JP2006154029A - Fresnel lens sheet, transmissive screen, and back projection display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a transmissive screen which is used for a projection type projection television and the like and in which the noise due to stray light of reflection at a Fresnel lens face of a Fresnel lens of particularly a Fresnel lens sheet is removed and a high-grade video of reduced noise is realized with substantially no occurrence of scintillation. <P>SOLUTION: In the transmissive screen having at least one Fresnel lens sheet, the Fresnel lens sheet is a structure formed with fine ruggedness constituting a lens section on a base surface, in which the base is composed of at least two layers of a transparent substrate and a light diffusion layer provided on an incident light side. The transmissive screen is characterized in that the surface ten point average roughness Rz (JIS B 0601-1994) on the incident side of the light diffusion layer ranges from 2 to 6 μm and the haze value thereof ranges from 20 to 60%. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a transmissive screen used in a projection-type projection television and the like, and in particular, reduces stray light due to reflection by a Fresnel lens of a Fresnel lens sheet, and does not substantially generate scintillation, and has high brightness, high resolution, and high quality. The present invention relates to a Fresnel lens sheet and a transmissive screen that can obtain a clear image.

  2. Description of the Related Art Conventionally, a rear projection television known as a rear projection display device equipped with a transmissive screen is a transmissive screen that has a substantially rectangular flat plate shape by reflecting video light projected from a projector as a light source by a reflecting mirror. By making the light incident on the rear surface, an observer positioned on the front surface side of the transmission screen can observe the image light transmitted through the transmission screen and emitted. The characteristics of a transmissive screen mainly require brightness and a wide viewing angle.

The transmission type screen includes a Fresnel lens sheet that adjusts the direction of incident light to be emitted light, and a lenticular lens array sheet (diffuse lens array sheet) that diffuses the emitted light from the Fresnel lens sheet.
The lenticular lens array sheet in such a transmission type screen is for diffusing light diffused in the horizontal direction (horizontal direction) of the screen by the lenticular lens array (diffuse lens array) in the vertical direction (vertical direction) of the screen. A light diffusing plate is provided, and the Fresnel lens sheet may also include a diffusing plate for supplementing the diffusing action of the lenticular lens array sheet.

  A transmissive screen used in a rear-rear projection television is required to have optical characteristics such as a wide viewing angle, high contrast, little glare, and no stray light. The wide viewing angle allows the observer to widen the visible area of the image, and the high contrast increases the visibility of the video, and less glare results in less eye fatigue for the observer, as well as moire and stray light. The video quality is expected to improve.

  As one means for expanding the viewing angle, there is a method of expanding image light in the horizontal direction or the vertical direction using a lenticular lens sheet in which cylindrical lenses are arranged in parallel. Furthermore, a method of expanding the image light isotropically by providing a light diffusing agent or the like on any member constituting the transmissive screen is employed.

  In order to improve the contrast, for example, there is a method of improving the selectivity of image light by providing a light-shielding layer on the lenticular lens sheet and suppressing reflection of external light by providing a layer or part that absorbs visible light. Be taken. At this time, it is important to take a method of suppressing the reduction of light transmittance as a screen as much as possible.

  Moire is interference fringes generated from combinations of projection pixel pitch, Fresnel lens pitch, and lenticular lens pitch. Therefore, it can be eliminated or reduced by setting each optimum pitch.

  The glare increases the thickness of the light diffusing agent or lowers the screen gain. In addition, it is well known that it is reduced by the concentration gradient of the light diffusing agent in the light diffusing layer or the concentration difference between two or more light diffusing layers. However, such a method reduces the resolution and reduces the screen gain. If it is lowered, the brightness of the projection television itself is lowered, which causes a serious problem. In order to achieve high definition of the video image, the light diffusion layer is made as thin as possible so as not to reduce the resolution, and the surface diffusion characteristics are changed by changing the surface shape of the light diffusion layer to a shape such as irregularities instead of a flat state. It is preferable to put out.

  The stray light causes noise such as image light noise caused by reflected light at each interface of members constituting the screen, particularly reflected light on the surface of the Fresnel lens, and the image looks double. In order to reduce this noise, it is preferable to reduce regular reflection on the incident light side.

