KR100666915B1 - Flat lighting lamp device - Google Patents

Abstract

The present invention provides a surface light source lamp device for backlighting a large LCD, wherein the surface light source lamp device is formed by separately forming the number of glass substrates constituting the light emitting lamp structure on the first and second glass, respectively. Provided is a surface light source lamp device which integrally couples first and second glasses having a plurality of glass substrates together to form a plurality of independent light emitting lamp structures.

The present invention having the above-described configuration makes it easier to manufacture and install a surface light source lamp device for the configuration of a large LCD image display device, thereby improving the manufacturing yield of the surface light source lamp as well as a plurality of small surfaces. Since a plurality of light source lamps are fixed by tiling, a uniform luminance characteristic is applied to the LCD panel accordingly, thereby significantly improving the backlighting characteristic of the surface light source lamp.

Description

Surface light source lamp unit {FLAT LIGHTING LAMP DEVICE}

1 is an explanatory diagram illustrating a structure of a conventional surface light source lamp device for a backlight provided in an LCD panel;

2 is an explanatory diagram showing an embodiment of a conventional surface light source lamp device;

3 is a cross-sectional view taken along the line A-A of FIG.

4 (a) to 4 (b) are explanatory views illustrating a surface light source lamp device according to an embodiment of the present invention.

5 is an explanatory view for explaining a structure in which the surface light source lamp device of the present invention is located in the LCD panel;

6 is an explanatory diagram illustrating a backlighting function of the surface light source lamp device of the present invention.

Fig. 7 (a-b) is an explanatory view for explaining the form combined by the tiling method of the second embodiment of the present invention.

8 is an explanatory diagram illustrating a form in which a plurality of small surface light source lamps of the present invention are fixedly installed through grips.

9 is an explanatory view showing a form in which a fixing support for preventing the flow of small lamps is installed in the lamp device according to the fourth embodiment of the present invention.

10 is an explanatory diagram illustrating a form in which the lamp device according to the fifth embodiment of the present invention is connected to the frame fixing part through an elastic body such as a spring;

Fig. 11 is an explanatory diagram for explaining a control wall portion of the sixth embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1 glass substrate 2 first glass

2: glass substrate 4: second glass

5 electrode 6 lead wire

7,7A-D: light emitting lamp structure 8: surface light source lamp

9: reflector 10: frame portion

11: Diffusion Plate 12: Diffusion Sheet

13: LCD panel 14: Individual lamp discharge tube

15: Frame 16: Fixed frame part

17: Grip 18: Fixed Support

19: corner 20: elastic body

21: control wall portion 22: edge portion

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a surface light source lamp device, and in particular, to form a small surface light source lamp by combining the first and second glasses having a plurality of bends in a predetermined pattern with each other to form a small surface light source lamp. It relates to a surface light source lamp device for tiling the adjacent light emitting lamp structures to each other by using, for example, an adhesive or other fixing method composed of rubber, silicone rubber, or other equivalent properties in the frame of the fixing frame part one by one. .

In general, as the scientific civilization develops, a number of electric or electronic devices have been developed and used for the convenience of people. For example, various devices such as LCD monitors, computers, and image display devices have been developed and used. In particular, such electrical or electronic devices are connected to an image display device that processes image signals to process various sources such as TV broadcasts, movies, or other video. On the other hand, the conventional image display device as described above has been in the trend of increasing in size and slimness in recent years, the display device that is in the spotlight according to this trend is a flat panel display device, such as a liquid crystal display device, an electroluminescence display device (ELD) ), And flat panel display devices such as plasma display panels (PDPs) are widely used.

However, among the conventional flat panel display devices as described above, liquid crystal display devices, unlike other flat panel display devices capable of self-emission, are themselves non-light-emitting, and thus have a desired image display function without back lighting by a separate light source. It is not possible.

