KR200370794Y1 - LED Illuminating Apparatus Using Transparent Electrode and Transparental Panel - Google Patents

Abstract

The present invention relates to an LED lighting device using a transparent electrode and a transparent panel, the first transparent panel 100 made of a transparent material such as glass plate or acrylic and a conductive coating material on the first transparent panel 100 The transparent electrode 200 to be coated, the surface dividing line 300 which is a circuit pattern generated by dividing the transparent electrode 200 into a plurality, and the transparent portions disposed on both sides of the surface dividing line 300. A conductive adhesive 500 adhered to the electrode 200, an LED adhered to the transparent electrode 200 via the conductive adhesive 500, and an upper portion of the transparent electrode 200. It comprises a transparent filler 700 which is filled in, and the second transparent panel 101 attached to the upper portion of the filler 700.

Description

LED Illuminating Apparatus Using Transparent Electrode and Transparent Panel

The present invention relates to an LED lighting device using a transparent electrode and a transparent panel, and more specifically, to transparently divide the transparent electrode in a surface-dividing manner to form a circuit pattern and supply power so that the LED emits light in a transparent state. The present invention relates to an LED lighting device using an electrode and a transparent panel.

Generally, neon tubes or fluorescent lights used in windows, signs, lights, or signs. Various types of lighting devices such as incandescent lamps or cold cathodes are known and in use.

For example, a lighting device using a fluorescent lamp is used for lighting or signage of a house. However, the short life and the signboard, such as a large number of fluorescent lamps because of the high power consumption, and also difficult to maintain and miniaturization was difficult.

Also, signs and signs using lighting devices such as neon tubes and cold cathodes are widely used. However, such lighting devices consume a lot of power by using a high voltage power source, and there is a risk of electric shock. There was a problem that the attention is not as clean as the treatment is less attention.

In addition, lighting devices such as incandescent lamps, halogen lamps, or three-wavelength lamps are used to manufacture lighting devices such as stands. However, the size or shape of the lamp itself affects the appearance of the entire lighting device, and there is a problem in that the design is limited.

The present invention has been made to solve the above problems, the object of the present invention is to provide an LED lighting device using a transparent electrode and a transparent panel which is driven with low power, the life is long, and the maintenance is simple.

In addition, the present invention can freely form the design of the product according to the characteristics of the advertising material, and provides an LED lighting device using a transparent electrode and a transparent panel to implement a transparent and high-luminous luminescence effect using the light emitting characteristics of the LED For that purpose.

1 is a conceptual diagram for a transparent electrode according to the present invention

2 is a conceptual diagram showing a plane dividing line for forming a circuit pattern on a transparent electrode according to the present invention

3 is a process diagram for attaching the LED on the circuit pattern of the transparent electrode according to the present invention

4 is a configuration diagram for explaining the LED lighting apparatus and the assembly method according to the present invention

5a to 5d are exemplary views for implementing specific embodiments of the present invention.

5A is a schematic diagram showing a state in which LEDs are attached in parallel

Figure 5b is a schematic diagram showing a state in which the LED is attached in a parallel, parallel structure

5c is a conceptual view of forming a letter L in parallel structure with LED

5d is a conceptual view of forming a letter A in series with an LED

6 is a conceptual diagram of various external shapes of the lighting apparatus as another embodiment of the present invention;

7 is a reference diagram showing an actual production example of the present invention

<Description of Symbols for Main Parts of Drawings>

100: first transparent panel 101: second transparent panel

200: transparent electrode 201: faceted transparent electrode

300: plane dividing line forming a circuit pattern

400: LED 401: LED Electrode

500: conductive adhesive 600: conductive tape for power supply

700: Filler

An object of the present invention as described above is to coat a transparent electrode 200 used for a display device such as LCD or LCD on a first transparent panel 100 such as glass or acrylic. Step of dividing the coated transparent electrode 200 into a plurality of surfaces by chemical etching or physical dividing, so that each divided surface formed in the surface dividing step forms an electrical circuit pattern desired by a user. Forming a surface dividing line 300, attaching an electrode 401 of the LED 400 for illumination using a conductive adhesive 500 on the divided surface of the surface-divided transparent electrode 200, and The first transparent panel (1) to increase the light emitting effect by diffusely reflecting the light emitted from the LED 400 and the protection of the LED attached to the circuit pattern formed of the transparent electrode 200 applied on the first transparent panel 100 ( 100 2) the second transparent panel 101 having the same size and shape as above), and the three corners of the edges are covered by a taping treatment, and the like, and then the sealing material 700 is filled through the remaining one surface. 2 may be implemented by a method including attaching and fixing the transparent panel 101.

In addition, the LED lighting apparatus using a transparent electrode and a transparent panel according to the present invention for achieving the above object, the first transparent panel 100 made of a transparent material such as glass plate or acrylic, and the first transparent panel 100 The transparent electrode 200 for coating a conductive coating material on the surface, the surface dividing line 300 which is a circuit pattern generated by dividing the transparent electrode 200 into a plurality of, and the surface dividing line 300 A conductive adhesive 500 adhered to the transparent electrode 200 positioned at both sides, an LED adhered to the transparent electrode 200 via the conductive adhesive 500, and the transparent It can be achieved by including a transparent filler 700 filled in the upper portion of the electrode 200, and a second transparent panel 101 attached to the upper portion of the filler 700.

