JP2008032777A - Light control sheet - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a light control sheet which can be repeatedly attached to and peeled from the surface of a white board or the like and, with which a satisfactory image hardly causing reflection and having a high contrast can be displayed in an attached state. <P>SOLUTION: The light control sheet is constituted so that a light transmission part 12 having such a unit prism shape that a width on the image source L side is wider than the width on the back surface side in a cross-section orthogonal to the sheet surface and a light absorption part 13 which is formed between light transmission parts 12 and absorbs light are alternately arranged in large numbers, wherein an attachment layer 14 which can be repeatedly attached to and peeled from an object to be attached such as a white board W or the like is disposed on the most back surface side without disposing a reflection layer. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a light control sheet that controls image light projected and incident from an image source in a state of being attached to an object to be attached.

  Conventionally, reflection screens that reflect and display image light projected from a projector are widely known, and are used, for example, in home theaters, conferences, and presentations. In such a reflective screen, a roll-up screen that can be wound up and stored when not needed is often used. However, this roll-up type reflective screen requires a mechanism such as a stand for installation, and may require assembly of the stand and the like, and a space for installing such a mechanism. It was.

  Patent Document 1 discloses a reflective screen that is provided with a sticking surface on one surface of a base material and can be detachably attached to an arbitrary wall surface. However, in the reflective screen described in Patent Document 1, no countermeasures against unnecessary light such as illumination light (hereinafter referred to as outside light) are taken, and in a bright room environment, the image becomes white and unclear, There is a problem that the contrast of the video is lowered and it is difficult to see the displayed video.

This is because the conventional reflective screen including the reflective screen described in Patent Document 1 reflects not only image light but also external light. Therefore, the conventional reflection screen needs to be used in a dark room environment by dimming illumination light or the like when used.
For this reason, in meetings and presentations, it was difficult to see the materials at hand and take notes, etc., and there was a problem that the progress of the meetings was interrupted each time the lighting was switched. There was an increasing demand to display high-contrast images even in environments.
JP 2004-54067 A

  An object of the present invention is to provide a light control sheet that can be repeatedly attached to and peeled from the surface of a whiteboard or the like, and can display a good image with little reflection and high contrast in the attached state.

The present invention solves the above problems by the following means. In addition, in order to make an understanding easy, although the code | symbol corresponding to the Example of this invention is attached | subjected and demonstrated, it is not limited to this.
The invention according to claim 1 is a light control sheet for controlling light incident from the image source, and a light transmitting portion (12, 22) capable of transmitting light in a cross section orthogonal to the sheet surface. And light absorbing portions (13, 23) for absorbing light, wherein the light transmitting portions and the light absorbing portions are alternately formed along the sheet surface, and the light transmitting portion is disposed on the backmost side. And a sticking layer (14, 24) that can be attached to an object to be attached (W) and that can be peeled off from the object to be attached. (10, 20).
The invention according to claim 2 is the light control sheet according to claim 1, wherein the adhesive layer (14, 24) can be repeatedly attached and peeled from the object to be attached (W). It is the light control sheet (10, 20) which is characterized.
The invention according to claim 3 is the light control sheet according to claim 1 or 2, wherein the adhesive layers (14, 24) are formed using an adhesive material. (10, 20).
According to a fourth aspect of the present invention, in the light control sheet according to any one of the first to third aspects, the light transmitting portion (12, 22) has a back surface in a cross section orthogonal to the sheet surface. A light control sheet (10, 20) having a unit prism shape, which is a substantially trapezoidal shape having a width on the image source side wider than a width on the image side, and is formed side by side along the sheet surface. .
According to a fifth aspect of the present invention, in the light control sheet according to any one of the first to fourth aspects, the light absorbing portion (13, 23) is a refraction of the light transmitting portion (12, 22). The light control sheet (10, 20) is characterized in that the refractive index is lower than the refractive index.
The invention of claim 6 is the light control sheet according to any one of claims 1 to 5, wherein the light absorbing portion (13, 23) includes micro beads that absorb light. It is the light control sheet (10, 20) characterized.
The invention according to claim 7 is the light control sheet according to claim 6, wherein the light absorbing portion (13, 23) has a refractive index higher than a refractive index of a material forming the light transmitting portion (12, 22). The light control sheet (10, 20) is characterized by being formed by kneading the fine beads in a low resin.
The invention according to claim 8 is the light control sheet according to any one of claims 1 to 7, wherein the thickness of the adhesive layer (14, 24) is within a range of 5 μm or more and 50 μm or less. The light control sheet (10, 20) is characterized by being.
The invention according to claim 9 is the light control sheet according to any one of claims 1 to 8, wherein the thickness of the adhesive layer (14, 24) is within a range of 10 μm or more and 30 μm or less. The light control sheet (10, 20) is characterized by being.
The invention of claim 10 is the light control sheet according to any one of claims 1 to 9, wherein the total light transmittance of the adhesive layer (14, 24) is 40% or more, It is the light control sheet | seat (10, 20) characterized by these.
The invention of claim 11 is the light control sheet according to any one of claims 1 to 10, wherein the adhesive layer (14, 24) contains a light diffusing material that diffuses light. This is the light control sheet (10, 20).
According to a twelfth aspect of the present invention, in the light control sheet according to any one of the first to eleventh aspects, an anti-glare treatment, an antireflection treatment, an antistatic treatment, a hard coat treatment is applied to the surface on the image source side. The light control sheet (10) is characterized in that at least one of antifouling treatment and ultraviolet absorption treatment is applied.
According to a thirteenth aspect of the present invention, in the light control sheet according to any one of the first to twelfth aspects of the invention, the regular reflection preventing layer (26) for reducing a component that is regularly reflected on the surface on the image source side. The light control sheet (20) is characterized in that is formed.
The invention according to claim 14 is the light control sheet according to claim 13, wherein the haze value by the regular antireflection layer (26) is in the range of 25% to 90%. Control sheet (20).
According to a fifteenth aspect of the present invention, in the light control sheet according to the thirteenth or fourteenth aspect, the regular antireflection layer (26) has a fine concavo-convex shape formed on a surface thereof, and is regularly reflected by the fine concavo-convex shape. The light control sheet (20) is characterized in that the component to be reduced is reduced.
According to a sixteenth aspect of the present invention, in the light control sheet according to the fifteenth aspect, the regular antireflection layer has a large number of micro beads and a binder that fixes the micro beads, and the micro beads are fixed. The light control sheet is characterized in that the fine irregularities are formed by projecting toward the image source side rather than the part where the fine beads are not fixed and only the binder is formed. is there.
According to a seventeenth aspect of the present invention, in the light control sheet according to any one of the first to sixteenth aspects, the width of the rear surface side of the light transmission portion (12) in a cross section orthogonal to the sheet surface. Is a light control sheet (10, 20), characterized in that the relationship of 1/4 ≦ wt / wa ≦ 2 is satisfied, where w is wt and the width of the back side of the light absorbing portion (13) is wa. .
The invention according to claim 18 is the light control sheet according to any one of claims 1 to 17, wherein the width of the light transmitting portion (12) on the back surface side in a cross section orthogonal to the sheet surface. Is a light control sheet (10, 20), characterized in that the relationship of 3/7 ≦ wt / wa ≦ 1 is satisfied, where w is wt and the width of the back side of the light absorbing portion (13) is wa. .
The invention according to claim 19 is the light control sheet according to any one of claims 1 to 18, wherein the light transmission portion (12) and the light absorption portion (13) have a boundary surface (12a, 12b) is a light control sheet (10, 20) characterized by satisfying a relationship of 5 ° ≦ θ ≦ 15 °, where θ is an angle formed with a normal direction to the sheet surface.

