KR20070002238A - Liquid crystal module - Google Patents

Abstract

An LCD module is provided to minimize a leakage current of a lamp and prevent a brightness decrease by providing a slit member to shorten a length of a slit at a grip portion of a backlight unit. A lamp electrode is provided at both ends of a plurality of lamps. A plurality of grip members(100) support/fix the lamp electrode, and supply power to the lamp electrode in parallel. A plurality of fixing members insulate, support and fix the grip members. A grip portion(110) support/fix the lamp electrode to the grip members. A plurality of grips(115) are provided at the grip portion. A slit portion(120) separates the grips at predetermined intervals. The slit portion includes a plurality of slits and a slit member(130).

Description

Liquid crystal module

1 is a plan view of a backlight unit using a conventional external electrode.

FIG. 2 is an exploded perspective view of region A ′ of FIG. 1; FIG.

Figure 3 is an enlarged perspective view showing the grip of the conventional backlight unit.

4 is a plan view showing the conventional grip unit.

5 is an exploded perspective view of a liquid crystal module having a backlight unit according to the present invention;

Figure 6 is a perspective view of the grip member accommodated in the bottom cover of the backlight unit according to the present invention.

7 is a perspective view showing a grip member according to the present invention.

8 is a plan view showing the grip member according to the present invention.

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

 1 liquid crystal module 5 backlight unit

10 lamp 20 supporter main

30: fixing member 40: optical member

50: lamp electrode 70: bottom cover

100 grip member 110 grip part

115: grip 120: slit portion

130: slit member 150: Bendin region

160: power supply hole 200: liquid crystal panel

210: Top Case

The present invention relates to a backlight unit of a liquid crystal module, and more particularly, improves workability by changing a structure of a grip member that electrically connects lamp electrodes of a fluorescent lamp in parallel. The present invention relates to a backlight unit of a liquid crystal module that prevents a poor connection.

Generally, flat panel displays are classified into light emitting and light receiving types, and the light emitting types include cathode ray tubes, electroluminescent devices, and plasma display panels, and the light receiving types include liquid crystal displays.

However, since the liquid crystal display device, which is a light receiving display device, does not emit light by itself, a light source is required to visually express an image on the rear surface of the liquid crystal display. The backlight unit serves as the light source.

Recently, as the size of a liquid crystal display device increases, the size of a liquid crystal panel and a backlight unit displaying an image also increases. Accordingly, the use of a direct type backlight unit that is arranged side by side at the rear of the liquid crystal panel to provide direct light to the liquid crystal panel is increasing.

Since the direct backlight unit requires a plurality of lamps for high brightness and uniformity of brightness, an external electrode lamp capable of driving in parallel capable of driving a plurality of lamps with one inverter has recently been used.

FIG. 1 is a plan view of a backlight unit using a conventional external electrode, and FIG. 2 is an exploded perspective view of region A ′ of FIG. 1.

As shown in FIG. 1, the backlight unit 505 includes a lamp 510 uniformly arranged at predetermined intervals on a bottom cover 570 having a storage space to emit light; A common electrode 550 provided at both ends of the outside of the lamp 510; A power supply member 600 electrically connecting the common electrodes 550 formed at both ends of the outside of the lamp 510 in parallel; A holder portion 530 is provided to fix and insulate the power supply member 600.

The lamp 510 is an external electrode type, and a common electrode 550 surrounding the lamp 510 is provided outside the both ends of the lamp 510. The inner surface of the lamp 550 is provided with a discharge gas.

The bottom cover 570 supports the lamp 510 and accommodates a holder portion 530 and a plurality of power supply members 600 reflecting light of the plurality of lamps 510 made of a material having high reflection efficiency such as metal. do.

The holder 530 has an upper holder 537 that is capable of reflecting light emitted from the lamp 510 in an inclined shape at an upper portion thereof. The lower holder 533 is made of an insulating material to support / fix the power supply member 600.

The power supply member 600 is provided with a grip portion 610 having a plurality of grips 615 and is coupled to the common electrode 550 provided at both ends of the lamp 510 to fix the lamp 510. In addition, the power is connected in parallel with the common electrode 550 at both ends of the lamp 510.

3 is an enlarged perspective view illustrating a grip part of a conventional backlight unit, and FIG. 4 is a plan view of the conventional grip part being unfolded.

As shown in FIG. 3, the power supply member 600 includes a power connection hole 660 molded to supply power to the lamp 510; A plurality of grip parts 610 for holding the common electrode 550 provided at both ends of the lamp 510; A slit portion 620 is formed to partition the grip portion 610 to form a plurality of grips 615.

The power supply member 600 may support the grip 615 integrally with the grip part 610 and may be combined with the lower holder 533. In addition, the power supply member 600 is provided with a power connection hole 660 to supply power to the lamp 510 with a material such as metal having conductivity.

