KR20210008630A - Composite board and manufacturing and constructing method thereof - Google Patents

Abstract

The present invention relates to a construction technique of a composite board comprising an upper frame with patterns and a lower frame. The composite board includes: a lower frame; and an upper frame coupled to the lower frame in a shape in which the patterns are formed on an upper surface. The lower frame includes: a coupling groove formed on the end of one side in a width direction; and a coupling protrusion formed on the end of the other side and formed in a shape corresponding to the coupling groove to be coupled to the coupling groove.

Description

Synthetic board and its manufacturing method and construction method {COMPOSITE BOARD AND MANUFACTURING AND CONSTRUCTING METHOD THEREOF}

The present invention relates to a construction technology of a composite board, and a composite board that enables simple and convenient construction when constructing a composite board composed of an upper frame and a lower frame, as well as anti-slip and shock absorbing functions, and It relates to its manufacturing method and construction method.

Traditionally, wood or plastic has been widely used as an interior or exterior material such as an interior or exterior flooring material or a wall surface finish or a fence.

However, when plastic is used as an interior and exterior material, it is difficult to have an aesthetic feeling similar to that of solid wood, and when using solid wood, it is difficult to have the same economy as plastic.

In recent years, synthetic boards such as Korean Patent Registration No. 10-1645205 have been developed and are receiving good responses from consumers.

However, the lower frame of the conventional composite board installed on the concrete floor or the top of the joist is inconvenient in use because it does not have a shock absorbing function, a non-slip function, etc., and construction is difficult due to a complicated coupling structure. There is a flaw that takes this a lot.

Domestic patent registration number 10-1645205

The problem to be solved by the present invention is to implement a composite board consisting of an upper frame and a lower frame installed on a concrete floor or a joist, and the lower frames are simple and convenient by using a coupling groove and a coupling protrusion formed on the lower frame. It is intended to be able to securely fasten while doing so.

The problem to be solved by the present invention is to prevent slipping by using a long groove formed in the lower frame and an elastic member inserted into the long groove in implementing a composite board consisting of an upper frame and a lower frame installed on a concrete floor or a joist. It is intended to be able to exhibit the function and shock absorption function.

A composite board according to an embodiment of the present invention for achieving the above technical problem includes a lower frame; And an upper frame coupled to the lower frame in a pattern formed on an upper surface thereof, wherein the lower frame includes a coupling groove formed at one end portion; And a coupling protrusion formed at the other end portion and formed in a shape corresponding to the coupling groove to be coupled to the coupling groove of the lower frame of the adjacent composite board.

The method of manufacturing a composite board according to another embodiment of the present invention for achieving the above technical problem is (a) forming a lower frame by an extrusion molding process, forming a coupling groove at one end of the lower frame in the width direction and the other Forming a coupling protrusion having a shape corresponding to the coupling groove at an end portion and forming one or more long grooves along one direction on the bottom surface of the lower frame; (b) forming an upper frame on the upper part of the lower frame by a roll pressing process, and forming a pattern on the upper surface; And (c) inserting an elastic member into the long groove, but protruding downward.

The method of constructing a composite board according to another embodiment of the present invention for achieving the above technical problem is (a) a coupling groove formed at one end and a shape corresponding to the coupling groove at the other end of the adjacent composite board. Installing a joist on a flat surface to be constructed of a composite board including an upper frame coupled to the lower frame in the form of a lower frame consisting of a coupling protrusion coupled with a coupling groove of the lower frame and a pattern formed on the upper surface; (b) inserting an elastic member into a long groove formed along one direction in the bottom surface of the lower frame, but protruding downward; (c) fixing the lower frame to the joist; And (d) repetitively performing the coupling protrusion of the lower frame to be installed with the coupling groove of the lower frame of the adjacent composite board.

In the present invention, in implementing a frame consisting of an upper frame and a lower frame installed on the upper part of the joist, the lower frames can be simply, conveniently and sturdily fastened using the coupling groove and the coupling protrusion formed on the lower frame. have.

In the present invention, in implementing a composite board consisting of an upper frame and a lower frame installed on the upper part of the joist, a long groove formed in the lower frame and an elastic member inserted into the long groove can be used to exhibit a non-slip function and a shock absorbing function. There is an effect.