Accordingly, in the image display apparatus using the liquid crystal display device, as shown in FIG. 1, a plurality of diffusion sheets 69 and an expensive film prism sheet 71 are provided on the rear side of the liquid crystal display device 70. On the rear side of the prism sheet 71, a diffusion plate 72 is provided to diffuse the emitted light. On the rear side of the diffusion plate 72, light is displayed so that the display signal of the liquid crystal display element 70 is displayed on the front side. The surface light source lamp device 73, which is a flat light source device that provides a backlighting function, is installed, and the members 71-73 can be fixed to the lower side of the surface light source lamp 73. And a support frame 75 provided with a reflector plate 74.

Here, the conventional surface light source lamp 73 as described above, as shown in Figs. 2 and 3, the first glass substrate (73a) of the plate-type generally made of glass material, and the first glass substrate (73a) And a light emitting member 77 having a structure in which a second glass substrate 73b having a predetermined channel pattern 81 and generally having a curved shape 76 is bonded to each other at a high temperature.

In addition, a fluorescent material is coated inside the light emitter 77. In addition, an electrode 79 having a lead wire 78 is inserted into an inner side of one end of the light emitting member 77 having the predetermined channel pattern. A power supply unit (not shown) is connected to each electrode 79.

Here, each of the predetermined channel patterns 81 is formed to have a width of approximately 0.97 (cm), and is formed in a gentle curved shape at the edge portion 82 where the channel patterns 81 are bent.

Then, referring to the operation of the conventional surface light source lamp 73 as described above, each of the lead wires 78 of the light emitting body 77 by generating a driving voltage, for example, 1.2 (kv) or 2.3 (kv) in the power supply unit. Is applied to the electrode 79 through. Here, the current applied through each electrode 79 is circulated through each channel path along the set channel pattern 81, in which case the light emitter 77 of the surface light source lamp 73 through which the current flows. The charge accelerated by the gas contained in the corresponding channel pattern 81 of the collides with mercury to generate ultraviolet rays, and the generated ultraviolet rays collide with the fluorescent material applied to the inside to emit light with visible light.

Then, backlighting of the liquid crystal display device 70 is performed by intrinsic action of the reflecting plate 74, the diffusion plate 72, the prism sheet 71, and the diffusion sheet 69 that are adjacent to each other in accordance with the light emission of the light emitter 77. Run the function.

However, in the conventional surface light source lamp as described above, when the liquid crystal display device 10 has a relatively small size, the first and second glass substrates 73a and 73b are joined up and down to form a single body. However, in the case where the liquid crystal display device is made in a large size, it is very difficult to manufacture the body of the lamp unit as a single body, and thus, the glass substrates 73a-73b may be bonded or other electrode insertion processes. Deformation, cracking, and breakage frequently occur, and thus the manufacturing yield is considerably lowered. In addition, when a current flows to the rounded edge portion 82 of each channel pattern of the lamp emitter, the current flowing through the edge portion 82 For example, because it flows inwardly biased to one side, a dark part is generated in the biased part, as well as curved in the structure of the lamp light-emitting body. 2, there is a problem that the glass substrate is bonded because of the direction in which the nail the light emitted therefrom is not spread evenly, or flickering (flickering) phenomenon frequently occurs, since the bonding to the first glass substrate to the front direction of the reflection plate.

 Accordingly, the present invention has been invented to solve the conventional problems as described above, so that the production and installation of the surface light source lamp device for the configuration of a large LCD image display device is made more easily accordingly the production yield of the surface light source lamp It is an object to provide a surface light source lamp device that improves.

Another object of the present invention is to fix a plurality of small surface light source lamp by a tiling method, so that the uniform luminance characteristic is applied to the LCD panel accordingly, so that the surface light source lamp device to significantly improve the backlighting characteristics of the surface light source lamp To provide.

The present invention for achieving the above object is a surface light source lamp device for backlighting a large LCD, the surface light source lamp device, the desired number of glass substrates constituting the light emitting lamp structure on the first and second glass Provided is a surface light source lamp device that forms a plurality of independent light emitting lamp structure by integrally forming each of them separately and the first and second glass with a plurality of glass substrates integrally formed therebetween.

