KR100687592B1 - Sectional floorings - Google Patents

Abstract

The present invention relates to an inclined assembly, as well as horizontal assembly is possible without removing the locking jaw, coupled smoothly without interference or impact of the locking jaw, and relates to a prefabricated flooring material that can increase the bonding strength between floors, the flooring is a projection on either side and A first fastening structure including a protrusion which extends toward a lower side of the protrusion and protrudes away from the upper surface, and a locking jaw receiving portion that is formed concave toward the inside of the floor from the end of the protrusion, and a groove on the other side; And a second fastening structure including a recess connected to the bottom of the groove and recessed toward the lower surface, and a locking jaw projecting from the end of the recess toward the outside of the floor. It is formed with an inclination angle of 10 to 30 degrees with respect to an imaginary straight line parallel to the plane direction of the flooring material.

Floor material, assembly, protrusion, groove, protrusion, recess, fastening member

Description

Prefab Flooring {SECTIONAL FLOORINGS}

1 is a partial cutaway perspective view showing a prefabricated flooring according to a first embodiment of the present invention.

2 is a plan view of a prefabricated floor covering according to a first embodiment of the present invention.

3 is a partial cross-sectional view showing a state before assembly of the prefabricated flooring according to the first embodiment of the present invention.

4 to 7 are partial cross-sectional views for explaining the assembly process of the prefabricated flooring according to the first embodiment of the present invention.

8 is a partial cross-sectional view assuming a case in which the coupling portion of the assembled flooring according to the first embodiment of the present invention receives a vertical load rising upward.

9 is a partial cross-sectional view showing a state before assembly of the prefabricated flooring according to the second embodiment of the present invention.

10 is a partial cross-sectional view showing a state after assembly of the prefabricated flooring according to the second embodiment of the present invention.

11 is a partial cross-sectional view showing a state after assembly of the prefabricated flooring according to the third embodiment of the present invention.

12 is a partial cross-sectional view showing a state before assembly of the prefabricated flooring according to the fourth embodiment of the present invention.

13 is a partial cross-sectional view showing a state after assembly of the prefabricated flooring according to the fourth embodiment of the present invention.

14 and 15 are partial cross-sectional views of the prefabricated flooring according to the prior art.

The present invention relates to a prefabricated flooring, and more particularly, to a prefabricated flooring material is formed by fastening members on the flooring side is mechanically coupled to the neighboring flooring during construction.

In general, prefabricated flooring is made of individual flooring having a certain size of area, it is assembled with other flooring when installed on the floor of the building. Conventional prefabricated flooring consists of squares, in particular rectangles, with a unique joining structure formed on the side of each flooring that allows assembly with other flooring materials.

In the conventional prefabricated flooring materials, protrusions and grooves are formed on the sides of the two flooring materials which are in contact with each other, and the two flooring materials are fitted using a coupling structure of the projections and grooves, and then the flooring is attached to the building floor using an adhesive or nailed. There is a way to fix the floor to the building floor. However, this method is difficult to dismantle the floor, it is pointed out that the use of an epoxy-based adhesive that is harmful to the human body.

And there is a way to apply the adhesive on the side of the flooring material at the same time using the mechanical bonding of the projection and the groove and the adhesive strength of the adhesive. This method is usually called suspension because it does not fix the flooring to the building floor, there is a relatively easy construction and removal of the flooring. However, this method is also pointed out that the adhesive strength between the flooring material is lowered when the adhesive is frozen or stored for a long time, causing gaps and steps between the flooring material where the adhesive is not properly applied.

As another configuration of the suspension method, there is a method of forming a locking member having a fastening function on the side of the flooring material without using an adhesive, thereby joining the flooring materials together. Prior art in this regard is PCT / EP1997 / 03006, which discloses prefabricated flooring and PCT WO 01 / 48332A1, which discloses a panel having a plug-in cross-sectional shape.

On the other hand, when constructing a prefabricated flooring material formed with a fastening member generally uses a tilting assembly method of placing the neighboring flooring material inclined with respect to one flooring material. However, where a threshold or other obstacle is installed and it is difficult to assemble it on a slope, a horizontal assembly method should be used in which a neighboring floor is entered and fastened to one floor material at the same height. However, the conventional prefabricated flooring has a problem that the fastening member is damaged or horizontal assembly is impossible at all.

14 is a partial cross-sectional view of a flooring according to the prior art, showing the flooring disclosed in PCT / EP1997 / 03006.