  Further, as a light diffusion plate used in such a transmission type screen, for example, a light diffusion plate having a light diffusion layer mixed with a light diffusion agent and a transparent substrate to which the light diffusion layer is bonded is generally used. It has been. As an example of a method for manufacturing such a light diffusing plate, a light diffusing layer is bonded to a transparent substrate by applying a solvent containing a resin mixed with a light diffusing agent to the transparent substrate and drying it. A method for obtaining a plate (see, for example, Patent Document 1), a method for obtaining a light diffusion plate by adhering a light diffusion film to a transparent substrate with an adhesive, or coextruding a resin in which a light diffusion agent is dispersed. Are known.

The known literature is shown below.
Japanese Patent Laid-Open No. 2004-77781

However, the former method has a problem in that the process of applying the solvent to the transparent substrate requires difficulty, leading to an increase in the manufacturing cost of the light diffusing plate, and the latter method makes the light diffusing layer thinner. The problem is that the resolution becomes difficult and the resolution is lowered, and when the materials used for the light diffusing film and the transparent substrate are different, warping occurs due to environmental characteristics, and problems such as floating occur. Due to the dispersion blending, there are problems such as defects in the appearance of the sheet, a decrease in molding accuracy, and insufficient strength.
In any method, it is difficult to arbitrarily control the uneven shape on the surface of the light diffusion layer, and a satisfactory improvement effect has not been obtained so far.

  The present invention has been made in view of the above problems, and in particular, reduces stray light due to reflection by a Fresnel lens of a Fresnel lens sheet, and does not substantially generate scintillation, and has high brightness, high resolution, and high quality. The purpose is to obtain a video.

  In order to solve the above problems and achieve such an object, the present invention provides a transparent substrate, a light diffusion layer having a fine uneven shape on the incident light surface of the transparent substrate, and the other of the transparent substrate. The surface of the light diffusion layer has a surface ten-point average roughness Rz (JIS B 0601-1994) in the range of 2 to 6 μm and a haze value of 20 to 60. The Fresnel lens sheet is characterized by being in the range of%.

  The light diffusing sheet comprises a film having at least a fine uneven shape on the other surface of the transparent substrate having a Fresnel lens formed on one surface, and a light diffusing layer made of a resin that is cured by irradiation with active energy rays or heating. A light diffusing layer portion is disposed, the resin is cured by irradiation with active energy rays or heating from the film side, and a fine uneven shape is transferred and formed, and the film is peeled off. A Fresnel lens sheet comprising a protective layer on the outer surface of the light diffusion layer.

The light diffusion sheet used for the Fresnel lens sheet has adhesiveness, and the active energy ray is cured by irradiation or heating, and is adhered to one surface of the light diffusion layer. And the film is a film that can be peeled off from the light diffusion layer after the light diffusion layer is cured, and has a fine uneven shape on the surface to be attached to the light diffusion layer. A light diffusing sheet characterized in that is provided.
Furthermore, the light diffusing sheet is a light diffusing sheet in which a diffusing agent is dispersed in a light diffusing layer.

  Provided is a transmissive screen characterized in that the Fresnel lens sheet is combined with a light diffusing means, the transmissive screen, and a light source for projecting image light on the back of the transmissive screen. The present invention provides a rear projection display device characterized by having the above-mentioned.

According to the Fresnel lens sheet of the present invention, the surface on the incident side of the light diffusion layer is provided with fine irregularities, the surface ten-point average roughness Rz (JIS B 0601-1994) is 2 to 6 μm, and the surface diffusion characteristics are haze. Generation of stray light and scintillation is prevented when the value is set to 20 to 60%.
Moreover, according to the Fresnel lens sheet obtained through the manufacturing process of the present invention, since the light diffusion layer itself has adhesiveness, the light diffusion layer is directly adhered to a transparent substrate and then cured. Therefore, only by transferring the light diffusion layer in the light diffusion sheet to the transparent substrate, a Fresnel lens sheet in which the light diffusion layer is bonded to the transparent substrate can be easily produced.

  The manufacturing process of such a Fresnel lens sheet is a dry process and does not require a process of applying a conventional solvent to a transparent substrate. Cost can be reduced. In addition, the light diffusing layer has a light diffusing agent mixed therein and has adhesiveness, and a solvent containing a material that exhibits adhesiveness when irradiated with active energy rays or by heating, such as a viscous layer. Since it can be formed by applying a solvent containing an adhesive to the film and drying it, it is possible to reduce the resolution by reducing the thickness of the light diffusion layer formed on the transparent substrate.