In this case, the conductive coating material applied to the transparent electrode 200 may be any one of indium tin oxide (ITO), indium zinc oxide (IZO), or a liquid polymer.

In addition, it is preferable that two or more power supply conductive tapes 600 are attached to the transparent electrode 200.

In addition, the LED 400 formed through the plane dividing line 300 is any one of a combination or a combination thereof is formed in a parallel structure, formed in a series structure, or formed in a series-parallel structure. desirable.

(Example)

Hereinafter, the configuration of the present invention and its manufacturing method will be described in detail with reference to the accompanying drawings.

First, FIG. 1 is a conceptual diagram of a transparent electrode according to the present invention, and FIG. 2 is a conceptual diagram showing surface dividing lines for constructing a circuit pattern on the transparent electrode according to the present invention. In addition, Figure 3 is a process diagram for attaching the LED on the circuit pattern of the transparent electrode according to the present invention, Figure 4 is a block diagram for explaining the LED lighting apparatus and the assembly method according to the present invention.

In FIG. 1, reference numeral 100 denotes a first transparent panel, for example, made of a transparent material such as glass or acrylic. In addition, reference numeral 200 denotes a transparent electrode, and in FIG. 2, reference numeral 201 denotes a divided surface in which the transparent electrode is divided into planes, and the divided surface is formed by etching or physical division (for example, an extracting method using a knife). do. Reference numeral 300 denotes surface dividing lines forming a circuit pattern, and reference numeral 600 denotes a conductive tape for power supply.

As shown in FIG. 1 and FIG. 2, first, targets (ITO, IZO, liquid polymer, etc.), which are conductive coating materials, are coated on the panel 100 such as glass or acrylic of transparent material with the transparent electrode 200.

The coating surface of the transparent electrode 200 has a value in which the electrical resistance is 100 [??] or less per unit area (square inch), and sufficient current flows for emitting the LED 400. In addition, the transparent electrode 200 maintains transparency as the plate itself because it maintains high transparency even after coating.

Next, referring to FIG. 2, a circuit pattern for a letter or a figure to be displayed on the transparent electrode 200 coated in FIG. 1 by chemical etching or physical division (for example, cutting) is formed. In this way, the transparent electrode 200 is divided into a surface dividing surface 201 and a surface dividing line 300 is formed to form a circuit pattern.

In this case, the plane dividing line 300 electrically divides each dividing plane 201 completely, and the width of the plane dividing line 300 is tens of microns or less, making it difficult to visually identify the dividing line. In this way, a desired circuit pattern is formed on the transparent electrode 200.

Next, as shown in FIG. 3, the process of attaching the LED 400 to the circuit pattern formed on the transparent electrode 200 is performed.

First, the LED 400 for illumination is attached onto the circuit pattern formed in FIG. 2. Next, a small amount of conductive adhesive 500 is applied between the transparent electrode 200 and the electrode 401 of the LED 400 and then heated to attach the LED 400. In addition, the conductive tape 600 is adhered to the required surface to show an even voltage distribution on the front surface of the transparent electrode 200. The LED 400 emits light when DC power is applied to the lighting device configured in this manner in consideration of the polarity of the LED 400.

3 and 4, the LED lighting apparatus using the transparent electrode and the transparent panel according to the present invention and a method of manufacturing the same will be described in detail.

As shown, the LED lighting apparatus using the transparent electrode and the transparent panel according to the present invention and a manufacturing method thereof are as follows.

First, coating a transparent electrode 200 used for a display device such as an LCD or a plasma display panel on a first transparent panel 100, such as a glass plate or acrylic, A surface dividing step of dividing the transparent electrode 200 into a plurality of surfaces by chemical etching or physical dividing (eg, cutting), and each dividing surface formed in the surface dividing step forms an electrical circuit pattern desired by a user. Forming a surface dividing line 300, attaching an electrode 401 of the LED 400 for illumination using a conductive adhesive 500 on the divided surface of the divided transparent electrode 200, and In order to prevent the damage of the LED 400, the protection of the LED attached to the circuit pattern formed of the transparent electrode 200 applied on the first transparent panel 100 and the light emitted from the LED 400 diffusely reflected light emitting effect Lou to increase The second transparent panel 101 having the same size and shape as that of the first transparent panel 100 is placed and the three sides of the corners are closed by a tape treatment method, and the sealing material 700 is filled through the remaining one surface. It comprises a step of attaching and fixing the transparent panel 100 and the second transparent panel 101.

The configuration and operation of the LED lighting apparatus using the transparent electrode and the transparent panel according to the present invention constituted by the method as described above are as follows.