Referring to the drawings, in the prior art, when assembling the second flooring material 130 toward the first flooring material 120 horizontally, the latching jaw 122 of the first flooring material 120 provided with the grooves 121 is bent downward. While making the projections 131 of the second flooring material 130 to enter smoothly. However, when the protrusion 131 is inserted due to insufficient elasticity or instantaneous impact of the first and second flooring materials 120 and 130, cracks are formed on the side of the first flooring material 120 in which the grooves 121 are formed (see dotted line). This can happen. Such a crack may cause a step of the bonding surface during construction of the flooring material, and may weaken the bonding force and cause a gap in the joint.

15 is a partial cross-sectional view of a flooring according to the prior art, showing the flooring disclosed in PCT WO 01 / 48332A1.

Referring to the drawings, in the prior art when the second flooring material 150 is assembled horizontally toward the first flooring material 140, because the locking step 141 of the first flooring material 140 is formed high, the second flooring material 150 The side of the lower protrusion 151 is caught by the locking jaw 141 to prevent horizontal entry, and the locking jaw 141 is broken when the horizontal assembly is forcibly performed by applying force to the second flooring material 150. ). In this case, a part of the locking jaw 101 must be removed using a knife or a plane, and then horizontal assembly may be performed. However, this may not only cause inconvenience in construction but may also reduce the coupling force between the first and second flooring materials 140 and 150 after assembly. There is.

Therefore, the present invention is to solve the above problems, an object of the present invention is to be assembled horizontally without the removal of the locking step as well as inclined assembly, smoothly coupled without interference or impact of the locking step, and increase the bonding strength between the floor materials To provide a prefabricated flooring that can be.

In order to achieve the above object, the present invention,

In a flooring material having an upper surface and a lower surface and four sides, the flooring material has a protrusion formed on one side thereof, a protrusion connected to the bottom of the protrusion and protruding away from the upper surface, and concave toward the inside of the flooring material from the end of the protrusion. A first fastening structure including a locking jaw accommodating part, the groove being on the other side, a recess connected to the lower end of the groove and being recessed toward the lower surface, and a protrusion projecting outward from the bottom of the recess And a second fastening structure including a jaw, wherein the top surface of the projection and the groove facing the upper surface has an inclination angle of 10 to 30 ° with respect to an imaginary straight line parallel to the surface direction of the flooring material.

The second fastening structure may further include an intermediate locking projection protruding toward the upper surface between the groove and the recess, and the first locking structure is formed concave toward the upper surface between the protrusion and the projection to fit the intermediate locking projection. The paper may further include an intermediate stopping jaw receiving portion.

In addition, the present invention, in order to achieve the above object,

A flooring material having an upper surface, a lower surface, and four side surfaces, the flooring material having protrusions on one side thereof, a lower locking jaw accommodating portion which is concave toward the upper surface while being connected to the lower end of the protrusions, A lower locking jaw having a first fastening structure including an upper locking jaw accommodating portion concave toward the upper surface, the lower locking jaw protruding toward a direction away from the lower surface while being connected to the groove on the other side and the lower end of the groove; And a second locking structure including an upper locking jaw protruding toward a direction away from the lower locking jaw end, and having an upper surface of the projection and the groove facing the upper surface in an imaginary straight line parallel to the surface direction of the flooring material. It provides a flooring formed having an inclination angle of 10 to 30 degrees relative to.

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

1 and 2 are a partially cutaway perspective view and a plan view, respectively, of a prefabricated floor covering according to a first embodiment of the present invention.

Referring to the drawings, the flooring material 1 of the present embodiment forms a first fastening structure 10 including a protrusion 11, a protrusion 12, and a locking jaw receiving portion 13 on one side, and on the other side. The second fastening structure 20 is formed of the groove 21, the recess 22, and the locking jaw 23. The flooring 10 is coupled to each other with the flooring and the neighboring flooring (not shown) through these first and second fastening structures (10, 20) is made of flooring assembly.

The flooring material 1 may have a rectangular shape having a pair of longitudinal side surfaces and a pair of widthwise side surfaces when viewed in a plan view. At this time, the flooring material 1 forms a first fastening structure 10 on one of the longitudinal side surfaces and one of the widthwise side surfaces, and a second fastening on the other longitudinal side surface and the other widthwise side surface. The structure 20 can be formed.

3 is assuming that the first flooring material 30 having the first fastening structure 10 on one side and the second flooring material 40 having the second fastening structure 20 on one side thereof, It is a partial sectional drawing of the prefabricated flooring material which showed the pre-assembly state of 30 and 40.

