KR20030054763A - Structure for connecting terminal of backlight lamp in liquid cristal display(LCD) - Google Patents

Abstract

PURPOSE: A structure for connecting terminals of a lamp for a back light in a liquid crystal display device is provided to minimize leakage current and prevent wave noise inferiority by electrically connecting an inverter with the lamp without a wire, and improve assembly. CONSTITUTION: A square mold frame(30) is installed at a rear surface of a liquid crystal panel for putting and supporting the liquid crystal panel. A lamp(27) is installed inside one edge of the mold frame and is electrically connected with an external inverter for emitting light. Both end parts of the lamp are combined with terminal pins(50) having end parts exposed to the outside through grooves(35) formed at mold frame parts adjacent to the end parts of the lamp, so that the lamp is connected with terminals of the inverter.

Description

Structure for connecting terminal of backlight lamp in liquid cristal display (LCD)}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a backlight assembly of a liquid crystal display (LCD), and more particularly, to a backlight lamp of a liquid crystal display device capable of stably and easily connecting a terminal of a lamp used as a backlight of an LCD module to an inverter. It relates to a terminal connection structure.

In general, a liquid crystal display (LCD), which is one of flat panel display devices, has a higher visibility than a cathode ray tube (CRT) and has a smaller average heat dissipation than a CRT having the same screen size. Along with Plasma Display Panel (FED) and Field Emission Display (FED), it has recently been in the spotlight as the next generation display device for monitors of mobile phones, computers, and televisions.

These LCDs operate by injecting a liquid crystal material, which is an intermediate between solid and liquid, between two specially surface-treated thin glass plates to change the arrangement of liquid crystal molecules with the voltage difference between the electrodes on the upper and lower glass plates to generate contrast and display an image. In principle, the LCD does not emit light by the panel on which characters are displayed, and thus requires a light source in order to visually recognize the display contents.

1 of the accompanying drawings is a view showing the configuration of a liquid crystal display (LCD module) for implementing a screen display device of a portable computer system, such as a notebook computer, as shown in FIG. A backlight assembly 20 is provided as a light source on the rear surface of the liquid crystal panel 10, which is embedded in one corner of the mold frame 30 in the shape of a plastic frame and emits light. The lamp 27, the plurality of diffusion sheets 21 and 23 and the prism sheets 22 and 24 disposed on the rear surface of the liquid crystal panel 10, and the light guide plate for guiding the light emitted from the lamp 27 to the front surface of the plate. (25) and a reflective sheet 26 for reflecting light from the rear surface of the light guide plate 25 to the front surface.

On the other hand, both ends of the lamp 27 is connected to the low-pressure side wire 28a and the high-pressure side wire 28b for electrical connection with an external power source, as shown in Figure 2, these lamp wires 28 They are drawn out to the outside of the mold frame 30 through the outlet 31 formed at one end of the mold frame 30 so that the connector 29 of the end is connected to the terminal of the inverter (not shown) installed outside the LCD module. It is.

However, in the backlight assembly of the conventional liquid crystal display device, since the wires 28 for connecting the both ends of the lamp 27 to the inverter, in particular the low pressure side wire 28a, are formed long, the wire ( There is a problem that a lot of leakage current through the 28a) (leakage current) and wave noise failure occurs.

In addition, since the lamp wires 28 are configured to protrude out of the LCD module through the outlet 31 of the mold frame 30 to be connected to the inverter, the outlet 31 into which the lamp wires 28 are inserted. It is often protruded out of the outlet through the upper inlet of the), which is likely to damage the wire by the sharp edge of the metal chassis when joining the metal chassis 30, and the connection with the inverter In order to properly handle the wire portion protruding outside the LCD module in the case of the system there was a problem that assembly is difficult.

Accordingly, the present invention has been made to solve the above problems, by improving the terminal connection structure of the lamp end of the liquid crystal display device to reduce the leakage current (leakage current), to prevent damage to the wire and to improve the assembly An object of the present invention is to provide a terminal connection structure of a backlight lamp of a liquid crystal display device.

