KR20070119291A - Backlight unit - Google Patents

Abstract

A backlight unit is provided to prevent the damage of a fixing unit and prevent a flow of an optical member by changing a shape of the fixing unit which fixes the optical member increasing light efficiency. A backlight(1) includes a side supporter(30), a fastening member(40), and an optical member(60). The side supporter has a fastening unit(35) with a hole shape. The fastening member is fastened to the fastening unit. The optical member is fixed in the upper side of the fastening member and is set on the side supporter. The backlight unit additionally includes a light source(20), a bottom cover(10), and a guide panel. The bottom cover contains the light source and supports the side supporter. The guide panel is set on the side supporter.

Description

Backlight Unit

1A is an exploded perspective view of a conventional backlight unit.

FIG. 1B is an enlarged perspective view of region A ′ of FIG. 1A; FIG.

2A is a plan view of a conventional backlight unit.

2b is a cross-sectional view taken along line II-II 'of FIG. 2a;

Figure 3a is an exploded perspective view of the backlight unit according to the present invention.

Figure 3b is an enlarged perspective view of area A in accordance with the present invention.

4 is a plan view of a backlight unit according to the present invention;

5 is a cross-sectional view taken along line VV ′ of FIG. 4.

6A illustrates another embodiment of a backlight unit according to the present invention.

6b illustrates another embodiment according to the present invention.

<Description of the reference numerals for the main parts of the drawings>

 1: Backlight unit 10: Bottom cover

20: light source 30: supporter side

35 fastening part 40 fastening member

50: fixing part 60: optical member

70: guide panel

The present invention relates to a backlight unit, and more particularly, to a backlight unit having a fixing unit for fixing an optical member.

Non-light emitting devices that cannot self-luminesce, such as liquid crystal displays, require a light source to visually express an image on the back of the liquid crystal display. The backlight serves as a light source, and the backlight includes a lamp as a light source and an optical sheet for increasing the efficiency of light emitted from the lamp. Here, the backlight unit is configured by combining a plurality of units such as a cover and a supporter main capable of supporting / fixing the optical sheet and the lamp.

Here, the backlight unit may be classified into a direct type and a side type according to the arrangement of the lamp for emitting light.

The direct type backlight unit needs fixing means capable of fixing / supporting an optical sheet or the like used to increase the efficiency of light emitted from the lamp.

1A is an exploded perspective view of a conventional backlight unit, and FIG. 1B is an enlarged perspective view of region A ′ of FIG. 1A.

As shown in FIG. 1A, the backlight unit 501 has a bottom cover 510 and a plurality of lamps 520 are positioned on the bottom cover 510.

The lamp 520 is supported / fixed at both ends of the supporter side 530. In addition, a plurality of optical members 560 are provided on the lamp 520 to increase the efficiency of light emitted from the lamp 520.

Here, the optical member 560 is provided in plural in the form of a sheet. The optical member 560 is mounted on the bottom cover 510 and the supporter side 530.

A guide frame may be disposed on the optical member 560 to support a product that requires light while protecting the backlight unit 501. For example, the guide frame 570 is referred to as a liquid crystal display device using the backlight unit 501 as an example.

Here, the supporter side 530 is provided with a boss 550 integrally formed with the supporter side 530 to fix the optical member 560 or the like.

As shown in Figure 1b, the optical member 560 is provided with a plurality of optical sheets, each optical sheet is formed with a fine pattern that can increase the light efficiency on the surface.

However, when the optical sheet flows, it may be difficult to perform a function of increasing light efficiency due to wear of the micropattern or damage of the micropattern. Therefore, the means for fixing the optical sheet is required in the backlight unit 501.

A boss portion 550 is formed at the supporter side 530, and the optical member 560 is joined to the protruding region of the boss portion 550. Here, a hole corresponding to the shape of the boss 550 is formed at the end of the optical member 560 in order to join the boss 550 and the optical member 560.

As such, the boss 550 may prevent the flow of the optical member 560 to increase the efficiency of light emitted from the lamp 520.

2A is a plan view of a conventional backlight unit, and FIG. 2B is a cross-sectional view taken along line II-II 'of FIG. 2A. FIG. 2A illustrates a guide panel in order to show a boss formed on the supporter side.

As shown in FIG. 2A, the backlight unit 501 is provided with a lamp 520 that emits light, and a bottom cover 510 having a container shape capable of accommodating the lamp 520 includes the lamp 520. It is provided at the bottom.

