KR101239366B1 - Extension and contraction absorbing floor board - Google Patents

Abstract

PURPOSE: An elastic deformation absorbing floor covering is provided to efficiently absorb the expansion and contraction of a laminated floor covering caused by temperature and moisture, thereby minimizing the deformation of a constructed laminated floor covering. CONSTITUTION: An elastic deformation absorbing floor covering mutually connects adjacent hard resin plates(200) using a flexible soft resin joint member(100). The outermost hard resin plate has a complementary structure of projections and grooves identical to a projection and a groove of a laminated floor covering. The flexible soft resin joint member includes a main body portion closely joined to the adjacent hard resin plate and a pair of projection portions.

Description

Expansion and deformation absorption floorboard {EXTENSION AND CONTRACTION ABSORBING FLOOR BOARD}

The present invention relates to a floorboard, and more particularly, it is possible to minimize the construction state deformation (let's) of the reinforced floorboard by absorbing the expansion and contraction rate of expansion or contraction according to the change in temperature and humidity, and finish or construct the boundary between the floorboard and the doorline. The present invention relates to an elastically deformed absorbing floorboard which can be used as an extension / finish profile for finishing edges of reinforced floorboards.

Wooden floorboards have been installed on floors and walls by the traditional method of attaching them using adhesives or fixing them using nails and pegs.

Later, it was pointed out that the inconvenience of using the adhesive of the traditional construction method, bad effect on the human body, difficult to use nails, pegs, etc. in a solid place such as concrete, floating floating method to solve this problem Developed.

Floating method is used by many companies and contractors who install flooring materials by inserting the plates together without using adhesives or nails, thereby preventing the flow between the plates and easily constructing them. It is well known as the most active method for the construction of plates.

Representative examples of the flooring material to be constructed in such a floating method is a laminated flooring (laminating flooring).

Reinforced floorboards currently on the market are composed of a surface laminate layer (e.g. resin special coating layer), an intermediate layer (e.g. core or core wood layer), and an underlayer (e.g. moisture proof laminate layer) It is a complement to the weakness of the wood while maintaining the characteristics of the wood.

In brief, the wood is finely crushed, mixed and compressed with an adhesive (HDF), and then a wooden printed sheet is attached to it, and then the chemical melamine resin is coated again.

In addition, the reinforced floor is a structure suitable for the floating method, and is continuously constructed by mutual coupling coupling using a tongue-and-groove coupling structure, ie, a complementary structure, formed to face the plate.

Such reinforced floorboards are relatively strong against external impacts, and are relatively inexpensive compared to plywood floors, bamboo, and wooden floorboards, and have advantages such as ease of construction and variety of designs.

However, reinforced floorboards are relatively sensitive to prolonged exposure to moisture and have high shrinkage expansion, resulting in distortion after construction.

In other words, when absorbing excessive moisture, the seam rises as the expansion occurs, and when the excessive moisture is lost, the bottom portion of the floor is receded, and the thickness of the seam is reduced.

In consideration of this shrinkage expansion rate, the edge of the reinforced floorboard to be constructed is constructed at a predetermined distance (about 10 mm) from the wall surface.

However, there is a problem generated from spaced space, that is, fine dust is introduced into the room at the edge of walking or there is a problem that noise occurs.

Thus, as in Patent Literature 1, the reinforcement floor spaced apart spaced to the wall surface is used L-shaped profile that is in close contact with the wall surface and the construction finish in the state accommodated by the end of the reinforcement floor board.

In addition, the living room and the boundary part (door frame part) of the room part using a T-shaped extension profile is finished profile technology is disclosed.

Of course, since it has a hardwood floor core wood layer, an adhesive is added between the tongue and the groove to take into account and accommodate the shrinkage phenomenon of low humidity and the expansion phenomenon of high humidity due to moisture and humidity for a long time. Many techniques have been disclosed to suppress fluidity by use, or to eliminate gaps by further interposing an elastic body between the tongue and the groove.

