JP6250269B2 - Panel member and optical device - Google Patents

Description

  The present invention relates to a panel member that changes the traveling direction of light.

  For example, as disclosed in Patent Document 1, a light control sheet that changes the traveling direction of light incident from one side and transmits the light to the other side is known. Patent Document 1 discloses an example in which such a light control sheet is applied to a window.

  By the way, it is preferable that the indoor wall material or the like reflects a part of the illumination light in a certain direction, or the indoor wall material or the like reflects a part of the illumination light to a specific position or region. There is. That is, a desired illumination design can be realized by optimally distributing light illuminated from a specific direction. For example, if a part of light projected from indoor lighting equipment to various positions in the room is reflected by a wall material or the like, it can be used as light for illuminating a specific place in the room, for example, between the floors, from various directions. preferable. Also, energy efficiency can be substantially improved by directing at least a portion of the light from the light source projected from different directions to the various positions in the desired direction. And such illumination can be implement | achieved by the panel member which reflects the light which injects along two or more directions in a desired direction, respectively.

  Further, the present invention is not limited to indoor lighting, and it may be desired that light incident along two or more directions is reflected in a desired direction.

JP 2010-259406 A

  The present invention has been made in consideration of the above points, and is a panel member that reflects at least a part of light incident along two or more directions in a desired direction, and this panel member. It is an object to provide an optical device including the above.

The first panel member according to the present invention comprises:
A light control sheet having a first surface and a second surface disposed opposite to each other;
A light reflecting sheet disposed opposite to the second surface of the light control sheet,
The second surface of the light control sheet includes a plurality of first inclined surfaces arranged in one direction parallel to the sheet surface of the light control sheet, and a plurality of second inclined surfaces arranged in the one direction. The first inclined surface and the second inclined surface are alternately arranged in the one direction,
In a cross section parallel to both the normal direction of the light control sheet and the one direction, the first inclined surface and the second inclined surface are inclined in the opposite direction with respect to the normal direction of the light control sheet,
In a cross section in which the first inclined surface is parallel to both the normal direction of the light control sheet and the one direction, an angle θa formed with respect to the sheet surface of the light control sheet is at least of the first inclined surface. In part, satisfy the following relationship:
(Cos ⁻¹ (1 / n)) / 2 ≦ θa ≦ 45 °
In a cross section in which the second inclined surface is parallel to both the normal direction of the light control sheet and the one direction, the angle θb formed with respect to the normal direction of the light control sheet is the angle of the second inclined surface. A panel member that at least partially satisfies the following relationship:
(Cos ⁻¹ (1 / n)) / 2 ≦ θb ≦ cos ⁻¹ (1 / n).

  1st panel member by this invention WHEREIN: The angle which the said 1st inclined surface makes | forms with respect to the sheet | seat surface of the said light control sheet in the cross section parallel to both the normal line direction of the said light control sheet and the said one direction θa may vary so as to decrease on the light reflecting sheet side.

The second panel member according to the present invention is:
A light control sheet having a first surface and a second surface disposed opposite to each other;
A light reflecting sheet disposed opposite to the second surface of the light control sheet,
The second surface of the light control sheet includes a plurality of first inclined surfaces arranged in one direction parallel to the sheet surface of the light control sheet, and a plurality of second inclined surfaces arranged in the one direction. The first inclined surface and the second inclined surface are alternately arranged in the one direction,
In a cross section parallel to both the normal direction of the light control sheet and the one direction, the first inclined surface and the second inclined surface are inclined in the opposite direction with respect to the normal direction of the light control sheet,
In a cross section in which the first inclined surface is parallel to both the normal direction of the light control sheet and the one direction, an angle θa formed with respect to the sheet surface of the light control sheet is on the light reflection sheet side. It changes to be smaller.

In the first or second panel member according to the present invention,
A gap is formed between the first inclined surface, the second inclined surface adjacent to the first inclined surface from one side in the one direction, and the reflective sheet,
In a cross section parallel to both the normal direction and the one direction of the light control sheet, the one first inclined surface, and a second inclined surface adjacent to the first inclined surface from the other side in the one direction. May approach toward the light reflecting sheet.

  In the first or second panel member according to the present invention, in the cross section parallel to both the normal direction and the one direction of the light control sheet, the light control sheet of the first inclined surface and the second inclined surface of the light control sheet. You may make it the magnitude | size of the inclination angle with respect to a sheet | seat surface mutually differ.

  1st or 2nd panel member by this invention WHEREIN: In the cross section parallel to both the normal line direction of the said light control sheet, and the said one direction, the inclination with respect to the sheet | seat surface of the said light control sheet of one 1st inclined surface The magnitude of the angle value may be smaller than the magnitude of the angle of inclination of the second inclined surface adjacent to the first inclined surface from the other side in the one direction with respect to the sheet surface of the light control sheet. Good.

  1st or 2nd panel member by this invention WHEREIN: The said light control sheet | seat is between one 1st inclined surface and the 2nd inclined surface adjacent to the said 1st inclined surface and the other side in the said one direction. The light control sheet may further be connected to the reflection sheet via the flat surface.

  In the first or second panel member according to the present invention, each first inclined surface extends in a direction non-parallel to the one direction, and each second inclined surface extends in a direction non-parallel to the one direction. Also good.

  In the first or second panel member according to the present invention, the plurality of first inclined surfaces are arranged to be parallel to each other, and the plurality of second inclined surfaces are arranged to be parallel to each other. Also good.

  The 1st or 2nd panel member by this invention WHEREIN: The said 2nd surface may have an unevenness | corrugation.

The third panel member according to the present invention is:
A light control sheet having a sheet-shaped main body, and a plurality of unit elements arranged along one direction on the main body,
A light reflecting sheet disposed on the side of the light control sheet on which the unit elements are provided,
Each unit element has a first inclined surface arranged on one side in one direction and a second inclined surface arranged on the other side in one direction,
In a cross section parallel to both the normal direction and the one direction of the light control sheet, the first inclined surface and the second inclined surface are inclined in a direction opposite to the normal direction of the light control sheet. ,
In a cross section in which the first inclined surface is parallel to both the normal direction of the light control sheet and the one direction, an angle θa formed with respect to the sheet surface of the light control sheet is at least of the first inclined surface. In part, satisfy the following relationship:
(Cos ⁻¹ (1 / n)) / 2 ≦ θa ≦ 45 °
In a cross section in which the second inclined surface is parallel to both the normal direction of the light control sheet and the one direction, the angle θb formed with respect to the normal direction of the light control sheet is the angle of the second inclined surface. A panel member that at least partially satisfies the following relationship:
(Cos ⁻¹ (1 / n)) / 2 ≦ θb ≦ cos ⁻¹ (1 / n).

  4th panel member by this invention WHEREIN: The angle which the said 1st inclined surface makes | forms with respect to the sheet surface of the said light control sheet in the cross section parallel to both the normal line direction of the said light control sheet and the said one direction θa may vary so as to decrease on the light reflecting sheet side.