In this case, support portions capable of supporting / mounting the optical member 560, the guide panel 570, and the like provided on the bottom cover 510 are provided at both sides.

In addition, a supporter side 530 that is compatible with the bottom cover 510 is provided at the side of the bottom cover 510. The supporter side 530 is provided in a shape capable of supporting / fixing the lamp 520. In addition, the supporter side 530 is provided with a plurality of bosses 550.

The boss 550 is integrally formed with the supporter side 530 and protrudes from the supporter side 530.

The optical member 560 is joined to the boss 550 protruding from the supporter side 530. Here, the optical member 560 is provided with a hole to be joined to the protruding region formed in the boss portion 550.

As such, the boss 550 may prevent the flow by fixing the optical member 560.

As shown in the cross-sectional view of the backlight unit of FIG. 2B, the backlight unit 501 has a boss portion 550 protruding from the supporter side 530 to prevent the flow of the optical member 560. It is.

The boss 550 is integrally formed with the supporter side 530 and the optical member 560 is joined to the protruding portion.

However, since the boss part 550 is integrated with the supporter side 530, stress is applied to the corner part C ′ of the boss part 550 even with a small impact applied to the inside and the outside of the backlight unit 501. When concentrated, the boss 550 may be damaged.

That is, since the boss 550 is integrally formed with the supporter side 530, vibration and shock applied to the backlight unit 501 may be concentrated at the corner portion C ′ of the boss 550. have. Therefore, the boss portion 550 formed integrally with the supporter side 530 has a problem that is vulnerable to stress.

Thus, when the stress is concentrated in the corner portion C ′ of the boss portion 550, a crack may occur in the corner portion C ′. The crack is gradually increased so that the boss portion 550 integrally formed with the supporter side 530 may be separated from the supporter side 530.

As such, the boss 550 separated from the supporter side 530 (or damaged) loses the function of preventing the flow of the optical member 560. Accordingly, the optical member 560 may flow, and a phenomenon in which the micropattern formed on the optical member 560 is worn by the flow may occur.

That is, as the boss 550 that prevents and fixes the flow of the optical member 560 is broken, the optical member 560 becomes difficult to perform a role of increasing light efficiency. Therefore, the brightness of the backlight unit 501 using the optical member 560 is lowered, thereby lowering the quality of the overall quality.

An object of the present invention is to provide a backlight unit capable of preventing breakage of the fixing part and preventing the flow of the optical member by changing the shape of the fixing part for fixing the optical member that increases the light efficiency in the backlight unit.

Another object of the present invention is to provide a backlight unit capable of preventing backlight brightness defects by the fixing unit.

In order to achieve the above object, the backlight unit according to the present invention includes a supporter side having a fastening portion having a hole shape; A fastening member fastened to the fastening part; It is fixed to the upper side of the fastening member, characterized in that it comprises an optical member seated on the supporter side.

In this case, the fastening member is formed of a material having a durability against stress including a metal and an alloy.

And the fastening member is characterized in that the screw is provided at the end.

On the other hand, the optical member is provided with a hole corresponding to the fastening member of the shape protruding from the supporter side surface is characterized in that the hole is fitted to the fastening member.

Hereinafter, a backlight unit will be described in detail through the following examples of the present invention based on the accompanying drawings, and those skilled in the art can implement many other embodiments using the teachings of the present invention, and the present invention is an exemplary object. It is specified that it is not limited to the following embodiment.

3A is an exploded perspective view of a backlight unit according to the present invention, and FIG. 3B is an enlarged perspective view of region A according to the present invention.

As shown in FIG. 3A, the backlight unit 1 is provided at both ends of the light source 20 emitting light, the bottom cover 10 capable of accommodating the light source 20, and the bottom cover 10. The supporter side 30 which supports / fixes the light source 20 is provided.

The supporter side 30 may further include a supply unit for supplying power to the light source 20. The optical member 60 is provided on the supporter side 30.

The supporter side 30 is provided with a fixing part 50 capable of supporting / fixing the optical member 60. The fastening part 35 formed on the supporter side 30 and the fastening member 40 formed in a shape corresponding to the fastening part 35 may be joined to form the fixing part 50.

The optical member 60 has a function of increasing the efficiency of the light emitted from the light source 20 each of the diffusion sheet, prism sheet, protective sheet, and the like.

Here, the optical member 60 is provided with holes that can be molded to the fastening member 40 in shape. Since the optical member 60 is mounted on the bottom cover 10 and the supporter side 30, a flow may occur in an impact or vibration applied to the inside and the outside of the backlight unit 1.