The power supply member 600 includes a plurality of grip parts 610, and the grip 615 of the grip part 610 is fixed / supported by holding the common electrode 550, and connects power to the common electrode 550. Done.

The slit portion 620 partitions the grip portion 610 to form a grip 615. As the grip part 610 is partitioned by the slit part 620 to provide a plurality of grips 615, power can be stably connected to the common electrode 550, and the force holding the common electrode 550 can be maintained. To be.

However, the power supply member 600 uses a material having electrical conductivity that can supply power to the common electrode 550. Therefore, there is a problem that the shape change is easily generated due to the large force applied to the grip part 610 by using a phosphor bronze of a thin material.

As shown in Fig. 4, the grip area 610a as shown in plan view of the power supply member 600; A slit portion region 620a; A bending area 650 is provided. And a power connection hole 660 to connect the power is provided in the power supply member 600.

The grip area 610a is an area in which the grip 615 of the grip part 610 is formed by raising the material of the power supply member 600 from the bending area 650.

The slit portion region 620a is a region capable of partitioning a plurality of grips 615 of the grip portion. By providing a plurality of slit portion regions 620a, a plurality of grips 615 holding the lamp electrodes 550 can be formed. Accordingly, the power supply can be smoothed.

The bending area 650 divides the power supply member 600 and the grip part 610.

However, since the slit area 620a is formed at a distance L from the beginning of the grip area 610a and is formed in a thin and long shape, the grip 610 is easily deformed by a large force.

In addition, in order to prevent the deformation of the grip 610 to work below a predetermined force, but if you need to work with more force because of workability, the deformation of the grip 610 is likely to occur.

Therefore, when the length of the slit portion 620 is longer, the grip 510 may be deformed when the lamp 510 is inserted or, in particular, when the lamp 510 is removed due to the reworking of the lamp 510. do.

Accordingly, when the grip 615 is deformed, the grip 610 does not hold the common electrode 550 at both ends of the lamp 510, and the grip 615 and the common electrode 550 are compactly compacted. Contact failure occurs because it is not properly fit, and thus a leakage current occurs in the grip 610 and the common electrode 550.

Therefore, a short occurs due to a poor contact between the grip 615 and the common electrode 550 due to the deformation of the grip part 610 of the power supply member 600, the lamp 510 is discharged to reduce the brightness of the lamp 510. .

In addition, when the grip 615 loosens the force holding the common electrode 550, the lamp 510 emits light, and the common electrode 550 and the grip 615 are conductive metals due to the heat of the lamp 510. The thermal expansion causes the grip 615 and the common electrode 550 to expand and collide with the metal to generate noise. Therefore, the quality of the product using the backlight 505 is caused.

Accordingly, the grip 610 of the power supply member 600 connecting the power to the common electrode 550 is deformed, thereby causing a problem of impairing the uniformity of the brightness of the lamp 510.

In the backlight unit of the liquid crystal module, the slit member is provided in the power supply member so that the length of the slit is shortened to increase the force that the grip can support to prevent deformation of the grip and to supply power to the common electrode. It is an object of the present invention to provide a liquid crystal module capable of forming a screen having a uniform brightness by changing the shape of the member to solve the leakage current of the lamp.

In order to achieve the above object, a backlight unit according to the present invention includes a plurality of lamps, lamp electrodes provided at both ends of the lamps; A plurality of grip members supporting / fixing the lamp electrode and supplying power to the lamp electrode in parallel; A plurality of fixing members which insulate and support / fix the grip member; A grip part which supports / fixes the lamp electrode to the grip member; A plurality of grips provided in the grip part; A slit portion spaced apart from the grip by a predetermined interval; The slit portion includes a plurality of slits and a slit member, and the slits include the slit member between the grips.

Here, the grip portion and the slit portion of the power supply member are characterized in that the material is integral and conductive.

In order to achieve the above object, a liquid crystal module according to the present invention includes a liquid crystal panel unit which sandwiches a liquid crystal between two substrates having a plurality of elements; A supporter main for supporting / fixing the liquid crystal panel; A plurality of lamps emitting light; Lamp electrodes provided at both ends of the lamp; A plurality of grip members supporting / fixing the lamp electrode and supplying power to the lamp electrode in parallel; A plurality of fixing members which insulate and support / fix the grip member; A grip part which supports / fixes the lamp electrode to the grip member; A plurality of grips provided in the grip part; A slit portion spaced apart from the grip by a predetermined interval; The slit portion includes a plurality of slits and a slit member, and the slits include the slit member between the grips.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, and those skilled in the art can implement many other embodiments using the teachings of the present invention. It is not limited to this.

