JP2006215475A - Light reflection plate - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a light reflection plate improving use efficiency of light by eliminating brightness irregularity of light reflected by the light reflection plate without shortening a distance between light sources nor increasing the number of the light sources. <P>SOLUTION: The light reflection plate has a plurality of chevron type bent parts 12, wherein the shape of the chevron type bent part varies in accordance with the distance from the light source 14. More specifically, the chevron type bent part has a cross-sectional shape of a triangle and, when a distance in the vertical direction from the center 16 of the light source up to the surface of the horizontal part of the light reflection plate is H (mm), a distance in the horizontal direction from the center of the light source up to the bottom part of oblique surface of the chevron type bent part is L (mm), a distance in the horizontal direction from the center of the light source up to the apex part of oblique surface of the chevron type bent part is P (mm), the height of the apex part of oblique surface of the chevron type bent part is T, and the angle of oblique surface at the bottom part of oblique surface of the chevron type bent part is θ(°), H, L, P, T, and θ satisfy a following relation; 1/2tan<SP>-</SP>(L/H)-10°≤θ≤1/2tan<SP>-</SP>[P/(H-T)]+10°. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a three-dimensional light reflector for efficiently emitting light by making backlights and lighting boxes such as electric signboards, liquid crystal display devices, and lighting fixtures brighter and thinner.

  Conventionally, as a light reflecting plate used for electric signboards, liquid crystal display devices, lighting fixtures, etc., a reflecting plate material obtained by laminating a light reflecting film with a thickness of about 200 μm on an aluminum plate or a steel plate was processed into a three-dimensional shape. A light reflecting plate or a light reflecting plate obtained by processing a reflecting plate made of a synthetic resin into a three-dimensional shape has been proposed (for example, see Patent Documents 1 and 2).

  As described above, by processing the light reflecting plate into a three-dimensional shape, the luminance unevenness of the light reflected by the light reflecting plate is somewhat eliminated, but it is not yet sufficient. Therefore, the brightness unevenness is reduced by shortening the distance between the light sources, increasing the number of light sources, or putting a prism sheet in front of the front plate irradiated with the light reflected by the light reflecting plate. A method to solve this problem has been studied.

JP-A-6-260010 JP 2002-122863 A

  The present invention has been made in view of the above-described circumstances, and it is possible to reduce luminance unevenness of light reflected by a light reflecting plate without shortening the distance between light sources or increasing the number of light sources. An object of the present invention is to provide a light reflecting plate that can be eliminated and improve the light utilization efficiency.

  In order to achieve the above object, the present invention provides a light reflecting plate having a plurality of mountain-shaped bent portions, wherein the shape of the mountain-shaped bent portions changes according to the distance from the light source. Provide a board.

  The light reflecting plate of the present invention changes the shape of the mountain-shaped bent portion according to the distance from the light source, so that the light emitted from the light source is uniform to the front surface, and at least part of the slope is perpendicular to the front surface. The brightness unevenness of the light reflected by the light reflecting plate is eliminated.

  In the present invention, in changing the shape of the mountain-shaped bent portion according to the distance from the light source, the shape of the mountain-shaped bent portion is a cross-sectional triangle, and from the center of the light source to the surface of the horizontal portion of the light reflecting plate The vertical distance is H (mm), the horizontal distance from the center of the light source to the slope bottom of the mountain-shaped bent portion is L (mm), and the horizontal distance from the center of the light source to the slope top of the mountain-shaped bent portion Is P (mm), T is the height of the slope top of the mountain-shaped bent portion, and θ (°) is the slope angle of the slope bottom of the mountain-shaped bent portion, the H, L, P, T, and θ It is appropriate to satisfy the following formula (1). More preferably, the H, L, P, T, and θ satisfy the following formula (2).

1/2 tan ⁻ (L / H) −10 ° ≦ θ
≦ 1/2 tan ⁻ [P / (HT)] + 10 ° (1)
1/2 tan ⁻ (L / H) ≦ θ
≦ 1/2 tan ⁻ [P / (HT)] (2)
As described above, by changing the slope angle of the mountain-shaped bend according to the distance from the light source, the light emitted from the light source is reliably reflected evenly to the front surface and at least partially reflected on the front surface to the front surface. In addition, the height of the mountain-shaped bent portion can be lowered and the light reflecting plate can be made thinner. In addition, in this invention, although the shape of the mountain-shaped bending part is a cross-sectional triangle, the slope part is not restricted to a linear form, A polygonal shape and a parabolic shape are also included.

  Since the light reflecting plate of the present invention can eliminate luminance unevenness, the distance between the light sources can be increased, and as a result, the number of light sources can be reduced, so that energy saving can be achieved. In addition, by using the light reflecting plate of the present invention, it is possible to eliminate the prism sheet disposed in front of the front plate.

