KR100943657B1 - Method for making a light guide panel having function of collecting light for display devices - Google Patents

Abstract

The present invention relates to a method of manufacturing a light guide plate of a display device having a light condensing function to reduce the manufacturing cost of the product and to improve the light emission efficiency on the surface light source to produce a product of excellent quality. To this end, the present invention is formed by integrating the light collecting portion of the prism sheet function for condensing light on the light emitting surface of the light guide plate forming the surface light source in the display device, and forming a negative dot pattern on the reflective surface on the back surface Present the optimal process.

LCD, BLU, Light Guide Plate, Prism Sheet

Description

Method for making a light guide panel of a display device having a light collecting function {Method for making a light guide panel having function of collecting light for display devices}

The present invention relates to a method of manufacturing a light guide plate of a display device having a light condensing function. In detail, the present invention is optimally formed by integrating a light collecting portion having a prism sheet function for condensing light on a light emitting surface of a light guide plate for forming a surface light source in a display device, and forming a negative dot pattern on a reflective surface on the back surface thereof. The present invention relates to a method of manufacturing a light guide plate of a display device having a light condensing function to reduce the manufacturing cost of the product and to improve the light emission efficiency on the surface light source so as to produce a high quality product.

The display device refers to a device for visually outputting specific data. The display device can output a visual image by a cathode ray tube, a liquid crystal display (LCD), or the like.

Among such display devices, the LCD has been actively applied to a monitor of a computer, a display panel of a mobile phone, etc. due to its low power consumption, thinness, and small size. In particular, the LCD has a light-emitting property of the liquid crystal material itself, so that the arrangement of the liquid crystal material is specifically maintained, and then the front light unit is supplied so that the arrangement of the liquid crystal material can be visually confirmed by supplying light from the front or rear side. (Front Light Unit; FLU) or Back Light Unit (BLU) is selectively adopted and applied.

1 is a schematic cross-sectional view of an LCD implemented with the BLU. Referring to the figure, the LCD is provided with a BLU (2) behind the liquid crystal panel (1). Here, the liquid crystal panel 1 is a liquid crystal material is injected therein, it is known that the liquid crystal material maintains a specific arrangement by an external electrical signal.

The BLU 2 is equipped with a light source 3 to which a CCFL lamp or LED is applied at one side, and a light guide plate 4 accommodating the light source 3 at one side in a basic configuration. At this time, the light guide plate 4 forms a surface light source by the light emitted from the light source 3, one surface (upper surface on the drawing) is an emission surface for emitting light, the rear surface (lower surface on the drawing) Is composed of a reflecting surface for reflecting and exiting light incident by the light source 11.

In particular, one surface of the light guide plate 4 is a diffusion sheet 5 and a prism sheet 6 for diffusing, scattering and condensing the emitted light to emit uniform light over the entire surface of the surface light source. Combined. In addition, a dot pattern 7 for reflecting light incident from the light source 3 is formed on the reflective surface of the rear surface of the light guide plate 4.

In the configuration of the BLU as described above, the conventional light guide plate is condensed by the above-described separate prism sheet when it is emitted to the surface light source input from the light source. The pair of prism sheets divided in the direction and the cross direction has a problem of further increasing the economic burden due to the cost increase due to the increase in the number.

In addition, the dot pattern formed on the reflective surface of the light guide plate is formed in the shape of a hemispherical embossed protruding at a constant height from the reflective surface, such a dot pattern of the embossed light is mainly used as an LED in order to obtain the desired brightness due to the low reflection efficiency of light. Since measures such as increasing the number of light sources to be applied must be taken, problems of time and economic burden of prolonging manufacturing time and increasing manufacturing cost are exposed.

The present invention has been invented to solve the above problems. Accordingly, the present invention proposes a process of integrating a light collecting part having a prism sheet function for condensing light on a light emitting surface of a light guide plate forming a surface light source to reduce the cost for manufacturing a BLU, and the reflective surface of the light guide plate The present invention provides a method for manufacturing a light guide plate to improve the quality of a product according to an increase in the efficiency of light reflection by presenting a process for manufacturing an intaglio dot pattern for reflecting light.

The light guide plate manufacturing method of the present invention comprises the steps of: forming a plurality of negative dots to form a reflector on the reflective surface of the light guide plate; Forming a pattern core of a shape corresponding to the condensing protrusion of the condenser of the condenser to form the condenser on the exit surface of the light guide plate on which the reflector is formed, and forming a condenser by applying UV resin to the pattern core; And contacting the light collecting plate with the light collecting plate formed with the UV resin to contact the light emitting plate having the reflecting unit with the light emitting plate.

In particular, the present invention comprises the steps of forming a reflective layer by performing aluminum deposition on the surface of the reflector formed with the negative dot of the reflector; Performing black or white printing on the surface of the reflective layer to minimize a transmittance of light incident into the light guide plate and to form a printed layer that maximizes the reflectance.

