KR100514759B1 - Super-thin type keypad emitting light - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ultra-thin light-emitting keypad, and in particular, the EL device is formed on the back layer formed at the bottom of the projection to prevent deformation and breakage of the EL element due to the projection, to increase light emission efficiency, brightness, and to mutually space a plurality of devices. Ultra-thin type with a flexible elastic layer to significantly improve the click feeling and switching accuracy, and the EL device has a dispersion layer, an electrostatic shielding layer, and an anti-noise layer to minimize the effects of static electricity or electromagnetic waves and to achieve a clean and uniform light emitting surface. Provides a light emitting keypad.

Description

Super-Thin Type Keypad Emitting Light

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an ultra-thin light-emitting keypad, and in particular, the EL device is formed on the back layer formed at the bottom of the projection to prevent deformation and breakage of the EL element due to the projection, to increase light emission efficiency, brightness, and to mutually space a plurality of devices. Ultra-thin to provide a clean and uniform light emitting surface by minimizing the effects of static electricity and electromagnetic waves by providing a elastic layer, which significantly improves the click feeling and switching accuracy, and the EL device has a dispersion layer, an electrostatic shielding layer, and an anti-noise layer. The present invention relates to a light emitting keypad.

In general, the light-emitting keypad is applied to a communication device such as a mobile phone is used as a switch device for generating a signal or performing various additional functions, and has a function of identifying keys such as numbers or letters at night or in a dark place, Recently, as the thinning of portable terminals is accelerated, ultra-thin light emitting keypads have been developed and applied.

Conventional LED type light emitting keypads used as light sources of light emitting keypads cannot be manufactured in a thin form due to the characteristics of LEDs, and thus keypads are made relatively thick. In addition, the power consumption according to the LED light emission can be shortened the use time of the battery. In addition, the uniformity of light emission is uneven depending on the arrangement position of the LED, which leads to design difficulties.

Therefore, in order to overcome the limitation of the ultra-thin LED of the conventional LED light emitting keypad, the development of an ultra-thin light emitting keypad to which the EL (Electro Luminescence) lamp light emitting method (hereinafter referred to as "EL method") is applied.

1 is a cross-sectional view of a conventional EL type light emitting keypad for solving the above problems, and includes a key top 110, an EL metal dome sheet 120, and a printed circuit board 130, and the EL metal dome sheet 120. ) Is composed of an EL sheet 121, a metal dome 123, and a base tape 122 to realize ultra-thin film and low power consumption.

Looking at the function of the EL-type metal dome keypad, when the key top 110 is pressed by the user, the fixed contact of the metal dome 123 and the printed circuit board 130 by the protrusion 111 located on the back of the key top 110. The terminal 131 is contacted and switched to operate.

However, in the conventional EL type light emitting keypad, the EL sheet 121 is continuously pressurized and impacted by the projection 111, so that there is a high risk of damage or breakage of the EL sheet, thus causing a large problem in the reliability of the EL keypad and There is a problem that causes a drop in the click feeling.

In addition, since the relatively thick key top 110 is positioned on the upper part of the EL sheet 121, and the material is made of silicon having low light transmittance, there is a problem that the light output efficiency is significantly reduced and the luminance is reduced.

On the other hand, such an EL keypad can cause serious problems in product performance under the influence of static electricity and electromagnetic waves. Particularly, powder particles of a light emitting body that emit light generally emit light in a radius of about 20 to 50 μm. There may be a problem in the color of the light or the uniformity of the brightness due to the presence of a shaded portion between and the particles.

Accordingly, the present invention has been made to solve the above problems, by forming the EL device on the back layer formed on the bottom of the projection to prevent deformation and breakage of the EL element due to the projection and increase the light emission efficiency, brightness and It has a large number of mutually spaced elastic layers to significantly improve the click feeling and switching accuracy, and the EL device is equipped with a dispersion layer, an electrostatic shielding layer, and an anti-noise layer to minimize the effects of static electricity and electromagnetic waves, and to provide clean and uniform light emission. It is an object of the present invention to provide an ultra-thin light emitting keypad capable of providing a surface.

As an aspect for achieving the above object,

The present invention is an ink layer formed on the lower substrate; An EL device formed below the ink layer; And a plurality of elastic layers formed under the EL device, and a back layer formed under the elastic layer and having protrusions.

The present invention also provides an ultra-thin light emitting keypad further comprising a printed circuit board having a contact point and a metal dome positioned above the contact terminal and spaced apart from the contact terminal.

Further, there is provided an ultra-thin light-emitting keypad which further comprises an adhesive layer between the EL device and the elastic layer.

Further, the EL device provides an ultrathin light emitting keypad characterized in that it comprises an EL system for emitting light and at least one of a dispersion layer, an electrostatic shielding layer, and an anti-noise layer on or below the EL system.

Further, at least one of the ink layer, the EL device, the elastic layer, the back layer, and the projection provides an ultra-thin light emitting keypad characterized in that it is formed by screen printing.

In addition, the projection provides an ultra-thin light emitting keypad, characterized in that formed on the back layer by thermocompression molding.

