KR101290788B1 - Both side available eco-friendly floor board equiped with drainage fuction and the composite structure used thereof - Google Patents

Abstract

PURPOSE: An environmentally friendly floor board for functioning as drainage and being used by both sides and a floor board structure using the same are provided to promptly drain during rainfall without remaining residual water and to prevent freezing after snowfall. CONSTITUTION: An environmentally friendly floor board structure for functioning as drainage and being used by both sides comprise a floor board (1), a support board, and a floor board connector. The height of the floor board is decreased from the central part to both ends in order to promptly discharge water on the surface thereof. The floor board is convex with the central part to be higher for 1-3mm than both ends. The bottom surface of the floor board is symmetrical on the central part for overturning to use when the top surface is damaged or worn.

Description

Board Side Available Eco-friendly Floor Board Equiped with Drainage Fuction and the Composite Structure used Thereof}

The present invention relates to an eco-friendly floorboard having a drainage function and to use both sides, and a floorboard structure using the same. More specifically, the floorboard is made of any one selected from synthetic wood, aggregate wood, and natural wood, and is installed on the floor. It is made of, and the central portion in the width direction so that the moisture of the surface is quickly discharged in the shape is lowered toward both ends, the central portion of the floorboard has a radius of curvature 1 ~ 3mm higher than both ends, based on the center in the thickness direction The upper and lower bottom surfaces are symmetrical, so that the upper bottom surface can be used upside down when worn or damaged, and both side surfaces of the floorboard have connecting grooves for connecting the floorboard and the floorboard in the longitudinal direction of the floorboard. To emit far infrared rays and anions and to reinforce flame retardancy Particle size 200-1200 available sericite powder is mixed wood plastic composite or jipseongmok of the mesh, and the floorboard of the structure is made of a number plate to be placed on the floor and the floor plate; A plurality of pedestals installed under the floorboards to support the floorboards and installed perpendicularly to the longitudinal direction of the floorboards and fixed to the floor; The floorboard and the floorboard are connected to each other, and a floorboard comprising a floorboard connecting device fixed to the pedestal by a fixing screw, and a floorboard structure using the same.

Vinyl floors and carpets have been widely used as indoor flooring materials. However, although they are expensive in consideration of aesthetics, durability, and eco-friendliness, the use of natural wood, synthetic wood, and aggregated wood is gradually increasing.

Synthetic wood and aggregate wood are increasingly used as interior and exterior materials of buildings, and the use of synthetic wood and laminated wood floorboards is rapidly increasing to develop nature while protecting the park's sidewalks and the environment during outdoor landscaping.

However, indoor floorboards, unlike vinyl sheets or carpets, have both floor and floor noise problems, such as natural wood, synthetic wood, and aggregated wood, and outdoor floorboards are mainly installed in the form of bridges in the upper part of the substructure. Risk of breakage and aesthetic problems when connected. In addition, the member may be lost due to positive pressure or buoyancy due to the flooding or wind.

In addition, natural wood is increasingly difficult to supply and supply, and is being replaced by synthetic wood or aggregate wood, which is made by zipping and drying by mixing synthetic resins or adhesives with wood powder or strands. It tends to be easily broken by external shocks. There is a high risk of injury if pedestrians or users fall over.

In addition, it is installed at regular intervals between the plates at the time of installation, and it takes a lot of manpower to maintain this interval, which leads to a cost increase, and the installed plate moves due to the gap between the plates for expansion and expansion. It causes inconvenience to users and impairs stability.

Existing plate connection device is not installed completely due to the clearance for absorbing expansion and expansion, the movement of the installed plate becomes worse over time, causing inconvenience and risk in use.

Synthetic wood has a structure in the form of a plate usually in the manufacturing process, the moisture in the surface during the rainfall or snow in the form of a plate, which lowers the coefficient of friction of the surface makes the pedestrians easily slip.

In addition, freezing of residual moisture seriously increases the risk of injury to pedestrians. To prevent this, grooves may be formed on the surface for surface drainage treatment, but it is difficult to form grooves in the transverse direction in the manufacturing process of synthetic wood or aggregated wood. it's difficult.

In addition, synthetic wood or aggregate wood has stronger strength than natural wood, which gives pedestrians a hard feeling, which causes inconvenience, and increases fatigue and brittleness. The disadvantage is the high price.

In particular, the use of externally used flooring is rapidly increasing the use of synthetic wood and aggregated wood. However, when it rains or snows, it is easy to slip due to the moisture on the surface of the flooring. To be an element.

In the case of digging grooves to enhance the drainage effect, U-shaped deformation occurs due to the difference in cooling rate, and there is a problem of deterioration of aesthetics when adding a groove in the lateral direction.

The prefabricated floorboards, which are posted as registration rooms 20-0431402, are provided with a plurality of supports in the longitudinal direction integrally with a predetermined height from the floor of the building, and are respectively symmetrically coupled to the supports located at both ends in the width direction. A plurality of single plate body having a coupling groove, in the form of connecting the coupling projection and the coupling groove between adjacent plates, the plate extending in the longitudinal end of the plate, each of which is located on the vertical line of the support with a fitting groove on the bottom Extending plate portions each forming a protruding protrusion in the longitudinal edge portion of the; As the support extends to the other end portion in the longitudinal direction of the plate body on which the extension plate portion is formed, each upper surface has a fastening groove corresponding to each protruding protrusion of the extension plate portion, and an insertion protrusion corresponding to the fitting groove portion of the extension plate portion is formed at the longitudinal edge portion. It is different from the present invention because it is provided with an extension support coupling portion but is not provided with drainage function and elasticity.