Referring to the drawings, the first fastening structure 10 is formed along the plane direction (the X-axis direction of the drawing) of the first flooring material 30 at an arbitrary distance from the upper surface 31 of the first flooring material 30. 1 the projection 11 protruding toward the outside of the flooring material 30 and the upper surface 31 along the thickness direction (Z-axis direction of the drawing) of the first flooring material while being connected to the lower end of the projection 11. Protruding portion 12 protruding toward the direction and the locking step receiving portion 13 is formed concave toward the inside of the first flooring material 30 from the end of the protruding portion 12.

And the second fastening structure 20 is the second flooring material 40 along the surface direction (X-axis direction of the drawing) of the second flooring material 40 at an arbitrary distance from the upper surface 41 of the second flooring material 40. The recess 21 is formed to be concave toward the inside to accommodate the protrusion 11 of the first flooring material 30, and the thickness direction of the second flooring material 40 while being connected to the lower end of the groove 21 (the Z axis in the drawing). Direction concave toward the lower surface 42 of the second flooring material 40 to receive the projections 12 of the first flooring material 30 from the ends of the recesses 22. The locking projection 23 protrudes in a direction away from the lower surface 42 of the second flooring material 40 and fits into the locking projection accommodation part 13 of the first flooring material 30.

The first flooring material 30 is between the top surface 31 and the projection 11, and the second flooring material 40 is between the top surface 41 and the groove 21, each of which is parallel to its thickness direction. The first and second opposing surfaces 14 and 24 are formed, and the two opposing surfaces 14 and 24 face each other while facing each other when the first and second floors 30 and 40 are assembled.

The protrusion 11 forms an upper end surface extending from the first opposing surface 14 as an inclined surface, and the groove 21 also forms an upper end surface extending from the second opposing surface 24 as an inclined surface. The inclined surface is an inclined surface formed such that a distance from the upper surfaces 31 and 41 increases as the protrusion 11 and the groove 21 move away from the first and second opposing surfaces 14 and 24, respectively. And assuming a virtual straight line (see dotted line) parallel to the plane direction of the second flooring material 30, 40, the inclination angle θ of the top surface of the projection 11 and the groove 21 with respect to this line is 10. It consists of -30 degrees. The inclined surfaces of the protrusions 11 and the grooves 21 serve to guide the protrusions 11 into the grooves 21 when assembling the first flooring material 30 and the second flooring material 40.

The second flooring material 40 forms an intermediate locking projection 25 protruding toward the upper surface 41 along the thickness direction thereof between the groove 21 and the recess 22, and the first flooring material 30. Is formed between the projections 11 and the projections 12, the intermediate engaging jaw receiving portion 15 is formed concave toward the upper surface 31 so that the intermediate engaging jaw 25 of the second flooring material 40 To be fitted to the receiving portion (15).

The protruding portion 12 forms a lower end surface of the inclined surface, and the locking jaw 23 also forms a part of the upper surface of the inclined surface 23a. The inclined surface of the protrusion 12 is an inclined surface formed such that the distance from the upper surface 31 becomes smaller as the bottom surface of the protrusion 12 faces the protrusion 11, and the inclined surface 23a of the locking jaw 23 is a locking jaw. (23) It is an inclined surface formed such that the distance from the upper surface 41 becomes smaller as the upper surface faces the groove 21. The inclined surface 23a of the locking jaw 23 serves to guide the lower surface of the protrusion 12 so that the first flooring material 30 smoothly enters the second flooring material 40.

4 to 7 are partial cross-sectional views of the prefabricated flooring material illustrated to explain the assembling process of the first and second flooring materials described above.

First, as illustrated in FIG. 4, when the side surface of the first flooring material 30 having the protrusions 11 is formed in the arrow direction with respect to the side surface of the second flooring material 40 on which the grooves 21 are formed, the first flooring material is moved. The bottom surface of the protrusion 12 of the 30 is in contact with the inclined surface 23a of the locking step 23 of the second flooring material 40. In this process, the bottom surface of the protrusion 12 is guided along the inclined surface 23a of the locking jaw 23 due to the inclined structure of the bottom surface of the protrusion 12 and the inclined surface 23a of the locking jaw 23. The first flooring material 30 makes a slight upward movement until the protrusions 11 of 30 contact the grooves 21 of the second flooring material 40.

Subsequently, as shown in FIG. 5, when the protrusion 11 of the first flooring material 30 contacts the groove 21 of the second flooring material 40 due to the movement of the first flooring material 30 (see the dotted circle mark). ), The inclined top surface of the groove 21 by the inclined top surface of the projection 11 and the groove 21 at the moment when the protrusion 11 and the groove 21 is in contact with the inclined top surface of the protrusion 11. Guided. As a result, as shown in FIG. 6, the projection 11 is fitted into the groove 21 while moving toward the lower surface 42 of the second flooring material 40.

