KR100425657B1 - Surface light-source device - Google Patents

Abstract

It aims at providing the surface light source which improved light efficiency and improved luminance unevenness.

Light is incident from a plurality of point light sources 2 arranged on one side of the side end surface of the light guide plate 1, is reflected by the light reflection surface 11 on the rear surface of the light guide plate, and the light exit surface 12 of the surface of the light guide plate 1 In the surface light source device in which light is emitted from the light guide plate, the reflection sheet 5 forms a space 6 surrounding the point light source 2 on the light incident surface 1a side of the light guide plate 1, and reflects the light. An insertion opening 7 for inserting the point light source 2 into the sheet 5 is provided.

Description

Surface light source device {SURFACE LIGHT-SOURCE DEVICE}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a surface light source device, which is composed of a point light source composed of a light emitting element such as a light emitting diode (LED) element, and is mainly used for a backlight of a liquid crystal display panel.

As a surface light source for backlight of a liquid crystal display panel, the thing of the edge light system which made a translucent plate the light guide plate is known. In such a surface light source, light is incident from one of the side end surfaces (edge portions) of the light guide plate made of a transparent parallel flat plate or a cross-sectional wedge-shaped flat plate, and is widely propagated throughout the light guide plate, and part of the propagated light is reflected by the light on the back surface of the light guide plate. The diffused reflected light is emitted from the member to emit diffused light from the light guide plate surface.

The light guide plate of the edge light system used as a light source of a liquid crystal display panel is widely used because it can simplify the point and structure which can make thickness of a light guide plate thin.

In most edge light type surface light sources, a cold cathode tube lamp is used as a light source, and a cold cathode tube lamp is attached to the edge portion of the light guide plate.

On the other hand, portable apparatuses have recently become widespread and power savings are expected. Therefore, as a light source of the backlight of a portable apparatus, the light source using the LED element which consumes little power compared with the conventional cold cathode lamp is attracting attention, and has been utilized.

5 is a schematic cross-sectional view showing a surface light source using the LED element. As shown in the figure, the surface light source is composed of a light guide plate 1, a point light source 2 composed of LEDs, and the like.

At the edge portion of the light guide plate 1, a plurality of point light sources 2 made of white LED chips are arranged.

The light reflection surface 11 is provided in the side located in the direction perpendicular to the point light source 2 of the light guide plate 1, and the light emission surface 12 is provided in the side opposite to the light reflection surface 11. Then, the light from the point light source 2 is reflected on the light reflection surface 11 or the three side surfaces 13... Of the light guide plate 1, and most of the incident light is finally uniform from the light exit surface 12. It is emitted as synthetic light having directivity. Further, the diffusion sheet 3 and the lens sheet 4 are disposed on the upper surface of the light exit surface of the light guide plate 1.

The structure around the point light source 2 has a structure in which the reflector 22 surrounds the substrate 21 on which each LED is mounted, so that the light from the point light source 2 is guided to the light guide plate 1. Consists of.

However, when using an LED element as a light source, several LED chips need to be soldered and mounted on the board | substrate 21, and there exists a problem that the reflection efficiency of light is influenced by the surface state of the board | substrate 21. As shown in FIG. For example, when a resistor, diode, etc. are mounted on the board | substrate 21, there exists a problem that light is absorbed and light efficiency falls by the form of the component.

Moreover, when the components mounted on the board | substrate 21 differ from side to side, there also exists a problem that a luminance unevenness arises from side to side.

Moreover, since the reflector 22 does not have the structure which encloses the point light source 2 itself, there exists a problem that light leaks easily and light efficiency falls.

The present invention has been made to solve the above-mentioned conventional problems, and an object thereof is to provide a surface light source that improves light efficiency and improves luminance unevenness.

The present invention is a surface light source device in which light is incident from a plurality of point light sources disposed on one side of a side end face of a light guide plate, reflected at a light reflection surface on the back surface of the light guide plate, and emits light from the surface of the light guide plate. A reflection sheet is disposed on a reflection surface, and a space surrounding the plurality of point light sources is formed by the reflection sheet on the light incident surface side of the light guide plate, and an insertion hole for inserting the point light source is provided in the reflection sheet. A notch is formed in the insertion hole, and the space surrounding the light reflection surface, the three side surfaces of the light guide plate, and the plurality of point light sources is formed integrally by one reflection sheet.

The insertion holes of the reflection member may be provided as many as the number of point light sources, and the insertion holes may be inserted into the insertion holes.

In addition, the said reflection member can be comprised by the reflection sheet.

In addition, a notch may be formed in the insertion hole of the said reflection member.

