CN109184132B - Bead-embedded floor - Google Patents

Abstract

The invention provides a beaded floor. It has solved current technical problem. This rule floor, including the floor body, the floor body include top layer, intermediate level, bottom, the top layer middle part open and have the rule hole, the rule downthehole first pearl that is equipped with, first pearl inlay establish in rule downthehole and this first pearl can dismantle with rule hole and be connected, rule hole lateral part be equipped with the pearl body locating lever that is the L type, pearl body locating lever one end and first pearl downside between be equipped with pearl body location structure, the tip of the other end of pearl body locating lever even have the second pearl. The invention has the advantages of simple structure, convenient bead disassembly, good stability and the like.

Description

Bead-embedded floor

Technical Field

The invention belongs to the technical field of floors, and particularly relates to a bead-embedded floor.

Background

Floor, i.e. the surface layer of a house floor or floor. Made of wood or other materials. There are many classifications of floors, which are classified by structure: solid wood floors, reinforced composite wood floors, three-layer solid wood composite floors, bamboo wood floors, corrosion-resistant floors, cork floors, and the like, which are currently the most popular multi-layer solid wood composite floors; the classification according to the application is as follows: household, commercial, antistatic floors, outdoor floors, stage dance floors, gymnasium floors, track floors, etc. For attractive appearance, the floor with the embedded beads is derived, most of the embedded beads of the existing embedded bead floor are fixedly connected with a bottom plate, and the embedded beads are easy to lose gloss and become unattractive after long-time use, however, the embedded beads are very inconvenient to replace and influence use.

Disclosure of Invention

The invention aims to solve the problems and provide a bead-embedded floor with convenient bead replacement.

In order to achieve the above purpose, the present invention adopts the following technical scheme: this rule floor, including the floor body, the floor body include top layer, intermediate level, bottom, the top layer middle part open and have the rule hole, the rule downthehole first pearl that is equipped with, first pearl inlay establish in rule downthehole and this first pearl can dismantle with rule hole and be connected, rule hole lateral part be equipped with the pearl body locating lever that is the L type, pearl body locating lever one end and first pearl downside between be equipped with pearl body location structure, the tip of the other end of pearl body locating lever even have the second pearl. The first pearl body realizes the location in the caulking hole through the pearl body locating lever, not only the structure is reliable and can dismantle, can change the pearl body of different colours and shape as required, and application scope is wider to the second pearl body directly sets up the installation step that has reduced the second pearl body on the pearl body locating lever, improves packaging efficiency.

In the above-mentioned embedded bead floor, the pearl body positioning structure include the locating hole of first pearl body bottom side, the one end of pearl body locating lever orientation first pearl body be equipped with the corresponding locating lever body that sets up of locating hole, the pearl body locating lever set up in the body of rod passageway of first pearl body lateral part, just the pearl body locating lever can follow body of rod passageway axial displacement. The positioning of the first beads in the bead embedding holes can be effectively guaranteed through the positioning holes and the bead positioning rods, the structure is reliable, and when the first beads are required to be taken out, the end parts of the bead positioning rods can be separated from the positioning holes only by transversely moving the bead positioning rods along the rod body channels.

In the bead embedded floor, the rod body channel comprises a fan-shaped groove and a vertical groove, one end of the bead positioning rod, facing the first bead, is positioned in the fan-shaped groove, the other end of the bead positioning rod is arranged in the vertical groove, and a swing adjusting structure is arranged between the bead positioning rod and the fan-shaped groove. After the bead body locating rod breaks away from the locating hole, the rotation of the bead body locating rod can be realized through the fan-shaped groove, the bead body locating rod is prevented from being embedded with the locating hole again, the first bead body is convenient to detach, and the detaching efficiency is improved.

In the above-mentioned embedded bead floor, the swing adjustment structure including setting up the adjustment tank in fan-shaped groove below, pearl body locating lever bottom side extend there is the reference column, the reference column be located the adjustment tank, just pearl body locating lever can be through reference column along adjustment tank axial displacement. The adjusting groove and the positioning column can realize the positioning of the bead positioning rod in the rod body channel, so that the position of the bead positioning rod is stably ensured.