At this time, the protrusion 11 and the protrusion 12 of the first bottom member 30 move toward the lower surface 42 of the second bottom member 40 along the inclined top surface of the groove 21. ) The entire ride over the locking step 23 of the second flooring (40). That is, the protrusions 11 move downward toward the lower surface 42 of the second flooring material 40 along the inclined top surface of the groove 21, and then the protrusions 12 are raised and lowered from the locking step 23. It may be seated in the recess 22 without interference with the locking step 23. (For convenience, the lowering action after the rise of the protrusion 12 is called a 'jump effect.')

Therefore, as shown in FIG. 7, the first and second opposing surfaces 14 and 24 contact each other, and the intermediate locking jaw 25 provided in the second flooring material 40 is the middle of the first flooring material 30. The fitting of the first and second flooring materials 30 and 40 is completed while being fitted to the locking step receiving portion 15, and the first flooring material 30 has the second flooring material 40 without interference or impact with the locking step 23. ) Is easily assembled horizontally. In this process, the upper horizontal surface of the intermediate locking jaw 25 smoothly induces the rotation of the protrusion 12 when the protrusion 11 of the first flooring material 30 enters with a predetermined slope and then fits into the groove 21. Has the function to

When the protrusions 11 and the protrusions 12 of the first flooring material 30 pass over the locking jaw 23 of the second flooring material 40, the first flooring material 30 with respect to the second flooring material 40 is formed. Since the inclination angle does not exceed a maximum of 10 ° is assembled in a short instant, the first and second floors 30, 40 in this embodiment can be easily assembled horizontally, in this process interference of the locking step 23 The impact can be minimized.

The protrusion 12 jumping effect of the first flooring material 30 is a projection 11 with respect to an imaginary straight line (see the dotted line in FIG. 3) parallel to the plane direction of the first and second flooring materials 30 and 40. And the inclination angle (theta) of the upper end surface of the groove 21 is 10-30 degrees.

That is, when the inclination angle is more than 30 °, the jumping effect of the protrusion 12 is increased to facilitate horizontal assembly of the first and second flooring materials 30 and 40, but after coupling, the first and second flooring materials 30 and 40 are combined. Increases the probability of causing a step in the mating surface. When the inclination angle is less than 10 °, the jumping effect of the protrusion 12 and the guide effect according to the inclination angles of the top surfaces of the protrusions 11 and the grooves 21 cannot be expected. When entering 40 may be interfered with the locking step (23).

On the other hand, the prefabricated flooring of the present embodiment is made of a structure suitable for the ondol environment. That is, in the case where the floor surface of the building is constructed under high temperature heating conditions, the lower surface of the floor material directly contacting the building floor surface contracts after a long time due to heat. In this case, as shown in FIG. 8, the first and second flooring materials 30 and 40 are subjected to a vertical load in which the joining portion rises upward in a state where the side surfaces are joined to each other, and breakage occurs where stress is concentrated. Or gaps in the joints may occur.

However, the prefabricated flooring material of the present embodiment has the upper surface engaging portion (see A circular portion) of the protrusion 11 and the groove 21, and the engaging portion (B circular) of the intermediate locking jaw 25 and the intermediate locking jaw receiving portion 15. By dividing the stress in the subclause, it is possible to minimize the breakage of the joint and the generation of gap due to the stress concentration.

9 is a partial cross-sectional view illustrating a pre-assembly state of the prefabricated flooring according to the second embodiment of the present invention, Figure 10 is a partial cross-sectional view of the prefabricated flooring showing the post-bonding state of FIG.

Referring to the drawings, the flooring of the present embodiment is based on the structure of the first embodiment described above, one side (23b) of the engaging projection 23 and the engaging projection 23 and the protrusion projection leading to the engaging projection (13) (12) By setting the inclination angle of one side (12a) differently, it is made of a configuration in which the engaging force of the locking step 23 and the protrusion 12 is further increased.

That is, assuming a virtual straight line parallel to the surface direction of the first and second flooring (50, 60), the inclination of the one side surface 12a of the projection 12, which is connected to the locking projection receiving portion 13 with respect to this straight line If the angle is θ ₁ , and the inclination angle of the one side surface 23b of the engaging projection 23 which is connected to the recess 22 with respect to the straight line is θ ₂ , the first and second flooring materials 50 and 60 are as follows. It is formed to satisfy the condition.

At this time, the first and second flooring material (50, 60) may be made of a wood fiber board press-molded by pressing and heating the wood fibers, the wood fiber board has the properties of compression and elasticity.

