JP6260044B2 - Rear projection screen - Google Patents

Description

  BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a resin sheet for a projection screen, and in particular, color development of a transparent projection image in a bright environment in a digital display and a digital signage that project and project an image projected from the back of the screen to the back of the screen on the surface of the screen. The present invention relates to a projection screen excellent in sharpness and a hot spot concealing effect, and further to a projection screen having nonflammability.

  Digital displays and digital signage that display digital data directly or via a computer for displaying images and moving images are in widespread use. Since such digital media does not require implementations such as posters and billboards, computer-processed images and video displays can be freely expressed in real time. A projector is arranged on the back of the projection screen of such a digital display or digital signage. By using a transmissive screen having appropriate translucency and light diffusibility for such a projection screen, it is possible to display a clear image while hiding the projector light source.

  As a specific example of such a transmission type screen, a plastic film support is provided with a light diffusion layer containing light diffusing particles (inorganic pigment), haze of 80% or more, total light transmittance of 60% or more, specular gloss. A transparent screen having a degree of 10% or less (Patent Document 1), a screen that eliminates the appearance of a white light source being colored, transparent resin, and spherical fine particles satisfying specific conditions having different refractive indexes. On a forward-scattering film having a haze of 65% or more as a screen that obtains sufficient contrast and brightness while preventing the formation of a transmissive screen (Patent Document 2) and hot spots (reflection of a projector light source) And a transmission type screen (Patent Document 3) having a black layer containing black beads having an average particle diameter of more than 6 μm to 12 μm and a binder resin. Have been disclosed.

  However, these transmissive screens of Patent Documents 1 and 2 have low contrast, and the image projection in a bright place is easily over-exposed. Further, the transmission type screen of Patent Document 3 has a concealing effect on the hot spot (projector light source exposure) because the presence of black beads having an average particle diameter of more than 6 μm to 12 μm blocks projection image information from the back surface. There is a problem that the resolution of the transmitted image is deteriorated and the image is not clear. Moreover, since the screen of patent documents 1-3 does not have the nonflammable characteristic (ISO5660Part1) which adapts to a building standard law, it was unsuitable to use for a large-sized screen as an accessory to a building.

  Therefore, if there are projection screens with excellent transparency and hot spot concealment effect for transparent projection images in a bright environment and non-combustibility, they can be used for commercial applications such as window displays and POP advertising signs. , Station buildings, airports, station buildings, underground shopping streets, large commercial facilities, amusement facilities, museums, ceremonial occasions, and various public facilities can also be used for promotional and visual effects.

JP 2005-024942 A JP 2007-249185 A JP 2010-250288 A

  The present invention starts commercial use of city window displays, POP advertising signs, station buildings, airports, station buildings, underground shopping streets, large commercial facilities, amusement facilities, ceremonial occasions, museums, various public facilities, etc. In particular, the present invention is to provide a projection screen that is excellent in the color clarity of a transmitted projection image in a particularly bright usage environment and an excellent hot spot suppression effect, and further has a non-flammability that conforms to the Building Standards Act.

As a result of studies to solve the above problems, a flexible laminate having a resin-impregnated glass cloth as a base material and light diffusion layers on both surfaces thereof , on at least one outermost surface of the translucent laminate. Providing a diffused light reflection layer containing pearl pigment particles, the light diffusion layer containing 1 to 20% by mass of spherical particles having a particle diameter of 2.5 to 20 μm, and coloring the light diffusion layer as necessary to obtain a Munsell brightness 3 -7 (Munsell color system) provides a projection screen suitable for digital projectors, which has excellent color clarity and transparency of hot projection images in a bright usage environment and a hot spot concealing effect. It has been found that the use of any of vinyl chloride resin, fluorine-containing copolymer resin, and silicon resin for the layer makes it possible to easily obtain incombustibility that conforms to the Building Standards Act, and the present invention has been completed.