For this reason, a hole may be provided in the optical member 60 in a shape corresponding to the fastening member 40 and may be joined to the fastening member 40 to prevent the flow of the optical member 60.

The fastening member 40 is provided to correspond to the fastening portion 35 and is provided with a length greater than the shape (depth) of the fastening portion 35. As such, the fastening member 40 and the fastening portion 35 are combined to form the fixing portion 50. In this case, the fixing part 50 may be formed in a protruding shape by being formed larger than the shape (depth) of the fastening part 35.

Therefore, the optical member 60 is inserted into the fixing portion 50 of the protruding shape, thereby preventing the optical member 60 from flowing.

FIG. 3B is an enlarged perspective view illustrating region A decomposed in FIG. 3A. As shown in FIG. 3B, the supporter side 30 is provided with a fixing part 50.

The fixing part 50 is formed in a shape protruding from the surface of the supporter side 30 to fix the optical member 60.

The optical member 60 is joined to the protruding fixing part 50. Here, the optical member 60 is provided with a hole corresponding to the protruding shape.

In detail, the fixing part 50 is provided with a fastening member 40 forming the protruding shape. In addition, a fastening part 35 to which the fastening member 40 may be formed is formed at the supporter side 30.

Thus, the fastening member 40 and the fastening part 35 are fastened to form a fixing part 50 protruding from the surface of the supporter side 30. The fastening member 40 is preferably formed to have a larger shape (size, length) than the fastening portion 35.

Here, the fastening member 40 is larger than the shape (length) of the fastening part 35 when the fastening part 35 is fastened, and the fastening part 35 and the fastening member 40 are formed to be fastened. The fixing part 50 is to be formed to protrude from the surface of the supporter side (30).

In addition, the fastening member 40 is larger than the shape (size) of the fastening part 35 to allow the fastening member 40 to be fastened to the fastening part 35 in a clamping manner. When the supporter side 30 is injected, there is a difficulty in forming a fine shape inside the fastening portion 35 having a hole shape. Therefore, the fastening portion 35 and the fastening member 40 are formed to have a larger shape than the fastening portion 35 so as to have a coupling force in the interference fit method. Coupling of the fastening part 35 and the fastening member 40 will be described later in detail with reference to FIG. 6A.

In addition, the fastening member 40 may be provided with a shape such as a screw to be coupled to the fastening part 35 of the supporter side 30. Here, the fastening part 35 is coupled to the fastening part in an interference fit method because it is difficult to inject a shape corresponding to the screw. Since the supporter side 30 is formed to have a predetermined thickness, the shape of the supporter side 30 can be maintained even when the screw is coupled by force. Coupling the screw and the fastening portion will be described in detail with reference to FIG. 5.

Here, the fastening member 40 may be formed of a metal, an alloy, or the like having durability to stresses such as shock and vibration.

In this way, the fastening member 40 is coupled to the fastening portion 35 of the supporter side 30 to provide the fixing portion 50 to flow of the optical member 60 provided on the supporter side 30. Can be prevented, and thus the luminance of the backlight unit 1 can be maintained uniformly.

4 is a plan view of the backlight unit according to the present invention, and FIG. 5 is a cross-sectional view taken along line VV ′ of FIG. 4.

As shown in FIG. 4, the back light unit 1 includes supporters 30 at both sides of the bottom cover 10. The supporter side 30 may provide an electrode part or the like capable of supporting both sides of the light source 20.

And on the supporter side 30, the optical member 60 is mounted. The optical member 60 is formed in plural in the form of a film such as a prism sheet, a protective sheet.

The optical member 60 is provided to increase the efficiency of the light source 20 provided in the lower, it is preferable to prevent the flow of the optical member 60 in order to increase the optical efficiency.

That is, when the optical member 60 flows, it is difficult for the light emitted from the light source 20 to be uniformly irradiated from the backlight unit 1. Therefore, there is a problem that the quality of the product is degraded as the backlight unit 1 irradiated with uneven brightness.

In addition, as the optical member 60 flows, problems such as the wear of the optical pattern provided on the optical member 60 may occur. Therefore, wear of the optical pattern may cause a decrease in the efficiency of the light.

Therefore, the fixing part 50 for preventing the flow of the optical member 60 is provided on the supporter side 30 to prevent the optical member 60 from being exposed to the above problem. The fixing part 50 may be formed by the fastening part 35 and the fastening member 40 of the supporter side 30. Here, only the fastening member 40 is shown as the top view of the backlight unit 1 is shown.

