CN113417431A - Floor splicing and fixing structure and mounting method thereof - Google Patents

Abstract

The invention provides a floor splicing and fixing structure and an installation method thereof, wherein the floor splicing and fixing structure comprises floors and connecting pieces, the floors are rectangular, a plurality of floors are arranged in a matrix manner, the connecting pieces are arranged at right angles of the floors, and adjacent floors are spliced with each other through the connecting pieces; the connecting piece includes the base plate of level setting, the base plate has two crossing right-angle sides, is connected with two locating plates of vertical setting on the base plate, two locating plates are connected in the end on two right-angle sides perpendicularly respectively. The invention ingeniously designs the structures of the connecting pieces and the floor, so that the floor and the connecting pieces can be quickly installed in a vertical splicing mode; the male connecting piece and the female connecting piece can be quickly spliced through the splicing plates and the splicing grooves; the whole installation process is convenient and fast, and the installation efficiency is greatly improved.

Description

Floor splicing and fixing structure and mounting method thereof

Technical Field

The invention relates to the field of architectural decoration, in particular to a floor splicing and fixing structure and an installation method thereof.

Background

With the continuous improvement of living standard of people, the floor becomes an indispensable component in the indoor decoration of thousands of households.

When the floor in the prior art is fixedly connected with the ground, some floor is fixed by expansion screws, some floor is fixed by viscose, and some floor is fixed by lock catches; however, the above various fixing and mounting methods have the disadvantages of complex structure and complicated mounting process, and need to be further improved.

Disclosure of Invention

The invention aims to provide a floor fixing structure and an installation method thereof, aiming at the defects in the prior art, and the floor fixing structure is simple in structure and convenient and quick to install.

In order to achieve the purpose, the invention adopts the following technical scheme:

a floor splicing and fixing structure comprises floors and connecting pieces, wherein the floors are rectangular, a plurality of floors are arranged in a matrix manner, the connecting pieces are arranged at right angles of the floors, and adjacent floors are spliced with each other through the connecting pieces;

the connecting piece comprises a horizontally arranged base plate, the base plate is provided with two crossed right-angle sides, two vertically arranged positioning plates are connected to the base plate, and the two positioning plates are respectively and vertically connected to the tail ends of the two right-angle sides;

the bottom surface of the side edge near each right angle of the floor is provided with two positioning grooves, and the positions of the two positioning grooves respectively correspond to the two positioning plates; the positioning plate of the connecting piece is inserted into the positioning groove on the bottom surface of the floor along the vertical direction, so that the connecting piece and the floor are mutually fixed in the horizontal direction;

the connecting piece comprises a male connecting piece and a female connecting piece; in two adjacent floors along the Y-axis direction, the male connecting piece and the female connecting piece are respectively arranged at the right angle of the two adjacent floors and are spliced with each other;

in the base plate of the male connector, the side surface of the right-angle side perpendicular to the Y axis is provided with a splice plate horizontally protruding along the Y axis; in a base plate of the female connecting piece, a splicing groove which is horizontally sunken along the Y axis is arranged on the side surface of a right-angle side which is vertical to the Y axis; the splicing grooves are matched with the splicing plates in shape, and the splicing plates of the male connecting piece are inserted into the splicing grooves of the adjacent female connecting pieces along the Y-axis direction to realize splicing.

Furthermore, a horizontally convex cover brim is arranged above the tail end of the splicing plate of the male connecting piece, and a horizontally convex step is arranged below the inner wall of the splicing groove of the female connecting piece; the cover eaves are matched with the steps in shape, so that when the splicing plates of the male connecting piece are inserted into the splicing grooves of the adjacent female connecting pieces, the cover eaves at the tail ends of the splicing plates press the steps on the inner walls of the splicing grooves downwards.

Furthermore, a fixing screw hole is formed in the splicing plate of the male connecting piece, and the male connecting piece penetrates through the screw hole in the splicing plate through a screw to be fixedly connected to the ground.

Further, still include the welt, the welt sets up in the floor below, and the thickness of welt matches with the thickness of the base plate of connecting piece.

Furthermore, two vertically arranged limiting side plates are connected to the base plate of the connecting piece, and the two limiting side plates are respectively arranged along the edges of the two right-angle sides; the limiting side plate limits the floor from the side surface of the floor, so that the connecting piece and the floor are fixed in the horizontal direction;

the limiting side plates at the adjacent right-angle sides of the male connecting piece and the female connecting piece are arranged in a staggered mode, so that after the male connecting piece and the female connecting piece are mutually spliced, the two limiting side plates at the right-angle sides are spliced on the same straight line, and a gap between adjacent floors is formed.