According to the present invention, the following effects can be obtained.
(1) It is provided with a light transmission part that can transmit light and a light absorption part that absorbs light, and the light transmission part and the light absorption part are alternately formed along the sheet surface, and are on the most back surface side. Is provided with an adhesive layer that is light transmissive, can be applied to an object to be attached, and can be peeled off from the object to be attached. It can be used as a reflective screen that can absorb external light and display an image with high contrast. In addition, an object to be pasted can be selected as appropriate in accordance with the situation of use and the like, and the reflection characteristics can be freely set. Furthermore, when not in use, it can be removed and stored. Furthermore, as long as there is a surface to be pasted, it can be installed easily and in a short time at any place, and a bright image with high contrast can be displayed even in a bright room environment.
(2) Since the pasting layer can be repeatedly pasted and peeled from the object to be pasted, the reflective properties can be freely set by appropriately selecting the object to be pasted according to the situation of use, and the like. , It can be used by sticking to the object to be pasted any number of times.
(3) Since the sticking layer is formed using an adhesive material, it can be easily formed and can be easily stuck on an object to be stuck.
(4) In the cross section orthogonal to the sheet surface, the light transmission part has a unit prism shape which is a substantially trapezoidal shape having a width on the image source side wider than the width on the back surface side, and is formed in a large number along the sheet surface. Therefore, the incident light can be efficiently emitted in a predetermined direction (observation direction).
(5) Since the light absorbing portion has a lower refractive index than the light transmitting portion, the incident light can be totally reflected at the boundary surface between the light absorbing portion and the light transmitting portion, minimizing the reflection loss, Bright images can be displayed.
(6) Since the light absorption part includes micro beads that absorb light, it is possible to easily and reliably obtain an external light absorption function.
(7) Since the light absorption part is formed by kneading the microbeads in a resin having a refractive index lower than the refractive index of the material forming the light transmission part, the microbeads are formed without forming a protective layer. Can be fixed.
(8) Since the thickness of the sticking layer is in the range of 5 μm or more and 50 μm or less, the sticking layer has a sufficient holding force for sticking to the sticking object without reducing the contrast.
(9) Since the thickness of the sticking layer is in the range of 10 μm or more and 30 μm or less, the contrast can be further improved and the holding force is sufficient for sticking to the object to be attached.
(10) Since the total light transmittance of the adhesive layer is 40% or more, a bright image can be displayed.
(11) Since the adhesive layer contains a light diffusing material that diffuses light, the visual field can be enlarged to prevent glare of the image in the front direction of the screen, and the reflection of the light source ( Hot spots) can be suppressed.
(12) The surface on the image source side is subjected to at least one of antiglare treatment, antireflection treatment, antistatic treatment, hard coat treatment, antifouling treatment, and ultraviolet absorption treatment. By selecting an appropriate treatment, a light control sheet with higher quality can be obtained.
(13) Since the regular reflection preventing layer for reducing the regular reflection component is formed on the surface on the image source side, it is possible to prevent the image source and the illumination light from being reflected on the surface of the light control sheet, and it is clearer. Simple images can be displayed.
(14) Since the haze value by the regular reflection preventing layer is in the range of 25% or more and 90% or less, the image can be effectively prevented from being whitened without being whitened.
(15) The regular antireflection layer has fine irregularities formed on the surface and reduces the components that are regularly reflected by the fine irregularities, so that it is easy to manufacture and can reliably prevent reflection.
(16) The regular antireflection layer has a large number of microbeads and a binder to which the microbeads are fixed, and the portion where the microbeads are fixed becomes only the binder without the microbeads being fixed. Since the fine uneven shape is formed so as to protrude from the image source side to the image source side, the regular antireflection effect and the diffusion effect can be arbitrarily set by changing the mixing ratio of the fine beads.
(17) When the width on the back surface side of the light transmission part in the cross section orthogonal to the sheet surface is wt and the width on the back surface side of the light absorption part is wa, the relationship of 1/4 ≦ wt / wa ≦ 2 is established. Because it satisfies, it can display bright images with high contrast.
(18) When the width on the back surface side of the light transmission part in the cross section orthogonal to the sheet surface is wt and the width on the back surface side of the light absorption part is wa, the relationship of 3/7 ≦ wt / wa ≦ 1 is established. Since it satisfies, the contrast is higher and bright images can be displayed.
(19) Assuming that the angle between the boundary surface of the light transmitting portion and the light absorbing portion and the normal direction to the sheet surface is θ, the relationship 5 ° ≦ θ ≦ 15 ° is satisfied, so that a high-contrast and bright image is displayed. it can.