  According to the present invention, the color of the projected projection image in a particularly bright usage environment, the projection screen excellent in the hot spot concealing effect, and the nonflammability that complies with the Building Standards Law, for digital projectors This makes it possible to easily display digital displays and digital signage by simply sticking the rear projection screen according to the present invention to the glass surface of the show window and projecting the rear projector. To do. In addition, since the rear projection screen according to the present invention has non-flammable properties, it should be used for station buildings, airports, station buildings, underground shopping streets, large commercial facilities, amusement facilities, ceremonial occasions, general hospitals, and various public facilities. Can do. In addition, the use of digital signage in conjunction with Internet communications can be expected to be used for real-time news reports, storm warnings, and emergency evacuation guidance displays during disasters.

The figure which shows an example of the cross section of the screen for back projections of this invention The figure which shows an example of the cross section of the screen for back projections of this invention

  In the rear projection screen of the present invention, the light diffusion layer is made of soft vinyl chloride resin, vinyl chloride copolymer resin, olefin resin (PE, PP, etc.), olefin copolymer resin (EVA, EMMA, etc.), urethane, etc. Resin, urethane copolymer resin, acrylic copolymer resin, styrene copolymer resin, polyester copolymer resin, fluorine-containing copolymer resin, silicon resin, etc. can be used, but many flame retardants are used. In order to obtain nonflammability without using light transmittance and without impairing it, it is particularly preferable to use vinyl chloride resin, fluorine-containing copolymer resin, or silicon resin. In particular, the soft vinyl chloride resin is a colorless light-transmitting or colored light-transmitting soft vinyl chloride resin composition containing a vinyl chloride resin, a plasticizer, a stabilizer, a filler, a flame retardant, a colorant, an ultraviolet absorber, and the like. Is preferred. The light diffusion layer has a thickness of 0.01 to 0.5 mm, particularly 0.1 to 0.25 mm, by known film / sheet manufacturing means such as calendar molding, T-die extrusion molding, inflation molding, coating method, etc. it can.

  The spherical particles contained in the light diffusion layer are glass beads, glass hollow beads, silica beads, silica hollow beads, silicone resin beads, silicone rubber beads, acrylic resin beads, crosslinked acrylic resin beads, styrene resin beads, and crosslinked styrene resin beads. , Melamine resin beads, and one or more kinds selected from these surface-treated beads, and the average particle size is 2.5 to 20 μm, particularly 3 to 10 μm. The surface-treated beads are the ones coated with the reaction product of silane coupling agent or titanium coupling agent, hydrolyzate, coated with silica fine particles, or coated with a resin different from the bead constituent resin. Etc. Even if the particle diameter of these spherical particles exceeds 20 μm, the projected image on the large screen is not greatly affected, but the image quality may appear rough when observed at a close distance. On the other hand, if the particle diameter is less than 2.5 μm, the light diffusion effect is insufficient and the light source of the rear projector may be exposed. The spherical particles are preferably 1 to 20% by mass, particularly 3 to 10% by mass with respect to the light diffusion layer. If the content of the spherical particles is less than 1% by mass, the light diffusing effect is insufficient and the light source of the rear projector may be exposed. On the other hand, when the content of the spherical particles exceeds 20% by mass, the contrast is blurred and lacks sharpness, and the denseness of the spherical particles may make the surface strength of the screen brittle. The shape of the spherical particles is most preferably spherical, but may be distorted spherical or flat spherical.

  In addition, the light diffusion layer contains a colorant as necessary, and can be colored in Munsell lightness 3 to 7 (Munsell color system) to obtain a contrast that makes it difficult to project an image even in a bright place. If the Munsell lightness is less than 3, the screen brightness may be lowered and the projected color may become cloudy. If the Munsell lightness exceeds 7, the image projection may be overexposed in a bright place. Therefore, it is preferable that the light diffusion layer of the screen used for a window display or a POP advertising signboard used in the city contains a colorant and has a Munsell brightness of 3 to 7. Such colorants include carbon black pigments, composite oxide black pigments, iron oxide black pigments, titanium oxide black pigments, azomethine azo black pigments, perylene black pigments, or other black dyes, or yellow dyes. The light diffusion layer colored with Munsell lightness 3-7 diffuses light and transmits light at the same time by using a subtractive color mixture of magenta dye and cyan dye, or by adding a black dye to this subtractive color mixture. Is. Therefore, the amount of these colorants used is a small amount of about 0.01 to 1% by mass. Examples of these pigments include organic pigments, dispersible dyes, oil-soluble dyes, water-soluble dyes, and inorganic pigments. In organic pigments, azo pigments such as insoluble azo, soluble azo, and high molecular weight azo, quinacridone Quinacridone pigments such as red and quinacridone magenta, anthraquinone pigments, perylene pigments, phthalocyanine pigments such as phthalocyanine blue and phthalocyanine green, isoindolinone pigments, dioxazine pigments such as dioxazine violet, quinophthalone Known pigments such as complex pigments such as yellow pigment and nickel azo yellow can be used.

