KR100799355B1 - Architecture materials and methods of producing the same - Google Patents

Abstract

The present invention relates to a construction material mainly using small-sized wood (or waste wood), the small-sized wood is primarily screened according to the species, and given the different conditions by the temperature and time according to the species or moisture content variable After drying the neck, secondary sorting is performed according to the external shape such as size, length and shape, and the adhesive is applied to the aggregated small lumbers. Air-drying as much as possible, and gluing together the original shape of small-diameter wood without going through separate processing such as crushing or cutting, or gluing by processing to various standards and cutting to thickness as needed, and then attaching to flat board such as plywood and MDF And further comprising a post-treatment step including any one of fine grinding, polishing, coloring, flame retardant, flame retardant or antiseptic. The lower the percentage of the original shape leverage or waste increases the utilization rate of the used simultaneously with the blind neck with various types of standard blind neck provides an effect that can still be used as a building material for plastering a beautiful grain pattern original timber.

Small Hardwood, Waste Wood, Wood, Plastering Construction Materials

Description

Plastering construction materials and manufacturing method thereof {ARCHITECTURE MATERIALS AND METHODS OF PRODUCING THE SAME}

1 is a representative view of the prior art.

Figure 2 is a manufacturing process flow diagram for manufacturing a plastering building material according to a preferred embodiment of the present invention.

Figure 3a and Figure 3b is a perspective view of the aggregate adhesive wood according to a preferred embodiment of the present invention.

Figure 4a and Figure 4b is a perspective view of the aggregate adhesive wood piece according to a preferred embodiment of the present invention.

Figure 5 is a cross-sectional picture of the aggregated adhesive wood piece according to an embodiment of the present invention.

Figure 6 is a photograph attached to the flattened adhesive wood pieces in accordance with a preferred embodiment of the present invention.

Reference symbols for main parts of the drawings

100: laminated adhesive wood 200: laminated adhesive wood

300: reputation

The present invention relates to a building material for plastering and a method of manufacturing the same, and more specifically, using wood, but primarily sorting the wood, mainly small-sized wood or waste wood, depending on the species and drying and then sorting the secondary according to the size or length Without the separate processing such as crushing or cutting, the original shape of the small diameter wood is processed as it is, or if necessary, after simple processing, it is aggregated and cut to the thickness of the desired size. The present invention relates to a method of manufacturing a plastering building material retaining the unique wood grain by undergoing a post-treatment process such as varnish, coloring, antiseptic or smoke-proof.

Currently, small lumber (or waste wood) with small diameters are produced in the lumbering mill, sawmill, construction site, and pulp processing plant.However, these small lumbers are not recycled properly and are incinerated, It is common to be treated by landfill, etc., thus causing a large environmental problem.

Therefore, many technologies are being developed for use as building materials by utilizing such small wood or waste wood, but most of the technologies are recycled by pulverizing the small wood and finely mixing the various materials in the ground small wood. It is about how to produce the material.

As described above, referring to FIG. 1, the prior art related to building materials using small-diameter wood is sliced into small pieces of wood, and the knots and the flaws of the sliced wood are separated and the surface of the knots and the flawed parts are separated. (1) is formed, and the knot and defect portion engraving surface (1) and the knot and defect portion engraving surface are sealed with a suture made of an adhesive material to form a wood veneer (2), and the wood veneer (2) is laminated again. In order to form a wood multilayer board (3) by pressing and bonding the substrate to the surface of the wood multilayer board (3), the invention utilizing the knots and defects of the previously discarded wood is Korean Patent Application 10-2004 Known by -0028043.

However, the conventional techniques as described above are mostly bonded to each other after applying various types of first-line processing such as cutting small diameters into cross-sections of a certain shape, pulverizing into powders, or processing into slices. Due to the first-line processing, the original ring or wood grain of wood was greatly damaged, and there was a problem that natural patterns such as rings and knots were not properly utilized.

In order to supplement the above problems, the present invention has an object to provide a building material for construction and its manufacturing method that can use the original wood grain pattern as it is.

It is another object of the present invention to provide a building material having a beautiful appearance and a method of manufacturing the same through a process of recycling discarded wood such as small wood or waste wood.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are defined in the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way. It must be interpreted to mean meanings and concepts.

In order to solve the above technical problem, the present invention mainly processes a timber that is a small wood or waste wood to produce a building material for plastering, through the drying step to selectively dry the wood according to the species, dried wood After aggregating and gluing and cutting the small diameter wood to its original shape without undergoing separate preliminary processing such as crushing or cutting, an adhesive bonding step of obtaining an aggregate adhesive wood and a cutting step of cutting the aggregate adhesive wood to obtain an aggregate adhesive wood piece After the cutting process, or after the cutting step comprising any one of a flat plate bonding step or a fine grinding, polishing, coloring, flame retardant, flame retardant or antiseptic process to bond the aggregated wood pieces 200 to the flat plate 300 The present invention provides a building construction material produced by a manufacturing process that further includes a processing step and a manufacturing method thereof.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, like reference numerals refer to like elements, and the size of each element may be exaggerated for clarity and convenience of description.

Figure 2 is a manufacturing process flow diagram for manufacturing a plastering building material according to a preferred embodiment of the present invention.

Referring to Figure 2, the first screening step is the step of selecting various types of wood (mainly small wood or waste wood) by species. This step is followed by a sorting operation, since the subsequent drying process must be carried out under different conditions depending on the species of wood.

The drying step that follows the first screening step is a step of selectively drying wood according to different conditions using temperature and time as variables according to species or moisture content. This drying step is to improve the adhesion of the wood to the adhesive material or the immersion of the paint in the subsequent process, and furthermore, phenomena such as decay, discoloration, warping and cracking in the final produced wood through a series of manufacturing processes Provides the effect of preventing what is happening.