  Hereinafter, the present invention will be described in more detail. In the present invention, the material of the light reflecting plate is not particularly limited, but a synthetic resin film or sheet that reflects light can be suitably used. Examples of the synthetic resin film or sheet include, for example, general-purpose resins such as polyethylene, polypropylene, polystyrene, polyvinyl chloride, polychlorinated biphenyl, polyethylene terephthalate, and polyvinyl alcohol, polycarbonate, polybutylene terephthalate, polyethylene naphthalate, polyamide, and polyacetal. , Engineering plastics such as polyphenylene ether, ultra high molecular weight polyethylene, polysulfone, polyether sulfone, polyphenylene sulfide, polyarylate, polyamideimide, polyetherimide, polyetheretherketone, polyimide, polytetrafluoroethylene, liquid crystal polymer, fluorine resin Or a film or sheet made of a copolymer or a mixture thereof. It is. Among these, a film or sheet made of polyester, polyphenylene sulfide, polypropylene, or cyclopolyolefin is preferable because of good heat resistance, impact resistance, and the like.

  More specifically, as a preferred example of the synthetic resin film or sheet forming the light reflecting plate of the present invention, a thermoplastic resin having fine bubbles or pores having an average cell diameter of 50 nm or more and 50 μm or less inside is provided. Examples of the film or sheet include a film or sheet of a thermoplastic resin containing a filler, in which a large number of voids are formed with the filler as a core. In this case, in the latter film or sheet, the thermoplastic resin film or sheet containing the filler is formed by forming an unstretched film or sheet containing the filler and stretching the unstretched film or sheet. A porous stretched film or sheet in which a large number of voids are formed with nuclei as a core is preferred.

  In the resin used for the synthetic resin film or sheet, an antioxidant, an ultraviolet ray inhibitor, a lubricant, a pigment, a reinforcing agent, and the like can be appropriately added. Moreover, you may form by apply | coating the coating layer containing these additives.

  There is no limitation on the method of forming the light reflecting plate according to the present invention, and the light reflecting plate can be formed by, for example, press molding or bending. Moreover, in order to prevent the deformation | transformation of the light reflecting plate after shaping | molding, the method of press-molding while heating at the temperature more than the temperature in which a light reflecting plate is used, and the method of annealing after press shaping | molding can be taken.

  The light reflecting plate of the present invention, particularly the light reflecting plate of the present invention formed by the synthetic resin film or sheet, can be attached to a metal plate or a hard resin plate to form a light reflecting plate laminate.

Next, although the example of the light reflection plate which concerns on this invention with reference to drawings is shown, this invention is not limited to the following example.
(Example)
An extruded sheet of thermoplastic polyester impregnated with carbon dioxide under high pressure, and then heated and foamed, there is a foamed plastic light reflecting sheet having a thickness of 1 mm and an internal cell diameter of 50 μm or less (for example, Furukawa Electric MCPET (registered trademark)). The following example is given as an example of manufacturing a backlight reflecting plate of a liquid crystal display device using the light reflecting sheet.

  According to the method of the present invention shown in FIG. 1, the above-mentioned foamed sheet of polyethylene terephthalate (MCPET) foamed to about 4 times the thickness of 1 mm and having an average cell diameter of 50 μm or less is heated at 100 ° C. or higher. The light reflecting plate 10 was produced. In the light reflecting plate 10 of this example, the shape of the mountain-shaped bent portion 12 has a triangular cross section, and the horizontal portion of the light reflecting plate 10 from the center 16 of the light source (fluorescent lamp) 14 as shown in FIGS. The vertical distance to the surface is H (mm), the horizontal distance from the center 16 of the light source 14 to the bottom of the slope of the mountain-shaped bent portion 12 is L (mm), and the slope of the mountain-shaped bent portion 12 from the center 16 of the light source 14 When the horizontal distance to the top is P (mm), the height of the slope top of the mountain-shaped bent portion 12 is T, and the slope angle at the slope bottom of the mountain-shaped bent portion is θ (°), H, L, P, T, and θ satisfy the following formula (2).

1/2 tan ⁻ (L / H) ≦ θ
≦ 1/2 tan ⁻ [P / (HT)] (2)
Specifically, when H = 2.79 mm, when L1 = 2.00 mm, P1 = 4.37 mm, T1 = 0.76 mm, θ1 = 17.8 °, and L2 = 6.00 mm, P2 = 7. 18 mm, T2 = 0.75 mm, θ2 = 32.5 °, L3 = 10.00 mm, P3 = 10.82 mm, T3 = 0.62 mm, θ3 = 37.2 °, L4 = 14.00 mm, P4 = 15.00 mm, T4 = 0.88 mm, θ4 = 41.3 °, L5 = 18.49 mm, P5 = 19.18 mm, T5 = 0.62 mm, θ5 = 41.8 °, L6 = 22.00 mm When P6 = 22.82 mm, T6 = 0.75 mm, θ6 = 42.5 °, and L7 = 24.81 mm, P7 = 25.63 mm, T7 = 0.76 mm, and θ7 = 42.7 °.