According to the above configuration, in the surface light source device using the point light source used as a light source or the like of the liquid crystal display panel, since the point light source is inserted and attached to the insertion hole, the reflection member is present between the point light sources. As a result, the influence of the board | substrate with which the point light source was mounted can be reduced, Moreover, since the light source is enclosed with the reflecting member, light leakage can be reduced and light efficiency can be improved.

1 is a cross-sectional view showing a schematic configuration of a surface light source device according to an embodiment of the present invention.

2 is a perspective view showing a state in which a reflective sheet is mounted on a light guide plate;

3 is a perspective view showing a state in which a reflective sheet is mounted on a light guide plate;

4 is a perspective view showing another embodiment of the present invention.

5 is a schematic cross-sectional view showing a surface light source using the LED element.

<Explanation of symbols for main parts of drawing>

1: light guide plate

2: point light source

5: reflective sheet

7: insertion hole

11: light reflecting surface

12: light exit surface

Hereinafter, embodiments of the present invention will be described with reference to the drawings. 1 is a cross-sectional view showing a schematic configuration of a surface light source device using the present invention, and FIG. 2 is a perspective view showing a state in which a reflective sheet is mounted on a light guide plate. In addition, the same code | symbol is attached | subjected to the same part as a conventional example.

As shown in FIG. 1 and FIG. 2, the surface light source which concerns on this invention is comprised by the light-guide plate 1, the point light source 2 ... comprised by LED, various control circuits (not shown), etc. As shown in FIG. The control circuit also includes a circuit that detects the total amount of light emitted from the light exit surface 12 of the light guide plate 1 and adjusts and supplies power to the point light source 2 so that the amount of emitted light is optimal. .

On the light incident surface 1a provided at the edge portion of the light guide plate 1, a point light source 2 made up of a white LED chip is disposed to face each other. In this embodiment, six white LED chips are mounted on the substrate 21 as point light sources 2... For example, the white LED chip is configured to accommodate three LEDs of R, G, and B in one package and to emit white light. However, the monochromatic LED is emitted from the LED using a fluorescent material. May be used to convert the light into white light. For example, when the GaN system blue LED is used as the fluorescent substance, a YAG (yttrium aluminum garnet) fluorescent substance may be used.

The light reflection surface 11 is provided in the side located in the perpendicular direction with respect to the point light source 2 ... of the light guide plate 1. In order to prevent light from leaking and to improve reflection efficiency, the light reflecting surface 11 is dot printed or a conical recess is formed.

The light exit surface 12 is provided on the side facing the light reflection surface 11 of the light guide plate 1. Then, the light from each LED of the point light source 2 is reflected on the light reflecting surface 11 or the three side surfaces 13 of the light guide plate 1, and most of the incident light is finally emitted from the light emitting surface 12. It is emitted as synthetic light having uniform directivity.

As a material of the light guide plate 1 mentioned above, it selects from the translucent material, and usually resin of acryl or polycarbonate is used. Although the shape of the light guide plate 1 is a parallel flat plate or a wedge-shaped flat plate, the thickness is generally about 1 to 5 mm. However, the thickness of the light guide plate 1 can be further reduced as compared with the case of using a cold cathode tube lamp.

Moreover, as other translucent materials, polyester or polycarbonate, polystyrene, poly, such as a single or copolymer of acrylic acid ester or methacrylic acid ester, such as methyl polyacrylate and methyl polyacrylate, polyethylene terephthalate, and polybutylene terephthalate Thermoplastic resins such as methylpentene, acrylates such as polyfunctional urethane acrylates and polyester acrylates crosslinked with ultraviolet rays or electron beams, transparent resins such as unsaturated polyesters, transparent glass, transparent ceramics and the like are used.

In the present invention, the reflective sheet 5 is provided to surround the light guide plate 1 except for the light exit surface 12 of the light guide plate 1. That is, the reflective sheet 5 is disposed to surround the light guide plate 1 including the reflective surface 11 and the three side surfaces 13 of the light guide plate 1. The space 6 surrounded by the reflective sheet 5 is provided between the reflective sheet 5 and the light incident surface 1a side of the light guide plate 1. The reflective sheet 5 and the light guide plate 1 are fixed by an adhesive layer 8 such as a double-sided tape or an adhesive.

As shown in FIG. 2, an insertion opening 7 for inserting a point light source 2 made of LED is provided at a place facing the light guide plate 1 in the space 6 surrounded by the reflective sheet 5. In addition, the diffusion sheet 3 and the lens sheet 4 are arranged on the upper surface of the light exit surface 11 of the light guide plate 1. One sheet or two sheets may be sufficient as a sheet structure, and you may reverse the order which overlaps.

The point light sources 2... Mounted on the substrate 21 are replaced by respective insertion openings 7... Provided in the reflective sheet 5 fixed to the light guide plate 1, and the space ( 6) is inserted into. Then, the substrate 21 on which each LED is mounted is fixed to an outer frame (not shown) located outside the light guide plate 1 with a stop screw or an adhesive, and the point light source 2... At a predetermined position of the light guide plate 1. Is placed.