1 is a perspective view of a composite board according to the present invention.
Figure 2 (a) to (c) is an exemplary view of the pattern formed on the upper frame of the present invention.
Figure 3 is an exemplary view of the locking jaw according to the present invention.
Figure 4 is a flow chart for a method of manufacturing a composite board according to the present invention.
Figure 5 is a flow chart for the construction method of the composite board according to the present invention.
Figure 6a and Figure 6b is a concrete embodiment view of the composite board according to the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a composite board according to the present invention, FIG. 2 is an exemplary view of a pattern formed on an upper frame of the present invention, and FIG. 3 is an exemplary view of a locking jaw of a fastening portion according to the present invention.

1 to 3, the composite board 200 according to the present invention includes a lower frame 210 and an upper frame 220.

The joist 110 may be installed in a grid structure on a flat surface to which the composite board 200 is to be constructed, for example, an indoor or outdoor wall or floor, and the material of the joist 110 is a metal pipe or wood Etc.

When the composite board 200 is used as an interior material or an exterior material, the lower frame 210 is a part for an interview with the joist 110, the floor, or the wall. The lower frame 210 may be formed by using stone powder, plastic resin (eg, polypropylene: PP), minerals, or the like alone or by using a mixture of them. At this time, the mixing ratio of the mixture can be appropriately set.

The lower frame 210 may be formed through an extrusion molding process. The extrusion molding process for forming the lower frame 210 is the same as the general extrusion molding process, except for using stone powder, plastic resin, minerals, or a material mixing them.

The lower frame 210 is formed through an extrusion molding process, and the upper frame 220 is continuously formed on the lower frame 210. The upper frame 220 is a part exposed to the outside when the composite board 200 is used as an interior material or an exterior material. The upper frame 220 uses a roller on the exposed surface while supplying at least one of TPU (thermoplastic polyurethane), TPE (thermoplastic elastomer), and PVC (polyvinyl chloride) to the upper portion of the lower frame 210 in a gel type. It can be formed through a roll pressing process.

In the roll pressing process, various types of patterns may be formed on the surface of the upper frame 220. For example, a wood grain pattern as shown in FIG. 2 (a) or a marble pattern as shown in FIG. 2 (b) or a traditional pattern as shown in FIG. 2 (c) may be formed.

When performing the forming process of the lower frame 210, a fastening part 211 and a long groove 212 are formed in the lower frame 210.

The fastening part 211 is for connecting two adjacent lower frames 210 in succession and includes a coupling groove 213 and a coupling protrusion 214 formed along one direction (Y-axis direction). The coupling groove 213 and the coupling protrusion 214 are formed in a "L" shape, and are formed in a shape corresponding to each other, and a locking projection 215 is provided. The angle of the locking projection 215 is not particularly limited, and may be formed to have an inclination of 20 degrees ± n degrees (n: a natural number of 15 or less) as shown in FIG. 3.

A coupling groove 211 is formed at one end of the lower frame 210 and a coupling protrusion 214 is formed at the other end of the lower frame 210. As described above, the coupling groove 211 formed at one end of the lower frame 210 is coupled to the coupling protrusion 214 formed at the other end of the lower frame 210 of the composite board 200 adjacent thereto.

In a state in which the two adjacent lower frames 210 are fastened to each other by the engaging groove 213 and the engaging protrusion 214 of the fastening portion, the engaging state is firmly maintained by the locking projection 215.

At this time, when assembling between adjacent lower frames 210, the assembly is facilitated by providing a slight clearance between the inside of the coupling groove 213 and the outside of the coupling protrusion 214, and when the two locking projections 215 are engaged with each other It has the characteristic that it is not easily separated after assembling by having a structure in which overlapping parts are generated so that the force fit is made.

The long groove 212 is formed to be elongated in one direction (eg, Y-axis direction) on the lower bottom surface of the lower frame 210. The number of the long grooves 212 formed in the lower frame 210 is not particularly limited, and in the present embodiment, it is assumed that each of the two is formed. The elastic member 216 is inserted into the long groove 212, and is inserted to protrude a predetermined value (eg, 1 to 2 mm) in the downward direction.

