KR200396748Y1 - Cap for external electrode fluorescent lamp - Google Patents

Abstract

The present invention relates to a cap for an external electrode fluorescent lamp constituting the backlight assembly, the rectangular metal plate made of silver plating on the surface is cut into a length larger than the tube diameter of the external electrode fluorescent lamp 100, The thin metal plate was bent into a cylindrical shape having an inner diameter smaller than the diameter of the tube so that the tip of the inner circumferential surface of the cut surface overlaps with the outer circumferential surface.

The present invention as described above is fixed by the contraction force due to elasticity in the bonding process with the external electrode fluorescent lamp 100 can improve the workability, there is an effect such as to increase the reliability of the operation.

Description

CAP FOR EXTERNAL ELECTRODE FLUORESCENT LAMP}

The present invention relates to a backlight assembly of an LCD panel, and in detail, a rectangular metal sheet made of silver plating on a surface thereof is curved into a cylindrical shape having an inner diameter smaller than the diameter of a tube to form a cap for an external electrode fluorescent lamp. The external electrode type fluorescent lamp cap can be elastically coupled from both ends of the tube to improve the performance of the backlight assembly and increase the reliability of the operation. In particular, the external electrode is configured to be suitable for the fluorescent lamp of the structure in which the electrode is formed externally. A cap for an electrode fluorescent lamp.

In general, CRT (Cathode Ray Tube), which is used as an image output means of various devices including TVs and computers, has a large size and a high weight compared to the displayable area of the screen, and has a low image quality and high power consumption. In recent years, flat panel displays such as EL (Electro Luminescent) devices, Plasma Display Panels (PDPs), and Liquid Crystal Display (LCD) panels are widely used as video output means for devices such as TVs and computers. .

In such a flat panel display device, an EL element or a PDP implements an image by emitting light, whereas an LCD panel is a light receiving type flat panel display device that receives light from the outside and forms an image. in need.

As described above, the backlight assembly of the LCD panel is classified into an edge type and a direct type according to the arrangement type. In a typical TV or computer monitor, the backlight assembly is superimposed on a plane by enabling a large screen with high efficiency. Direct type is widely used.

On the other hand, the direct type backlight assembly is as shown in Figure 1 by forming a cold cathode fluorescent lamp (Cold Cathode Fluorescent Lamp, 200) or the electrode 151 is installed in the inner tube body gas is sealed, as shown in FIG. It requires an external electrode fluorescent lamp (External Electrode Fluorescent Lamp) to form a plasma without being exposed to the gas discharge space, the cold cathode fluorescent lamp 200 is centered on the electrode 151 due to deterioration in the operation process As the blackening proceeds inside the tube, and an independent inverter is required for each fluorescent lamp, an external electrode type fluorescent lamp that can drive a plurality of fluorescent lamps for one inverter and can be used for a long time is backlit. It is attracting attention as an operation lamp of an assembly.

FIG. 2 is a view showing an example of the external electrode fluorescent lamp described above. The external electrode fluorescent lamp 150 has a structure in which electrodes 110 are formed on both ends of a tube body in which an inert gas is sealed. .

On the other hand, the electrode 110 of the external electrode type fluorescent lamp 150 as described above is configured by forming an electrode on the surface of the tube by silver plating, or by forcibly pressing a cylindrical cap made of copper, the electrode by silver plating In the case of forming the metal plate, the plating layer is easily peeled off from the surface of the tube in the process of coupling the external electrode type fluorescent lamp 150 with the lamp holder, thereby reducing the life and stability of the operation.

In addition, when the electrode is configured by forcibly pressing a cylindrical cap made of copper at the tip of the outer circumferential surface of the tubular body, a lot of manpower and time are required for work, and as the scratch is formed on the surface of the tubular body due to friction with the cap Many problems, such as cracking or breakage, occur.

The present invention is to solve the conventional problems as described above, the technical problem of the present invention, the rectangular metal plate made of silver plating on the surface in detail to be curved into a cylindrical shape of the inner diameter smaller than the diameter of the tube, According to one process, an external electrode fluorescent lamp cap formed in a cylindrical shape is elastically coupled to both ends of the tube to improve the performance of the backlight assembly, and an external electrode fluorescent lamp cap can be improved. It is about providing.