At this time, the intaglio dot is formed such that the formation interval becomes denser as the distance from the point where the light of the light guide plate is incident increases. In addition, the light collecting unit may be formed by arranging a plurality of rows and columns by connecting the light collecting protrusions in the form of square pyramids to each other. The light guide plate is selected and applied to a film-type PC resin having a high refractive index of light.

As described above, the present invention is formed so as to integrate the light collecting portion of the prism sheet function on the light guide plate to obtain the effect of providing economic benefits according to the reduction in manufacturing cost of the product. In addition, according to the present invention, the negative reflection pattern is formed on the reflective surface of the light guide plate, and the reflection efficiency of the light is improved by forming the reflective layer and the print layer for maintaining the optimum reflectivity, so that the luminance characteristics are excellent, thereby improving product quality. There is an effect to improve and thereby improve the satisfaction of using the product.

2 is a perspective view of a light guide plate manufactured by the manufacturing process according to the present invention, FIG. 3 is a sectional view of the light guide plate manufactured by the manufacturing process according to the present invention, and FIG. 4 is a part of the light guide plate manufactured by the manufacturing process according to the present invention. It is an enlarged view.

Referring to the drawings, the light guide plate 10 is equipped with a light source 11 (LED is applied in the drawing) on one side, an emission surface (upper surface in the drawing) for the light incident from the light source 11 is emitted, It has a reflecting surface (upper and lower surface in drawing) which reflects incident light and advances to an exit surface. In such a configuration, the light collecting part 20 is formed on the exit surface of the light guide plate 10, and the reflecting part 30 is formed on the reflective surface.

The light concentrator 20 functions as a prism sheet for condensing the light in the longitudinal and transverse directions when light incident from the light source 11 to the light guide plate 10 is emitted to the surface light source. Reference numeral 20 is an arrangement configuration of the light collecting plate 21 of the square pyramid shape protruding from the exit surface of the light guide plate 10.

At this time, the condensing protrusions 21 are arranged in a plurality of rows and a plurality of columns on the exit surface of the light guide plate 10 in the form of a pyramid in the form of a square pyramid, that is, a square pyramid. It has a configuration arranged in connection with each other. The light collecting unit 20 has a configuration integrated with the light guide plate 10.

The light guide plate 10 is mainly manufactured by selecting a resin suitable for transparency such as PC (PolyCarbonate: polycarbonate ester or polycarbonate), PMMA (Polymethly Methacrylate: acrylic resin), and preferably, the light guide plate 10 PC resin with high refractive index is selected and applied.

The reflector 30 is formed by forming a pattern of negative dots 31 for reflecting light incident from the light source 11. At this time, the intaglio dot 31 is formed as a substantially hemispherical groove in an optimal shape for reflecting light incident from the light source 11.

In addition, the intaglio dots 31 are arranged in a plurality of rows and a plurality of columns on the reflective surface to form a pattern, and the arrangement of the rows and columns is irregular or irregular depending on the distance from the light source 11 or the type of the light source. It can be arranged as an enemy. In particular, the intaglio dot 31 may have different groove depths and diameters of the intaglio depending on the condition of the light source 11.

In addition, the reflector 30 has a reflective layer 32 formed on the surface on which the negative dots 31 are formed, and a printed layer 33 is formed on the surface of the reflective layer 32 to maintain the reflection efficiency to the maximum. do.

In this case, the reflective layer 32 is formed to a predetermined thickness through aluminum deposition, the printing layer 33 is black or white printing to prevent the light incident from the light source 11 is transmitted to the outside of the reflective surface. By forming a printing surface such as a mirror surface.

5 is a flowchart of a light guide plate manufacturing process according to the present invention, FIG. 6 is a process diagram of a reflector during a light guide plate manufacturing process according to the present invention, and FIG. 7 is a process diagram of a light collecting unit during a light guide plate manufacturing process according to the present invention.

Referring to the drawing, the manufacturing process of the light guide plate is completed by forming the reflector 30 on the reflective surface of the light guide plate 10, and then forming the light condensing unit 20 on the exit surface of the light guide plate 10. At this time, the order of forming the reflecting portion 30 and the light collecting portion 20 may be formed on any one side first, but the light collecting portion 21 is formed because the light collecting portion 20 is formed of a light collecting protrusion 21. It is preferable to form the reflector 30 first in order to prevent deformation of the shape.

As shown in FIG. 6, a plurality of negative dots 31 are formed on the reflective surface of the light guide plate 10 to form the reflective part 30. (S1) In this case, the negative dots 31 are formed. The process for forming can illustrate several. For example, the intaglio dot 31 may be formed by forming a pattern core having an embossed protrusion corresponding thereto and applying the same to the light guide plate 10 when the light guide plate 10 is injected. After masking the reflective surface, a process such as photoetching or physical etching may be performed, or the reflective surface may be formed by tableting with a specific tool.

In particular, the intaglio dots 31 are set in inverse proportion to the distance from the point where the light of the light guide plate 10 is incident. That is, as the intaglio dot 31 moves away from the point where the light of the light guide plate 10 is incident, the formation interval is gradually densified, which is a light source mounted on at least one side of the light guide plate 10. In the case of light incident at 11), the distance close to the point of incidence is sufficient for light, while the far distance is small for light, thereby increasing the amount of reflection of light by the denser engraved dots 31, thereby increasing the amount of light on the entire surface of the light guide plate 10. This is to ensure that light is emitted uniformly.

