KR100222966B1 - Back-light assembly - Google Patents

Abstract

The present invention relates to a sheet fixing structure in which rectangular grooves and recesses for accommodating various sheets constituting the backlight assembly of a liquid crystal display are formed inside the light guide plate.

According to the sheet fixing structure of the present invention, in a backlight assembly including a reflective sheet, a light guide plate, a prism sheet and a diffusion sheet, and a protective sheet, a means for accommodating and fixing the prism sheet, the diffusion sheet, and the protective sheet in the light guide plate is provided. Characterized in that formed.

As a result, the sheets are inserted into and fixed in the recesses formed in the light guide plate so that they are not affected by shaking or impact during transportation.

Description

Seat fixing structure of backlight assembly

The present invention relates to a backlight assembly structure of a liquid crystal display device, and more particularly, to a sheet fixing structure in which a square groove and a recess for accommodating various sheets constituting the backlight assembly of a liquid crystal display device are formed inside a light guide plate.

In general, a liquid crystal display is a light receiving element that does not emit light by itself, and thus cannot be used in a dark place, and thus displays an image by using a backlight attached to the back of the liquid crystal panel.

Referring to FIGS. 1 to 3, the backlight assembly structure of the liquid crystal display device is as follows. 1 is an external view of a general liquid crystal display, FIG. 2 is a cross-sectional view taken along line AA ′ of FIG. 1, and FIG. 3 is an external view of a conventional backlight assembly.

Referring to FIG. 1, the size a of the portion surrounding the active area that can substantially display an image in the liquid crystal display device can be sufficiently secured since the size of the liquid crystal display device is not considered in the related art. However, in recent years, as the size of the liquid crystal display device needs to be reduced in size, the size of the a portion becomes narrower and narrower. As shown in FIG. As a result, various problems are caused in the quality of the entire LCD.

This will be described in more detail with reference to FIG. 2 as follows.

As shown in FIG. 2, the mold frame 1 supports the entire liquid crystal display while reflecting the entire liquid crystal display device, a reflector 3, a light guide plate 2, a prism sheet 4, A diffuser sheet 5 and a protector sheet 6 are housed. One or both ends of the light guide plate 2 are provided with a fluorescent lamp (not shown) of several mm in diameter.

The light guide plate 2 is for uniformly transmitting the light from the fluorescent lamp to the screen display area, and is usually a transparent acrylic material having a thickness of about several millimeters, and has a plurality of dots or V on the bottom surface for uniform reflection of light. The groove is formed. The reflective sheet 3 is installed at the lower portion of the light guide plate 2 and serves to reflect light emitted from the lamp to the light guide plate 2 to the upper side. The prism sheet 4 and the diffusion sheet 5 are suitably combined in two or three sheets and installed on the light guide plate 2 to diffuse or condense the light emitted from the light guide plate 2 to improve brightness or improve the viewing angle. A protective sheet 6 is installed on the top layer of the backlight assembly to protect the sheets sensitive to dust and scratches and to prevent the flow of the sheets when only the backlight assembly is transported.

At this time, the method of attaching the protective sheet 6 to the mold frame 1 will be described in detail, the protective sheet 6 is designed to be somewhat larger than the other sheets are narrow width at the upper and lower or left and right sides of the lower surface, such as After attaching the double-sided tape 11 cut to the width of about 1-3 mm, the double-sided tape is attached to the jaw formed in the mold frame 1.

Referring to the method of assembling the backlight assembly and the liquid crystal panel configured as described above, the cushion tape 10 is installed so as to span the interface between the mold frame 1 and the protective sheet 6 and a pair of liquid crystal panels faced up and down. (7, 8) is put up, and then fixed by pressing the top chassis (12) over the entire upper edge of the upper liquid crystal panel (8). The operation of the conventional backlight assembly configured as described above is as follows.

The light emitted from the lamp is directly transmitted to the dot printed LGP 2 or reflected from the lamp holder (not shown) to the LGP 2. Some of the light incident on the light guide plate 2 proceeds as it is through the light guide plate, and a part of the light is reflected by the reflective sheet 3 and then travels inside the light guide plate 2. Light emitted through the light guide plate 2 is uniformly diffused and luminance is increased while passing through the prism sheet 4 and the diffusion sheet 5. Light is then incident on each pixel of the liquid crystal panels 7 and 8 to display the screen.