  The base material used for the rear projection screen of the present invention is a fluorine-containing copolymer resin-impregnated coated glass cloth, a silicon resin-impregnated coated glass cloth, or a soft vinyl chloride resin-impregnated coated glass cloth from the viewpoint of nonflammability. In particular, a soft vinyl chloride resin-impregnated glass cloth is preferable. Soft vinyl chloride resin impregnated glass cloth is made by immersing glass cloth in plastisol with paste vinyl chloride resin composition, impregnating and coating glass cloth with plastisol, and then gelling paste vinyl chloride resin composition with hot air heating. A composite obtained by coating and solidifying the product, or a composite obtained by coating plastisol on both surfaces of the glass cloth and by solidifying the gelated coating. The composition of the paste vinyl chloride resin composition is not particularly limited, but is a colorless composition composed of a combination of vinyl chloride resin, plasticizer, stabilizer, filler, flame retardant, crosslinking agent, adhesive and the like. By impregnating the glass cloth with soft vinyl chloride resin, the gaps (air pockets) resulting from the weave structure of the glass cloth are filled, and the fine gaps (air pockets) between the filaments of the multifilament yarns that make up the glass cloth. ) To make the optical characteristics of the entire base material uniform, it is possible to suppress partial irregular reflection of the projected image (due to the presence of air pockets). The impregnation coating amount for the glass cloth is 25 to 100% by mass with respect to the mass of the glass cloth. Moreover, the adhesiveness and adhesiveness with a light-diffusion layer are made more favorable by carrying out a soft vinyl chloride resin impregnation coating.

The glass cloth used for the resin-impregnated coated glass cloth is a woven fabric having a porosity of 3% or less, preferably 0%, in which glass fiber yarns are used as warps and wefts. The glass fiber yarn is preferably a multifilament yarn having a fineness of 138 to 1111 dtex, particularly 277 to 833 dtex, and the filament single yarn constituting the multifilament yarn has a diameter of 1 μm to 15 μm. 800 bundled yarns can be used. The glass cloth is preferably a plain weave cloth having a mass of about 75 to 300 g / m ² , preferably a mass of 90 to 215 g / m ² , such as plain weave, twill weave, satin weave, and imitation weave. In these glass cloths, the driving density of warps and wefts is 20 to 70 pieces / inch. If the porosity exceeds 3%, the cone calorie burning test specified in ISO 5660 Part 1 may not be met. It is preferable that the starch-based sizing agent, the plastic-based sizing agent, and the like are removed from these glass cloths by heat cleaning, and the glass cloth surface is modified with a silane coupling agent.

A light irregular reflection layer is provided on at least one outermost surface of the rear projection screen of the present invention. Light diffuse reflection layers may be provided on both outermost surfaces, and if a light diffuse reflection layer is provided on one outermost surface, a glossy resin layer may be provided on the other outermost surface. Examples of the light diffuse reflection layer include 1) a light diffuse reflection layer containing pearl pigment particles, and 2) a light diffuse reflection layer containing silicon oxide particles and pearl pigment particles. As the silicon oxide particles, crystalline silica particles, fused silica particles, and synthetic amorphous silica particles (dry silica or wet silica) having an average aggregate particle size (Cole counter method) of 0.1 to 10 μm, particularly 1 to 5 μm are preferable, These silica particles are dispersed (1 to 20% by mass) in a binder resin and used as a matting agent. Further, examples of the pearl pigment particles include those having a lustrous appearance such as a mica scale particle having a particle size of 5 to 30 μm, particularly a particle size of 5 to 30 μm, and titanium oxide-coated mica particles. Dispersed (1 to 20% by mass) and used as a light diffuse reflector. As the binder resin, in particular, acrylic resin, fluorine copolymer resin, acrylic-silicon copolymer resin, acrylic-fluorine copolymer resin, acrylic-urethane copolymer resin, blend of acrylic resin and fluorine copolymer resin, and These include those containing silica fine particles, colloidal silica, and organosilicate. By using these, antifouling properties can be imparted simultaneously. Further, the light irregular reflection layer may contain an antistatic agent, an ultraviolet absorber, an antibacterial agent, an antifungal agent and the like. The light irregular reflection layer is formed by a known coating technique such as a gravure coating method, a roll coating method, a knife coating method, a spray coating method, or the like.