Floor boards with impervious and non-flammable boards, which are posted in the registered room 20-0342637, are either flooring boards or flooring blocks, mainly plywood or laminated wood, veneered flooring boards predominantly plywood or MDF, HDF, plywood or MDF, HDF. Floorboards such as veneer veneer flooring boards, and laminated flooring boards with multiple layers of laminated wood, which can be fixed to the back of the various floorboards with adhesives or pieces to improve the workability of the floorboards and prevent noise and deformation. One of the impermeable non-flammable non-flammable non-flammable plate material which can prevent and block moisture is that the one of woodlite (decorative asbestos cement plate) and master board (magnesium board) is adhesively fixed but different from the present invention. .

Floorboard sheets and modular floorboard systems, published as patents 10-2007-0103475, are suitable for use in wet area floorboards, are less dense than conventional compressed fiber cement wet area floorboards, and can be nailed, fiber reinforced The cement-bonded floorboard sheet is different from the present invention.

The present invention for solving the above problems is smooth drainage of the floorboard surface, the upper bottom surface can be used upside down when worn or damaged, give the elasticity does not feel the pedestrian stiffness, far infrared rays and negative ions are released And to provide an eco-friendly floorboard and floorboard structure reinforced with flame retardancy.

Eco-friendly floorboard that can be used on both sides with the drainage function of the present invention is made of any one selected from synthetic wood, aggregate wood and natural wood, is made of a plate to be installed on the floor, in the width direction to quickly discharge the surface moisture The center portion is high and lowers toward both ends, and the center portion of the floorboard has a radius of curvature that is 1 to 3 mm higher than both ends, and the top and bottom surfaces are symmetrical with respect to the center in the thickness direction. This wearable and damaged structure can be used upside down, the side surface of the floorboard is a structure in which the connecting groove for connecting the floorboard and the floorboard is formed in the longitudinal direction of the floorboard.

The synthetic wood is 200 to 300 parts by weight of wood powder to 100 parts by weight of synthetic resin; Pigment, lubricant, UV stabilizer, antimicrobial agent is a mixed composition consisting of 1 to 90 parts by weight of additives, or 200 to 300 parts by weight of wood powder, 10 to 20 parts by weight of pigment, 40 to 65 parts by weight of lubricant 1 to 3.5 parts by weight of UV stabilizer and 2 to 5 parts by weight of antimicrobial agent, wherein the synthetic wood is added to 2 ~ 8 parts by weight of mica powder having a particle size of 200 ~ 1200 mesh in order to release far infrared rays and anions It may be.

The manufacturing process of the synthetic wood comprises a mixing step of producing a mixed composition by mixing the synthetic resin, wood powder and additives in accordance with the mixing ratio; A hot melt extrusion process of melting the mixed composition at a temperature of 150 to 300 ° C. through an extruder for 30 minutes and extruding to produce synthetic wood; A cooling step of cooling the synthetic wood at room temperature; Cutting the cooled synthetic wood to a predetermined length to complete the floorboard; Comprising a finished product inspection process for inspecting the state and quality of the finished floorboard, and the sterilization process to further sterilize the mica powder in the mixing process, by applying heat between the mixing process and the hot melt extrusion process; In order to prevent slippage after the cooling step, a non-slip step of roughening the surface by brushing the surface after the cooling step may be added.

The aggregate wood is produced by impregnating bamboo strands or bamboo pieces crushed peeled bamboo along the grain in an adhesive resin, laminating the impregnated bamboo and then molding by heating and pressing to harden.

An elastic pad having a width of 10 to 30 mm and a thickness of 2 to 5 mm in a length direction may be attached to both bottom portions of the bottom in the width direction of the floor board in order to give elasticity to the floor board.

Eco-friendly floorboard structure that can be used on both sides with the drainage function of the present invention and a plurality of floorboards made of a plate to be installed on the floor; A plurality of pedestals installed under the floorboards to support the floorboards and installed perpendicularly to the longitudinal direction of the floorboards and fixed to the floor; The floorboard is connected to the floorboard and consists of a floorboard connection device which is fixed to the pedestal with a fixing screw.

The floorboard is made of any one selected from synthetic wood, aggregate wood and natural wood, the floorboard is a shape that is higher in the center portion in the width direction and lowered toward both ends so that the moisture of the surface is quickly discharged, the center portion of the floorboard than both ends It has a radius of curvature of 1 ~ 3mm, and the top and bottom surfaces are symmetrical with respect to the center in the thickness direction so that the top bottom can be used upside down when worn or damaged.

Both sides of the floorboard has a structure in which a connection groove into which the floorboard connecting device for fitting the floorboard and the floorboard is fitted is formed in the longitudinal direction of the floorboard.

The floorboard connection device includes a metal plate having a screw hole formed in the center thereof; A pillar portion vertically erected integrally coupled to the metal plate so as to be mutually spaced apart from each other; A wing portion integrally coupled to one end of the pillar portion; It is composed of an elastic member coupled to one side or both sides of the metal plate.

At both ends of the wing portion is formed a secondary wing bent at an angle of 30 ° to 80 ° in the inner direction of the metal plate is formed.

The metal plate is any one of a polygonal, circular or oval shape, the elastic member in the group consisting of a mat formed to have a 3D-webbing structure by spinning rubber, polyethylene, polymer compound, nonwoven fabric, high elastic synthetic filament yarn Any one selected, the elastic member has a thickness of 3 ~ 8mm.

