KR100778329B1 - A touch switch configuration way for luminescence - Google Patents

Abstract

The present invention relates to a method and apparatus for back-lighting a touch portion of a capacitive sensing touch pad used in a capacitive touch sensor, and an object thereof is an insulating electrode of an EL sheet capable of emitting light by itself. A capacitive sensing touch pad is manufactured by etching directly to a film of ITO film, so that the capacitive sensing touch for light emitting and emitting a thin film can be formed naturally by backlighting the EL sheet without installing a light emitting device. In providing a pad.

The present invention for achieving the above object is a transparent electrode (ITO) film is formed on the capacitance pattern by etching, and is laminated on the ITO film and when a voltage is supplied to the electrons in the phosphor is accelerated to generate high energy electrons thereby emitting light EL sheet composed of a light emitting layer, an insulating layer stacked on the light emitting layer to prevent direct supply of electricity, and a back electrode (AI) stacked on the insulating layer and connected to a transparent electrode (ITO) film to supply voltage to the light emitting layer. Wow; It is combined with the capacitive sensing pattern, consisting of a display cover for displaying the capacitive sensing pattern portion, and after forming the pattern by etching the capacitive sensing patterns on the transparent electrode (ITO) film to the touch sensing necessary part The technical gist of the present invention relates to a capacitive sensing touch pad for light emitting capacitive sensing, wherein the display unit is formed on a printed capacitive sensing touch pad and adhered using a double-sided tape. do.

Capacitive, Touch Pad, EL Sheet, Light Emitting, Etching, ITO Film

Description

A touch switch configuration way for luminescence

1 is a schematic view showing a process of forming a pattern for capacitive sensing using etching of the touch switch configuration method for the present invention,

Figure 2 is a schematic diagram showing a process of forming a pattern for capacitive sensing using silk printing of the touch switch configuration method for the present invention light emitting;

Figure 3 is a schematic diagram showing the configuration of the touch switch for the present invention light emitting;

Figure 4 is a schematic diagram showing a touch switch configuration step using a partial light emitting layer of the touch switch for the present invention light emitting.

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

10: pattern for capacitive sensing 20: transparent electrode (ITO)

30: light emitting layer 40: insulating layer

50: rear electrode 60: display unit

(70): printing plate (80): etching

The present invention relates to a method and apparatus for back-lighting a touch portion of a capacitive sensing touch pad used in a capacitive touch sensor, and more particularly, to a transparent electrode of an EL sheet capable of emitting light by itself. Capacitive sensing pattern is formed directly on ITO film, which is a film, to produce capacitive sensing touch pads, so that the EL sheet emits light without any light emitting device, so it can be backlit naturally and form a very thin pad. It relates to a touch switch configuration method for.

In general, a capacitive signal comparator detects a change in a capacitor induced between a pre-installed electrode and a person when approaching a person, or in another application, a change in inductance, or a change in impedance, that is, all analog signals are detected. Can be used to detect.

Recently, switches such as home appliances, such as liquid crystal monitors, are being switched from the conventional push switch method to the touch switch method.

Touch switch installs an electrode inside the front cover of the product and touches the electrode with a finger to sense the change in capacitance induced between the electrode and the person and transmits this sensing signal as a switch signal to a microprocessor or microcomputer. .

When a switch is implemented in a conventional capacitive sensor, when backlighting is required, light is emitted using an LED.

In this case, however, the sensor is divided into a sensing unit and a light emitting unit, and thus an unnecessary space is required for product assembly and structure, and thus a complicated structure for light emission is required. In addition, there is a disadvantage in that the size of the light emitting part has to be limited because the capacitance must be sensed, and ITO (ITO) is used in the manufacture of EL.

The present invention was created in order to solve the conventional problems as described above, by forming the sensing unit and the light-emitting EL (EL) integrally to emit light by the EL (EL) unnecessary to appear using the LED It is an object of the present invention to provide a method of configuring a touch switch for light emission, which makes the fabrication structure simple and thin by eliminating space.

In order to achieve the above object, the present invention provides a pattern for forming a capacitive sensing pad by etching and printing a capacitive sensing pattern directly on an ITO film stacked on the entire surface of the light emitting layer forming the EL sheet. The present invention relates to a touch switch configuration method for light emission, characterized in that the capacitive patterns are formed on the part requiring touch sensing so that the sensing unit and the light emitting unit are formed in a thin form.

Electroluminescence (EL) refers to a phenomenon in which when an alternating voltage is applied to a light emitting layer made of phosphor powder, electrons are accelerated in the phosphor to generate high energy electrons, thereby emitting light. The EL device is structurally divided into two types, a dispersing type EL composed of phosphor powder and a thin type EL composed of dense thin film, and are divided into AC type and DC type according to the driving method, respectively.

The most widely used distributed AC EL is fabricating a transparent electrode (ITO), a light emitting layer, an insulating layer, and a rear electrode in order on a glass substrate, forming a transparent electrode on a substrate, phosphor powder and a small amount of organic binder. After mixing, the light emitting layer is formed on the electrode with a suitable thickness, and when an alternating voltage is applied to the light emitting layer, the phosphor of the light emitting layer emits light.