  An object of the present invention is to provide a light control sheet that can be repeatedly applied to and peeled from the surface of a whiteboard or the like, and can display a good image with little reflection and high contrast in an applied state of use. Realized by arranging a large number of light transmission parts in the form of unit prisms, providing a light absorption part between them, providing no reflective layer, and providing an adhesive layer that can be repeatedly applied and peeled off to the object to be attached on the back side. .

FIG. 1 is a cross-sectional view illustrating a usage state of the light control sheet 10 in the first embodiment.
FIG. 2 is a diagram illustrating a specific shape of the light control sheet 10 according to the first embodiment.
In addition, each figure shown below including FIG. 1 exaggerated suitably the dimension of each part, a shape, etc. for description. In particular, FIG. 1 schematically shows the interior lighting G, the video source L, and the light control sheet 10 together, so that the arrangement relationship is different from the actual one, and the incident angle of each light beam is the magnitude relationship in the description below. Different parts are included.
The light control sheet 10 in the present embodiment is affixed to the surface of a whiteboard W or the like that is an object to be pasted, and displays the image light reflected on the surface of the whiteboard W or the like as a good image with high contrast. It is what is used. The light control sheet 10 is disposed at a position where the image light is projected obliquely upward from the projector optical engine unit (image source) L that projects the image light, and most of the outside light (unnecessary light such as illumination light) is provided. It has been developed in consideration of entering the light control sheet from above the screen. Then, the image light incident on the light control sheet 10 from below is reflected by the whiteboard W and efficiently returned to the observer O side, and external light from above is selectively absorbed by a light absorbing unit described later. Thus, it can be used as a light control sheet capable of displaying a very high contrast image.
In the present embodiment, the light control sheet 10 has been illustrated as being affixed to the surface of the whiteboard W. However, the present invention is not limited thereto. For example, the surface of the object to be pasted may be a white wall or a mirror. If it is a surface with a high reflectance, it will not specifically limit. In addition, it is preferable that the surface of the object to be pasted be a smooth surface since it does not peel off unexpectedly even when it is pasted, and the pasting operation is easy.
FIG. 1 shows a cross section in the vertical direction when the light control sheet 10 is used. The light control sheet 10 includes a base portion 11, a light transmission portion 12, a light absorption portion 13, a sticking layer 14, a front treatment layer 15, and the like.

  The base portion 11 is a portion that becomes a base material necessary for forming the light transmission portion 12, and is a light transmission formed from a resin sheet or film such as acrylic, polycarbonate (PC), or polyethylene terephthalate (PET). In this embodiment, acrylic is used. Note that the base portion 11 may be colored (tinted) with a dye, pigment, or the like such as gray so as to reduce the transmittance to a predetermined transmittance as necessary.

In the cross section of FIG. 1, the light transmission portion 12 has a unit prism shape that is a substantially trapezoidal shape with a width on the image source L side wider than a width on the back surface side, and along the sheet surface (in the vertical direction in FIGS. 1 and 2). A) A large number are arranged side by side.
The light transmitting portion 12 is a method in which the upper inclined surface 12a and the lower inclined surface 12b in the use state of the sheet are the surface of the inclined surface serving as a boundary surface with the light absorbing portion 13 formed between the light transmitting portions 12. The angles formed with the line direction are all equal to θ, and have a vertically symmetrical shape when the sheet is used. Here, the sheet surface indicates a surface in the planar direction of the sheet when viewed as the entire sheet, and is used as the same definition in the following description and in the claims. Note that the width of the upper bottom surface 12c, which is the top of the trapezoid forming the back side of the light transmitting portion 12, is wt.
The light transmission part 12 of the present embodiment is formed by dropping an ultraviolet curable resin having a refractive index of 1.56 onto the base part 11, applying a mold, and irradiating with ultraviolet rays to be cured. In addition, although the example which uses an ultraviolet curable resin was shown in the present Example, it is not restricted to this, For example, you may use other photocurable resins, such as an ionizing radiation curable resin, and a thermoplastic resin. Alternatively, it may be formed by hot melt extrusion using acrylic resin or PET resin.

