JP2020067648A - Environmentally friendly projection transmissive screen and method of manufacturing the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an environment-friendly projection transmissive screen.
A projection transmissive screen including a substrate and a water-based polymer emulsion coating material formed on one side of the substrate, which is applied in outdoor advertising, indoor and outdoor interiors, and exhibitions at exhibitions. The outdoor advertisement uses a glass window of a supermarket chain store, a pharmacy, a cosmetic store, an office building or a street shop as a glass substrate, and directly applies an eco-friendly transparent paint on the glass window to produce an eco-friendly projection. Form a transmissive screen.
[Selection diagram] None

Description

  The present invention relates to an environment-friendly projection transmissive screen and a method for manufacturing the same, and more particularly to a novel material in the field of environmental protection. Mainly applied to outdoor advertising, indoor and outdoor interiors, and exhibitions.

  Currently, projection systems are widely applied in places such as business presentations, multimedia conference rooms, classrooms and sports venues. The projection methods used are mainly front projection and rear projection. Accordingly, from the projection mode, the projection screen can be classified into a front projection screen (reflection type) and a rear projection screen (transmission type). In so-called front projection, the position where the projector is installed and the viewer are located on the same side, the rays of light emitted from the projector are projected onto the projection screen, an image is formed on the projection screen, and the rays of light are later projected by the human eye. Reflected in. In so-called rear projection, the mounting position of the projector and the viewer are located on both sides of the projection screen, and the light rays emitted from the projector are directly projected from the projection screen side to the projection screen. In rear photography, the light rays enter the viewer's eyes through the projection screen. The front projection shooting screen is not limited by size, but good viewing effects can only be achieved by controlling the ambient light. The contrast of the photographing screen of the front photographing may be significantly lowered in the environment where the ambient light and the illumination are good. In addition, the rear projection shooting screen has a relatively strong sense of unity of the screen, the colors of the screen are gorgeous, the shape is realistic, there is no need to control the ambient light, and the environment light and lighting are very good environment. Applied to. However, the rear projection photography screen is not as good in size as the front projection and requires sufficient back space to ensure a projection distance. Also, there is currently no dual-sided high definition screen used for front and rear projection simultaneously.

  An example of light emitted from the beam projector is disclosed in Korean Utility Model Registration No. 20-0273709. This technique relates to sticking a particle sticker composed of a plurality of particles to a transparent glass screen panel using an adhesive. However, since this screen panel is opaque, it can be used only for a reflection type beam projector, and since a transmission type beam projector is used, an image cannot be seen from the outside.

  An example of a projection screen that allows an image to be viewed from the outside is disclosed in Korean Patent No. 10-0988415. This projection screen is wound like a roll and has an adhesive applied thereto. However, when wound like a scroll, there is a drawback that the adhesive adheres to an unintended portion.

  A high-definition projection paint composition and a method for producing the same are disclosed in Chinese Patent Application No. 201810142893.1. The high-definition projection paint composition of this patent application comprises 1 to 10% by weight of silica fine particles, 1 to 10% by weight of tin dioxide fine particles, 30 to 60% by weight of adhesive, 1 to 2% by weight of leveling agent, and 1 to 1% of defoaming agent. 2% by weight and balance solvent. In this patent application, an organic solvent is mainly used to solve problems such as dispersion of nanoparticles, but there is a problem of polluting the environment.

  It is an object of the present invention to provide an environmentally friendly projection transmissive screen that includes a substrate and an aqueous polymer emulsion coating material formed on one side of the substrate.

  The environment-friendly projection transmissive screen according to the first aspect of the present invention is obtained after the aqueous polymer emulsion coating material is coated with the aqueous polymer emulsion composition on one surface of the substrate and dried at room temperature and atmospheric pressure. .

  The eco-friendly projection transmissive screen according to the first aspect of the present invention comprises the aqueous polymer emulsion composition, inorganic nanoparticles and an auxiliary agent.

  In the environment-friendly projection transmissive screen according to the first aspect of the present invention, the substrate has a planar shape, an arc shape, or a semicircular shape.

  The application of the environment-friendly projection transmissive screen according to the first aspect of the present invention is a transparent window on a glass window of a supermarket chain store, pharmacy, cosmetics store, office building or street shop as a glass substrate. It is configured to apply the paint composition directly to form an environmentally friendly projection transmissive screen.

  The method for manufacturing an environmentally-friendly projection transmissive screen according to the second aspect of the present invention includes a substrate pretreatment step, a coating step, and a molding step.

  In the method for manufacturing an environmentally-friendly projection transmissive screen according to the second aspect of the present invention, the applying step includes a spray coating step or a roll coating step.