Another feature of the present invention is a surface light source lamp device for backlighting large LCD,

The surface light source lamp device is formed by forming a first glass on which a curved glass substrate having a predetermined channel pattern is formed, and a curved glass substrate 3 having a predetermined channel pattern by being symmetrically coupled to the first glass. A light emitting lamp structure composed of a second glass;

It provides a surface light source lamp device comprising a plurality of the light emitting lamp structure arranged in a frame formed according to the size of the LCD panel required to be installed, and a fixed frame portion for fixing the arranged light emitting lamp structure in a tiling manner.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The surface light source lamp of the first embodiment of the present invention includes a first glass 2 having a plurality of curved glass substrates 1 having a predetermined channel pattern as shown in FIG. A curved glass substrate 3 symmetrically coupled to the first glass 2 and having a predetermined channel pattern is composed of a plurality of second glasses 4 integrally formed.

On the glass substrates 1 and 3, electrodes 5 and lead wires 6 are interpolated for respective channels. In addition, a fluorescent material is coated on the inner surface of each of the glass substrates 1 and 3.

Meanwhile, referring to the assembly of the surface light source lamp of the first embodiment of the present invention as described above, first, the first glass 2 is placed on the upper surface of the second glass 4 which is integrally formed, and the predetermined adhesive is applied. Both glasses 2 and 4 are bonded together in a high temperature state.

Then, when the upper and the second glass (2,4) is a high temperature bonding, the plurality of glass substrates (1,3) formed integrally with the body of the first and second glass (2,4) are symmetrical with each other Are combined to form each of the separate light emitting lamp structures 7A-D.

That is, when there are four glass substrates 1 and 3 integrally formed on the first and second glasses 2 and 4, for example, four light emitting lamp structures 7A-D may be configured to receive different applied voltages. Will be.

In other words, the surface light source lamp 8 of the present invention has the number of glass substrates 1 and 3 constituting the light emitting lamp structure 7 on the first and second glasses 2 and 4 as desired. A plurality of light emitting lamp structures 7 are formed by integrally forming and integrally joining the first and second glasses 2 and 4 on which the channel glass substrates are formed.

In addition, the assembled surface light source lamp 8 of the first embodiment of the present invention, unlike the prior art, is installed and fixed on the frame portion 10 provided with the reflecting plate 9 as shown in FIG. The optical film, such as the diffusion plate 11 and the diffusion sheet 12, is positioned on the upper side of the surface light source lamp 8 of the present invention, and the large LCD panel 13 is finally positioned.

In other words, in assembling the lamp of the present invention, the lamp of the present invention does not require an expensive prism sheet.

Next, the operation and effect of the first embodiment of the present invention as described above will be described.

First, the lamp 8 of the present invention is a large LCD panel in which the first and second glasses 2 and 4 are combined to form a plurality of light emitting lamp structures 7, and a plurality of light emitting lamp structures formed as described above are required. When the LCD panel 13 is driven while being attached to the rear side of the rear panel 13, a plurality of light emitting lamp structures are generated by generating a driving voltage, for example, 1.2 (kv) or 2.3 (kv), from the power supply unit (not shown). It is applied to each electrode 5 via each lead wire 6 of (7).

Then, the current applied through each of the electrodes 5 is circulated through the individual lamp discharge tube 14 having a constant width and length formed along the set channel pattern, wherein the current flows through the light emitting lamp of the present invention Charges accelerated by the gas contained in the individual lamp discharge tubes 14 of the structure 7 collide with mercury to generate ultraviolet rays, and the generated ultraviolet rays collide with the fluorescent material applied to the inside to emit light with visible light. Then, as the individual lamp discharge tubes 14 emit light, the backlighting function of the LCD panel 13 is performed by the intrinsic action of the reflecting plate 9, the diffusion plate 11, and the diffusion sheet 12 which are adjacent to each other.