Patent Document 1: Republic of Korea Utility Publication No. 2010-0003617 (published: April 05, 2010)

The patent document 1 is finished in a state in which the upper part of the upper profile protrudes from the surface of the reinforced floor plate, that is, a small threshold is formed again on the reinforced floor board.

Similarly, in the finishing work of the living room and balcony part, a small threshold is formed on the bottom door frame boundary of the door.

Therefore, there is a disadvantage in that the appearance of damage to the appearance by forming the boundary of the reinforced ridge plate protruding construction.

In addition, there is a disadvantage that the utilization is extremely limited because it can not provide the deformation absorbing function between the reinforced floorboards except for the door line or balcony boundary.

In addition, the technique of eliminating gaps by interposing an elastic body between the tongue and the groove has a disadvantage in that a lot of time is used for the installation cost and the assembly work of the reinforced floorboard, and the manufacturing cost increases.

Thus, the present invention is expanded or contracted according to the temperature and humidity change of the reinforced floorboards constructed by utilizing the edge finish of the reinforced floorboards, the intermediate material between the reinforced floorboards, or the expansion / finish profile of the borderline boundary partitioning the space. It is an object of the present invention to provide an elastically deformable absorbing floorboard which can effectively absorb a modulus and minimize construction defects.

In addition, an object of the present invention is to provide an elastically deformable absorbing floorboard that can be installed on the same line as the surface of the reinforced floorboard and can improve the commerciality.

In addition, an object of the present invention is to provide an elastically deformable absorbent floorboard that can be manufactured by extrusion molding, so that industrial production can be expected, and it can be provided at low cost.

MEANS TO SOLVE THE PROBLEM In order to solve the said subject, in this invention, it is industrially manufactured by extrusion molding, and it is a structure which mutually joined between adjacent hard resin boards by the flexible soft resin joining member, and the outermost hard resin board of the outermost side strengthens a construction. It is composed of the same tongue and groove complementary structure as the tongue-groove coupling structure of the floorboard.

Here, the upper surface of the main body portion of the hard resin plate and the flexible flexible resin bonding member is preferably formed in the same horizontal plane and is attached to the surface sheet printed with the same solid wood pattern on the normal reinforced floor board.

In addition, the lower surface of the main body portion of the flexible flexible resin joining member is preferably bonded to have an elastic groove between the adjacent hard resin plate is configured to accommodate the expansion rate.

The hard resin plate is preferably molded of hard PVC, and the stretchable soft resin joining member is preferably molded of silicone rubber.

The flexible flexible resin joining member includes a pair of left and right protrusions formed by joining and molding the main body portion of the stretchable material in the joining direction of the adjacent hard resin plates and the groove portions formed in the joining end surfaces of the plurality of adjacent hard resin plates, respectively.

At this time, the main body is preferably formed in a hollow.

And the pair of left and right protrusions is preferably formed by joining the groove portion formed in the joint end surface of the hard resin plate to prevent falling out in the stretching direction.

In addition, the main body portion may further include a restricting portion for regulating an excessive expansion or contraction state due to expansion or contraction.

In addition, the protrusions of each of the flexible flexible resin joining members may be bonded to each other in a state in which the protrusions penetrating through the bonding direction of the adjacent hard resin plates are connected to each other.

According to the present invention, industrial mass production is possible, and thus the cost reduction effect can be expected, and it can be used as an edge finish of reinforced flooring plate, intermediate material between reinforced flooring boards, or an extension / finish profile of a boundary line that divides space. Product versatility is guaranteed.

In addition, according to the present invention, since the expansion rate deformation of the reinforced floorboard can be prevented, the construction defect of the reinforced floorboard is eliminated, and the function of the reinforced floorboard can be stably exhibited.

