KR20010036185A - A light concentrating plate for lcd - Google Patents

Abstract

PURPOSE: A light condensing plate of an LCD is provided to limit the angle of light to be incident from a light guide panel to a color filter within 20 degrees right and left for the vertical direction of the light guide panel, and reduce the output of a lamp of the LCD by using the light condensing plate. CONSTITUTION: A half cylinder-shaped lens(15) is formed in the top of a light condensing plate and two inclined reflective planes(14) opposite to each other is formed in the bottom of the light condensing plate. The uniform brightness is provided in all pixels because the size of the lens, about 100 micrometers, is identical with the size of an LCD pixel. The inclined reflective planes is coated with aluminium and a flat transmissive region(13) is formed in the center of the two inclined reflective planes(14) without the reflective plane(14). The light to be incident toward the light condensing plate through a light guide panel transmits the transmissive region(13) without the reflective plane(14) and the rest light to be incident toward the reflective plane(14) progresses toward a light guide panel surface(16). The lens(15) converts the light passing through the transmissive region(13) into the parallel light.

Description

Light collecting plate for LCD {A LIGHT CONCENTRATING PLATE FOR LCD}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a LCD backlight module for condensing light generated from a light source through a light guide plate to be incident on a liquid crystal and a color filter.

LCDs have been widely used for numerical segment-type displays such as watches, electronic calculators, and the like. The LCD includes a transparent plate on which an active element such as a thin film transistor (TFT) is formed as a means for switching a pixel electrode for applying a voltage to a liquid crystal, and a color (red, green, blue) filter layer or the like as a color display means.

Recent LCDs are thin, lightweight, and have low power consumption, and thus have been rapidly developed in display devices such as word processors, notebook computers, portable TVs, and the like. In the future, various images will be widely used due to the development of these portable LCDs.

Since the LCD does not emit light by itself, a back light is required in a commonly used transmissive liquid crystal display, and the performance of the LCD is largely dependent on the performance of the backlight used as well as the liquid crystal display itself. The backlight structure is largely composed of a light guide plate, a lamp structure, and sheets formed on an upper surface of the light guide plate.

In conventional LCDs used in notebook computers, PC monitors, or large displays, light emitted from a lamp, which is a light source, is radiated through a light guide plate at a relatively large angle about 70 ° with respect to the vertical direction of the light guide plate surface. In order to make the light bent at a large angle from the light guide plate to interact with the liquid crystal, the angle of incidence of the light should be close to the surface of the light guide plate. Therefore, in order to correct this, a diffuser 2 is first disposed on the upper surface of the light guide plate 1 to make the angle of light bending about 40 ° with respect to the vertical direction of the surface of the light guide plate 1. Then, the light passing through the light guide plate 1 out of the light source 4 is arranged between the light guide plate 1 and the liquid crystal (not shown) by arranging two prism 3 plates as the refraction plates so as to be perpendicular to each other. After refracting in the vertical direction with respect to the left and right direction and the waveguide direction (vertical direction with respect to the lamp), light is incident and used with the incident angle of the liquid crystal being about 60 degrees at half side width. Figure 1a shows a cross-sectional structure of the backlight module of the conventional LCD. In addition, FIG. 1B is an enlarged view of part 'A' of FIG. 1A, showing two prisms 3 arranged vertically overlapping each other.

In the conventional LCD, as described above, light emitted from the light guide plate is bent at a large angle with respect to the vertical direction of the surface of the light guide plate, and a diffusion plate and a refractive plate are used to compensate for this. At this time, the vertices of the prism used as the refraction plate are overlapped with two sheets of 90 ° or 63 ° to 68 °.