That is, when the individual lamp discharge tube 14 of the light emitting lamp structure 7 of the first embodiment of the present invention emits light, as shown in FIG. 6, the light emitted therein is transmitted to the channel of the first glass 2. The light that passes through the curved surface of the glass substrate 4 and is projected onto the diffusion plate 11 and at the same time, the emitted light passes through the curved portion of the channel glass substrate 3 of the second glass 4 to pass through the first glass 2. Is projected toward the reflecting plate 9 side opposite to the "

At this time, the light from the side of the second glass 4 projected onto the reflecting plate 9 passes through the transparent junction portion “P” between the Gaebell lamp discharge tube 14 and the individual lamp discharge tube 14 and diffuses the plate again. 11) is reflected back.

Therefore, the surface light source lamp 8 of the present invention by the above process is to improve the uniformity (uniformity) as a whole compared to the prior art that the first glass is flat.

In addition, since the surface light source lamp 8 of the first embodiment of the present invention is not cut separately to fit a large LCD panel but is a structure for integrally molding a plurality of light emitting lamp structures, the lamp discharge tube has a wide width. The darkening phenomenon of the prior art, which has been generated as it is lengthened, can be removed.

On the other hand, the second embodiment of the present invention, as shown in Figure 7 (ab) is a first glass (2) is formed of a curved glass substrate 1 having a predetermined channel pattern, and the first glass ( 2) a light emitting lamp structure (7-1) composed of a second glass (4) formed by bending a glass substrate (3) having a predetermined channel pattern and symmetrically coupled thereto; A plurality of the light emitting lamp structures 7-1 are arranged in a frame 15 formed according to the size of the LCD panel required to be installed, and the light emitting lamp structures 7-1 are fixedly installed in a tiling manner. It consists of a fixed frame portion 16.

On the respective light emitting lamp structures 7-1, electrodes 5 and lead wires 6 are interpolated for respective channels. In addition, a fluorescent material is coated on the inner surface of each of the light emitting lamp structures 7-1.

Here, when the glass substrate 1 of the first glass 2 and the glass substrate 3 of the second glass 4 are directly contacted to each other, a small surface light source lamp is formed. The first glass 2 When the individual glass substrates 1 and the individual glass substrates 3 of the second glass 4 are combined, one discharge tube (individual current path formed along a pattern; 14) is formed.

In other words, a small number of light emitting lamp structures 7-1 that fit the frame 15 of the fixed frame part 16 are connected to the fixed frame part 16 corresponding to the size of the large LCD panel in a tiling manner. Will be.

On the other hand, when the assembling state of the surface light source lamp of the second embodiment of the present invention as described above, first, the first glass 2 is placed on the upper surface of the second glass 4 which is integrally formed, the predetermined adhesive Bond both glasses (2,4) at high temperature using.

Then, when the upper and the second glass (2,4) is bonded, the glass substrates (1,3) integrally formed on the body of the first and second glass (2,4) are bonded to each other in a symmetrical position In this case, the light emitting lamp structure 7-1 is constructed, wherein the first and second glasses 2 and 4 are combined to separate the glass substrate 1 and the second glass 4 of the first glass 2. The individual glass substrates 3) are also combined to form one discharge tube (individual current path 14 formed along the pattern).

Then, a plurality of tiling methods are used to connect the individually assembled small light emitting lamp structures 7-1 to fit the frame 15 of the fixed frame part 16 suitable for the size of the large LCD panel. will be.

Here, the method of fixing the lamp according to the second embodiment of the present invention will be described with reference to FIG. 8. First, the small frame of the light emitting lamp structures 7 assembled as described above, the frame of the fixing frame unit 16, one by one ( 15 to the adjacent small light emitting lamp structures 7, for example, by means of an adhesive consisting of rubber, silicone rubber, or other equivalent properties, or by using a grip 17 as shown in FIG. 8. To fix it.

In this case, the adhesives do not flow between adjacent light emitting lamp structures and have an effect of absorbing shock.