The fixing part 50 may be formed in a shape protruding from the body of the supporter side 30. The fixing part 50 is formed by fastening the fastening part 35 and the fastening member 40. In the supporter side 30, the fastening member 40 is provided larger than the shape of the fastening part 35. It can be formed in a protruding shape. The protruding shape fixing part 50 is joined with the hole of the optical member 60 to prevent the flow of the optical member 60.

As shown in the cross-sectional view of the backlight unit shown in FIG. 5, the backlight unit 1 includes a bottom cover 10, and the light source 20 is accommodated in the bottom cover 10. The supporter side 30 supported by the bottom cover 10 is provided at both ends of the bottom cover 10. Here, on the supporter side 30, the optical member 60 for increasing the efficiency of light emitted from the light source 20 is provided in a plurality of film shapes.

In this case, the optical member 60 needs fixing means capable of preventing the flow of the optical member 60 in order to increase the efficiency of the light. Thus, a fixing part 50 capable of fixing the optical member 60 is provided on the supporter side 30.

The fixing part 50 may be formed by forming a fastening part 35 on the supporter side 30 and providing a fastening member 40 corresponding to the fastening part 35.

The fastening part 35 may be formed by providing a hole in the supporter side 30. The fastening part 35 may form a hole at the time of injection forming the shape of the supporter side 30.

Here, the fastening part 35 may be formed in the central region of the supporter side 30 when described with reference to FIG. 4. This may be disposed in the center to prevent the phenomenon that the optical member 60 is struck in one direction in order to prevent the flow of the optical member 60.

In addition, a fastening member 40 corresponding to the fastening part 35 may be provided. The fastening member 40 may be formed of a metal, an alloy, or the like so that the shape of the fixing part 50 may be prevented from being damaged by shock and vibration applied to the inside and the outside of the backlight unit 1.

And the fastening member 40 may be provided with a screw at the end. Here, when the fastening member 40 is fastened to the fastening part 35, the screw may be provided in the fastening member 40 to firmly support the protruding shape of the fixing part 50.

The fastening member 40 is preferably formed in a shape larger than the fastening portion 35. The fastening portion 35 may be difficult to inject the shape of the screw on the hole shape of the fastening portion 35 to the supporter side 30 formed of a plastic or the like.

Therefore, the fastening part 35 is coupled to the fastening part in an interference fit method because it is difficult to inject a shape corresponding to the screw. Since the supporter side 30 is formed to have a predetermined thickness, the shape of the supporter side 30 can be maintained even when the screw is coupled by force.

Thus, by forming the fastening member 40 larger than the hole shape of the fastening portion 35, it is possible to increase the fastening force of the fastening portion 35 and the fastening member 40 in an interference fit method or the like. Since the supporter side 30 is formed to have a predetermined thickness, the supporter side 30 may be formed in consideration of a thickness to which the screw may be fastened.

In addition, the fastening member 40 may be formed in a shape (length) longer than the hole of the fastening portion 35 so as to protrude from the supporter side 30. That is, the fixing member 50 may be formed in a shape in which the fastening member 40 protrudes from the supporter side 30.

As such, the fastening member 40 may be fastened to the fastening part 35 of the supporter side 30 to form the fixing part 50, and the optical member 60 may be formed on the fixing part 50. Can be fixed. In addition, the fastening member 40 may be formed of a metal, an alloy, or the like, thereby maintaining the shape of the fixing part 50 by shock and vibration transmitted from the inside and the outside of the backlight unit 1.

Therefore, as the optical member 60 can be prevented from flowing, the backlight unit 1 can maintain uniform luminance. Accordingly, it is possible to solve the problem that the quality of the product is deteriorated by the uneven brightness due to the deviation from the fixing part 50 of the optical member 60.

6A illustrates another embodiment of a backlight unit according to the present invention, and FIG. 6B illustrates another embodiment according to the present invention. Here, the backlight unit will be described with reference to FIG. 5.

As shown in FIG. 6A, the supporter side 30 is provided with a hole-shaped fastening portion 35, and a fastening member 140 fastened to the fastening portion 35 to provide the fixing portion 50. Can be formed. The fixing part 50 may fix the optical member 60 to increase the efficiency of light emitted from the light source 20. The fixing part 50 may be formed in a shape protruding from the surface of the supporter side 30.

