KR200307071Y1 - Right below type back-light module structure - Google Patents

Abstract

The direct type backlight module which makes it possible to make the light beam of the light guide surface of the light guide plate of the backlight module uniform, and to greatly improve the brightness, and to reduce the volume of the backlight module structure to an appropriate thickness and size. Provide structure.

And a light guide plate, a light source, a reflecting member, and a base, and a bottom portion of the light guide plate is a reflecting surface, a recess is formed in the reflecting surface, an upper surface portion of the recess is a diffusion surface, and streaks are formed in the diffusion surface. The side surface portion of the concave tube serves as a light ray introducing surface, and the side edge portion located on the light introducing surface of the concave tube of the light guide plate has side pins. Wherein the light source is disposed in the recess of the light guide plate, and the reflecting member shields the reflecting surface of the light guide plate, and surrounds the light source between the reflecting member and the light guide plate, and also the base. Providing a direct backlight module structure to arrange the light guide plate and the light source on top of the .

Description

Direct Backlight Module Structure {RIGHT BELOW TYPE BACK-LIGHT MODULE STRUCTURE}

The present invention is an improvement on the structure of a direct type backlight module, and in particular, it is possible to conduct a line light source so as to effectively become a surface light source, and for example, a device for a back light module of a thin plate light emitting means such as a liquid crystal panel.

By the way, the conventional display device used the technique of the electron beam to generate | occur | produce a light ray, an image, etc. in the range of a curved surface or a plane. Since the volume of the image tube of the display device is limited to the limit of the electron beam, and the new generation RD direction aims at reducing the volume, display devices incorporating the backlight module technology have been developed and developed. For example, the announcement of liquid crystal televisions brings about the convenience of being able to afford space savings in a narrow working environment, and its weight is gradually reduced with the popularity of portable computers. The volume is becoming smaller and lighter, and the layout of the electronic signage is infusing vitality into the commercial advertising industry by beautifying and diversifying the visual effects by innovation of its weight and volume.All the above objectives are effective flattening of the display panel. Are being achieved by all, among which the backlight module effectively It is becoming one of the important means that can be utilized, and under the premise of flattening the volume of the display panel, it is possible to operate the characteristics of the light beams in some way so that the brightness of the backlight module can be sufficiently uniform in all the ranges of the backlight module. Backlight modules are one of the important points that need to be improved.

As shown in FIG. 1, the conventional backlight module structure includes a light guide plate 1a, a light source 2a, a reflecting member 3a, and a base 4a, and an upper surface portion of the lead guide plate 1a derives light rays. At the same time as the surface 10a, the bottom part of the light guide plate 1a becomes the light ray introducing surface 11a, and the light source 2a is located below the middle part of the light introducing surface 11a of the light guide plate 1a. The reflection member 3a shields the side edge portion of the light guide plate 1a, the base 4a exhibits an arc shape, and the light guide plate 1a and the light source 2a simultaneously operate the base ( Disposed above 4a) to prevent the light rays emitted from the light source 2a from the light emitting surface 10a, and to prevent the light rays from being scattered from portions other than the light emitting surface 10a, In addition, the reflective member 40a is installed on the surface of the base 4a, for example. For example, the surface is electroplated to enhance the reflection effect of the light rays, thereby processing the light rays on the light emitting surface 10a to be the brightest.

In the case of the above conventional backlight module structure, the light rays of the light emitting surface are concentrated in the light source range below the middle part of the light introducing surface, causing the problem that the brightness of the middle region of the light emitting surface becomes excessive, In addition, both side portions far from the light source are darkened, creating a state in which the light rays become uneven. In addition, since the base exhibits an arc shape, it is also a problem to increase the manufacturing cost by greatly increasing the thickness and volume of the backlight module and arranging a large range of the reflective member.

Therefore, as can be seen from the above description, the above conventional backlight module structure clearly has its inconveniences and drawbacks when it is actually used and needs to be improved. In view of these, the inventors of the present invention proceeded with research and development to solve all the above problems, and at the same time, as a result of combining academic operation, the present invention was finally submitted to the present invention, which is reasonable in design and can effectively solve all the above problems. It came to.

The present invention aims to provide a direct backlight module structure capable of uniformizing the light rays of the light emitting surface of the light guide plate in the backlight module and greatly improving the brightness thereof.

In addition, another object of the present invention is to provide a direct backlight module structure capable of reducing the volume of the backlight module structure to an appropriate thickness and size.

In order to achieve the above object, the present invention includes a light guide plate, a light source, a reflection member, and a base, and a bottom surface portion of the light guide plate becomes a reflecting surface, a concave groove is formed on the reflecting surface, and an upper surface portion of the concave groove is diffused And a side surface portion of the concave groove becomes a light ray introduction surface, and a side pin located at the light ray introduction surface of the concave groove of the light guide plate has side pins, and the side pin and the A horizontal angle of the opening of the recess of the light guide plate and an elevation angle, wherein the light source is disposed in the recess of the light guide plate, and the reflecting member shields the reflecting surface of the light guide plate, Is enclosed between the light guide plates and arranged to place the light guide plate and the light source on top of the base. It provides a direct backlight module structure.