With the above-described drainage function, it is possible to solve the problem to be solved by the environment-friendly floorboard that can use both sides and the floorboard structure using the same.

According to the eco-friendly floorboard and the floorboard structure using the same according to the present invention having a drainage function and using both sides, drainage is quick when rainfall is performed, and residual moisture is little, and snow is left after snowfall. Even if it melts, there is almost no residual moisture and no freezing occurs on the surface.

Shear strength and flexural strength are higher than that of woven octahedra having the same cross-sectional area with a thick central cross section.

 In the case of a 100mm wide floorboard, the plate with a central section of 1mm high is about 10% lower than that of a sheet of the same sectional face.

The plate of the present invention having the upper and lower symmetrical structures can be used upside down, which is not only economical, but also easy to work with and excellent in appearance.

The floorboard has an elastic pad attached to both sides of the bottom plate at the bottom so that the plate is elastic after installation, which not only provides comfort to pedestrians, but also reduces the risk of injury and reduces the risk of breakage of the board.

In addition, the floorboard made of synthetic wood using biotite powder is far-infrared and anion is released, and the flame retardancy is reinforced to be environmentally friendly.

1 is a schematic view of the floorboard overall according to the eco-friendly floorboard that can be used both sides with the drainage function of the present invention
Figure 2 is a floorboard A-A cross-sectional view according to the eco-friendly floorboard that can be used both sides with the drainage function of the present invention
Figure 3 is a floorboard manufacturing process flow chart made of synthetic wood according to the eco-friendly floorboard that can be used both sides with the drainage function of the present invention
Figure 4 is a flow chart of the floorboard manufacturing process made of aggregate wood according to the eco-friendly floorboard that can be used both sides with the drainage function of the present invention
5 is an overall perspective view according to the eco-friendly floorboard structure that can be used both sides with the drainage function of the present invention
Figure 6 is a coupling diagram for coupling the floorboard connecting device to the floorboard according to the eco-friendly floorboard structure that can be used both sides with the drainage function of the present invention
Figure 7 is a perspective view of the floorboard connecting device according to the eco-friendly floorboard structure that can be used both sides with the drainage function of the present invention
8 is a plan view of the floorboard connecting device according to the eco-friendly floorboard structure that can be used both sides with the drainage function of the present invention
Figure 9 is a front view of the floorboard connecting device according to the eco-friendly floorboard structure that can be used both sides with the drainage function of the present invention
10 is various forms of a metal plate according to the eco-friendly floorboard structure that can be used both sides with the drainage function of the present invention
11 is another form of the elastic member according to the eco-friendly floorboard structure that can be used both sides with the drainage function of the present invention
12 is a cross-sectional view of the floorboard coupled to the floorboard connection device according to the eco-friendly floorboard structure that can be used both sides with the drainage function of the present invention
Figure 13 is an assembly flow chart according to the eco-friendly floorboard structure that can be used both sides with the drainage function of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS First, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In addition, the terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users or operators, and the definitions thereof are defined in accordance with the present invention. Floorboard and floorboard structure using the same "will be made based on the contents throughout the specification.

Hereinafter, preferred embodiments of the "eco-friendly floorboard and floorboard structure using the same" having a drainage function and using the same according to the present invention will be described in detail.

The following examples are merely illustrative of the present invention and are not intended to limit the scope of the present invention.

1 is a schematic view of the floorboard according to the eco-friendly floorboard that can be used both sides with the drainage function of the present invention, Figure 2 is a floorboard A-A cross-sectional view according to the eco-friendly floorboard that can use both sides with the drainage function of the present invention, Figure 3 is a flow chart of the floorboard manufacturing process made of synthetic wood according to the eco-friendly floorboard that can be used both sides with the drainage function of the present invention, Figure 4 is an aggregated wood according to the eco-friendly floorboard that can use both sides with the drainage function of the present invention 5 is a flow chart of the floorboard manufacturing process manufactured by FIG. 5 is an overall perspective view of an eco-friendly floorboard structure that can use both sides with the drainage function of the present invention, and FIG. 6 is an eco-friendly floorboard that can use both sides with the drainage function of the present invention. Coupling diagram for coupling the floorboard connecting device to the floorboard according to the structure, Figure 7 is a ship of the present invention Floorboard connection device according to the eco-friendly floorboard structure that can be used both sides with a function is a perspective view, Figure 8 is a plan view of the floorboard connection device according to the eco-friendly floorboard structure that can be used both sides with the drainage function of the present invention, Figure 9 is the present invention Figure 11 is a front view of the floorboard connecting device according to the eco-friendly floorboard structure that can be used both sides with the drainage function of, Figure 10 is a variety of forms of metal plate according to the eco-friendly floorboard structure that can be used both sides with the drainage function of the present invention, Figure 11 is Another aspect of the elastic member according to the eco-friendly floorboard structure that can be used both sides with the drainage function of the present invention, Figure 12 is a floorboard connection device according to the eco-friendly floorboard structure that can be used both sides with the drainage function of the present invention Combined cross-sectional view, Figure 13 is a drainage function of the present invention Is an assembly flow diagram according to an eco-friendly floor plate structure can be used on both sides.

As shown in Figure 1 and 2, the floorboard 1 of the present invention is made of any one selected from synthetic wood, aggregate wood and natural wood, it is made of a plate to be installed on the floor.

The floorboard 1 has a shape in which the center part is high in the width direction and lowers toward both ends so that moisture on the surface is quickly discharged, and the center part of the floorboard 1 has a radius of curvature r of 1 to 3 mm higher than both ends. In the thickness direction, the top and bottom surfaces are symmetrical with respect to the center, so the top floor can be used upside down when worn or damaged.

