JPH10502980A - Method of manufacturing interior plate board for building - Google Patents

Abstract

(57) Abstract: The present invention relates to a material mixture obtained by cutting 30 to 55% by weight of waste pulp, 20 to 35% by weight of waste polyester fiber, and 20 to 35% by weight of waste polypropylene fiber to a predetermined length. And uniformly mixing the material mixture with 2 to 9% by weight of a filler and water, and dispersing the homogeneous mixture on a belt having a network structure and passing the mixture through a pair of rollers. While dewatering the uniform mixture to form a plateboard pre-product (precursor); spraying a thermosetting resin solution on the plate-board pre-product; and heating the plate-board pre-product to a temperature of 60-90 ° C. Drying the plate board until the water content of the plate board becomes 5 to 20%, forming a plate board, cutting the plate board into a predetermined shape, and spraying water on the surface of the plate board. A method for manufacturing an interior plate board for a building, comprising: a step of playing; and a step of compressing and molding the plate board into an interior plate board of an arbitrary shape at a temperature of 180 to 200 ° C. at a temperature of 120 to 150 kgf / cm ^2. About. According to the present invention, the interior plate board has excellent shape retention characteristics and workability, at the same time has excellent high tension and breaking strength, and furthermore, the use of pre-disposal products reduces production costs and environmental pollution. Decrease.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for manufacturing an interior plate board for a building, and more particularly to a method for manufacturing an interior plate board for a building that is lightweight, has excellent heat resistance and thermoformability, and further reduces environmental pollution. The present invention relates to a method for producing a reinforced interior plate board for a building, which greatly contributes. Prior art For common interior boards for walls or ceilings, patterned or coated veneered boards or synthetic wood are used. These general boards have light weight, good appearance, and wide application range, but are inferior in strength and heat resistance and are easily vibrated and broken by external force. Natural wood is preferred in terms of high quality, but not preferred in terms of economy and pollution of the natural environment. Gypsum board has been proposed as another building material. However, gypsum board has the drawback that it is heavy and is easily broken by a small force. In addition, gypsum board is harmful to humans because it consists of a carcinogen such as asbestos. In addition, plate-type materials bonded with inorganic materials such as adhesives, cement, fiberglass and vermiculite or cured with organic enhancing materials are employed for interior wallboards, partitions and ceiling panels. However, interior materials formed in such a manner, despite having good physical properties such as heat resistance, bearing strength and surface strength, show a recent trend toward low cost and light weight. I can't follow. In addition, although a plastic plate has been proposed as an interior material, the synthetic resin plate causes torsion due to a large thermal expansion coefficient, shifts from a joint part due to excessive elasticity, and further causes distortion due to weak heat resistance. Therefore, after the research and development of building interior materials using waste pulp and polyester and polypropylene waste fibers discarded from factories instead of synthetic wood, gypsum board and synthetic resin, the present inventor has found that light and external They found a building interior plate board that is resistant to impact, has good physical properties such as soundproofing, heat resistance, and thermoformability, and contributes to reducing manufacturing costs and environmental pollution. In the meantime, patent applications utilizing waste resources have increased as public interest in environmental issues has increased and research on resource recycling and effective treatment methods has been activated. For example, Korean Patent Application No. No. 92-13401 (filed July 27, 1992, entitled "Method of Manufacturing Synthetic Wood Using Waste Resources") discloses a method of manufacturing synthetic wood having higher tensile strength than ordinary ones. ing. That is, the production method is as follows: 45 g of rice straw (or barley straw) cut to a length of 3.5 cm, and 33 g of waste paper (or paper sludge) cut to a length of 0.1 to 0.5 cm. Mixing a mixture containing 22 g of sawdust (or waste wood) ground with a mesh of 70-80 with 10 g of a urea resin adhesive, waiting the mixture in air for 20-30 minutes; Compression at a pressure of 150 to 200 kg / cm ² and a temperature of 150 to 200 ° C. for molding. However, although the above-mentioned production method contributes to recycling of resources and prevention of environmental pollution at low cost, the synthetic wood produced by this method cannot be packed tightly, and it is difficult to pack the synthetic wood like rice straw and sawdust. Since raw materials are poor in thermoplasticity and thermoformability, there is a limit in the decorative effect due to their appearance and applicability. Accordingly, the present inventor has proposed in Korean Patent Application No. No. A method of manufacturing a building interior plate board has been disclosed which solves the above-described problems encountered in the prior art of U.S. Pat. No. 95-20835 (titled "Method of Manufacturing Reinforced Building Interior Plate Board"). Therefore, a method of manufacturing a reinforced interior plate board is provided which has the same strength as a general one, is lighter, has excellent moldability, and further reduces manufacturing costs and environmental pollution. The method for producing a reinforced interior plate for a building