5 is an exploded perspective view of a liquid crystal module having a backlight unit according to the present invention.

As shown in FIG. 5, the liquid crystal module 1 includes a plurality of frames 210 and 20 supporting the backlight unit 5 and the liquid crystal panel 20.

The liquid crystal panel 200 is provided below the top case 210. The top case 210 serves to prevent light leakage of the liquid crystal panel unit 200 in an area excluding the display unit of the liquid crystal panel unit 200 under the top case 210 and to package and protect the liquid crystal panel unit 200. Do it.

The liquid crystal panel 200 inserts a liquid crystal between a lower substrate and a transparent substrate, which is an upper substrate, and provides a plurality of elements on the surfaces of the two substrates to drive the liquid crystal and adjust the contrast to display an image on a screen. . The liquid crystal panel unit 200 is supported by the supporter main 20.

Here, the liquid crystal module 1, which is a display for displaying an image, does not emit light by itself, and thus requires a backlight unit 5 serving as a light source.

The backlight unit 5 includes a lamp 10 which is uniformly arranged at predetermined intervals on the bottom cover 70 having a storage space and emits light; Lamp electrodes 50 provided at both ends of the outside of the lamp 10; A grip member 100 for electrically connecting lamp electrodes 50 formed at both ends of the outside of the lamp 10 in parallel; A fixing member 30 is provided to fix and insulate the grip member 100.

And the optical member 40 serves to increase the display screen brightness by having the emitted light has a uniform brightness distribution. And the optical member 40 is provided with a pattern on the surface in the form of a film to increase the light efficiency.

The lamp 10 is an external electrode type and is provided with a lamp electrode 50 surrounding the lamp 10 on the outside of both ends of the lamp 10. The inner surface of the lamp 10 is provided with a discharge gas.

The bottom cover 70 supports the lamp 10 and accommodates a plurality of lamps 10, the fixing member 30, the grip member 100, and the optical member 40 of a material having high reflection efficiency such as metal. .

The fixing member 30 is provided with a first member 37 that can reflect light emitted from the lamp 10 in an inclined shape at an upper portion thereof. The second member 33 is made of an insulating material to support the grip member 100.

The grip member 100 has a plurality of grip parts 110. In addition, a plurality of grips 110 are provided with a plurality of grips 115 and are coupled to the lamp electrodes 50 provided at both ends of the lamp 10 to fix the lamp 10. In addition, the lamp 10 is connected to both ends of the lamp 10 to connect power in parallel.

6 is a perspective view illustrating a grip member accommodated in a bottom cover of a backlight unit according to the present invention.

As shown in FIG. 6, a power connection hole 160 formed in the grip member 100 and molded to supply power to the lamp 10; A grip part 110 having a plurality of grips 115 for holding the lamp electrodes 50 provided on the outside of both ends of the lamp 10; A slit portion 120 that defines a plurality of grips 115 is included.

The grip member 100 supports the grip part 110 integrally with the grip part 110 and allows the grip member 100 to be coupled to the second member 33 of the fixing member 30. In addition, the grip member 100 is provided with a power connection hole 160 that can supply power to the lamp 10 with a material such as metal having conductivity.

In addition, the grip member 100 includes a plurality of grip parts 110, and the plurality of grips 115 provided on the grip part 110 hold / fix the lamp electrode 50 to secure and support the lamp electrode 50. Will be connected.

The slit portion 120 partitions the grip portion 110 to form a plurality of grips 115. As the grip part 110 is divided by the slit part 120 to provide a plurality of grips 115, the power can be stably connected to the lamp electrode 50, and the power to hold the lamp electrode 50 can be maintained. To be.

Referring to FIG. 3, the grip 610 is deformed when the lamp 510 is removed when the lamp 510 is inserted due to the long length of the conventional slit part 620 or the rework of fitting the lamp 510. Will occur.

Since the power supply member 600 is prepared in consideration of the conductivity characteristics capable of supplying power to the common electrode 550, a material such as a shape change is easily used in a large force applied to the outside.

Therefore, since the slit portion 620a is formed at a long distance from the beginning of the grip region 610a (L in FIG. 4) and is formed in a thin and long shape, the grip 615 is easily deformed by a large force. have.

7 is a perspective view showing a grip member according to the present invention, Figure 8 is a plan view showing the grip member according to the present invention.

As shown in FIG. 7, the grip member 100 fixing the lamp 10 includes a grip part 110 connected to the lamp electrode 50; A slit portion 120 for partitioning the grip portion 110; A plurality of grips 115 formed by the slit portion 120; It characterized in that it comprises a slit member 130 provided between the plurality of grips (115).

The grip part 110 holding the lamp electrode 50 is divided into a plurality of grips 115 by the slit part 120, and the slit part 120 defines a slit member 130 supporting the grip 115. Equipped. Due to the slit member 130, the grip 115 can increase the strength of the force holding the lamp electrode 50.