The back projection screen of the present invention has two modes 1) and 2) . These are based on resin-impregnated coated glass cloth. 1) Projector side: “Light diffuse reflection layer (pearl pigment particles) / Light diffusion layer / Base material / Light diffusion layer / Light diffuse reflection layer (silicon oxide particles)”: Observer Side, 2) projector side: “light diffuse reflection layer (pearl pigment particles) / light diffusion layer / base material / light diffusion layer”: observer side, 3) projector side: “light diffuse reflection layer (silicon oxide particles) / light diffusion” Layer (colored) / Substrate / Light diffusion layer (colored) / Light diffuse reflection layer (silicon oxide particles) ”: Observer side, 4) Projector side:“ Light diffuse reflection layer (silicon oxide particles) / Light diffusion layer (color) ” / Substrate / light diffusion layer (colored) ": on the observer side, 1) to 4) can be used by changing the positions of the projector and the observer. In particular, modes 1) and 2) are suitable for use in dark places because of high brightness and excellent color clarity, and modes 3) and 4) have excellent contrast effects and are not easily affected by lighting or sunlight. Suitable for use.

The back projection screen of the present invention includes a glass cloth, and the light diffusing layer is selected from soft vinyl chloride resin, fluorine-containing copolymer resin, and silicon resin. Can be combined. The nonflammability that conforms to the Building Standards Law is the total calorific value for 20 minutes after the start of heating when radiant heat from a radiant electric heater is irradiated at 50 kW / m ² in the cone calorimeter test method (ASTM-E1354). Is 8 MJ / m ² or less and 20 minutes after the start of heating, and the maximum heating rate does not exceed 200 kW / m ² for 10 seconds or more, whereby the rear projection screen of the present invention is It can be used in fire prevention areas such as downtown.

  In the example of the rear projection screen of the present invention, the video projection device can be a video projection device such as a slide projector, a film projector, a planetarium projector, a laser projector, an overhead projector, and a video projector. A video projector is preferred. The video projector works in conjunction with the computer to effectively project POP advertisements and moving images stored in the computer, or information, images and moving images obtained through wireless or Internet lines by computer control. These video projectors are normally arranged at the center of the rear of the projection screen, but in a space with a narrow depth, a plurality of reflection mirrors may be used together to arrange the video projector at the right end or the left end. In addition, the back projection screen of the present invention is accompanied by an acoustic device such as a speaker, a membrane speaker, or an electronic audio device, thereby obtaining a synergistic effect with an image.

EXAMPLES Hereinafter, although an Example is given and this invention is demonstrated concretely, this invention is not limited to these.
The following evaluation was performed about the projection screen produced in the Example and the comparative example. The size of the projection screen was 1.5 m long and 2.0 m wide, and a liquid crystal video projector (EH-TW400 manufactured by Seiko Epson Corporation) was used as a video projection device on the back.
<Visibility of projector light source: presence of hot spots>
A video projector was placed at a distance of 2 m on the back of a projection screen 1.5 m long and 2.0 m wide. The projected video was observed from directly in front of the seat and evaluated according to the following criteria. The screen surface for the projector followed the example in paragraph [0017].
1: No hot spot: Projector light source is not recognized and video projection is always good 2: Minor hot spot: Projector light source is recognized but anxious 3: Hot spot is conspicuous: Projector light source is conspicuous Obstacle <Color clarity in bright environment (contrast)>
1: Excellent and clear 2: Slightly unclear 3: White-out and unclear <Munsell brightness>
The Munsell brightness (JIS Z8721) of the projection screen (light diffusing layer) was matched with the MUNSELL BOOK OF COLOR standard color sample.
<Combustion test> (ASTM-E1354: Corn calorimeter test method)
Irradiate industrial material structure with 50kW / m ² of radiant heat from a radiant electric heater for 20 minutes,
In this exothermic test, the total calorific value and rate of heat generation for 20 minutes were measured, and the appearance of the film material after the test was observed.
(A) Total calorific value: 8 MJ / m ² or less was regarded as suitable.
(B) heating speed: 10 seconds or more continuously to the Relevant not exceed 200 kW / ^{m 2.}
(C) Appearance observation: Applicable to those with no pinhole depression exceeding 0.5 mm in diameter.