The fourth panel member according to the present invention is:
A light control sheet having a sheet-shaped main body, and a plurality of unit elements arranged along one direction on the main body,
A light reflecting sheet disposed on the side of the light control sheet on which the unit elements are provided,
Each unit element has a first inclined surface arranged on one side in one direction and a second inclined surface arranged on the other side in one direction,
In a cross section parallel to both the normal direction and the one direction of the light control sheet, the first inclined surface and the second inclined surface are inclined in a direction opposite to the normal direction of the light control sheet. ,
In a cross section in which the first inclined surface is parallel to both the normal direction of the light control sheet and the one direction, an angle θa formed with respect to the sheet surface of the light control sheet is on the light reflection sheet side. It changes to be smaller.

  In the third or fourth panel member according to the present invention, a gap is formed between the two unit elements adjacent to the one direction and the light reflecting sheet, and the normal direction of the light control sheet and the one of the light reflecting sheets are the same. In a cross section parallel to both directions, the first inclined surface and the second inclined surface of one unit element may be approached toward the light reflecting sheet side.

  3rd or 4th panel member by this invention WHEREIN: In the cross section parallel to both the normal line direction and the said one direction of the said light control sheet, the 1st inclined surface and the said 2nd inclined surface of the said light control sheet You may make it the magnitude | size of the value of the inclination angle with respect to a sheet | seat surface mutually differ.

  3rd or 4th panel member by this invention WHEREIN: The sheet | seat of the said light control sheet of the 1st inclined surface of one unit element in the cross section parallel to both the normal line direction of the said light control sheet and the said one direction The magnitude of the value of the inclination angle with respect to the surface may be larger than the magnitude of the value of the inclination angle with respect to the sheet surface of the light control sheet of the second inclined surface of the unit element.

  In the third or fourth panel member according to the present invention, the unit element further includes a flat surface disposed between the first inclined surface and the second inclined surface, and the light control sheet includes the light control sheet, You may connect with the said reflective sheet through the flat surface.

  In the third or fourth panel member according to the present invention, each unit element may extend in a direction non-parallel to the one direction.

  In the third or fourth panel member according to the present invention, the plurality of unit elements may have the same shape.

  The 3rd or 4th panel member by this invention WHEREIN: The surface on the opposite side to the side in which the said unit element of the said main-body part is provided may have an unevenness | corrugation.

  In the third or fourth panel member according to the present invention, the light control sheet and the light reflection sheet may be bonded to each other.

  In the third or fourth panel member according to the present invention, a pattern may be formed on a surface of the light reflecting sheet facing the light control sheet.

An optical device according to the present invention comprises:
Any one of the first to fourth panel members according to the present invention described above;
A light source that projects light from the light control sheet side to the panel member.

  In the optical device according to the present invention, the light source may project light onto the panel member from a direction inclined from the one side to the other side in the one direction toward the panel member.

  According to the present invention, at least a part of light incident along two or more directions can be reflected in a desired direction.

FIG. 1 is a side sectional view illustrating an optical device and a panel member for explaining an embodiment according to the present invention. FIG. 2 is a partially enlarged view of the panel member of FIG. 1 and is a view for explaining the operation of the optical device and the panel member. FIG. 3 is a perspective view showing a light control sheet of the panel member of FIG. FIG. 4 is a partially enlarged view of the panel member of FIG. 1 and is a view for explaining the operation of the optical device and the panel member. FIG. 5 is a view corresponding to FIG. 4 and illustrating a modified example of the panel member. FIG. 6 is a view corresponding to FIG. 2 and for explaining another modified example of the panel member.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. In the drawings attached to the present specification, for the sake of illustration and ease of understanding, the scale, the vertical / horizontal dimension ratio, and the like are appropriately changed and exaggerated from those of the actual product.

  1 to 4 are diagrams for explaining an embodiment according to the present invention. Among these, FIG.1, FIG.2 and FIG.4 is a longitudinal cross-sectional view which shows an optical device and a panel member. FIG. 3 is a perspective view showing an optical sheet of the panel member. 1, 2, and 4 are cross-sectional views taken along line XX in FIG. 3.

  The optical device 10 and the panel member 20 according to the present embodiment described below are used as a lighting device, for example. The panel member 20 is used as a wall material and changes the traveling direction of light from the light source 15.

  In particular, the panel member 20 can reflect at least a part of light incident along two or more directions in desired directions, as will be described later. Then, the optical device 10 as the illumination device causes a part of light projected from the light source 15 to various positions of the panel member 20 to travel toward a predetermined position by reflection on the panel member 20. For example, if a part of the light source light proceeds toward a specific region or position due to reflection at each position of the panel member 20, it is desired without increasing the total light amount projected from the light source 15. Illumination with light distribution can be realized. That is, according to the optical device 10 and the panel member 20, it is possible to realize energy saving by effectively using the light from the light source 15.

  However, the following description is merely an example, and the optical device 10 and the panel member 20 are used for applications other than the lighting device, for example, a ceiling material that can emit light, a floor material, and a display device for displaying information. It is also possible to use it. In particular, when the optical device 10 is used as a display device, the light source light that is incident on each position of the panel member 20 from different incident directions can be directed by the panel member 20 toward the observer of the display device. Very preferred. In this case, the brightness of the image sensed by the observer can be effectively improved by increasing the output of the light source, in other words, by effectively using the light source light.

  In the present specification, terms such as “sheet”, “film”, and “plate” are not distinguished from each other only based on the difference in names. Therefore, for example, a “sheet” is a concept including a member that can also be called a film or a plate. As a specific example, the “light control sheet” includes members called “light control film” and “light control plate”, and the “light reflection sheet” includes “light reflection film” and “light reflection plate”. And so on.

  In this specification, “sheet surface (film surface, plate surface)” is the same as the planar direction of the target sheet-like member when the target sheet-like member is viewed as a whole and globally. It refers to the surface to be used. In the embodiment described below, the panel surface of the panel member 20, the sheet surface of the light reflecting sheet 30 described later, the sheet surface of the light control sheet 40 described later, the first surface 41 of the light control sheet 40, and the main body 50. The sheet surface, the first surface 51 of the main body 50 and the second surface 52 of the main body 50 are parallel to each other.

  Furthermore, in this specification, the “normal direction of the panel member” refers to a normal direction to the panel surface of the panel member 20. Therefore, in the embodiment described below, the normal direction of the panel member 20 is the normal direction of the light reflecting sheet 30 and the normal direction of the light control sheet 40, and the normal direction of the first surface 41 of the light control sheet 40. It is parallel to the normal direction of the main body 50, the normal direction of the first surface 51 of the main body 50, and the normal direction of the second surface 52 of the main body 50.

  Hereinafter, configurations and operational effects of the optical device 10 and the panel member 20 according to the present embodiment will be described in detail. As shown in FIGS. 1 and 2, the optical device 10 includes a panel member (panel member) 20 and a light source 15 that projects light onto the panel member 20. The panel member 20 includes a light control sheet 40 having a first surface 41 and a second surface 42 disposed to face each other, and a light reflection sheet 30 disposed to face the second surface 42 of the light control sheet 40. ,have.