1 is an exploded perspective view showing the configuration of an LCD module of a general liquid crystal display device

Figure 2 is a perspective view of the main portion showing the lamp wire connection structure of a conventional LCD module

Figure 3 is a cross-sectional view of the mold frame of the LCD module showing a first embodiment of the terminal connection structure of the backlight lamp according to the invention

Figure 4 is a perspective view of a mold frame showing a second embodiment of the terminal connection structure of the backlight lamp according to the present invention

FIG. 5 is an enlarged plan view showing the main part of the LCD module in order to show the terminal connection structure of the lamp of FIG.

Figure 6 is a perspective view of a mold frame showing a third embodiment of the terminal connection structure of the backlight lamp according to the present invention

Explanation of Reference Symbols in Major Parts of Drawings

10: liquid crystal panel 20: backlight assembly

27: lamp 28a, 28b: wire

30: mold frame 35: drawing groove

40: metal chassis 50: terminal pin

150, 250: Ground terminal

According to an aspect of the present invention for achieving the above object, a liquid crystal panel, a mold frame in the form of a square frame is installed on the rear of the liquid crystal panel and the liquid crystal panel is placed and supported, and is built in one corner of the mold frame An LCD module having a lamp electrically connected to an inverter to emit light, wherein both ends of the lamp are electrically connected to terminal terminals of the conductive metal, the ends of which are exposed to the outside through an adjacent mold frame portion. Provided is a terminal connection structure of a backlight lamp of a liquid crystal display (LCD), each of which is combined.

According to another aspect of the present invention, a liquid crystal panel, a square frame-shaped mold frame installed on the rear of the liquid crystal panel and the liquid crystal panel is placed and supported, and a pair of wires installed at one edge of the mold frame and coupled to both ends thereof. An LCD module having a lamp that emits light by electrically connecting to an external inverter through a pair, wherein the pair of conductive metals is fixedly connected to the end of each wire at a corner of a mold frame in which the lamp is installed. The ground terminal is fixedly installed, the ground terminal is provided with a terminal connection structure of the backlight lamp of the liquid crystal display (LCD), characterized in that the contact with the terminal of the inverter.

Hereinafter, exemplary embodiments of a terminal connection structure of a backlight lamp of a liquid crystal display according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description, the same or similar components as those of the conventional LCD module will be denoted by the same reference numerals, and detailed description thereof will be omitted.

3 is a view illustrating a first embodiment of a connection structure of a backlight lamp according to the present invention, in which a liquid crystal panel 10 (see FIG. 1) and a backlight assembly 20 (see FIG. 1) are seated and supported. A lamp 27 is provided at one corner of the frame 30, and both ends of the lamp 27 are coupled to terminal pins 50 made of copper, which are coupled to terminals of an inverter (not shown). The terminal pins 50 are exposed to the outside of the mold frame 30 through the drawing grooves 35 formed at both ends of the mold frame 30 adjacent to each end of the lamp 27.

In addition, the terminal pins 50 may be configured in the form of pogo pins so as to be elastically connected to the terminals of the inverter. That is, the terminal pin 50 has a hollow body portion 51 fixedly coupled to the end of the lamp 27 by welding or the like, and a connecting portion movably coupled in the body portion 51 and connected to the terminal of the inverter. 52 and the compression spring 53 for elastically supporting the connection portion 52 in the body portion 51.

The reason why the terminal pin 50 is configured in the form of a pogo pin as described above is that when the terminal pin 50 is in contact with the terminal of the inverter, the load caused by the contact is coupled to the lamp 27 and the terminal pin 50. And to prevent the lamp 27 and the coupling part from being damaged by being transmitted to the lamp 27.

On the other hand, since the terminal pin 50 is located at both ends of the mold frame 30 as described above, it is preferable that the terminal position of the inverter (not shown) connected to the terminal pin 50 also changes to correspond thereto. Do.