[Example 1]
<Glass cloth>
225 dtex E glass (refractive index 1.558) non-twisted flat multifilament yarns with warp and weft as a warp density of 60 / inch and weft density of 57 / inch. A glass cloth having an amount of less than 0% and a mass of 105 g / m ² (epoxy group-containing silane coupling agent 2 mass% treatment: starch sizing) was used.
<Soft vinyl chloride resin impregnated glass cloth>
Prepare a soft vinyl chloride resin plastisol with the following composition 1, immerse the glass cloth in the plastisol liquid bath, impregnate the plastisol into the glass cloth, pull up the glass cloth and simultaneously squeeze with mangle roll to complete the impregnation After removing the excess sol, the glass cloth (porosity 0%: mass 160 g / mass) was formed by gelation in a hot air oven at 180 ° C. to form a resin-impregnated coating (mass 55 g / m ² ) with a soft vinyl chloride resin. m ² ) was obtained.
<Formulation 1: Soft polyvinyl chloride resin plastisol composition>
Emulsion-polymerized polyvinyl chloride resin (degree of polymerization 1700) 100 parts by weight Dioctyl phthalate (plasticizer) 40 parts by weight Tricresyl phosphate (flameproof plasticizer) 20 parts by weight Epoxidized soybean oil 4 parts by weight Ba-Zn composite stability Agent 3 parts by weight Polyisocyanate (reactive adhesive) 15 parts by weight <light diffusion layer>
A soft vinyl chloride resin composition according to the following formulation 2 was prepared and calendered under hot roll conditions of 165 ° C. to obtain a transparent film having a thickness of 0.1 mm. The spherical particle content was 11% by mass. This transparent film was heat-welded and laminated on both surfaces of a soft vinyl chloride resin-impregnated coated glass cloth under a hot roll condition of 170 ° C. to obtain a translucent laminate having a thickness of 0.27 mm and a mass of 370 g / m ² .
<Formulation 2: Soft polyvinyl chloride resin composition>
Suspension polymerization polyvinyl chloride resin (degree of polymerization 1300) 100 parts by weight dioctyl phthalate (plasticizer) 30 parts by weight tricresyl phosphate (flameproof plasticizer) 25 parts by weight epoxidized soybean oil 3 parts by weight zinc stearate (stable Agent) 3 parts by mass Spherical particles 20 parts by mass * Spherical particles: Spherical polymethyl methacrylate spherical particles (average particle size 8 μm): Registered trademark “Techpolymer”: Part No. MBX-8: Sekisui Plastics Co., Ltd .: Refractive index 1 .49
<Light diffuse reflection layer>
Light diffuse reflection layers <Formulation 3 / Formulation 4> were formed on both surfaces of the translucent laminate by an 80 mesh gravure roll coating method to obtain a film material for a screen having a thickness of 0.27 mm and a mass of 377 g / m ² .
<Composition 3: Coating on the surface facing the projector: 3.5 g / m ² >
Acrylic resin 12 parts by weight Pearl pigment particles 3.5 parts by weight MEK (solvent) 100 parts by weight * Pearl pigment particles: titanium oxide covering ratio 43%, particle diameter 5-15 μm Reflected light silk silver white tone particles: Trademark “Iriodin” ": No. 111: manufactured by Merck Japan Co., Ltd. <Formulation 4: coating on the surface facing the observer: 3.5 g / m < ² >>
Acrylic resin 12 parts by mass Silicon oxide particles 3.5 parts by mass MEK (solvent) 100 parts by mass * Silicon oxide particles: amorphous silica having an average particle diameter of 1.5 μm and a refractive index of 1.45: Trademark “Nip-seal”: Product No. E200A : Nihon Silica Industry

