KR20060071494A - Lamp holding structure of direct light type back light - Google Patents

Abstract

A lamp support structure for a direct type backlight according to the present invention includes a plurality of lamps; An integrated common electrode fixing both ends of each lamp and providing a predetermined voltage to each lamp; And a first support part and a second support part for fixing / supporting the plurality of lamps and the common electrodes from above and below.

According to the present invention, the external vibration impact on each fluorescent lamp constituting the direct type backlight can be overcome, and the common electrode and the first electrode portion are contacted and fixed, so that the common electrode bending phenomenon is suppressed and the flow is The advantage is that it can be restrained and fully support each lamp.

Description

Lamp holding structure of direct light type back light}

1 is an exploded perspective view showing an embodiment of a conventional direct backlight.

Figure 2 is an exploded perspective view of the direct type backlight according to the embodiment of the present invention.

3 is an exploded perspective view of the lamp support structure according to the embodiment of the present invention shown in FIG.

4 is a perspective view showing the interior of the lamp support structure according to the embodiment of the present invention shown in FIG.

FIG. 5 is a cross-sectional view in all directions of the lamp support structure shown in FIG. 4. FIG.

Figure 6 is a cross-sectional view in all directions of the lamp support structure according to another embodiment of the present invention.

7A to 7C are views illustrating a configuration of a common electrode applied to another embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

110 lamp 120 common electrode

122: holding part 124: conductive part

126: guide plate 128: protrusion structure

130: first support 132: opening groove                 

134: Lip 140: Second Supporting Part

The present invention relates to a backlight provided in a liquid crystal display, and more particularly, to a lamp support structure of a direct type backlight provided in a liquid crystal display.

In general, a flat panel display is classified into a light emitting type and a light receiving type, and the light emitting type includes an electroluminescent (EL) device, a plasma display panel (PDP), and the like. Types include liquid crystal displays (LCDs).

Since the liquid crystal display itself is a light-receiving element that emits light and does not form an image, but receives light from the outside to form an image, a separate light source, for example, a backlight, must be provided. The backlight for liquid crystal display is classified into a direct light type for arranging a plurality of fluorescent lamps under the liquid crystal according to the installation form of the fluorescent lamp and an edge light type for installing the fluorescent lamp on the side of the light guide plate. do.

The fluorescent lamp may be a cold cathode fluorescent lamp (CCFL) having electrodes at both ends, and an external electrode fluorescent lamp (EEFL) having electrodes at both ends thereof.

On the other hand, in recent years, there is an increasing demand for a direct light emitting backlight using an external electrode, and research on this is being actively conducted.                         

1 is an exploded perspective view showing an embodiment of a conventional direct type backlight.

As shown in FIG. 1, the conventional direct type backlight is installed in an inner space formed by upper and lower frames 51 and 52 and the upper and lower frames 51 and 52 to generate light. A plurality of fluorescent lamps 10 arranged uniformly with each other, a reflecting plate 60 disposed below the fluorescent lamp 10 to reflect light, and a fluorescent lamp 10 disposed above the fluorescent lamp 10. Diffuser 70 for diffusing light from

Each of the fluorescent lamps 10 includes a tube 11 as an external electrode type, and a phosphor layer (not shown) is formed on an inner surface of the tube 11, and electrodes are formed at both ends of the tube 11. (12) are formed, respectively. In the conventional backlight configured as described above, the fluorescent lamp 10 is inserted into the support groove 21 formed at both ends of the lamp holder 20 is supported by a predetermined distance from the lower frame 52. The electrodes 12 are welded to each other by copper wires 14 and connected in parallel, and the copper wires are electrically connected to a lead wire 15 connected to an external power source.

However, such a conventional direct backlight has a disadvantage in that it is difficult to assemble since it is necessary to weld electrodes to each other by copper wires and connect them in parallel, even when a defect occurs in some fluorescent lamps of the assembled fluorescent lamps. .

In addition, the electrical connection between the copper wire and the lead wire is generally made by soldering, which leads to complicated assembly process due to the soldering operation and a large number of connection defects, and that the soldered electric connection portion frequently breaks due to the tension of the lead wire when the backlight is handled. There is a problem.                         

In addition, according to the conventional structure, the fluorescent lamp is not completely fixed by the inner space of the support groove into which each fluorescent lamp is inserted, and thus there is a disadvantage that the lamp may be shocked when external vibration occurs due to noise or the like. .

The present invention provides a direct backlight, comprising: a first support portion and a second support portion for fixing a plurality of lamps; The lamp support structure of the direct type backlight is inserted between the first and second support portions and is formed of an integrated common electrode coupled to the end of each lamp to overcome the shock generated when the respective lamps vibrate. The purpose is to provide.