Further, the male connecting piece comprises a first male connecting piece and a second male connecting piece, and the first male connecting piece and the second male connecting piece are respectively arranged at adjacent right angles of the two floors and are spliced with each other in the two floors adjacent to each other along the X-axis direction;

the spacing curb plate dislocation set of adjacent right-angle side department of first public connecting piece and second public connecting piece mutually for after first public connecting piece and the public connecting piece amalgamation of second, two spacing curb plates amalgamation of right-angle side department are on same straight line, form the gap between the adjacent floor.

Furthermore, the female connecting piece comprises a first female connecting piece and a second female connecting piece, and the first female connecting piece and the second female connecting piece are respectively arranged at adjacent right angles of the two floors and are mutually spliced in the two floors which are adjacent along the X-axis direction;

spacing curb plate dislocation set mutually of first female connecting piece and the adjacent right angle limit department of the female connecting piece of second for after first female connecting piece and the female connecting piece amalgamation of second each other, two spacing curb plates amalgamation on same straight line of right angle limit department form the gap between the adjacent floor.

Furthermore, the openings of the positioning grooves on the floor face the bottom surface and the side surface of the floor, and the distances from the positioning grooves to the right angle of the floor are equal;

the top surface of the positioning plate on the connecting piece is an inclined surface, wherein one end of the positioning plate, which faces the outer side of the base plate, is higher than one end of the positioning plate, which faces the middle of the base plate.

The installation method of the floor splicing and fixing structure comprises the following steps:

s1, selecting one of two adjacent floors along the Y axis, installing a male connector at a right angle of the floor, and then placing the floor on the ground;

s2, fixedly connecting the splice plates of the male connector to the ground through screws;

s3, placing the other floor above the female connector and installing and fixing the other floor on one side of the splice plate of the male connector;

and S4, moving the female connector in the S3 along the Y axis to be attached to the male connector, and inserting the splicing plates of the male connector into the splicing grooves of the female connector.

The installation method of the floor splicing and fixing structure comprises the following steps:

s1, selecting one of the four adjacent floor boards, installing a first male connecting piece at the right angle of the floor board, and then placing the floor board on the ground; the splice plate of the first male connecting piece is fixedly connected to the ground through a screw;

s2, placing a second floor above the first female connector on one side of the splice plate of the first male connector, and installing and fixing the second floor;

s3, arranging the splicing grooves of the first female connector and the splicing plates of the first male connector oppositely, moving the first female connector to be attached to the first male connector, and inserting the splicing plates of the first male connector into the splicing grooves of the first female connector;

s4, mounting a second male connecting piece at the right angle of a third floor, and then placing the second male connecting piece at one side of the other right-angle side of the first male connecting piece; the second male connecting piece is attached and spliced with the first male connecting piece; the splice plate of the second male connecting piece is fixedly connected to the ground through a screw;

s5, placing a fourth floor above the second female connector on one side of the splice plate of the second male connector, and installing and fixing the fourth floor;

s6, arranging the splicing grooves of the second female connector and the splicing plates of the second male connector oppositely, moving the second female connector to be attached to the second male connector, and inserting the splicing plates of the second male connector into the splicing grooves of the second female connector; and the other right-angle side of the second female connecting piece is spliced with the first female connecting piece in an attaching manner.

The invention ingeniously designs the structures of the connecting pieces and the floor, so that the floor and the connecting pieces can be quickly installed in a vertical splicing mode; the male connecting piece and the female connecting piece can be quickly spliced through the splicing plates and the splicing grooves; in the whole floor laying process, excessive tools are not needed. The whole installation process is convenient and fast, and the installation efficiency is greatly improved. Meanwhile, each part in the floor mounting structure is simple in structure, and the overall cost of the floor mounting structure is greatly reduced. The invention adopts a construction mode of dry quick splicing, avoids wet operation, has the advantages of cleanness and environmental protection, does not cause secondary pollution to the site, and reduces the generation of waste materials.

Drawings

Fig. 1 is a schematic view of a floor splicing and fixing structure according to an embodiment of the present invention.

Fig. 2 is an enlarged view of a portion a in fig. 1.

Fig. 3 is a schematic structural view of the first male connecting member and the second male connecting member in the first embodiment of the present invention.

Fig. 4 is a schematic structural view of the first female connector and the second female connector in the first embodiment of the present invention.