  In the example shown in FIG. 1, the panel member 20 is provided as a wall material in a room of a building, and is arranged so that the panel surface of the panel member 20 extends in the vertical direction. On the other hand, the light source 15 is attached to the ceiling in the room of the building. Therefore, as shown in FIG. 1, the light projected from the light source 15 enters each position of the panel member 20 from a direction inclined to one side with respect to the normal direction of the panel member 20. . However, the traveling direction of light incident on each position of the panel member 20 changes according to the distance from the light source 15 and is not constant. As the light source 15 of the optical device 10, various light sources, for example, a fluorescent lamp such as a linear cold cathode tube, a spot LED (light emitting diode), an incandescent light bulb, and the like can be used.

  Next, the panel member 20 will be described. As described above, the panel member 20 includes the light control sheet 40 having the first surface 41 and the second surface 42 disposed to face each other, and the light disposed to face the second surface 42 of the light control sheet 40. And a reflection sheet 30. As shown in FIG. 2, the light reflecting sheet 30 is disposed on the opposite side of the light source 15 and the indoor space where the observer is located around the light control sheet 40 in the normal direction nd of the panel member 20. Therefore, as shown in FIG. 2, the light L <b> 24 and L <b> 25 from the light source 15 passes through the light control sheet 40 and enters the light reflecting sheet 30.

  In the illustrated example, the light reflecting sheet 30 is connected to the light control sheet 40. The connection here does not require the light reflecting sheet 30 to be joined to the light control sheet 40, and the light reflecting sheet 30 may be in contact with the light control sheet 40 only. The light reflecting sheet 30 is a sheet-like member having a reflecting function of reflecting incident light. The reflection characteristics of the light reflecting sheet 30 may be diffuse reflection or specular reflection. When the reflection characteristic of the light reflecting sheet 30 is diffuse reflection, the diffusion characteristic may be isotropic diffusion or directional diffusion. Therefore, various reflection sheets can be used as the light reflection sheet 30, but in the present embodiment, a white resin sheet having an isotropic diffuse reflection function is used.

  When the panel member 20 is used as a wall material as in the present embodiment, a pattern may be formed on the surface of the light reflecting sheet 30 facing the light control sheet 40. As a pattern formed on the light reflecting sheet 30, a pattern similar to the other wall portion of the room in which the panel member 20 is provided, and as a specific example, a woodgrain pattern can be employed. In addition, as a specific example of a design having design properties, a picture-like design may be employed. Note that the pattern used in the present specification is not limited to the one indicating specific information or meaning the specific information, but is particularly limited to a figure, a character, a pattern, a pattern, a symbol, a pattern, a mark, a color, and the like. Including widely without.

  Next, the light control sheet 40 will be described. As shown in FIGS. 1 to 4, the sheet-shaped main body 50 and a plurality of the main body 50 arranged on the main body 50 along a first direction d <b> 1 extending on the main body 50 parallel to the sheet surface of the light control sheet 40. Unit element 60.

  The main body 50 is a layer that supports the unit element 60 and is appropriately configured so as to have appropriate strength and appropriate transparency. The main body 50 has a first surface 51 and a second surface 52 as a pair of main surfaces parallel to each other. The unit element 60 is provided on the second surface 52 of the main body 50. On the other hand, the first surface 51 of the main body 50 forms the first surface 41 of the light control sheet 40. The first surface 41 of the light control sheet 40 (the first surface 51 of the main body 50) is a surface facing the room side where the observer is present, and the incident surface on which the light projected from the light source 15 enters the panel member 20. Form. Further, the first surface 41 of the light control sheet 40 (the first surface 51 of the main body 50) is also used as an emission surface when changing the traveling direction of the light from the light source 15 and emitting the light from the panel member 20. Function. When the panel member 20 is used as a wall material as in the present embodiment, the first surface 51 of the main body 50 (the first surface 41 of the light control sheet 40) has a light diffusing function as a matte treatment. You may be comprised as a rough surface or the mat | matte surface containing the unevenness | corrugation to express.

  As an example, the thickness of the main body 50 can be 20 μm to 200 μm, and the main body 50 can be configured to include, for example, a biaxially stretched polyethylene terephthalate (PET) film. The biaxially stretched polyethylene terephthalate film is suitable for application as the main body 50 in that it has appropriate transparency and durability against ultraviolet irradiation treatment, heat treatment, and the like.

  Next, the plurality of unit elements 60 provided on the second surface 52 of the main body 50 will be described. As well shown in FIG. 3, each unit element 60 extends linearly in a direction non-parallel to the first direction d1. In particular, in the present embodiment, the plurality of unit elements 60 are arranged in the first direction d1 with a constant pitch without any gaps. Further, as well shown in FIG. 3, each unit element 60 has a second direction d2 extending perpendicularly to the first direction d1 and parallel to the panel surface of the panel member 20 (the sheet surface of the light control sheet 40). Along the straight line. In addition, each unit element 60 is formed in a columnar shape and has the same cross-sectional shape along its longitudinal direction. Further, in the present embodiment, the plurality of unit elements 60 are configured identically.

  Each unit element 60 arranged in the first direction d1 includes a first inclined surface 61 disposed on one side in the first direction d1, a second inclined surface 62 disposed on the other side in the first direction d1, have. As well shown in FIG. 2, the first inclined surface 61 and the second inclined surface 62 of each unit element 60 form the second surface 42 of the light control sheet 40. Therefore, the second surface 42 of the light control sheet 40 has the first inclined surfaces 61 and the second inclined surfaces 62 that are alternately arranged in the first direction d1. The plurality of first inclined surfaces 61 are arranged so as to be parallel to each other, and the plurality of second inclined surfaces 62 are arranged so as to be parallel to each other.

  In a cross section parallel to both the normal direction nd to the sheet surface of the light control sheet 40 and the first direction d1 (hereinafter also referred to as a main cutting surface of the light control sheet), that is, the cross section shown in FIGS. The first inclined surface 61 and the second inclined surface 62 are inclined in the opposite direction with respect to the normal direction nd to the sheet surface of the light control sheet 40. More specifically, in the main cut surface of the light control sheet, the first inclined surface 61 is inclined from one side to the other side in the first direction d1 from the main body portion 50 side toward the light reflecting sheet 30 side. And the 2nd inclined surface 62 inclines from the other side in the 1st direction d1 to the one side toward the light reflective sheet 30 side from the main-body part 50 side.

  On the main cut surface of the light control sheet, the first inclined surface 61 and the second inclined surface 62 of one unit element 60 approach from the main body portion 50 side toward the light reflecting sheet 30 side. Here, “approaching” means that the first inclined surface 61 located on one side in the first direction d1 and the second inclined surface 62 located on the other side in the first direction d1 are panels. It is not necessary to keep approaching constantly toward the light reflecting sheet 30 along the normal direction nd of the member 20, and the interval may be constant in part. That is, “approaching” means that the first inclined surface 61 located on one side and the second inclined surface 62 located on the other side are not separated toward the light reflecting sheet 30 side. It means that.

  Further, in the main cut surface of the light control sheet, the value of the inclination angle θa of the first inclined surface 61 with respect to the sheet surface of the light control sheet 40 (that is, the inclination of the first inclined surface 61 with respect to the sheet surface of the light control sheet). The absolute value of the angle θa is the magnitude of the value of the inclination angle θb of the second inclined surface 62 with respect to the sheet surface of the light control sheet (that is, the inclination angle θb of the second inclined surface 62 with respect to the sheet surface of the light control sheet). The absolute value of the value is different. As well shown in FIG. 2, the magnitude of the value of the inclination angle θa of the first inclined surface 61 with respect to the sheet surface of the light control sheet 40 is the inclination angle of the second inclined surface 62 with respect to the sheet surface of the light control sheet. It is smaller than the value of θb.