The material of the elastic member 216 is not particularly limited, and for example, rubber or soft plastic may be used. The elastic member 216 installed in this way absorbs the shock applied from the upper portion of the composite board 200 to improve the convenience of pedestrian walking, and the joist 110 installed under the composite board 200 If it is not flat, it serves to finely compensate for the flatness.

On the other hand, Figure 4 is a flow chart for a method of manufacturing a composite board according to the present invention, as shown therein, including a lower frame forming step (S11), an upper frame forming step (S12), and an elastic member insertion step (S13). .

The lower frame forming step (S11) is performed by an extrusion molding process, and the material of the lower frame 210 is not particularly limited, and, for example, stone powder, plastic resin, minerals, or a material in which they are mixed may be used.

At this time, there is formed a fastening portion 211 consisting of a coupling groove 213 and a coupling protrusion 214 having a shape corresponding to each other in the lower frame 210, the coupling groove 213 is one end of the lower frame 210 And the coupling protrusion 214 is formed at the other end of the lower frame 210. The coupling groove 213 and the coupling protrusion 214 may be formed in a "L" shape, and may include a locking protrusion 215. At this time, one or more long grooves 212 are formed along one direction (eg, Y-axis direction) on the bottom surface of the lower frame 210.

The upper frame forming step (S12) is performed by a roll pressing process on the upper portion of the lower frame 210 formed as described above. At this time, on the surface of the upper frame 220, for example, a wood grain pattern as in Figure 2 (a) or a marble pattern as in Figure 2 (b) or a traditional pattern as in Figure 2 (c) is formed. can do.

In the elastic member insertion step (S13), the elastic member 216 is inserted into the long groove 212. At this time, the elastic member 216 is inserted to protrude by a predetermined value (eg, 1 to 2 mm) downward.

In another embodiment, the elastic member insertion step (S13) is performed simultaneously with the lower frame forming step (S11), or a separate process after both the lower frame forming step (S11) and the upper frame forming step (S12) are completed. It can be done through

On the other hand, Figure 5 is a flow chart for the construction method of the composite board according to the present invention, as shown therein, the joist installation step (S21), inserting the elastic member into the long groove (S22), the lower frame fixing step (S23) , And a lower frame mutual fastening step (S24) and a lower frame installation confirmation step (S25).

In the joist installation step (S21), the joist 110 is installed in a grid structure on a flat surface to which the composite board 200 is to be constructed, for example, an indoor or outdoor wall or floor surface. The joist 110 may be implemented with a metal tube or wood.

In the step of inserting the elastic member into the long groove (S22), the elastic members 216 are respectively inserted into the long grooves 212 of each lower frame 210 formed through an extrusion molding process.

In the lower frame fixing step (S23), the elastic member 216 is inserted into the long groove 212 as described above, and the lower frame 210 joined to the upper frame 220 is arranged at a corresponding position on the joist 110 and then combined. The lower frame 210 is fixed to the joist 110 by penetrating the screw 217 through the screw hole formed on the bottom surface of the groove 213.

In the lower frame mutual fastening step (S24), the coupling protrusion 214 of the lower frame 210 to be currently installed is attached to the adjacent lower frame, that is, the coupling groove of the lower frame 210 of the composite board 200 already installed immediately before. The two lower frames 210 are fastened in a manner that is coupled with 213.

In the lower frame installation confirmation step (S25), it is checked whether the lower frame fixing step (S23) and the lower frame mutual fastening step (S24) have been repeatedly performed as many times as necessary, and if not performed repeatedly as many times as necessary, the lower frame fixing step (S23) and the lower frame mutual fastening step (S24) are repeatedly performed as many times as necessary.

On the other hand, Figure 6a and Figure 6b shows a diagram of a specific embodiment of the composite board according to the present invention.

6A, the lower frame 210 corresponds to the body of the composite board 200 and is formed by a main extruder to freely form a shape, and has a feature of high durability. The upper frame 220 corresponds to the surface of the composite board 200 and can be formed with an auxiliary extruder, and has features that facilitate functional implementation such as non-slip, oxidation prevention, and color realization.

