KR100851231B1 - Manufacturing method for interior panel and interior panel thereby - Google Patents

Abstract

A manufacturing method for interior panels and the interior panel thereby are provided to improve fire-resistance, waterproof, sound insulation, and heat insulation by disposing isopink form polystyrene between panels, applying UV resin to the panels, and attaching a thermal transfer wrapping sheet to the UV coating layer. A manufacturing method for interior panels includes the steps of: preparing a base panel(1) by extruding a cement board or a magnesium board, and processing isopink form polystyrene through vacuum compression; installing interior and exterior panels made of the base panel of the cement board or the magnesium board, disposing isopink form polystyrene between the interior and exterior panels, and applying vinyl acetate based bond to attach isopink form polystyrene to the panels; polishing the surfaces of the exterior and interior panels, and making a polished surface(5); applying UV resin to the polished surfaces of the exterior and interior panels, and drying to make a coating layer(2); adhering a thermal transfer wrapping sheet(3) to the upper surface of the coating layer; applying UV resin on the thermal transfer wrapping sheet, and making a UV coating layer(4); attaching an extruded cement core of [ shape or inverted [ shape at a joint part of the panel.

Description

Manufacturing method of interior panel for building and interior panel for building manufactured by this method {MANUFACTURING METHOD FOR INTERIOR PANEL AND INTERIOR PANEL THEREBY}

The present invention relates to a method for manufacturing a building interior panel for use as interior materials, such as interior walls and partitions of a building, and to a building interior panel manufactured thereby, more specifically, to enhance the interior effect with a more beautiful and excellent texture. In addition, the present invention relates to a manufacturing method of a building interior panel for producing economical, productive and high quality, and exhibiting excellent functionality such as flame retardancy, abrasion resistance, water resistance, sound insulation, and thermal insulation, and a building interior panel manufactured thereby.

At present, the interior materials of buildings use a lot of panels such as MDF, gypsum board, LPM, HPM, plywood, plastering, cement board, magnesium board.

At this time, in case of MDF (fiber board) or plywood, it is difficult to expect flame retardancy and water resistance due to its own physical properties, so it is easily burned in case of fire, and a large fire is generated. However, it is easy to deform, so that cracks and molds are generated after finishing, so that it is not suitable for water resistance and durability, and there is a need for other materials.

In addition, cement boards and magnesium boards have been used in recent years as having a flame retardancy, in general, a lot of interior wrapping paper of the shape paper is used to adhere to the interior effect. However, because only the top of the surface of the cement board or magnesium board is bonded as a finish, the wall side of the building itself is exposed to the edge side of the surface when the joint seams are not smooth, it causes aesthetic problems.

As a treatment method to solve the above problems, another joint molding (JOINT MOULDING) is used or a material separator is installed, which has difficulty in construction.

On the other hand, currently used interior materials for partitions are generally finished with paint on the surface of the balmite (fiber-reinforced cement board) or after mounting gypsum board using metal studs, and various finishing materials such as paper and paint on the surface of the gypsum board. It is attached to finish.

However, in the case of gypsum board construction, it is weak to moisture, weak in strength, and the construction process is long, so it is difficult to manage the site and excessive waste occurs after construction, causing frequent complaints about the construction site.

In addition, the SGP partition has a disadvantage in that the texture is rather poor in this age of diversified personality because the surface is not solid and the color is monotonous and the interior effect cannot be expected.

In addition, the partition interior materials that are currently used or are being used are complicated to process and are constructed after selecting another finishing material. Therefore, the quality of the surface finish is not only deteriorated but also various technologies are applied in the field according to the builder. The loss of labor costs is so large that it is not economical.

In addition, in recent years, since the market conditions are not uniform, not only the market demands materials that are easy to install, but also prefers materials having excellent surface finishes with various functions and various colors and patterns.

The present invention can not only increase the interior effect with a more beautiful and excellent texture compared to the existing, but also to exhibit excellent functionality such as flame retardancy, abrasion resistance, water resistance, sound insulation, and heat insulation, and to be economical, productive, and high quality. The purpose of the present invention is to provide a manufacturing method and a building interior panel manufactured thereby.

In addition, the present invention is to provide a method of manufacturing a built-in interior panel for building and to thereby make it possible to expand the scope of use and to provide ease of construction and to facilitate the function of the finish in one installation.