Embodiments of the present invention will be described below with reference to the accompanying drawings.
The rear projection television as a rear projection display device according to the present embodiment (the entire configuration is not shown) exposes the casing and the front side (the right side in FIG. 1) to the outside of the casing and the rear side ( A transmissive screen 10 (see FIG. 1) having a substantially rectangular flat plate shape with the left side in FIG. 1 exposed to the inside of the housing, and the image light L is disposed in the housing and is directed to the back surface of the transmissive screen. The projector includes a projector as a light source for projecting, and at least one reflecting mirror that is also disposed in the housing and changes the optical path of the image light L projected from the projector.

As shown in FIG. 1, the transmission screen 10 includes a Fresnel lens sheet 20 and a lenticular lens array sheet (diffuse lens array sheet) 30. The Fresnel lens sheet 20 includes a light diffusing plate 55 for supplementing the diffusing action of the lenticular lens array sheet 30, and a Fresnel lens 21 that adjusts the direction of incident light to be emitted light. The lenticular lens array sheet 30 includes a lenticular lens array (diffuse lens array) 31 and a resin sheet 32 that diffuse light emitted from the Fresnel lens sheet 20 in the left-right direction (horizontal direction) of the screen.
The Fresnel lens sheet 20 and the lenticular lens array sheet 30 are sequentially arranged from the rear side (incident side, left side in FIG. 1) to the front side (outgoing side, right side in FIG. 1) of the transmissive screen 10. Are arranged so as to be substantially parallel to each other.

The Fresnel lens sheet 20 is configured such that the light diffusion plate 51 is disposed on the incident side and the Fresnel lens 21 is disposed on the exit side, and the surface ten-point average roughness Rz (JIS B 0601) on the incident side. -1994) is in the range of 2 to 6 [mu] m, and the surface diffusion is in the range of 20 to 60% in terms of haze value, so that the layer has reduced regular reflection.
The light diffusing plate 55 includes a light diffusing layer 51 mixed with a light diffusing agent and a transparent substrate 54 to which the light diffusing layer 51 is bonded, and the light diffusing layer 51 is disposed on the incident side thereof. At the same time, the transparent substrate 54 is arranged on the emission side. In addition, when obtaining a light-diffusion effect only by the fine uneven | corrugated shape of the light-diffusion layer 51, since the difference only in the presence or absence of the light-diffusion agent in the light-diffusion layer 51, the content which disperse | distributed the light-diffusion agent is described here.

The lenticular lens array sheet 30 includes a resin sheet 32 having a lenticular lens array 31 disposed on the incident side and a lenticular lens array 31 bonded thereto.
The lenticular lens array 31 is provided with a lens array in which a plurality of cylindrical lenses (unit lenses) having a substantially semi-cylindrical shape are arranged so as to be substantially parallel to each other on the incident side.

Hereinafter, a method for manufacturing the light diffusion plate 55 used in the Fresnel lens sheet 20 of the transmission screen 10 configured as described above will be described.
First, as shown in FIG. 2, the light diffusion layer 51 mixed with the light diffusing agent, the first film 52 attached to one surface 51 </ b> A of the light diffusion layer 51, and the other of the light diffusion layer 51. A light diffusion layer sheet 50 including a second film 53 attached to the surface 51B is prepared.

  The light diffusing layer 51 is obtained by mixing a light diffusing agent in an active energy ray curable resin that has adhesiveness and is cured when irradiated with active energy rays (for example, ultraviolet rays). . If the thickness of the light diffusing layer 51 is too small, the adhesiveness of the light diffusing layer 51 is lowered. If the thickness is too large, it becomes difficult to apply a solvent described later. Moreover, when using a thermosetting resin for the light-diffusion layer 51, it hardens | cures and adheres by heating.

  As the light diffusing agent, for example, resin beads or glass beads are used. Here, if the average particle size of the light diffusing agent is too small, the light scattering component increases and the transmitted light intensity decreases, so the contrast decreases. Conversely, if it is too large, the light scattering unevenness increases. The average particle size is set to 5 to 20 μm, and if the amount of the light diffusing agent added is too small, the diffusion characteristics become small, and if too large, the adhesiveness when the light diffusing layer 51 is cured decreases. Therefore, it is set to 1 to 30% by weight with respect to the active energy ray-curable resin.

  Specific examples include organic particles made of styrene resin, acrylic resin, silicon resin, urea resin, formaldehyde condensate, and the like, and inorganic fine particles made of glass beads, silica, calcium carbonate, and the like. In addition, the shape of these diffusing agents may be spherical or indefinite, or both spherical and unstable shapes may be used.