In addition, from the viewpoint of securing the effects described later, an angle θa formed by the first inclined surface 61 at the main cutting surface of the light control sheet with respect to the sheet surface of the light control sheet is the same as that of the first inclined surface 61. At least in part, the following condition (a) is satisfied, and an angle θb formed by the second inclined surface 62 at the main cutting surface of the light control sheet with respect to the sheet surface of the light control sheet is one second inclined surface. It is preferable that at least a part of 62 satisfies the following condition (b).
(Cos ⁻¹ (1 / n)) / 2 ≦ θa ≦ 45 ° (a)
(Cos ⁻¹ (1 / n)) / 2 ≦ θb ≦ cos ⁻¹ (1 / n) (b)
Here, the angles θa and θb formed by the first inclined surface 61 and the second inclined surface 62 with respect to the sheet surface of the light control sheet are the first inclined surface 61 or the first angle on the main cut surface of the light control sheet. 2 Refers to the size of the smaller one of the two angles formed by the inclined surface 62 and the sheet surface of the light control sheet. Therefore, the angles θa and θb take values of 0 ° or more and 90 ° or less. In the conditions (a) and (b), “n” is the refractive index of the unit element 60.

  In the example shown in FIGS. 1 to 4, each unit element 60 further includes a flat surface 63 disposed between the first inclined surface 61 and the second inclined surface 62. The flat surface 63 connects the first inclined surface 61 and the second inclined surface 62. 2 to 4, the second surface 42 of the light control sheet 40 includes first inclined surfaces 61 of the unit elements 60 arranged without gaps on the second surface 52 of the main body 50. The second inclined surface 62 and the flat surface 63 are formed.

  Further, as well shown in FIG. 2, the flat surface 63 is parallel to the surface of the light reflecting sheet 30 on the light control sheet 40 side. In the present embodiment, the light control sheet 40 is connected to the reflection sheet 30 via the flat surface 63.

  As well shown in FIG. 2, a gap 70 is formed between the two unit elements 60 adjacent to each other in the first direction d1 and the light reflecting sheet 30. That is, the first inclined surface 61 forms an interface between the light control sheet 40 and the gap 70, and the second inclined surface 62 forms an interface between the light control sheet 40 and the gap 70. As will be described later, the first inclined surface 61 and the second inclined surface 62 function as reflecting surfaces for at least part of incident light.

  The dimensions of the light control sheet 40 having the above configuration can be set as follows as an example. First, as a specific example of the unit element 60, the length W1 (see FIG. 2) of the first inclined surface 61 along the sheet surface of the light control sheet 40 is set to 0.1 mm or more and 1.0 mm or less. The length W2 (see FIG. 2) of the second inclined surface 62 along the sheet surface is set to 0.002 mm or more and 0.3 mm or less, and the length W3 of the flat surface 63 along the sheet surface of the light control sheet 40 (FIG. 2). Reference) can be 0.02 mm or more and 0.5 mm or less. Moreover, the magnitude | size of the value of inclination-angle (theta) a (refer FIG. 2) of the 1st inclined surface 61 with respect to the sheet surface of a light control sheet can be made into an angle of 23 degrees or more and 30 degrees or less. The value of the inclination angle θb (see FIG. 2) of the second inclined surface 62 with respect to the sheet surface of the light control sheet can be set to an angle of 35 ° or more and 50 ° or less, and more preferably, the sheet of the light control sheet. The magnitude of the value of the inclination angle θb (see FIG. 2) of the second inclined surface 62 with respect to the surface can be set to an angle of 40 ° to 45 °. Furthermore, the thickness of the main body 50 can be set to 0.02 mm or more and 1.0 mm or less.

  Moreover, the light control sheet 40 as described above can be manufactured by shaping the unit element 60 on a base material. As the base material, a film made of a transparent resin containing at least one of acrylic, styrene, polycarbonate, polyethylene terephthalate, acrylonitrile and the like as a main component can be used. Epoxy acrylate and urethane acrylate-based reactive resins (such as ionizing radiation curable resins) can be suitably used as the material to be molded on the substrate. In an example of this manufacturing method, the main body 50 may be formed only from the base material, or may be formed from the base material and a resin portion molded in a sheet shape on the base material. It may be. However, it is not restricted to producing the light control sheet 40 by molding using a reactive resin, and the light control sheet 40 may be produced by other manufacturing methods such as extrusion molding and injection molding.

  Next, the operation of the optical device 10 and the panel member 20 configured as above will be described. Here, the operation of the optical device 10 and the panel member 20 when the optical device 10 is used as a lighting device will be described.

  In the example shown in FIGS. 1 and 2, the panel member 20 is arranged such that the first direction d1 that is the arrangement direction of the unit elements 60 is parallel to the vertical direction, and one side in the first direction d1 is the vertical direction. The other side in the first direction d1 is located below the vertical direction. Therefore, the lights L11 to L13 and L21 to L25 projected from the light source 15 enter the respective positions of the panel member 20 from the direction inclined from one side to the other side in the first direction d1 toward the panel member 20.

  As shown in FIG. 2, the light beams L <b> 21 to L <b> 25 that have entered the panel member 20 enter the main body 50 that forms the outermost surface of the panel member 20 from the first surface 51 side. Although illustration is omitted, since the first surface 41 of the light control sheet 40 including the first surface 51 on the main body portion 50 includes irregularities, the incident light to the panel member 20 is to some extent. Spread. Similarly, the emitted light from the panel member 20 is also diffused to some extent. However, the unevenness of the first surface 41 of the light control sheet 40 (the first surface 51 of the main body 50) is intended to be frosted, and since diffusion is transmission diffusion, the degree of diffusion is low.

  Lights L <b> 21 to L <b> 25 incident on the light control sheet 40 of the panel member 20 travel from the main body 50 to the unit element 60. As shown in FIG. 2, the lights L <b> 21 to L <b> 25 traveling through the unit element 60 are then incident on the second surface 42 of the light control sheet 40. The second surface 42 includes a first inclined surface 61, a second inclined surface 62, and a flat surface 63 that are inclined with respect to each other. Then, depending on which surface 61, 62, 63 of the second surface 42 the light from the light source 15 enters, the optical action exerted thereafter, and the traveling direction as a result, are different. become.

  First, the light L25 incident on the flat surface 63 is diffusely reflected by the light reflecting sheet 30 connected to the flat surface 63. As a result, the light L25 incident on the flat surface 63 is diffused in an angle region corresponding to the degree of diffusivity of the light reflecting sheet 30, and proceeds toward the room where the panel member 20 is installed.