In the bead embedded floor, an elastic retaining structure is further arranged between the positioning column and the adjusting groove.

In the bead embedded floor, the elastic retaining structure comprises an elastic rod, two ends of the elastic rod are respectively connected with the positioning column and the adjusting groove, and the elastic rod is arranged at one end, far away from the first bead body, of the positioning column. When locating hole and pearl body locating lever inlay mutually and establish, the elastic rod can let pearl body locating lever have the trend to the locating hole motion, improves the structural stability when both inlay.

In the bead embedded floor, a limiting groove is further formed below the adjusting groove, and a limiting rod located in the limiting groove is arranged below the positioning column. The limiting rod and the limiting groove can realize the limiting of the positioning column, and the bead positioning rod is prevented from shifting when the fan-shaped groove rotates.

In the bead embedded floor, an abutting plate is arranged on one side, far away from the first bead body, of the vertical groove, the abutting plate is made of flexible materials, and an arc-shaped portion is arranged on one side, facing the bead body positioning rod, of the abutting plate. The arc-shaped part enables the bead body positioning rod to rotate more smoothly after being displaced backwards.

In the bead embedded floor, the middle layer comprises a buffer layer and a bearing layer, the bearing layer is positioned between the surface layer and the buffer layer, and a reinforcing plate with a wavy section is arranged in the buffer layer. The reinforcing plate can improve the structural stability between the surface layer and the bottom layer, and prevents the phenomenon that the bead body positioning rod cannot rotate due to deformation of the sector groove after long-time treading.

In the bead embedded floor, the width of the adjusting groove is larger than that of the limiting groove.

Compared with the prior art, the embedded bead floor has the advantages that: the structure is simple, the first beads are detachably connected with the bead embedding holes through the bead positioning rods and the bead positioning structures, the structure is reliable, the beads can be detached, and the replacement of the beads is convenient.

Drawings

FIG. 1 is a schematic view of the structure provided by the present invention;

FIG. 2 is a schematic view of another view of the structure provided by the present invention;

FIG. 3 is an enlarged view at A provided by the present invention;

in the figure, a floor body 1, a surface layer 2, a middle layer 3, a bottom layer 4, a bead embedding hole 1a, a first bead body 2a, a bead body positioning rod 3a, a bead body positioning structure 4a, a second bead body 5a, a positioning hole 6a, a positioning end 7a, a rod body channel 8a, a fan-shaped groove 9a, a vertical groove 10a, a swing adjusting structure 11a, an adjusting groove 12a, a positioning column 13a, an elastic rod 14a, a limit groove 15a, a limit rod 16a, an abutting plate 17a, an arc-shaped part 18a, a buffer layer 19a, a bearing layer 20a and a reinforcing plate 21a.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description.

As shown in fig. 1-3, the bead embedded floor comprises a floor body 1, wherein the floor body 1 comprises a surface layer 2, a middle layer 3 and a bottom layer 4, a bead embedded hole 1a is formed in the middle of the surface layer 2, a first bead 2a is arranged in the bead embedded hole 1a, the first bead 2a is embedded in the bead embedded hole 1a and is detachably connected with the bead embedded hole 1a, an L-shaped bead positioning rod 3a is arranged on the side part of the bead embedded hole 1a, a bead positioning structure 4a is arranged between one end of the bead positioning rod 3a and the bottom side of the first bead 2a, and a second bead 5a is connected with the end part of the other end of the bead positioning rod 3 a. The first beads 2a are positioned in the bead embedding holes 1a through the bead positioning rods 3a, so that the bead embedding device is reliable in structure and detachable, beads with different colors and shapes can be replaced as required, the application range is wider, the second beads 5a are directly arranged on the bead positioning rods 3a, the mounting steps of the second beads 5a are reduced, and the assembly efficiency is improved.

