CN210659092U - Floor splicing structure - Google Patents

Abstract

The utility model discloses a floor mosaic structure, including a welt and a panel group, the welt orientation the one side of panel group sets up a plurality of end connecting piece groups, the panel group orientation the one side of welt sets up a plurality of top connecting piece groups, top connecting piece group with end connecting piece group is along the perpendicular to the direction of welt aligns, top connecting piece group with the pluggable connection of end connecting piece group, panel group comprises a plurality of panel coplane concatenation. The floor splicing structure can realize quick laying through the matching of the connecting piece and the panel group, and the floor mounting efficiency is high; the connection between the panels is tight, and the panel group and the connection between the lining plates are tight, not easy to slip and good in connection stability.

Description

Floor splicing structure

Technical Field

The utility model relates to a building board technical field, more accurate saying so relates to a floor mosaic structure.

Background

The wood floor has the advantages of high strength, good heat and sound insulation performance and the like, and is widely used for interior decoration. The common splicing modes of various wood floors in the market at present are mainly divided into a tongue-and-groove mode and a lock catch mode, and the tongue and the groove are directly connected between the wood floors. The common solid wood composite floor base material is mainly formed by gluing a plurality of layers of solid wood rotary leather veneers in different directions together, when a hook is hooked at the corresponding end of a tongue-shaped groove of a mortise structure of a lock catch floor, the glued veneer at the position of the hook is easily peeled off and falls off, when the floor is spliced and buckled with the floor, the plurality of layers of solid wood rotary leather glued veneers in different directions are more easily peeled off and fall off under the positioning pushing acting force between the floor and the floor, the effect requirements of lock catch floor mortise combination positioning and no gap between the floor and the floor can not be met, and therefore, the popularization rate in the market is lower at present. The solid wood three-layer composite floor on the market at present, most are mainly with tenon, tongue-and-groove structure on hasp floor, and the constitution mode of gluing because of solid wood three-layer composite floor is: three solid wood materials with different thicknesses are bonded together, the middle of the three solid wood materials is spliced into a long strip-shaped solid wood base material plate by thick short wood strips, the long strip-shaped solid wood base material plate is reversely bonded with the upper panel and the rotary veneer at the lowest layer, the forming processing of the hanging hooks at the corresponding ends of the tongue-shaped grooves of the mortise structure of the lock catch floor is completed on the long strip-shaped base material plate spliced by the thick short wood strips, the cosmetic surfaces of the rotary veneer single plate balance layers in different longitude and latitude directions are arranged at the lowest layer of the floor, the bonding area is large, the thick solid wood base material plate in the middle is effectively ensured not to fall off after the mortise processing, when the solid wood three-layer composite lock catch floor is installed and spliced, the positioning pushing acting force formed between the floor and the floor is not enabled to peel off the bonding part of the thick solid wood base material and the rotary veneer single material plate material in the middle, and the. But cause carpenter four sides cesium to do the tenon and the recess processing of floor to the rectangular bilateral of thick solid wood substrate board because of the material contrary line fibre, can not be with normal faster special-shaped tongue-and-groove shaping processing, cutter planing milling processing can cause the performance of middle substrate board cross section comparatively crude, the tongue-and-groove machined surface is crude, just there is difficult assembly and face unevenness or floor and floor concatenation contact surface have local crack during installation concatenation hasp floor, cause the floor defect that can collide with the sound when using easily. The design of the tenon of the tongue-and-groove floor and the design of the special-shaped joggle tenon and mortise hook structure of the lock catch floor are both made of raised line materials which protrude out of the floor surface, and a lot of material resource waste is caused.

In summary, there is a need in the art for a simple and efficient floor splicing structure that can be fastened and laid while being easily disassembled and replaced.

SUMMERY OF THE UTILITY MODEL

In view of this, the main object of the present invention is to provide a floor splicing structure, including a lining board and a panel assembly, the lining board is faced the one side of panel assembly sets up a plurality of bottom connecting pieces, the panel assembly is faced the one side of lining board sets up a plurality of top connecting pieces, top connecting pieces with bottom connecting pieces align along the direction perpendicular to the lining board, top connecting pieces with the pluggable connection of bottom connecting pieces, panel assembly is by a plurality of panel coplane concatenation constitution.