However, in the conventional backlight assembly, even if the protective sheet 6 is fixed to the mold frame 1 by the double-sided tape 11, the prism sheet and the diffusion sheets are easily flown when transported or impacted. There is a problem that scratches are formed to adversely affect the screen display area.

In addition, when the sheet is peeled off during rework, particles are generated, and when the sheets are fixed again, there is a problem of not being fixed correctly.

In addition, the protective sheet 6 protrudes from the upper surface of the mold frame 1 at the portion or surface where the adhesive strength of the double-sided tape 11 of the protective sheet 6 is weak or cannot be fixed by the protective sheet. It can also be. On the other hand, when the adhesive force is strengthened to prevent the sheets from coming off, the sheets are deformed by thermal stress during the high temperature test, and the sheets are crying due to the large coefficient of thermal expansion of the sheets and the difference in coefficient of thermal expansion with the mold frame. There is a problem.

An object of the present invention is to provide a backlight assembly structure which prevents the flow of sheets, prevents crying when the sheets are thermally expanded, and eliminates the phenomenon that the protective sheet protrudes from the upper surface of the mold frame. There is this.

1 is an external view of a general liquid crystal display device,

2 is a cross-sectional view taken along line AA ′ of FIG. 1;

3 is a plan view and a front view of a sheet fixing structure according to an embodiment of the present invention,

4 is a cross-sectional view showing another embodiment according to the present invention;

FIG. 5 is a cross-sectional view illustrating a structure for easily forming a square groove and a recess in the light guide plate. FIG.

According to the sheet fixing structure of the present invention, in a backlight assembly including a reflective sheet, a light guide plate, a prism sheet and a diffusion sheet, and a protective sheet, a means for accommodating and fixing the prism sheet, the diffusion sheet, and the protective sheet in the light guide plate is provided. Characterized in that formed.

Preferably, the accommodation fixing means comprises a rectangular groove formed at a predetermined depth in a vertical direction from an upper surface of the light guide plate, and a recess formed at a predetermined height and a predetermined width in a horizontal radial direction at the bottom of the square groove. Accordingly, since the sheets are inserted and fixed in the recesses formed in the light guide plate, they are not affected by shaking or impact during transportation, and do not use the double-sided adhesive to fix the sheets, so no particles are generated when the sheets are peeled off during rework. If the sheets are fixed again, they can be fixed correctly. On the other hand, since the edges of the sheets are inserted and fixed in the recesses, it is possible to prevent the protective sheet or the like from protruding from the upper surface of the mold frame.

Also preferably, the width of the recess is formed so that a gap of a predetermined interval is formed from the ends of the prism sheet, the diffusion sheet and the protective sheet. Therefore, even if the sheets expand due to thermal stress, such as high temperature test can be accommodated enough to prevent the sheets from crying.

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

Referring to FIG. 3, a front view of a light guide plate according to an embodiment of the present invention is illustrated in FIG. 3A, and a cross-sectional view taken along line AA ′ of FIG. 3A is illustrated in FIG. 3B.

As shown, according to an embodiment of the present invention, a rectangular groove 20 having a predetermined height H is formed in a vertical direction from an upper surface of the light guide plate 2, and a horizontal radial direction is defined at a bottom of the square groove 20. A recess 15 of height h is formed. That is, referring to FIG. 3B, which is a cross-sectional view taken along the line A-A ′ of FIG. 3A, a cap having a cross section of “1? Quot; shape is integrally formed along the edge of the square plate on a light guide plate made of a square plate. The recess 15 is for accommodating the edges of the prism sheet 4, the diffusion sheet 5 and the protective sheet 6, and has a height equal to or slightly larger than the thickness of the sheets combined.

On the other hand, a cushion tape 10 for adhesion with a panel (not shown) is attached to the upper surface formed along the edge of the light guide plate 2.

Referring to the method of mounting the sheets to the light guide plate having such a structure, a rectangular groove 20 of a predetermined height H is formed in the vertical direction from the upper surface, and the predetermined height (in a horizontal radial direction from the bottom of the rectangular groove 20) The edges of the prism sheet 4, the diffusion sheet 5, and the protective sheet 6 are inserted in the recess 15 in the light guide plate 2 on which the recess 15 of h) is formed. At this time, the width of the prism sheet 4, the diffusion sheet 5 and the protective sheet 6 is larger than the width of the square groove 20, but because the sheets are flexible, it can be simply inserted into the recess.

