KR100903517B1 - A back light unit - Google Patents

Abstract

The present invention relates to a keypad device used in various electronic products such as a mobile phone or a telephone, a PDA, a keyboard, a calculator, and more particularly, has flexibility and an optimal light transmission function, which is easily bent, and light is lost through the side. The present invention relates to a backlight input device for illuminating a key input with improved uniformity that can prevent light leakage and improve local darkening of a keypad. According to an aspect of the present invention, there is provided at least one light emitting unit provided on at least one sidewall of a light guide plate to provide light to the light guide plate, a keypad disposed on an upper surface of the light guide plate, and a key input unit dimming backlight device having a printed circuit board under the light guide plate. The light guide pattern portion may be formed on a top surface or a bottom surface of the light guide plate so that the received light emits light at the key position. It characterized in that it comprises a light path guidance pattern for preventing the light from being lost to the outside or to provide a movement path of the light.

Light guide plate, light guide pattern portion, light path guidance pattern, light emitting means.

Description

Back light unit for dimming the key input unit {A back light unit}

The present invention relates to a key input unit used in various electronic products such as a mobile phone or a telephone, a PDA, a keyboard, a calculator, and more particularly, has flexibility and an optimal light transmission function that is easily bent, and light is lost through the side. The present invention relates to a key input dimming backlight device that prevents light leakage and improves brightness of a local dark portion of a key input unit.

Typically, a backlight device used in a light receiving type flat panel display such as an LCD or a keypad backlight of a telephone, a mobile phone, a lighting signboard, or the like is disclosed in Korean Patent Application Nos. 97-73783, 98-30060, 99-47621, and 2000-63111, 2001-73468, 2005-42035, 2005-62790, 2005-62797, 2005-64351, 2006-97960 and Utility Model Application No. 1996-47524 , 2006-19115, and the like.

Back light dimming device disclosed in the above-mentioned pre-invented inventions and devises, respectively, by placing a plurality of LEDs in each required portion of the rear of the key to form local light only in the required portion, or emit light such as an organic EL (OLED) It is composed of an edge light method that installs a plate or uses a flexible thin silicon plate as a light guide plate to arrange an LED light source on a thin side of silicon to illuminate a required key area.

The method of arranging a plurality of LEDs directly on the bottom surface of the above method has a problem such that the manufacturing cost is increased, the power consumption is increased because the number of LEDs are required by the number of keys.

In order to solve this problem, instead of installing the LEDs for each key, the method of properly placing the LEDs in the space between the keys is used to illuminate two or three keys with one LED. It does not produce the constant brightness required every time and the brightness distribution between the keys is very large, which has the fatal disadvantage of degrading the product quality, which is smaller than the number of keys but still requires a large number of LEDs.

In addition, in the case of replacing the LED with a surface light emitting device such as an organic EL on the upper surface of the contact switch and using a key on the upper surface again, the light efficiency of the device itself is lowered, and the organic EL has a higher unit cost. The unit price increases, and a separate power source is required by the AC drive, and there are various problems such as noise generation due to the AC drive and a cost increase for solving these additional problems.

Meanwhile, the above-mentioned defects can be solved. In the backlight device of the conventional LCD panel, a light guide plate made of a transparent material capable of transmitting light and a light emitting means disposed on the side of the light guide plate are widely used as a side effect of high efficiency and low cost. Although there is an edge light method, the conventional light guide plate is hardly bent in acrylic resin material, and thus it is impossible to use the backlight device for dimming the back of a key input unit such as a telephone or a mobile phone.

In other words, the material of the bottom of the key input unit used in telephones, mobile phones, etc. should be flexible, and if a key is pressed, it must be pressed to the floor to operate a contact switch, and thus it is impossible to use the light guide plate method of the conventional LCD panel.

Therefore, in order to adopt the edge light to the backlight for the back light of the key input part, it replaces the existing rigid light guide plate material and uses relatively flexible silicon as the light guide plate material, polycarbonate film as a thin film, or polyurethane-based material. I use it.

1 is a schematic view for explaining a light efficiency degradation of the light guide plate of the conventional backlight for the backlight unit for the key input unit.

In addition, in the conventional backlight input device for dimming the key input unit, as shown in FIG. 1, a light source is disposed at any end of the light guide plate provided with a suitable light guide pattern, and when light is incident, light emitted from the light source passes through the light guide plate, The light that hits the light is effectively bent to the front to be emitted to the outside to illuminate the back of the key, and the light that does not touch the other light guide pattern is lost to the total leakage or external leaking light that passes through the light guide plate.