Here, in the third embodiment of the present invention, instead of the grip 17 as described above, a glass bonding material (Glass Frit) is bonded between the small light emitting lamp structure and the small light emitting lamp structure.

Meanwhile, in the fourth embodiment of the present invention, the entire individual glass substrate is fixed between the curved individual glass substrate 3 and the individual glass substrate 3 on the second glass 4, as shown in FIG. It is to install a fixed zone 18 to accommodate the curved shape of the individual glass substrate (3) to support.

Therefore, in the case of using the fixing support of the fourth embodiment as described above, even if the lamp flows badly, the fixing support 18 absorbs all the shocks, thereby effectively preventing the flow or other damages caused by the fixing support 18.

In addition, the fifth embodiment of the present invention is a spring-like elastic body between the edge portion 19 of the small surface light source lamps 8 and the frame 15 of the fixed frame portion 16 as shown in FIG. (20) to connect and install. Therefore, the elastic body as in the fifth embodiment acts so that the lamp does not leave the predetermined position while alleviating the impact of the lamp.

Here, the sixth embodiment of the present invention is a rounded corner of the inner side of each individual lamp discharge tube 14 of the light emitting lamp structure 7 of the surface light source lamp 8 of the present invention as shown in FIG. The control wall portion 21 is formed in the form of a protrusion inclined to one side, for example.

Therefore, when the control wall portion 21 is formed in the form of a protrusion inclined to one side in the individual discharge tube 14 as in the sixth embodiment as described above, the flow of current in the individual lamp discharge tube 14 is controlled by the control wall portion 14. Due to the structure of the discharge tube 14 to the rounded outer edge portion 22 of the individual discharge tube 14, the occurrence of the dark portion in this edge portion 22 is minimized.

As described above, the present invention forms a small surface light source lamp by combining the second and second glasses with a plurality of bent portions in a predetermined pattern shape to form a small surface light source lamp, and the formed plurality of small surface light source lamps are fixed to the frame of the fixed frame unit one by one. For example, a surface light source lamp for constructing a large LCD image display device by tiling the adjacent light emitting lamp structures with each other by using an adhesive or other fixing method composed of rubber, silicone rubber, or other equivalent properties. Since the manufacture and installation of the device is made easier, it has the advantage of improving the manufacturing yield of the surface light source lamp accordingly.

In addition, according to the present invention, since the plurality of small surface light source lamps are fixed by a plurality of tiling schemes, the uniform luminance characteristics are applied to the LCD panel accordingly, and thus, the backlighting characteristics of the surface light source lamps are significantly improved. .

Claims (10)

delete delete delete delete In the surface light source lamp device for backlighting a large LCD, The surface light source lamp device is formed by forming a first glass on which a curved glass substrate having a predetermined channel pattern is formed, and a curved glass substrate 3 having a predetermined channel pattern by being symmetrically coupled to the first glass. A light emitting lamp structure composed of a second glass; Surface light source lamp device characterized in that the plurality of the light emitting lamp structure is arranged in a frame formed in accordance with the size of the LCD panel required to be installed, and the fixed light emitting lamp structure is fixed by the tiling method (tiling) . The method according to claim 5, wherein the small surface light source lamps are bonded to one another by using rubber, silicone rubber, glass adhesive, or other adhesives of adjacent surface light source lamps to the frame of the fixed frame unit. Surface light source lamp device characterized in that the fixing. 6. The surface light source lamp device according to claim 5, wherein the small surface light source lamps are fixed to each other by using grips on a frame of the fixing frame unit one by one. The fixed support for receiving the curved shape of the individual glass substrate is installed between the curved individual glass substrate and the individual glass substrate on the second glass of the surface light source lamp. Surface light source lamp device characterized in that the. 6. The surface light source lamp device according to claim 5, wherein an elastic body is installed between the edges of the small surface light source lamps and the frame of the fixed frame portion. 6. The surface light source lamp device according to claim 5, wherein a control wall portion is formed on an inner side of each individual lamp discharge tube of the light emitting lamp structure.

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