In the process of manufacturing the EL sheet as described above, by forming a capacitance sensing pattern directly on the transparent electrode (ITO) film through etching or silk printing, etc., a thin light emitting capacitance sensing without producing a capacitance sensing pattern separately The touch panel can be manufactured.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings of the capacitive touch pad for light emission.

1 is a schematic view showing a process of forming a pattern for capacitive sensing using etching in the touch switch configuration method of the inventors light emission, Figure 2 is a electrostatic using silk printing of the touch switch configuration method for the inventors light emission 3 is a schematic view showing a process of forming a pattern for capacitive sensing, FIG. 3 is a schematic view showing a touch switch configuration step for light emission of the present invention, and FIG. 4 is a touch switch configuration using a partial light emitting layer of a touch switch for light emission of the present invention. A schematic diagram showing the steps is shown.

The present invention provides a capacitive sensing touch pad for use in a capacitive touch sensor, wherein a transparent electrode (ITO) film having a capacitance pattern formed by etching and an ITO film are stacked on the ITO film, and electrons are accelerated in the phosphor when a voltage is supplied. A light emitting layer emitting high energy electrons and emitting light, an insulating layer laminated on the light emitting layer to prevent direct supply of electricity, and a voltage stacked on the insulating layer and connected to a transparent electrode (ITO) film to supply voltage to the light emitting layer. An EL sheet composed of a back electrode AI to give; The display cover is coupled to the capacitive sensing touch pad and displays a capacitive sensing pattern portion.

Meanwhile, the configuration steps of the above-described capacitive sensing touch pad for light emission will be described below.

As shown in FIGS. 1 and 2, patterns for capacitive sensing are formed on a transparent electrode (ITO) film by etching or silk printing on a portion where touch sensing is required during initial pattern formation.

After that, as shown in FIG. 3, the light emitting layer is laminated on the ITO film on which the capacitive sensing pattern is printed, the insulating layer is laminated on the light emitting layer, and finally, the rear electrode is laminated to complete the light emitting capacitive sensing touch panel. Done.

Meanwhile, as shown in FIG. 4, when forming the light emitting capacitive touch panel, the light emitting layer is partially formed only at a portion where the pattern of the touch panel is formed so as to reduce energy consumption at the light emitting region that is not exposed to the outside. You may.

To this end, a light emitting layer is partially formed on the opposite side of the capacitive pattern formed on the general PC series film, and a material that functions as a terminal on the opposite side of the capacitive pattern is used to supply voltage to the light emitting layer. By forming a pattern in the form, by stacking the light emitting layer according to the pattern formed by the terminal material as described above, it is possible to partially emit light only on the capacitive pattern part, thereby preventing energy consumption by light emission of unnecessary parts. By reducing the consumption of the material, the cost advantage can be seen.

On the other hand, the display unit suitable for the capacitive sensing pattern printed on the light-emitting capacitive sensing touch pad completed as described above is made and bonded using a double-sided tape.

The electrostatic capacitive sensing touch pad completed as described above is produced by directly printing on the ITO film, which is a transparent electrode of EL sheet, without printing the capacitive sensing pattern on another film. Since the bonding process is omitted, the manufacturing time is saved.

In addition, the final capacitive touch pad for light emitting sensing is manufactured to be much thinner than using a conventional LED (LED), and the use range of the thinly manufactured touch pad can be used in many fields. .

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. Of course, such changes will fall within the scope of the claims.

The effects of the present invention that can be expected by the configuration and action as described above are as follows.

First, the pattern for capacitive sensing is printed directly on the ITO film, which is the transparent electrode of EL sheet, without printing separately on another film. In addition, the final capacitive touch pad for light-emitting capacitive sensing is manufactured to be much thinner than using a conventional LED (LED), thereby increasing the use range of the touch pad.

Claims (4)

delete delete In the method for manufacturing a capacitive sensing touch pad used for the capacitive touch sensor, Forming patterns for capacitive sensing on the transparent electrode (ITO) film in a portion requiring touch sensing; Stacking a light emitting layer on the ITO film printed with the capacitance sensing pattern; Stacking an insulating layer on the light emitting layer; Forming a rear electrode on the insulating layer to form an integrated touch switch pad capable of emitting light, And stacking the light emitting layer to form a light emitting layer only around the pattern formed on the ITO film. In the method for manufacturing a capacitive sensing touch pad used for the capacitive touch sensor, Forming capacitive sensing patterns on the film of the general PC series in the portion requiring touch sensing, Stacking a light emitting layer on a film on which a pattern for capacitive sensing is printed; Stacking an insulating layer on the light emitting layer; Forming a rear electrode on the insulating layer to form an integrated touch switch pad capable of emitting light, The light emitting layer is partially formed on the opposite side of the capacitance pattern formed on the general PC-based film, and in order to supply voltage to the light emitting layer, a material that acts as a terminal on the opposite side of the capacitance pattern is used in the same form as the capacitance pattern. A material that forms a pattern, and allows the light emitting layer to be partially laminated by the pattern formed by the terminal material as described above to partially emit light, prevents energy consumption due to light emission of unnecessary portions, and acts as a terminal. Method of configuring a touch switch for light emission, characterized in that to see the cost advantage by reducing the consumption of.

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