comprises the steps of: mixing a material mixture comprising 50% by weight of waste pulp, 20% by weight of polyester fibers and 30% by weight of polypropylene fibers in an aqueous solution containing 20 to 30 g / l of filler. And a step of uniformly dispersing this homogeneous mixture on a network-structured belt, moving the mixture along the belt to form a paperboard precursor, and a paperboard precursor. Through a pair of rollers to first squeeze the water from the product before the paper board, and drying the pressed paper board at a temperature below the melting point of polypropylene until the water content of the paper board is 20% or less Dipping a dried paper board in a thermosetting resin solution, and dipping the paper board between a pair of rollers It comprises a step of squeezing the al again water, and drying through a drying drum paperboard squeezed again at a temperature of 180 to 200 ° C., a. In the above patent application no. According to 95-20835, the reinforced paper board itself waits in air for a long time. However, in that method, it is dried again and cut immediately to form a secondary molding product having various uneven patterns in order to prevent deterioration of thermoformability of the board due to curing of the thermosetting resin. Must be compression molded. SUMMARY OF THE INVENTION As a result of repeating experiments and research, the present inventor has solved the above-mentioned general drawbacks, while at the same time having a more economical method of manufacturing a reinforced interior plate board for a building and having excellent moldability and strength. Having completed that product. An object of the present invention is to provide a method for manufacturing a building interior plate board using waste pulp and waste fiber in order to actually maximize waste resources and contribute to prevention of environmental pollution. Another object of the present invention is to provide a building interior plate with good heat resistance and formability, such that the applicability and decorative effect of the product can be maximized by realizing various irregular patterns. A method of manufacturing a board is provided. It is yet another object of the present invention to provide a method of manufacturing a building interior plate board using waste pulp and fiber that is easy to use, economical and further reduces manufacturing costs. It is a further object of the present invention to provide a method for manufacturing a building interior plate board which is strong against external impact and has particularly good soundproofing. DETAILED DESCRIPTION OF THE INVENTION In accordance with the present invention, a method of making a building interior plateboard comprises: 30-55% by weight waste pulp, 20-35% by weight waste polyester fiber, and 20-35% by weight waste polypropylene fiber. Forming a material mixture by cutting the mixture into a predetermined length; uniformly mixing the material mixture with 2 to 9% by weight of a filler and water; uniformly dispersing and mixing the uniform mixture into a belt having a network structure. Moving over and passing through a pair of rollers, dehydrating the homogeneous mixture to form a precursor of the plateboard; spraying the thermosetting resin solution on the preform of the plateboard; Drying the pre-board product at a temperature of 60 to 90 ° C. until the water content of the plate board becomes 5 to 20% to form a plate board; And cutting into a predetermined shape, a step of spraying water onto the surface of the plate board, a plate board, into any shape interior plate board, one hundred eighty to two 00 ° C. of temperature, 120~150kgf / cm ^{And 2} ) compression molding. The waste polyester and polypropylene fibers of the present invention can be obtained by swelling small cotton cloths in aqueous sodium hydroxide solution or on paper, such as cotton pulp, linen pulp, flux pulp, paper mulberry pulp, jute pulp, manila Obtained from waste solution after manufacturing pulp and the like. It is preferable to use cotton pulp having excellent strength, toughness, and sound insulation. At the same time, it is preferable to use the waste solution after producing the paper of waste polyester and waste polypropylene fiber to be used after being cut and expanded. The waste polyester and polypropylene fibers of the present invention do not require careful treatment in the general paper manufacturing process, but are obtained by swelling in a solution and cutting the fibers discarded from the factory into predetermined lengths. If polyester mixed with cotton is used, the weight percentage of waste pulp, including cotton pulp, can be reduced. That is, when the mixed fraction of cotton in the polyester fiber is high, the fraction of waste pulp can be reduced. The strength and thickness of the plateboard according to the present invention are closely related to the size of waste pulp and waste fiber. For example, when the waste fiber and pulp are too short, the strength of the interior plate board is weak, while when the waste fiber and pulp are too long, the fiber and the space introduced into the pulp are sewn to mold and compress the fiber. Needs more energy and heat. Further, the shape of the board is not uniform. According to the present invention, when the thickness of the board is about 2-4 mm, the length of waste pulp and fiber is preferably 2-5 mm, and when the thickness is 4-8 mm, the length is preferably 3 mm. ８8 mm. Regarding the fillers used in the present invention, white clay, ocher, talc, asbestos, gypsum, calcium carbonate, and diatomite are the final applications of interior plate boards, for example, , Wall board, ceiling board, and decorative board. A filler is added to uniformly disperse waste pulp and fibers having different specific gravities and not being separated from each other. The ocher helps to homogenize because it tightly bonds with the relatively heavy fibers or pulp of the material mixture. In addition, the filler