On the other hand, since most of the battery power is consumed by the lamp of the light guide plate in the LCD used in the notebook, etc., the operation time of the LCD is not really long. Introduced to solve this problem is a cholesteric liquid crystal (CLC) color filter. The CLC color filter is used with the CLC polarizer, which divides the polarization of light into the circularly polarized light to the left of the circularly polarized light in the right direction. CLC color filters allow light of their color to enter and enter, but reflect light of different polarization directions and reflect light of other colors downward. Conventional absorption media color filters display colors by driving red, blue, and green color filters on the pixels of the LCD, and each color filter absorbs all but its own color. The light that passes through is only 1/3. In the case of the CLC color filter, all the light other than the magnetic color is reflected so that the amount of light is tripled to be transmitted or returned. In this way, the brightness of the LCD can be increased by increasing the amount of light by three times, and the brightness of the LCD can be increased by bringing the brightness closer to the existing LCD, and the power consumption of the lamp can be reduced. .

However, in the CLC color filter, when the incident angle of light incident on the filter is larger than the half width of 20 ° with respect to the vertical direction, the CLC color filter does not display the original color but shows a different color, that is, a 'color bleeding' phenomenon occurs. . For example, when the incident angle of light incident on the filter determined as red is greater than 20 °, the color is shown as a color other than red. Therefore, it is very important for the CLC color filter that the angle of incidence of the light incident on the color filter is not greater than 20 ° of the half width in the vertical direction.

Conventional light guide plate, diffuser plate, and refraction plate do not satisfy the incidence condition of the CLC color filter. As shown in the graph of FIG. 2, the light incident on the prism plate is reflected as it approaches the vertical direction. This is because the light of the refraction plate itself has a total distribution of 80 ° with approximately 40 ° of left and right. In actual notebook LCDs, the half-width is about 60 °. Therefore, it is difficult to use a CLC color filter as a current light guide plate structure.

An object of the present invention is to provide a light collecting plate for LCD that can limit the angle of light incident from the light guide plate to the color filter within 20 degrees of the left and right with respect to the vertical direction of the light guide plate. Such a condition is required in order to operate a CLC color filter that can increase the overall luminance by three times instead of the color filter of the absorption medium, which is not satisfied in the conventional light guide plate structure. In addition, the present invention by reducing the output of the lamp of the LCD used in the notebook, etc. by satisfying the conditions that can apply the CLC color filter by the light collecting plate to reduce the overall power consumption, increase the operating time of the battery, improve the overall brightness Another object is to manufacture an LCD which can be used.

1A is a cross-sectional view illustrating a backlight module of a conventional LCD.

FIG. 1B is an enlarged perspective view of portion 'A' of FIG. 1A.

2 is a graph showing the refractive angle of the prism refracting plate according to the incident angle.

3 is a schematic diagram showing the principle that the light is parallel light through the lens.

4 is a perspective view showing an embodiment of a light collecting plate according to the present invention.

FIG. 5 is a schematic view illustrating a condensing state of the light collecting plate illustrated in FIG. 4.

6 is a graph showing the results of numerical calculation of the light collecting performance of the light collecting plate of the present invention with an ASAP program.

7 is a graph showing a result of numerical calculation of the light collecting performance of the light collecting plates of the present invention arranged vertically with an ASAP program.

8 is a perspective view showing still another embodiment of a light collecting plate of the present invention.

*** Explanation of symbols for main parts of drawing ***

1: light guide plate 2: diffuser plate

3: Prism version 4: light source

13: transmission area 14: reflection surface

15: lens 16: light guide plate surface

In the LCD backlight module, two inclined reflective surfaces facing each other are formed on a lower surface thereof, and a flat transmissive region is formed on a central portion where the reflective surfaces meet, and a lens is formed on an upper surface thereof, through a light guide plate from a light source. Provided is a light collecting plate for LCD for condensing incident light.

The lens may be formed by forming an upper surface of the light collecting plate in a semi-cylindrical shape, or may be formed in a semi-circular shape according to the purpose of use. The size of the lens coincides with the size of the LCD pixel, about 100 μm, so that light is incident on each pixel so that the overall brightness is uniform.

The light collecting plate of the present invention is characterized in that the light from the light guide plate is made as a point light source, and this is again converted into parallel light using a lens so that the light from the light guide plate is incident within a half width of 20 ° with respect to the vertical direction of the surface of the light guide plate. .