The technical problem of the present invention as described above,

The rectangular metal sheet made of silver plating on the surface is cut to a length larger than the diameter of the tube,

It is achieved by providing a cap for an external electrode type fluorescent lamp, characterized in that the metal sheet is bent into a cylindrical shape having an inner diameter smaller than the diameter of the tube so that the tip of the inner circumferential surface of the cut surface overlaps with the outer circumferential surface.

Hereinafter, the cap for the external electrode fluorescent lamp according to the present invention will be described in detail with the accompanying drawings.

3 is a perspective view showing an embodiment of the present invention, Figure 4 is a cross-sectional detail view of the present invention shown in Figure 3, the external electrode fluorescent lamp cap 10 according to the present invention constitute a backlight assembly Are coupled to both ends of the external electrode fluorescent lamp to form a plasma in a state of being not electrically connected to the gas discharge space inside the tube during the operation of the external electrode lamp.

The present invention is configured such that the thin plate made of metal is bent into a cylindrical shape having an inner diameter smaller than the diameter of the tube to be combined with the tube by the contracting force of the diameter due to elasticity.

At this time, the metal thin plate constituting the present invention has a high elasticity, such as nickel alloy steel, while using a material that can be smoothly adsorbed lead-free in the bridging process of the present invention, the rectangular shape to enable smooth bending in the cylindrical shape Consists of.

Subsequently, silver plating is performed on the surface of the metal thin plate by electroplating to increase electrical conductivity, prevent oxidation due to contact with air, and reduce frictional force on the contact surface with an external electrode lamp to provide Ensure that damage is avoided.

Meanwhile, an external electrode fluorescent lamp having a 4 mm diameter is widely used in a backlight assembly of an LCD panel constituting a TV or computer monitor. When the present invention is applied to an external electrode fluorescent lamp having a 4 mm diameter as described above, The circumferential length of the tubular body is longer than 12.6 mm so that the overlapping portion of about 0.8 to 2 mm is formed on one side while the rectangular metal sheet is curved in a cylindrical shape.

In addition, the cap 10 for the external electrode fluorescent lamp according to the present invention, by configuring the inner diameter in the ratio of 70 to 99% of the external electrode fluorescent lamp, the elasticity in the process of combining the present invention with the external electrode fluorescent lamp. By the combination with the external electrode-type fluorescent lamp is made, the flow of the subject innovation from the external electrode-type fluorescent lamp in the brazing process is prevented.

Accordingly, in the present embodiment, when the present invention is applied to an external electrode fluorescent lamp having a 4 mm diameter as an example, the present invention is fixed to the external electrode fluorescent lamp by contracting force due to elasticity by having an inner diameter of 2.8 to 3.96 mm. The inner diameter should be properly adjusted according to the tube diameter or characteristics of the external electrode fluorescent lamp to be applied.

In addition, the cap 10 for an external electrode fluorescent lamp according to the present invention has a width of about 20 mm when applied to an external electrode fluorescent lamp having a 4 mm diameter, so that the coupling with the external electrode fluorescent lamp is completed in a smooth state. While the power supply is made, stable operation is possible.

The operation and effects of the present invention made of the above-described configuration will be described below with reference to FIG. 5.

Cap 10 for the external electrode fluorescent lamp according to the present invention is coupled to both ends of the external electrode fluorescent lamp 100 constituting the backlight assembly, this invention is coupled to the external electrode fluorescent lamp 100 In order to do this, as shown in Fig. 5a, the external electrode fluorescent lamp 100 and the center axis of the present invention coincide with each other, and then the external electrode fluorescent lamp 100 is inserted into the inner circumferential surface of the present invention.

As described above, when the external electrode fluorescent lamp 100 is inserted into the inner circumferential surface of the present invention, the inner diameter of the present invention expands according to the insertion degree of the external electrode fluorescent lamp 10 having an outer diameter larger than the inner diameter of the present invention. Accordingly, the contraction force due to elasticity acts as a bonding surface with the external electrode fluorescent lamp 100, thereby preventing the flow or departure of the subject innovation from the external electrode fluorescent lamp 100 in a post-treatment process such as brazing.