A c-shaped connecting groove 11 is formed in the longitudinal direction of the floorboard 1 when viewed in cross section for connecting the floorboard and the floorboard 1 of the floorboard 1.

The floorboard 1 is preferably 6 ~ 30mm in thickness, 6 ~ 30cm in width.

An elastic pad 12 having a width of 10 to 30 mm and a thickness of 2 to 5 mm in a length direction may be attached to both bottom portions of the bottom in the width direction of the floor board 1 in order to give elasticity to the floor board 1.

The elastic pad 12 may be any one selected from the group consisting of a mat formed to have a 3D-webbing structure by spinning rubber, polyethylene, a polymer compound, a nonwoven fabric, and a high elastic synthetic filament yarn.

The rubber, polyethylene, a high molecular compound, a nonwoven fabric, a mat and the like are attached to the bottom of the floorboard 1 with an adhesive.

Conventional methods for preventing slippage due to rainfall or snowfall have been used to form grooves on the surface of the plate, but this is not easy to drainage, there is a lot of residual moisture, and the cooling speed of the upper and lower parts is changed during the cooling process due to the grooves formed. The upper part is cooled first, and the upper surface center part tends to be concave, and in this case, not only is the plate material difficult to install, but also a phenomenon in which rainwater accumulates in the center occurs.

In the present invention, the upper and lower parts are symmetrical and the center part is thick, so that deformation does not occur even during the cooling process, rapid drainage after installation is possible, and material saving is possible.

The floorboard (1) is made of any one selected from synthetic wood, aggregate wood and natural wood, the synthetic wood is 200 to 300 parts by weight of wood powder to 100 parts by weight of synthetic resin; A mixed composition consisting of 1 to 90 parts by weight of an additive composed of one or more of pigments to realize characteristic colors, lubricants to smooth out during extrusion, UV stabilizers to prevent shortening of the life of ultraviolet rays, and antibacterial agents to prevent bacteria from growing. Or 100 to 100 parts by weight of wood powder, 200 to 300 parts by weight of wood powder, 10 to 20 parts by weight of pigment for realizing a characteristic color, 40 to 65 parts by weight of lubricant to smooth out during extrusion, UV stabilizer to prevent shortening of life by UV It is a mixed composition consisting of 1 to 3.5 parts by weight and 2 to 5 parts by weight of an antimicrobial agent to prevent the growth of bacteria.

In addition, far infrared rays and anions may be released in the two mixed compositions above, and 2 to 8 parts by weight of mica powder having a particle size of 200 to 1200 mesh may be further included to reinforce flame retardancy.

One embodiment is composed of 100 parts by weight of polyethylene resin 100 parts by weight of wood powder 220 parts by weight, pigment 14 parts by weight, lubricant 55 parts by weight, UV stabilizer 2.2 parts by weight, antibacterial 3.0 parts by weight, 100 parts by weight of polyethylene resin 100 mesh It may comprise 220 parts by weight of wood powder, 14 parts by weight of pigment, 55 parts by weight of lubricant, 2.2 parts by weight of UV stabilizer, 3.0 parts by weight of antimicrobial agent and 2 to 8 parts by weight of mica powder of 200-1200 mesh particle size.

Its antimicrobial action prevents the decay of wood powder inside the synthetic wood, removes the odor peculiar to synthetic materials, and produces eco-friendly floorboards that emit far infrared rays and anions and reinforce flame retardancy. Can be.

The pigment is preferably an inorganic pigment that can maintain color for a long time outdoors.

The manufacturing process of the synthetic wood comprises a mixing step of producing a mixed composition by mixing the synthetic resin, wood powder and additives in accordance with the mixing ratio; A hot melt extrusion process of melting the mixed composition at an temperature of 150 to 300 ° C. through an extrusion molding machine or an injection molding machine for 30 minutes and extruding to produce a synthetic wood; A cooling step of cooling the synthetic wood at room temperature; Cutting the cooled synthetic wood to a predetermined length to complete the floorboard (1); It may be composed of a finished product inspection process for inspecting the state and quality of the finished floorboard (1).

As shown in Figure 3, the synthetic wood manufacturing process is a first step of mixing the synthetic resin, wood powder and additives according to the blending ratio and then further mixing the mica powder to produce a mixed composition; A second step which is a sterilization step of sterilizing the mixed composition by applying heat; A third step of melting and mixing the mixed composition at a temperature of 150 to 300 ° C. through an extruder and then extruding the mixed composition to generate a synthetic wood; A fourth step of cooling the synthetic wood at room temperature; A fifth step, which is a surface treatment step of roughly finishing the surface by brushing the surface after the cooling step to prevent slippage; A sixth step of cutting the cooled synthetic wood to a predetermined length to complete the floorboard 1; It may be composed of a seventh process, which is a finished product inspection process for inspecting the state and quality of the finished floorboard (1).

The cross-sectional shape of this invention can be comprised by the structure of the discharge port of the die used at the time of extrusion of the 3rd process which is the said hot melt extrusion process.

In addition, in the surface treatment process by applying a certain pressure to the brush having an iron core it is possible to brush the surface finish.

The surface has a constant gradient so that the rainwater can be drained quickly and brushed to prevent slippage and provide a texture like natural wood.

As illustrated in FIG. 4, the manufacturing process of the aggregated wood when the plate is manufactured to be installed on the floor using the aggregated wood in the floorboard 1 of the present invention is as follows.