[Example 2]
<Glass cloth>
The glass cloth used in Example 1 was used.
<Soft vinyl chloride resin impregnated glass cloth>
A glass cloth (porosity 0%: mass 160 g) formed with a resin-impregnated coating (mass 55 g / m ² ) with a soft vinyl chloride resin in the same manner as in Example 1 using the soft vinyl chloride resin plastisol according to Formulation 1 of Example 1. / M ² ).
<Light diffusion layer>
A soft vinyl chloride resin composition according to the following formulation 5 was prepared and calendered under hot roll conditions at 165 ° C. to obtain a colored film having a thickness of 0.1 mm and a Munsell brightness of 5. The spherical particle content was 11% by mass. This colored film was heat-welded and laminated on both surfaces of a soft vinyl chloride resin-impregnated coated glass cloth under a hot roll condition of 170 ° C. to obtain a translucent laminate having a thickness of 0.27 mm and a mass of 370 g / m ² .
<Formulation 5: Soft polyvinyl chloride resin composition>
Suspension polymerization polyvinyl chloride resin (degree of polymerization 1300) 100 parts by weight dioctyl phthalate (plasticizer) 30 parts by weight tricresyl phosphate (flameproof plasticizer) 25 parts by weight epoxidized soybean oil 3 parts by weight zinc stearate (stable Agent) 3 parts by mass Black pigment (CI Pigment Black 7) 0.3 parts by mass Spherical particles 20 parts by mass * Spherical particles: Spherical polymethyl methacrylate spherical particles (average particle size 8 μm): Trademark “Techpolymer”: Part No. MBX- 8: Sekisui Plastics Co., Ltd .: Refractive index 1.49
<Light diffuse reflection layer>
A light diffuse reflection layer <Formulation 4> is formed on one side of the translucent laminate, and a glossy resin layer <Formulation 6> is formed on the other side by an 80 mesh gravure roll coating method, each having a thickness of 0.27 mm and a mass. A film material for a screen of 377 g / m ² was obtained.
<Formulation 4: Coating on the surface facing the projector: 3.5 g / m ² >
Acrylic resin 12 parts by mass Silicon oxide particles 3.5 parts by mass MEK (solvent) 100 parts by mass * Silicon oxide particles: amorphous silica having an average particle diameter of 1.5 μm and a refractive index of 1.45: Trademark “Nip-seal”: Product No. E200A : Nihon Silica Kogyo Co., Ltd. <Formulation 6: Coating on the surface facing the observer: 3.5 g / m ² >
Acrylic resin 12 parts by mass MEK (solvent) 100 parts by mass

[Example 3]
A film material for a screen having a thickness of 0.27 mm and a mass of 377 g / m ² was obtained in the same manner as in Example 2 except that the light diffusing layer <Formulation 5> in Example 2 was changed to <Formulation 7>. The light diffusion layer had a Munsell brightness of 5, and a spherical particle content of 11% by mass.
<Composition 7: Soft polyvinyl chloride resin composition>
Suspension polymerization polyvinyl chloride resin (degree of polymerization 1300) 100 parts by weight dioctyl phthalate (plasticizer) 30 parts by weight tricresyl phosphate (flameproof plasticizer) 25 parts by weight epoxidized soybean oil 3 parts by weight zinc stearate (stable Agent) 3 parts by weight Yellow dye (CIPY110) 0.3 parts by weight Magenta dye (CIPR122) 0.3 parts by weight Cyan dye (CIPB15: 3) 0.4 parts by weight Spherical particles 20 parts by weight * Spherical particles: cross-linked Polymethyl methacrylate spherical particles (average particle diameter 8 μm): registered trademark “Techpolymer”: product number MBX-8: manufactured by Sekisui Plastics Co., Ltd .: refractive index 1.49

  All of the projection screens (film materials) of Examples 1 to 3 were excellent in the color clarity of the transmitted projection image and the hot spot concealing effect, and had incombustible characteristics suitable for the Building Standard Law.