Here, the fastening part 35 may be formed in a hole shape. The fastening part 35 is formed in the supporter side 30, and thus, the fastening force may be increased in forming the supporter side 30 by injection or the like. Difficulty may occur in forming the shape of the part 35.

In addition, the fastening member 140 is larger than the shape (size) of the fastening portion 35 to allow the fastening member 140 to be fastened to the fastening portion 35 in a clamped manner. When the supporter side 30 is injected, there is a difficulty in forming a fine shape inside the fastening portion 35 having a hole shape.

Therefore, the fastening portion 35 and the fastening member 140 are formed to have a larger shape than the fastening portion 35 so as to have a coupling force in the interference fit method.

Therefore, the fastening member 140 may be formed in a larger shape (thickness) than the fastening part 35 to be fastened by an interference fit method or the like to increase the fastening force.

As shown in FIG. 6B, the supporter side 130 is provided with a hole-shaped fastening portion 35, and a fastening member 40 fastened to the fastening portion 35 is provided to fix the fixing portion 50. Can be formed.

The fixing part 50 may fix the optical member 60 to increase the efficiency of light emitted from the light source 20. The fixing part 50 may be formed to protrude from the surface of the supporter side 130.

Here, the fastening part 35 may be formed in a hole shape. The fastening part 35 is formed in the supporter side 130, and thus, the fastening force may be increased in forming the supporter side 130 by injection. Difficulties may arise in forming the

Thus, a boss shape may be formed in the fastening portion 35 so as to improve a fastening force, and the fastening portion 35 may be formed in a hole shape at the center of the boss shape.

In addition, the fastening member 40 may be formed in a shape (thickness) larger than the fastening portion 35 and may be fastened by an interference fit method or the like. Here, as shown in the figure, by providing a screw in the fastening member 40 it is possible to increase the fastening force of the fastening portion 35 and the fastening member 40.

As such, by fastening the fastening member 40 to the supporter side 130, the fixing member 50 protruding from the supporter side 130 may be formed to fix the optical member 60. . In addition, the fastening member 40 may be formed of a metal, an alloy, or the like, thereby maintaining the shape of the fixing part 50 by shock and vibration transmitted from the inside and the outside of the backlight unit 1.

Therefore, as the optical member 60 can be prevented from flowing, the backlight unit 1 can maintain uniform luminance. Accordingly, it is possible to solve the problem that the quality of the product is deteriorated by the uneven brightness due to the deviation from the fixing part 50 of the optical member 60.

The backlight unit 1 may be provided in the liquid crystal panel to form a liquid crystal display device. Since the liquid crystal panel is not a light emitting device, the backlight unit 1 may be provided on the rear surface of the liquid crystal panel to receive a light source.

Accordingly, the liquid crystal display may receive a uniform light source from the backlight unit 1 to display a uniform image.

As described above, the backlight unit of the present invention forms a hole-shaped fastening portion on the supporter side and a fastening member that can be fastened to the fastening portion to form a fixing portion protruding from the supporter side.

As such, by providing the fastening member separated from the supporter side, the shape of the fixing part may be maintained even by the impact and vibration transmitted from the inside and the outside of the backlight unit. In addition, the fastening member may be formed of a metal, an alloy, or the like, thereby improving durability against shock and vibration.

Therefore, it is possible to prevent the flow of the optical member to be fitted to the fixing portion.

In addition, as the optical member can be prevented from flowing, the backlight unit can maintain uniform luminance. Accordingly, the problem that the quality of the product is degraded by the flow of the optical member can be solved.

Those skilled in the art through the above description will be capable of various changes and modifications without departing from the spirit of the present invention.

Claims (7)

A supporter side having a hole-shaped fastening part; A fastening member fastened to the fastening part; And an optical member fixed to the upper side of the fastening member and seated on the supporter side. The method of claim 1, A light source for emitting light; A bottom cover accommodating the light source and supporting the supporter side; And a guide panel mounted on the supporter side. The method of claim 1, The fastening unit is a backlight unit, characterized in that provided in the center area of the supporter side. The method of claim 1, The fastening member is a backlight unit, characterized in that formed of a material having a durability against stress, including a metal, alloy. The method of claim 1, The fastening member is a backlight unit, characterized in that a screw is provided at the end. The method of claim 1, The optical member is provided with a hole corresponding to the fastening member of the shape protruding from the surface of the supporter side, the backlight unit, characterized in that the hole is fitted in the fastening member. A backlight unit formed by any one of claims 1 to 6; And a liquid crystal panel provided on the backlight unit.

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