The aggregate wood is produced by adhering a piece of wood using an adhesive, and since the aggregate wood using bamboo is representative, the manufacturing process will be described based on bamboo.

The bamboo can implement a texture similar to natural wood, has a high strength and strong corrosion-resistant properties.

The manufacturing process of the aggregate wood is a first step of removing the green skin of the bamboo in order to effectively penetrate the resin, increase adhesion and maintain a uniform color; A second step of dividing the cut skin of the bamboo thinly along the grain to make a long bamboo strand or bamboo chips; A third step, which is a boiling step of extracting organic matter by soaking bamboo strands or bamboo pieces in boiling water for 5 to 6 hours; A fourth step of carbonizing which is carbonized at 140 to 150 degrees for 2 to 3 hours so that only the surface of the strand or bamboo chips is carbonized; A fifth step, which is a heat drying step of drying by heating for 20 to 30 minutes at 80 to 100 ° C; A sixth step, which is an ultraviolet sterilization step for sterilizing mold spores and bacteria that can corrode bamboo using ultraviolet rays; A seventh step, which is a resin impregnation step of impregnating the resin so that the adhesive resin penetrates into the pores of the bamboo; An eighth step, which is a laminated heat compression molding step of drying the resin-impregnated bamboo, laminating it to a required thickness, and heating and compressing the molded wood; A ninth step which is a hardening step of curing the molded aggregate wood; A tenth step of cutting the cured aggregate wood to a predetermined length to complete the floorboard 1; It consists of the 11th process which is a finished product inspection process which inspects the state and quality of the completed floorboard 1.

In order to prevent corrosion of bamboo in the resin impregnation process, to remove the inherent odor of the adhesive, and to provide eco-friendly aggregate wood, a mixture of 2 to 8 parts by weight of mica powder having a particle size of 200 to 1200 mesh to 100 parts by weight of the resin is mixed. The resin is impregnated with a polyolefin, epoxy, polyester, hydroxyl methacrylate, isoprene, ethyl methacrylate, acrylic acid, ethylacrylate, choroprene, vinyl asetate, vinyl tolune, diphenylmethane diisocyanate resin, or a mixture of two or more resins. desirable.

The biotite is excellent in antibacterial, deodorant action, etc. to prevent the corrosion of bamboo and eliminate the smell of the adhesive inherent to provide eco-friendly aggregate wood when added.

As shown in Figure 5 and Figure 6, the environmentally friendly floorboard structure (A) that can be used on both sides with the drainage function of the present invention is a plurality of floorboards (1) made of plate material to be installed on the floor; A plurality of pedestals (2) installed on the bottom of the floorboard (1) to support the floorboard (1) and installed perpendicular to the longitudinal direction of the floorboard (1), and fixed to the floor; The floorboard is connected to the floorboard (1), it is composed of a floorboard connecting device (3) which is fixed to the pedestal (2) by a fixing screw (35).

The floorboard 1 has a shape in which the center portion is high in the width direction and lowers toward both ends so that moisture on the surface is quickly discharged, and the center portion of the floorboard has a radius of curvature that is 1 to 3 mm higher than both ends, and the center in the thickness direction. As a reference, the top and bottom surfaces are symmetrical, so the top floor can be used upside down when worn or damaged.

On both side surfaces of the floorboard 1, a connection groove 11 into which the floorboard connecting device 3 for connecting the floorboard and the floorboard 1 is fitted is formed in the longitudinal direction of the floorboard 1.

The pedestal (2) is installed in the lower portion of the installation place scaffolding or lumberjack at regular intervals and is coupled to the floor.

The floorboard connection device 3 includes a metal plate 31 having a screw hole 311 formed at the center thereof; A pillar portion 32 which is erected at right angles integrally coupled to the metal plate 31 so as to be mutually spaced apart from each other; A wing portion 33 which is integrally coupled to one end of the pillar portion 32; It is composed of an elastic member 34 coupled to one side or both sides of the metal plate 31.

At both ends of the wing portion 33 is formed a secondary wing 331 is formed by bending at an angle φ of 30 ° to 80 ° in the inward direction of the metal plate 31.

The floorboard (1) is made of any one selected from synthetic wood, aggregate wood and natural wood, the synthetic wood is 200 to 300 parts by weight of wood powder to 100 parts by weight of synthetic resin; A mixed composition consisting of 1 to 90 parts by weight of an additive composed of one or more of pigments to realize characteristic colors, lubricants to smooth out during extrusion, UV stabilizers to prevent shortening of the life of ultraviolet rays, and antibacterial agents to prevent bacteria from growing. Or 100 to 100 parts by weight of wood powder, 200 to 300 parts by weight of wood powder, 10 to 20 parts by weight of pigment for realizing a characteristic color, 40 to 65 parts by weight of lubricant to smooth out during extrusion, UV stabilizer to prevent shortening of life by UV It is a mixed composition consisting of 1 to 3.5 parts by weight and 2 to 5 parts by weight of an antimicrobial agent to prevent the growth of bacteria.

In addition, far infrared rays and anions may be released in the two mixed compositions above, and 2 to 8 parts by weight of mica powder having a particle size of 200 to 1200 mesh may be further included to reinforce flame retardancy.

One embodiment is composed of 100 parts by weight of polyethylene resin 100 parts by weight of wood powder 220 parts by weight, pigment 14 parts by weight, lubricant 55 parts by weight, UV stabilizer 2.2 parts by weight, antibacterial 3.0 parts by weight, 100 parts by weight of polyethylene resin 100 mesh It may comprise 220 parts by weight of wood powder, 14 parts by weight of pigment, 55 parts by weight of lubricant, 2.2 parts by weight of UV stabilizer, 3.0 parts by weight of antimicrobial agent and 2 to 8 parts by weight of mica powder of 200-1200 mesh particle size.