  In the method for manufacturing an environmentally-friendly projection transmissive screen according to the second aspect of the present invention, the molding step is performed at room temperature and atmospheric pressure.

  In the method for manufacturing an environmentally-friendly projection transmissive screen according to the second aspect of the present invention, in the applying step, an included angle between the substrate and the ground is from 0 ° to 90 °. To be selected.

  According to a second aspect of the present invention, there is provided a method for manufacturing an environmentally-friendly projection transmissive screen, wherein a glass window of a supermarket chain store, a pharmacy, a cosmetics store, an office building or a street shop is used as a substrate for transmission on the glass substrate. The paint composition is applied directly to form an environmentally friendly projection transmissive screen.

  The environment-friendly projection transmissive screen according to the second aspect of the present invention is applied to outdoor advertising, indoor and outdoor interiors, and exhibitions at exhibitions.

  The application according to the second aspect of the present invention is that the outdoor advertisement uses a glass window of a supermarket chain store, a pharmacy, a cosmetics store, an office building or a street shop as a glass substrate, and the advertisement is environmentally friendly. Direct application of a gentle transmissive paint to form an environmentally friendly projected transmissive screen.

  In the present invention, the high-definition screen is simply formed by adopting the spray coating method so that the high-definition screen is used for all of the transmission type beam projector and the reflection type beam projector. The present invention does not require an additional screen cloth and can be easily projected anywhere. With the high-definition paint of the present invention, a high-definition projection screen can be formed quickly and easily with any operation, and the size of the projection screen is not affected by other factors and is simply determined according to the size of the transparent plate. .

  The present invention employs a paint for the production of projection screens. It is low in cost, eco-friendly, easy to install, adopts usual spray coating, roll coating, etc., can be applied at normal temperature and pressure and dried, and does not contain organic solvent. Since it does not pollute the environment, the drying speed is fast at normal temperature and pressure, and the construction is easy, it can be produced on-site, further reducing the cost of the projection screen, and applying the coating material of the coating composition to the professional It is characterized by not requiring specialized training. In the present invention, a simple spray coating method or a roll coating method at room temperature and atmospheric pressure is used to directly apply the composition onto a desired clean substrate and naturally dry it to form a film.

  By using the coating composition employed in the present invention, it is possible to apply in-situ on any suitable substrate at any place to form a high-definition and environmentally friendly projection film. Projection can be performed very easily without separately installing a screen cloth. The coating composition adopted in the present invention is capable of forming a projection film on a transparent substrate such as glass, is used for rear projection imaging, has a viewing angle of 170 °, and has strong environmental light resistance. , The construction is easier than the prior art, the size of the projection screen is not affected by other factors, it is simply determined according to the size of the transparent substrate, the formed eco-friendly projection screen is influenced by ambient light It is possible to form an image with a gorgeous color and a realistic shape even in bright light, and to see a clear image on both sides of the screen. Being a rear projection imaging, it is possible to completely hide the projector, there is no presenter shadow, the projector rays do not cause glare effects, and in the unused state it is still the original state of the substrate , Does not affect the original function of the board.

  The coating composition of the present invention can also be applied to an existing white screen or wall to form a high-definition and environmentally friendly projection film, which produces a clear image even in bright light. Overcome the disadvantage of having to use the white screen in the dark. The environmentally friendly projection screen of the present invention can be used in outdoor advertising, indoor and outdoor interiors, exhibitions at exhibitions, office fields and the like.

  Hereinafter, the technical solutions in the embodiments of the present invention will be described in detail, but it is obvious that the examples to be described are only a part of the examples of the present invention and not all the examples. Based on the embodiments of the present invention, all other embodiments obtained under the assumption that a person skilled in the art does not perform creative work all belong to the protection scope of the present invention.

  The terms “comprising”, “including” or any other variations thereof include not only those processes, methods, articles or devices that include a series of elements but also those elements that are not explicitly listed. Element, or non-exclusive implications, such as including elements unique to such processes, methods, articles or devices.

  In the environment-friendly projection transmission screen according to the present invention, the aqueous polymer emulsion coating material is obtained after the aqueous polymer emulsion composition is applied to one surface of the substrate and dried at room temperature and atmospheric pressure. The aqueous polymer emulsion coating material comprises the aqueous polymer emulsion composition, inorganic nanoparticles and auxiliaries.

  Regarding the environment-friendly projection transmissive screen of the present invention, the substrate may have any shape such as a planar shape, an arc shape or a semi-circular shape, and a uniform coating is obtained by a method such as spray coating or roll coating. When formed, a high-definition screen can be formed.