The light absorbing portion 13 is a portion having an action of absorbing light formed while the light transmitting portions 12 are arranged. The light absorbing portion 13 in the present embodiment wipes (squeezes) an ultraviolet curable resin (refractive index 1.49) containing a black pigment having an average particle diameter of 6 μm as fine beads that absorb light. It fills between the light transmission parts 12, and is formed by irradiating with ultraviolet rays.
In this example, the average particle diameter of the black pigment is 6 μm, but the average particle diameter is preferably about 1 to 10 μm. This is because if the average particle size of the microbeads that absorb light is smaller than this range, scraping by wiping becomes difficult, and if it is larger than this range, filling between unit prism shapes becomes difficult.
The width of the base part 13a of the substantially isosceles triangle forming the back surface of the light absorbing part 13 is defined as wa.

The affixing layer 14 is provided on the entire rear surface side of the light control sheet 10, and the light control sheet 10 can be repeatedly affixed to the whiteboard W or the like to be affixed and peelable. Is a layer. This adhesive layer 14 is formed by applying a vinyl chloride vinyl acetate copolymer resin (JELCON JSI medium manufactured by Jujo Chemical Co., Ltd.), has adhesiveness, and has a thickness t.
In the present embodiment, the adhesive layer 14 uses an example of using a vinyl chloride vinyl acetate copolymer resin, but is not limited to this. For example, an acrylic adhesive, a urethane adhesive, a silicone adhesive, rubber You may form using a system adhesive. Further, instead of applying an adhesive material, an adhesive sheet or film or the like may be attached to the back side of the light transmitting portion 12.

  The front treatment layer 15 is a layer subjected to various surface treatments such as anti-glare treatment, antireflection treatment, antistatic treatment, hard coat treatment, antifouling treatment, and ultraviolet absorption treatment. In this embodiment, the antireflection treatment is performed. It has been subjected. In addition, what is necessary is just to select the process performed to this front process layer 15 suitably according to the environment, the objective, etc. which use the light control sheet 10. FIG.

The total light transmittance of the light control sheet 10 of this example is 82%. The total light transmittance was measured using a haze meter (NDH2000, manufactured by Nippon Denshoku Industries Co., Ltd.) in accordance with JIS K7361-1997.
The light control sheet 10 preferably has a total light transmittance of 40% or more as a whole of the light control sheet in order to display a bright image. The adhesive layer 14 and the like are all light transmissive as a whole of the light control sheet 10. The material, thickness, and the like may be appropriately selected so that the rate is 40% or more.

The light control sheet 10 is shown in FIG. 1 as being used on the whiteboard W. When the light control sheet 10 is not used, a protective sheet (not shown) is attached to the adhesive layer 14 and wound or stored. it can. The protective sheet is formed using paper, film, or the like, protects the adhesive layer 14 from dust, dust, and the like, and the surface treatment that the adhesive layer 14 becomes the image source side surface of the light control sheet 10 during storage or the like. It is prevented from sticking to the surface of the layer 15 or the like.
This protective sheet may form a release layer or the like so that it can be repeatedly applied to the adhesive layer 14 and can be peeled off, and the material and the like may be freely selected.

In the light control sheet 10 described above, the image light beams L1 and L2 projected from the image source L are totally reflected on the boundary surface with the light absorption unit 13 after being guided in the light transmission unit 12 as shown in FIG. I do. Since the refractive index of the light absorbing portion 13 is lower than the refractive index of the unit prism shape 12, light incident at an angle larger than the critical angle at this boundary surface is totally reflected.
Then, the image light totally reflected at the boundary surface between the light transmitting portion 12 and the light absorbing portion 13 reaches the surface of the whiteboard W as the reflecting surface and is reflected, and then further totally reflected at the boundary surface. It returns to the observer O direction as an observable light beam.

On the other hand, since the incident light with respect to the light control sheet 10 has a large incident angle with respect to the outside light G1 and G2 from the room lighting G provided above the light control sheet 10, the boundary surface between the light transmission part 12 and the light absorption part 13 The incident angle becomes small, and there are many components that do not exceed the critical angle, and the light enters the light absorbing portion 13 without being totally reflected, and is absorbed by the microbeads. Therefore, the rate at which external light returns to the position of the observer O can be greatly reduced.
Therefore, when the image light is actually projected onto the light control sheet 10, the projection image has a high reflectance and the external light can be sufficiently absorbed.

Here, in this embodiment, the light transmission portion 12 and the light absorption portion are formed so that the ratio wt / wa of the width wt of the upper bottom surface 12c and the width wa of the bottom portion 13a satisfies the following formula. 13 is formed.
1/4 ≦ wt / wa ≦ 2 Formula (1)
In addition, the light transmission unit 12 has a shape satisfying the following relational expression with respect to an angle θ formed by the slopes 12a and 12b, which are boundary surfaces between the light transmission unit 12 and the light absorption unit 12, and a normal to the sheet surface. And the light absorption part 13 is formed.
5 ° ≦ θ ≦ 15 ° (2)