The present invention is the first step of flattening the entire surface by grinding the surface and the edge of the base plate material of the cement board or magnesium board, and applying a UV resin or adhesive to the surface of the base plate material having the flatness by the polishing and drying A second step of curing to form a coating layer, a third step of attaching a thermal transfer wrapping paper to an upper surface of the coating layer formed by the UV resin or adhesive, and applying a UV resin to the upper surface of the thermal transfer wrapping paper, Characterized by a method for manufacturing a building interior panel comprising a fourth step of curing to form a UV coating layer and the building interior panel manufactured thereby.

In addition, the present invention comprises the first step of extruding a cement board or magnesium board is provided as a base plate material and is provided by vacuum compression of iso pink expanded polystyrene, and the base plate material is an extrusion molded product of the cement board or magnesium board and the outer plate A second process of placing the inner plate and compressing the iso-pink foamed polystyrene provided between the outer plate and the inner plate, and then using a vinyl acetate-based bond to bond the surface of the outer plate and the inner plate of the base plate; A third process of polishing to form a flat polishing surface, a fourth process of applying UV resin to the surfaces of the outer plate and the inner plate having the polishing surface and drying to form a coating layer, and a coating layer of the UV resin The fifth step of attaching the thermal transfer wrapping paper for the interior effect on the upper surface, and applying the UV resin to the upper surface of the thermal transfer wrapping paper Chemistry and thereby the production process and therefore characterized by a construction made by the panel with built-in panels for construction comprising a sixth step of forming a UV coating layer.

According to the manufacturing method of the building interior panel according to the present invention and the building interior panel manufactured thereby, not only can increase the interior effect with a more beautiful and excellent texture than conventional, but also flame retardancy and wear resistance, water resistance, sound insulation, insulation It has excellent functionality, economical and productive, and high quality product reliability.

In addition, the present invention can be responsible for the function of the finish in a single installation, can be easily carried out construction and provides a versatility to extend the range of use.

Furthermore, the present invention can solve the problems of the interior panel or partition of the interior panel used as a finishing material for all buildings and the existing problems of monotonous and rough surface or edge finish.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to a preferred embodiment of the method for manufacturing a building interior panel according to the present invention and the building interior panel manufactured thereby.

1 is a cross-sectional view showing a building interior panel according to an embodiment of the present invention, Figure 2 is a cross-sectional view including a different configuration of the base plate in an embodiment of the present invention, Figure 3 is a present invention In one embodiment of the process chart showing an example of attaching the thermal transfer wrapping paper.

As shown, the building interior panel according to an embodiment of the present invention and a method of manufacturing the same for the defects of the interior panel used as the interior wall or partition finishing material of all buildings and for the finishing of monotonous rough surface or edge (edge) It is to solve the problem.

First, referring to FIG. 1, the surface 1b, 1c and edge portion 1a of the base board material ① of a cement board (CRC) or magnesium board are polished to smooth the entire surface. do.

Such polishing can improve the finish on the surface of the base plate (①).

At this time, the base plate (①) may be used to have a surface having a straight cross-sectional shape as shown in Figure 2, or as shown in Figure 2 the corner portion including the edge portion of the base plate 1 in a diagonal direction It can be configured to increase the finishing efficiency of the edge portion by using the extrusion molded to be processed in the form of the "A" and "B".

A UV resin or an adhesive is applied to the surface of the base plate (①) having the flatness by the polishing and dried to form a coating layer (②).

At this time, the coating layer (②) by the UV resin or adhesive serves to fill the surface voids of the base plate (①), thereby providing a sealing force to the tissue of the base plate (①).

In addition, when applying the UV resin or adhesive for the formation of the coating layer (②), UV irradiation or hot air drying may be performed at a temperature of 150 to 200 degrees through drying means such as an ultraviolet curing machine or a hot air blower to promote drying and curing. As a result, it is preferable to be coated on the surface without being absorbed into the base plate 1 so as to provide a sealing force by filling the surface voids.

The upper surface of the coating layer (②) formed by the UV resin or adhesive is attached to the thermal transfer wrapping (③), which is a shape paper for the interior effect.

At this time, the thermal transfer wrapping paper (③) is preferably pressed using a rubber roller, as shown in Figure 3, in order to minimize the surface damage such as scratches when attached, cement board according to the application of the base plate (①) It is desirable to selectively apply the yongyong or magnesium board for the various needs of the consumer (need) is desirable.

