KR200468677Y1 - Cover lens having the effect of touch control - Google Patents

Abstract

The present invention is a cover lens having a kind of touch control effect, mainly composed of one transparent plate body by jointly overlapping one substrate, one surface layer, one induction layer and one insulating jumping connection layer. The substrate of the lens is a high transmissive sheet material with good mechanical strength and the surface layer is composed of one or more thin films and is installed on the upper surface of the substrate, and the induction layer is formed on the lower surface of the substrate. It also contains a plurality of X-axis and Y-axis line trajectory, the line trajectory is installed in the same plane intersecting in a matrix manner, and the individual induction units on the individual X-axis line trajectory are connected to each other and Y Each guide unit of the axis trajectory was spaced apart from each other. A plurality of pairs of through holes are formed in the above insulating jumping connection layer, and the positions of each through hole are respectively located on adjacent induction units of the above Y-axis line trajectory, and one jumping on the lower surface between each pair of through holes. A connecting electrical lead is provided and both ends of the jumping connecting electrical lead are exposed between the through holes to form an electrical connection. The insulation jumping connecting layer is covered by covering the surface below the induction layer and installed to cover the X-axis and Y-axis line traces insulated, and to electrically connect both ends of each of the jumping connecting conductors of the insulated jumping connection layer. The connecting portion is electrically connected to the adjacent induction units of the Y-axis line trajectory through the through-holes, and electrically connects each of the induction units of the individual Y-axis line trajectories to each other to form a condenser on the lower surface of the cover lens substrate. It is an idea to form a touch control induction structure.

Description

Cover lens having the effect of touch control

The present invention relates to a cover lens.

The present invention relates to a kind of cover lens structure, and particularly refers to a cover run having a kind of touch control induction function. For example, mobile phones, cameras, PDAs, and laptops typically have one cover lens in front of the LCD to prevent scratches and dirt on the LCD surface and to improve the convenience of signal input operation. The touch panel is already widely used in front of LCDs of various electronic products, and in reality, most of them are used in front of LCD of electronic products after combining the touch control panel and cover lens. In the design of a mobile phone, for example, the cover lens adopts a transparent thin plate having a certain strength. The thickness of the plate is about 0.8 to 1.0 mm, and a plurality of functional thin films are installed on the upper surface of the cover lens. Polarized thin film, anti-scratch thin film, etc., has a thickness of about 0.15 mm, and in addition to the general condenser touch control panel, the structure includes the X axis line trace induction layer, the Y axis line trace induction layer, the touch control substrate, and some insulating layers. Therefore, the general thickness is at least 1 mm and the thickness of the combination plate of the cover lens and the touch control panel reaches at least 2.3 mm when the thickness of the double-sided tape used in the combination is 0.15 mm. However, in general, when the thickness is more than 1.5mm, not only the installation structure and appearance design difficulties, but also the light transmittance of the lens is severely reduced, which creates a disadvantage that the image of the LCD is faint and the image color is not clear. Therefore, in the industry, the thickness of the combination plate must be made thin in order to prevent the above-mentioned disadvantages, but the cover lens part cannot receive too thin plate because it receives too much external impact force in the process of use. Doing. However, this demand is so thin that the glass substrate or the inductive thin film of the touch control panel is easily broken during the manufacturing process, which severely affects product quality and function, resulting in a significant increase in production cost.

 Therefore, the present invention provides a cover lens structure with a kind of touch control induction function, and installs one touch control induction structure directly on the lower surface of the cover lens to reduce the number of overlap layers of components and to reduce the thickness of the combination plate. It is easy to use and reaches the purpose of maintaining high light transmittance, and by combining with the touch control induction structure directly to the cover lens to simplify the manufacturing process, reduce the production cost and improve the product efficiency.

The main objective of the present invention is to provide a cover lens structure with a kind of touch control induction function, thereby installing one touch control induction structure directly on the lower surface of the cover lens, thereby reducing the number of overlap layers of components and reducing the thickness of the combination plate body. It is easy to install and use, and reaches the purpose of maintaining a high light transmittance, and by combining with the touch control induction structure directly to the cover lens to simplify the manufacturing process, reduce the production cost and improve the product yield efficiency.

The technical problem to be achieved by the present invention is to install a single touch control induction structure on the lower surface of the cover lens.

In order to reach the above object, the present invention forms a thinner cover lens structure having one touch control induction effect by installing a condenser touch control induction structure on a surface under a plate of one cover lens. Among them, the substrate of the cover lens is a high light transmittance thin film material having one high mechanical strength. (COC) can be used, and one surface layer is provided on the upper surface of the cover lens substrate, and the surface layer can be composed of one or a plurality of functional thin films. And the like, which may include a functional thin film, and thus the upper surface of the cover lens may have a function of anti-scratch, anti-reflection, anti-fouling, anti-glare and anti-corrosion.