In this example, light control sheets of specific examples 1 to 8 were prepared as specific forms that satisfy the above formulas (1) and (2).
In the light control sheet of Example 1, the light transmission part 12 and the light absorption part 13 are formed so that wt = 13 μm, wa = 52 μm (wt / wa = 1/4), and θ = 9 °.
In the light control sheet of the specific example 2, the light transmitting portion 12 and the light absorbing portion 13 are formed so that wt = 22 μm, wa = 43 μm (wt / wa≈1 / 2), and θ = 9 °.
In the light control sheet of Example 3, the light transmitting portion 12 and the light absorbing portion 13 are formed so that wt = 32.5 μm, wa = 32.5 μm (wt / wa = 1), and θ = 9 °. Yes.
In the light control sheet of Example 4, the light transmitting portion 12 and the light absorbing portion 13 are formed so that wt = 43.3 μm, wa = 21.7 μm (wt / wa≈2), and θ = 9 °. Yes.
In the light control sheet of Example 5, the light transmitting portion 12 and the light absorbing portion 13 are formed so that wt = 19.5 μm, wa = 22 μm (wt / wa = 3/7), and θ = 9 °. Yes.

In the light control sheet of Example 6, the light transmitting portion 12 and the light absorbing portion 13 are formed so that wt = 26 μm, wa = 39 μm (wt / wa = 2/3), and θ = 5 °.
In the light control sheet of specific example 7, the light transmitting portion 12 and the light absorbing portion 13 are formed so that wt = 26 μm, wa = 39 μm (wt / wa = 2/3), and θ = 9 °.
In the light control sheet of Example 8, the light transmitting portion 12 and the light absorbing portion 13 are formed so that wt = 26 μm, wa = 39 μm (wt / wa = 2/3), and θ = 15 °.

Moreover, in order to compare with these, the light control sheet | seat of the comparative examples 1- 4 was created.
In the light control sheet of Comparative Example 1, the light transmitting portion 12 and the light absorbing portion 13 are formed so that wt = 26 μm, wa = 156 μm (wt / wa = 1/6), and θ = 9 °.
In the light control sheet of Comparative Example 2, the light transmitting portion 12 and the light absorbing portion 13 are formed so that wt = 57 μm, wa = 8 μm (wt / wa = 57 / 8≈7.1), and θ = 9 °. Has been.
In the light control sheet of Comparative Example 3, the light transmitting portion 12 and the light absorbing portion 13 are formed so that wt = 26 μm, wa = 39 μm (wt / wa = 2/3), and θ = 3 °.
In the light control sheet of Comparative Example 4, the light transmitting portion 12 and the light absorbing portion 13 are formed so that wt = 26 μm, wa = 39 μm (wt / wa = 2/3), and θ = 20 °.
In all of the light control sheets of Specific Examples 1 to 8 and Comparative Examples 1 to 4, the thickness t of the adhesive layer 14 is equal to 20 μm.

The light control sheets of Specific Examples 1 to 8 and Comparative Examples 1 to 4 were evaluated by comparing the contrast.
The contrast was evaluated by pasting each light control sheet on the whiteboard W, projecting light from the image source L, and measuring the brightness of each light control sheet using a luminance meter.
The whiteboard W used at this time is FB-S34W manufactured by KOKUYO Furniture Co., Ltd.
Here, the contrast is a ratio between the luminance of the light control sheet when the image source L projects light that reproduces white and the luminance of the light control sheet when the image source L projects light that reproduces black. It is. The larger the ratio, the clearer the image with higher contrast, and the lower the ratio, the lower the contrast, the whitish, and unclear image.

The light control sheets of Specific Example 1 to Specific Example 8 and Comparative Example 1 to Comparative Example 4 of the light control sheet 10 of this example used for the measurement have a vertical size of 914 mm in use and a horizontal size. Is 1219 mm (60 inches).
The image source L is fixed at a position 230 cm away from the sheet surface of the light control sheet of Specific Examples 1 to 8 and Comparative Examples 1 to 4, and light is transmitted from the center of each light control sheet. Projected horizontally with respect to a position 15 cm below (referred to as position P). The image source L used for this measurement is EMPTW200H (manufactured by Seiko Epson Corporation), and the projected light flux is 1500 lm.

The luminance meter measured the luminance at a position where the angle formed by the normal passing through the position P described above and a straight line passing through the position P and the luminance meter was 5 ° from the sheet surface of each light control sheet. Note that the measurement was performed while shifting the angle by 5 ° in order to prevent the projected light beam from being blocked by the luminance meter. The luminance meter used for this measurement is LS110 (Minolta Co., Ltd.). Note that the image source L, the luminance meter, and the position P are all 100 cm in height from the floor and are arranged in the same plane having the same height from the floor.
The measurement is performed in a bright room environment where the brightness (illuminance) by illumination (external light source) at a height of 100 cm from the floor surface is 800 lx, and the distance from the floor surface to the ceiling is 300 cm.

In addition to measuring the contrast, the gain was also measured and evaluated.
Here, the gain is the relative luminance of each light control sheet when compared with a reflection diffusion plate having a complete diffusion surface. The higher the gain, the brighter the image can be observed.
The gain measurement conditions were the same as the above-described contrast measurement conditions. The position of the image source L, the position of the luminance meter as the gain measurement position, the position P at which the image light is projected horizontally from the image source L, and the like are the same as the contrast measurement position.
However, contrast measurement was performed in a bright room environment (800 lx), whereas gain measurement was performed in a dark room environment (11x). Under this condition, in addition to each light control sheet, the luminance of the reflection diffusion plate having a complete diffusion surface was measured, and the gain was calculated.
As for the contrast and gain, a sufficiently high-quality image can be obtained if the contrast is 6 or more and the gain is 0.5 or more.
First, when the contrast and gain of the whiteboard W without the light control sheet were measured, the contrast was 2.8, the gain was 1.2, and the image displayed with low contrast was unclear. It was difficult.