Although specific embodiments of the present invention are described in detail with reference to the accompanying drawings below, the specific embodiments by their description are merely merely excellent examples of the present invention, and narrowly limit the claim scope of the present invention. Needless to say.

1 is a side cross-sectional view showing a conventional backlight module structure;

2 is a perspective view showing a light guide plate of the present invention,

3 is a side sectional view showing a first embodiment of the present invention;

3A is an enlarged view showing a portion A in FIG. 3;

4 is a side sectional view showing a second embodiment of the present invention;

5 is a side sectional view showing a third embodiment of the present invention.

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

1: light guide 1a: light guide

2 light source 2a light source

3: reflective member 3a: reflective member

4: Base 4a: Base

5 light source 6 side pin

8 diffusing member 10a light emitting surface

11a: light ray introduction surface 40a: reflective member

50: light emitting surface 51: diffused surface

52: stripe 53: stripe light transmission surface

54 reflecting portion 55 concave light transmitting portion

60: recess 61: light introduction surface

62: light emitting surface 63: stripes

64: inclined portion 65: reflective surface

66: stripe 67: inclined portion

68: cross section 69: horizontal plane

70: front side 71: rear side

ё: angle H: difference in height

As shown in Figs. 2, 3 and 3A, the present invention provides a direct backlight module structure, which includes a light guide plate 1, a light source 2, a reflecting member 3, and a base 4; Include.

In the above structure, the bottom portion of the light guide plate 1 becomes a reflecting surface 65, the stripes 66 are formed on the reflecting surface 65, the inclined portion 67 is provided on the stripes 66. The angle of inclination of the inclined portion 67 is different depending on the positional difference, and the reflective surface 65 has a concave groove 60, and the upper surface portion of the concave groove 60 has a diffusion surface 51. The diffusion surface 51 has a stripe 52 and a concave light transmitting portion 55, and the stripe 52 includes a reflecting portion 54 and a stripe light transmitting portion 53, and the reflecting portion 54 are formed at an angle, and their inclination angles are different depending on the difference in position, and the inclined portion of the concave tub 60 becomes the light ray introducing surface 6, and the concave tub 60 of the light guide plate 1 is formed. The position located in the upper part of the diffusion surface 51 of () becomes the light source part 5, the upper surface part of the said light source part 5 becomes the light emission guide surface 50, and the light guide plate 1 The side pin 6 is formed in the part located in the side edge part of the light ray introduction surface 61 of the recess 60 of this, The upper surface part of the said side pin 6 becomes the light emission surface 62, and the said light ray A stripe 63 is formed on the lead surface 62, and the stripe 63 has an inclined portion 64, and the inclination angle of the inclined portion 64 is different depending on the positional difference, and the side pins ( The light ray introducing surface 61 far from the recess 60 of 6) becomes the cross section 68, and the thickness of the side pin 6 gradually becomes thinner from the light introducing surface 61 toward the cross section 68. FIG. Form an elevation angle ё with the horizontal plane 69 of the opening of the recess 60 of the side pin 6 and the light guide plate 1, and have a predetermined height at the end face 68 and the horizontal plane 69. By forming the difference H, the height difference H and the angle o are adjusted according to the requirement of the volume of the backlight module structure and the uniformity of the light beams. It becomes oh the previous side (70) and rear side 71 respectively at both ends of the wood 60 of the plate 1.

In addition, the light source 2 is disposed in the recess 60 of the light guide plate 1, and the light source 2 emits light to the light guide plate 1.

In addition, the reflecting member 3 is a cross-section 68 of the reflecting surface 65 and front side 70 and rear side 71 of the light guide plate 1 and the side pin 6 of the light guide plate 1. At the same time, the light source 2 is enclosed between the reflecting member 3 and the light guide plate 1 to reflect the light.

The base 4 has a light guide plate 1 and a light source 2 disposed thereon, whereby the light source 2 is diffused surface 51 of the upper surface portion of the recess 60 of the light guide plate 1 The light beam is transmitted from the side light ray introduction surface 61 to the light guide plate 1, and the light ray can be prevented from being scattered and disappeared from other portions, and the reflective member 3 is placed on the upper surface of the base 4. You may arrange | position and may also surround the end surface 68 of the side pin 6 of the light guide plate 1.

In addition, as shown in FIG. 3A, the light rays emitted from the light source 2 reach the diffusion surface 51 of the upper surface portion of the recess 60, and the diffusion surface 51 is formed by the stripes 52. The brightness and uniformity of the light emission surface 50 of the light source unit 5 are controlled, and a part of the light beams is a concave light transmitting portion 55 of the diffusion surface 51 and a striped light transmitting portion 53 of the stripe 52. From the beam exiting surface 50, another portion of the beam is projected to the reflecting portion 54 of the stripe 52 of the diffusion surface 51, the arrangement of the inclination angle of the reflecting portion 54 Reflected by the side light ray introduction surface 61 of the recess 60, and it continues and transmits to the side pin 6, and because of this, the brightness which a light ray exits from the light source part 5 of the light guide plate 1 is small In this case, the degree of excessive brightness in the vicinity of the light source 2 is reduced, and at the same time, the light beams are transferred to the side pins 6, so that light beams of other ranges are viewed. You will be loyal.