  The method for manufacturing an environmentally-friendly projection transmissive screen of the present invention can be obtained by adopting a substrate pretreatment step, a coating step, and a molding step, and molding by a simple method. Done under pressure.

  In the coating step of the method for manufacturing an environmentally-friendly projection transmissive screen of the present invention, the included angle between the substrate and the ground is selected from any angle between 0 ° and 90 °. Using a glass window of a supermarket chain store, a pharmacy, a cosmetic store, an office building or a street shop as a substrate, the transparent paint composition is directly applied onto the glass substrate to form an environmentally-friendly projection transmissive screen.

  The environmentally-friendly projection transmissive screen of the present invention has applications in outdoor advertising, indoor and outdoor interiors, and exhibition exhibitions.

  As one example, as a raw material for paint, the raw material of the present invention contains an adhesive, and examples of such an adhesive include, for example, acrylic emulsion, vinyl acetate emulsion, polyvinyl butyral, vinyl acetate, polyurethane, organic inorganic It comprises one of the hybrid adhesives or consists of one or more mixtures thereof.

  The coating material applied to the coating layer of the double screen of the present invention contains silica fine particles, an adhesive, a leveling agent for uniformizing the coated surface, and a defoaming agent for suppressing the formation of bubbles in the coating process. Agents can also be included.

  The total composition of the coating material containing the leveling agent and the defoaming agent is 1 to 10% by weight of silica fine particles, 1 to 10% by weight of tin dioxide fine particles, 30 to 60% by weight of adhesive, 1 to 12% by weight of leveling agent, and Includes 1-2% by weight of foaming agent and balance solvent. In the present invention, the solvent of the translucent paint may consist of water or alcohol.

  Further, in the above structure, it is possible to further add fine metal particles as a raw material of the coating material.

  The metal particles not only protect people indoors from ultraviolet rays by reducing the amount of transmission of ultraviolet rays and infrared rays, but also have a better reflection property than the image of the beam projector on the screened paint layer due to the unique reflection characteristics of the metal. Provides image quality.

  In addition, since the metal fine particles have a heat insulating effect, when the coating material to which the metal fine particles are added is applied to the glass at the boundary between the building and the outside, energy efficiency can be further improved.

As an example of the metal fine particles, one or more kinds of titanium oxide, zinc oxide, indium oxide, tin dioxide, antimony tin oxide, indium tin oxide and the like having a size of 10 to 500 nm and molybdenum oxide having a size of about 10 to 500 nm. (MoO ₃ ), tantalum oxide (Ta ₂ O ₅ ), tungsten oxide (WO ₃ ), vanadium pentoxide (V ₂ 0 ₅ ), and cerium oxide (Nb ₂ O ₅ ) can be mixed and used. .

  It is preferable to add 50 to 150 parts by weight of these metal fine particles to 100 parts by weight of silica fine particles.

  If the amount used is larger than the above amount, the glare becomes serious, and conversely, if the amount used is small, a sufficient UV protection effect cannot be obtained.

  As a second embodiment, the coating material of the present invention may be an aqueous polymer emulsion composition, and the aqueous polymer emulsion composition may include an aqueous polymer emulsion, inorganic nanoparticles and an auxiliary agent.

  Preferably, the aqueous polymer emulsion comprises an aqueous polyurethane emulsion, an aqueous polyacrylate emulsion, an EVA emulsion or multiple types of aqueous polymer emulsions.

  Preferably, the inorganic nanoparticles are one or a mixture of two or more selected from nanosilica, nanotin dioxide, nanozinc oxide, nanotitanium oxide, nanoalumina and nanozirconia, and the composition of the nanoparticle mixture. The mass content therein is 1-10%. Its content affects the transparency of the screen when not projected, but does not affect projection imaging. The mass content of the nanoparticle mixture should not be higher than 10%. In particular, when using a glass window of a supermarket chain store, a pharmacy, a cosmetic store, an office building or a street shop as a glass substrate, even if it is not used as a high-definition screen, it does not affect the appearance.

  In the present invention, it is possible to further include a toning nanofiller. Preferably, the toning nanofiller is one kind or a mixture of two or more kinds selected from nanocopper dioxide, nanodiiron trioxide, nanomanganese dioxide, and nanocarbon black, and its mass content in the composition. Is 0.01-2%.

  In the present invention, the auxiliary agent comprises an antifoaming agent, a dispersant and a film forming agent, and the mass content of the composition is 1-10%.