1 is a perspective view of a preferred embodiment of the present invention.
2 is a cross-sectional view showing the structural characteristics of the present invention.
3 is an enlarged view of a partial excerpt of FIG. 2.
4 and 5 is a functional diagram showing the absorption state of the elastic deformation of the present invention.
6 is a view showing a construction state of the present invention disclosed in FIG.
7 is a perspective view of another embodiment of the present invention.
8 is a cross-sectional view illustrating the structural characteristics of FIG. 7.
9 is an enlarged view of a part of the extract of FIG. 8.
10 and 11 are partially enlarged view showing another embodiment of the flexible flexible resin bonding member as a component of the present invention.

The present invention effectively absorbs the expansion or contraction rate of expansion or contraction according to the temperature and humidity change of the reinforced floorboards constructed by utilizing the edge finishing material of the reinforced floorboards, the intermediate material between the reinforced floorboards, or the expansion / finish profile of the doorline boundary partitioning the space. It can be used as a substitute product of the extension / finish profile that can minimize the construction state deformation (let).

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

In the description of the present invention, the structure and size of the constituent elements shown in the drawings can be simplified or simplified as long as they do not interfere with the description of the invention.

1 is a perspective view of a preferred embodiment of the present invention, Figure 2 is a cross-sectional view showing the configuration characteristics of the present invention.

This invention is constructed between the reinforced floorboards (L / F) installed on the bottom surface, as shown in Figure 6 shown in an example construction state.

The present invention can be industrially mass-produced by the compression molding method, and is used after cutting (cutting) to a predetermined length as necessary.

That is, the elastic deformation absorbing floorboard of the present invention is a structure in which the adjacent hard resin boards 200 and 200 are bonded to each other by the flexible soft resin joining member 100, and the outermost hard resin boards are the tongues of the construction reinforced floor plates. It is formed of a complementary structure of the tongue and grooves 220 and 230 which are the same as the groove coupling structure.

The flexible flexible resin bonding member 100 is, as shown in the enlarged excerpt of FIG. 3, the main body portion 110 of the elastic material to be in close contact with the bonding direction of the adjacent hard resin plates (200,200), a plurality of adjacent A pair of left and right protrusions 120 joined to the grooves 210 formed on the bonded end surfaces of the hard resin plates 200 and 200 are formed.

At this time, the main body 110 is formed in a hollow, and the left and right pair of protrusions 120 protrude outward from each other from the outer surface of the opposite side wall 111 is integrally formed in the main body 110 The protrusions 120 are bonded to the grooves 210 of the inner and outer narrows formed on the bonding end faces of the hard resin plates 200 so that the protrusions 120 do not fall out in the stretching direction.

In addition, both sidewalls 111 of the body portion 110 are integrally formed with the restricting portion 112 inside the state in which the mutual connection.

As shown in FIGS. 4 and 5, the restricting unit 112 is adjacent to the hard resin plates 200 and 200 joined to the main body unit 110 by contraction or expansion of the reinforced reinforced floor board L / F. The expansion or contraction is necessary to be suppressed when it is compressed (contracted) or expanded (expanded) in the joining direction.

In the present invention, one regulating portion 112 is formed, but two or three may be formed.

The hard resin plate 200 of the present invention is applied to the rigid PVC, the flexible flexible resin bonding member 100 is applied to the silicone rubber.

On the other hand, the upper surface of the main body portion 110 of the hard resin plate 200 and the flexible flexible resin bonding member 100 is formed in the same horizontal plane and the surface sheet 300 printed with the same wood pattern as a normal reinforced floorboard thereon Adheres to the entire surface.

That is, by extrusion molding, the hard resin plate 200 and the stretchable soft resin joining member 100 are continuously extruded and moved, and the surface sheet 300 is joined to the upper surface by laminating to complete the present invention.

In addition, the bottom surface of the main body 110 of the stretchable flexible resin joining member 100 is preferably bonded to have a stretchable groove 240 between the adjacent hard resin plates 200 and 200 to accommodate the stretch rate.