Each LED light from the point light source 2 enters the inside of the light guide plate 1, is reflected by a light reflection pattern or three side end surfaces 13 provided on the light reflection surface 11, and repeats focusing. Is emitted from the light exit surface 12 of the ()) to the diffuser plate (3), uniformly isotropically diffused within the desired angle range by the lens sheet (4) and emitted as synthetic light. The liquid crystal display panel is disposed in proximity to the lens sheet 4.

As mentioned above, the space 6 which wraps the light guide plate 1 with the reflective sheet 5 and inserts the point light source 2 in the light-incidence surface side 1a is provided. And since the point light source 2 ... is inserted and attached to the insertion hole 7, the reflection sheet 5 exists between the point light sources 2 .... As a result, the surface of the board | substrate 21 between the point light sources 2 ... is covered with the reflection sheet 5, and it can prevent that light efficiency falls by the coloring of the board | substrate 21 and the influence of a mounting component. In addition, since the light guide plate 1 is surrounded by the reflective sheet 5, light can be prevented from leaking from both sides of the point light source 2.

FIG. 3: is a perspective view which shows the state which expanded the reflecting sheet 5 before attaching the reflecting sheet 5 shown in FIG. 2 to the light guide plate 1. FIG.

As shown in FIG. 3, the reflective sheet 5 corresponds to a space 6 formed between the reflective surface 11, the three side surfaces 13, and the light incident surface 1a of the light guide plate 1. The side surface and the insertion opening 7 are provided. The reflective sheet 5 is bent closely to the light guide plate 1, and the light guide plate 1 is fixed by an adhesive layer 8 made of a double-sided tape or an adhesive or the like.

4 is a perspective view showing another embodiment of the present invention, and a notch 7a is formed in the insertion hole 7 of the point light source 2. Except for forming the notch 7a, since the structure is the same as in the above-described embodiment, the same reference numerals are used to avoid the description.

Thus, by forming the notch 7a, there exists an advantage that the dimension tolerance of the insertion hole 7 can be enlarged.

In the above-mentioned embodiment, although the reflective sheet 5 is comprised by one sheet, you may have a structure divided into two sheets. The reflective sheet 5 may be a white reflective sheet or a silver reflective sheet.

According to the structure of this invention, compared with the conventional structure shown in FIG. 5, the average brightness on the exit surface of the light guide plate could be raised to about 20%.

In the above embodiment, a white LED chip is used, but as the point light source 2, it is also possible to use a plurality of single color LED chips (for example, blue). In this case, wavelength conversion means for converting the emitted light into white light may be used for the light guide plate 1. For example, the wavelength converting means may be formed of a fluorescent substance added to the inside of the light guide plate 1 or a layer of fluorescent material provided on the light exit surface 12 or the light reflection surface 11 of the light guide plate 1. . As the fluorescent substance, when a GaN-based blue LED is used, a YAG (yttrium aluminum garnet) fluorescent substance may be used.

As described above, the present invention provides a structure in which the light guide plate is wrapped with a reflective sheet, a space for inserting a point light source on the light incidence surface side, and a point light source is inserted into the insertion hole to form a substrate on which the point light source is mounted. It is possible to prevent the light efficiency from being lowered due to the influence of the mounting parts. In addition, since the light guide plate is surrounded by the reflective sheet, light can be prevented from leaking from both sides of the point light source, and the luminance increase and the luminance unevenness at the light exit surface of the light guide plate can be reduced, making it possible to see. A bright and uniform surface light source device can be provided.

Claims (4)

In the surface light source device for backlight which injects light from the several point light source arrange | positioned at one side of the side surface of a light-guide plate, reflects from the light reflection surface on the back surface of a light-guide plate, and emits light from the surface of a light-guide plate The reflection sheet is disposed on the light reflection surface of the light guide plate, and a space surrounding the plurality of point light sources is formed by the reflection sheet on the light incident surface side of the light guide plate, and an insertion hole for inserting the point light source is provided in the reflection sheet. The cutout is formed in the insertion hole, The surface light source device which consists of the space which encloses a light reflection surface, three side surfaces of a light guide plate, and several point light source by one reflection sheet is comprised integrally. The method of claim 1, The insertion hole of the said reflection sheet is provided as many as the number of point light sources, and the surface light source device characterized by inserting a point light source in the insertion hole. The method according to claim 1 or 2, The said point light source uses the white LED which emits white light, The surface light source device characterized by the above-mentioned. The method according to claim 1 or 2, The point light source uses a monochromatic LED that emits monochromatic light, and a wavelength conversion means for converting the emitted light into white light is provided in the light guide plate.