KR20070066100A - Backlight assembly and method of engaging the same - Google Patents

Abstract

A backlight assembly and a coupling method thereof are provided to prevent damage to a light source and improve an external appearance by connecting a first connector with a second connector inside a circuit board for a light source. A circuit board(42) for a light source includes a light source. A first connector(52) is mounted on the circuit board for a light source to overlap a first through hole(56) penetrating the circuit board for a light source. A bottom chassis(44) receives the circuit board for a light source, and includes a second through hole(58) formed in a region overlapping the first through hole. A second connector(54) is coupled with the first connector in a space provided by the first through hole and the second through holes, and is connected to a cable supplying a driving signal to the light source. A connection terminal of the first connector is formed to face the first through hole.

Description

BACKLIGHT ASSEMBLY AND METHOD OF ENGAGING THE SAME}

1 is a cross-sectional view showing a circuit board connector fastening method for a light source according to an embodiment of the prior art.

2 is a cross-sectional view illustrating a liquid crystal display module according to an exemplary embodiment of the present invention.

3 is a plan view illustrating a light emitting diode arrangement of a liquid crystal display according to an exemplary embodiment of the present invention.

4 is a cross-sectional view illustrating a method of fastening a circuit board connector for a light source according to an exemplary embodiment of the present invention.

Description of the main parts of the drawing

10: top chassis 20: liquid crystal display panel

22 thin film transistor substrate 24 color filter substrate

26 liquid crystal layer 28 sealant

30: light control member 32: diffuser plate

34: prism film 36: protective film

40: reflected wave 42: circuit board for light source

44 bottom chassis 46 light emitting diode

50: connector 52: first connector

54: second connector 56: first through hole

58: second through hole 60: light emitting diode group

The present invention provides a backlight assembly and a method of fastening the same, which prevents the light source from being damaged by a force applied when the first connector of the light source circuit board and the second connector connected with the cable are damaged. It is.

Recently, a flat panel display such as a liquid crystal display (LCD), a plasma display panel (PDP), or an organic light emitting diode (OLED) has been developed in place of the conventional CRT.

The liquid crystal display device includes a thin film transistor substrate, a color filter substrate, and a liquid crystal display panel in which liquid crystal is injected between both substrates. Since the liquid crystal display panel is a non-light emitting device, a backlight unit for supplying light is disposed on the rear surface of the thin film transistor substrate. Light transmitted from the backlight unit is adjusted according to the arrangement of liquid crystals. The liquid crystal display panel and the backlight unit are housed in the chassis.

The backlight unit is divided into an edge type and a direct type according to the position of the light source. The edge type is a structure in which a light source is installed on the side of the light guide plate, and is mainly applied to a relatively small liquid crystal display device such as a laptop type and a desktop computer. Such an edge type backlight unit has a good light uniformity, a long service life, and is advantageous for thinning a liquid crystal display device.

The direct type is a structure mainly developed as the size of the liquid crystal display device is enlarged. The direct type is a structure in which one or more light sources are arranged on the lower surface of the liquid crystal display panel to supply light to the liquid crystal display panel. Such a direct type backlight unit has an advantage of ensuring a high luminance because a large number of light sources can be used as compared to an edge type backlight unit.

As a light source of the direct type backlight unit, a light emitting diode having high brightness and excellent color reproducibility is used as a point light source, not a CCFL such as a cold cathode fluorescent lamp. The light emitting diode unit is composed of a plurality of light emitting diodes, and a light emitting diode group capable of supplying white light is mounted as a basic unit, and the light emitting diode group is mounted in a line on a circuit board for a light source.

Such a light emitting diode 3 is mounted on a circuit board 2 for a light source mounted on the bottom chassis 1 as shown in FIG. 1. The light emitting diode 3 mounted on the circuit board 2 for the light source has a light source through a cable 7 connected to the first connector 4 and the second connector 5 fastened to the side of the light source circuit board 2. The drive signal is supplied. At this time, the cable 7 of the second connector 5 which is fastened to the first connector 4 is led to the outside through the through hole 6 penetrating the bottom chassis 1. In this case, since the cable 7 is drawn toward the side surface 6 of the bottom chassis, there is a problem in appearance. In addition, there is a risk that the force applied when the first and second connectors 4 and 5 are fastened is transferred to the light emitting diode 3 through the side surface of the circuit board 2 for the light source, thereby damaging the light emitting diode 3. .

Accordingly, a technical problem to be achieved by the present invention is to prevent the light source from being damaged by the force applied when the first connector of the light source circuit board and the second connector to which the cable is connected are prevented, and the backlight can be neat in appearance. It is to provide an assembly and its fastening method.

