KR100853909B1 - Light positioning frame for a back light module - Google Patents

Abstract

The invention is formed on an outer frame, an upper frame extending from one side of the outer frame, a receiving space, at least one slot formed through the upper surface of the upper surface communicating with the receiving space, the bottom formed to form at least one slot An assembly frame consisting of one shoulder; And a mask having a base, a light source cap portion extending from the open side of the base, an extension portion extending into the receiving space and supported by the first shoulder, thereby completing the engagement between the fixed frame and the mask, whereby the light source received in the mask is Provided is a light positioning frame for a backlight module, which is securely sandwiched between a fixed frame and a mask and in which light from a light source is dimmed by an upper frame.

Light Positioning Frame, Backlight Module, Fixed Frame, Assembly Frame, Mask

Description

LIGHT POSITIONING FRAME FOR A BACK LIGHT MODULE}

1 is a schematic top view of a light positioning frame of the present invention;

2 is an exploded perspective view showing a part of the light positioning frame of the present invention;

3 is an exploded cross-sectional view showing that the fixing frame is assembled with the mask;

4 is a schematic cross-sectional view showing assembly between the fixing frame and the mask;

5 is a schematic cross-sectional view showing that the light positioning frame of the present invention is assembled with a light guide plate and a liquid crystal module;

6 is a schematic cross-sectional view showing a conventional light positioning frame.

Field of invention

The present invention relates to a light positioning frame, and more particularly to a light positioning frame for a backlight module for preventing uneven light effects on a liquid crystal display supported by the light positioning frame.

<Prior Art>

In order to make the screen clearly visible in a liquid crystal display, a light source is provided to the backlight module. The backlight module consists of a light source positioning frame and a mask, in which the light source is safely located. A light guiding plate having a reflective film on the back side is provided in the light source positioning frame, and light is securely mounted at the end of the light guide plate so that light from the light source can be emitted from the light guide plate side. Through the reflective film, the screen on the liquid crystal display is clearly seen due to the light from the light source.

6 shows a conventional light source positioning frame with a mask 60 and a positioning frame 70. The mask 60 is securely connected to the bottom of the positioning frame 70 by bolts. The mask 60 includes a light source cap 61 and a bottom plate 63 integrally formed at the bottom of the light source cap 61. When assembling the mask 60 with the positioning frame 70, the light source cap 61 is firmly connected to the bottom surface of the upper frame 71 of the positioning frame 70 by an adhesive tape 62. The bottom plate 63 and light source cap 61 are then used to tighten the light guide plate 81 therebetween.

Due to the demand for displaying a screen clearly in a liquid crystal display, the material for manufacturing a mask is a metal kind having light reflection characteristics. When the light source cap 61 and the bottom plate 63 are used to tighten the light guide plate, the light source 80, preferably the light emitting diodes (LED), and the light derived from the light guide plate 81 pass through the periphery of the light guide plate 81. 90) causes a linear spot light effect. That is, a line of light appears on the display. The linear spot light effect causes non-uniform light reflection on the liquid crystal display, which is a bothersome and cumbersome problem. In order to prevent such a problem, an opaque layer is provided at the bottom of the light source cap 61 to dim light around the light guide plate 81 so that the dispersed light on the liquid crystal display is uniform. However, the addition of the opaque layer increases the manufacturing cost and is disadvantageous due to the application of the adhesive tape 62 for attaching the mask 60 to the positioning frame 70.

In order to solve this problem, the present invention seeks to provide an improved light positioning frame that alleviates the above problem.

It is a first object of the present invention to provide a firm light positioning frame for a backlight module.

In one aspect of the invention the light positioning frame consists of a fixed frame and a mask. The stationary frame includes an assembly frame and a side frame. The assembly frame consists of an outer frame and an upper frame integrally formed with the outer frame and having an L-shaped cross section, and has a plurality of slots formed in an upper surface of the upper frame. By the L-shaped cross section of the combination of the outer frame and the upper frame, a receiving space is formed to communicate with each slot. A first shoulder is formed in the bottom surface forming each slot, and the second shoulder extends in a direction opposite to the first shoulder. The mask is provided at the bottom of the fixing frame, and is formed at the base, the light source cap portion extending from the side of the base, and the open side of the light source cap portion, corresponding to and received in the receiving space of the fixing frame and supported by the first shoulder. And an extension.

Other objects, advantages, and novel features of the present invention will be described more clearly with the accompanying drawings on the basis of the following detailed description.