That is, the transparent electrode 200 used for a display device such as an LCD or a plasma display panel (PDP) is coated on the first transparent panel 100 such as a glass plate or acrylic, and the coated transparent electrode 200 is coated. The surface is divided by chemical etching or physical cutting. At this time, each divided surface to form a desired electrical circuit pattern, and attached to the electrode of the LED and the transparent electrode 200 by using a conductive adhesive 500 such as silver paste to supply power, a transparent glass state LED light is emitted from the surface. In order to protect the attached LED, the transparent glass plate or the second transparent panel 101 is filled with a sealing material made of a transparent material such as transparent silicon to attach the LED and the transparent electrode according to the present invention. The device is constructed and operated.

In particular, as shown in FIG. 3, when the light emitting step of the LED 400 is completed, the three surfaces formed as corners are tapered on the second transparent panel 101 in order to increase the protection and light emitting effect of the LED 400. Or by other method, and then filled with a transparent filler 700 made of transparent silicon or the like to attach the first transparent panel 100 to which the second transparent panel 101 and the LED 400 are attached. When finished, the lighting device is constructed.

In this case, the naked eye is hardly identified through the circuit pattern formed by dividing the surface, and the LEDs inside the transparent electrode 200, the first and second transparent panels 100 and 101, and the transparent filler 700 ( Since the lighting device can be implemented by the light emission of 400, at first glance, the LED is turned on in the absence of the wire, and the industrial effect can be expected to obtain a higher advertisement effect by stimulating the curiosity of the user.

As described above, the present invention can display a character or a picture by using an LED emitting property through a lighting device formed in a transparent state, as well as an aesthetic effect of making the lighting device using the light in various designs. In addition, as a power source for driving LED, it is driven by low voltage below DC 48 volts [V] and low current below 1 amp [A], which can greatly reduce power consumption, It is effective to prevent safety accidents such as electric shock.

In addition, it has the effect of contributing to related industries by expanding the demand for LEDs, which are attracting attention as the next generation lighting through mass production, and when used for various signage (eg emergency induction lamps), it has excellent readability and attention. It can be obtained, and because it is made of transparent state, it is possible to show the indoor and outdoor simultaneous advertisement because it is possible to see the back side, and the design can be made in various ways, so if it is standardized to furniture or other industrial materials, it is possible to develop new materials.

Various embodiments of the present invention configured as described above will be described with reference to FIGS. 5A to 5D.

5a to 5d is an exemplary view of implementing a specific embodiment of the present invention, Figure 5a is a schematic diagram showing a state in which the LED is attached in parallel, Figure 5b is a state in which the LED is attached in a parallel, parallel structure 5C is a conceptual diagram in which the letter A is formed in a parallel structure with LEDs, and FIG. 5D is a conceptual diagram in which the letter A is formed in a serial structure with LEDs, respectively.

As shown, the lighting apparatus according to the present invention can be configured in various forms according to the user's selection or the characteristics of the installation device. In particular, by applying the conductive tape 600, it has a constituent feature to be able to exhibit a uniform voltage distribution on the front of the transparent electrode (200).

In addition, Figure 6 shows a conceptual diagram of the various external forms of the lighting apparatus as another embodiment of the present invention. In addition, in order to show an actual use example of the present invention, the present inventors are shown in Figure 7 the test production.

Although the present invention has been described based on the embodiments shown in the drawings, this is only an example, and those skilled in the art will understand that various modifications and other embodiments are possible therefrom.

As described above, according to the LED lighting apparatus using the transparent electrode and the transparent panel according to the present invention and a method of manufacturing the same, LED lighting using the transparent electrode and the transparent panel which is driven at low power, the life is long, and the maintenance is simple. To provide a device.

In addition, the design of the lighting device can be freely formed, and an LED lighting device using a transparent electrode and a transparent panel that implements a transparent and high-definition light emitting effect can be provided using the light emitting characteristics of the LED.

Claims (4)

In the LED lighting apparatus using a transparent electrode and a transparent panel, the first transparent panel 100 made of a transparent material such as glass plate or acrylic, A transparent electrode 200 for coating a conductive coating material on the first transparent panel 100; A surface dividing line 300 which is a circuit pattern generated by dividing the transparent electrode 200 into a plurality; A conductive adhesive 500 adhered to the transparent electrode 200 positioned at both sides of the surface dividing line 300; An LED (Light Emitting Display) adhered to the transparent electrode 200 through the conductive adhesive 500; A transparent filler 700 filled in an upper portion of the transparent electrode 200, LED lighting apparatus using a transparent electrode and a transparent panel comprising a second transparent panel 101 is attached to the upper portion of the filler 700. The method of claim 1, The conductive coating material applied by the transparent electrode 200 is any one of indium tin oxide (ITO), indium zinc oxide (IZO), or a liquid polymer, LED lighting apparatus using a transparent electrode and a transparent panel. The method of claim 1, LED lighting device using a transparent electrode and a transparent panel, characterized in that two or more power supply conductive tape 600 is attached to the transparent electrode (200). The method of claim 1, The LED 400 formed through the surface dividing line 300 is any one of a combination of a parallel structure, a series structure, or a series or parallel structure, or a combination thereof. LED lighting device using a transparent electrode and a transparent panel.