  Although the plan view of the light reflecting plate of this example is omitted, the slope bottoms and tops of the respective mountain-shaped bent portions 12 are parallel to each other in plan view, and the slope bottoms and tops of the adjacent mountain-shaped bent portions 12 are also flat. In view, the mountain-shaped bent portions 12 are formed continuously from one end edge to the other end edge of the light reflecting plate. In addition, the light reflecting plate of this example is bilaterally symmetric with respect to the central portion between the centers 16 of both light sources 14. Further, FIG. 1 shows a part of the light reflecting plate. About 10 light sources are arranged in parallel on the entire light reflecting plate.

FIG. 3 shows how light is reflected by the light reflecting plate of this example. As shown in FIG. 3, in the light reflecting plate of this example, the light 18 emitted from the light source 14 is uniformly reflected to the front surface. In FIG. 3, reference numeral 20 denotes the lower surface of the diffuser plate to which the light 22 reflected by the light reflecting plate 10 is irradiated.
(Comparative example)
Using a foamed sheet of polyethylene terephthalate (MCPET) foamed approximately 4 times as thick as an average cell diameter of 50 μm and a thickness of 1 mm, the flat light reflector 30 shown in FIG. Was made.

  FIG. 4 shows how light is reflected by the light reflecting plate of this example. As shown in FIG. 4, it can be seen that in the light reflecting plate of this example, the light 18 emitted from the light source 14 is not reflected as uniformly to the front surface as the light reflecting plate of the first embodiment. In FIG. 4, reference numeral 20 denotes the lower surface of the diffusion plate irradiated with the light 22 reflected by the light reflecting plate 10.

  The luminance was measured using the light reflectors of the above-described Examples and Comparative Examples. A luminance meter (BM-9 manufactured by Topcon Co., Ltd.) was moved from the point just above the light source (0 mm point) to the adjacent light source at intervals of 5 mm, and the luminance was measured. Note that a BM-910D manufactured by Topcon Corporation was used as the luminance meter receiver. A value obtained by dividing the difference between the maximum value and the minimum value by the maximum value was defined as luminance unevenness. As a result of the luminance measurement, the unevenness of luminance was small in the light reflecting plate of the example compared to the flat light reflecting plate of the comparative example.

It is explanatory drawing which shows an example of the light reflection board which concerns on this invention. It is explanatory drawing which shows the dimension of the mountain-shaped bending part of a light reflection plate. It is explanatory drawing which shows the mode of reflection of the light by the light reflection board of Example 1. FIG. It is explanatory drawing which shows the mode of the reflection of the light by the light reflection board of a comparative example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Light reflecting plate 12 Mountain-shaped bending part 14 Light source 16 Center of light source

Claims (6)

  A light reflecting plate having a plurality of mountain-shaped bent portions, wherein the shape of the mountain-shaped bent portions changes according to the distance from the light source. The shape of the mountain-shaped bent portion is triangular in cross section, and the vertical distance from the center of the light source to the surface of the horizontal portion of the light reflector is H (mm), from the center of the light source to the slope bottom of the mountain-shaped bent portion L (mm), the horizontal distance from the center of the light source to the top of the slope of the mountain-shaped bent portion is P (mm), the height of the slope top of the mountain-shaped bent portion is T, the mountain shape 2. The light reflecting plate according to claim 1, wherein when the slope angle at the slope bottom of the bent portion is θ (°), the H, L, P, T, and θ satisfy the following formula (1).
1/2 tan ⁻ (L / H) −10 ° ≦ θ
≦ 1/2 tan ⁻ [P / (HT)] + 10 ° (1)   The said light reflection board is formed with the film or sheet | seat of the thermoplastic resin which has a fine bubble or pore inside whose average bubble diameter is 50 nm or more and 50 micrometers or less inside, The Claim 1 or 2 characterized by the above-mentioned. Light reflector.   2. The light reflecting plate is a film or sheet of a thermoplastic resin containing a filler, and is formed of a film or sheet in which a large number of voids are formed with the filler as a nucleus. Or the light reflecting plate of 2.   The thermoplastic resin film or sheet containing the filler is formed into an unstretched film or sheet containing the filler, and the unstretched film or sheet is stretched to form a number of voids with the filler as a core. The light reflecting plate according to claim 4, wherein the light reflecting plate is a porous stretched film or sheet. A light reflecting plate laminate comprising the light reflecting plate according to any one of claims 1 to 5 attached to a metal plate or a hard resin plate.

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