  Further, in order to give the light diffusion layer 51 an antistatic function, an organic material containing a surfactant such as a quaternary ammonium salt or an inorganic material containing an inorganic powder such as Au, Al or Sb is added. You can also. The antistatic agent is added in an amount of 1 to 20 parts by weight, preferably 5 to 15 parts by weight, based on 100 parts by weight of the active energy curable resin. When the addition amount is less than 1 part by weight, antistatic performance does not appear. On the other hand, when the addition amount exceeds 20 parts by weight, the adhesion and resistance when the light diffusion layer is cured are impaired.

As the active energy ray curable resin, for example, an ultraviolet curable photopolymer is used, and specifically, a known adhesive containing an acrylic polymer, an acrylic monomer, a photoinitiator, and the like is used.
With respect to the characteristics of such an active energy ray curable resin, it has a tackiness of, for example, about 100 g / inch in order to ensure removability in a state before being cured, and is adhesive in a state after being cured. For example, it is required that the adhesiveness of the cellotape (registered trademark) is good.

As the first film 52, for example, a PET film whose surface is matted with respect to the surface attached to the light diffusion layer 51 is used. The mold can be easily released from the light diffusion layer 51 in a state after being cured.
Specifically, a mat PET film subjected to sandblasting, chemical matting, and kneading matting can be used, and the surface roughness and surface diffusion characteristics of the light diffusion layer 51 described above can be imparted.

As the second film 53, for example, a PET film in which surface treatment (release treatment) such as fluorine treatment or silicon treatment is performed on the surface attached to the light diffusion layer 51 is used. The film 53 can be easily released from the light diffusion layer 51 in a state before the light diffusion layer 51 is cured.
That is, the first film 52 is less releasable from the light diffusion layer 51 than the second film 53.

  The light diffusion sheet 50 in which the first film 52 and the second film 53 are bonded to both surfaces 51A and 51B of such a light diffusion layer 51, first, with respect to the first release film 52, Applying and drying a solvent containing an active energy ray-curable resin mixed with a light diffusing agent, the first release film 52 is attached to one surface 51A of the light diffusing layer 51, Subsequently, it can obtain by sticking the 2nd release film 53 with respect to the other surface 51B of the light-diffusion layer 51. FIG.

In order to manufacture the light diffusing plate 55 using the light diffusing sheet 50 having such a configuration, first, as shown in FIG. 3A, the second release film 53 of the light diffusing sheet 50 is light-transmitted. The other surface 51 </ b> B of the light diffusion layer 51 is exposed by releasing from the diffusion layer 51.
Next, as shown in FIG. 3B, using the roll R, the light diffusion layer 51 of the light diffusion sheet 50 and the other surface 51B of the surface of the transparent substrate 54 such as acrylic-styrene copolymer resin are used. It adheres to the transparent substrate 54 so as to be in close contact with the substrate. At this time, when the light diffusing layer 51 has adhesiveness at room temperature, the light diffusing layer 51 may be stuck to the transparent substrate 54 as it is, and when the light diffusing layer 51 has adhesiveness by heating. Then, heat of about 100 ° C. is applied to the roll R, and the light diffusion layer 51 is adhered to the transparent substrate 54 such that the heat from the roll R causes the light diffusion layer 51 to exhibit adhesiveness.

And, as shown in FIG. 3 (c), from the active energy ray generating means U arranged on the light diffusion sheet 50 side (upper side in FIG. 3 (c)), the first film 52 is transmitted, The active energy ray is irradiated to the light diffusion layer 51. Thereby, the light diffusion layer 51 is cured and adhered to the transparent substrate 54. At this time, if the first film 52 has a characteristic of not transmitting active energy rays, the active energy ray generating means U is disposed on the transparent substrate 54 side (lower side in FIG. 3C), What is necessary is just to irradiate the light-diffusion layer 51 with an active energy ray so that the transparent substrate 54 may be transmitted.
Finally, as shown in FIG. 3D, by releasing the first film 52 from the cured light diffusion layer 51, the light diffusion layer 51 mixed with the light diffusion agent and the light diffusion layer 51 A light diffusing plate 55 having a bonded transparent substrate 54 can be manufactured.