In addition, in order to remove the gap between the common electrode anti-bending rib formed on the first support portion and the common electrode, the common electrode at a position corresponding to the lip is protruded, thereby more completely impacting the vibration. It is an object of the present invention to provide a lamp support structure of a direct backlight that can be overcome.

In order to achieve the above object, the lamp support structure of the direct backlight according to the present invention comprises: a plurality of lamps; An integrated common electrode fixing both ends of each lamp and providing a predetermined voltage to each lamp; And a first support part and a second support part for fixing / supporting the plurality of lamps and the common electrodes from above and below.

The common electrode may include: a plurality of holding parts coupled to end portions of the lamps to serve as external electrodes of the lamps; It characterized in that it comprises a conductive portion provided with a bar (bar) at both ends of the holding portion to be electrically connected to each holding portion.

In addition, the first support part has a plurality of ribs therein to prevent the common electrode from being bent by an external impact, and has a plurality of opening grooves so that each lamp can be drawn out. The plurality of ribs provided in the first support part may be located on a predetermined region of the conductive part of the common electrode.

In addition, a protruding structure is formed in a predetermined region of the conductive portion corresponding to the lip of the first support portion, and the protruding structure is in contact with the lip, and the protruding structure is formed of a leaf spring structure, an embossing structure, or a slit structure. do.

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

2 is an exploded perspective view of a direct type backlight according to an embodiment of the present invention.

Referring to FIG. 2, it has a case 150 including an upper frame 151 and a lower frame 152.

A plurality of lamps 110 are arranged in the case 150 at predetermined intervals, and fixed to both ends of each of the lamps 110, and a common type in which a predetermined voltage is provided to each lamp. A lamp support structure 150 including an electrode (not shown) and a first support part 130 and a second support part 140 for fixing / supporting the plurality of lamps and the common electrode from above and below is provided.                     

In addition, the reflector plate 160 reflecting light is provided below the plurality of fluorescent lamps 110, and the diffusion plate 170 is installed on the plurality of fluorescent lamps 110.

Here, the common electrode (not shown) is made of a metal material in the form of a plate, a plurality of holding portions (not shown) coupled with the end of each fluorescent lamp 110 is provided, the holding portion (not shown) H) serves as an electrode of each fluorescent lamp connected thereto.

The fluorescent lamp 110 has a sealed discharge space and includes a tube 112 made of a transparent dielectric. Although not shown, a phosphor layer is formed on an inner surface of the tube 112.

In addition, both ends of the tube 112 are coupled to holding portions 122 provided on the common electrode 120 to cause dielectric barrier discharge, and the holding portions 122 are external electrodes of the respective lamps 110. Becomes

In addition, the lamp 110 coupled to the common electrode 120 and the common electrode, respectively, is fixed by the combination of the first support 130 and the second support 140.

3 is an exploded perspective view of the lamp support structure according to the embodiment of the present invention shown in FIG.

Referring to FIG. 3, the lamp support structure 150 according to the embodiment of the present invention includes a first support part 130 and a second support part 140 for fixing a plurality of lamps; It is composed of an integrated common electrode 120 inserted between the first and second support parts and coupled to an end of each lamp 110.                     

Here, the common electrode 120 is coupled to the end of each lamp, a plurality of holding parts 122 to serve as an external electrode of the lamp, and the bars at both ends of the holding parts to be electrically connected to each holding part; (bar) is formed of a conductive portion 124.

One end of the conductive portion 124 is provided with a lead wire connected to an external power source or an inverter, through which the same voltage is applied to the plurality of fluorescent lamps, respectively.

In addition, one side of the holding portion in which the lamp is inserted may be further provided with a guide plate 126 for making the insertion position of all lamps constant.

The plurality of fluorescent lamps 110 respectively coupled to the common electrode 120 and the holding part 122 of the common electrode are fixed / supported by the first support part 130 and the second support part 140. .

Here, the first support 130 is provided on the common electrode 120, a plurality of ribs (not shown) to prevent the common electrode 120 from being bent by an external impact. Is provided, and an opening groove 132 is formed to allow each lamp 110 to be drawn out.

FIG. 4 is a perspective view illustrating the inside of the lamp support structure according to the embodiment of the present invention shown in FIG. 3, and FIG. 5 is an omnidirectional cross-sectional view of the lamp support structure shown in FIG. 4.

4 and 5, in the lamp support structure 150 according to the embodiment of the present invention, the lip 134 provided in the first support part 130 may include the conductive part 124 of the common electrode 120. It is a structure for fixing the, and by fastening the first support portion 130 and the second support portion 140 through a bolt or the like, the lamp support structure according to an embodiment of the present invention is completed.

