CN213449313U - Spliced floor combination - Google Patents

Abstract

The utility model discloses a concatenation formula floor combination, be the same rhombus splice plate (1) of three blocks of structures of hexagon including splicing each other, rhombus splice plate (1) comprises at least ground plate strip A (2) and ground plate strip B (3), and the shape of ground plate strip A (2) and ground plate strip B (3) is parallelogram shape, ground plate strip B (3) are located the border department of three rhombus splice plates (1), and the concatenation angle department of ground plate strip B (3) is equipped with corner cut (4). The utility model discloses both have the convenient stable, the unique characteristics of decorative pattern of concatenation, have again that the materials are saved and reduce cost's characteristics.

Description

Spliced floor combination

Technical Field

The utility model relates to a concatenation formula floor, especially a concatenation formula floor combination.

Background

The floor is essential decoration in the daily life, and provides decoration and protection for indoor ground and outdoor ground. The existing floor can be divided into solid wood floor, composite floor, bamboo floor, metal floor and the like according to the material, and the single floor is combined by utilizing the splicing mode to fully cover the whole ground. In order to ensure the convenience of splicing the floor boards, corresponding tenons and grooves are usually arranged on the floor boards, and the splicing is carried out by utilizing the matched insertion of the tenons and the grooves. However, the existing floor spliced by the tenon and the groove usually adopts rectangular or 45-degree-angle floor strips for splicing, the splicing form of the rectangular floor strips is single, the splicing patterns are monotonous, the attractiveness is insufficient, the splicing stability is poor, and the problems of deformation and warping are easy to occur; the floor strips with the angle of 45 degrees are relatively expensive in material, the number of finished products made of the same material is small, the cost is increased, and splicing combination and patterns are limited.

Therefore, in the existing floor splicing structure, the rectangular floor strips have the problems of simple splicing patterns and general splicing stability, and the floor strips with the angle of 45 degrees have the problems of higher material consumption and higher cost.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a concatenation formula floor combination. The utility model discloses both have the convenient stable, the unique characteristics of decorative pattern of concatenation, have again that the materials are saved and reduce cost's characteristics.

The technical scheme of the utility model: the utility model provides a concatenation formula floor combination, is the same rhombus splice plate of three the same structures of hexagon including splicing each other, and the rhombus splice plate comprises at least one floor strip A and floor strip B, and floor strip A and floor strip B's shape is the parallelogram shape, floor strip B is located the border department of three rhombus splice plates, and floor strip B's concatenation angle department is equipped with the chamfer.

In the aforesaid concatenation formula floor combination, the long limit of one side and the one side minor face of floor strip A all are equipped with recess A, and the long limit of the opposite side and the opposite side minor face of floor strip A all are equipped with tenon A, and the angle between the long limit at the minor face that recess A belonged to and recess A belonged to is 60.

In the above-mentioned splice floor combination, the short side of the floor strip a where the groove a is located at the right side of the long side where the groove a is located.

In the above-mentioned splice floor combination, the short side of the floor strip a where the groove a is located on the left side of the long side where the groove a is located.

In the aforesaid concatenation formula floor combination, the long limit of one side and the one side minor face of floor strip B all are equipped with recess B, and the long limit of opposite side and the opposite side minor face of floor strip B all are equipped with tenon B, and the angle between the minor face that recess B belonged to and the long limit that recess B belonged to is 60, the second corner cut that is equal to first corner cut on the contained angle department and the floor strip B bottom of two adjacent tenon B.

In the above splicing floor combination, an included angle between the tangent plane of the first tangent angle and the horizontal plane is 60 °.

In the above-mentioned splice floor combination, the short side of the floor strip B where the groove B is located at the right side of the long side where the groove B is located.

In the above-mentioned splice floor combination, the short side of the floor strip B where the groove B is located on the left side of the long side where the groove B is located.

In the above splicing type floor combination, each of the rhombic splicing plates adopts four floor strips a and one floor strip B which have the same shape.

Compared with the prior art, the utility model discloses a connection of tenon and recess on stuff A and the stuff B splices, and is very convenient, and is laborsaving, wherein stuff A and stuff B have multiple form, can have multiple splicing to splice into the hexagon, the stuff concatenation direction of adjacent rhombus splice plate is different in the hexagon that splices into, form crisscross different concatenation texture, the decorative pattern is unique, the concatenation stability is good, prevent warpage and the deformation of panel, improve static bending strength and elastic modulus, the aesthetic property is better, and stuff A and stuff B's acute angle is 60, the material consumption is minimum, and therefore, the cost is reduced, and the output is increased.

