KR100576538B1 - Backlight Assembly of Liquid Crystal Display - Google Patents

Abstract

When the engaging protrusion is formed on the upper surface of one end of the mold frame in contact with the lamp assembly to be combined with the upper surface of the top chassis or a reinforcing member is formed in a predetermined area of the lamp cover, the lamp cover does not bend toward the light guide plate, so that the lamp cover and the light guide plate do not bend. Since the distance is the same in any region, the light uniformity can be improved.

In addition, when a strong pressure is applied from the outside of the lamp cover, the light guide plate does not flow into the lamp due to the reinforcing member protruding inside the lamp cover, thereby preventing the distance between the lamp and the light guide plate from getting closer to the initially set distance and preventing the optical sheet. Emerging can be prevented.

Description

Backlight Assembly of Liquid Crystal Display

The present invention relates to a backlight assembly of a liquid crystal display, and more particularly, to form a reinforcing member on the lamp cover or to prevent the lamp cover or the mold frame from being bent due to an external impact, or to the side of the mold frame in contact with the lamp cover. The present invention relates to a backlight assembly of a liquid crystal display device in which light is fixed on the top of the top chassis to improve light uniformity of the liquid crystal display device.

Cathode ray tube (CRT), which is one of the display devices that are generally used, is mainly used for monitors such as TVs, measuring devices, information terminal devices, etc., but due to the weight and size of the CRT itself, Can't actively respond to demand

In order to replace the CRT, it has the advantages of small size and light weight, and a liquid crystal display (Liquid Crystal Display) using the electro-optical properties of the liquid crystal injected into the LCD panel has been actively developed, and recently, as a flat panel display device, It was developed enough to play a role.

Unlike the CRT, the liquid crystal display device, unlike the CRT, is not a light emitting device that emits light, but a light receiving device that controls the amount of light from the outside and displays the light on the LCD panel. A separate light source for illuminating, i.e., a backlight device, is necessary. Therefore, the display quality of the liquid crystal display device largely depends on the performance of the backlight device as well as the LCD panel itself.

The backlight assembly may include a mold frame having a storage space formed on an upper surface thereof, a lamp assembly installed on one side of the storage space to emit light, a light guide plate on one side of the lamp assembly to guide light emitted from the lamp assembly, It is installed on the lower part of the light guide plate to reflect the light, the optical sheets for increasing the brightness of the light placed on the upper surface of the light guide plate, and the upper surface of the LCD panel installed on the top of the sheet is covered with the mold frame Consists of a top chassis.

The lamp assembly includes a lamp for emitting light, a lamp holder inserted at both ends of the lamp to protect the lamp, and a lamp cover surrounding the outer circumferential surface of the lamp to reflect light emitted from the lamp to the light guide plate.

While the light emitted from the lamp assembly configured as described above is incident to the LCD panel through the light guide plate, the reflecting plate, and the sheets, a large amount of light is lost and the amount of light actually used to drive the LCD panel is small. The efficiency is lowered. One way to overcome this is to use a lamp cover made of metal (brass), which has good brightness, uniformity, lamp assembly, and low current loss. Install.

However, as the liquid crystal display device becomes slimmer, the thickness of the mold frame and the lamp cover becomes thin, and as the liquid crystal display device becomes larger, the size of the mold frame becomes larger. As described above, the lamp cover is mostly installed in the long side direction of the mold frame. Therefore, the length of the lamp cover is increased, and as the external impact and time elapse, the mold frame and the lamp cover are bent toward the light guide plate, thereby deteriorating light uniformity.

Here, when the mold frame is bent toward the light guide plate, pressure is applied to the lamp cover to promote deformation of the lamp cover, and thus the lamp cover is bent toward the light guide plate much.

As such, when the lamp cover is bent due to the bending of the mold frame or external impact, predetermined areas of both ends of the light guide plate located at the edge of the lamp cover are far from the lamp, and the predetermined area of the central part of the light guide plate located at the center of the lamp cover The distance between and the near becomes lower, the light uniformity of the liquid crystal display device is lowered. This is because the brightness of the liquid crystal display is increased when the lamp and the light guide plate are closer to each other than the initially set distance, but the light emitted from the lamp is not dispersed enough, so the light leakage phenomenon occurs in which the central part of the light guide plate adjacent to the lamp is brighter than the edge part. to be.