  Note that, when the light reflection sheet 30 has a strong diffusivity, the light L25a diffused at a wide angle by the light reflection sheet 30 enters the first inclined surface 61 and the second inclined surface 62. The first inclined surface 61 and the second inclined surface 62 located on both sides of the flat surface 63 gradually spread in the first direction d1 from the light reflecting sheet 30 side toward the main body portion 50 side. Therefore, the light L25a diffused at a wide angle by the light reflecting sheet 30 has the first inclined surface 61 or the second inclined surface 62 so that the angle formed by the traveling direction with respect to the normal direction nd of the panel member 20 becomes small. Therefore, the total reflection is caused by the difference in refractive index between the gap 70 and the unit element 60.

  According to this example, even if the diffusibility of the light reflecting sheet 30 is set so strong that the directivity due to the incident direction of the incident light is sufficiently lost, the light L25 incident on the flat surface 63 is It is possible to effectively prevent the panel member 20 from proceeding in a direction greatly inclined with respect to the normal direction nd of the panel member 20. That is, it is possible to suppress the light from the light source 15 from being emitted in a direction in which it cannot be used effectively, thereby achieving effective use of the light from the light source 15 and realizing energy saving.

  Next, the light L24 incident on the second inclined surface 62 will be examined. As shown well in FIG. 2, the traveling direction of the light L <b> 24 incident on the main body 50 of the light control sheet 40 from the light source 15 is opposite to the second inclined surface 62 with respect to the normal direction nd of the panel member 20. Inclined. That is, the traveling direction of the light L24 that enters the light control sheet 40 from the light source 15 and travels through the main body 50 is different from one side in the first direction d1 toward the light reflecting sheet 30 from the main body 50 side. Tilt to the side. On the other hand, in the main cut surface of the light control sheet 40, the second inclined surface 62 is inclined from the other side in the first direction d1 to the one side from the main body 50 side to the light reflecting sheet 30 side. Yes. Accordingly, there is a tendency that the incident angle of the light L24 traveling in the main body 50 to the second inclined surface 62 becomes small.

  Therefore, the light L24 that enters the light control sheet 40 from the light source 15 and travels through the main body 50 is transmitted through the second inclined surface 62 with a high transmittance without being totally reflected by the second inclined surface 62. As a result, the light L24 incident on the second inclined surface 62 is diffusely reflected by the light reflecting sheet 30 and diffused in an angle range corresponding to the degree of diffusing power of the light reflecting sheet 30, and the panel member 20 is installed. Proceed toward the room.

  Finally, the lights L21 to L23 incident on the first inclined surface 61 will be examined. As is well illustrated in FIG. 2, the traveling directions of the light beams L21 to L23 that are incident on the main body 50 of the light control sheet 40 from the light source 15 are the same as those of the first inclined surface 61 with respect to the normal direction nd of the panel member 20. Inclined to the side. That is, in the main cut surface of the light control sheet 40, the first inclined surface 61 is similar to the traveling direction of the lights L 21 to L 23 that enter the light control sheet 40 from the light source 15 and travel through the main body 50. Inclined from one side to the other side in the first direction d1 from the first side toward the light reflecting sheet 30 side. Accordingly, the incident angles of the lights L21 to L23 that enter the light control sheet 40 from the light source 15 and travel through the main body 50 to the first inclined surface 61 become very large and are totally reflected by the first inclined surface 61. . As shown well in FIG. 2, the light totally reflected by the first inclined surface 61 is then directed to the second inclined surface 62 and further totally reflected by the second inclined surface 62, so that the panel member 20 is installed. Proceed toward the room.

In this way, the light L21 to L23 that enters the main body 50 of the light control sheet 40 from the light source 15 and travels toward the first inclined surface 61 is reflected from the first inclined surface 61 and the second inclined surface 62 from 20 after reflection. The light is emitted to illuminate the room. The inclination angles θa and θb of the first inclined surface 61 and the second inclined surface 62 are such that the lights L21 to L23 that are incident on the light control sheet 40 from the light source 15 and totally reflected by the first inclined surface 61 are then second inclined. It is designed such that it enters the surface 62 and is totally reflected by the second inclined surface 62, and proceeds from the panel member 20 into the room. As an example, as described above, the light control sheet 40 is preferably designed so that the conditions (a) and (b) are satisfied.
(Cos ⁻¹ (1 / n)) / 2 ≦ θa ≦ 45 ° (a)
(Cos ⁻¹ (1 / n)) / 2 ≦ θb ≦ cos ⁻¹ (1 / n) (b)
When the conditions (a) and (b) are satisfied, if the diffusion on the first surface 41 of the light control sheet 40 is ignored, as will be described below, the light source 15 enters the panel member 20 and then the first inclination At least a part of the light traveling to the surface 61 is reflected by the first inclined surface 61, travels to the second inclined surface 62, is totally reflected by the second inclined surface 62, and then the first surface 51 ( It is possible to pass through the first surface 41) of the light control sheet 40 and proceed toward the room where the panel member 20 is installed.

First, as shown in FIGS. 1 and 2, the light projected from the light source 15 is directed toward the panel member 20 from the direction inclined from one side to the other side in the first direction d <b> 1 to each position of the panel member 20. Incident. Therefore, the incident angle of the light incident on the light control sheet 40 of the light incident on the panel member 20 is greater than 0 ° and smaller than 90 °. For this reason, the inclination angle θa of the first inclined surface 61 to the sheet surface of the light control sheet 40 can be designed to satisfy the following equation (a1). In formula (a1), light incident on the light control sheet 40 at any incident angle of 0 ° to 90 ° is reflected by the first inclined surface 61 and parallel to the sheet surface of the light control sheet 40. It is a condition that will proceed in the right direction. As shown in FIG. 4, “θr” in the formula (a1) is the light for the light reflected by the first inclined surface 61 and traveling in the direction parallel to the sheet surface of the light control sheet 40. This is the refraction angle when entering the control sheet 40.
1 × sin0 ° ≦ n × sin (θr) = n × cos (2 × θa) ≦ 1 × sin90 °
... (a1)

  The above condition (a) can be obtained by summing up the equation (a1) with respect to the angle θa. That is, when the condition (a) is satisfied, any light of the light incident from the light source 15 toward the panel member 20 from the direction inclined from one side to the other side in the first direction d1 is the first inclined surface 61. , And proceeds in a direction parallel to the sheet surface of the light control sheet 40, so that it can enter the second inclined surface 62.

  2, the traveling directions of the light beams L21 to L23 that are incident on the main body 50 of the light control sheet 40 from the light source 15 are the first inclined surfaces 61 with respect to the normal direction nd of the panel member 20. Inclined on the same side. And when the light control sheet 40 is produced using the resin material normally used in an optical use or a building material use, when Formula (a1) is satisfy | filled, the 1st of the light which injected into the light control sheet 40 from the light source 15 is satisfy | filled. The reflection on the inclined surface 61 is total reflection.