According to the first embodiment of the terminal connection structure of the lamp of the present invention as described above, the terminal pin 50 is drawn out through the shortest distance of the mold frame 30 without using a wire, and thus the terminal of the inverter at this position. Since it is combined with, the advantage of minimizing the leakage current is obtained, and problems such as wire breakage occurring in the LCD module assembly process can be prevented at the source.

4 and 5 show a second embodiment of the terminal connection structure of the lamp according to the present invention. In this second embodiment, the lamp 27 is inserted into one corner of the mold frame 30. Wires 28a and 28b are coupled to both ends, respectively, and a pair of conductive metal materials having end portions of the wires 28a and 28b fixedly coupled to one end of the edge of the mold frame 30 where the lamp 27 is installed. The ground terminals 150 are installed to be fixed adjacent to each other, so that the ground terminal 150 is grounded with a terminal of an inverter (not shown) when the LCD module is assembled to a case of the system.

Each ground terminal 150 is made of a metal piece made of a good conductive material such as copper, and is integrally coupled to the mold frame 30.

The terminal (not shown) of the inverter connected to the ground terminal 150 may be configured to be elastically grounded with the ground terminal.

Meanwhile, in the second embodiment, the ground terminal 150 is positioned adjacent to each other at one end of the mold frame 30. Alternatively, as shown in the third embodiment of FIG. 6, the ground terminal 250 is shown in FIG. ) May be installed at both ends of the mold frame 30 at which the end of the lamp 27 is located, and may be configured to be coupled to both ends of the lamp 27 at the shortest distance by wires 28a and 28b or conductive connecting pins.

Of course, even in this case, the terminal position of the inverter may also be modified and positioned to correspond to the position of the ground terminal 250.

According to the second and third embodiments of the terminal connection structure of the lamp as described above, the wire is not exposed to the outside of the mold frame, and the inverter is connected to the inverter via the ground terminals 150 and 250 integrally coupled to the mold frame. The connection reduces the leakage current and makes it easier to assemble the LCD module into the system's case.

As described above, according to one embodiment of the present invention, the inverter and the lamp can be electrically connected to each other using terminal pins without using wires, thereby minimizing leakage current and preventing wave noise defects. In addition, there is no problem such as wire disconnection during assembly, thereby improving assembly performance.

In addition, according to another aspect of the present invention, since the lamp and the inverter are electrically connected through the ground terminal coupled to the mold frame without the wire is exposed to the outside of the LCd module, the existing lamp terminal connection structure Compared to this, leakage current can be reduced and assembly can be improved.

Claims (4)

LCD module including a liquid crystal panel, a mold frame having a rectangular frame shape installed on the rear side of the liquid crystal panel to support the liquid crystal panel, and a lamp which is installed at one corner of the mold frame and electrically connected to an external inverter to emit light. To Both ends of the lamp are coupled to the terminal pin of the conductive metal material is connected to the terminal of the inverter is exposed to the outside through the mold frame portion adjacent to each other of the backlight lamp of the LCD Terminal connection structure. 2. The terminal connection structure of claim 1, wherein the terminal pins are made of pogopins having elastic bodies inserted therein so as to elastically connect with terminals of the inverter. . It is electrically connected to an external inverter through a liquid crystal panel, a mold frame having a rectangular frame shape installed at the rear of the liquid crystal panel and supported by the liquid crystal panel, and a pair of wires which are insulated at one corner of the mold frame and coupled to both ends. In the LCD module having a lamp for emitting light, A pair of grounding terminals made of a conductive metal, in which the end portions of the wires are fixedly connected to the corners of the mold frame in which the lamps are installed, is fixed so that the grounding terminals come into contact with the terminals of the inverter. Terminal connection structure of the backlight lamp of the liquid crystal display (LCD). 4. The terminal connection structure of a backlight lamp of a liquid crystal display (LCD) according to claim 3, wherein each of the ground terminals is provided at both ends of a corner portion of a mold frame so as to be adjacent to an end of the lamp.