In order to achieve the above technical problem, the backlight assembly of the present invention and the light source circuit board mounted; A first connector mounted on the light source circuit board so as to overlap with the first through hole penetrating the light source circuit board; A bottom chassis on which the light source circuit board is mounted, and a second through hole is formed in an area overlapping with the first through hole; And a second connector coupled to the first connector in a space provided by the first and second through holes and connected to a cable for supplying a driving signal to the light source.

The second connector may supply a light source power signal supplied through the cable to the light source through the first connector.

The connection terminal of the first connector is characterized in that formed to face the first through-hole.

The size of the first through-hole and the size of the second through-hole is characterized in that formed to the extent that the second connector can move.

According to another aspect of the present invention, there is provided a method of fastening a backlight assembly, including: providing a circuit for a light source having a first through hole formed therein; Providing a bottom chassis in which a second through hole having a size of the first through hole is formed; Mounting a circuit board for the light source in the second through hole area of the bottom chassis so as to overlap the first through hole of the circuit board for the light source; And fastening the connector at the first through hole of the circuit board for the light source after passing through the bottom chassis second through hole.

Other objects and features of the present invention in addition to the above technical problem will become apparent from the description of the embodiments with reference to the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a cross-sectional view of a liquid crystal display module according to an exemplary embodiment of the present invention.

Referring to FIG. 2, the liquid crystal display module includes a liquid crystal display panel 20, a light adjusting member 30 sequentially disposed on the rear surface of the liquid crystal display panel 20, a reflecting plate 40, a circuit board 42 for a light source, and a reflecting plate. And a light emitting diode 46 positioned at the light emitting diode receiving port 40.

The liquid crystal display panel 20, the light adjusting member 30, and the circuit board 42 for the light source are accommodated in the top chassis 10 and the bottom chassis 40.

The liquid crystal display panel 20 bonds the thin film transistor substrate 22 on which the thin film transistor is formed, the color filter substrate 24 facing the thin film transistor substrate 22, and both substrates 22 and 24 to each other. a sealant 28 forming a gap), and a liquid crystal layer 26 positioned between both substrates 22 and 24 and the sealant 28. The liquid crystal display panel 20 adjusts the arrangement of the liquid crystal layer 26 to form a screen, but since it is a non-light emitting device, light must be supplied from the light emitting diode 46 located on the rear surface.

The light adjusting member 30 disposed on the rear surface of the liquid crystal display panel 20 includes a diffusion plate 32, a prism film 32, and a protective film 36.

The diffusion plate 32 is composed of a coating layer including a base plate and beads of beads formed on the base plate. The diffusion plate 32 diffuses the light supplied from the light emitting diodes 46 to make the luminance uniform.

The prism film 32 is formed in a triangular prism-shaped prism on the upper surface having a constant arrangement. The prism film 32 collects the light diffused from the diffusion plate 32 in a direction perpendicular to the arrangement plane of the upper liquid crystal display panel 20. Two prism films 32 are usually used, and the micro prisms formed on each prism film 32 form a predetermined angle. The light passing through the prism film 32 is almost vertically progressed to provide a uniform luminance distribution. If necessary, a reflective polarizing film may be used together with the prism film 34, and only the reflective polarizing film may be used without the prism film 34.

The protective film 36 is positioned at the top of the light control member 30 to protect the prism film 32 that is weak to scratches.

The reflection plate 40 is formed on the light source circuit board 42 in the remaining regions except for the region in which the light emitting diodes 46 are to be mounted. That is, the reflecting plate 40 is formed in the remaining area excluding the receiving hole so that the LED receiving hole corresponding to the arrangement of the light emitting diode 46 is provided. Each light emitting diode receiving port is provided with a light emitting diode group 60 consisting of one light emitting diode 46, and the light emitting diode receiving port is slightly larger than the light emitting diode group 60.

The reflector 40 serves to reflect light incident to the lower part and to supply the diffuser 32. The reflector 40 may be made of polyethylene terephthalate (PET) or polycarbonate (PC) and may be coated with silver or aluminum. In addition, the reflector 40 may be provided to be thicker so that no ions are generated by the strong heat generated from the light emitting diodes 46.

The light emitting diodes 46 are mounted on the circuit board 42 for the light source while forming a light emitting diode group 60 including at least one light emitting diode 46. The light emitting diode group 60 includes, for example, one red light emitting diode, one green light emitting diode, and a blue light emitting diode as shown in FIG. 3, and these light emitting diodes are arranged in a triangle.