By the above-described configuration, when the protrusion 11 of the first flooring material 50 is fitted into the groove 21 of the second flooring material 60, the engaging jaw 23 of one side surface 23b of the second flooring material 60 is 23b. ) Strongly presses the one side surface 12a of the protruding portion 12 of the first flooring material 50 which is in contact with it. Therefore, even when the engaging portion 23 and the protrusion 12 of the surface contact in contact with the hot contraction contracted by heat, the locking jaw 23 and the protrusion 12 can maintain a contact state, so that gaps are generated while minimizing the weakening force. Can be suppressed.

11 is a partial cross-sectional view showing a state after assembly of the prefabricated flooring according to the third embodiment of the present invention.

Referring to the drawings, the flooring material of the present embodiment is based on the structure of the first embodiment described above, and when the first and second flooring materials 70 and 40 are coupled to or separated from each other, It is made of a configuration to increase the elasticity. To this end, the thickness of the first flooring material 70 is t, and the distance from the upper surface 71 of the first flooring material 70 to the locking projection 13 'measured along its thickness direction is c. When it is formed, the following conditions are satisfied.

When the value of c for the thickness t of the first flooring material 70 is less than 0.25, the elasticity of the protrusion 11 and the protrusion 12 may be increased, but cracks may easily occur at the latching receiving portion 13 ′. 1 When the value of c for the thickness t of the flooring material 70 exceeds 0.40, sufficient elasticity of the protrusion 11 and the protrusion 12 cannot be expected.

As described above, the flooring material of the present embodiment increases the elasticity of the protrusion 11 and the protrusion 12 provided in the first flooring material 70 as the c height is reduced, thereby coupling the first and second flooring materials 70 and 40 to each other. Can be facilitated when it is being removed or separated. In addition, in the flooring of the present embodiment, when the flooring is deformed due to the influence of temperature or humidity around the flooring material, the stress generated at the engaging portion of the protrusion 11 and the groove 21 is distributed around the latching receiving portion 13 '. This can minimize deformation of the flooring.

12 is a partial cross-sectional view illustrating the pre-assembly state of the prefabricated flooring according to the fourth embodiment of the present invention, Figure 13 is a partial cross-sectional view of the prefabricated flooring showing the post-bonding state of FIG.

Referring to the drawings, the first flooring material 80 of the present embodiment protrudes toward one side of the first flooring material 80 along the surface direction (X-axis direction of the drawing) of the first flooring material 80. (91) and the lower engaging jaw receiving portion (92) formed concave toward the upper surface (81) along the thickness direction (Z-axis direction of the drawing) of the first flooring material (80) while being connected to the lower end of the projection (91). And a first locking structure 90 including an upper locking jaw accommodating portion 93 formed concave from an end of the lower locking jaw receiving portion 92 toward the upper surface 81 of the first flooring material 80. do.

In addition, the second flooring material 100 is formed on one side to be concave toward the inside of the second flooring material 100 along the surface direction of the second flooring material 100 to accommodate the projection 91 of the first flooring material 80. Groove 111 and the lower engaging jaw accommodating portion of the first flooring material 80 is formed to protrude toward the direction away from the lower surface 102 in the thickness direction of the second flooring material 100 while continuing to the bottom of the groove 111. The lower locking jaw 112 fitted to the 92 and the lower locking projection 112 protrudes toward the direction away from the lower surface 102 of the second flooring material 100 from the end of the upper surface of the first flooring material 80. A second fastening structure 110 including an upper locking jaw 113 fitted into the locking jaw receiving portion 93 is formed.

The protrusion 91 forms an inclined surface of the top surface of the first flooring material 80 toward the top surface 81, and the groove 111 also forms the top surface of the second flooring material 100 toward the top surface 101. It is formed with an inclined surface. The inclined surface is preferably formed with an inclination angle θ of 10 to 30 ° with respect to an imaginary straight line (see dotted line) parallel to the plane direction of the first and second flooring materials 80 and 100. The inclined surfaces of the protrusions 91 and the grooves 111 allow the protrusions 91 of the first flooring material 80 to enter the grooves 111 of the second flooring material 100. Guided to the inside serves to facilitate the inclined assembly and horizontal assembly between the two flooring (80, 100).

The lower locking jaw receiving portion 92 forms one side surface 92a connected to the lower end of the protrusion 91 as an inclined surface, and the lower locking jaw 112 also defines one side surface 112a connected to the lower end of the groove 111. It is formed with an inclined surface. The inclined surface guides the lower end of the protrusion 91 into the lower end of the groove 111 to serve to smoothly engage the protrusion 91 and the groove 111. The lower locking jaw 112 of the second flooring material 100 when the first flooring material 80 and the second flooring material 100 inclined assembling, facilitates the rotation of the projection 91 to facilitate the construction, to the inclined surface One side surface 112a of the lower locking jaw 112 and the one side surface 92a of the lower locking jaw receiving portion 92 may be spaced apart from each other by approximately 0.1 to 0.2 mm after assembly.