Table 1 summarizes the results of Specific Examples 1 to 5 and Comparative Examples 1 and 2 with a focus on wt / wa. As can be seen from the results in Table 1, in specific examples 1 to 5, wt / wa satisfies the above-described formula (1), and the contrast and the gain are high.
In order to obtain a higher contrast and gain, it can be seen from the results of Specific Example 2, Specific Example 3, and Specific Example 5 that wt / wa should satisfy the following relational expression.
3/7 ≦ wt / wa ≦ 1 Formula (3)

Table 2 summarizes the results of Specific Examples 6 to 8 and Comparative Examples 3 and 4, focusing on θ. As can be seen from the results in Table 2, in specific examples 6 to 8, θ satisfies the formula (2) shown above, and the contrast and the gain are high.
Therefore, from the results in Table 2, in order to obtain a high contrast, it can be said that θ satisfies the formula (2).

  Therefore, a bright and high-contrast image can be displayed by satisfying at least one of the expressions (1) and (2). Further, by satisfying Expression (3), it is possible to display a brighter and higher-contrast video with higher contrast.

Next, in the light control sheet 10 of this example, the thickness t of the adhesive layer 14 is in the range of 5 μm or more and 50 μm or less, and is formed substantially uniformly.
Therefore, 8 types of light control sheets having a thickness t of 2 μm, 5 μm, 10 μm, 20 μm, 30 μm, 50 μm, 100 μm, and 200 μm were prepared, and the contrast and gain were measured. The measurement conditions for contrast and gain are as described above.
In all of the above-described eight types of light control sheets, the shapes of the light transmitting portion 12 and the light absorbing portion 13 are equal to those of the specific example 7, and wt = 26 μm, wa = 39 μm (wt / wa = 2/3). ), Θ = 9 °.

As shown in the results of Table 3, it can be said that the contrast is good when the thickness t of the adhesive layer 14 is 5 μm or more and 100 μm or less. Regarding the gain, it can be said that the thickness t of the adhesive layer 14 is 50 μm or less, which is good.
From the above results, it can be said that the thickness t of the adhesive layer 14 may be 5 μm or more and 50 μm or less in order to display a good image with high contrast and gain. From the results in Table 3, it can be said that the thickness is preferably 10 μm or more and 30 μm or less in order to obtain higher contrast and gain.

Moreover, the thickness t of the pasting layer 14 mentioned above is the use state stuck on the pasting object using eight kinds of light control sheets of 2 μm, 5 μm, 10 μm, 20 μm, 30 μm, 50 μm, 100 μm, and 200 μm. The holding performance was examined.
A wallpaper (not shown) formed using a whiteboard W and a vinyl-based resin was prepared as an object to be affixed to each light control sheet. Each light control sheet was affixed to the object to be pasted and allowed to stand, and the state immediately after the pasting, 6 hours after the pasting, and 12 hours after the pasting was examined.

From the results shown in Table 4, if the surface to be attached is a smooth surface such as the whiteboard W, the thickness t of the adhesive layer 14 is 5 μm or more, and the use state of the light control sheet is determined. It can be said that it can be maintained well for 12 hours or more. In the case of a short time such that the usage time is within 2 to 3 hours, it can be said that the thickness t of the adhesive layer 14 can be used even at 2 μm.
In addition, when the object to be pasted has a minute uneven shape on its surface, such as wallpaper, it is desirable that the thickness t of the pasting layer 14 is 10 μm or more in order to maintain a good pasting state. . In the case of a short time such that the usage time is within 2 to 3 hours, it can be said that the thickness t of the adhesive layer 14 can be used even at 5 μm.
From the above, if the thickness t of the adhesive layer 14 is 10 μm or more, it can be said that the use state in which the light control sheet is attached to an object to be attached such as the whiteboard W or wallpaper can be well maintained.

  As described above, the thickness t of the adhesive layer 14 is preferably in the range of 5 μm to 50 μm, more preferably in the range of 10 μm to 30 μm. By setting the thickness t of the affixing layer 14 within this range, it is possible to display a bright image with high contrast and to keep the usage state affixed to the whiteboard W or the like.

As described above, according to the present embodiment, it is possible to easily display a bright image with high contrast simply by attaching to a whiteboard W or the like without providing a mechanism for installing a conventional reflection screen. can do.
In addition, the light control sheet 10 of the present invention including the light transmitting part 12 and the light absorbing part 13 eliminates the influence of external light, and displays a bright image with high contrast without reflection in a bright room environment. Is possible.
Furthermore, a bright and high-contrast image can be displayed by satisfying at least one of the expressions (1) and (2). And by satisfy | filling Formula (3), a high-definition image with still higher contrast and high contrast can be displayed.
Furthermore, when the thickness t of the adhesive layer 14 is 5 μm or more and 50 μm or less, more preferably 10 μm or more and 30 μm or less, a bright and high-contrast image is displayed, and the light control sheet 10 is white. This is preferable in order to keep the state of use attached to the board W or the like.