Referring to FIG. 1, a large amount of light exits to the edge surface opposite to the light source. Since light out of the light guide plate leaks to the edge of the product, there is a problem that the appearance quality of the product is also greatly reduced.

2 is a schematic diagram for explaining a local dark spot occurrence phenomenon of a conventional light guide plate.

When designing the appearance of the light guide plate after the arrangement of the various parts due to the design structure of the mobile phone, as shown in FIG. 2, a local cancer part in which the LED light source does not reach the corner portion where the other parts are mounted may occur.

The amount of light is relatively small in the corners where other parts are mounted outside the irradiation area of the LED light source, which causes a problem of greatly reducing the luminance uniformity of the product. In order to solve this problem, it is easy to solve the problem by placing additional LEDs on the local dark areas, but the problems of material cost increase, assembly cost, and power consumption increase as the number of light sources increases.

An object of the present invention relates to a key input unit mounted on a variety of electronic devices such as mobile phones, telephones, PDAs, keyboards, calculators, etc., without adding a light source, economical and power-saving, easy bending flexibility, optimal light transmission function and The present invention provides a backlight unit for dimming a key input unit for blocking local darkening and preventing light leakage through a side surface.

In addition, an object of the present invention is to provide a light guide pattern portion that functions to illuminate the point by emitting light at a specific point and the optical path to improve the light loss of the light leaks to the light guide plate made of a thin transparent resin and the local dark portion obscured by other parts By providing an induction pattern having an appropriate curvature and an inclination angle, it provides an excellent brightness uniformity with a minimum light source, and provides a backlight device for dimming a key input unit that can achieve cost reduction, thin design, and minimize power consumption.

An apparatus of the present invention for achieving the above object is provided with at least one light emitting means provided on the side wall of the light guide plate to provide light to the light guide plate, a keypad located on the upper surface of the light guide plate and a printed circuit board under the light guide plate A light input device for dimming a key input unit, comprising: a light guide pattern portion configured to form a pattern on an upper surface or a lower surface of a light guide plate so that the received light is emitted at a key position; The cross section of the induction pattern includes an optical path induction pattern having an angle between the inclined planes θ to prevent the light from being lost to the outside or providing a movement path of the light. And having an inclination angle α between 30 degrees and 70 degrees between the vertical extension line and the straight line optical path guidance pattern. It is characterized by.
In addition, the optical path guide pattern of the present invention is characterized in that the distance from the light source to the light guide pattern portion in the case of a curved line is d, and the minimum radius of curvature R of the optical path guide pattern is greater than or equal to d.

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The present invention maximizes the luminance uniformity by installing a light path induction pattern on the light guide plate to remove local dark portions of the key input unit, and minimizes the light exiting to the outside of the light guide plate and recycles the light, thereby maximizing the overall brightness. Since the advantages and the number of LED light sources can be minimized, manufacturing cost savings and power consumption can be simultaneously reduced.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

It should be noted that in the following description, only parts necessary for understanding the operation according to the present invention will be described, and descriptions of other parts will be omitted.

3 is a cross-sectional view of a dimming backlight device for a key input unit according to an exemplary embodiment of the present invention.

Referring to FIG. 3, the key input dimming backlight device of the present invention is formed in three stages, and at the bottom thereof, a printed circuit board 10 is positioned, and a light emitting means 22, a light guide plate 20, a light guide pattern portion 24, The optical path guidance pattern 70 is located, and the keypad 30 is located at the top.

The light guide plate 20 has a light guide pattern 24 formed on an upper surface or a lower surface of the light guide plate 20 so as to diffuse and scatter light with uniform illuminance, and at least one light emitting means 22 is provided on a sidewall of the light guide plate 20. Light is irradiated to the light guide plate 20.

In addition, the light guide plate 20 of the present invention is provided with a light path induction pattern 70, and a light emitting diode 22 mainly uses a light emitting diode (LED).

The keypad portion 30 has a resin layer 32, a base resin layer 34, and a letter-shaped letter opening 31, and includes a key assembly 35 on one side and a key located on an upper surface of the base resin layer 34. The printed circuit board 10, which is composed of an attachment film 33 and positioned on an upper surface of the light guide plate, is positioned on the lower surface of the light guide plate 20, and has a metal dome switch 12.