The light rays emitted by the light source 2 and the light rays reflected by the streaks 52 of the recesses 60 of the light guide plate 1 are projected onto the side-ray beam introducing surface 61 of the recesses 60, and the light beams are halved. Guided to the inclination angle of the inclined portion 67 of the stripe 66 of the slope 65 is reflected on the light emitting surface 62, and the thickness of the side pin 6 has a cross-section (from the light introducing surface 61) Since it becomes gradually thinner toward 68, it is easy to guide a light ray to the end surface 68, and therefore, the brightness of the light emission surface 62 of the side pin 6 can be made the most uniform.

3, the diffusion member 8 is arrange | positioned above the said light guide plate 1, and the light emission surface 50 and the side pin 6 of the light source part 5 of the light guide plate 1 are arranged. Since the difference of the brightness of the light ray of the light ray exit surface 62 of () becomes small, when a light ray reaches | attains the diffusing member 8, the most uniform brightness can be obtained, and also the light ray is the said side pin 6 Since the light is refracted by the inclined portion 64 of the stripe 63 of the light emission surface 62, the extent to which the light beam shines is enhanced.

As shown in FIG. 4, the diffused surface 51 of the recess 60 of the light guide plate 1 is formed in circular arc shape, and can satisfy | fill the request of the uniformity of a light ray.

As shown in FIG. 5, since the light emission surface 62 of the side pin 6 of the light guide plate 1 is formed in circular arc shape, it can respond to the need to make light beam uniform.

Therefore, the direct backlight module structure of the present invention has the following advantages.

(1) Since streaks are formed on the diffusion surface of the upper surface portion of the concave, the brightness of the light source portion in the vicinity of the light source is reduced, and the brightness of the side pins is increased, thereby reducing the difference in brightness between the backlight modules. The light rays of the light emitting surface of the light guide plate can be made the most uniform.

(2) By forming a stripe on the reflective surface of the side pin and forming a stripe on the light emitting surface, the light beam of the light emitting surface of the light guide plate of the backlight module can be made the most uniform.

(3) By providing a difference in the height of the cross section of the side pin and the horizontal plane of the opening of the concave of the light guide plate, and gradually decreasing and changing the thickness of the side pin, the light beam is transmitted to both end faces, and the light beam of the backlight module The light ray of the light emission surface of a guide plate can be made the most uniform.

(4) The volume of the backlight module structure can be reduced to an appropriate thickness by providing a difference in the height of the cross section of the side pin and the horizontal plane of the opening of the recess of the light guide plate, and by gradually decreasing and changing the thickness of the side pin. have.

In addition, the structure described in detail and specifically described above is merely one suitable embodiment of the present invention, the features of the present invention is not limited narrowly to their description, the skilled person in the art Modifications, changes, and some exclusive modifications can be made based on the scope of the invention, but needless to say, if the implementation has the same effect as the present invention, it must be paid within the claims of the present invention.

Claims (6)

A bottom surface becomes a reflecting surface, a recess is formed in the reflecting surface, an upper surface portion of the recess is a diffusion surface, stripes are formed in the diffusion surface, and a side surface of the recess is a light introduction surface, and the light beam of the recess is A light guide plate having a side pin formed at a side of the introduction surface, and forming a rising angle with respect to a horizontal plane of the side pin and the opening of the recess; A light source disposed in the recess of the light guide plate; A reflection member for shielding the reflective surface of the light guide plate and enclosing the light source between the light guide plate; And a base having a light guide plate and a light source disposed thereon. The method of claim 1, And a stripe is formed on the reflecting surface of the light guide plate, and the stripe has an inclined portion, and the inclination angle of the inclined portion is formed so as to be different depending on the position difference. The method of claim 1, And a recessed light transmitting portion on the diffused surface of the recessed light in the light guide plate. The method of claim 1, The stripe of the concave-diffusion surface of the light guide plate includes a reflecting portion and a striped light transmitting portion, and the reflecting portion is formed to be inclined, and the inclination angles are formed to be different depending on the difference in position thereof. Direct type backlight module structure. The method of claim 1, The upper surface portion of the side pin is a light emitting surface, the light emitting surface is formed with a stripe, the stripe has an inclined portion, and the inclination angle of the inclined portion is formed so as to be different depending on the position difference Direct type backlight module structure. The method of claim 1, A portion far from the light ray introducing surface of the concave tube of the side pin becomes a cross section, and the thickness of the side pin is gradually thinned from the light ray introducing surface toward the cross section, and both ends of the concave tube of the light guide plate are respectively front side surfaces. And a rear side surface, wherein the reflective member shields the front and rear surfaces of the light guide plate and the end faces of the side pins of the light guide plate.