In addition, the projection and the back layer provides an ultra-thin light emitting keypad, characterized in that formed integrally.

In addition, the elastic layer is made of a plurality, it provides an ultra-thin light-emitting keypad, characterized in that formed to be spaced apart from each other at a predetermined interval in the horizontal direction to correspond to the region where the projection is formed.

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

2 is a cross-sectional view of an ultra-thin light emitting keypad according to the present invention.

As shown in the drawing, the ultra-thin light emitting keypad according to the present invention includes an ink layer 2 formed under the substrate 1, an EL device 3 formed under the ink layer 2, and a lower portion of the EL device 3; It is characterized in that it comprises a formed elastic layer 5 and a lower layer 6 formed on the lower portion of the elastic layer 5 and having a projection 7. In this case, an adhesive layer 4 may be further included between the EL device 3 and the elastic layer 5.

The substrate 1 is not particularly limited, but a substrate having an ultra-thin elasticity is preferable, and it is preferable to have an excellent light transmittance. Resin such as PET, polyurethane and the like can be selected. Although the thickness of the board | substrate 1 is not restrict | limited, 100-150 micrometers is preferable for ultra-thinning.

The ink layer 2 is a layer for displaying the keys of the keypad and implements the front shape of the keypad, and is formed by applying ink for the keypad to the bottom of the substrate 1 by spraying or screen printing. As for thickness, 5-10 micrometers is preferable.

The EL device 3 is a light emitting area, and its structure and manufacturing method are not particularly limited, and the structure and manufacturing method of the EL device 3 disclosed or used in the technical field of the present invention can be selected without limitation. The thickness is preferably 100 to 150 µm in consideration of ultra-thinness and light emitting performance. By placing the EL device 3 close to the front of the keypad, the light output efficiency is further maximized. In addition, since the light loss does not occur due to the key top of the conventional silicon material, the luminance is relatively increased.

  A more preferable EL device 3 and a manufacturing method which can be applied to the present invention will be described later with reference to FIG.

The elastic layer 5 is one of the great features of the present invention, it is provided to facilitate the operation of the keypad to improve the feeling of click and more accurate switching.

That is, when the user presses a predetermined key, the elastic layer 5 is provided so that only the region of the predetermined key is bent specifically, thereby preventing the region of the unwanted key from bending and switching to realize accurate switching. In addition, the click feeling is improved due to the elastic force of the elastic layer 5, and the keypad can be operated with less force, thereby enabling the smooth operation of the keypad.

The elastic layer 5 may be formed entirely in the lower portion of the EL device 3, and more preferably, as shown in FIG. 2, the plurality of protrusions 7 are formed. It may be formed to be spaced apart from each other at predetermined intervals in the horizontal direction to correspond to the area. This spaced structure allows for more accurate switching.

The material of the elastic layer 5 may be used without limitation as long as the material has good elasticity, and more preferably, an ultra-thin metal plate or an ultra-thin plastic plate is preferable. As for thickness, 100-200 micrometers is preferable. In addition, in order to smoothly operate the key, it is preferable to internally etch or cut the mold.

In the method of forming the elastic layer 5 on the EL device 3, it is preferable that a separate adhesive layer 4 be provided and bonded to each other because of excellent adhesive strength. At this time, the adhesive method may use a screen-printed printing adhesive or an adhesive tape. Alternatively, the back layer 6 may serve to adhere the elastic layer 5 to the EL device 3 while covering the elastic layer 5.

The back layer 6 serves to cover the elastic layer 5. In addition, the projection 7 is provided at the bottom thereof to provide better keypad operation, click feeling, and effective switching.

The material of the back layer 6 is not particularly limited, and preferably, silicone or polymer resin may be selected.

As a method of forming the protrusions 7 in the lower portion of the back layer 6, the protrusions 7 may be separately provided and adhered to the back layer 6, but more preferably, they are integrally formed with the back layer 6. It is preferable in terms of durability and strength. That is, liquid silicone or film silicone, polymer resin, etc. are formed by compression molding at 100 to 150 degrees using a molding mold formed corresponding to the back layer 6 and / or the projection 7, or by photolithography. It is formed by screen printing an ink for UV curing or IR curing.

3 is a cross-sectional view of another ultra-thin light emitting keypad according to the present invention.

That is, as shown in the present invention, the metal dome is disposed below the back layer 6 in the configuration, the contact terminal 81 and the contact terminal 81 spaced apart from the contact terminal 81 above the contact terminal 81 ( Provided is an ultra-thin light emitting keypad further comprising a printed circuit board 8 having 82).

The printed circuit board 8 is formed with a metal dome 82 and a contact terminal 81.

Therefore, when a key of the keypad is pressed by the user, the elastic portion provided under the specific key is elastically deformed so that the projection 7 presses the metal dome 82 of the printed circuit board 8 and accordingly the metal dome ( 82 is in contact with the contact terminal 81 is switched.

4 is a sectional view of one embodiment of an EL device 3 of the ultra-thin light-emitting keypad of the present invention. 4 is only one embodiment, it will be apparent that variations and partial omission of the stacking order of the illustrated structure are all included in the scope of the present invention.