FIG. 3 is a perspective view of the light control sheet 20 according to the second embodiment as viewed from above the image source side.
Example 2 is an example in which a regular antireflection layer 26 is formed instead of the surface treatment layer 15 shown in Example 1. Therefore, portions having the same functions as those of the first embodiment described above are denoted by the same reference numerals at the end, and redundant description is appropriately omitted.
Since the base part 21, the light transmission part 22, the light absorption part 23, and the sticking layer 24 are the same as those in the first embodiment, detailed description thereof is omitted.

The regular reflection preventing layer 26 is a layer in which a number of fine irregularities are randomly formed on the surface. In this embodiment, the total transmission efficiency is approximately 90%, the diffuse transmittance is approximately 37%, and the haze value is approximately 42%. A certain commercially available diffusion film (TL-4 manufactured by Kimoto Co., Ltd.) was used. The haze value was measured using a haze meter (NDH2000, manufactured by Nippon Denshoku Industries Co., Ltd.) in accordance with JIS K7105-1981.
In FIG. 3, for the convenience of drawing, the surface of the regular antireflection layer 26 may appear as if many corrugated shapes are formed obliquely. The surface shape of the layer 26 does not have such a directivity, and a large number of irregular irregular shapes are randomly arranged like a so-called mat surface.

The regular reflection preventing layer 26 has the following functions.
(1) The image source (projector light source engine unit or the like) is prevented from being reflected and observed on the outermost surface of the light control sheet.
(2) Widen the observable angle of the image projected on the light control sheet.
Here, the function (1) cannot be achieved by a method using a diffusion layer (diffusion film) of a type in which a diffusion material is mixed inside the layer. In order to achieve this function, it is necessary that the surface has a fine uneven shape.
The degree of the effect of preventing the reflection of the image source can be adjusted according to the degree of diffusion of light by the fine uneven shape. If the degree of diffusion is too small, the reflection cannot be suppressed, but if the degree of diffusion is too strong, the image will be observed as white. Therefore, when a large number of diffusion films having different diffusivities were evaluated, the haze value of the regular reflection preventing layer 26 was 25% or more and 90% or less. It was found that it can be effectively prevented.
However, even if the haze value is in the above range, the function (1) may not be achieved depending on the shape of the surface.

FIG. 4 is a diagram for explaining the difference in the reflection prevention effect of the image source due to the difference in the surface shape of the regular reflection preventing layer.
If there are a large number of flat surfaces parallel to the sheet surface as shown in FIG. 4 (a), there will be many specularly reflected components on the flat surface, and the image source will be reflected. On the other hand, even if FIG. 4 (a) and FIG. 4 (b) show the same value as the haze value, a flat surface parallel to the sheet surface is substantially formed as shown in FIG. 4 (b). In order to prevent the reflection of the image source of (1) above, it is desirable that the entire surface is covered with an uneven shape.
Even if not parallel to the sheet surface, if there are many flat surfaces facing in the same direction, the image source may be reflected when observed from a specific direction. As few as possible is more desirable.

  According to the present embodiment, since the regular reflection preventing layer 26 is provided, it is possible to widen the viewing zone and to completely prevent the reflection of the image source.

(Modification)
The present invention is not limited to the embodiments described above, and various modifications and changes are possible, and these are also within the equivalent scope of the present invention.
(1) In each embodiment, the unit prism shape of the light transmission part is a substantially trapezoidal shape, and an example in which the unit prism shape is a combination of planes is shown. However, the present invention is not limited to this. The shape may be combined. In addition, the light transmission portion may not have a unit prism shape, but may have a shape having the same width on the back surface side and the image source side.

(2) In each of the embodiments, the example in which the light transmitting portion is vertically symmetric in the usage state is shown, but the present invention is not limited thereto, and the light transmitting portion may be vertically asymmetric. For example, the angle formed by the upper slope and the lower slope, which are the boundary surface between the light transmission portion and the light absorption portion, with the normal direction of the sheet surface may be different, and the lower slope is the normal of the sheet surface. You may consist of two types of planes from which the angle made with a direction differs.

(3) In each embodiment, the light transmitting portion and the light absorbing portion extend in the same cross-sectional shape in the horizontal direction and are arranged in a large number in the vertical direction. If the direction of the image light is a horizontal direction, it may be rotated by 90 degrees in combination therewith, or two combinations of the light transmission part and the light absorption part may be provided and arranged so as to be orthogonal to each other.

(4) In each of the embodiments, the light absorbing portion is formed of a resin kneaded with a black pigment as a light absorbing bead. However, the present invention is not limited thereto. For example, the light absorbing portion is filled with black beads between the light transmitting portions. You may form by doing. In that case, the black beads filled in the light absorbing part may be fixed by using a sticking layer or by providing a protective layer between the sticking layer and the back surface of the light absorbing part.

(5) In Example 2, an example in which a commercially available diffusion film was used as the regular antireflection layer was shown. However, the present invention is not limited thereto. For example, a large number of microbeads and a binder that fixes the microbead are used as the regular antireflection layer. The fine uneven shape may be formed by kneading and projecting the portion where the fine beads are fixed to the image source side rather than the portion where the fine beads are not fixed but only the binder.

(6) In Example 2, on the image source side of the regular antireflection layer, at least one of antistatic treatment, hard coat treatment, antifouling treatment, and ultraviolet absorption treatment is performed along the surface shape of the regular antireflection layer. You may give it. By doing so, it is possible to add antistatic, hard coat, antifouling, and ultraviolet absorption functions while maintaining the function of reducing the specular reflection component of the regular antireflection layer.