On the other hand, if the lamp cover is bent more than the manufacturing tolerance set between the mold frame and the lamp, the lamp cover pushes the light guide plate in the opposite direction of the lamp cover, so that the light guide plate is pushed toward the lamp and the distance between the lamp and the light guide plate was initially set. The closer to the distance, the lower the light uniformity.

In addition, the optical sheets placed at the same height as the lamp cover are generated by the force applied in the opposite direction of the lamp cover, thereby decreasing the uniformity of light of the liquid crystal display.

Accordingly, an object of the present invention has been made in view of the above problems, to prevent the one side of the mold frame in contact with the lamp cover and the lamp cover to bend toward the light guide plate to improve the light uniformity of the liquid crystal display device. have.

Other objects of the present invention will become more apparent from the following detailed description and the accompanying drawings.

According to one aspect of the invention, the lamp assembly is installed on one side of the storage space of the mold frame, the light guide plate is installed in the storage space so that one side is fitted to the lamp assembly, the edge of the mold frame corresponding to the direction in which the lamp assembly is installed A coupling protrusion is formed at a predetermined height on the upper part of the part, and a coupling hole into which the coupling protrusion is fitted is formed on the upper surface of the top chassis corresponding to the coupling protrusion.

Preferably, the coupling protrusion may be formed at the same height as the top surface of the top chassis or slightly lower so as not to protrude to the top surface of the top chassis.

According to another aspect of the invention, the lamp assembly is installed on one side of the storage space of the mold frame, the light guide plate is installed in the storage space so that one side is fitted to the lamp assembly, the predetermined height toward the light guide plate in the predetermined area of the lower surface of the lamp cover. The protruding reinforcing member is formed in the longitudinal direction of the lamp cover.

Preferably, the reinforcing member is formed between the lamp holder and the light guide plate.

Hereinafter, the backlight assembly structure of the liquid crystal display according to the present invention will be described with reference to FIGS. 1 to 4.

As shown in FIGS. 1 and 2, the LCD 100 includes a mold frame 110 having an accommodating space formed along an edge thereof, and is installed at one side of a long side of the accommodating space as a light source of the LCD. The lamp assembly 200 to be used, the light guide plate 140 inserted into one side of the lamp assembly 200 in the longitudinal direction to guide the light emitted from the lamp assembly 200, and the light guide plate 140 installed below the light guide plate 140. 140 is installed on the reflective plate 130 reflecting the light leaked from the light guide plate 140, the upper surface of the light guide plate 140 and the upper surface of the lamp assembly 200 to diffuse the light guided from the light guide plate 140 The optical sheets 150 for condensing, the LCD panel 160 installed on the optical sheets 150 to display an image, and the LCD panels 160 are covered and coupled to the mold frame 110. It is composed of a top chassis 170.

According to the first embodiment, the mold frame 110 has a rectangular shape as shown in FIG. 1, and corresponds to the direction in which the lamp assembly 200 is installed among the edge portions of the mold frame 110 formed outside the storage space. A coupling protrusion 112 coupled to the upper surface of the top chassis 170 is protruded to a predetermined height on the upper surface of the long side direction of the mold frame 110. Preferably, the coupling protrusion 112 may be formed in a plurality of spaced apart from each other in the long side direction of the mold frame 110, it may be formed to extend from one end of the long side direction of the mold frame 110 to the other end.

Preferably, the height of the coupling protrusion 112 is formed at the same height as the top surface of the top chassis 170 or slightly lower than the top surface of the top chassis 170 in order to reduce the thickness of the liquid crystal display device 100. ) Does not protrude to the upper surface of the top chassis 170.

In addition, hooks 114 fixing the top chassis 170 to the mold frame 110 protrude to a predetermined height on both side surfaces of the mold frame 110 in the long side direction, and the base surface of the storage space corresponding to the lamp assembly 200. The adhesive attaching groove 116 is formed along the longitudinal direction of the lamp assembly 200, and the lower surface of the lamp assembly 200 contacting the mold frame 110 is formed in the adhesive attaching groove 116. The adhesive 120 is attached to prevent the lamp assembly 200 from being deformed after the time elapses.