functions to compact the board material and improves the heat resistance of the board. The size of the filler particles varies slightly depending on the type of filler, but is preferably 20 μm or less. In the present invention, 0.3-3.0% by weight of gasoline is added to the homogeneous mixture to mix the waste fibers and the light impurities of the pulp in the gasoline to float the gasoline layer over the material mixture. Preferably, the gasoline layer is separated from the homogeneous mixture and discarded before dehydration. The water content allows the precursor to absorb as much of the thermosetting resin solution as possible in the next step and improve the thermoformability to form the final product. Is preferably 10 to 20%. The thermosetting resin solution is prepared by dissolving an acidic aqueous solution containing 3% by weight of positive urea formaldehyde and having a pH of 5 to 6 or a 3 to 4% by weight of melamine resin in an aqueous HCl solution, and curing the solution for 3 to 5 hours. This is the solution obtained by performing The resin solution forms monohydrochloride and can be diluted with water, and the resin particles in this solution have static electricity and are easily absorbed by the fibers. Since the thermosetting resin solution is hardened by heat, the surface strength and the bearing strength of the board are improved, and the board is made water-resistant by polypropylene. After spraying the thermosetting resin solution, the product before plateboard is dried with a dryer at a temperature of 60 to 90 ° C. until the water content becomes 5 to 20%. It is preferred to dry the pre-board product below the melting point of the polypropylene. If the temperature is lower than the melting point, a large amount of the thermosetting resin solution can be absorbed by the previous product, and if the drying is performed at the temperature equal to or higher than the melting point, the polypropylene is melted and bound by heat, thereby preventing the penetration of the thermosetting resin solution into the previous product. Furthermore, the present invention provides a time-gaining manufacturing method and a smooth finished interior plate board. In the present invention, rather than cutting immediately after treatment with the thermosetting resin solution, the paperboard is cut into a specific shape and dried again when it contains some moisture after first drying. Therefore, Patent Application No. 1 requires that a product before paperboard be thermally cured with a thermosetting resin solution and then immediately cut and dried again. Compared with the general method as described in No. 95-20835, the efficiency and operability of this operation can be improved, and the aesthetic appearance and smooth finish of the interior plate board can be obtained. After cutting, the next step, compression molding, receives the heat and pressure imposed on the surface of the plate board, and also prevents scorching or twisting due to the heat and pressure on the upper and lower surfaces and air bubbles from the inside of the plate board Water was sprayed on the upper and lower surfaces of the plateboard to prevent the resulting surface discoloration. In the final step of compression molding, temperature, pressure and moisture conditions are important. In order to produce an interior plate board having a desirable high strength, at a temperature of 180 to 200 ° C. and a pressure of 120 to 150 kgf / cm ² for about 20 to 25 seconds, a plate board containing moisture on its inside and on both surfaces. Is most preferably molded. In the temperature range of 180-200 ° C, polypropylene melts and adheres to waste pulp and waste polyester fibers, making the surface of the polyester fibers an adhesive for other components and also providing high tensile strength of the plateboard. These temperature and pressure conditions were obtained from repeated experiments and studies by the present inventors. If the above conditions are not met, the desired shape and strength of the interior plate board cannot be achieved. With respect to the component content of the material mixture, excessive use of pulp reduces the thermoformability and wet strength of the interior plate board, embrittles the surface strength of the manufactured board, and makes the board more easily soiled. Excessive use of polypropylene lowers the heat resistance of the plateboard, causing board failure. On the other hand, if too little polypropylene is used, the bond between the components of the material mixture will be reduced, and the board surface will be rough and uneven. Polyester fiber contributes to thermoforming in compression molding and cooling together with polypropylene fiber, and greatly improves the properties of polyester fiber such as tensile strength and breaking strength. The present invention will be apparent from the following detailed description of exemplary embodiments. Preferred Embodiment of the Present Invention Example 1 35 kg of waste pulp, 30 kg of waste polyester fiber and 30 kg of waste polypropylene fiber collected and discarded in a manufacturing plant are cut into a length of 3 mm by a cutting device and transferred to a mixer. did. Thus, 1 kg of gasoline, 5 kg of ocher and 300 kg of water were added and mixed with the material mixture comprising waste pulp and waste fibers. The upper gasoline layer contains various impurities from waste pulp and fiber and was removed from the lower aqueous phase. The homogeneous mixture was then uniformly dispersed and dewatered while traveling along the network structure belt, and further dewatered through a pair of rollers to form a board-shaped pre-board product. The dehydration was performed until the water content of the product before the dehydration became about 13%. After spraying with a 3% melamine resin solution on the product before the dehydration plate board, it was dried at 85 ° C. until the water content became about 10%. The dried plateboard was cut into predetermined shapes and