KR200374513Y1 - Backlight module structure of dual-type light emitting - Google Patents

Abstract

The present invention is a double-sided light-emitting backlight module structure, mainly combining one light guide plate with one light-emitting light source, which guides the light of the light source to the first and second monitors on both sides. A lower diffusion sheet and a prism sheet are disposed between the light guide plate and the first monitor, and the surface of the light guide plate facing the second monitor becomes a halftone surface, and this halftone surface may replace the effects of the lower diffusion sheet and the reflective sheet. Therefore, there is no need to install the diffusion sheet below again between the light guide plate and the second monitor. In addition, the double-sided light emitting backlight of the present invention supplies light sources to the first and second monitors of the same size, and thus the brightness of the second monitor can be adjusted without the need for installing the reflective sheet. It can reduce the light consumption and at the same time effectively save structural parts, saving thickness and production cost.

Description

Backlight module structure of dual-type light emitting}

The present invention relates to the structure of a double-sided light emitting backlight module, and particularly refers to a backlight module of a double-sided liquid crystal monitor. The backlight module provides a relatively high brightness, supports a liquid crystal panel of the same size on both sides, and has a relatively thin thickness. Has

With the proliferation of digital products and the development of wireless communication, monitors have already developed from traditional cathode ray tubes (CRTs) to various light and portable types. Among them, LCD monitors have various advantages such as light weight, power saving, and low radiant heat. It is applied to electronic products, and thus is gradually emerging as the mainstream industry of monitor devices for various electronic devices.

Since the LCD panel itself used for the display does not have a light emitting function, a light source must be separately supplied to the liquid crystal panel. The function of supplying the light source is a backlight module. Proceed. The backlight module is divided into direct type and metered type, and the liquid crystal monitor (e.g., double-sided monitor of a mobile phone) required for a double-sided display uses a metered backlight module to reduce the overall thickness.

In FIG. 1, one light source 90 and one light guide plate 91 are provided on the side of the backlight module, and the light guide plate 91 uniformly fronts the light emitted from the light source 90 on the side surface. The main monitor 92 and the parent monitor 93 before and after the liquid crystal monitor of the double-sided display both allow to obtain light rays from the light source 90.

In addition, a lower diffusion sheet 94 and a prism sheet 95 are disposed between the light guide plate 91 and the main monitor 92, and the lower diffusion sheet 94 distributes light rays more uniformly. 92) make the shadow of the ray reflection point invisible.

The main action of the prism sheet 95 is to collect light and increase the brightness generated in the backlight module. A lower diffusion sheet 94, a prism sheet 95, and the like are also installed between the light guide plate 91 and the parent monitor 93. The function is the same as that between the main monitor 92 and the parent monitor 93. A semi-transparent reflective sheet 96 is added between the light guide plate 91 and the diffuser sheet 94 next to the light guide plate 91, which reflects a partial light beam of the light source 90. The main monitor 92 is generally larger than the parent monitor 93, so the required brightness is also relatively high. Therefore, a single reflective sheet 96 is added to the main and sub monitors 92 and 93. Light source 90 has a function of adjusting the light rate.

However, the conventional double-sided backlight module has a limit of brightness provided by the backlight module due to the thickness and power consumption of the product. The main screen of size does not provide the brightness required, and can be provided to only one relatively large main monitor and another relatively small parent monitor, and its thickness is relatively large to satisfy the demand of consumers who demand the light and convenient edge. Can't. Thus, on the whole, they are considerably impractical and therefore require improvement.

The main purpose of the present invention is to provide a double-sided light emitting backlight module structure, the conventional double-sided backlight module has a large thickness, to compensate for the lack of brightness.

In order to reach the object of this invention, the present invention combines one light guide plate with one light-emitting light source, which guides the light rays of the light source to the first and second monitors on both sides of the front and rear sides.