On the other hand, the top chassis 170 is a metal material, the coupling hole 172 is formed in the upper surface edge of the top chassis 170 corresponding to the coupling protrusion 112, the coupling protrusions 112 are fitted, the coupling hole An opening 176 for exposing the screen display area of the LCD panel 160 to the outside of the top chassis 170 has an upper surface of the top chassis 170 at an inner side of the top chassis 170 spaced a predetermined distance from 172. It is formed along the edge. In addition, a hook insertion hole 174 into which the hook 114 is inserted is formed at both side surfaces of the top chassis 170 corresponding to the hook 114 in the long side direction.

As such, when the lamp assembly 200 is coupled to the top chassis 170 by forming the coupling protrusion 112 on the upper side in the long direction of the adjacent mold frame 110, the top chassis 170 of the mold frame 110 Maintaining the straightness of the mold frame 110 by supporting one side of the long side.

This is because the top chassis 170 is formed of a metal material, and thus has high strength and good straightness, so that the mold frame 110 is not deformed even after elapse of time and is not easily bent by an impact applied from the outside of the liquid crystal display device 100. It can maintain the straightness of.

Therefore, when one side of the mold frame 110 corresponding to the lamp assembly 200 is coupled to the upper surface of the top chassis 170, the top chassis 170 maintains the straightness of the mold frame 110 to maintain the mold frame 110. ) Is prevented from deforming to one side of the mold frame 110 toward the lamp assembly 200 due to the passage of time or impact applied from the outside, so that the lamp cover 230 has a large amount toward the light guide plate 140. Will not bend

As described above, one side of the mold frame 110 corresponding to the lamp assembly 200 is supported by the top chassis 170 so as not to be bent toward the lamp assembly 200, and thus, the lamp assembly is driven by the mold frame 110. It is possible to prevent the 200 from bending. That is, since the lamp assembly 200 is not bent toward the light guide plate 140, the distance between the lamp assembly 200 and the light guide plate 140 may be the same in any region.

Meanwhile, the second embodiment for preventing the lamp assembly from bending is related to the lamp assembly, as shown in FIGS. 2 to 4, except for removing the coupling protrusion from the mold frame and excluding the coupling hole from the top chassis. Since it has the same structure as the first embodiment, only the lamp assembly will be described, and the same members will be given the same numbers.

The lamp assembly 200 includes a lamp 210 that emits light as shown in FIGS. 3 and 4, and a lamp holder inserted into both ends of the lamp 210 to support the lamp 210 and protect it from impact ( 220, a lamp cover 230 surrounding an outer circumferential surface of the lamp 210 to reflect light emitted from the lamp 210 toward the light guide plate 140, and electrodes (not shown) protruding from both ends of the lamp 210. Is connected to the wire 210 is configured to supply a current to the lamp 210.

The lamp cover 230 is formed of a brass material having low current loss and excellent brightness and uniformity of light, and one side of the lamp cover 230 in contact with the light guide plate 140 is opened along the length direction of the lamp cover 230. The predetermined region of one end of the light guide plate 140 is inserted away from the lamp 210 by a predetermined distance.

In addition, the reinforcing member 232 for preventing the lamp cover 230 from bending toward the light guide plate 140 between a predetermined area of the lower surface of the lamp cover 230, that is, between the lamp holder 220 and the incident surface of the light guide plate 140. Is formed. In particular, the reinforcing member 232 protrudes a predetermined height toward an area between the lamp holder 230 and the light incident plate 140 and extends along the longitudinal direction of the lamp cover 230, that is, the longitudinal direction of the lamp.

Preferably, as described above, the reinforcing member 232 may be formed to extend from one end in the longitudinal direction (or one end of the lamp) of the lamp cover 230 to the other end (or the other end of the lamp), or the lamp cover 230. It may be partially formed only in the predetermined region and the central region predetermined region at both ends.