Fig. 5 is a flow chart of the splicing of the first male connection member and the first female connection member in the second embodiment of the present invention.

Fig. 6 is a flow chart of splicing between the connecting members according to the second embodiment of the present invention.

Fig. 7 is a schematic structural view of the first male connecting member, the second male connecting member, the first female connecting member, and the second female connecting member in the fourth embodiment of the present invention.

Detailed Description

The technical solution of the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Example one

As shown in fig. 1, an embodiment of the present invention provides a floor splicing and fixing structure, which includes a floor 1 and connecting members 2, wherein the floor 1 is rectangular, a plurality of floors 1 are arranged in a matrix, the connecting members 2 are installed at right angles of the floors 1, and adjacent floors 1 are spliced with each other through the connecting members 2.

Specifically, as shown in fig. 2, the connecting member includes a base plate 40 horizontally disposed, the base plate 40 has two right-angle sides, two limit side plates 41 and two positioning plates 42 vertically disposed are connected to the base plate 40, the two limit side plates 41 are respectively disposed along the edges of the two right-angle sides, and the two positioning plates 42 are respectively vertically connected to the ends of the two right-angle sides (i.e., the other end far away from the intersection point of the right angles).

Two positioning grooves 10 are arranged on the bottom surface of the floor 1 near each right angle, and the positions of the two positioning grooves 10 respectively correspond to the two positioning plates 42; the positioning plate 42 of the connecting element 2 is inserted into the positioning groove 10 on the bottom surface of the floor 1 along the vertical direction, and the limiting side plate 41 of the connecting element 2 limits the position from the side surface of the floor 1, so that the connecting element 2 and the floor 1 are fixed with each other in the horizontal direction.

As shown in fig. 3 to 6, the connector 2 includes a male connector and a female connector; wherein the male connecting element comprises a first male connecting element 21 and a second male connecting element 22 with similar structures, and the female connecting element comprises a first female connecting element 23 and a second female connecting element 24 with similar structures. The structure and function of the male and female connectors will be described below by taking the first male and female connectors 21 and 23, respectively, as an example.

Specifically, as shown in fig. 1, in two adjacent floor boards 1 in the Y-axis direction, the male connecting member and the female connecting member are respectively installed at right angles of the two adjacent floor boards and are spliced with each other.

As shown in fig. 3, in the base plate 40 of the male connector, the sides of the cathetuses perpendicular to the Y-axis have a splice plate 43 projecting horizontally along the Y-axis. As shown in fig. 4, in the base plate 40 of the female connector, the side of the cathetus perpendicular to the Y-axis has a splicing groove 44 horizontally recessed along the Y-axis; the shapes of the splicing grooves 44 and the splicing plates 43 are matched with each other, and the splicing plates 43 of the male connector are inserted into the splicing grooves 44 of the adjacent female connectors along the Y-axis direction to realize splicing.

Further, a horizontally protruding cover brim 430 is arranged above the tail end of the splicing plate 43 of the male connector, and a horizontally protruding step 440 is arranged below the inner wall of the splicing groove 44 of the female connector; the cover eaves 430 and the steps 440 are matched in shape, so that when the splicing plates 43 of the male connector are inserted into the splicing grooves 44 of the adjacent female connector, the cover eaves 430 at the tail ends of the splicing plates 43 press the steps 440 on the inner walls of the splicing grooves 44 downwards.

Furthermore, a fixing screw hole 45 is formed in a splicing plate 43 of the male connector, and the male connector is fixedly connected to the ground through a screw passing through the screw hole 45 in the splicing plate 43.

As an improvement, the floor splicing and fixing structure of the embodiment of the invention further comprises a lining plate 3, wherein the lining plate 3 is arranged below the floor 1, and the thickness of the lining plate 3 is matched with that of the base plate 40 of the connecting piece 2. The lining plate 3 can be made of flexible films, and can play a good role in buffering and shock absorption.

Furthermore, the spacing curb plate 41 of the adjacent right-angle side department of public connecting piece and female connecting piece dislocation set each other for after public connecting piece and female connecting piece amalgamation each other, two spacing curb plates 41 amalgamation on same straight line of right-angle side department form the gap between the adjacent floor 1.