In addition, the batten B at the edge of each diamond splicing plate during splicing is provided with a chamfer, so that the surface is smooth, the splicing is more convenient, sawing is not needed, the paving efficiency is higher, the splicing obstruction cannot occur, and the diagonal splicing precision is higher.

Therefore, the utility model discloses both have the convenient stable, the unique characteristics of decorative pattern of concatenation, have again with the characteristics of material saving and reduce cost.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a diamond-shaped splice plate according to a first embodiment;

FIG. 3 is a schematic plan view of a floor strip A according to an embodiment;

FIG. 4 is a schematic plan view of a floor strip B according to an embodiment;

FIG. 5 is a schematic perspective view of a first embodiment of a floor strip B;

FIG. 6 is a schematic diagram of a multi-combination structure according to the first embodiment;

fig. 7 is a schematic structural diagram of a second embodiment of the present invention;

FIG. 8 is a schematic structural diagram of a diamond-shaped splice plate according to a second embodiment;

FIG. 9 is a schematic plan view of the floor strip A according to the second embodiment;

FIG. 10 is a schematic plan view of the floor strip B according to the second embodiment;

FIG. 11 is a schematic perspective view of a second embodiment of a floor strip B;

FIG. 12 is a schematic view of the multi-combination structure of the second embodiment.

The labels in the figures are: 1. a diamond splice plate; 2. floor strip A; 21. a groove A; 22. a tenon A; 3. floor strips B; 31. a groove B; 32. a tenon B; 4. cutting corners; 41. a first corner cut; 42. and (7) second corner cutting.

Detailed Description

The present invention will be further described with reference to the following examples, which are not intended as a limitation of the present invention.

Example 1:

as shown in fig. 1-6, a concatenation formula floor combination, including three diamond-shaped splice plates 1 that the concatenation is the hexagon each other, every diamond-shaped splice plate 1 comprises four floor strips A2 and a floor strip B3 that the shape is the same and be parallelogram, floor strip B3 is located three diamond-shaped splice plate 1's border department, and floor strip B3's concatenation angle department is equipped with chamfer 4. The longer side of the floor strip a2 is 5 times the shorter side of the floor strip a2, the longer side of the floor strip B3 is 5 times the shorter side of the floor strip B3, in this example, the longer sides of the floor strip a2 and the floor strip B3 are 550mm, and the shorter sides of the floor strip a2 and the floor strip B3 are 110 mm.

The long side and the short side of one side of the floor strip A2 are both provided with a groove A21, the long side and the short side of the other side of the floor strip A2 are both provided with a tenon A22, and the angle between the short side where the groove A21 is located and the long side where the groove A21 is located is 60 degrees.

The short side of the floor strip A2 where the groove A21 is located to the right of the long side where the groove A21 is located.

The floor strip B3 one side long side and one side short side all are equipped with recess B31, and floor strip B3's the other side long side and the other side short side all are equipped with tenon B32, and the angle between the short side that recess B31 belongs to and the long side that recess B31 belongs to is 60, the chamfer 4 includes the second chamfer 42 that is equal to first chamfer 41 on the first chamfer 41 and the floor strip B3 bottom layer of the contained angle of two adjacent tenon B32. The first chamfer 41 and the second chamfer 42 have a T-shaped cut.

The included angle between the tangent plane of the first tangent angle 41 and the horizontal plane is 60 degrees.

The short side of the floor strip B3 where the groove B31 is located to the right of the long side where the groove B31 is located.

When splicing, firstly splicing four floor strips A2 with a floor strip A2, then splicing a floor strip B3 to the floor strip A2 on one side to form a rhombic splicing plate 1, completing splicing three rhombic splicing plates 1 according to the method, and then mutually combining the three rhombic splicing plates 1 to splice the floor with a hexagonal pattern. The corner cut on the floor strip B3 at 1 border of every rhombus splice plate for when assembling and being the hexagon pattern, it is more convenient to assemble, need not to cut the saw, the efficiency of mating formation is higher, can not take place to obstruct, and the diagonal angle is assembled the precision and is higher.

The floor strips A2 and B3 can be solid wood floors or core three-layer floors, and the materials are not limited, the surface layer of the core three-layer floor is made of raw wood materials, the core layer is made of a triple-core composite material of white pine and eucalyptus, and the bottom layer is made of beech materials.