In addition, the drying method is divided into a natural drying method and an artificial drying method, as is well known. First, the natural drying method is a method of drying wood by exposure to atmospheric conditions by drying wood, but there is an advantage that no special drying device and technology are required. It takes a long time and is difficult to dry below the moisture content (氣 乾 含水 率: moisture content in the state of removing moisture from the air), and has a disadvantage of being affected by climate and location.

However, the artificial drying method is mainly a hot-drying method, by loading the wood in a drying room controlled temperature and humidity and drying the wood by a drying schedule prepared by species and thickness, the present invention is such an artificial drying method This is preferred.

In addition, the drying step can be omitted depending on the species or drying state of the wood.

After the second sorting step is a step of sorting the wood after the sorting and drying process for each species as described above according to the external shape such as size, length and shape. The selection criteria in this secondary screening step is mainly dependent on the external shape to obtain a variety of building materials, and the species is not a problem if the pattern of the desired shape can be implemented.

Meanwhile, the wood does not need to be screened only with the same or similar external shape in order to obtain various types of cross sections, and it is preferable that the wood is screened into those having various external shapes according to the desired cross-sectional shape and introduced into the manufacturing process.

In addition, a predetermined prior step of cutting some wood cross sections or lengths may be additionally carried out as necessary in order to easily perform the subsequent bonding process subsequent to the screening in the second screening step.

Aggregate bonding step following the secondary sorting step as described above is a step of obtaining the aggregate adhesive timber 100 by aggregating the wood having the various external shapes by mutual bonding. More specifically, the adhesive is applied to the woods and collected in a predetermined mold, pressurized by a press and at the same time to easily cure the adhesive may be configured to include additional air drying.

The adhesive used in the aggregation bonding step is preferably an aqueous and thermosetting adhesive, and may be used, such as vinyl acetate, melamine resin, or phenol resin.

On the other hand, a method of pressure molding using sawdust or foamed urethane, a hardening agent and an adhesive reinforcement produced by mixing flour to increase the cohesion of sawdust in a certain component ratio with the adhesive or wood powder mixed with an adhesive such as glue It is also possible.

Cutting step of cutting the aggregate adhesive timber 100 according to the desired thickness and shape is the step for generating the aggregate adhesive timber piece 200.

Aggregated adhesive wood piece 200 having a variety of sizes, thicknesses and shapes through the process as described above is attached to the outer surface of the general furniture as it is may be used as a decorative veneer.

In addition, the aggregate adhesive timber piece 200 is bonded to a plate (300 of Figure 6), such as plywood or MDF (Medium Density Fiberboard), a particle board, plastic or metal plate is shown in Figure 6 below It can be used as a separate unit standardized as well.

In addition, the aggregated adhesive wood pieces 200 or the aggregated adhesive wood pieces 200 attached to the flat plate may be selectively subjected to fine polishing, transparent varnish / wax polishing, dyeing work, and flame retardant. It can be extended externally by going through various kinds of post-treatment processes such as, flame retardant, antiseptic, etc., improving heat resistance and durability and extending its service life.

3A and 3B to 4A and 4B are perspective views of the aggregated adhesive timber 100 and the aggregated adhesive timber piece 200.

4A and 4B, the aggregate adhesive timber piece 200 is formed by cutting the aggregate adhesive timber 100 along A-A 'of FIGS. 3A and 3B in the aforementioned manufacturing process. The thickness (W) of the (200) can be utilized as a table or a chair by itself, and the thickness (W) can be utilized as a veneer by attaching it to itself or a flat plate by thinning the thickness (W).

Figure 5 is a cross-sectional picture of the aggregated adhesive timber piece 200 according to an embodiment of the present invention.

As shown, the aggregated adhesive timber piece 200 produced through the above-described process has a high value as a building material for plastering by simultaneously having a unique pattern of small wood as well as the wood grain unique to the wood.

Figure 6 is a photograph attached to the aggregated glued small neck piece in accordance with an embodiment of the present invention on a flat plate.

As described above, the aggregate adhesive timber piece 200 may be attached to the flat plate 300 and used as a building material for plastering.

While the invention has been described and illustrated in connection with a preferred embodiment for illustrating the principles of the invention, the invention is not limited to the construction and operation as shown and described. Rather, it will be apparent to those skilled in the art that many changes and modifications to the present invention are possible without departing from the spirit and scope of the appended claims. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

Plastering building materials of the present invention produced through the process as described above has the effect of providing a plastering building material using the original beautiful wood grain pattern as it is.

In addition, it provides an effect of increasing the utilization ratio of the small trees or waste wood wasted by using small trees or waste wood as the wood.

Claims (4)

In the method of processing wood to produce a building material for plastering, An adhesive bonding step of obtaining an aggregate adhesive wood (100) including a process of applying an adhesive to the wood and collecting the inside of a predetermined mold to press the press and harden the adhesive at the same time; Aggregate bonding step of obtaining the aggregated adhesive timber 100 by bonding the wood after the aggregate; Cutting step of cutting the aggregate adhesive timber 100 to obtain an aggregate adhesive timber 200; And A method of manufacturing plastering building materials, comprising the step of adhering the aggregate adhesive wood pieces 200 to the flat plate 300. delete The method of claim 1, The method of manufacturing a building material for plastering after the cutting step further comprises a post-treatment process including any one of a fine grinding, polishing, coloring, flame retardant, flame retardant or antiseptic process. The method of claim 1, The aggregate adhesive timber is a method of manufacturing a building material for plastering, characterized in that the small diameter wood is glued to its original shape without undergoing separate prior processing such as grinding or cutting.

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