The light guide plate 20 of the present invention has high light refractive index and light transmittance in order to minimize the total reflection of light and absorption loss in the material, and has a certain hardness and elasticity so that the light guide plate 20 can be easily bent when an external force is applied and bent due to sufficient elasticity. In addition, it is preferable to use a material of high transparency silicone or polyurethane, polycarbonate (PC), polyethylene terephthalate (PET) -based resin having a material property that is easily restored when external force is removed.

The light guide pattern part 24 serves to illuminate the corresponding key even with a small light source by allowing light to be emitted at a specific point. The light guide pattern part 24 has a predetermined rule on the top or bottom surface of the light guide plate 20 as shown in FIG. 3. It is formed into an island-like group.

The light guide pattern portion 24 is formed of an intaglio or an embossed shape having a certain shape, for example, a point, a circle, a straight line, an intermittent line, a mesh or a surface having no separate pattern, and a combination of various shapes. Alternatively, the island-shaped light guide pattern portion 24, which is embossed, is formed of several required letters or keys again.

The light guide pattern part 24 is formed by printing, injection molding, extrusion, stamping, imprinting, ultrasonic processing, or laser processing. The light guide pattern portion 24 may be formed by a printing method using a mask on which a light guide pattern is formed using a separate ink, injection molding using a mold having a pattern, or using a stamp mold having a light guide pattern portion pattern. It is possible to use a variety of methods, such as by taking a product with a heated mold, forming the laser beam oscillated from the laser device on the light guide plate 20, or forming the light guide pattern portion 24 using ultrasonic waves. .

In addition, the light path induction pattern 70 of the present invention blocks the loss of light leaking out of the light guide plate 20 and at the same time, the light source is supplied to the local arm portion mentioned in the prior art, thereby increasing the brightness of the entire keypad with the minimum light source and providing the light. Maximize your efficiency.

The present invention uses a light path induction pattern 70 to solve that the light provided from the LED light source is transmitted out of the light guide plate 20, as shown in FIG. .

In addition, the present invention, as shown in FIG. 2, the light path guide pattern 70 is generated even when a local dark area where light does not reach due to constraints on the light guide plate design structure due to the arrangement of the light source or other parts of the product itself. To solve the problem.

Although the light path guide pattern 70 of the present invention is provided on the light guide plate 20, the light path guide pattern 70 operates completely differently from the light guide pattern part 24, but the light guide pattern part 24 emits light at a corresponding point. 70 may serve to block light leakage to the outside of the light guide plate, and may provide a light path to a dark portion in which the light of the light guide plate is not supplied.

That is, the optical path guide pattern 70 of the present invention provides a movement path of light to illuminate local dark areas to improve luminance, and is installed at the edge of the light guide plate 20 to block light from leaking.

The optical path guide pattern 70 of the present invention is formed in an intaglio on an upper surface or a lower surface of the light guide plate 20 separately from the light guide pattern portion 24 and has a curved line or a predetermined slope having a constant curvature R when viewed from the front. It is made in the form of a straight line, and when the cross section of the pattern is very narrow, the depth is realized in a large shape.

Figure 4 is a schematic diagram of improving the brightness of the local dark portion using the light path guidance pattern of the light guide plate according to the present invention.

According to the present invention, the light path induction pattern 70 is installed on the light guide plate 20, so that light is also supplied along the light path induction pattern to the local dark portion unlike the conventional art, thereby improving the uniformity of luminance.

Referring to FIG. 4, a light path induction pattern 70 having a predetermined angle is installed in the light guide plate 20 so that the light output from the LED light source is also supplied to a local dark portion in the light guide plate 20. The total reflection along the induction pattern 70 is supplied to the desired local cancer portion. The light path induction pattern 70 suppresses light leakage as much as possible, unlike the light guide pattern portion, and aims to refract light in a desired direction.

The present invention smoothly provides light to the local cancer area by applying the light path induction pattern 70 without the addition of the LED light source.

5 is a diagram illustrating an example of three-dimensionally showing the optical path guidance pattern of the present invention shown in FIG.

The total reflection effect generated in the optical path guide pattern 70 is achieved by the difference in refractive index between the medium and the air. Figure 5 shows the shape of the total reflection of the light in the medium by the optical path guide pattern of the present invention.

The present invention improves the uniformity of luminance by providing a light path guide pattern 70 on the light guide plate 20 so that light is supplied along the light path guide pattern.

6 is a schematic view for explaining the angle between the pattern cross-section inclined surface of the light path guide pattern 70 of the light guide plate according to the present invention, Figure 7 is the angle between the cross-section slope in the design of the optical path guide pattern 70 of FIG. Experimental graph to optimize the value of.