Its antimicrobial action prevents the decay of wood powder inside the synthetic wood, removes the odor peculiar to synthetic materials, and produces eco-friendly floorboards that emit far infrared rays and anions and reinforce flame retardancy. Can be.

The pigment is preferably an inorganic pigment that can maintain color for a long time outdoors.

The manufacturing process of the synthetic wood comprises a first step of mixing the synthetic resin, wood powder and additives according to the blending ratio and then mixing the mica powder further to produce a mixed composition; A second step which is a sterilization step of sterilizing the mixed composition by applying heat; A third step of melting and mixing the mixed composition at a temperature of 150 to 300 ° C. through an extruder and then extruding the mixed composition to generate a synthetic wood; A fourth step of cooling the synthetic wood at room temperature; A fifth step, which is a surface treatment step of roughly finishing the surface by brushing the surface after the cooling step to prevent slippage; A sixth step of cutting the cooled synthetic wood to a predetermined length to complete the floorboard 1; It may be composed of a seventh process, which is a finished product inspection process for inspecting the state and quality of the finished floorboard (1).

The cross-sectional shape of this invention can be comprised by the structure of the discharge port of the die used at the time of extrusion of the 3rd process which is the said hot melt extrusion process.

In addition, in the surface treatment process by applying a certain pressure to the brush having an iron core it is possible to brush the surface finish.

The surface has a constant gradient so that the rainwater can be drained quickly and brushed to prevent slippage and provide a texture like natural wood.

In the floorboard 1 of the present invention using the aggregate wood, the aggregate wood manufacturing process when the plate is made so that it can be installed on the floor is as follows.

The aggregate wood is produced by adhering a piece of wood using an adhesive, and since the aggregate wood using bamboo is representative, the manufacturing process will be described based on bamboo.

The bamboo can implement a texture similar to natural wood, has a high strength and strong corrosion-resistant properties.

The manufacturing process of the aggregate wood is a first step of removing the green skin of the bamboo in order to effectively penetrate the resin, increase adhesion and maintain a uniform color; A second step of dividing the cut skin of the bamboo thinly along the grain to make a long bamboo strand or bamboo chips; A third step, which is a boiling step of extracting organic matter by soaking bamboo strands or bamboo pieces in boiling water for 5 to 6 hours; A fourth step of carbonizing which is carbonized at 140 to 150 degrees for 2 to 3 hours so that only the surface of the strand or bamboo chips is carbonized; A fifth step, which is a heat drying step of drying by heating for 20 to 30 minutes at 80 to 100 ° C; A sixth step, which is an ultraviolet sterilization step for sterilizing mold spores and bacteria that can corrode bamboo using ultraviolet rays; A seventh step, which is a resin impregnation step of impregnating the resin so that the adhesive resin penetrates into the pores of the bamboo; An eighth step, which is a laminated heat compression molding step of drying the resin-impregnated bamboo, laminating it to a required thickness, and heating and compressing the molded wood; A ninth step which is a hardening step of curing the molded aggregate wood; A tenth step of cutting the cured aggregate wood to a predetermined length to complete the floorboard 1; It consists of the 11th process which is a finished product inspection process which inspects the state and quality of the completed floorboard 1.

In order to prevent corrosion of bamboo in the resin impregnation process, to remove the inherent odor of the adhesive, and to provide eco-friendly aggregate wood, a mixture of 2 to 8 parts by weight of mica powder having a particle size of 200 to 1200 mesh to 100 parts by weight of the resin is mixed. The resin is impregnated with a polyolefin, epoxy, polyester, hydroxyl methacrylate, isoprene, ethyl methacrylate, acrylic acid, ethylacrylate, choroprene, vinyl asetate, vinyl tolune, diphenylmethane diisocyanate resin, or a mixture of two or more resins. desirable.

The bamboo strand may be a diameter of 0.2 mm to 0.6 mm, preferably a strand of 0.3 to 0.4 mm in diameter. Bamboo pieces may be used 8 to 16 mm thick, preferably 10 to 12 mm thick, the width is used in proportion to the thickness of the floorboard to be produced.

The biotite is excellent in antibacterial, deodorant action, etc. to prevent the corrosion of bamboo and eliminate the smell of the adhesive inherent to provide eco-friendly aggregate wood when added.

7 to 9, the floorboard connecting device 3 includes a metal plate 31 having a screw hole 311 formed at the center thereof; A pillar portion 32 which is erected at right angles integrally coupled to the metal plate 31 so as to be mutually spaced apart from each other; A wing portion 33 which is integrally coupled to one end of the pillar portion 32; It is composed of an elastic member 34 coupled to one side or both sides of the metal plate 31.

9-1 shows that the elastic member 34 is coupled to only one surface of the lower portion of the metal plate 31, and FIG. 9-2 shows both the upper and lower surfaces of the metal plate 31. The elastic member 34 Shows that is combined.

At both ends of the wing portion 33 is formed a secondary wing 331 is formed by bending at an angle φ of 30 ° to 80 ° in the inward direction of the metal plate 31.

As shown in FIG. 10, the metal plate 31 may be formed in any one of a polygonal, circular or elliptical shape.