Next, the condition for the light traveling in the direction parallel to the sheet surface of the light control sheet 40 to be totally reflected by the second inclined surface 62 is expressed by Expression (b1). Further, the light that travels in the direction parallel to the sheet surface of the light control sheet 40 and enters the second inclined surface 62 and then totally reflected by the second inclined surface 62 is totally reflected by the first surface 51 of the main body 50. The condition not to be performed is represented by the formula (b2). In the examination of the formula (b2), the first surface 51 of the main body 50 is assumed to be a smooth surface. Further, as shown in FIG. 4, “θi” in the formula (b2) proceeds in a direction parallel to the sheet surface of the light control sheet 40 and enters the second inclined surface 62, and then the second inclined surface 62. This is the incident angle when the light totally reflected at 1 is incident on the first surface 51 of the main body 50 (the first surface 41 of the light control sheet 40).
n × cos (θb) ≧ 1 × sin 90 ° (b1)
1 × sin 90 ° ≧ n × sin (θi) = n × cos (2 × θb) (b2)

  The above condition (b) can be obtained by combining the expressions (b1) and (b2) with respect to the angle θb. That is, when the condition (b) is satisfied, light that travels in a direction parallel to the sheet surface of the light control sheet 40 and enters the second inclined surface 62 is totally reflected by the second inclined surface 62, and thereafter The first surface 51 of the main body 50 (the first surface 41 of the light control sheet 40) passes through the first surface 51 of the main body 50 without being totally reflected, and proceeds toward the room where the panel member 20 is installed. It becomes possible.

  By the way, as well shown in FIG. 1, the incident direction of light from the light source 15 incident on the panel member 20 changes according to the incident position on the panel member 20. That is, the angle θx formed by the incident directions of the light beams L11 to L13 incident on the respective positions of the panel member 40 with respect to the normal direction nd of the panel member 20, that is, the so-called incident angle θx is an incident position on the light source 15 and the panel member 20. Depending on the distance along the first direction d1. Specifically, as shown in FIG. 1, as the incident position on the panel member 20 moves away from the light source 15 along the first direction d1, the light projected from the light source 15 enters the panel member 20. The angle θx increases.

  However, even if the incident direction of the light from the light source 15 is changed, the light L24 and L25 traveling in the main body 50 of the light control sheet 40 toward the second inclined surface 62 and the flat surface 63 are transmitted by the light reflecting sheet 30. Diffuse reflected. For this reason, the difference in the incident direction of the light incident on each position of the panel member 20 is canceled by the diffuse reflection on the light reflecting sheet 30. Therefore, the light emission direction from the panel member 20 toward the room is substantially the same at each position on the panel member 20.

  On the other hand, the light L11 to L13 and L21 to L23 traveling in the main body 50 of the light control sheet 40 toward the first inclined surface 61 are reflected by the first inclined surface 61 and the first inclined surface 61. As a result of the reflection at the second inclined surface 62 after the reflection, the light is emitted toward the room. For this reason, the light L11 to L13 and L21 to L23 have different emission directions according to the difference in the incident direction. Specifically, an angle inclined to one side in the first direction d1 with respect to the normal direction nd of the panel member 20 is set to a positive value, and in the first direction with respect to the normal direction nd of the panel member 20 Assuming that the angle inclined to the other side is a negative value, if the value of the incident angle θx is large, the emission angle (the emission directions of the light L11 to L13 and L21 to L23 emitted from each position of the panel member 40 are The value of the angle θy with respect to the normal direction nd is also increased.

  In the example shown in FIG. 1, the light L11 incident on the panel member 20 at a position on one side of the panel member 20 in the first direction d1, and then reflected by the first inclined surface 61 and the second inclined surface 62, The light L21 incident on the panel member 20 at a relatively small incident angle θx in FIG. 2 and then reflected by the first inclined surface 61 and the second inclined surface 62 is inclined to the other side in the first direction d1. And go indoors. On the other hand, the light L13 incident on the panel member 20 at a position on the other side in the first direction d1 of the panel member 20 and then reflected by the first inclined surface 61 and the second inclined surface 62 is shown in FIG. The light L23 that is incident on the panel member 20 at a relatively large incident angle θx and then reflected by the first inclined surface 61 and the second inclined surface 62 is inclined to one side in the first direction d1 to enter the room. Proceed.

  In particular, in the illustrated example, the light L11 to L13 and L21 to L23 reflected by the first inclined surface 61 and the second inclined surface 62 are not limited to the specific region in the room regardless of the position of the panel member 20 in the first direction d1. Alternatively, the light is emitted toward the center of the room, for example. According to such illumination using the lights L11 to L13 and L21 to L23, it is possible to effectively prevent the light from the light source 15 from being emitted in a direction that is not easily used for indoor illumination. That is, according to the present embodiment, among the light from the light source 15 incident on each position of the panel member 20 along various directions, the light directed to the first inclined surface 61 after that is first inclined, respectively. The surface 61 and the second inclined surface 62 can reflect in a desired direction. Specifically, the light from the light source 15 can be emitted in a direction that can effectively contribute to an increase in the brightness of the room by reflection on the first inclined surface 61 and the second inclined surface 62. Thereby, the effective use of the light from the light source 15 can be achieved, and energy saving can be realized.

  In addition, the ratio of the light which goes to the 1st inclined surface 61 after that among the lights from the light source 15 which inject into each position of the panel member 20 along various directions is the 1st along the sheet surface of the light control sheet 40. It can be increased or decreased by adjusting the width W1 of the first inclined surface 61, the width W2 of the second inclined surface 62, and the width W3 of the flat surface 63. As an example, by increasing the ratio of the width W1 of the first inclined surface 61 along the sheet surface of the light control sheet 40 and / or the width W3 of the flat surface 63 along the sheet surface of the light control sheet 40. By decreasing the ratio, it is possible to increase the ratio of the light toward the first inclined surface 61 after entering the panel member 20. Further, by reducing the ratio of the width W1 of the first inclined surface 61 along the sheet surface of the light control sheet 40 and / or the ratio of the width W3 of the flat surface 63 along the sheet surface of the light control sheet 40. By increasing the ratio, the ratio of the light toward the first inclined surface 61 after being incident on the panel member 20 can be decreased.

  By the way, according to the present embodiment, the pattern is formed on the surface of the light reflecting sheet 30 facing the light control sheet 40. Of the light from the light source 15 that is incident on each position of the panel member 20 along various directions, the light L24 and L25 that is subsequently directed to the second inclined surface 62 or the flat surface 63 is incident on the light reflecting sheet 30; This pattern will be illuminated. Thereby, even if the light that illuminates the panel member 20 is only the light projected from the light source 15, a person in the room can observe the pattern formed on the light reflecting sheet 30.

  Further, according to the present embodiment, the light control sheet 40 and the light reflecting sheet 30 are connected via the flat surface 63 of the unit element 60 extending along the sheet surface of the light reflecting sheet 30. For this reason, the light control sheet 40 and the light reflection sheet 30 can be stably joined, and the panel member 20 can stably exhibit the expected effects.

  As described above, according to the present embodiment, at least a part of light incident along two or more directions can be reflected in a desired direction. Thereby, it becomes possible to apply the panel member 20 and the optical device 10 suitably for various uses. As an example, the optical device 10 and the panel member 20 are used as a lighting device, and a part of the light projected from the light source 15 is reflected by the panel member 20 so as to illuminate a specific place, for example, a floor, from various directions. It may be.

  Note that various modifications can be made to the above-described embodiment. Hereinafter, an example of a modification will be described.