Here, when the Fresnel lens sheet 20 is provided with the light diffusion plate 55 manufactured as described above, the haze value of the light diffusion layer 51 is set to 50 to 70%.
Further, one surface 51A of the light diffusing layer 51 in the light diffusing plate 55 is provided with a surface mat property to prevent stray light and scintillation. Specifically, the surface ten-point average roughness Rz (JIS) B 0601-1994) is set to 2 to 6 μm, and the haze value as the surface diffusion characteristic is set to 20 to 60%.
As shown in FIG. 2, the surface shape of the first film 52 attached to one surface 51A of the light diffusion layer 51 before curing is a mat surface, and this surface shape is the light diffusion layer. This can be realized by transferring to one surface 51A of 51.
Then, by adding an arbitrary amount of a light diffusing agent into the light diffusion layer 51, it becomes possible to control the haze control of the light diffusion layer 51 itself and to separately control the surface diffusion characteristics and the internal diffusion characteristics.

Further, the light diffusing layer 51 of the light diffusing plate 55 is provided with antistatic properties in order to prevent dust from adhering to one surface 51A of the light diffusing layer 51. Specifically, the light diffusing layer 51 has a light diffusing property. An antistatic agent is mixed in the layer 51. This is achieved by applying a solvent containing an active energy ray-curable resin mixed with an antistatic agent in addition to the light diffusing agent to the first film 52 and drying it in the manufacturing process of the light diffusing plate 55. it can.
In the case of the light diffusing plate 55 provided in such a Fresnel lens sheet 20, the first film 52 is not peeled off from the light diffusing layer 51 at the end of the manufacturing process, and the first film 52 is left as it is. It can be used as a protective film, or the first film 52 can be peeled from the light diffusion layer 51 to form a new protective layer.

According to the light diffusing sheet 50 of the present embodiment as described above, the light diffusing layer 51 itself has adhesiveness. Therefore, the light diffusing layer 51 is directly attached to the transparent substrate 54 and then cured. Only by transferring the light diffusion layer 51 in the light diffusion sheet 50 to the transparent substrate 54, the surface has a mat property, and the surface diffusion property and the internal diffusion property can be arbitrarily controlled. The light diffusing plate 55 in which 51 is bonded to the transparent substrate 54 can be easily manufactured.
The manufacturing process of such a light diffusing plate 55 is a dry process and does not require a step of applying a conventional solvent to the transparent substrate 54. Therefore, the manufacturing process does not require difficulty. The manufacturing cost of 55 can be reduced. The light diffusing layer 51 is made of a solvent containing an adhesive that is mixed with a light diffusing agent, has adhesiveness, and cures and exhibits adhesiveness when irradiated with active energy rays. Since it can be formed by applying to the first film 52 and drying, the light diffusion layer 51 transferred and formed on the transparent substrate 54 can be thinned to suppress a decrease in resolution. Furthermore, since the light diffusing layer 51 is formed on the transparent substrate 54, there is little risk that various problems as described above will occur due to environmental characteristics.

Furthermore, in this embodiment, the light diffusion sheet 50 has the first surface 52 attached to the one surface 51A side of the light diffusion layer 51, and the other surface 51B of the light diffusion layer 51. Since the second release film 53 is adhered to the side, the handleability of the light diffusion sheet 50 can be improved.
The second film 53 is not necessarily attached to the other surface 51B of the light diffusion layer 51 in the light diffusion sheet 50. For example, a light diffusion sheet 50 including a light diffusion layer 51 and a first film 52 attached to one surface 51A of the light diffusion layer 51 has a laminated structure (for example, an adhesive tape shape). If the other surface 51B is adhered to the first film 52, the handling property will not be significantly reduced. In this case, the bonding surface between the one surface 51A of the light diffusion layer 51 and the first film 52 is peeled off before the bonding surface between the other surface 51B of the light diffusion layer 51 and the first film 52. In order to prevent this, the surface of the first film 52 to be bonded to the other surface 51B of the light diffusion layer 51 needs to be subjected to surface treatment (mold release treatment) such as fluorine treatment or silicon treatment. There is.

  The Fresnel lens sheet 20 may be formed by a pressing method, a casting method, a UV resin method using an ultraviolet curable resin, or the like. In the pressing method or the casting method, the Fresnel lens portion 21 and the transparent substrate 54 are used. Are made of the same material, and thermoplastic resins such as acrylic resins, acrylonitrile resins, polycarbonate resins, cycloolefin resins, polyester resins, styrene resins, and acrylic / styrene copolymer resins can be used. The UV resin method is a method in which a UV resin is applied or injected onto the uneven surface of a stamper, a diffusion plate 55 serving as a base material is loaded thereon, and after UV (UV) curing, the mold is released from the stamper.