In order to achieve the above object, the utility model provides a floor mosaic structure, including a welt and a panel group, the welt orientation the one side of panel group sets up a plurality of end connection piece groups, the panel group orientation the one side of welt sets up a plurality of top connection piece groups, top connection piece group with end connection piece group is along the perpendicular to the direction of welt aligns, top connection piece group with the pluggable connection of end connection piece group, panel group includes a plurality of panel, the coplane concatenation of panel is constituteed panel group.

Preferably, the welt orientation the one side of panel group is the welt and is connected the face, panel group orientation the one side of welt is panel group and connects the face, panel group with when the welt is connected, panel group connect the face with the contact is connected to the welt.

Preferably, the lining plate connecting surface is provided with a plurality of bottom connecting piece groups, the panel group connecting surface is provided with a plurality of top connecting piece groups, and the top connecting piece groups are matched with the bottom connecting piece groups in a male-female mode.

Preferably, the bottom connector group comprises two bottom connectors, the top connector group comprises two top connectors, and the bottom connectors and the top connectors in the corresponding bottom connector group and the top connector group are respectively aligned and are matched in a male-female manner.

Preferably, the bottom connecting piece is a cross-shaped recess, and the top connecting piece is a cross-shaped protrusion.

Preferably, the bottom connector is a triangular recess and the top connector is a triangular protrusion.

Preferably, the bottom connector is a female buckle structure, and the top connector is a male buckle structure.

Preferably, the opposite both ends of panel have a panel sand grip and a panel recess respectively, every two the panel all passes through the panel sand grip with panel recess card and connection.

Compared with the prior art, the utility model discloses a floor mosaic structure's advantage lies in: the floor splicing structure can realize quick laying through the matching of the connecting piece and the panel group, and the floor mounting efficiency is high; the panels are tightly connected, and the panel group and the lining plate are tightly connected, so that the panel group is not easy to slip off and has good connection stability; the panel can be conveniently disassembled, so that later maintenance and replacement are facilitated; the floor splicing structure is simple, convenient to process and produce and low in production cost.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of a first preferred embodiment of the floor splicing structure of the present invention.

Fig. 2 is a schematic structural view of a panel assembly according to a first preferred embodiment of the floor splicing structure of the present invention.

Fig. 3 is a schematic structural view of a second preferred embodiment of the floor splicing structure of the present invention.

Fig. 4 is a schematic structural view of a panel assembly according to a second preferred embodiment of the floor splicing structure of the present invention.

Fig. 5 is a schematic structural view of a third preferred embodiment of the floor splicing structure of the present invention.

Fig. 6 is a schematic structural view of a panel assembly according to a third preferred embodiment of the floor splicing structure of the present invention.

Detailed Description

Referring to fig. 1 and 2, a first preferred embodiment of a floor splicing structure according to the present invention includes a lining panel 10 and a panel group 20, wherein the panel group 20 and the lining panel 10 are stacked and combined. Specifically, the lining plate 10 is laid on the ground surface, and the panel group 20 is detachably laid on the surface of the lining plate 10 far away from the ground surface.

The welt 10 orientation the one side of panel group 20 is the welt and is connected face 101, panel group 20 orientation the one side of welt 10 is panel group and is connected face 201, panel group 20 with when welt 10 is connected, panel group connect face 201 with the contact of welt connection face 101.

The lining plate connecting surface 101 is provided with a plurality of bottom connecting piece groups 11, the panel group connecting surface 201 is provided with a plurality of top connecting piece groups 22, the top connecting piece groups 22 are respectively aligned with the bottom connecting piece groups 11 along the direction perpendicular to the lining plate 10, and the top connecting piece groups 22 are matched with the bottom connecting piece groups 11 in a male-female mode and are connected in a pluggable mode. Specifically, the bottom connector group 11 includes two bottom connectors 111, the top connector group 22 includes two top connectors 221, and the bottom connectors 11 and the top connectors 221 in the corresponding bottom connector group 11 and the top connector group 22 are aligned respectively, and are matched with each other in a male-female manner, and are connected in a pluggable manner. In this embodiment, the bottom connection member 111 is a cross-shaped recess, and the top connection member 221 is a cross-shaped protrusion.