In other words, if the base plate (①) is used as a cement board and the thermal transfer wrapping paper (③) suitable for it is attached, it can be easily used in a place where there is a lot of moisture and condensation, and the base plate (①) is made of magnesium board. Attaching a suitable thermal transfer wrapping (③) will be able to easily use in places where flame retardancy is required, such as indoor drywall.

Subsequently, by coating and curing the UV resin on the upper surface of the thermal transfer wrapping paper (③) to form a UV coating layer (④) to prevent surface damage such as scratches and to increase the texture of the surface to manufacture a building interior panel. .

In this case, the UV coating layer (④) is to form a colorless top coating layer, it is preferable to selectively apply a UV resin to exhibit a function such as gloss, matte, semi-glow and flame retardant, thereby It can provide a feeling.

In addition, the upper surface of the UV coating layer (④) can be protected by wrapping a built-in panel manufactured by covering a protective vinyl (⑤), such as PET, sometimes building interior panels with a protective vinyl (⑤) attached. You will be able to complete.

Here, the coating layer (2), the thermal transfer wrapping paper (3), the UV coating layer (4) and the protective vinyl (5) which are sequentially laminated on the base plate (1) are either the surface and the side or the whole of the base plate (1). It is formed to cover the surface.

Building panels according to an embodiment of the present invention manufactured as described above can be manufactured in various ways according to the needs of the consumer, and can be used as interior materials or finishes that provide a variety of patterns and textures of natural texture, more beautiful and The superior texture can enhance the interior effect and solve the problem of the defect of the interior panel used for interior walls or partitions of all buildings and the finishing of monotonous rough surfaces or edges.

On the other hand, the built-in building panel according to another embodiment of the present invention and its manufacturing method is impact resistance or heat insulation, flame retardancy, waterproof, sound insulation, which is a defect of the night light or gypsum board, SGP panels that are conventionally used as partitions in buildings. To improve the interior effect of the lack of surface and surface condition and to be able to complete the construction at once.

Figure 4 is a cross-sectional view showing a building interior panel according to another embodiment of the present invention, Figure 5 is a detailed view showing the configuration of the building interior panel in another embodiment of the present invention. 6 is a cross-sectional view showing the joint portion of the interior panel in another embodiment of the present invention, Figure 7 is a schematic construction showing the joint between the interior panel in another embodiment of the present invention.

First, referring to FIGS. 4 and 5, a cement board (CRC; Cellulose fiber Reinforced Cement Board) or a magnesium board is extruded to produce a thin base plate material, and iso pink expanded polystyrene is provided by vacuum compression.

Isot pink foam polystyrene provided with a base plate material, which is an extruded molded product of the cement board or magnesium board, as an outer plate 1 and an inner plate 2, and is compressed between the outer plate 1 and the inner plate 2 ( After incorporating 3), it is bonded using a vinyl acetate-based bond (4).

By polishing and flattening the surfaces of the outer plate 1 and the inner plate 2, which are the base plate materials, the surface of the base plate material is processed to have an excellent finish on the surface of the base plate material.

The UV resin is applied to the surfaces of the outer plate 1 and the inner plate 2 having the polishing surface 5 and dried to form a coating layer 6.

At this time, the coating layer 6 by applying the UV resin serves to fill the surface pores of the base plate material, thereby providing a sealing force to the tissue of the base plate material.

In addition, during the application of the UV resin for the formation of the coating layer 6, drying and curing can be promoted by performing UV irradiation or hot air drying at a temperature of 150 to 200 degrees through drying means such as an ultraviolet curing machine or a hot air blower. Thereby it is coated on the surface without being absorbed into the surface of the outer plate 1 and the inner plate 2 to provide a sealing force by filling the surface voids and to form a coating layer of a constant thickness.

On the upper surface of the coating layer 6 by the UV resin is attached a thermal transfer wrapping paper (7) which is a shape paper for the interior effect.

At this time, the thermal transfer wrapping paper (7) is preferably pressed using a rubber roller to minimize the surface damage such as scratches when attached, and selectively for cement board or magnesium board depending on the application of the base plate material It can be applied to meet various needs of consumers.

That is, when the outer plate (1) and the inner plate (2) which is the base plate material to the cement board and the thermal transfer wrapping paper (7) according to it is attached, it can be easily used in a place where there is a lot of moisture and condensation phenomenon, the base plate material If the outer plate (1) and the inner plate (2) is made of magnesium board and the thermal transfer wrapping paper (7) according to the attached it will be able to be easily used where flame retardancy such as drywall in the room is required.