By limiting the angle of light incident from the light guide plate to the color filter by the light collecting plate within 20 ° of the left and right with respect to the vertical direction of the light guide plate, it is possible to efficiently utilize the CLC color filter having the limited incident angle.

Hereinafter, the present invention will be described through specific embodiments with reference to the drawings.

As shown in FIG. 3, the principle in which light emitted from the point light source 10 through the lens 11 becomes parallel light is applied to the structure of the light collecting plate. Looking at the specific structure of the light collecting plate as shown in FIG. Similarly to the conventional prism plate, two inclined surfaces are formed on the bottom surface of the light collecting plate, and aluminum is coated so that the inclined surface becomes the reflective surface 14. At this time, a flat transmissive region 13 is formed in the central portion where the two inclined reflective surfaces 14 abut, and no reflective surface is formed in the transmissive region 13. On the other hand, a semi-cylindrical lens 15 is formed on the upper surface of the light collecting plate.

5 schematically shows the condensing state of incident light by the light collecting plate of the present invention. Light incident through the light guide plate through the light guide plate is transmitted through the transmissive region 13 having no reflective surface, and all remaining light incident on the reflective surface 14 is reflected to the lower light guide plate surface 16. The light passing through the transmission region 13 is refracted by passing through the lens 15 formed on the upper surface of the light collecting plate to be close to parallel light, and the parallel light is incident on a color filter (not shown).

The light collecting performance of the light collecting plate is numerically calculated by an ASAP program widely used for numerical calculation of a light guide plate or other lighting system, and the results are shown in FIG. 6. Looking at Figure 6 it can be seen that the condensing is good to the half-width 20 ° in the direction perpendicular to the lamp (solid line in Figure 6). However, since the light collecting plate is in a straight line shape (see FIG. 4), it is difficult to collect light in a direction parallel to the lamp, so that the half-width is much larger than 20 ° in the direction parallel to the lamp. ).

Therefore, by forming a structure in which the light collecting plates of the present invention are arranged so that two sheets overlap each other vertically, light in a direction parallel to the lamp can be effectively collected. Figure 7 shows the results of numerical calculation for this structure using the ASAP program. It can be seen that the condensing results indicated by solid and dashed lines, respectively, in the direction perpendicular to the lamp and in the direction parallel to the lamp are condensed well within a half width of 20 °. Thus, by forming a structure in which the light collecting plates are arranged so that two sheets overlap each other vertically, a light guide plate having any structure can be transformed like a point light source to produce parallel light, and the light can be collected within a half width of 20 °. Applicable to the filter.

Another embodiment of the light collecting plate of the present invention is shown in FIG. 8. It can be seen from the figure that the transmissive region is smaller than in the embodiment shown in FIG. 4 by restricting the transmissive region 13a at the center between the inclined reflecting surfaces 14a. In addition, the lens 15a formed on the upper surface of the light collecting plate is semi-circular rather than semi-cylindrical. In this case, the light collecting plate can effectively collect light with only one sheet without having to arrange two sheets vertically overlapping each other as described above.

According to the present invention, a light collecting plate having a new structure is provided, thereby greatly improving light collecting performance and satisfying a condition in which a CLC color filter can be used. In addition, since the degree of condensation is large, the overall luminance is increased to reduce power consumption of the light source. The light collecting plate structure of the present invention can be applied irrespective of the type of light guide plate, and its utility is very large. Thus, the present invention makes it possible to manufacture LCDs with reduced power consumption and improved battery operating time and overall brightness.

Claims (5)

In the LCD backlight module, two inclined reflecting surfaces facing each other are formed on the lower surface, and a flat transmission area is formed at the center portion where the reflecting surfaces meet, and a lens is formed on the upper surface, so that light incident from the light source through the light guide plate is formed. LCD panel for condensing light. The light collecting plate of claim 1, wherein the lens is formed in a semicircular shape. The light collecting plate of claim 1, wherein the lens is formed in a semi-cylindrical shape. The light collecting plate for LCD according to claim 1, wherein the size of the lens is matched with the size of the LCD pixel. The LCD panel of claim 1, wherein the reflective surface is formed by coating aluminum on an inclined surface.