The bead positioning structure 4a comprises a positioning hole 6a at the bottom side of the first bead 2a, one end of the bead positioning rod 3a, facing the first bead 2a, is provided with a positioning end 7a corresponding to the positioning hole 6a, the bead positioning rod 3a is arranged in a rod body channel 8a at the side part of the first bead 2a, and the bead positioning rod 3a can axially move along the rod body channel 8 a. The positioning of the first beads 2a in the bead embedding holes 1a can be effectively ensured through the positioning holes 6a and the bead positioning rods 3a, the structure is reliable, and when the first beads 2a are required to be taken out, the end parts of the bead positioning rods 3a can be separated from the positioning holes 6a only by transversely moving the bead positioning rods 3a along the rod body channels 8 a.

Preferably, the rod body channel 8a comprises a fan-shaped groove 9a and a vertical groove 10a, one end of the bead body positioning rod 3a, facing the first bead body 2a, is positioned in the fan-shaped groove 9a, the other end of the bead body positioning rod 3a is arranged in the vertical groove 10a, a swing adjusting structure 11a is arranged between the bead body positioning rod 3a and the fan-shaped groove 9a, after the bead body positioning rod 3a is separated from the positioning hole 6a, the rotation of the bead body positioning rod 3a can be realized through the fan-shaped groove 9a, the bead body positioning rod 3a is prevented from being embedded with the positioning hole 6a again, the first bead body 2a is convenient to detach, and the detaching efficiency is improved.

The swing adjusting structure 11a comprises an adjusting groove 12a arranged below the fan-shaped groove 9a, a positioning column 13a extends from the bottom side of the bead positioning rod 3a, the positioning column 13a is positioned in the adjusting groove 12a, and the bead positioning rod 3a can axially move along the adjusting groove 12a through the positioning column 13 a. The adjusting groove 12a and the positioning column 13a can realize the positioning of the bead positioning rod 3a in the rod body channel 8a, so that the position of the bead positioning rod 3a is stably ensured.

Further, an elastic retaining structure is further arranged between the positioning column 13a and the adjusting groove 12a, the elastic retaining structure comprises an elastic rod 14a, two ends of the elastic rod 14a are respectively connected to the positioning column 13a and the adjusting groove 12a, the elastic rod 14a is arranged at one end, far away from the first bead body 2a, of the positioning column 13a, when the positioning hole 6a and the bead body positioning rod 3a are embedded, the elastic rod 14a can enable the bead body positioning rod 3a to have a trend of moving towards the positioning hole 6a, and structural stability of the bead body positioning rod 3a is improved when the bead body positioning rod is embedded.

The regulating groove 12a is also provided with a limiting groove 15a below, the limiting rod 16a positioned in the limiting groove 15a is arranged below the positioning column 13a, and the limiting rod 16a and the limiting groove 15a can realize the limiting of the positioning column 13a and prevent the bead positioning rod 3a from shifting when the fan-shaped groove 9a rotates. The side of the vertical groove 10a far away from the first bead body 2a is provided with an abutting plate 17a, the abutting plate 17a is made of flexible materials, and one side of the abutting plate 17a facing the bead body positioning rod 3a is provided with an arc-shaped part 18a, and the arc-shaped part 18a enables the bead body positioning rod 3a to rotate smoothly after being displaced backwards.

Further, the intermediate layer 3 includes a buffer layer 19a and a receiving layer 20a, the receiving layer 20a is located between the surface layer 2 and the buffer layer 19a, and a reinforcing plate 21a with a wavy cross section is disposed in the buffer layer 19 a. The reinforcing plate 21a can improve the structural stability between the surface layer 2 and the bottom layer 4, prevent the fan-shaped groove 9a from deforming after long-time treading and prevent the bead positioning rod 3a from rotating, and the width of the adjusting groove 12a is larger than that of the limiting groove 15 a.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the invention. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although terms such as the floor body 1, the surface layer 2, the intermediate layer 3, the bottom layer 4, the bead inserting holes 1a, the first beads 2a, the bead positioning rods 3a, the bead positioning structures 4a, the second beads 5a, the positioning holes 6a, the positioning ends 7a, the rod body passages 8a, the fan-shaped grooves 9a, the vertical grooves 10a, the swing adjusting structures 11a, the adjusting grooves 12a, the positioning posts 13a, the elastic rods 14a, the limiting grooves 15a, the limiting rods 16a, the abutting plates 17a, the arc-shaped portions 18a, the buffer layer 19a, the receiving layer 20a, the reinforcing plates 21a are used more herein, the possibility of using other terms is not excluded. These terms are used merely for convenience in describing and explaining the nature of the invention; they are to be interpreted as any additional limitation that is not inconsistent with the spirit of the present invention.