1 and 2 show a light positioning frame comprising a fixed frame 10 and a mask 20 according to the invention. The fixed frame 10 includes an assembly frame 11 and a side frame 19 that forms a rectangle together with the assembly frame 11. The assembly frame 11 is composed of an outer frame 12 and an upper frame 13 which is integrally formed with the outer frame 12 and has an L-shaped cross section, and includes a plurality of slots formed in an upper surface of the upper frame 13. 18). Due to the L-shaped cross section of the combination of the outer frame 12 and the upper frame 13, a receiving space 14 surrounded by the outer frame 12 and the upper frame 13 is formed to communicate with each slot 18. A first shoulder is formed in the bottom forming each slot 18 and the second shoulder 132 extends in the opposite direction of the first shoulder 131. A mask 20 is provided on the bottom of the fixing frame 10, which is provided on the base 21, on the light source cap 22 extending from the side of the base 21, and on the open side of the light source cap 22. It is formed and includes an extension 23 that corresponds to the receiving space 14 of the fixed frame 10 and is received therein and supported by the first shoulder 131. In addition, a protrusion 16 and a screw hole 17 are formed on the bottom of each side frame 19 (there are two side frames 19 according to FIG. 1). Corresponding to the projection 16 and the threaded hole 17, a through hole 24 is formed through the base 21 to receive the protrusion 16 therein and a bolt 26 is formed in the side of the base 21. It extends through the cutting groove 25 to be inserted into the screw hole 17.

As shown in FIGS. 3 and 4, the plurality of LEDs 30 and the adhesive tape 32 accommodated in the light source cap 22 are attached to the upper surface of the base 21 inside the light source cap 22. When the mask 20 having the supported circuit board 31 and the fixed frame 10 are assembled, the extension 23 extends into the accommodation space 14 so that the open side of the extension 23 is the first shoulder. Supported by the top surface of 131, the LED 30 is thus sandwiched between the bottom surface of the first shoulder 131 and the top surface of the base 21. By the engagement between the extension 23 and the first shoulder 131, the fixed frame 10 and the mask 20 are assembled. In order to strengthen the connection therebetween, the protrusion 16 extends into the through hole 24 and the bolt 26 extends through the incision groove 25 into the screw hole 17 to fix the frame 10 and the mask 20. ) Secure the bond between

After the coupling between the fixed frame 10 and the mask 20 is completed, the light guide plate 40 having the reflective film 41 on the rear surface of the light guide plate 40 is positioned in the fixed frame 10 so that the light guide plate 40 can be positioned. The open side of is coupled with the base 21 and adjacent to the LED (30). The optical film 42 is positioned on the upper portion of the light guide plate 40 and the liquid crystal module 50 is positioned on the upper portion of the optical film 42 so that the open side of the liquid crystal module 50 is an upper surface of the second shoulder 132. To be supported by

Based on the foregoing, the fixed frame 10 and the mask 20 are fixed in that the coupling is based on the coupling between the extension 23 of the mask 20 and the receiving space 14 of the fixed frame 10. And adhesive tapes for bonding between the fixed frames. Furthermore, since the fixed frame 10 is made of non-reflective plastic and positioned on the light guide plate, the spot light effect is prevented.

While many of the features and advantages of the present invention have been shown in the foregoing description, along with details of their structure and function, the present specification is sufficiently broadly pointed out in the broad and general sense of the language as expressed by the following claims within the principles of the invention. It is to be understood that the description of the shape, size, and arrangement of elements is specific, and may vary in detail.

According to the present invention, there is provided a light positioning frame for a backlight module which can prevent nonuniform effects on a liquid crystal display.

Claims (3)

Outer frame; An upper frame extending from one side of the outer frame to form an L-shaped cross section; An accommodation space surrounded by the outer frame and the upper frame; A slot communicating with the accommodation space and formed through an upper surface of the upper frame; A first shoulder formed on a bottom surface of the one or more slots; Plastic fixing frame having an assembly frame composed of; And Base, A light source cap unit extending from the base; An extension part extending from the light source cap part and extending into the accommodation space to be supported by the first shoulder to be engaged with the fixed frame; A mask having a The light positioning frame for a backlight module by which the light source accommodated in the mask is firmly mounted between the fixed frame and the mask, and light derived from the light source is dimmed by the upper frame. The method of claim 1, The fixed frame further has two side frames on both sides of the fixed frame, each side frame, A protrusion extending from the bottom of the side frame; And Has a screw hole formed through the side frame; A through hole is formed through the base to receive the protrusion; And A bolt is provided to extend into the screw hole through a cutout formed in the side of the base to secure the coupling between the fixing frame and the mask, And a second shoulder extending in a direction opposite to the first shoulder to support the liquid crystal module. The method of claim 2, A light positioning frame having a plurality of slots formed through the upper surface of the upper frame.

Images