According to the present invention, the elastic member 34 may be any one selected from the group consisting of rubber, polyethylene, a high molecular compound, a nonwoven fabric, a mat formed to have a 3D-webbing structure by spinning high elastic synthetic filament yarn.

The rubber, polyethylene, polymer compound, nonwoven fabric, mat and the like are completed by adhering to the metal plate with an adhesive.

An example of the mat may be a mat formed by spinning a highly elastic synthetic filament yarn in a square shape. To explain an example of manufacturing the same, to prepare a high elastic synthetic filament yarn, spinning the high elastic synthetic filament yarn to have a certain thickness in a spinning system equipped with an embossing roller to have a 3D-webbing structure will be. As a preferable use form of the mat, one side or both sides of the mat is attached to a plate-like body such as a woven fabric, a nonwoven fabric, or a plate plate made of a synthetic resin material.

This example may have a structure in which the mat is positioned between two support plates 341 where the elastic body 342 is located, as shown in FIG.

According to the present invention, the elastic member 34 preferably has a thickness of 3 ~ 8mm. If less than 3mm, it is difficult to secure the elasticity required in the present invention, if it exceeds 8mm, the elastic force is excellent, but the connection structure of the floorboard 1 may cause a problem that a non-uniform form may occur. have.

In addition, the elastic member 34 is, in another embodiment, as shown in FIG. 10, between the support plates 341 selected from a plurality of metal plates, synthetic resin molding plates, or acrylic plates having the same shape as the metal plate 31. It is possible to use a structure in which a plurality of elastic bodies 341, which are springs or plate-shaped springs, are coupled to each other.

In addition, according to the present invention, the elastic member 34 may be attached to both sides of the metal plate 31, as shown in Fig. 9-2. At this time, the total thickness of the elastic member 34 coupled to both sides is preferably configured to have a thickness of 3 ~ 8mm as described above. More preferably, the elastic member 34 coupled to the lower side may be thicker than the elastic member 34 coupled to the upper side. Preferably the thickness ratio of the elastic member 34 of the upper side and the elastic member 34 of the lower side is configured to be 1: 1.5 ~ 2.0.

In the floorboard structure A of the present invention as shown in FIG. 12, the floorboard 1 and the floorboard 1 are joined by the floorboard connecting device 3, and the floorboard 1 is centered. Since both ends are lower, the buffer washer 351 is installed at the lower part of the fixing screw 35 to level the bottom of the floor board 1 of the floor board structure A.

The fixing screw 35 is fixed to the pedestal so that the floorboard 1 does not move.

As shown in FIG. 13, the assembling procedure and method of the floorboard structure A of the present invention are as follows.

The first step is to install the pedestal (2) at a predetermined interval in the lower portion of the installation place where the floorboard structure (A) is to be installed in a non-tree or long wood, and the floorboard connecting device (3) at a predetermined interval on the top of the pedestal Install.

In this case, the elastic member 34 of the floorboard connecting device 3 may be installed alternately using an elastic member having a different thickness from the adjacent floorboard connecting device 3. The floorboard connecting device 3 is fixed to the pedestal 2 with a fixing screw 35 and a buffer washer 351.

In the second step, the wing 33 of the floorboard connecting device 3 is inserted into the connection groove 11 on the side of the floorboard 1.

In the third step, the wing portion 33 of the floorboard connecting device 3 is connected to the groove 1 on the side of the floorboard 1, and an end of the auxiliary wing 331 is vertically end of the connection groove 11. Insert it fully into the

In the fourth step, the floor plate connecting device 3 is fixed to the pedestal 2 with the fixing screw 35 and the buffer washer 351 to be firmly fixed to the pedestal 2.

In this way, due to the elasticity of the auxiliary wing 331 is bent by more than 30 ° while absorbing the expansion and expansion of the plate can be maintained in a stable plate.

In the fifth step, the wing 33 of the floorboard connecting device 3 is inserted into the connection groove 11 on the side of the floorboard 1.

In the sixth step, as shown in the third step, the wing portion 33 of the floorboard connecting device 3 is connected to the groove 1 on the side of the floorboard 1, and an end of the auxiliary wing 331 is connected to the groove 11. Insert it so that it fully touches the vertical part of the end.

The floorboard structure 1 is repeatedly installed in the same manner as described above to complete the floorboard structure A. FIG.

According to the eco-friendly floorboard and the floorboard structure using the same according to the present invention having a drainage function and using both sides, drainage is quick when rainfall is performed, and residual moisture is little, and snow is left after snowfall. Even if it melts, there is almost no residual moisture and no freezing occurs on the surface.

Shear strength and flexural strength are higher than that of woven octahedra having the same cross-sectional area with a thick central cross section.

 In the case of a 100mm wide floorboard, the plate with a central section of 1mm high is about 10% lower than that of a sheet of the same sectional face.

The plate of the present invention having the upper and lower symmetrical structures can be used upside down, which is not only economical, but also easy to work with and excellent in appearance.

The floorboard has an elastic pad attached to both sides of the bottom plate at the bottom so that the plate is elastic after installation, which not only provides comfort to pedestrians, but also reduces the risk of injury and reduces the risk of breakage of the board.

In addition, the floorboard made of synthetic wood using biotite powder is far-infrared and anion is released, and the flame retardancy is reinforced to be environmentally friendly.