The condenser touch control induction structure is small and includes one induction layer and one insulated jumping connection layer, wherein the induction layer is provided on the lower surface of the cover lens substrate and has a good conductivity property of one layer. It is a transparent thin film that contains a plurality of X-axis traces and Y-traces, and is also installed in a matrix form, and the individual induction units on the individual X-axis traces are connected to each other and the Y-axis Each guide unit on the line trajectory was spaced apart from each other, and a jinction was formed at the front end of each of the X and Y axis line trajectories. A plurality of pairs of through holes are formed in the above insulating jumping connection layer, and the positions of each through hole are respectively located on adjacent induction units of the above Y-axis line trajectory, and one jumping on the lower surface between each pair of through holes. A connecting electrical lead is provided so that both ends of the jumping connecting electrical lead are exposed between the through holes to form an electrical connection. In combination, the above-described X-ray trace and Y-axis trace are insulated from each other by using the above insulating jumping connection layer on the surface below the induction layer, and each jumping connecting electric wire of the insulating jumping connection layer The electrical connections at both ends of the X-induced layer are electrically connected to each of the induction units of the individual Y-axis line trajectories by electrically connecting the adjacent induction units of the Y-axis line trajectory through the through holes. The shear jinction of the axial line trace and the Y-axis line trace is connected to a silver passage electrically installed at the edge of the panel, respectively, and to one signal output wire. The induction signal of the condenser touch control induction device is connected to the signal output wire. Is transmitted to subsequent signal processing circuits.

The insulated jumping connection layer employs a high transmittance insulating thin film material having the best permeability of about 2 to 4, for example, a printing ink or a high transmittance polyester thin film, and the induction layer and The jumping connection electrical conductor of the insulated jumping connection layer employs a transparent conductive thin film. For example, an organic conductive material such as indium tin oxide or PEDOT may be employed.

The present invention is not limited to the above forms, but anyone with general knowledge in this field can make numerous improvements and changes with reference to the above description. All improvements and changes under the same spirit of creation are protected. Statement that it is a range.

The present invention provides a cover lens structure with a kind of touch control induction function, and installs one touch control induction structure directly on the lower surface of the cover lens to reduce the number of overlap layers of components and to reduce the thickness of the combination plate. In order to achieve the purpose of maintaining high light transmittance, and to combine with the touch control induction structure directly on the cover lens, it is similar to domestic and foreign methods to simplify the manufacturing process, reduce the production cost and improve the product yield efficiency. Since it is not disclosed, it is a utility model claim under the law.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 to 3 of the present invention, an optimal embodiment according to the present invention is constructed jointly with one substrate, one surface layer, one induction layer and one insulating jumping connection layer. Among them, the substrate 1 employs a PMMA thin plate having a thickness of about 0.5 mm and a light transmittance of about 95%, and the surface layer 12 provided on the upper surface of the substrate 1 has a thickness of 0.1 mm or less. (hard coat layer).

The induction layer 2 employs a transparent indium tin oxide (ITO) conductive thin film, and in the induction layer, a plurality of transparent X-axis line traces 21 are arranged at the same distance in the X-axis direction and arranged in parallel with each other. Y-axis line trajectories 22 and the Y-axis line trajectories 22 and the Y-axis line traces 22 are arranged in a matrix manner. Preferably, the width of the line traces 21 and 22 is set to about 0.5 to 5 mm, and induction-spots 21a of the individual X-axis line traces are connected to each other through Y. The individual induction units 22a of the axis line trajectory 22 are arranged at intervals without passing through each other, and at one end of the X axis line trajectory 21, a line trajectory junction 24 is formed and the Y axis line trajectory 220 The line trace junk line 25 is also formed at once, and the above line trace junk lines 24 and 25 are formed. It is connected to the silver paths 7a and 7b at the edge of the panel, respectively, and to the signal output wiring (not shown), thereby inducing the X-axis trace and the Y-axis trace 22 of the induction layer 2. The signal is transmitted to the subsequent signal processing circuit through the above signal output wiring.

The insulating layer 3 adopts a high transmissivity printing ink thin film layer having a property of 3, and forms a plurality of pairs of through holes 31 and pairs through holes 31 in the insulating layer. Is positioned at each adjacent induction unit 22a of the Y-axis line trajectory 22 above, and one jumping connecting lead 32 is provided on the surface under the insulating layer between each pair of through holes 31. Both ends of the above-mentioned jumping connection electric lead 32 are exposed to the through hole 31 to form an electrical connection portion 32a`, and the jumping connection electric lead 32 is made of PEDOT, which is the best transparent organic conductive material. .

2 and 3, when assembling the components, the induction layer 2 thin film is directly installed on the lower surface of the substrate 1, and the insulating jumping connection layer 3 is the induction layer ( 2) covering the lower surface of the induction layer to insulate and cover the X-axis line trajectory 21 and the Y-axis line trajectory, and the electric ends of each of the jumping connecting electric conductors 32 of the leading edge connecting layer 3 above. The connecting portion 32a is electrically connected to each adjacent induction unit 22a of the Y-axis line trajectory of the induction layer 2 through the through-hole 31, so that each induction of the individual Y-axis line trajectory 22 is performed. The units 22a are electrically connected to each other, and the guide line trajectories in the X-axis direction and the Y-axis direction are installed on the same guide layer plane and distributed vertically in a matrix manner. After combining the induction layer 2 and the insulated jumping connecting layer 3 above, one equal effect capacitance is formed between the X-axis line trace 21 and the silver passage 7a, and the Y-axis line trace ( 22) and the same effect capacitance are formed between the silver passage (7b), so that when the finger or conductor touches or lightly scratches the surface of the touch control panel, the signal processing circuit contacts the conductor or finger through the change of capacitance. The location can be determined.