  For example, in the above-described embodiment, the example in which the first inclined surface 61 is formed as a flat surface and extends linearly on the main cut surface of the light control sheet is shown. However, the first inclined surface 61 may be formed as a combination of a curved surface, a folded surface, a curved surface, and a folded surface. That is, as shown in FIGS. 5 and 6, the first inclined surface 61 may be formed as a straight line, a curved line, or a combination of a straight line and a curved line on the main cut surface of the light control sheet. According to such an example, the light whose light path is controlled by the light control sheet 40 is diffused to some extent, the distribution of the luminance on the panel member 20 along the first direction d1, and the panel member The angular distribution of brightness at each position changes gently.

  For example, in the application of the above-described embodiment, it is considered that light reflected by the unit element 60 arranged at a certain position in the first direction d1 travels toward the eye position of the observer in the room. It is done. In such a case, there is a possibility that only a certain part of the panel member 20 in the first direction d1 is shining and dazzling. On the other hand, when the first inclined surface 61 is formed of a curved surface or a bent surface as in the example shown in FIGS. 5 and 6, it is possible to effectively eliminate such glare. Become.

  By the way, when the 1st inclined surface 61 is formed in the curved surface and the broken surface like the example shown by FIG. 5 and FIG. 6, the 1st inclined surface 61 is light control in the main cut surface of a light control sheet. The angle θa formed with respect to the sheet surface of the sheet 40 is not constant but varies within the one first inclined surface 61. In such a form, as well shown in FIGS. 5 and 6, the inclination angle θa of the first inclined surface 61 is made smaller on the light reflecting sheet 30 side than on the main body part 50 side. It is preferable to change to. In other words, in the illustrated example, it is preferable that the inclination angle θa of the first inclined surface 61 changes so as to be smaller on the other side than on one side in the first direction d1. However, the inclination angle θa may be changed stepwise as shown in FIG. 5, or may be changed continuously as shown in FIG.

  In the case where the first inclined surface 61 is formed in a curved shape in the main cut surface of the light control sheet as in the example shown in FIG. 6, the inclination angle θa described above is directed to the first inclined surface 61. The tangent line TL is an angle formed with respect to the sheet surface of the light control sheet 40.

  In FIG. 5, the optical paths of the light beams L51 and L52 that travel in the same direction and then enter the portions of the first inclined surface 61 at different inclination angles θa are shown. As shown in FIG. 5, when entering the first inclined surface 61 from the same direction, the light L51 incident on the first inclined surface 61a having the larger inclination angle θa1 is the first inclined surface 61b having the smaller inclination angle θa2. Compared with the light L52 incident on the light, the course of the light is not greatly changed. In other words, the light L52 that has entered the first inclined surface 61b having a smaller inclination angle θa2 has a relatively large path changed to the main body portion 50 side, that is, the light emitting surface of the panel member 20. It becomes easier to face the first surface 51 (the first surface 41 of the light control sheet 40).

  Therefore, the first inclined surface 61b having a smaller inclination angle θa2 is located on the light reflecting sheet 30 side in the normal direction nd of the light control sheet 40, and the first inclined surface 61a having a larger inclination angle θa1 is light controlled. If the sheet 40 is positioned on the main body part 50 side in the normal direction nd of the sheet 40, the light reflected by the first inclined surface 61 is likely to enter the second inclined surface 62 thereafter. In other words, when the inclination angle θa of the first inclined surface 61 changes to be smaller on the other side than the one side in the first direction d1, the light reflected by the first inclined surface 61 is then It is possible to effectively prevent the light from entering the first inclined surface 62 and proceeding to the first surface 51 (the first surface 41 of the light control sheet 40) of the main body 50 serving as the light exit surface of the panel member 20.

  As a result, when the inclination angle θa of the first inclined surface 61 changes to be smaller on the light reflecting sheet 30 side than on the main body part 50 side in the normal direction nd of the light control sheet 40, the light source 15 to the panel member More of the light incident on the 20 light control sheets 40 is first reflected by the first inclined surface 61, then reflected by the second inclined surface 62, and then emitted from the panel member 20. Thereby, the above-described effect of directing at least a part of light incident along two or more directions in a desired direction is more stably exhibited.

In the modification described here, it is preferable that the conditions (a) and (b) described above are satisfied in at least a part of the first inclined surface 61.
(Cos ⁻¹ (1 / n)) / 2 ≦ θa ≦ 45 ° (a)
(Cos ⁻¹ (1 / n)) / 2 ≦ θb ≦ cos ⁻¹ (1 / n) (b)
When the conditions (a) and (b) are satisfied, if the diffusion on the first surface 41 of the light control sheet 40 is ignored, as will be described below, the light source 15 enters the panel member 20 and then the first inclination At least a part of the light traveling to the surface 61 is reflected by the first inclined surface 61, travels to the second inclined surface 62, is reflected by the second inclined surface 62, and then the first surface 51 (light control) of the main body 50. Passing through the first surface 41) of the sheet 40 and proceeding toward the room in which the panel member 20 is installed can be performed more stably.

  In the above-described embodiment, the second inclined surface 62 is configured as a flat surface. However, instead of the first inclined surface 61 or in addition to the first inclined surface 61 in the above-described modified example, the second inclined surface 61 is provided. 62 may be formed as a combination of a curved surface, a folded surface, a curved surface, and a folded surface. That is, the second inclined surface 62 may be formed as a straight line, a curved line, or a combination of a straight line and a curved line on the main cut surface of the light control sheet. Also in such an example, the light whose light path is controlled by the light control sheet 40 is diffused to some extent, the distribution of the luminance on the panel member 20 along the first direction d1, and each of the light on the panel member. The angular distribution of brightness at the position changes gently.

  Furthermore, in the above-described embodiment, the example in which the flat surface 63 is provided between the first inclined surface 61 and the second inclined surface 62 has been described. However, the present invention is not limited to this, and the flat surface 63 is omitted. Also good. That is, the second surface 42 of the light control sheet 40 may be configured by the first inclined surface 61 and the second inclined surface 62 of the unit element 60.

  Further, in the above-described embodiment, the example in which the unit elements 60 are arranged without gaps on the second surface 52 of the main body 50 has been described. However, the present invention is not limited to this, and the unit elements 60 are arranged on the second surface 52 of the main body 50. The elements 60 may be arranged with a gap. According to this example, a part of the second surface 42 of the light control sheet 40 is configured by the second surface 52 of the main body 50.

  Furthermore, in the above-described embodiment, the example in which the plurality of unit elements 60 are configured identically to each other has been described, but the present invention is not limited to this. Moreover, although the example in which the some 1st inclined surface 61 was mutually comprised was shown, it is not restricted to this. Furthermore, although the example in which the several 2nd inclined surface 62 was mutually comprised was shown, it is not restricted to this. Furthermore, although the example in which the some flat surface 63 was mutually comprised was shown, it is not restricted to this. Moreover, although the example in which the several unit element 60 was arranged in the 1st direction d1 with the fixed pitch was shown, it is not restricted to this. Depending on the distance from the light source 15 along the first direction d1, the shape of the unit element 60, the inclination angle θa of the first inclined surface 61 with respect to the normal direction nd of the panel member, and the second with respect to the normal direction nd of the panel member The inclination angle θb of the inclined surface 62, the arrangement pitch of the unit elements 60 along the sheet surface of the light control sheet, the width W1 of the first inclined surface 61 along the sheet surface of the light control sheet, and the sheet surface of the light control sheet The width W2 of the second inclined surface 62 and the width W3 of 63 along the sheet surface of the light control sheet may be changed.