According to one embodiment of the present invention as described above, because the sheets are inserted into and fixed in the recesses formed in the light guide plate, they are not affected by shaking or impact during transportation. In addition, since the double-sided adhesive is not used to fix the sheets, particles are not generated when the sheet is peeled off during reworking, and when the sheets are fixed again, they can be accurately fixed. On the other hand, since the edges of the sheets are inserted and fixed in the recesses, it is possible to prevent the protective sheet or the like from protruding from the upper surface of the mold frame. In addition, since the cushion tape for adhesion with the panel is attached only on the light guide plate without being in contact with the protective sheet, no pressure is applied to the sheet. Therefore, the sheets do not come into direct contact with the panel to prevent breakage of the sheet during the impact test.

4 is a cross-sectional view illustrating a light guide plate according to another embodiment of the present invention, and most configurations are the same as in the above embodiment. In this embodiment, the width of the recess 15 of the light guide plate 2, which receives the edges of the sheets 4, 5, 6, is formed somewhat larger than the edges of the sheets inserted into the recess 15, The gaps 16 at predetermined intervals are formed from the ends.

According to this embodiment, by forming the gaps 16 at predetermined intervals in the recesses 15, the sheeting can be prevented from crying because the sheets can be sufficiently accommodated even if the sheets expand with thermal stress by a high temperature test or the like.

FIG. 5 is a cross-sectional view illustrating a structure for easily forming a square groove and a recess in the light guide plate, wherein the upper light guide plate 2a having a rectangular frame shape having recesses 15 formed at one corner thereof, and the lower light guide plate having a rectangular flat plate shape. (2b) are separately manufactured and bonded to each other by predetermined means.

According to such a structure, the machining of the square groove and the recess is easier, and there is an advantage of forming the square groove and the recess of the correct dimension.

As described above, according to the present invention, since the sheets are inserted into and fixed in the recesses formed in the light guide plate, they are not affected by shaking or impact during transportation.

In addition, since the double-sided adhesive is not used to fix the sheets, particles are not generated when the sheet is peeled off during reworking, and when the sheets are fixed again, they can be accurately fixed.

In addition, since the edges of the sheets are inserted and fixed in the recesses, it is possible to prevent the protective sheet or the like from protruding from the upper surface of the mold frame.

In addition, since the cushion tape for adhesion with the panel is attached only on the light guide plate without contacting the protective sheet, the sheets do not directly contact the panel, thereby preventing the sheet from being damaged during the impact test.

In addition, by forming the width of the recess so as to form a gap of a predetermined distance from the end of the sheets to be inserted into the recess, even if the sheets are sufficiently accommodated by thermal stress, such as a high temperature test, it is possible to prevent the sheets from crying. .

Claims (7)

In the backlight assembly consisting of a reflective sheet, a light guide plate, a prism sheet and a diffusion sheet and a protective sheet, And a means for accommodating and fixing the prism sheet, the diffusion sheet, and the protective sheet in the light guide plate. According to claim 1, wherein the receiving fixing means and the rectangular groove formed in a vertical depth from the upper surface of the light guide plate; And a recess formed at a predetermined height and a predetermined width in a horizontal radial direction from the bottom of the square groove. The seat fixing structure of claim 2, wherein edges of the prism sheet, the diffusion sheet, and the protective sheet are inserted into the recess. The seat fixing structure of claim 2, wherein the height of the recess is equal to a thickness of the sum of the prism sheet, the diffusion sheet, and the protective sheet. 3. The seat fixing structure of a backlight assembly of claim 2, wherein a width of the recess is formed such that a gap of a predetermined distance is formed from ends of the prism sheet, the diffusion sheet, and the protective sheet. The seat fixing structure of a backlight assembly of claim 2, wherein the cushion tape interposed between the panel and the panel is attached only to an upper surface of the light guide plate. The seat fixing structure of claim 1, wherein the light guide plate is formed of a rectangular frame-shaped upper light guide plate having a recess formed at one corner thereof and a lower light guide plate having a rectangular flat plate shape, and bonded to each other by a predetermined means. .

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