Example 2:

as shown in fig. 7-12, a concatenation formula floor combination, including three diamond-shaped splice plates 1 that the concatenation is the hexagon each other, every diamond-shaped splice plate 1 comprises four floor strips a2 and a floor strip B3 that the shape is the same and be parallelogram, floor strip B3 is located three diamond-shaped splice plate 1's border department, and floor strip B3's concatenation angle department is equipped with chamfer 4. The longer side of the floor strip a2 is 5 times the shorter side of the floor strip a2, the longer side of the floor strip B3 is 5 times the shorter side of the floor strip B3, in this example, the longer sides of the floor strip a2 and the floor strip B3 are 550mm, and the shorter sides of the floor strip a2 and the floor strip B3 are 110 mm.

The long side and the short side of one side of the floor strip A2 are both provided with a groove A21, the long side and the short side of the other side of the floor strip A2 are both provided with a tenon A22, and the angle between the short side where the groove A21 is located and the long side where the groove A21 is located is 60 degrees.

The short side of the floor strip A2 where the groove A21 is located to the left of the long side where the groove A21 is located.

The floor strip B3 one side long side and one side short side all are equipped with recess B31, and floor strip B3's the other side long side and the other side short side all are equipped with tenon B32, and the angle between the short side that recess B31 belongs to and the long side that recess B31 belongs to is 60, the chamfer 4 includes the second chamfer 42 that is equal to first chamfer 41 on the first chamfer 41 and the floor strip B3 bottom layer of the contained angle of two adjacent tenon B32. The first chamfer 41 and the second chamfer 42 have a T-shaped cut.

The included angle between the tangent plane of the first tangent angle 41 and the horizontal plane is 60 degrees.

The short side of the floor strip B3 where the groove B31 is located to the left of the long side where the groove B31 is located.

When splicing, firstly splicing four floor strips A2 with a floor strip A2, then splicing a floor strip B3 to the floor strip A2 on one side to form a rhombic splicing plate 1, completing splicing three rhombic splicing plates 1 according to the method, and then mutually combining the three rhombic splicing plates 1 to splice the floor with a hexagonal pattern. The corner cut on the floor strip B3 at 1 border of every rhombus splice plate for when assembling and being the hexagon pattern, it is more convenient to assemble, need not to cut the saw, the efficiency of mating formation is higher, can not take place to obstruct, and the diagonal angle is assembled the precision and is higher.

The floor strips A2 and B3 can be solid wood floors or core three-layer floors, and the materials are not limited, the surface layer of the core three-layer floor is made of raw wood materials, the core layer is made of a triple-core composite material of white pine and eucalyptus, and the bottom layer is made of beech materials.

Claims (9)

1. A concatenation formula floor combination which characterized in that: the spliced floor is characterized in that the spliced floor comprises three hexagonal rhombic splicing plates (1) which are connected with each other, the rhombic splicing plates (1) comprise at least one floor strip A (2) and floor strips B (3), the shapes of the floor strips A (2) and the floor strips B (3) are parallelogram shapes, the floor strips B (3) are located at the edges of the three rhombic splicing plates (1), and the splicing corners of the floor strips B (3) are provided with cut angles (4).

2. A splice flooring combination as claimed in claim 1, wherein: the long limit of one side and the one side minor face of floor strip A (2) all are equipped with recess A (21), and the long limit of the opposite side and the opposite side minor face of floor strip A (2) all are equipped with tenon A (22), and the angle between the minor face that recess A (21) were located and the long limit that recess A (21) were located is 60.

3. A splice flooring combination as claimed in claim 2, wherein: the short side of the floor strip A (2) where the groove A (21) is located on the right side of the long side where the groove A (21) is located.

4. A splice flooring combination as claimed in claim 2, wherein: the short side of the floor strip A (2) where the groove A (21) is located on the left side of the long side where the groove A (21) is located.

5. A splice flooring combination as claimed in claim 1, wherein: the long limit of one side and one side minor face of floor strip B (3) all are equipped with recess B (31), and the long limit of the opposite side and the opposite side minor face of floor strip B (3) all are equipped with tenon B (32), and the angle between the short face at recess B (31) place and the long limit at recess B (31) place is 60, first corner cut (41) and floor strip B (3) bottom layer on the contained angle department of two adjacent tenon B (32) second corner cut (42) that keep level mutually with first corner cut (41).

6. The splice flooring combination of claim 5, wherein: the included angle between the tangent plane of the first tangent angle (41) and the horizontal plane is 60 degrees.

7. The splice flooring combination of claim 5, wherein: the short side of the floor strip B (3) where the groove B (31) is located is positioned on the right side of the long side where the groove B (31) is located.

8. The splice flooring combination of claim 5, wherein: the short side of the floor strip B (3) where the groove B (31) is located is positioned on the left side of the long side where the groove B (31) is located.

9. A splice flooring combination as claimed in claim 1, wherein: each diamond splice plate (1) adopts four floor strips A (2) and one floor strip B (3) with the same shape.

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