In FIG. 6, the angle θ between the inclined planes of the pattern end surfaces of the light path guide patterns 70 provided on the light guide plate is 60 degrees and 90 degrees and 120 degrees.

Referring to the experimental result graph of FIG. 7, when the angle θ between the cross-sectional inclination portions of the optical path guidance pattern 70 installed on the light guide plate exceeds 120 degrees, strong light emission occurs in the optical path guidance pattern, and thus the desired light guidance effect is almost obtained. Did not appear.

Also, when the angle θ between the inclined portions of the cross section is 90 degrees or less, the induction effect is about 40% in terms of brightness, and in the case of 60 degrees or less, an optimal effect is about 80% or more in terms of brightness.

The shape of the optical path guidance pattern 70 of the present invention is formed in the form of a curve or a straight line having a predetermined curvature.

8 is a schematic diagram illustrating the concept of the distance between the light source and the light guide pattern portion in the design of the curved light path guide pattern 70 according to the present invention, and FIG. 9 is a graph showing the results of experiments on the minimum curvature radius R and the distance d. .

In the present invention, when using the optical path guide pattern 70 in the form of a curve, the minimum radius of curvature R is designed differently depending on the distance d between the target light guide pattern portion and the light source.

Referring to the experimental result of FIG. 9, it can be seen that the optimum effect is achieved in terms of brightness when the condition of minimum curvature radius R ≥ d is satisfied.

The curve used as the optical path guide pattern 70 may use various curves such as arcs and parabolas.

10 is a schematic view for explaining the concept of the inclination angle between the light source and the optical path guide pattern when designing a linear light path guide pattern 70 according to the present invention, Figure 11 is a light path guide pattern design of the light guide plate according to the present invention In the case of using a straight line, this is a graph of experimental results for optimizing the inclination angle of the pattern with respect to the light source.

Referring to FIGS. 10 and 11, in the case of using the linear optical path guidance pattern 70, when the inclination angle between the central vertical extension line c of the light source and the linear optical path guidance pattern 70 is α, The angle of inclination shows an optimum light efficiency of about 80% or more in terms of brightness when the angle of inclination is maintained at 30 to 70 degrees.

In addition, when designing the optical path guidance pattern, it is also possible to mix the curved pattern and the straight pattern according to the design situation.

12 is a view showing an example of blocking light leakage by installing the light path guidance pattern 70 of the present invention on the light guide plate.

The light path guidance pattern 70 shown in FIG. 12 does not provide and guide the light path, but blocks the light supplied from the light source from leaking out of the light guide plate unnecessarily.

The present invention provides an improved luminance with less power by installing a light path induction pattern 70 on the light guide plate to block light leakage.

As described above, the optical path guide pattern 70 of the present invention plays two roles.

Starting from the LED light source, the light path guidance pattern 70 connected to the non-irradiation areas on the left and right sides of the LED as shown in FIG. 4 and formed at the edge of the light guide plate as shown in FIG. 12 prevents light from escaping out of the light guide plate and is viewed on the light guide plate. When the LED light source is divided into a form that is relatively far away from the opposite side.

Among these, the light path induction pattern 70 connected to provide light to the local dark areas on the left and right sides of the LED light source as shown in FIG. 4 solves the luminance deterioration problem occurring at the corner of the light guide plate 20 by increasing the amount of light supply, thereby increasing the overall brightness. Improve uniformity

And the light path induction pattern 70 formed on the far edge of the light guide plate and connected to the opposite end of the LED light source as shown in Figure 12 to block the light leakage to the outside of the light guide plate to enhance the product quality and to a relatively far end portion of the LED The light is transmitted to increase luminance, and the luminance uniformity is improved.

As shown in FIG. 12, since the light may be blocked at the edge of the light guide plate of the light guide plate, the light may be directly used in the light guide pattern part, and thus, the light guide pattern may be applied to the light guide pattern part having a relatively low amount of received light. .

The processing of the optical path guide pattern 70 of the present invention can be performed in various ways such as injection or press molding by a mold, post processing such as a laser, or product processing by a punching mold.

When the material of the light guide plate is silicon, it is easy to insert the pattern into the mold itself, and to be injection or press-molded. When the material of the light guide plate is polyurethane, post-processing molding is possible by laser processing, and the material of the light guide plate is plastic resin. It can be processed while controlling the depth by work such as non-penetrating punch press or through punch press by punching mold, and it can be processed by stamping by forming pattern on mold and heating mold, and mechanically using metal blade Cutting can also be done.