As shown in fig. 3, the first male connecting member 21 and the second male connecting member 22 have substantially the same structure and substantially symmetrical structures with each other, and in two floor panels 1 adjacent to each other in the X-axis direction, the first male connecting member 21 and the second male connecting member 22 are respectively installed at adjacent right angles of the two floor panels 1 and are spliced with each other. Spacing curb plate 41 of the adjacent right-angle side department of first public connecting piece 21 and second public connecting piece 22 dislocation set mutually for after first public connecting piece 21 and second public connecting piece 22 amalgamate mutually, two spacing curb plates 41 amalgamation of right-angle side department are on same straight line, form the gap between the adjacent floor 1.

As shown in fig. 4, the first female connecting member 23 and the second female connecting member 24 have substantially the same structure and substantially symmetrical structures with each other, and in two floor panels 1 adjacent to each other in the X-axis direction, the first female connecting member 23 and the second female connecting member 24 are respectively installed at adjacent right angles of the two floor panels 1 and are spliced with each other. Spacing curb plate 41 of the adjacent right-angle side department of first female connecting piece 23 and second female connecting piece 24 dislocation set mutually for after first female connecting piece 23 and second female connecting piece 24 amalgamate mutually, two spacing curb plates 41 amalgamation of right-angle side department are on same straight line, form the gap between the adjacent floor 1.

Specifically, in the present embodiment, the two position-limiting side plates 41 of the first male connecting member 21 are both disposed at one end of the right-angled edge away from the right angle; the limit side plate 41 on the right-angle side where the splice plate 43 is not arranged in the second male connector 22 is arranged at one end close to the right angle; the second male connector 22 is provided with a limiting side plate 41 on the right-angle side of the splice plate 43, and the limiting side plate is arranged at one end far away from the right angle. The two limiting side plates 41 of the first female connecting piece 23 are arranged at one end of the right-angle edge close to the right angle; the limiting side plate 41 on the right-angle side without the splicing groove 44 in the second female connecting piece 24 is arranged at one end far away from the right angle; the second female connecting piece 24 is provided with a limit side plate 41 on the right-angle side of the splicing groove 44, and the limit side plate is arranged at one end close to the right angle. Through the above structure of the limiting side plates 41, when the first male connecting piece 21, the second male connecting piece 22, the first female connecting piece 23 and the second female connecting piece 24 are mutually spliced, the limiting side plates 41 are mutually spliced in a staggered manner without being obstructed, so that gaps between the floors 1 are formed.

As a modification, in conjunction with fig. 2, the positioning grooves 10 on the floor 1 open to the bottom and side surfaces of the floor 1, and the distances from the respective positioning grooves 10 to the corners of the floor 1 are equal. The top surface of the positioning plate 42 on the connecting member 2 is an inclined surface, wherein one end of the positioning plate 42 facing the outer side of the base plate 40 is higher than one end of the positioning plate 42 facing the middle of the base plate 40. Based on this structural setting, the coupling between the floor panel 1 and the coupling members 2 can be more smoothly performed in the vertical direction, and the respective different types of coupling members 2 can be freely installed at the respective different right-angled corners of the floor panel 1.

Example two

The embodiment of the invention provides the installation method of the floor splicing and fixing structure, which mainly aims at the condition that the first male connecting piece 21 and the first female connecting piece 23 are used for splicing. Similarly, the second male connector 22 and the second female connector 24 may be spliced by the same method.

As shown in fig. 5, specifically, the installation method of the present embodiment includes:

s1, selecting one floor board 1 from two adjacent floor boards 1 along the Y axis, installing the first male connecting piece 21 at the right angle of the floor board, and then placing the floor board on the ground;

s2, fixedly connecting the splice plates 43 of the first male connector 21 to the ground through screws;

s3, placing another floor 1 above the first female connector 23 on one side of the splice plate 43 of the first male connector 21, and installing and fixing;

and S4, moving the first female connector 23 described in the S3 along the Y axis to be attached to the first male connector 21, so that the splice plate 43 of the first male connector 21 is inserted into the splice groove 44 of the first female connector 23.

EXAMPLE III

The embodiment of the invention provides an installation method of the floor splicing and fixing structure, which mainly aims at the condition that a first male connecting piece 21, a second male connecting piece 22, a first female connecting piece 23 and a second female connecting piece 24 are simultaneously adopted for multi-directional splicing.