However, in the exemplary embodiment of the present invention, as shown in FIG. 5, a fine gap is formed between the lip 134 provided in the first support part and the conductive part 124 of the common electrode.

The gap may flow due to an external vibration or the like, causing a decrease in the performance of the fluorescent lamp.

Another embodiment of the present invention is to overcome such a problem, in order to remove the gap between the lip and the conductive portion provided in the first support, it is configured to project the conductive portion at a position corresponding to the lip It is characterized by.

Figure 6 is a cross-sectional view in all directions of the lamp support structure according to another embodiment of the present invention.

However, the embodiment shown in FIG. 6 has a difference in that the shape of the conductive part of the common electrode is slightly deformed compared with the embodiment described with reference to FIGS. 3 to 5, and the first support part and the second support part are different from each other. Since the structure is the same, a detailed description thereof will be omitted.

As shown in FIG. 6, in the lamp support structure according to another embodiment of the present invention, a fine gap is formed between the lip 134 provided on the first support part and the conductive part 124 of the common electrode. In order to prevent it from being, an example of the structure 128 protruding from the conductive portion at a position corresponding to the lip 134 is characterized by forming a leaf spring structure.                     

This eliminates the existing gap, thereby preventing the common electrode from flowing due to an impact caused by external vibration, etc., thereby consequently overcoming the degradation of the fluorescent lamp.

7A to 7C are views illustrating a configuration of a common electrode applied to another embodiment of the present invention.

That is, as described with reference to FIG. 6, the configuration of the common electrode to prevent the common electrode from flowing due to an external vibration or the like is shown.

As described above, the common electrode 120 is coupled to the end of each lamp and the plurality of holding portions 122 to serve as the external electrode of the lamp, and the holding portion so that each holding portion is electrically connected The end is made of a conductive portion 124 in the form of a bar (bar).

In addition, one side of the holding portion in which the lamp is inserted may be further provided with a guide plate 126 for making the insertion position of all the lamps constant.

At this time, the portion of the conductive portion corresponds to the lip provided in the first support portion, an embodiment of the present invention by forming a protruding structure on the portion of the conductive portion such that the lip and the conductive portion, It is characterized by removing the gap between.

The protruding structure may be formed in various ways, for example, it may be made of a leaf spring structure 129 as shown in Figure 7a, embossing structure (129 ') as shown in Figure 7b It may be formed of a slit structure (129 "), as shown in Figure 7c.                     

That is, the conductive part of the common electrode and the lip provided in the first support part contact each other by the protruding structure as shown in FIGS. 7A to 7C, so that the common electrode flows due to an external vibration or the like. Can be prevented, and as a result, the performance degradation of the fluorescent lamp can be overcome.

According to the present invention, the external vibration impact on each fluorescent lamp constituting the direct type backlight can be overcome, and the common electrode and the first electrode portion are contacted and fixed, so that the common electrode bending phenomenon is suppressed and the flow is The advantage is that it can be restrained and fully support each lamp.

Claims (9)

A plurality of lamps; An integrated common electrode fixing both ends of each lamp and providing a predetermined voltage to each lamp; The lamp supporting structure of the direct type backlight, characterized in that the first support portion and the second support portion for fixing / supporting the plurality of lamps and the common electrode on the upper and lower sides are included. The method of claim 1, The common electrode, A plurality of holding parts coupled to end portions of the lamps to serve as external electrodes of the lamps; Lamp supporting structure of a direct type backlight, characterized in that the conductive portion provided with a bar (bar) provided on both ends of the holding portion to be electrically connected to each holding portion. The method of claim 2, One end of the conductive portion is a lamp support structure for a direct type backlight, characterized in that the lead wire is further provided with an external power source or inverter. The method of claim 1, The first support portion has a plurality of ribs therein to prevent the common electrode from being bent by an external impact, and has a plurality of opening grooves so that the respective lamps can be drawn out. Lamp support structure of direct type backlight. The method of claim 4, wherein The plurality of lip provided in the first support portion is a lamp supporting structure of the direct type backlight, characterized in that located on a predetermined region of the conductive portion of the common electrode. The method of claim 5, And a protrusion structure is formed in a predetermined region of the conductive portion corresponding to the lip of the first support portion so that the protrusion structure is in contact with the lip. The method of claim 6, The projecting structure is a lamp supporting structure of the direct type backlight, characterized in that made of a leaf spring structure. The method of claim 6, The projecting structure is a lamp supporting structure of the direct type backlight, characterized in that the embossed structure. The method of claim 6, The projecting structure is a lamp supporting structure of the direct type backlight, characterized in that made of a slit structure.

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