contactor control device not only can be fitted display module and contact panel, and the first mucigel covers line layer, and therefore line layer not easily ruptures because external force pulls.Meanwhile, by protection and the stress buffer effect of the first mucigel, line layer region can be improved and even contactor control device entirety resists the ability falling to falling and the shearing force that can bear and pulling capacity, improve reliability and the durability of contactor control device.In addition, the first mucigel to be heated under hot melt state and can to react with thing surfaces cross-link of fit, thus combines by laminating thing, and after solidifying, and is not then had a stickiness by the surface of the first mucigel attached.Utilize this characteristic, although the first mucigel can protrude the edge of display module, because a stickiness is not had on the exposed surface of the first mucigel after solidification, can avoid sticking particulate and affecting yield.
In addition, the contactor control device of corresponding diagram 2 embodiment, be greater than the second mucigel of the first light-transmissive film, and the second mucigel can support line layer, and line layer therefore can be avoided to rupture under the effect of the pressure because having thickness and hardness.In addition, the contactor control device of corresponding diagram 3 embodiment is greater than the 3rd mucigel of the second light-transmissive film because having thickness and hardness, can make its not easy fracture by protection circuit layer.
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 (14)
1. a contactor control device, is characterized in that, comprises:
One contact panel, this contact panel periphery has a line layer;
One display module; And
One first mucigel, fit between this contact panel and this display module, this first mucigel covers this display module, and has the edge that a protuberance protrudes this display module, this protuberance at least covers this line layer, and this protuberance does not have stickiness away from the surface of this line layer.
2. contactor control device according to claim 1, it is characterized in that, the material of this first mucigel comprises hot melt adhesive, this hot melt adhesive of hot melt state has stickiness with this contact panel of gluing and this display module, this hot melt adhesive after solidification in not with the surface of this protuberance of this display module laminating without stickiness.
3. contactor control device according to claim 1, is characterized in that, the thickness of this first mucigel is between 80 μm to 200 μm.
4. contactor control device according to claim 1, is characterized in that, the hardness after the solidification of this first mucigel is between 30E to 70E.
5. contactor control device according to claim 1, is characterized in that, this contact panel comprises:
One euphotic cover plate;
One touch-control sensing structure, between this euphotic cover plate and this first mucigel, and electrically in succession in this line layer.
6. contactor control device according to claim 5, is characterized in that, more comprises:
One second mucigel, between this touch-control sensing structure and this euphotic cover plate.
7. contactor control device according to claim 6, is characterized in that, more comprises:
One light shield layer, be positioned at the periphery of this euphotic cover plate, and the projection of this light shield layer on this euphotic cover plate at least covers the projection of this line layer on this euphotic cover plate, wherein has a difference in height between this euphotic cover plate and this light shield layer, and the thickness of this second mucigel is greater than this difference in height.
8. the contactor control device according to claim 6 or 7, is characterized in that, the thickness of this second mucigel is between 25 μm to 50 μm.
9. the contactor control device according to claim 6 or 7, is characterized in that, the hardness of this second mucigel is between 30E to 70E.
10. contactor control device according to claim 6, is characterized in that, this touch-control sensing structure comprises:
One first light-transmissive film; And
One first electrode pattern layer, is formed on this first light-transmissive film, and this first electrode pattern layer is between this first light-transmissive film and this first mucigel.
11. contactor control devices according to claim 10, is characterized in that, the thickness of this first light-transmissive film is between 1 micron to 15 microns.
12. contactor control devices according to claim 10, is characterized in that, this touch-control sensing structure is first formed on a loading plate, then remove this loading plate, and be posted to this euphotic cover plate and formed.
13. contactor control devices according to claim 10, is characterized in that, this touch-control sensing structure more comprises:
One second light-transmissive film, is positioned at this second mucigel back on the surface of this euphotic cover plate; And
One second electrode pattern layer, is positioned at this second light-transmissive film back on the surface of this second mucigel.
14. contactor control devices according to claim 1, is characterized in that, this line layer more comprises a bonding land, and this first mucigel has a breach, and this first mucigel covers this line layer and exposes this bonding land from this breach.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520761693.6U CN205050111U (en) | 2015-09-29 | 2015-09-29 | Touch device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520761693.6U CN205050111U (en) | 2015-09-29 | 2015-09-29 | Touch device |
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|---|---|
| CN205050111U true CN205050111U (en) | 2016-02-24 |
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| CN201520761693.6U Active CN205050111U (en) | 2015-09-29 | 2015-09-29 | Touch device |
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105955541A (en) * | 2016-05-28 | 2016-09-21 | 业成光电(深圳)有限公司 | Touch panel, touch display device and manufacture method of the touch display device |
| CN106557189A (en) * | 2015-09-29 | 2017-04-05 | 宸鸿科技(厦门)有限公司 | Contactor control device |
| CN110134288A (en) * | 2019-05-31 | 2019-08-16 | 业成科技(成都)有限公司 | Touch panel, using its touch-control display module and touch panel production method |
-
2015
- 2015-09-29 CN CN201520761693.6U patent/CN205050111U/en active Active
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106557189A (en) * | 2015-09-29 | 2017-04-05 | 宸鸿科技(厦门)有限公司 | Contactor control device |
| CN106557189B (en) * | 2015-09-29 | 2023-07-14 | 宸鸿科技(厦门)有限公司 | Touch control device |
| CN105955541A (en) * | 2016-05-28 | 2016-09-21 | 业成光电(深圳)有限公司 | Touch panel, touch display device and manufacture method of the touch display device |
| CN110134288A (en) * | 2019-05-31 | 2019-08-16 | 业成科技(成都)有限公司 | Touch panel, using its touch-control display module and touch panel production method |
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