As shown in fig. 6, specifically, the installation method of the present embodiment includes:

s1, selecting one floor 1 from the four adjacent floor boards 1, installing the first male connecting piece 21 at the right angle of the floor board, and then placing the floor board on the ground; the splice plate 43 of the first male connecting piece 21 is fixedly connected to the ground through screws;

s2, placing a second floor 1 above the first female connector 23 on one side of the splice plate 43 of the first male connector 21, and installing and fixing;

s3, arranging the splicing groove 44 of the first female connector 23 opposite to the splicing plate 43 of the first male connector 21, moving the first female connector 23 to be attached to the first male connector 21, and inserting the splicing plate 43 of the first male connector 21 into the splicing groove 44 of the first female connector 23;

s4, installing the second male connecting piece 22 at the right angle of the third floor board 1, and then placing the second male connecting piece on one side of the other square edge (the square edge without the splice plate 43) of the first male connecting piece 21; splicing the second male connecting piece 22 and the first male connecting piece 21 in a sticking way; the splicing plates 43 of the second male connecting piece 22 are fixedly connected to the ground through screws;

s5, placing a fourth floor 1 above the second female connecting piece 24 on one side of the splice plate 43 of the second male connecting piece 22, and installing and fixing;

s6, arranging the splicing grooves 44 of the second female connector 24 and the splicing plates 43 of the second male connector 22 oppositely, moving the second female connector 24 to be attached to the second male connector 22, and inserting the splicing plates 43 of the second male connector 22 into the splicing grooves 44 of the second female connector 24; and the other square edge (the square edge without the splicing groove 44) of the second female connecting piece 24 is spliced with the first female connecting piece 23 in a sticking way.

Example four

As shown in fig. 7, the embodiment of the present invention provides a variation of the first embodiment. Specifically, in the present embodiment, there are also a first male connector 21, a second male connector 22, a first female connector 23, and a second female connector 24. In contrast, compared with the first embodiment, the two limiting side plates are removed from the base plate of the connecting member in this embodiment, and the connecting member is fixed to the floor in the horizontal direction only by the two positioning plates 42.

After the limiting side plates are removed, the connecting pieces can be freely spliced seamlessly, the structure of the connecting pieces is simpler, and the cost is lower. Other structures and mounting methods of this embodiment are the same as those of the first embodiment, and are not described herein again.

The invention ingeniously designs the structures of the connecting pieces and the floor, so that the floor and the connecting pieces can be quickly installed in a vertical splicing mode; the male connecting piece and the female connecting piece can be quickly spliced through the splicing plates and the splicing grooves; in the whole floor laying process, excessive tools are not needed. The whole installation process is convenient and fast, and the installation efficiency is greatly improved. Meanwhile, each part in the floor mounting structure is simple in structure, and the overall cost of the floor mounting structure is greatly reduced.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A floor splicing and fixing structure is characterized by comprising floors and connecting pieces, wherein the floors are rectangular, a plurality of floors are arranged in a matrix manner, the connecting pieces are arranged at right angles of the floors, and adjacent floors are spliced with each other through the connecting pieces;

the connecting piece comprises a horizontally arranged base plate, the base plate is provided with two crossed right-angle sides, two vertically arranged positioning plates are connected to the base plate, and the two positioning plates are respectively and vertically connected to the tail ends of the two right-angle sides;

the bottom surface of the side edge near each right angle of the floor is provided with two positioning grooves, and the positions of the two positioning grooves respectively correspond to the two positioning plates; the positioning plate of the connecting piece is inserted into the positioning groove on the bottom surface of the floor along the vertical direction, so that the connecting piece and the floor are mutually fixed in the horizontal direction;

the connecting piece comprises a male connecting piece and a female connecting piece; in two adjacent floors along the Y-axis direction, the male connecting piece and the female connecting piece are respectively arranged at the right angle of the two adjacent floors and are spliced with each other;

in the base plate of the male connector, the side surface of the right-angle side perpendicular to the Y axis is provided with a splice plate horizontally protruding along the Y axis; in a base plate of the female connecting piece, a splicing groove which is horizontally sunken along the Y axis is arranged on the side surface of a right-angle side which is vertical to the Y axis; the splicing grooves are matched with the splicing plates in shape, and the splicing plates of the male connecting piece are inserted into the splicing grooves of the adjacent female connecting pieces along the Y-axis direction to realize splicing.

2. The floor splicing and fixing structure of claim 1, wherein a horizontally convex cover brim is arranged above the tail end of the splicing plate of the male connecting piece, and a horizontally convex step is arranged below the inner wall of the splicing groove of the female connecting piece; the cover eaves are matched with the steps in shape, so that when the splicing plates of the male connecting piece are inserted into the splicing grooves of the adjacent female connecting pieces, the cover eaves at the tail ends of the splicing plates press the steps on the inner walls of the splicing grooves downwards.

