KR101002233B1 - High efficiency environment-freindly floor using nano method - Google Patents

Abstract

PURPOSE: A high-efficiency environment-friendly floor using a nano technique is intended to enhance an environment-friendly property, to reduce the construction cost and to provide excellent construction performance. CONSTITUTION: A high-efficiency environment-friendly floor(100) using a nano technique comprises floor plates(110) and a connecting member(120). Inserting grooves(111) are formed on both sides of the floor plates in a longitudinal direction and the floor plates are arranged in parallel to a construction surface. The connecting member is inserted into the inserting grooves, which face between the floor plates, and connect the floor plates. The floor plate comprises a plate member(112), on both sides of which inserting grooves are formed in a longitudinal direction, a pattern timber(113), which is attached to the top of the plate member, and a protective layer(114), which is formed on the top of the pattern timber by nano paint coating. Slits, which are formed in a width direction to prevent the bending, are formed on the floor plate in a longitudinal direction at intervals.

Description

High Efficiency Eco-Friendly Floor Using Nano Method {HIGH EFFICIENCY ENVIRONMENT-FREINDLY FLOOR USING NANO METHOD}

The present invention relates to a high-efficiency eco-friendly floor using a nano method, to improve the thermal efficiency of the floor heating system, and to a high-efficiency eco-friendly floor using a nano method for improving the natural affinity.

In general, the wooden floor, which is the main constituent of domestic flooring materials, is unified by KS standards, and most of the flooring materials are composed of wood, and the thickness of the wood is 7.5mm or more, which has thermal insulation (0.1). It is a very inefficient material in the floor heating system mainly on the ondol, but wood has been used without special objection because it is friendly to human body and aesthetics are beautiful.

However, in recent years, when designing eco-friendly buildings such as environmentally friendly buildings, the heating effect is halved due to the thermal insulation of existing wood floors when heating with subheat such as geothermal heating, and the development of alternative materials is urgently needed.

Therefore, it is necessary to increase the thermal efficiency of the floor heating system, that is, the thermal conductivity, to reduce the unit cost while maintaining the natural affinity of the existing wood floor, and furthermore, it is necessary to develop a floor material having excellent workability.

The present invention is to solve the conventional problems as described above, to improve the thermal efficiency of the floor heating system, to improve the natural affinity, to lower the unit cost and to ensure excellent workability.

According to an aspect of the present invention for achieving the above object, in the eco-friendly floor, the insertion groove is formed along the longitudinal direction on both sides, between the floorboard material and a plurality of floorboards arranged side by side on the construction surface, between the floorboard material A connection member inserted into the insertion groove facing each other to connect the floorboard material to each other; It is configured to include, the floorboard material, the insertion groove is formed on both sides of the plate member formed along the longitudinal direction and the veneer attached to the upper surface of the plate member and the protective layer made of nano UV paint coating on the upper surface of the veneer It is provided.

In addition, the floorboard material is characterized in that a plurality of slits are formed in the width direction at intervals along the longitudinal direction to prevent bending on the lower surface.

In addition, the floorboard material is characterized in that the slits located on both sides with respect to the center is formed to be inclined so that the top toward the center.

In addition, the floorboard material is characterized in that it forms 90 degrees with respect to the horizontal line of the slits located in the center, and 45 degrees with respect to the horizontal line of the slits located on both sides with respect to the center.

In addition, the floorboard material is characterized in that the upper edge is rounded to a diameter of 1 to 1.5mm.

According to the high-efficiency eco-friendly floor using the nano-method according to the present invention, it is possible to increase the thermal efficiency and thermal conductivity of the floor heating system, improve the natural friendliness, reduce the construction cost, as well as excellent workability, and reduce the noise between floors Let's do it.

1 is a perspective view showing a high-efficiency eco-friendly floor using a nano-method according to the present invention,
2 is a cross-sectional view showing a high-efficiency eco-friendly floor using a nano-method according to the present invention,
Figure 3 is a bottom perspective view showing a floorboard material of a high-efficiency eco-friendly floor using the nano-method according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art, the following examples may be modified in various other forms, the scope of the present invention Is not limited to the following examples.

1 is a perspective view showing a high-efficiency eco-friendly floor using a nano-method according to the present invention, Figure 2 is a cross-sectional view showing a high-efficiency eco-friendly floor using a nano method according to the present invention.

As shown in Figure 1 and 2, the high-efficiency eco-friendly flooring 100 using the nano-method according to the present invention is between the floorboard member 110 and the floorboard member 110, the insertion groove 111 is formed on both sides. It includes a connecting member 120 is inserted into the insertion groove 111 of the.

Floor board member 110 is formed in the longitudinal direction on both sides of the insertion groove 111, a plurality of arranged side by side on the construction surface.