The panel group 20 comprises a plurality of panels 21, and the panels 21 are arranged and connected in parallel and coplanar to form the panel group 20. Specifically, the opposite both ends of panel 21 have a panel sand grip 211 and a panel recess 212 respectively, per two panel 21 all passes through panel sand grip 211 with panel recess 212 card and connection, all panel 21 tiling is arranged the lining board 10 surface is arranged in proper order, forms panel group 20.

Furthermore, one side of each panel 21 facing the lining board 10 has a plurality of top connector sets 22 arranged in parallel, and two top connectors 221 in each top connector set 22 are respectively located at one end close to the panel convex strip 211 and one end close to the panel groove 212.

When the panel group 20 is mounted on the lining board 10, the panels 21 are sequentially mounted on the lining board through the top connecting piece group 22 and the bottom connecting piece group 11, the adjacent panels 21 are mounted on the lining board 10 through the panel convex strips 211 and the panel grooves 212, the panels 21 are pressed, the panels 21 are sequentially mounted through the fixation of the top connecting piece group 22 and the bottom connecting piece group 11, and the panel group 20 is formed by combining the surfaces of the lining board 10.

Referring to fig. 3 and 4, a second preferred embodiment of the floor splicing structure of the present invention is shown, which is different from the first preferred embodiment in that the bottom connecting member 14A is a triangular recess, the top connecting member 24A is a triangular protrusion, and the bottom connecting member 14A and the top connecting member 24A are both directed along the panel groove 212 toward the panel protrusion 211. The bottom connecting piece 14A and the top connecting piece 24A adopt a triangular structure, so that the panel group 20 and the lining plate 10 can be effectively prevented from sliding and shifting after being connected, and the triangular structure can play a role in pointing, so that an installer can conveniently install the panel 21 on the lining plate 10.

Referring to fig. 5 and 6, a second preferred embodiment of a floor splicing structure according to the present invention is shown, and the present embodiment is different from the first preferred embodiment in that the bottom connector 14B is a female snap structure, the top connector 24B is a male snap structure, and the top connector 24B can be snap-connected with the bottom connector 14B, so that the connection is more secure, and thus, the panel group 20 is further ensured not to be slidably displaced after being connected with the lining panel 10.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. The utility model provides a floor mosaic structure, its characterized in that includes a welt and a panel group, the welt orientation one side of panel group sets up a plurality of end connecting piece groups, the panel group orientation one side of welt sets up a plurality of top connecting piece groups, top connecting piece group with end connecting piece group is along the perpendicular to the direction of welt aligns, top connecting piece group with end connecting piece group pluggable is connected, the panel group includes a plurality of panel, the coplane concatenation of panel is constituteed panel group.

2. The floor splicing structure of claim 1 wherein the side of the liner facing the panel assembly is a liner attachment side, and the side of the panel assembly facing the liner is a panel assembly attachment side, and wherein the panel assembly attachment side contacts the liner attachment side when the panel assembly is attached to the liner.

3. The floor splicing structure of claim 2 wherein said liner panel joint face has a plurality of said bottom joint members, said panel group joint face has a plurality of said top joint members, and said top joint members are male-female engaged with said bottom joint members.

4. The floor splicing structure of claim 1, wherein the bottom connector set comprises two bottom connectors and the top connector set comprises two top connectors, and wherein the bottom connectors and the top connectors of the corresponding bottom connector set and the top connector set are respectively aligned and mated male and female.

5. The floor splicing structure of claim 4, wherein the bottom connecting member is a cross-shaped recess, and the top connecting member is a cross-shaped protrusion.

6. The floor splicing structure of claim 4, wherein the bottom connecting member is a triangular recess and the top connecting member is a triangular projection.

7. The floor splicing structure of claim 4, wherein the bottom connector is a female snap structure and the top connector is a male snap structure.

8. The floor splicing structure of claim 1, wherein opposite ends of said panels have a panel rib and a panel groove, respectively, and wherein each of said panels is snapped and connected by said panel rib and said panel groove.

Images