As described above, the reinforcing member 232 formed along the longitudinal direction of the lamp cover 230, that is, along the longitudinal direction of the lamp, reinforces the strength of the lamp cover 230 by an impact applied from the outside of the liquid crystal display 100. The lamp cover 230 is prevented from bending toward the light guide plate 140. In addition, the reinforcing member 232 serves as a kind of locking step for preventing the light guide plate 140 from being pushed toward the lamp 210 by the pressure applied from the lamp cover 230.

Here, the light guide plate 140 is fitted to the lamp cover 230 so that it is not normally introduced into the lamp cover 230, but a strong pressure is applied from the outside of the lamp cover 230, or the lamp cover 230 has a manufacturing tolerance. In the case of the bending, the force is applied toward the light guide plate 140 so that the light guide plate 140 flows toward the lamp 210. Therefore, the light guide plate 140 is closer to the distance between the light guide plate 140 and the lamp 210, which is initially set. .

As described above, when the engaging protrusion is formed on the upper surface of one end of the mold frame in which the lamp assembly is in contact with the upper surface of the top chassis or a reinforcing member is formed in a predetermined area of the lamp cover, the lamp cover is not bent toward the light guide plate. Therefore, the distance between the lamp and the light guide plate is the same in any region, thereby improving the light uniformity.

In addition, when a strong pressure is applied from the outside of the lamp cover, the light guide plate does not flow into the lamp due to the reinforcing member, so that the distance between the lamp and the light guide plate is not closer than the initially set distance, and the optical sheet is prevented from generating. It can prevent and improve the light uniformity.

1 is an exploded perspective view showing the structure of a liquid crystal display according to a first embodiment of the present invention.

2 is an exploded perspective view showing the structure of a liquid crystal display according to a second embodiment of the present invention;

3 is a perspective view showing the structure of a lamp assembly according to a second embodiment,

4 is a cross-sectional view taken along the line II of FIG. 2.

Claims (5)

A lamp assembly including a lamp for emitting light, a lamp holder inserted at both ends of the lamp to protect the lamp, and a lamp cover surrounding the lamp and having one side of the lamp opened in a longitudinal direction thereof; A light guide plate on one side of the lamp cover opened to guide the light emitted from the lamp, the predetermined region of one end of which is inserted at a predetermined distance from the lamp; A plurality of optical sheets installed on the light guide plate and the lamp cover to diffuse and collect light; An LCD panel disposed on top of the optical sheets to display information: The lamp assembly, the light guide plate, the optical sheets, and the LCD panel are accommodated in an accommodating space defined along an edge of the upper surface, and the LCD panel is disposed along the one end of the long side in parallel with the arrangement direction of the lamp to the outside of the upper surface. A rectangular mold frame having one or more coupling protrusions protruding at a predetermined height in a vertical direction; And A coupling hole is formed in an upper surface corresponding to the coupling protrusion, and is coupled to the mold frame to expose the screen display area of the LCD panel, and includes a top chassis to prevent deformation of the mold frame. Backlight assembly of the device. The backlight assembly of claim 1, wherein the coupling protrusion is formed at the same height as the top surface of the top chassis so as not to protrude to the top surface of the top chassis. A mold frame in which a storage space is formed along an edge; A lamp installed on one side of the storage space and emitting a light, a lamp holder inserted into both ends of the lamp to protect the lamp, and a lamp cover which surrounds the lamp and has an open one side in the longitudinal direction of the lamp Lamp assembly; A light guide plate on one side of the lamp cover opened to guide the light emitted from the lamp, the predetermined region of one end of which is inserted at a predetermined distance from the lamp; A plurality of optical sheets installed on the light guide plate and the lamp cover to diffuse and collect light; An LCD panel disposed on top of the optical sheets to display information; A top chassis coupled to the mold frame to expose a screen display area of the LCD panel; And a reinforcing member protruding toward the LCD panel by bending a lower surface of the lamp cover to prevent the light guide plate from being pushed into the lamp. The backlight assembly of claim 3, wherein the reinforcing member is formed at a predetermined length at each of both ends and a central portion of the lamp cover. The backlight assembly of claim 3, wherein the reinforcing member extends from one end of the lamp cover to the other end of the lamp cover.