The floorboard member 110 includes plywood 112 having insertion grooves 111 formed at both sides, veneer 113 attached to the upper surface of the plywood 112, and nano UV (Ultra) on the upper surface of the veneer 113. Violet) may include a protective layer 114 formed by coating the paint.

The plywood 112 may have a thickness of about 3.8 mm by forming three ply, for example, and an insertion groove 111 having a height of about 1.2 mm and a depth of about 2 mm may be formed on both sides.

The veneer 113 has a wood-specific pattern on the exposed part of the floorboard 110 to enhance the decorative beauty, for example, a thickness of about 0.2mm, and is easy to handle, and the unit price is a cheap wet veneer. Can be done.

The protective layer 114 includes nano UV paints, for example, nano particles, so that nano coatings can be used to make the color and pattern of the veneer 113 well visible, and to block out ultraviolet rays, prevent discoloration, and strengthen surfaces. And, due to the nano-coating to maintain a sufficient durability irrespective of the thickness of the veneer 113.

As shown in FIG. 3, the floorboard 110 may have a plurality of slits 115, 116, and 117 formed in the width direction to prevent bending on a lower surface thereof at intervals of about 50 mm along the longitudinal direction, and such slits 115, 116, 117. ) May be formed to a standard of 1mm × 1mm by a blade or a cutter, and slits 115 and 116 located at both sides with respect to the center may be formed to be inclined so that an upper portion thereof faces the center. Here, the slit 117 located at the center of the floorboard material 110 forms 90 degrees with respect to the horizontal line and 45 degrees with respect to the line with the slits 115 and 116 located at both sides with respect to the center. Can be achieved.

Flooring plate 110 is the four corners 118 of the upper is rounded to a diameter (R) of 1 ~ 1.5mm to prevent tearing or cracking after installation, to facilitate replacement when broken.

The connection member 120 may be formed of, for example, a length member having a height of about 1.1 mm and a width of about 3 mm, and is inserted into the insertion groove 111 facing between the floor boards 110 to cover the floor boards 110. Connect to each other. That is, the connection member 120 is located in the space formed by the insertion groove 111 is formed so as to face each other between the facing board member 110 when the floor board member 110 is in contact with each other to arrange the floor board member 110 Connect to each other.

The connection member 120 may be made of various materials, and may be made of synthetic resin for ease of manufacture and cost reduction.

The operation of the high-efficiency eco-friendly floor using the nano-method according to the present invention will be described.

In order to construct the floorboard member 120 on the construction surface, the floorboard member 120 is connected to each other by inserting the connection member 120 into the insertion groove 111 between the floorboard member 120.

In addition, the protective layer 114 by using a nano-UV coating capable of nano-coating, so that the color and pattern of the veneer 113 is well visible, while blocking the sun rays, preventing discoloration and strengthening the surface, and further, of the veneer 113 Maintain sufficient durability regardless of thickness.

In addition, bending is prevented by the slits 115, 116, and 117 formed on the bottom surface of the floorboard material 120, thereby preventing durability degradation due to deformation.

High-efficiency eco-friendly flooring 100 using the nano-method according to the present invention is to increase the thermal efficiency and thermal conductivity of the floor heating system, improve the natural affinity, reduce the construction cost and also excellent constructionability, interlayer Try to lower the noise.

As described above, the high-efficiency eco-friendly floor using the nano-method according to the present invention has been described with reference to the accompanying drawings, but various modifications and changes can be made without departing from the technical spirit of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the claims below and equivalents thereof.

110: floorboard 111: insertion groove
112: plywood 113: veneer
114: protective layer 115,116,117: slit
118: corner 120: connecting member

Claims (5)

For eco-friendly flooring,
Inserted grooves are formed along the longitudinal direction at both sides, and the floorboard material arranged in parallel to the construction surface,
A connection member inserted into the insertion grooves facing each other between the floorboards to connect the floorboards to each other, the connecting member including a length member; And,
The floorboard material,
The insertion groove is provided on both sides of the plate member formed along the longitudinal direction and the veneer attached to the upper surface of the plate member and a protective layer made of nano UV paint coating on the upper surface of the veneer,
The slits formed in the width direction to prevent bending on the lower surface is formed in a plurality at intervals along the longitudinal direction,
High-efficiency eco-friendly floor using a nano-technology method characterized in that the slits located on both sides with respect to the center is formed to be inclined so that the upper portion toward the center.
delete delete The method of claim 1, wherein the floorboard material,
High-efficiency eco-friendly flooring using nanotechnology, characterized in that the slits located at the center form 90 degrees with respect to the horizontal line, and the slits located at both sides with respect to the center form 45 degrees with respect to the horizontal line. .
The method of claim 1, wherein the floorboard material,
High-efficiency eco-friendly flooring using the nano-method, characterized in that the upper edge is rounded to a diameter of 1 ~ 1.5mm.

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