In addition, the upper locking jaw receiving portion 93 forms one side 93a connected to the lower locking jaw receiving portion 92 as an inclined surface, and the upper locking jaw 113 also inclines the one side connecting to the lower locking jaw 112. To form. In particular, one side surface 93a of the upper locking jaw accommodating portion 93 which is connected to the lower locking jaw accommodating portion 92 with respect to an imaginary straight line (see dotted line) parallel to the surface direction of the first and second flooring materials 80 and 100. When the inclination angle of θ ₃ and the inclination angle of the one side surface 113a of the upper engaging jaw 113 and the subsequent engaging jaw 112 with respect to the straight line is θ ₄ , the first and second flooring materials 80 and 100 May be formed to satisfy the following conditions.

At this time, the first and second flooring material (80, 100) is made of a wood fiber board press-molded by pressing and heating the wood fibers as in the second embodiment described above, the wood fiber board is a compression and elastic properties Has

As a result, when the protrusions 91 of the first flooring material 80 are fitted into the grooves 111 of the second flooring material 100, the one side surface 113a of the upper locking jaw 113 of the second flooring material 100 abuts with the teeth. While strongly pressing on one side 93a of the upper locking jaw receiving portion 93 of the first flooring material 80, a large bonding force is maintained, and as a result, the bonding strength between flooring materials is increased. Therefore, even when the coupling portion of the upper locking jaw 113 and the upper locking jaw receiving portion 93 which are in surface contact during high temperature heating contracts by heat, the two members can maintain a contact state, thereby effectively suppressing loosening and gaps between floors. can do.

As described above, the flooring material of the present embodiment has a double structured locking jaw consisting of the upper locking jaw 112 and the lower locking jaw 113 as the second flooring material 100 lowers the height of the upper locking jaw 113. In this case, the horizontal assembly between the first and second flooring materials 80 and 100 may be more easily performed, and the engaging jaw of the double structure strengthens the coupling force between the first and second flooring materials 80 and 100, thereby providing the bonding strength of the flooring material. To increase.

As described through the above embodiments, the prefabricated flooring according to the present invention can smoothly assemble horizontally without interference or impact with the locking step without removing the locking step, increase the bonding strength between floors, and the building floor surface is hot Even under phosphorus conditions, there is an advantage of minimizing the occurrence of breakage or gaps in the joint.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications and changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. Naturally, it belongs to the range of.

As described above, according to the present embodiment, two neighboring flooring materials can be smoothly assembled horizontally without interference or impact of the locking step without removing the locking step, thereby increasing workability. In addition, according to this embodiment, by increasing the bonding strength between the flooring materials can be minimized the deformation of the flooring or the occurrence of gaps due to the influence of the temperature or humidity of the outside has the effect of improving the flooring quality.

Claims (25)