In the optimum embodiment, the thickness of the combination plate of each part of the cover lens can be maintained to 0.7mm or less, so that the light and thin combination plate is suitable to be used in front of the LCD of sophisticated electronic products. In addition, by using the condenser touch control induction structure, the user can conveniently perform the input operation by touching the required position of the panel with a finger according to the LCD instruction. In this invention, the cover lens is installed as a substrate of the condenser touch control induction apparatus, and the condenser touch control induction apparatus is assembled to the lower surface of the cover lens to reduce the number of overlap layers and to reduce the thickness of the combination plate. In order to achieve the purpose of maintaining a high light transmittance, and the cover lens integrated in combination with the touch control induction layer, the structure can simplify the manufacturing process, reduce the production cost and improve the product yield efficiency.

1 is an exploded perspective view of parts according to the present invention,

2 is a partial front view of an insulated jumping connection layer and an induction layer combination according to the present invention,

3 is a side cutaway perspective view of the E-E leading edge of FIG.

<Description of the symbols for the main parts of the drawings>

1. Substrate

2. Induction layer

3. Insulation layer

12. Surface layer

21.X-ray trace

22. Y-axis line trajectory

21a. Induction unit of X-axis trajectory

22a. Induction unit of Y-axis line trajectory

24. X-axis Trajectory Junction

25.Y axis line trajectory junction

7a, 7b. Silver passage

31.Through Hole

32. Electrical connection lead

32a` electrical connection

Claims (7)

One substrate and one surface layer and one inductive layer and one insulated jumping connection layer, said substrate being a high transmissive sheet material with good mechanical strength, said surface layer being installed on the top surface of said substrate It consists of one or a plurality of functional thin films, wherein the induction layer is a good conductive transparent thin film, which is installed on the lower surface of the substrate, is also distributed in the same distance in a plurality of X-axis directions and arranged in parallel with each other Including the line trajectory and the Y-axis line trajectory distributed in the same distance in the Y-axis direction and arranged in parallel with each other, the X-axis line trajectory and the Y-axis line trajectory are installed in the same plane and intersected in a matrix manner. Each induction unit of the individual X-axis trajectories are connected to each other and the individual induction units of the Y-axis line trajectory are not connected to each other and are spaced apart. In addition, a line trace junction was formed at one end of the X-axis trace and the Y-axis trace, and the insulation jump connection layer is a high transmittance insulating thin film layer, and the insulation jump connection layer has a plurality of pairs of through holes. The position of the formed and paired through-holes is located in each adjacent induction unit of the above Y-axis line trajectory, and one jumping connecting lead is provided on the surface under the insulating layer between each pair of through-holes. Both ends of the electric lead are exposed to the through-holes to form an electrical connection, and the above-described X-axis and Y-axis line traces are insulated by using an insulating jumping connection layer installed on the surface below the induction layer, In addition, both ends of the electrical connection section of each of the jumping connection conductors of the insulated jumping connection layer are connected to each other in the Y-axis line trajectory through the through holes. Electrically connecting each induction unit of the individual Y-axis line trajectory to each other by electrically connecting to the induction unit. It is connected to one silver path and also to one signal output wiring, and the guidance signal of the condenser touch control induction apparatus is transmitted to the subsequent signal processing circuit through the signal output wiring. One cover lens. The method according to claim 1, wherein the substrate in the cover lens with the touch control induction effect is made of a thin film layer material such as glass, polymethylmethacrylate (PMMA), Polycarbonate (PC), Polythylene terephthalate (PET), Cyclic Olefin Copolymer (COC) A cover lens having a touch control effect, characterized in that. The cover lens of claim 1, wherein the functional thin film includes a polarizing thin film, a filter thin film, an anti-scratch thin film, or a hard thin film layer in the cover lens having the touch control inducing efficacy. The method according to claim 1, wherein in the cover lens having the touch control induction effect, wherein the insulating jump connection layer of the touch control effect, characterized in that the use of a high-transmittance insulating thin film material having a property of 2-4. One cover lens. The cover lens with a touch control effect of Claim 4 in which the said high transmittance insulating thin film material employ | adopts a printing ink or a polyester thin film among the said cover lenses with a touch control induction effect. The cover lens according to claim 1, wherein the jumping connection lead is made of a transparent organic conductive material in the cover lens having the touch control induction effect. The cover lens of claim 1, wherein the jumping connection lead is a transparent conductive thin film made of indium tin oxide.

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