  The present invention provides a polymer emulsion composition coating material for the production of environmentally friendly projection screens. The aqueous polymer emulsion composition coating material of the present invention is applied to manufacture a rear and front / rear projection screen on a transparent substrate, and in particular, a transparent glass window or a display panel of an existing building can be used for front projection and rear projection screens. It is applied to satisfy the requirement to modify. The present invention relates to a screen coating material having strong light resistance, easy application, low cost and environment friendly characteristics.

  The double-sided projection screen of the present invention is formed by applying the aqueous polymer emulsion composition onto a substrate to form a projection film, and combining the projection film with a projector to form an image.

  In the present invention, the aqueous polymer emulsion is a carrier material, and it is possible to use a commercially available aqueous polyurethane emulsion, aqueous polyacrylic ester emulsion, EVA emulsion, or two or more types of aqueous polymer emulsions, Its solids content is preferably 25-45% and its content in the composition is 65-85%.

  The substrate includes a transparent substrate, an opaque substrate, a transparent glass window of an existing building, or a display panel. The simple construction and eco-friendly features described in the present invention require no professional professional training, using a simple spray coating or roll coating method at normal temperature and pressure, on the desired clean substrate. It is applied directly and allowed to air dry to form a film, which is odorless from organic solvents during the drying process.

  The 100 ml paint of the present invention can produce a display screen of about 1.6 square meters without being affected by weather, construction environment and the like.

  INDUSTRIAL APPLICABILITY The water-based polymer emulsion composition coating material of the present invention can be applied to interior and exterior interiors of existing buildings, exhibitions at exhibitions and outdoor advertising screens, can be installed on site, and is easy to install. It has a short drying time, saves cost and time, has high environmental light resistance, and can see a clear screen even in daytime strong light conditions.

  In the present invention, an aqueous polymer emulsion composition for producing a projection screen is adopted. It is low in cost, eco-friendly, easy to install, adopts usual spray coating, roll coating, etc., can be applied at normal temperature and pressure and dried, and does not contain organic solvent. Since it does not pollute the environment, the drying speed is fast at normal temperature and pressure, and the construction is easy, it can be produced on-site, further reducing the cost of the projection screen, and applying the coating material of the coating composition to the professional It is characterized by not requiring specialized training. In the present invention, a simple spray coating method or a roll coating method at room temperature and atmospheric pressure is used to directly apply the composition onto a desired clean substrate and naturally dry it to form a film.

  By using the aqueous polymer emulsion employed in the present invention, it is possible to apply in situ on any suitable substrate at any location to form a high definition, environmentally friendly projection film. Projection can be performed very easily without separately installing a screen cloth. The aqueous polymer emulsion composition employed in the present invention can form a projection film on a transparent substrate such as glass, is used for rear projection imaging, has a viewing angle of 170 °, and has an environmental light resistance. Strong, easy to install compared with the prior art, the size of the projection screen is not affected by other factors, it is determined only by the size of the transparent substrate, and the formed eco-friendly projection screen is influenced by ambient light It is possible to form an image that is brilliant in color even in bright light and has a realistic shape, and it is possible to see a clear image on both sides of the screen. Being a rear projection imaging, it is possible to completely hide the projector, there is no presenter shadow, the projector rays do not cause glare effects, and in the unused state it is still the original state of the substrate , Does not affect the original function of the board.

  The aqueous polymer emulsion composition of the present invention can also be applied to an existing white screen or wall to form a high definition and environmentally friendly projection film, which produces a clear image even under bright light. However, it overcomes the drawback of using an existing white screen in the dark. The environmentally friendly projection screen of the present invention can be used in outdoor advertising, indoor and outdoor interiors, exhibitions at exhibitions, office fields and the like.

Example 1
To 100 parts by mass of the aqueous polyurethane, 8 parts by mass of silica, 2 parts by mass of nano tin dioxide and 2 parts by mass of water were added and mixed, and the solid content was 45% by mass. Then, after using ultrasonic waves for 60 minutes, the aqueous polymer composition 1 of Example 1 was obtained. Aqueous Polymer Composition 1 was placed in a spray gun, applied on a pretreated glass substrate in a direction perpendicular to the ground, and naturally dried to obtain an off-white coating film having a surface drying time of 10-15 min. The glass coated with Aqueous Polymer 1 can be used as a projection screen with a viewing angle of 170 and full imaging can be obtained on both sides of the coating. Excellent rear projection effect when the coated surface faces the projector.