By manufacturing and coating the UV resin on the upper surface of the thermal transfer wrapping paper 7 to form a UV coating layer 8 to prevent surface damage such as scratches and to increase the texture of the surface to manufacture a building interior panel.

At this time, the UV coating layer 8 forms a colorless top coating layer, it is preferable to selectively apply a UV resin so as to exhibit a function such as gloss, matte, semi-glow and flame retardant, whereby It can provide a feeling.

The upper surface of the UV coating layer 8 can be protected by wrapping a built-in panel manufactured by covering a protective vinyl (9) such as PET, sometimes to complete the building interior panel with a protective vinyl (9) attached. I can do it.

Architectural interior panel manufactured by another embodiment of the present invention made of such a configuration can be expressed in a state of texture and natural texture more than conventional, as well as flame retardant or impact resistance, wear resistance, sound insulation, insulation, durability It is possible to manufacture high quality panels with excellent back light.

Furthermore, as shown in Figure 6 and 7, the interior panel by combining the integral shape by combining the C-shaped or inverted-shaped extruded cement core material to the joint end of the building interior panel completed by another embodiment of the present invention When used as a partition, it is preferable to configure so that the construction can be performed more firmly and easily with respect to the construction of the joint.

At this time, it is preferable to include a light weight iron core (ⓒ) connecting the interior panel (ⓐ) and the interior panel (ⓑ) by being embedded in the cement core material in accordance with the configuration of the cement core (⑩).

6 and 7 are schematic construction diagrams showing panel joints for use as a partition of a building interior panel manufactured by a manufacturing method according to another embodiment of the present invention, as shown in FIGS. 6 and 7. The partition is formed by inserting a light iron core (ⓒ) between the cement core member and the cement core member of the interior panel ⓐ (ⓑ) where the joints of the interior panel ⓐ and the interior panel ⓑ are opposed to each other. When used as a joint construction will be able to perform a more robust, easy and hermetic construction.

The present invention described above is limited to the above-described embodiment and the accompanying drawings as various substitutions and modifications can be made within a range without departing from the technical spirit of the present invention for those skilled in the art. It doesn't happen.

1 is a cross-sectional view showing a building interior panel according to an embodiment of the present invention.

Figure 2 is a cross-sectional configuration including another configuration of the base plate material in one embodiment of the present invention.

Figure 3 is a process diagram showing an example of attaching the thermal transfer wrapping paper in an embodiment of the present invention.

Figure 4 is a cross-sectional view showing a building interior panel according to another embodiment of the present invention.

Figure 5 is a detailed view showing the configuration of the building interior panel in another embodiment of the present invention.

Figure 6 is a cross-sectional view showing the joint portion of the built-in panel in another embodiment of the present invention.

Figure 7 is a schematic construction showing the joint between the built-in panel in another embodiment of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

①: base plate ②: coating layer

③: thermal transfer wrapping paper ④: UV coating layer

⑤: protective vinyl

Claims (6)

delete delete delete In the method for manufacturing a building interior panel, A first process of extruding a cement board or a magnesium board and providing it as a base plate material and vacuum compressing iso pink expanded polystyrene; Base plate material, which is an extruded molded article of the cement board or magnesium board, is disposed in the outer plate 1 and the inner plate 2, but iso-pink foamed polystyrene 3 is provided between the outer plate 1 and the inner plate 2. A second process of bonding using a vinyl acetate-based bond (4) after incorporating A third process of grinding the surfaces of the outer plate 1 and the inner plate 2, which are the base plate materials, to form a flat polishing surface 5; A fourth step of forming a coating layer 6 by applying a UV resin to the surfaces of the outer plate 1 and the inner plate 2 having the polishing surface 5 and drying and hardening; A fifth process of attaching the thermal transfer wrapping paper 7 for the interior effect to the upper surface of the coating layer 6 by the UV resin, A sixth process of forming a UV coating layer 8 by applying and curing UV resin to the upper surface of the thermal transfer wrapping paper 7; Built-in panel for building further comprising a seventh step of coupling the U-shaped or inverted-shaped extruded cement core (부 에) to the joint end of the building interior panel manufactured by the first to sixth process Manufacturing method. delete delete

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