  Further, in the above-described embodiment, each unit element 60 extends linearly and a plurality of unit elements 60 are arranged in a one-dimensional array (linear array array). However, the present invention is not limited to this. Each unit element 60 may be formed in a dot shape, and each unit element 60 may be arranged in a two-dimensional array.

  Furthermore, in the above-described embodiment, an example in which a pattern is formed on the light reflecting sheet 30 has been described. However, a pattern may be formed in addition to the light reflecting sheet 30, and in addition to the pattern of the light reflecting sheet 30 And the pattern may be formed in the other part of the panel member 20. As an example, a pattern may be formed on the first surface 51 of the main body 50 (the first surface 41 of the light control sheet 40), or a pattern may be formed on the second surface 52 of the main body 50 of the light control sheet 40. May be.

  In addition, although the some modification with respect to embodiment mentioned above was demonstrated above, naturally, it is also possible to apply combining several modifications suitably.

DESCRIPTION OF SYMBOLS 10 Optical device 15 Light source 20 Panel member, optical panel 30 Light reflection sheet 40 Light control sheet, Optical sheet 41 1st surface, observer side surface 42 2nd surface, back surface 50 Main-body part 51 1st surface 52 2nd surface 60 Unit element , Unit optical element, unit shape element 61 first inclined surface 62 second inclined surface 63 flat surface 70 gap

Claims (19)

A light control sheet having a first surface and a second surface disposed opposite to each other;
A light reflecting sheet disposed opposite to the second surface of the light control sheet,
The second surface of the light control sheet includes a plurality of first inclined surfaces arranged in one direction parallel to the sheet surface of the light control sheet, and a plurality of second inclined surfaces arranged in the one direction. The first inclined surface and the second inclined surface are alternately arranged in the one direction,
In a cross section parallel to both the normal direction of the light control sheet and the one direction, the first inclined surface and the second inclined surface are inclined in the opposite direction with respect to the normal direction of the light control sheet,
In a cross section in which the first inclined surface is parallel to both the normal direction of the light control sheet and the one direction, an angle θa formed with respect to the sheet surface of the light control sheet is on the light reflection sheet side. Change to be smaller ,
The angle θa of the first inclined surface and the second inclined surface are relative to the sheet surface of the light control sheet in a cross section parallel to both the normal direction and the one direction of the light control sheet. The angle θb formed is such that at least a part of the light that enters the light control sheet from the first surface and travels to the first inclined surface is totally reflected by the first inclined surface toward the second inclined surface, A panel member that is set to an angle that is further totally reflected by the second inclined surface, travels toward the first surface of the light control sheet, and is emitted to the outside from the first surface . A gap is formed between one first inclined surface, a second inclined surface adjacent to the first inclined surface from one side in the one direction, and the light reflecting sheet,
In a cross section parallel to both the normal direction and the one direction of the light control sheet, the one first inclined surface, and a second inclined surface adjacent to the first inclined surface from the other side in the one direction. The panel member according to claim 1, which approaches toward the light reflecting sheet.   In a cross section parallel to both the normal direction and the one direction of the light control sheet, the inclination angles of the first inclined surface and the second inclined surface with respect to the sheet surface of the light control sheet are different from each other. The panel member according to claim 1 or 2.   In a cross section parallel to both the normal direction and the one direction of the light control sheet, the magnitude of the value of the inclination angle of one first inclined surface with respect to the sheet surface of the light control sheet is the first inclined surface. The panel member according to claim 3, wherein a second inclined surface adjacent to the other side in the one direction is smaller than a value of an inclination angle with respect to a sheet surface of the light control sheet. The light control sheet further includes a flat surface disposed between one first inclined surface and the second inclined surface adjacent to the first inclined surface from the other side in the one direction,
The panel member according to claim 1, wherein the light control sheet is connected to the light reflecting sheet through the flat surface. Each first inclined surface extends in a direction non-parallel to the one direction,
6. The panel member according to claim 1, wherein each second inclined surface extends in a direction not parallel to the one direction.   The panel member according to claim 1, wherein the second surface has irregularities. A light control sheet having a sheet-shaped main body, and a plurality of unit elements arranged along one direction on the main body,
A light reflecting sheet disposed on the side of the light control sheet on which the unit elements are provided,
Each unit element has a first inclined surface arranged on one side in one direction and a second inclined surface arranged on the other side in one direction,
In a cross section parallel to both the normal direction and the one direction of the light control sheet, the first inclined surface and the second inclined surface are inclined in a direction opposite to the normal direction of the light control sheet. ,
In a cross section in which the first inclined surface is parallel to both the normal direction of the light control sheet and the one direction, an angle θa formed with respect to the sheet surface of the light control sheet is on the light reflection sheet side. Change to be smaller ,
The angle θa of the first inclined surface and the second inclined surface are relative to the sheet surface of the light control sheet in a cross section parallel to both the normal direction and the one direction of the light control sheet. The formed angle θb is such that at least a part of the light that enters the light control sheet and travels to the first inclined surface is totally reflected by the first inclined surface and travels toward the second inclined surface. Further , the panel member is set at an angle that is totally reflected and emitted from the light control sheet to the outside . A gap is formed between the two unit elements adjacent in the one direction and the light reflecting sheet,
In a cross section parallel to both the normal direction and the one direction of the light control sheet, the first inclined surface and the second inclined surface of one unit element approach toward the light reflecting sheet side. The panel member according to claim 8.   In a cross section parallel to both the normal direction and the one direction of the light control sheet, the magnitude of the value of the inclination angle of the first inclined surface and the second inclined surface with respect to the sheet surface of the light control sheet is mutually The panel member according to claim 8 or 9, which is different.   In a cross section parallel to both the normal direction and the one direction of the light control sheet, the magnitude of the value of the inclination angle of the first inclined surface of one unit element with respect to the sheet surface of the light control sheet is the unit. The panel member according to claim 10, wherein the panel member is smaller than a value of an inclination angle value of the second inclined surface of the element with respect to a sheet surface of the light control sheet. The unit element further includes a flat surface disposed between the first inclined surface and the second inclined surface,
The panel member according to any one of claims 8 to 11, wherein the light control sheet is connected to the light reflecting sheet via the flat surface.   Each panel element is a panel member as described in any one of Claims 8-12 extended in the direction non-parallel to the said one direction.   The panel member according to claim 8, wherein the plurality of unit elements have the same shape.   The panel member according to any one of claims 8 to 14, wherein a surface of the main body portion opposite to the side on which the unit element is provided has irregularities.   The panel member according to claim 1, wherein the light control sheet and the light reflection sheet are bonded to each other.   The panel member according to any one of claims 1 to 16, wherein a pattern is formed on a surface of the light reflecting sheet facing the light control sheet. A panel member according to any one of claims 1 to 17,
A light source that projects light onto the panel member from the light control sheet side. A panel member according to claim 2 or 8,
A light source for projecting light from the light control sheet side to the panel member,
The light source is an optical device that projects light onto the panel member from a direction inclined from the one side to the other side in the one direction toward the panel member.

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