Example 2
14 parts by mass of silica and 7 parts by mass of nano-titanium oxide were added to 100 parts by mass of the aqueous polyurethane and mixed with 2 parts by mass of water, and the solid content was 63%. Then, after using ultrasonic waves for 60 minutes, the transparent paint composition 2 of Example 2 was obtained, and the transparent paint composition 2 was placed in a spray gun and applied onto a pretreated glass substrate in a direction perpendicular to the ground. Spray coated and air dried to give an off-white coating film with a surface drying time of 10-15 min. The glass coated with Aqueous Polymer 1 can be used as a projection screen with a viewing angle of 170 and full imaging can be obtained on both sides of the coating. Excellent rear projection effect when the coated surface faces the projector.

Example 3
To 100 parts by mass of the aqueous polyurethane, 8 parts by mass of silica, 2 parts by mass of tin dioxide and 0.05 part by mass of copper dioxide were added and mixed with 2 parts by mass of water, and the solid content was 47%. Then, the transparent paint composition 3 of Example 3 was obtained after using ultrasonic waves for 60 minutes, and the transparent paint composition 3 was placed in a spray gun and applied onto a pretreated glass substrate in a direction perpendicular to the ground. Spray coating and air drying to obtain a coating film of ash black having a surface drying time of 10-15 min. The glass coated with Aqueous Polymer 1 can be used as a projection screen with a viewing angle of 170 and full imaging can be obtained on both sides of the coating. Excellent rear projection effect when the coated surface faces the projector.

Example 4
To 100 parts by mass of an aqueous acrylate and an aqueous polyurethane (3: 7), 14 parts by mass of silica and 7 parts by mass of nano tin dioxide were added and mixed with 2 parts by mass of water, and the solid content was 63%. is there. Then, after using ultrasonic waves for 60 minutes, the transparent paint composition 4 of Example 4 was obtained, and the transparent paint composition 4 was placed in a spray gun and applied onto a pretreated glass substrate in a direction perpendicular to the ground. Spray coated and air dried to give an off-white coating film with a surface drying time of 10-15 min. The glass coated with Aqueous Polymer 1 can be used as a projection screen with a viewing angle of 170 and full imaging can be obtained on both sides of the coating. Excellent rear projection effect when the coated surface faces the projector.

  The examples described above are only some embodiments of the present invention, the description of which is more specific and detailed, but should not be understood as limiting the scope of the present invention. It should be pointed out that some variations and modifications can be made by those skilled in the art without departing from the spirit of the present invention, and all this is within the protection scope of the present invention. Therefore, the scope of the invention should be determined by the appended claims.

Claims (12)

It is an environmentally friendly projection transmissive screen,
Said environmentally friendly projection transmissive screen comprising a substrate and an aqueous polymer emulsion coating material formed on one side of the substrate. The environment-friendly projection transmissive screen according to claim 1, wherein the aqueous polymer emulsion coating material is obtained after the aqueous polymer emulsion composition is applied to one surface of the substrate and dried at room temperature and atmospheric pressure. The environmentally-friendly projection transmissive screen according to claim 1, comprising an aqueous polymer emulsion composition, inorganic nanoparticles and an auxiliary agent. The environment-friendly projection transmissive screen according to claim 1, wherein the substrate has a planar shape, an arc shape, or a semicircular shape. A glass window of a supermarket chain store, a pharmacy, a cosmetic store, an office building or a street shop is used as a glass substrate, and a transparent paint composition is directly applied on the glass substrate to form an environmentally-friendly projection transmissive screen. The application of the environmentally-friendly projection transmissive screen according to claim 1, characterized in that: A method for manufacturing an environmentally-friendly projection transmissive screen,
A method for manufacturing the environmentally-friendly projection transmissive screen, comprising a substrate pretreatment step, a coating step and a molding step. The method of claim 6, wherein the applying step includes a spray coating step or a roll coating step. The method according to claim 6, wherein the forming step is performed at room temperature and normal pressure. The environment-friendly projection transmissive screen according to claim 6, wherein in the applying step, an included angle between the substrate and the ground is selected from any angle between 0 ° and 90 °. Production method. A glass window of a supermarket chain store, a pharmacy, a cosmetic store, an office building or a street shop is used as a substrate, and a transparent paint composition is directly applied on the glass substrate to form an environmentally-friendly projection transmissive screen. The method for manufacturing an environmentally-friendly projection transmissive screen according to claim 9.   Application of the environmentally friendly projection-transmissive screen according to any one of claims 6 to 10 for outdoor advertising, indoor and outdoor interiors, exhibition exhibitions. The outdoor advertisement uses a glass window of a supermarket chain store, a pharmacy, a cosmetic store, an office building or a street shop as a glass substrate, and directly applies an eco-friendly transparent paint on the glass window to produce an eco-friendly projection. Application according to claim 11, characterized in that it forms a transmissive screen.