In the flooring (1) having an upper surface and a lower surface and four sides, The bottom member 1 extends from one end of the protrusion 11 and a protrusion 12 protruding toward a direction away from the upper surface while being connected to the lower end of the protrusion 11, and from the end of the protrusion 12 to the inside of the bottom 1. It has a first fastening structure 10 including a locking step receiving portion 13 is formed concave toward the, The bottom 1 is recessed part 22 which is formed concave toward the lower surface while being connected to the groove 21 and the lower end of the groove 21 on the other side, and the bottom member 1 from the end of the recessed part 22. It has a second fastening structure 20 including a locking step 23 protruding toward the outside, The top surface of the projection (11) and the groove (21) facing the upper surface is formed with an inclination angle of 10 to 30 ° with respect to an imaginary straight line parallel to the surface direction of the flooring material (1). The method of claim 1, The first fastening structure 10 further includes an intermediate locking jaw receiving portion 15 formed concave between the protrusion 11 and the protrusion 12 toward the upper surface, and the second fastening structure 20 is Flooring further comprises an intermediate locking projection (25) protruding toward the upper surface between the groove (21) and the recess (22). The method of claim 1, The bottom surface of the protruding portion 12 is formed as an inclined surface, the bottom surface portion of the upper surface of the engaging projection 23 is formed with an inclined surface (23a) having the same inclination direction as the inclined surface. The method of claim 1, One side surface 12a of the protruding portion 12 connected to the locking jaw receiving portion 13 and one side surface 23b of the locking jaw 23 connected to the concave portion 22 are formed as an inclined surface, and the flooring material The flooring material having an inclination angle of one side surface (23b) of the locking step (23) is greater than the inclination angle of one side surface (12a) of the protrusion 12 with respect to an imaginary straight line parallel to the surface direction of (1). The method of claim 4, wherein An inclination angle of the one side surface 12a of the protrusion 12 is θ ₁ with respect to an imaginary straight line parallel to the surface direction of the flooring material ₁ , and the locking jaw 23 on one side surface 23b of the straight line ₁ with respect to the straight line. Flooring that satisfies the following conditions when the inclination angle is θ ₂ . θ ₂ = θ ₁ + α, α = 1 to 5 ° The method of claim 1, When the thickness of the flooring material 1 is t, and the distance from the upper surface to the locking step accommodating portion 13 'measured along the thickness direction of the flooring material 1 is c, the flooring material satisfying the following conditions . 0.25 ≤ c / t ≤ 0.40 In the flooring (1) having an upper surface and a lower surface and four sides, The bottom member 1 has a protrusion 91 and a lower locking jaw receiving portion 92 which is concave toward the upper surface while being connected to the bottom of the protrusion 91 on one side thereof, and the lower locking jaw receiving portion 92. A first fastening structure (90) comprising an upper locking jaw receiving portion (93) formed concave from an end toward an upper surface, The bottom member 1 is connected to the groove 111 and the lower end of the groove 111 on the other side and protrudes toward the direction away from the lower surface, and the lower locking jaw 112 and the lower locking jaw 112 from the end. It has a second fastening structure 110 including an upper locking step 113 protruding toward the direction away from the lower surface, The top surface of the protrusion 91 and the groove 111 toward the upper surface is formed with an inclination angle of 10 to 30 ° with respect to an imaginary straight line parallel to the surface direction of the floor material (1). The method of claim 7, wherein One side surface 92a of the lower locking jaw accommodating part 92 and the lower surface of the lower locking jaw 112 extending from the bottom 111 of the protrusion 91 is formed as an inclined surface. Flooring. The method of claim 7, wherein One side surface 93a of the upper locking jaw receiving portion 93 and the lower locking jaw receiving portion 92 and one side surface 113a of the upper locking jaw 113 connected to the lower locking jaw 112 are inclined surfaces. And the inclination angle of the upper locking jaw 113 one side surface 113a with respect to an imaginary straight line parallel to the surface direction of the flooring material 1 is greater than the inclination angle of the upper locking jaw accommodating part 93 one side surface 93a. Flooring formed large. The method of claim 9, An inclination angle of one side surface 93a of the upper locking jaw receiving portion 93 is θ ₃ with respect to an imaginary straight line parallel to the surface direction of the flooring material 1, and one side surface 113a of the upper locking jaw 113 is disposed. When the angle of inclination of is θ ₄ , the flooring material meets the following conditions. θ ₄ = θ ₃ + α, α = 1 to 5 ° The method according to claim 1 or 7, The flooring material 1 has a pair of longitudinal side surfaces and a pair of widthwise side surfaces, and the first fastening structures 10 and 90 are provided on either one of the longitudinal side surfaces and any one of the widthwise side surfaces. A flooring material having a second fastening structure (20, 110) provided on the other longitudinal side and on the other widthwise side. The method according to claim 4 or 9, The flooring material (1) is made of a material having the properties of compression and elasticity. The method of claim 12, The flooring material (1) is a flooring material made of a wood fiber board in which the wood fibers are press-molded at any temperature and pressure conditions. Each of the fastening structure (10, 20) on the side comprises a first flooring material 30 and the second flooring material 40, which is coupled to each other through the fastening structure (10, 20), A protrusion 12 protruding toward the direction away from the upper surface 31 of the first bottom member 30 while the fastening structure 10 of the first bottom member 30 is connected to the protrusion 