A: floorboard structure
1: floorboard 11: connecting groove
12: elastic pad 2: support
3: floorboard connector 31: metal plate
311: screw hole 32: pillar portion
33: wing 331: auxiliary wing
34: elastic member 341: support plate
342: elastomer 35: fixing screw
351: buffer washer

Claims (10)

delete delete delete delete delete delete A plurality of floorboards (1) made of plate material to be installed on the floor;
A plurality of pedestals (2) installed on the bottom of the floorboard (1) to support the floorboard (1) and installed perpendicular to the longitudinal direction of the floorboard (1), and fixed to the floor;
In the floorboard structure (A) consisting of the floorboard connecting device (3) connecting the floorboard and the floorboard (1) and fixed to the pedestal (2) by a fixing screw (35),
The floorboard (1) is made of any one selected from synthetic wood, aggregate wood and natural wood,
The floorboard 1 has a shape in which the center portion is high in the width direction and lowers toward both ends so that moisture on the surface is quickly discharged, and the center portion of the floorboard has a radius of curvature that is 1 to 3 mm higher than both ends, and the center in the thickness direction. As a reference, the top and bottom surfaces are symmetrical so that the top floor can be used upside down when worn or damaged.
On both sides of the floorboard 1, a structure in which a connection groove 11 into which the floorboard connecting device 3 is fitted to connect the floorboard 1 and the floorboard 1 is formed in the longitudinal direction of the floorboard 1. ,
The floorboard connection device 3 includes a metal plate 31 having a screw hole 311 formed at the center thereof;
A pillar portion 32 which is erected at right angles integrally coupled to the metal plate 31 so as to be mutually spaced apart from each other;
A wing portion 33 which is integrally coupled to one end of the pillar portion 32;
Is composed of an elastic member 34 coupled to one side or both sides of the metal plate 31,
Both sides of the wing portion 33 has a drainage function, which is a structure formed by the auxiliary wing 331 is formed by bending at an angle φ of 30 ° to 80 ° in the inward direction of the metal plate 31 to use both sides Eco-friendly floorboard structure
8. The method of claim 7,
The synthetic wood is 200 to 300 parts by weight of wood powder to 100 parts by weight of synthetic resin;
It is a mixed composition composed of 1 to 90 parts by weight of an additive composed of at least one of pigments, lubricants, UV stabilizers and antibacterial agents.
The manufacturing process of the synthetic wood comprises a mixing step of producing a mixed composition by mixing the synthetic resin, wood powder and additives in accordance with the mixing ratio;
A hot melt extrusion process of melting the mixed composition at a temperature of 150 to 300 ° C. through an extruder for 30 minutes and extruding to produce synthetic wood;
A cooling step of cooling the synthetic wood at room temperature;
Cutting the cooled synthetic wood to a predetermined length to complete the floorboard (1);
It consists of a finished product inspection process for inspecting the state and quality of the finished floorboard (1),
The manufacturing process of the aggregate wood is a skin removal process of removing the green bark of bamboo to effectively penetrate the resin, increase the adhesion and maintain a uniform color;
A splitting process of thinly cutting the bamboo along the grain to form thin bamboo strands or bamboo chips;
Boiling process to soak bamboo strand or bamboo pieces in boiling water for 5-6 hours to extract organic matter;
A carbonization process for carbonizing at a temperature of 140 to 150 degrees for 2 to 3 hours so that only the surface of the strand or bamboo chips is carbonized;
A heat drying step of drying by heating at 80 to 100 degrees for 20 to 30 minutes;
UV sterilization process for sterilizing mold spores and bacteria that can corrode bamboo using ultraviolet rays;
A resin impregnation step of impregnating the resin to infiltrate the adhesive resin between the pores of the bamboo;
A laminated heat compression molding step of drying the resin-impregnated bamboo, laminating it to a required thickness, and heating and compressing the molded wood;
A curing step of curing the molded aggregate wood;
A cutting process of cutting the cured aggregate wood to a predetermined length to complete the floorboard 1;
It consists of a finished product inspection process for inspecting the state and quality of the finished floorboard (1),
In order to prevent corrosion of bamboo in the resin impregnation process, to remove the inherent odor of the adhesive, and to provide eco-friendly aggregate wood, a mixture of 2 to 8 parts by weight of mica powder having a particle size of 200 to 1200 mesh to 100 parts by weight of the resin is mixed. Impregnated in solution,
The resin is a drainage function characterized by using one or two or more mixed resins of polyolefin, epoxy, polyester, hydroxyl methacrylate, isoprene, ethyl methacrylate, acrylic acid, ethylacrylate, choroprene, vinyl asetate, vinyl tolune, diphenylmethane diisocyanate resin Eco-friendly floorboard structure that can be used on both sides with
8. The method of claim 7,
The metal plate 31 is any one of a polygonal, circular or oval shape,
The elastic member 34 is any one selected from the group consisting of a mat formed to have a 3D-webbing structure by spinning rubber, polyethylene, polymer compound, nonwoven fabric, high elastic synthetic filament yarn,
The elastic member 34 has a drainage function characterized in that it has a thickness of 3 ~ 8㎜ eco-friendly floorboard structure that can use both sides
The method of claim 8,
The synthetic wood is a mixed composition further comprising 2 to 8 parts by weight of mica powder having a particle size of 200 ~ 1200 mesh in order to release far infrared rays and anions and reinforce flame retardancy,
The manufacturing process of the synthetic wood is further sterilized by the addition of the mica powder in the mixing step, heat treatment between the mixing step and the hot melt extrusion step, and cooling to prevent slipping after the cooling step After the process is added to the surface treatment process to finish the surface by brushing the surface,
The floorboard (1) is an eco-friendly floorboard structure that can use both sides with a drainage function, characterized in that the thickness 6 ~ 30mm, width 6 ~ 30cm

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