  The Fresnel lens sheet 20 according to the present embodiment is not limited to a three-layer structure including the light diffusion layer 51, the transparent substrate 54, and the Fresnel lens 21, and includes the light diffusion layer 51 and the Fresnel lens 21. Various modifications can be made without departing from the scope, such as a two-layer structure.

  In addition, the lenticular lens sheet 30 according to the present embodiment is prepared by kneading a light diffusing material in advance into a base resin, extruding a resin sheet 32 by extrusion molding, and forming a cylindrical lens shape 31 by embossing using a stamper or the like. It can manufacture by forming in.

  Alternatively, an ultraviolet curable resin (UV resin), an electron beam curable resin, or the like is applied or injected onto the uneven surface of the stamper having a cylindrical lens shape, and a resin sheet 32 serving as a base material is loaded thereon. It is also possible to obtain the cylindrical lens 31 by a method of releasing from the stamper after the curing process. As the ultraviolet curable resin (UV resin) and the electron beam curable resin, it is preferable to select a resin having good mold releasability at the time of photocuring, excellent light resistance, and high hardness.

  In addition, a transmissive screen comprising the Fresnel lens sheet 20 according to the present embodiment is mounted on a projection television, and projection light (white light) is emitted from a light source set so that the incident angle with respect to the Fresnel lens sheet 20 can be changed by 0 to 20 degrees in the vertical direction. ) And the front surface of the transmitted light screen was visually evaluated. In the transmitted light screen of the present invention, linear noise, that is, stray light was observed at the lower center of the screen even when the incident light was incident obliquely from below. There wasn't. Moreover, the occurrence of scintillation called glare was not substantially confirmed, and high quality image quality could be obtained.

  Furthermore, although the light diffusing plate 55 according to the present embodiment has been described as being used for the transmissive screen 10, the light diffusing plate 55 is not limited to this. For example, the liquid crystal panel is irradiated with light from the back side. It may be used for a backlight unit.

It is a schematic sectional drawing which shows an example of the transmission type screen by embodiment of this invention. It is a schematic sectional drawing which shows an example of the light-diffusion sheet by embodiment of this invention. It is a schematic sectional drawing which shows an example of the manufacturing method of the diffusion plate by embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Transmission type screen 20 ... Fresnel lens sheet 21 ... Fresnel lens 30 ... Lenticular lens array sheet (diffuse lens array sheet)
31 ... Lenticular lens array (diffuse lens array)
32 ... resin sheet 50 ... light diffusion sheet 51 ... light diffusion layer 52 ... first film 53 ... second film 54 ... transparent substrate 55 ... light diffusion plate

Claims (7)

A transparent substrate;
A light diffusion layer having a fine irregular shape on the incident light surface of the transparent substrate;
A Fresnel lens on the other surface of the transparent substrate;
Have
The fine uneven shape of the light diffusion layer has a surface ten-point average roughness Rz (JIS B 0601-1994) in the range of 2 to 6 μm and a haze value in the range of 20 to 60%. Lens sheet. The light of the light diffusing sheet comprising a film having at least fine irregularities on the other surface of the transparent substrate having a Fresnel lens formed on one surface, and a light diffusing layer made of resin cured by irradiation with active energy rays or heating. Arrange the diffusion layer part,
A Fresnel lens sheet, wherein the resin is cured by irradiation with active energy rays or heating from the film side, and a fine uneven shape is transferred and formed, and the film is peeled off.   The Fresnel lens sheet according to claim 1, further comprising a protective layer on an outer surface of the light diffusion layer. A light diffusion sheet used for the Fresnel lens sheet according to claim 2,
The light diffusing sheet has adhesiveness, and the light diffusing layer that is bonded by irradiating active energy rays or heating to adhere,
A film adhered to one surface of the light diffusion layer;
Have
The film is a film that can be peeled off from the light diffusing layer after the light diffusing layer is cured, and the surface to be attached to the light diffusing layer has a fine uneven shape,
A light diffusion sheet characterized by   The light diffusion sheet according to claim 4, wherein a light diffusion agent is dispersed in the light diffusion layer.   A transmissive screen comprising the Fresnel lens sheet according to claim 1 or 2 in combination with a light diffusing means. The transmission screen according to claim 6,
A light source that projects image light on the back of the transmissive screen;
A rear projection display device characterized by comprising:

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