Since the light path guidance pattern 70 must control the total reflection path in the light guide plate 20 during light guiding, the light path induction pattern 70 may be installed in an intaglio. At this time, the depth of the optical path guide pattern 70 should be 50% or more of the thickness of the light guide plate, and can be installed up to 100%. That is, 100% of the thickness of the light guide plate means that the light path guide pattern 70 may be installed to penetrate the light guide plate 20.

When the depth of the light path induction pattern 70 is equal to 100%, that is, the thickness of the light guide plate 20, as shown in FIG. 12 to prevent separation of the inside of the light guide plate 20 from the edge and maintain proper curvature. The optical path guide pattern 70 may be formed as a discontinuous line and disposed in such a manner that the lines overlap each other at the ends.

In addition, when the white material having a high reflectance is filled in the optical path guide pattern groove, light leakage may be prevented and the light may be reflected to further increase the light efficiency.

13 is a view showing an example in which the light path guidance pattern of the present invention is installed in the light guide pattern portion.

The optical path guidance pattern of the present invention induces the optical path as shown in FIG. 4 or is installed near the edge of the light guide plate as shown in FIG. 11.

13 is an example in which a light path induction pattern is provided in the light guide pattern part to block unnecessary light leakage in the light guide pattern part having relatively low light reception, and improve the light guide efficiency of the light to improve luminance.

So far, the configuration and operation of the embodiment of the present invention have been described. The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the claims but also by the equivalents of the claims.

1 is a schematic view for explaining a light efficiency degradation phenomenon of the light guide plate of the conventional backlight for the backlight for the key input unit.

Figure 2 is a schematic diagram for explaining the local dark spot occurrence phenomenon of the conventional light guide plate.

3 is a cross-sectional view of a dimming backlight device for a key input unit according to an embodiment of the present invention;

Figure 4 is a schematic diagram of improving the brightness of the local dark portion using the light path guidance pattern of the light guide plate according to the present invention.

FIG. 5 is a diagram three-dimensionally showing the optical path guidance pattern of the present invention shown in FIG.

Figure 6 is a schematic diagram for explaining the angle between the inclined surface of the pattern cross-section portion of the light path guide pattern of the light guide plate according to the present invention.

FIG. 7 is a graph showing experimental results for optimizing values of angles between inclined surfaces of a cross section when designing a light path guidance pattern of FIG. 6. FIG.

8 is a schematic diagram for explaining a concept of the distance between the light source and the light guide pattern portion when designing a curved light path guide pattern according to the present invention.

9 is a graph of the experimental results for the minimum radius of curvature R and the distance d.

10 is a schematic view for explaining the concept of the inclination angle between the light source and the optical path guide pattern in the design of the linear light path guide pattern according to the present invention.

Figure 11 is a graph of the experimental results for optimizing the inclination angle of the pattern with respect to the light source when using a straight line when designing the optical path guide pattern of the light guide plate according to the present invention.

12 is a view showing an example of blocking light leakage by installing a light path guidance pattern of the present invention on a light guide plate.

13 is a view showing an example in which the light path guidance pattern of the present invention is installed in the light guide pattern portion.

<Description of Major Symbols in Drawing>

10: printed circuit board 20: light guide plate

22 light emitting means 24 light guide pattern portion

30: keypad 70: light path guidance pattern

Claims (8)

delete delete delete delete In the backlight unit for dimming the key input unit provided with at least one light emitting means provided on the side wall of the light guide plate to provide light to the light guide plate, a keypad positioned on the light guide plate and a printed circuit board under the light guide plate, A light guide pattern portion which forms a pattern on an upper or lower surface of the light guide plate so that the received light emits light at a key position; An induction pattern is formed in an intaglio on an upper surface or a lower surface of the light guide plate, and a cross section of the induction pattern includes an optical path induction pattern which prevents the light from being lost to the outside or provides a movement path of the light due to an angle θ between the inclined surfaces. , And the optical path guidance pattern has a tilt angle (α) between 30 degrees and 70 degrees between the vertical extension line of the light emitting means and the straight optical path guidance pattern in the case of a straight line. The method of claim 5, The optical path guidance pattern is a key input unit in the case of a curved shape, the distance from the light source to the light guide pattern portion is d, and the minimum radius of curvature R of the optical path guidance pattern is greater than or equal to d. Dimming backlight device. delete delete

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