Subsequently, after completion of the above process, the microgap formed between the external electrode fluorescent lamp 100 and the joint surface of the present invention is removed, while the present invention is melted to permanently fix the present invention with the external electrode fluorescent lamp 100. Brazing is performed to immerse the external electrode fluorescent lamp 100 including the present invention with the lead-free state of the state, prior to the state that the external electrode fluorescent lamp 100 is coupled to the tip vertically As it descends from the flat surface to match the vertex of the external electrode fluorescent lamp 100 and the periphery of the present invention, the length of the external electrode fluorescent lamp 100 is thereby accurately regulated.

5B is a cross-sectional view illustrating a state in which brazing is completed by lead-free as described above, and when the brazing of the external electrode fluorescent lamp 100 including the present invention is completed, the bonding surface with the external electrode fluorescent lamp 100 is completed. The lead-free lead penetrates into the micro gap formed therebetween, so that the stable operation of the external electrode fluorescent lamp 100 is possible, and the space formed between the external electrode fluorescent lamp 100 and the inner circumferential surface of the present invention ('S in the drawing) The lead-free lead penetrates into the 'part' so that the cap 10 for the external electrode fluorescent lamp according to the present invention is fixed from the external electrode fluorescent lamp 100.

According to the above-described process, the present invention, in which the coupling with the external electrode type fluorescent lamp 100 is completed, is transferred from the outside in the course of operation of the external electrode type fluorescent lamp 100 constituting the backlight assembly according to the combination with the lamp holder (not shown). Power is supplied to both ends of the external electrode type fluorescent lamp 100 so as to form a plasma without being electrically connected to the gas discharge space inside the tube, thereby realizing an image of the LCD panel.

As described above, the cap 10 for the external electrode fluorescent lamp according to the present invention eliminates a portion that is deteriorated even during continuous operation for a long time, while the microgap between the junction surface with the external electrode fluorescent lamp 100 is eliminated. The formation of is avoided, thus preventing the deterioration of life and stability to operation.

In addition, the external electrode fluorescent lamp cap 10 according to the present invention has a number of effects, such as workability can be improved by the coupling with the external electrode fluorescent lamp 100 by elasticity.

Although the present invention has been illustrated and described with respect to specific preferred embodiments, the present invention is not limited to the above-described embodiments, and the present invention without departing from the gist of the invention as claimed in the claims is common in the art. Anyone with knowledge will be able to make various variations.

1 is a perspective view showing a cold cathode fluorescent lamp constituting the backlight assembly,

2 is a perspective view showing an external electrode type fluorescent lamp constituting the backlight assembly;

3 is a perspective view showing an embodiment of the present invention,

4 is a cross-sectional detail view of the present invention shown in FIG.

Figure 5a is a perspective view showing a coupling process of the present invention,

Figure 5b is a cross-sectional view showing a combined state of the present invention.

<Explanation of symbols for main parts of drawing>

100: external electrode fluorescent lamp

Claims (4)

The rectangular metal sheet made of silver plating on the surface is cut into a length larger than the tube diameter of the external electrode fluorescent lamp 100, Cap for the external electrode type fluorescent lamp, characterized in that the metal sheet is bent into a cylindrical shape having an inner diameter smaller than the diameter of the tubular body so that the tip of the inner peripheral surface of the cut surface overlaps with the outer peripheral surface. The cap for external electrode type fluorescent lamp of claim 1, wherein the metal thin plate is made of nickel alloy steel. The cap for the external electrode type fluorescent lamp of claim 1, wherein the inner diameter of the metal sheet curved in a cylindrical shape has a ratio of 70 to 99% with respect to the tube diameter of the external electrode type fluorescent lamp (100). The external electrode type fluorescent lamp cap according to claim 1 or 3, wherein the cylindrical thin metal plate has an overlapping portion of 0.8 to 2 mm.