A diffuser sheet and a prism sheet are disposed between the light guide plate and the first monitor, and one side of the light guide plate facing the second monitor becomes a relatively rough dot surface, which replaces the effect of the diffuser sheet and the reflective sheet below. Can be. Therefore, there is no need to install a diffusion sheet below between the light guide plate and the second monitor again, and the double-sided light emitting backlight of the present invention supplies light sources to the first and second monitors of the same size, thereby eliminating the need for installing the reflective sheet. Its brightness can be controlled, thereby eliminating the structural design of the reflective sheet and the diffusion sheet below, which reduces the light consumption and at the same time effectively saves the structural parts, thereby reducing the thickness and production cost.

Therefore, this design is a design with practicality and progress, and it is judged to be excellent in industrial use value and is to inform the public.

1 is a cross-sectional view of a conventional double-sided light emitting backlight module structure

2 is a cross-sectional view of a double-sided light emitting backlight module structure of the present invention

Figure 3 is an enlarged cross-sectional view of the light guide plate of the double-sided light-emitting backlight module structure of the present invention

Figure 4 is a structural cross-sectional view of the second embodiment of the present invention

Figure 5 is a structural cross-sectional view of the third embodiment of the present invention

Figure 6 is a structural cross-sectional view of the fourth embodiment of the present invention

<Explanation of symbols for main parts of drawing>

11,90: Light source 12,91: Light guide plate

121 ： Dotted surface 13,94 ： Diffusion sheet below

14,95 ： prism sheet 15 ： upper sheet

21: First monitor 22: Second monitor

92 ： main monitor 93 ： submonitor

96: Reflective sheet

The present invention is a kind of double-sided backlight module structure, referring to Figures 2 and 3, consisting mainly of one backlight module, the backlight module is installed between two liquid crystal display module, the liquid crystal display module is an optical film sheet If necessary, it is sealed with a shading patch (not shown) that obscures light to prevent light from being exposed to the outside, and the liquid crystal display module of the front end becomes the first monitor 21, and the rear end. Of the liquid crystal display module becomes the second monitor 22, which provides sufficient brightness.

Therefore, the first monitor 21 and the second monitor 22 can be implemented in one large and small shape without having to match the brightness provided by the backlight module.

At least one photometric light source 11 (the light source is a cold cathode fluorescent lamp (CCFL), a light emitting diode (LED), an electroluminescent display (ELD), etc.)) and a light guide plate 12 are installed in the backlight module. One side of the light guide plate 12 is adjacent to the light source 11, and guides the light rays of the light source 11 to the first monitor 21 and the second monitor 22 at both ends of the light guide plate 12. . Where the light guide plate 12 is close to the surface of the second monitor 22 is a halftone dot surface 121.

The dot surface formed on the surface of the light guide plate may be a dot pattern, and may have a concave groove-shaped V-CUT type, a U shape, and an arc shape having a convex protrusion on the surface of the light guide plate.

In order between the light guide plate 12 and the first monitor 21, the diffusion sheet 13 and the prism sheet 14 are disposed in order, and the light beam of the light source 11 enters the light guide plate 12 and the first monitor 21. The first diffuser sheet 13 passes through the diffuser sheet 13, and the action of the diffuser sheet 13 below diffuses the light beams, and adjusts the uniformity of the light beams so that the shadows of the light reflection points on the first monitor 21 are adjusted. Make it invisible.

When the light beam is emitted from the lower diffusion sheet 13 and immediately enters the prism sheet 14, the prism sheet 14 modifies the direction of the light to bring the light having poor original directivity to the effect of condensing the first light. The brightness required by the monitor 21 is increased.

A prism sheet 14 is installed between the light guide plate 12 and the second monitor 22, but the lower diffusion sheet 13 is not installed. The light guide plate 12 is a halftone surface 121 of the second monitor 22. When the light beam is directed to have the same effect as the diffusion sheet 13 below, the light beam is uniformly diffused so that the shadow of the light reflection point is not visible on the second monitor 22, and the light beam is a halftone surface 121 of the light guide plate 12. After the injection from the prism sheet 14 is emitted to increase the brightness required by the second monitor 22 through the condensing of the prism sheet (14).