[Comparative Example 1]
A film material having a thickness of 0.27 mm and a mass of 377 g / m ² was obtained in the same manner as in Example 1 except that 20 parts by mass of the spherical particles were omitted from the light diffusion layer <Formulation 2> of Example 1. This film material lacks the light diffusion effect and is inferior in image projection, and further, since the light source (hot spot) of the projector is exposed, there is a problem that the light source is reflected in the projected image all the time. It was a thing.

[Comparative Example 2]
In the light diffusion layer <Formulation 2> of Example 1, 20 parts by mass of the spherical particles were reduced to 1 part by mass, and the spherical particle content in the light diffusion layer was changed to 0.6% by mass. As a result, a film material having a thickness of 0.27 mm and a mass of 377 g / m ² was obtained. This film material lacks the light diffusion effect and is inferior in image projection, and further, since the light source (hot spot) of the projector is exposed, there is a problem that the light source is reflected in the projected image all the time. It was a thing.

[Comparative Example 3]
In the light diffusion layer <Formulation 2> of Example 1, 20 parts by mass of spherical particles were increased to 60 parts by mass, and the spherical particle content in the light diffusion layer was changed to 27% by mass, as in Example 1, A film material having a thickness of 0.27 mm and a mass of 377 g / m ² was obtained. This film material is too bright and lacks the contrast of video projection, and when it is bent, it becomes a light diffusion layer with poor durability, such as cracking on the surface, and it is a flammable acrylic resin spherical Incombustibility cannot be obtained by containing a large amount of particles.

[Comparative Example 4]
A film material having a thickness of 0.27 mm and a mass of 370 g / m ² was obtained in the same manner as in Example 1 except that the light irregular reflection layers <Formulation 3> and <Formulation 4> in Example 1 were omitted. This film material had a difficulty that it was difficult to see depending on the observation angle because the glossy image projection surface was reflected.

  The rear projection screen of the present invention has a clear color of transmitted projection images particularly in a bright usage environment, a projection screen excellent in hot spot concealment effect, and a nonflammability that conforms to the Building Standards Law. Since a projection screen suitable for a projector can be obtained, simply attaching a rear projection screen according to the present invention to the glass surface of a show window and projecting it from a rear projector makes it easy to express a digital display, digital signage, etc. Is possible. In addition, since the rear projection screen according to the present invention has non-flammable properties, it should be used for station buildings, airports, station buildings, underground shopping streets, large commercial facilities, amusement facilities, ceremonial occasions, general hospitals, and various public facilities. Can do. In addition, the use of digital signage in conjunction with Internet communications can be expected to be used for real-time news reports, storm warnings, and emergency evacuation guidance displays during disasters.

1: Rear projection screen 2: Resin-impregnated coated glass cloth (base material)
2-1: Glass cloth 2-2: Impregnating coating resin 3: Light diffusion layer 3-1: Spherical particles 3-2: Colorant 4: Light diffuse reflection layer 4-1: Silicon oxide particles 4-2: Pearl pigment particles 5 : Glossy resin layer 6: Projector 7: Observer

Claims (3)

Using a resin-impregnated coated glass cloth as a base material, a translucent laminate having light diffusion layers on both sides thereof, and a light irregular reflection layer provided on at least one outermost surface of the translucent laminate are used as constituent elements. The back projection screen , wherein the light diffusion layer contains 1 to 20% by mass of spherical particles having a particle diameter of 2.5 to 20 μm, and the light diffuse reflection layer contains pearl pigment particles .   The back projection screen according to claim 1, wherein the light diffusion layer contains a colorant and has Munsell lightness of 3 to 7 (Munsell color system). According to the cone calorimeter test method (ASTM-E1354), when radiant heat from a radiant electric heater is irradiated at 50 kW / m ² , the total calorific value for 20 minutes after the start of heating is 8 MJ / m ² or less, and The rear projection screen according to claim 1 or 2, wherein the maximum heat generation rate does not exceed 200 kW / m ² for 20 minutes or more after the start of heating for 10 seconds or more.