As shown in FIG. 8, the grip region 100 is shown in plan view, with a grip region 110a; A slit portion region 120a; A bending area 150 is provided. And a power connection hole 160 that can connect the power is provided.

)는

= F x ΔL 이다. 여기서 F는 힘이고, ΔL는 슬릿의 길이이다.Here, the slit member 130 is provided between the grips 115 to minimize the force transmitted to the grips 115. Torque transmitted to the grip end (

)

= F x ΔL. Where F is the force and ΔL is the length of the slit.

However, referring to FIG. 4, the length of the slit 120 is long as the length of the slit 120 is provided to the lower end of the grip.

)가 작아지게 된다. 따라서 그립(115)은 큰 힘에도 형상이 변형되지 않게 된다.However, by providing the slit member 130 of the present invention, the length is shortened from the end of the grip 115 to the length ΔL of the slit. Therefore, the torque transmitted to the end of the grip 115 (

) Becomes small. Therefore, the grip 115 is not deformed even in a large force.

As a result, the deformation of the grip 115 is prevented, so that the lamp electrode 50 and the grip 115 are properly fit so as to prevent contact failure. Accordingly, it is possible to prevent the leakage current from occurring in the grip unit 110 and the lamp electrode 50.

In addition, due to deformation of the grip part 110 of the grip member 100, a short may occur due to a poor contact between the grip 115 and the lamp electrode 550, and the lamp 10 may discharge to prevent a decrease in the brightness of the lamp 10. Will be.

In addition, the grip 115 and the lamp electrode 50 are snapped together so that the lamp 10 emits light and is thermally expanded because the lamp electrode 50 and the grip 115 are conductive metals by the heat of the lamp 10. The grip 115 and the lamp electrode 50 are thermally expanded with each other to prevent the metal and the metal from colliding with each other to generate noise.

Accordingly, the shape of the grip 115 connecting the power source to the lamp electrode 50 can be minimized so that the uniformity of the brightness of the lamp 510 can be eliminated.

Therefore, the backlight unit 5 of the liquid crystal module 1 of the present invention prevents the shape deformation of the grip 115 by providing the slit member 130 to shorten the length ΔL of the slit in the grip part 110, By changing the shape of the grip member 110 in contact with the electrode 50 to minimize the leakage current of the lamp 10 it is possible to solve the brightness degradation and implement a bright screen.

As described above, the backlight unit of the liquid crystal module of the present invention prevents the deformation of the grip by providing the slit member so that the length of the slit is shortened in the grip portion, and changes the shape of the grip member in contact with the lamp electrode to leak the lamp. By minimizing the current, the brightness reduction can be eliminated and a bright screen can be realized.

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 (10)

A plurality of lamps, and lamp electrodes provided at both ends of the lamps; A plurality of grip members supporting / fixing the lamp electrode and supplying power to the lamp electrode in parallel; A plurality of fixing members which insulate and support / fix the grip member; A grip part which supports / fixes the lamp electrode to the grip member; A plurality of grips provided in the grip part; A slit portion spaced apart from the grip by a predetermined interval; And the slit portion includes a plurality of slits and slit members, and includes the slit member between the grips. The method of claim 1, And a grip part and a slit part of the grip member are integral and conductive material. The method of claim 1, The fixing member has a first member and a second member, the first member is an insulating material, the first member is coupled to the second member and the backlight material, characterized in that the material reflects light unit. The method of claim 1, And an optical member for collecting and / or diffusing light emitted from the lamp. The method of claim 1, And a bottom cover to accommodate the grip member and the fixing member. A liquid crystal panel unit in which a liquid crystal is sandwiched between two substrates having a plurality of elements; A supporter main for supporting / fixing the liquid crystal panel; A plurality of lamps emitting light; Lamp electrodes provided at both ends of the lamp; A plurality of grip members supporting / fixing the lamp electrode and supplying power to the lamp electrode in parallel; A plurality of fixing members which insulate and support / fix the grip member; A grip part which supports / fixes the lamp electrode to the grip member; A plurality of grips provided in the grip part; A slit portion spaced apart from the grip by a predetermined interval; The slit portion includes a plurality of slits and slit members, and the liquid crystal module comprising the slit member between the grips. The method of claim 6, And a gripping portion and a slit portion of the grip member are integral and conductive material. The method of claim 6, The fixing member has a first member and a second member, the first member is an insulating material, the first member is a liquid crystal characterized in that the material is coupled to the second member and the surface reflects light module. The method of claim 6, And an optical member for collecting and / or diffusing light emitted from the lamp. The method of claim 6, And a bottom cover for accommodating the power supply member and the fixing member.

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