3. The floor splicing and fixing structure of claim 2, wherein the splice plates of the male connecting member are provided with fixing screw holes, and the male connecting member is fixedly connected to the ground by screws passing through the screw holes of the splice plates.

4. The floor splicing and fixing structure of claim 3, further comprising a lining plate, wherein the lining plate is arranged below the floor, and the thickness of the lining plate is matched with that of the base plate of the connecting piece.

5. The floor splicing and fixing structure of claim 4, wherein two vertically arranged limiting side plates are connected to the base plate of the connecting piece, and the two limiting side plates are respectively arranged along the edges of the two right-angle edges; the limiting side plate limits the floor from the side surface of the floor, so that the connecting piece and the floor are fixed in the horizontal direction;

the limiting side plates at the adjacent right-angle sides of the male connecting piece and the female connecting piece are arranged in a staggered mode, so that after the male connecting piece and the female connecting piece are mutually spliced, the two limiting side plates at the right-angle sides are spliced on the same straight line, and a gap between adjacent floors is formed.

6. The floor splicing and fixing structure according to claim 5, wherein the male connecting member comprises a first male connecting member and a second male connecting member, and in two floor boards adjacent in the X-axis direction, the first male connecting member and the second male connecting member are respectively installed at adjacent right angles of the two floor boards and are spliced with each other;

the spacing curb plate dislocation set of adjacent right-angle side department of first public connecting piece and second public connecting piece mutually for after first public connecting piece and the public connecting piece amalgamation of second, two spacing curb plates amalgamation of right-angle side department are on same straight line, form the gap between the adjacent floor.

7. The floor splicing and fixing structure of claim 6, wherein the female connecting members comprise a first female connecting member and a second female connecting member, and in two floors adjacent in the X-axis direction, the first female connecting member and the second female connecting member are respectively installed at adjacent right angles of the two floors and are spliced with each other;

spacing curb plate dislocation set mutually of first female connecting piece and the adjacent right angle limit department of the female connecting piece of second for after first female connecting piece and the female connecting piece amalgamation of second each other, two spacing curb plates amalgamation on same straight line of right angle limit department form the gap between the adjacent floor.

8. The floor splicing and fixing structure of claim 7, wherein the openings of the positioning grooves on the floor are towards the bottom surface and the side surface of the floor, and the distances from the positioning grooves to the right angle of the floor are equal;

the top surface of the positioning plate on the connecting piece is an inclined surface, wherein one end of the positioning plate, which faces the outer side of the base plate, is higher than one end of the positioning plate, which faces the middle of the base plate.

9. A method of installing a floor splicing and fixing structure according to claim 2, comprising:

s1, selecting one of two adjacent floors along the Y axis, installing a male connector at a right angle of the floor, and then placing the floor on the ground;

s2, fixedly connecting the splice plates of the male connector to the ground through screws;

s3, placing the other floor above the female connector and installing and fixing the other floor on one side of the splice plate of the male connector;

and S4, moving the female connector in the S3 along the Y axis to be attached to the male connector, and inserting the splicing plates of the male connector into the splicing grooves of the female connector.

10. A method of installing a floor splicing and fixing structure according to claim 8, comprising:

s1, selecting one of the four adjacent floor boards, installing a first male connecting piece at the right angle of the floor board, and then placing the floor board on the ground; the splice plate of the first male connecting piece is fixedly connected to the ground through a screw;

s2, placing a second floor above the first female connector on one side of the splice plate of the first male connector, and installing and fixing the second floor;

s3, arranging the splicing grooves of the first female connector and the splicing plates of the first male connector oppositely, moving the first female connector to be attached to the first male connector, and inserting the splicing plates of the first male connector into the splicing grooves of the first female connector;

s4, mounting a second male connecting piece at the right angle of a third floor, and then placing the second male connecting piece at one side of the other right-angle side of the first male connecting piece; the second male connecting piece is attached and spliced with the first male connecting piece; the splice plate of the second male connecting piece is fixedly connected to the ground through a screw;

s5, placing a fourth floor above the second female connector on one side of the splice plate of the second male connector, and installing and fixing the fourth floor;

s6, arranging the splicing grooves of the second female connector and the splicing plates of the second male connector oppositely, moving the second female connector to be attached to the second male connector, and inserting the splicing plates of the second male connector into the splicing grooves of the second female connector; and the other right-angle side of the second female connecting piece is spliced with the first female connecting piece in an attaching manner.

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