(7) In each of the embodiments, the unit prism shape is symmetrical in the vertical direction in the usage state, and an example in which the unit prism shape is formed so as to satisfy the expressions (1) to (3) is shown. For example, when the unit prism shape is an asymmetric shape, either of these equations may be satisfied.

(8) In each embodiment, an example that satisfies both the formula (1) and the formula (2) has been shown. However, the present invention is not limited to this. For example, only the formula (1) may be satisfied, or the formula (2) ) Only.

(9) In each embodiment, a light diffusion material that diffuses light may be kneaded in the adhesive layer to widen the viewing area.

(10) In each embodiment, the example in which the adhesive layer has adhesiveness has been shown. However, the present invention is not limited to this, and for example, a sheet or the like on which a fine suction cup is formed may be used as the adhesive layer. It is good also as a form stuck on a target object using static electricity.

3 is a cross-sectional view illustrating a usage state of the light control sheet 10 in Example 1. FIG. 3 is a diagram illustrating a specific shape of a light control sheet 10 in Example 1. FIG. It is the perspective view which looked at the light control sheet 20 in Example 2 from the image source side upper side. It is a figure explaining the difference in the reflection prevention effect of the image source by the difference in the surface shape of a regular reflection prevention layer.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10,20 Light control sheet 11,21 Base part 12,22 Light transmission part 13,23 Light absorption part 14,24 Adhesive layer 15 Surface treatment layer 26 Regular reflection prevention layer W Whiteboard

Claims (19)

A light control sheet for controlling incident light projected from an image source,
In the cross section orthogonal to the sheet surface,
A light transmitting portion capable of transmitting light;
A light absorbing part that absorbs light;
With
The light transmission part and the light absorption part are alternately formed along the sheet surface,
On the most back surface side, having a light transmittance, being capable of being applied to an object to be attached, and having an adhesive layer that can be peeled off from the object to be attached;
Light control sheet characterized by. The light control sheet according to claim 1,
The adhesive layer can be repeatedly applied and peeled from the object to be applied;
Light control sheet featuring. In the light control sheet according to claim 1 or 2,
The adhesive layer is formed using an adhesive;
Light control sheet characterized by. In the light control sheet according to any one of claims 1 to 3,
The light transmission part has a unit prism shape which is a substantially trapezoidal shape with a width on the image source side wider than a width on the back surface side in a cross section orthogonal to the sheet surface, and is formed in a large number along the sheet surface. Being
Light control sheet characterized by. In the light control sheet according to any one of claims 1 to 4,
The light absorbing portion has a refractive index lower than the refractive index of the light transmitting portion;
Light control sheet characterized by. In the light control sheet according to any one of claims 1 to 5,
The light absorbing portion includes micro beads that absorb light;
Light control sheet characterized by. The light control sheet according to claim 6,
The light absorption part is formed by kneading the microbeads in a resin having a refractive index lower than that of the material forming the light transmission part,
Light control sheet characterized by. In the light control sheet according to any one of claims 1 to 7,
The thickness of the adhesive layer is in the range of 5 μm or more and 50 μm or less,
Light control sheet characterized by. In the light control sheet according to any one of claims 1 to 8,
The thickness of the adhesive layer is in the range of 10 μm or more and 30 μm or less,
Light control sheet characterized by. In the light control sheet according to any one of claims 1 to 9,
The total light transmittance is 40% or more,
Light control sheet characterized by. In the light control sheet according to any one of claims 1 to 10,
The adhesive layer contains a light diffusing material that diffuses light;
Light control sheet characterized by. In the light control sheet according to any one of claims 1 to 11,
The surface on the image source side is subjected to at least one of anti-glare treatment, antireflection treatment, antistatic treatment, hard coat treatment, antifouling treatment, and ultraviolet absorption treatment,
Light control sheet characterized by. In the light control sheet according to any one of claims 1 to 12,
A specular antireflection layer that reduces specular reflection components is formed on the image source side surface.
Light control sheet characterized by. The light control sheet according to claim 13,
The haze value by the regular antireflection layer is in the range of 25% or more and 90% or less,
Light control sheet characterized by. The light control sheet according to claim 13 or 14,
The regular antireflection layer has a fine concavo-convex shape formed on the surface, and reduces the component that is specularly reflected by the fine concavo-convex shape,
Light control sheet characterized by. The light control sheet according to claim 15,
The regular antireflection layer has a large number of micro beads and a binder for fixing the micro beads,
The portion where the microbeads are fixed is protruded toward the image source side rather than the portion where the microbeads are not fixed and only the binder is formed, and the fine uneven shape is formed,
Light control sheet characterized by. In the light control sheet according to any one of claims 1 to 16,
When the width on the back side of the light transmission part in a cross section orthogonal to the sheet surface is wt, and the width on the back side of the light absorption part is wa,
1/4 ≦ wt / wa ≦ 2
Satisfying the relationship
Light control sheet characterized by. In the light control sheet according to any one of claims 1 to 17,
When the width on the back side of the light transmission part in a cross section orthogonal to the sheet surface is wt, and the width on the back side of the light absorption part is wa,
3/7 ≦ wt / wa ≦ 1
Satisfying the relationship
Light control sheet characterized by. The light control sheet according to any one of claims 1 to 18,
When the angle between the boundary surface of the light transmission part and the light absorption part and the normal direction to the sheet surface is θ,
5 ° ≦ θ ≦ 15 °
Satisfying the relationship
Light control sheet characterized by.

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