6B, as in the above description, when assembling between adjacent lower frames 210, there is a slight clearance between the inside of the coupling groove 213 and the outside of the coupling protrusion 214, and the two locking projections 215 are It has a characteristic that it has a structure in which portions overlap each other when they are meshed with each other, so that the force fit is made.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, but may be implemented in more various embodiments based on the basic concept of the present invention defined in the following claims, These embodiments also belong to the scope of the present invention.

110: joist 200: composite board
210: lower frame 211: fastening part
212: long groove 213: coupling groove
214: coupling protrusion 215: locking jaw
216: elastic member

Claims (14)

Lower frame; And In the composite board comprising an upper frame coupled to the lower frame in a pattern formed on the upper surface,
The lower frame
A coupling groove formed at one end; And
A composite board comprising: a coupling protrusion formed at the other end portion and formed in a shape corresponding to the coupling groove to be coupled to the coupling groove of the lower frame of the adjacent composite board.
The method of claim 1, wherein the lower frame
Installed on the joist of the grid structure Synthetic board, characterized in that.
The method of claim 1, wherein the coupling groove
Synthetic board comprising a screw hole through which a screw for fixing the lower frame to the joist of the lower portion.
The method of claim 1, wherein the coupling groove and the coupling protrusion
Synthetic board, characterized in that it is formed in a "L" shape and includes a locking jaw.
The method of claim 4, wherein the locking jaw
Synthetic board, characterized in that it has a slope of 20 degrees ± n degrees (n: a natural number of 15 or less).
The method of claim 1, wherein the lower frame
One or more long grooves formed along one direction on the bottom surface; And
Synthetic board, characterized in that it comprises an elastic member inserted into the long groove and partially exposed in the downward direction.
The method of claim 6, wherein the elastic member
Synthetic board, characterized in that the rubber or a cushioning elastic member.
(a) A lower frame is formed by an extrusion molding process, wherein a coupling groove is formed at one end of the lower frame in the width direction and a coupling protrusion having a shape corresponding to the coupling groove is formed at the other end of the lower frame. Forming one or more long grooves along one direction on the bottom surface of the lower frame;
(b) forming an upper frame on the upper part of the lower frame by a roll pressing process, and forming a pattern on the upper surface; And
(c) inserting an elastic member into the long groove, and inserting the elastic member so as to protrude downward.
The method of claim 8, wherein the coupling groove and the coupling protrusion
A method of manufacturing a composite board, characterized in that it is formed in a "a" shape and includes a locking protrusion.
The method of claim 9, wherein the coupling groove and the coupling protrusion each have a clearance for easy assembly between each other,
The method of manufacturing a composite board, characterized in that when the locking jaws are engaged with each other, the overlapping portion is larger than the clearance, and when the engaging groove and the engaging protrusion are assembled with each other, they are assembled by force fitting.
The method of claim 8, wherein step (c)
A method of manufacturing a composite board, characterized in that it is performed at the same time as the step (a) or after the step (a) and the step (b) are all completed.
(a) A lower frame composed of a coupling groove formed at one end and a coupling protrusion formed in a shape corresponding to the coupling groove at the other end and coupled to the coupling groove of the lower frame of the adjacent composite board, and a pattern on the upper surface. Installing a joist on a flat surface to which a composite board including an upper frame coupled to the lower frame in a formed form is to be constructed;
(b) inserting an elastic member into a long groove formed along one direction in the bottom surface of the lower frame, and protruding downward;
(c) fixing the lower frame to the joist; And
(d) repetitively performing the step of combining the coupling protrusion of the lower frame to be installed with the coupling groove of the lower frame of the adjacent composite board; and a method of constructing a composite board comprising: .
The method of claim 12, wherein the coupling groove and the coupling protrusion
Doedoe formed in a shape corresponding to each other, the construction method of the composite board, characterized in that it comprises a locking jaw in the shape of an a".
The method of claim 12, wherein step (c)
And when fixing the lower frame to the joist, driving a screw from the bottom surface of the coupling groove in the direction of the joist.

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