11 and the bottom of the protrusion 11. ), And the locking step accommodating part 13 formed concave toward the inside of the first flooring material 30 from the end of the protruding portion 12, The fastening structure 20 of the second flooring material 40 extends toward the lower surface 42 of the second flooring material while being connected to the groove 21 accommodating the protrusion 11 and the lower end of the groove 21. A recess 22 formed to be concave to receive the protrusion 12, and a protrusion to protrude from the end of the recess 22 toward the outside of the second flooring material 40 to be fitted to the latching jaw receiving portion 13. (23), The top surfaces of the protrusions 11 and the grooves 22 facing the upper surfaces 31 and 41 of the first and second flooring materials 30 and 40 face the first and second flooring materials 30 and 40. Prefabricated flooring formed with an inclination angle of 10 to 30 ° with respect to an imaginary straight line parallel to the. The method of claim 14, Intermediate locking projection portion 15 of the fastening structure 10 of the first flooring material 30 is formed concave between the projection 11 and the projection 12 toward the upper surface 41 of the first flooring material 30. And a fastening structure 20 of the second flooring material 40 protrudes toward the upper surface 41 of the second flooring material 40 between the groove 21 and the recess 22. Prefabricated flooring further comprising a locking jaw (25). The method of claim 14, The bottom surface of the protruding portion 12 is formed of an inclined surface, and a part of the top surface of the locking jaw (23) is a prefabricated flooring material formed of an inclined surface (23a) having the same inclination direction as the inclined surface. The method of claim 14, One side surface 12a of the protruding portion 12, which is connected to the locking jaw receiving portion 13, and one side surface 23b of the locking jaw 23, which is connected to the recess 22, is formed as an inclined surface. Prefabricated type in which the inclination angle of the one side surface 23b of the locking projection 23 is greater than the inclination angle of the one side surface 12a of the protrusion 12 with respect to an imaginary straight line parallel to the surface direction of the first and second flooring materials 30 and 40. Flooring. The method of claim 17, An inclination angle of one side surface 12a of the protruding portion 12 is θ ₁ with respect to an imaginary straight line parallel to the surface direction of the first and second flooring materials 30 and 40, and the locking step 23 with respect to the straight line. ) A prefabricated flooring material satisfying the following conditions when the inclination angle of one side surface 23b is θ ₂ . θ ₂ = θ ₁ + α, α = 1 to 5 ° The method of claim 14, When the thickness of the first flooring material 70 is t and the distance from the upper surface 71 to the locking step accommodating portion 13 ′ measured along the thickness direction of the first flooring material 70 is c, Prefabricated flooring that meets the following conditions. 0.25 ≤ c / t ≤ 0.40 Forming each fastening structure (90, 110) on the side includes a first flooring material 80 and the second flooring material 100 is coupled to each other through the fastening structure (90, 110), The fastening structure 90 of the first flooring material 80 is connected to the projection 91 and the lower end of the projection 91 so as to be recessed toward the upper surface 81 of the first flooring material 80. A portion 92 and an upper locking jaw receiving portion 93 formed concave toward the upper surface 81 of the first flooring material 80 from an end of the lower locking jaw receiving portion 92, The fastening structure 110 of the second flooring material 100 is connected to the groove 111 accommodating the protrusion 91 and the lower surface 102 of the second flooring material 100 while being connected to the bottom of the groove 111. The lower locking jaw 112 is formed to protrude toward the lower engaging jaw receiving portion 92 and the direction away from the lower surface 102 of the second flooring material 100 from the end of the lower locking jaw (112). It is formed to protrude toward the upper locking jaw 113 is fitted to the upper locking jaw receiving portion 93, The top surfaces of the protrusions 91 and the grooves 111 facing the upper surfaces 81 and 101 of the first and second flooring materials 80 and 100 face the direction of the first and second flooring materials 80 and 100. Prefabricated flooring material having an inclination angle of 10 to 30 degrees with respect to an imaginary straight line parallel to the. The method of claim 20, One side surface 92a of the lower locking jaw accommodating part 92 and the lower surface of the lower locking jaw 112 extending from the bottom 11 of the protrusion 91 are formed as an inclined surface. Prefabricated flooring. The method of claim 20, One side surface 93a of the upper locking jaw receiving portion 93 and the lower locking jaw receiving portion 92 and one side surface 113a of the upper locking jaw 113 connected to the lower locking jaw 112 are inclined surfaces. And the inclination angle of the upper locking jaw 113 and one side surface 113a with respect to a virtual straight line parallel to the surface direction of the first and second flooring materials 80 and 100 is an upper locking jaw receiving portion 93. Prefabricated flooring material is formed larger than the inclination angle of the side (93a). The method of claim 22, An inclination angle of one side surface 93a of the upper locking jaw receiving portion 93 with respect to an imaginary straight line parallel to the surface direction of the first and second flooring materials 80 and 100 is θ ₃ , and the upper locking jaw ( 113) A prefabricated flooring material satisfying the following conditions when the inclination angle of one side 113a is θ ₄ . θ ₄ = θ ₃ + α, α = 1 to 5 ° The method of claim 17 or 22, Prefabricated flooring material, wherein the first and second flooring material is made of a material having compressive and elastic properties. The method of claim 24, A prefabricated flooring material wherein said first and second flooring materials are made of wood fiber boards in which wood fibers are press-molded under arbitrary temperature and pressure conditions.

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