Subsequently, aluminum is formed on the surface of the reflector 30 on which the negative dots 31 of the reflector 30 are formed to form a reflective layer 32. (S2) At this time, the reflective layer 32 Deposition is a process for forming the intaglio dot 31 surface into a reflective surface such as a mirror surface.

When the reflective layer 32 is formed as described above, the printing layer 33 is formed on the surface of the reflective layer 32 by performing black or white printing. (S3) At this time, the printing layer 33 is formed. Is a process for minimizing the transmittance of light incident to the light guide plate 10 (to make the light transmittance close to 0%) and maximizing the reflectance (to make the light reflectance near 100%).

As described above, after the reflective part 30 is formed on the light guide plate 10, the light converging part 20 is formed on the rear surface of the light guide plate 10 as shown in FIG. 7. To this end, a pattern core C having a shape corresponding to the light collecting protrusion 21 of the light collecting part 20 is formed. (S4) At this time, the pattern core C corresponds to the light collecting protrusion 21. It is formed by tableting the tool of the form to the pattern core (C). Thereafter, the surface of the pattern core C having the pattern formed thereon is coated with a UV resin having a predetermined viscosity to form a shape of the light collecting part 20. (S5)

When the shape of the light converging portion 20 is formed by the UV resin as described above, after contacting the exit surface of the light guide plate 10 to the UV resin, it is bonded to the exit surface of the light guide plate 10 by performing UV resin curing. The light guide plate 10 and the light collecting part 20 are integrally formed on the lower surface.

Here, the condenser 20 is formed by arranging the condensing protrusions 21 having a quadrangular pyramid shape in a plurality of rows and a plurality of columns, and forming the condensing part 20. Naturally, the pattern core C is formed based on the shape and arrangement of the square pyramid of the light collecting protrusion 21.

Thereafter, the light guide plate 10 formed by integrating the light collecting unit 20 and the reflecting unit 30 in the pattern core C may be separated to obtain a finished light guide plate product.

By the above configuration, when the light guide plate 10 is applied to the BLU, a light condensing function can be performed even without separately arranging a prism sheet on the exit surface of the light guide plate 10. In addition, since the light collecting plate 21 is integrally formed on the light guide plate 10, when the light emitted from the light guide plate 10 is incident on a separate prism sheet, the amount of light for condensing is sufficiently increased without spreading the light. Because it can be collected it is possible to reduce the number of diffusion sheets (S).

1 is a cross-sectional view BLU to which a conventional light guide plate is applied.

Figure 2 is a perspective view of the light guide plate produced by the manufacturing process according to the present invention.

Figure 3 is a cross-sectional view of the light guide plate produced by the manufacturing process according to the present invention.

Figure 4 is an enlarged view of a part of the light guide plate produced by the manufacturing process according to the present invention.

5 is a flow chart of the light guide plate manufacturing process according to the present invention.

Figure 6 is a process chart of the reflector during the light guide plate manufacturing process according to the present invention.

7 is a process chart of the light collecting unit during the light guide plate manufacturing process according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10: Light guide plate 11: light source

20: condenser 21: condenser

30: reflection part 31: intaglio dot

32: reflective layer 33: printed layer

Claims (5)

Forming a plurality of negative dots 31 to form the reflector 30 on the reflective surface of the light guide plate 10; In order to form the light collecting part 20 on the exit surface of the light guide plate 10 in which the reflecting part 30 is formed, a pattern core C having a shape corresponding to the light collecting protrusion 21 of the light collecting part 20 is formed. Forming a light collecting part 20 by applying UV resin to the pattern core C; The condenser 20 is integrated with the exit surface of the light guide plate 10 by contacting the exit surface of the light guide plate 10 having the reflector 30 with the light condenser 20 formed of the UV resin. Bonding as possible; Light guide plate manufacturing method of a display device having a light condensing function comprising a. The method of claim 1, Forming a reflective layer (32) by performing aluminum deposition on the surface of the reflective part (30) on which the negative dot (31) of the reflective part (30) is formed; Performing black or white printing on the surface of the reflective layer 32 to form a printed layer 33 which minimizes transmittance of light incident to the light guide plate 10 and maximizes the reflectance; The light guide plate manufacturing method of the display apparatus having a light condensing function further comprises. The method of claim 1, The engraved dot 31 is formed so that the forming interval is gradually denser as the distance from the light incident point of the light guide plate 10 is farther away, the light guide plate manufacturing method having a light collecting function. The method according to any one of claims 1 to 3, The condenser 20 is a method of manufacturing a light guide plate of a display device having a condensing function, characterized in that formed in a plurality of rows and a plurality of columns by connecting the condensing projections (21) in the form of a square pyramid. The method according to any one of claims 1 to 3, The light guide plate 10 is a method of manufacturing a light guide plate of a display device having a light collecting function, characterized in that the film-type PC resin having a high refractive property of light.

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