Claims (5)

1. The utility model provides a caulking floor, includes floor body (1), its characterized in that, floor body (1) include top layer (2), intermediate level (3), bottom (4), top layer (2) open at the middle part has caulking hole (1 a), caulking hole (1 a) in be equipped with first pearl body (2 a), first pearl body (2 a) inlay and establish in caulking hole (1 a) and this first pearl body (2 a) are connected with caulking hole (1 a) can be dismantled, caulking hole (1 a) lateral part be equipped with and be L type pearl body locating lever (3 a), pearl body locating lever (3 a) one end and first pearl body (2 a) bottom between be equipped with pearl body location structure (4 a), the tip of the other end of pearl body locating lever (3 a) link to have second pearl body (5 a).

The bead body positioning structure (4 a) comprises a positioning hole (6 a) at the bottom side of a first bead body (2 a), one end of a bead body positioning rod (3 a) facing the first bead body (2 a) is provided with a positioning end (7 a) corresponding to the positioning hole (6 a), the bead body positioning rod (3 a) is arranged in a rod body channel (8 a) at the side part of the first bead body (2 a), and the bead body positioning rod (3 a) can axially move along the rod body channel (8 a);

the rod body channel (8 a) comprises a fan-shaped groove (9 a) and a vertical groove (10 a), one end of the bead body positioning rod (3 a) facing the first bead body (2 a) is positioned in the fan-shaped groove (9 a), the other end of the bead body positioning rod (3 a) is arranged in the vertical groove (10 a), and a swing adjusting structure (11 a) is arranged between the bead body positioning rod (3 a) and the fan-shaped groove (9 a);

the swing adjusting structure (11 a) comprises an adjusting groove (12 a) arranged below the fan-shaped groove (9 a), a positioning column (13 a) extends from the bottom side of the bead body positioning rod (3 a), the positioning column (13 a) is positioned in the adjusting groove (12 a), and the bead body positioning rod (3 a) can axially move along the adjusting groove (12 a) through the positioning column (13 a);

an elastic retaining structure is arranged between the positioning column (13 a) and the adjusting groove (12 a);

the middle layer (3) comprises a buffer layer (19 a) and a bearing layer (20 a), the bearing layer (20 a) is positioned between the surface layer (2) and the buffer layer (19 a), and a reinforcing plate (21 a) with a wavy section is arranged in the buffer layer (19 a).

2. The bead-embedded floor according to claim 1, wherein the elastic retaining structure comprises an elastic rod (14 a), two ends of the elastic rod (14 a) are respectively connected with the positioning column (13 a) and the adjusting groove (12 a), and the elastic rod (14 a) is arranged at one end of the positioning column (13 a) far away from the first bead body (2 a).

3. The bead-embedded floor according to claim 2, wherein a limit groove (15 a) is further arranged below the adjusting groove (12 a), and a limit rod (16 a) arranged in the limit groove (15 a) is arranged below the positioning column (13 a).

4. The beaded floor according to claim 1, characterized in that the side of the vertical groove (10 a) facing away from the first bead (2 a) is provided with an abutment plate (17 a), said abutment plate (17 a) being made of a flexible material, and that the side of the abutment plate (17 a) facing towards the bead positioning rod (3 a) is provided with an arc-shaped portion (18 a).

5. The bead-embedded floor according to claim 2, wherein the width of the adjusting groove (12 a) is larger than the width of the limit groove (15 a).