The circuit board 42 for the light source has a bar shape, and a plurality of circuit boards 42 are arranged at equal intervals side by side according to the size of the liquid crystal display panel 20. The circuit board 42 for the light source has a longitudinal direction parallel to the long side of the liquid crystal display panel 20. Since a large amount of heat is generated in the light emitting diode 46, the circuit board 42 for the light source may be made using aluminum having excellent heat transfer rate as a main material. Although not shown, in order to facilitate heat dissipation, the liquid crystal display may further include a heat pipe, a heat dissipation fin, and a cooling fan. On the upper surface of the circuit board 42 for light sources, a first connector 52 is mounted to the second connector 54 connected to the cable 53 to supply a driving signal to the light emitting diode 46. That is, the first connector 52 is mounted on the upper surface of the circuit board for light source 42 so as to be engaged with the second connector 54 in the first through hole 56 passing through the circuit board for light source 42. . At this time, the connection terminal of the first connector 52 faces the first through hole 56.

The bottom chassis 44 has a light source circuit board 42 mounted thereon. The bottom chassis 44 is formed with a second through hole 58 large enough to move the second connector 52 in a region corresponding to the first through hole 56. Accordingly, the second connector 54 is fastened to the first connector 52 after passing through the second through hole 58 and the first through hole 56.

4 is a cross-sectional view illustrating a method of fastening a circuit board connector for a light source according to an exemplary embodiment of the present invention.

A light emitting diode group 60 is formed and a circuit board 42 for a light source having a first connector 52 mounted thereon is provided. The circuit board 42 for the light source for fastening with the second connector 54 to which the cable 53 is connected to supply the LED 46 driving signal to the first connector 52 mounted on the circuit board 42 for the light source. The first through hole 56 penetrating the through hole is formed. The first through hole 56 is formed to have a size to which the second connector 54 can move. Herein, the connection terminal of the first connector 52 is mounted to face the first through hole 56.

The bottom chassis 44 is provided with a second through hole 58 penetrating the inside of the bottom chassis 44 in a region overlapping with the first through hole 56 of the circuit board 42 for the light source. The second through hole 58 also defines the size of a hole in the first connector 52 in which the second connector 54 is movable.

The circuit board 42 for the light source having the first through hole 56 overlaps the second through hole 58 and the first through hole 56 on the bottom chassis 44 having the second through hole 58. Settles in line with the part.

The second connector 54 to which the cable 53 for supplying a driving signal is connected passes through the first through hole 56 and the second through hole 58, and then is coupled to the first connector 52.

In the above-described backlight assembly and a fastening method of the present invention, a light source having a first through hole inside a light source circuit board and a second through hole inside a bottom chassis has a second connector connected to a cable of the first connector of the light source circuit board. The connector is fastened inside the circuit board. Accordingly, the backlight assembly of the present invention and its fastening method may be neat in appearance since the connection part of the connector is not seen when viewed from the outside. In addition, the backlight assembly of the present invention and the method of fastening the first connector mounted on the circuit board for the light source and the second connector connected to the cable through the second through hole of the bottom chassis penetrates from the bottom up to the first of the circuit board for the light source It is fastened in the through hole. Accordingly, the backlight assembly and the fastening method of the present invention can reduce the impact on the LED groups (R, G, B) of the circuit board for the light source, thereby improving the workability.

In the detailed description of the present invention described above with reference to the preferred embodiment of the present invention, those skilled in the art or those skilled in the art having ordinary knowledge of the present invention described in the claims It will be understood that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (6)

A circuit board for the light source in which the light source is mounted; A first connector mounted on the light source circuit board so as to overlap with the first through hole penetrating the light source circuit board; A bottom chassis on which the light source circuit board is mounted, and a second through hole is formed in an area overlapping with the first through hole; And a second connector coupled to the first connector in a space provided by the first and second through holes and connected to a cable for supplying a driving signal to the light source. The method of claim 1, And the connection terminal of the first connector is formed to face the first through hole. The method of claim 1, And the size of the first through hole and the size of the second through hole are large enough to move the second connector. Providing a circuit board for a light source having a first through hole formed therein and having a first connector mounted in a region corresponding to the first through hole; Providing a bottom chassis in which a second through hole is formed; Mounting the circuit board for the light source on the bottom chassis such that the first and second through holes overlap each other; And fastening a second connector connected to a cable for supplying a driving signal to the first connector and the light source at a first through hole of a light source circuit board passing through the bottom chassis second through hole. How to tighten the backlight assembly. The method of claim 4, wherein The connecting terminal of the first connector connected to the circuit board for the light source is formed to face the first through hole. The method of claim 4, wherein And the size of the first through hole and the second through hole is such that the size of the first connector connected to the light source circuit board and the second connector connected to the cable can be moved.

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