In addition to reducing the diffuser sheet 13 below, the double-sided light emitting backlight module structure of the present invention prevents the consumption of light rays by replacing the reflective sheet with the halftone face 121 and provides sufficient brightness to two monitors to adjust the brightness. Liquid crystal display module is carried out in one large and small shape, so it will be sure to have the effect of increasing the brightness, decrease the volume and reduce the cost to see the effect of profit.

4 illustrates a second embodiment of the double-sided light emitting backlight module structure of the present invention, and since the main parts thereof are the same as the first embodiment, only the other parts will be described below.

In order to further broaden the range of application of the double-sided backlight module structure of the present invention, one upper diffusion sheet 15 is added to the outside of the prism sheet 14 and Newton's ring is displayed on the screen through the upper diffusion sheet 15. The phenomenon is prevented from appearing, making the display effect of the liquid crystal monitor better.

5 illustrates a third embodiment of a double-sided light emitting backlight module structure of the present invention, and since the main parts thereof are the same as the first embodiment, only the other parts will be described below.

The surface close to the first monitor 21 of the light guide plate 12 may be implemented with a halftone surface 121, and in addition, the backlight module structure may be lighter in place of the diffusion sheet 13 below.

6 illustrates a fourth embodiment of the double-sided backlight module structure of the present invention, and since the main parts thereof are the same as the third embodiment, only the other parts will be described below.

In order to further broaden the application range of the double-sided light emitting backlight module structure of the present invention, one upper diffusion sheet 15 is formed on the outer side of the prism sheet 14 and a Newton ring phenomenon appears on the screen through the upper diffusion sheet 15. To prevent the display effect of the liquid crystal monitor further.

Accordingly, the present invention can reduce the consumption of the light beam and at the same time effectively save the structural parts can save the thickness and production cost.

Claims (14)

A backlight module installed between the first monitor and the second monitor, the backlight module having at least one light source and one light guide plate; A light guide plate for guiding light rays of the light source to the first and second monitors; And a bottom diffusion sheet and a prism sheet disposed between the light guide plate and the first monitor, wherein a halftone surface is formed on one surface of the second monitor side of the light guide plate, and between the light guide plate and the second monitor. A double-sided light emitting backlight module structure, characterized in that one prism sheet is installed on. A backlight module installed between the first monitor and the second monitor, the backlight module having at least one light source and one light guide plate; A light guide plate for guiding light rays of the light source to the first and second monitors; And a prism sheet provided between the light guide plate, the first monitor, and the second monitor, respectively, wherein a half-dot surface is formed on both surfaces of the light guide plate. 3. The double-sided light emitting backlight module structure of claim 1 or 2, wherein the light source is a cold cathode fluorescent lamp (CCFL). 3. The double-sided light emitting backlight module structure of claim 1 or 2, wherein the light source is a light emitting diode (LED). The double-sided backlight module structure according to claim 1 or 2, wherein the light source is an electroluminescent display (ELD). The double-sided light emitting backlight module structure of claim 1 or 2, wherein the first monitor and the second monitor are made of an optical film sheet. The double-sided light-emitting backlight module structure of claim 1 or 2, wherein the first and second monitors are sealed with a shading patch covering light. The double-sided light emitting backlight module structure according to claim 1 or 2, wherein one upper diffusion sheet is formed outside the prism sheet. The double-sided light emitting backlight module structure of claim 1, wherein at least two prism sheets are disposed between the light guide plate and the first monitor. The double-sided backlight module structure of claim 1, wherein at least two prism sheets are disposed between the light guide plate and the second monitor. The double-sided light emitting backlight module structure of claim 1, wherein at least two bottom diffusion sheets are disposed between the light guide plate and the first monitor. The double-sided light-emitting backlight module structure of claim 1 or 2, wherein the halftone surface is a V-CUT type. 3. The double-sided light emitting backlight module structure of claim 1 or 2, wherein the halftone surface is U-shaped. The double-sided light emitting backlight module structure according to claim 1 or 2, wherein the halftone surface is arcuate.