In other words, when the body portion 110 of the stretchable flexible resin bonding member 100 is contracted by the surface sheet 300 bonded to the hard resin plate 200 and the stretchable flexible resin bonding member 100. The upper and lower surfaces of the main body portion 110 protruding from the shrinkage deformation may be suppressed and the expansion groove portion 240 may receive a large amount of protruding toward the lower surface portion.

7 to 9 of the present invention shown in another embodiment, each of the protrusions 120 protruding to the body portion 110 of each of the flexible flexible resin bonding member 100 of the adjacent hard resin plate 200 There is a difference in joining and molding in a state in which the through grooves 211 penetrating in the joining direction are connected to each other, and are the same as those of the preferred embodiment of the present invention.

Although the preferred embodiments of the present invention have been described above, the scope of the present invention is not limited to the structures described above and illustrated in the drawings.

For example, the hollow shape of the body portion 110 of the flexible flexible resin bonding member 100, which is a component of the present invention described above, as shown in Figs. If necessary, it may be possible in the form of a polygonal hollow that can be extruded.

The present invention, as shown in Figure 6, is installed between the reinforced floorboards (L / F) interposed between the intermediate absorbent in addition to the finishing of the edges and the expansion of the border of the door border of the room and living room, expansion of the boundary of the living room and balcony Finishing materials may also be available.

In addition, the field office of a factory where moisture is frequently generated may be used as a single floorboard or interior wall material.

As described above, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the claims below but also by the equivalents of the claims.

Industrial Applicability The present invention can effectively utilize the expansion and contraction of a reinforced parquet board in recent years, while realizing the appearance of the reinforced parquet board in the same pattern as the reinforced parquet board.

100: stretchable soft resin bonding member 110: the main body
111: side wall 112: regulatory portion
120: protrusion 200: hard resin board
210: groove 240: expansion groove

Claims (9)

It is industrially manufactured by extrusion molding, and is a structure in which adjacent hard resin plates are bonded to each other by a flexible soft resin joining member, and the outermost hard resin plates are formed from the tongue-groove coupling structure of a conventional reinforced floor board to be constructed. An elastic deformation absorbing floorboard comprising a complementary structure of the same tongue and groove.
The method of claim 1,
An elastic deformation absorbing floorboard comprising an upper surface of the main body of the hard resin board and the flexible flexible resin joining member formed on the same horizontal surface, and having a surface sheet printed on the same wood pattern as a normal reinforced floor board attached thereto.
The method according to claim 1 or 2,
The lower surface of the main body portion of the flexible flexible resin bonding member is bonded to have elastic grooves between the adjacent hard resin plate is configured to accommodate the expansion rate elastic deformation absorbing floorboard.
The method according to claim 1 or 2,
The hard resin board is preferably molded of hard PVC, stretch flexible absorbing floorboard, characterized in that the flexible flexible resin bonding member is molded of silicone rubber.
The method according to claim 1 or 2,
The flexible flexible resin joining member comprises a pair of left and right protrusions joined and molded to the main body portion of the stretchable material in the joining direction of the adjacent hard resin plate and the groove portion formed on the joining end surface of the plurality of adjacent hard resin plates, respectively. Expansion and contraction absorption floorboard.
The method of claim 5,
The elastic deformation absorbing floorboard, characterized in that the main body portion of the flexible flexible resin joining member is formed in a hollow.
The method of claim 5,
The pair of left and right protrusions stretch-condensed absorbing floorboards, characterized in that the groove portion formed in the bonding end surface of the hard resin plate is bonded to the groove portion of the inner light outer narrow so as to prevent the fall in the stretching direction.
The method of claim 5,
The main body portion is a stretch deformation absorbing floorboards, characterized in that formed by forming a regulating portion that regulates excessive expansion or contraction state due to expansion or contraction.
The method of claim 5,
The projections of each of the flexible flexible resin joining members are stretch-molded absorbing floorboards, characterized in that the joint formed in the state connected to each other through the through groove portion penetrating in the bonding direction of the adjacent hard resin plate.

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