The structure of the EL device 3 of the present invention is most preferably configured as shown in FIG.

In other words, the EL device 3 has an electrostatic shielding layer 31, a dispersion layer 32, an insulating layer 33, a front electrode layer 34, a light emitting layer 35, a dielectric layer 36, The back electrode layer 37, the insulating layer 38, and the noise prevention layer 39 are sequentially stacked. The front electrode layer 34, the light emitting layer 35, the dielectric layer 36 and the back electrode layer 37 form an EL system which is a light emitting structure of the EL device 3.

The manufacturing method of the EL device 3 is preferably formed under the ink layer 2, and is preferably formed by screen printing for thinning.

Except for the static shielding layer 31, the dispersion layer 32, the noise prevention layer 39 in the above configuration is well known in the art, and accordingly, the static shielding layer 31, the dispersion layer 32, noise Forming the prevention layer 39 is a great feature of the present invention and will be described below.

The electrostatic shielding layer 31 is formed to prevent damage to the circuit components and the EL system due to external static electricity generation and serves to discharge the generated static electricity to the printed circuit board 8 or the device case through the ground terminal. . The material may be preferably used as the material is made of a material having high electrical conductivity. Thus, materials such as carbon, copper, silver, and gold may be used.

The dispersion layer 32 serves to improve the dispersibility of light generated in the emission layer 35. Since the dispersion layer 32 is required to transmit light, the dispersion layer 32 is preferably configured as a material having good transmittance, and may include various materials for improving light dispersion. Preferably, various pigments, glass beads, calcium carbonite and the like can be selected.

The noise prevention layer 39 serves to block noise generated when the EL device 3 is operated by an AC power source. This noise prevention layer 39 is preferably configured to be located on the back surface of the EL device 3. The noise can be effectively blocked by using a material with high electrical conductivity. Examples thereof include, but are not limited to, carbon, copper, silver, gold, and the like.

The above embodiments are intended to describe the present invention in detail, and are not intended to limit the present invention. Therefore, modifications, modifications, omissions, etc. that can be applied within the scope of the technical idea of the present invention are defined by the claims. It is included in the scope of the invention.

That is, it is included in the scope of the present invention even if it is formed in the reverse order of the manufacturing procedure in the manufacturing procedure. That is, after forming a back layer, it can also manufacture in order of laminating | stacking an elastic layer, an EL device (the formation of the internal structure can also be reversed), an ink layer, and a board | substrate.

Also, the EL sheet may be formed to be specific only on the upper portion of the elastic layer.

Due to the above characteristic configuration, the following effects are provided. That is, the present invention forms the EL device on the back layer formed at the bottom of the projection to prevent deformation and breakage of the EL element due to the projection, increases the light emission efficiency and brightness, and includes a plurality of mutually spaced elastic layers. Significantly improves the click feeling and switching accuracy, and the EL device is provided with a dispersion layer, an electrostatic shielding layer and an anti-noise layer to minimize the effects of static electricity or electromagnetic waves, reduce noise, and provide a clean and uniform light emitting surface. do.

1 is a cross-sectional view of a conventional EL type light emitting keypad;

2 is a cross-sectional view of an ultra-thin light emitting keypad according to the present invention.

3 is a cross-sectional view of another embodiment of an ultra-thin light emitting keypad according to the present invention;

4 is a cross-sectional view of an EL device of the ultra-thin light emitting keypad according to the present invention.

* Explanation of symbols for main parts of the drawings

1: substrate 2: printed layer

3: EL device 4: adhesive layer

5: elastic layer 6: back layer

7: turning 8: printed circuit board

81: contact terminal 82: metal dome

Claims (8)

An ink layer formed under the substrate; An EL device formed below the ink layer; An elastic layer formed below the EL device; and An ultra-thin light emitting keypad comprising a; a rear layer formed on the bottom of the elastic layer and having a projection. The ultra-thin light-emitting keypad according to claim 1, further comprising a printed circuit board having a metal dome positioned below the back layer and spaced apart from the contact terminal on the contact terminal and the contact terminal. The ultra-thin light emitting keypad according to claim 1 or 2, further comprising an adhesive layer between the EL device and the elastic layer. The ultra-thin light emitting keypad according to claim 1 or 2, wherein the EL device comprises at least one of an EL system for emitting light and a dispersion layer, an electrostatic shielding layer, and an anti-noise layer above or below the EL system. . The ultra-thin light-emitting keypad according to claim 1 or 2, wherein at least one of the ink layer, the EL device, the elastic layer, the back layer, and the projection is formed by screen printing. The ultra-thin light-emitting keypad according to claim 1 or 2, wherein the protrusion is formed by thermocompression molding on the back layer. The ultra-thin light-emitting keypad according to claim 1 or 2, wherein the protrusion and the back layer are integrally formed. The ultra-thin light-emitting keypad according to claim 1 or 2, wherein the elastic layer is formed in plural, and is spaced apart from each other at predetermined intervals in a horizontal direction so as to correspond to an area where the protrusion is formed.