dimensions, and water was sprayed on both sides of the cut plateboard. Each plate board was placed on a metal mold and hydraulically molded at a temperature of 180 ° C. and a pressure of 125 kgf / cm ² for 20 seconds, thereby forming an interior plate board. The thickness of the building interior plate board of the embodiment of the present invention is 3.5 mm, and the experimental results including these strengths are as follows. Example 2 48 kg of waste pulp, 25 kg of waste polyester fiber and 25 kg of waste polypropylene fiber discarded and collected at a manufacturing plant were cut into a length of 6 mm by a cutting device and transferred to a mixer. Thus, 1 kg of gasoline, 2 kg of ocher and 300 kg of water were added and mixed with the material mixture comprising waste pulp and waste fibers. The upper gasoline layer contains various impurities from waste pulp and fiber and was removed from the lower aqueous phase. The homogenous mixture was then uniformly dispersed and dewatered while traveling along the network structure belt, and further dewatered through a pair of rollers to form a board-shaped pre-board product. The dehydration was performed until the water content of the product before the dehydration became about 15%. 2. Product before plate board. Sprayed with a 5% melamine resin solution and dried at 90 ° C. until the water content was about 15%. The dried plate boards were cut into predetermined shapes and dimensions, and water was sprayed on both sides of each board. The amount of sprayed water is smaller than in Example 1. This is because the thickness of the plate board of this embodiment is higher than that of the first embodiment, and the plate board of this embodiment has more moisture than the first embodiment. Each of the plate boards containing water was placed on a metal mold and hydraulically molded at a temperature of 200 ° C. and a pressure of 140 kgf / cm ² for 25 seconds, thereby forming an interior plate board. The thickness of the interior plate for a building according to the embodiment of the present invention is 4.5 mm. The building interior plate board manufactured by the method of the present invention has excellent shape retention characteristics and workability, and at the same time has excellent high tension and breaking strength. Further, the interior plate board is made of cotton pulp and has excellent soundproofness. Furthermore, the method for manufacturing a building interior plate board of the present invention greatly contributes to prevention of environmental pollution. There, the board leaves a small amount of ash after incineration and can be biodegraded without incineration. The present invention relates to a production method which is particularly useful in a country where raw materials are scarce, such as Korea, and which is extremely effective in remarkably reducing environmental pollution and recycling raw materials around the world. Furthermore, the present invention is very attractive to manufacturers in terms of weight and economy. It will be readily apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the true spirit of the invention as set forth in the appended claims, without strictly following the applications shown and described herein. Can be recognized.

[Procedure amendment] [Submission date] April 17, 1997 [Correction contents] Delete all drawings.

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Claims (1)

Claims 1. A 30-55% by weight waste pulp, 20-35% by weight waste polyester fiber, and 20-35% by weight waste polypropylene fiber are cut to length to form a material mixture. And uniformly mixing the material mixture with 2 to 9% by weight of a filler and water; uniformly dispersing and moving the uniform mixture onto a network-structured belt while passing through a pair of rollers; Dehydrating the homogeneous mixture to form a plate board pre-cursor (precursor); spraying a thermosetting resin solution on the plate board pre-cursor; Drying the plate board until the water content of the plate board becomes 5 to 20% to form a plate board; cutting the plate board into a predetermined shape; A step of spraying water, the plate board, into the interior plate board having an arbitrary shape, one hundred and eighty to two 00 ° C. of temperature, 120~150kgf / cm the building interior plate board and a step of compressing molding ² Manufacturing method. 2. 2. The method of claim 1, wherein the waste pulp is waste cotton pulp. 3. 2. The method according to claim 1, wherein the water content after dehydration by a roller is 10 to 20%. 4. In the method of claim 1, the thermosetting resin solution is obtained by dissolving 3 to 4% by weight of melamine resin in an aqueous HCl solution and curing the solution for 3 to 5 hours. 5. 2. The method of claim 1 wherein 0.3-3.0% by weight gasoline is added to the homogeneous mixture, mixed, and then the gasoline layer is separated from the homogeneous mixture and discarded before dewatering. 6. 2. The method of claim 1 wherein the waste fibers and waste pulp are cut to 2-8 mm. Stirring a material mixture comprising 7.50% by weight waste pulp, 20% by weight waste polyester fiber and 30% by weight waste polypropylene fiber in an aqueous solution containing 20-30 g / l filler; Dispersing the homogenous mixture evenly over the networked belt and moving the mixture along the belt to form a paperboard precursor; and passing the paper through the pair of rollers over the paperboard precursor. First squeezing the moisture from the pre-board product; drying the squeezed paper board pre-product at a temperature below the melting point of polypropylene until the water content of the paper board is 20% or less; A step of immersing in a thermosetting resin solution, a step of passing the paper board through a pair of rollers and pressing again, and a step of pressing the pressed paper board. Method for producing interior plate board for buildings and a step of drying through a drying drum at a temperature of 180 to 200 ° C. The de.