CN210597986U

CN210597986U - Floor fixing structure

Info

Publication number: CN210597986U
Application number: CN201921290598.7U
Authority: CN
Inventors: 曾庆俊; 伏波; 陈昌春; 谢武军; 梁泽辉; 蓝淦丰; 钟如鑫; 李宝城; 谭健崇; 萧锐荣
Original assignee: Guangzhou Aizhi Technology Co ltd
Current assignee: Guangzhou Aizhi Technology Co ltd
Priority date: 2019-08-10
Filing date: 2019-08-10
Publication date: 2020-05-22
Anticipated expiration: 2029-08-10

Abstract

The utility model provides a floor fixed knot constructs, floor fixed knot constructs including the first mounting of a plurality of, second mounting, third mounting and floor. The first fixing piece comprises a first flat plate and a first inclined plate which are integrally connected; the second fixing piece comprises a second flat plate and a second inclined plate which are integrally connected; the third fixing piece comprises a third flat plate, a third inclined plate, a fourth inclined plate and a fixing plate which are integrally formed and connected. Two sides near the head end of the floor are respectively provided with a first chute; two sides near the tail end of the floor are respectively provided with a second chute and a fixed groove. The utility model discloses the structure on mounting and floor has been designed ingeniously for quick installation can be realized through the mode of inserting to one side on floor, and the whole floor laying process in, need not use too much instrument. The installation efficiency is greatly improved. And simultaneously, the utility model provides a each parts simple structure has reduced floor mounting structure's overall cost by a wide margin.

Description

Floor fixing structure

Technical Field

The utility model relates to an architectural decoration field, concretely relates to floor fixed knot constructs.

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.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a floor fixed knot constructs to the shortcoming among the prior art, its simple structure, simple to operate are swift.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a floor fixing structure comprises a plurality of first fixing pieces, second fixing pieces, third fixing pieces and a floor;

the floors are arranged in a plurality of rows in parallel on an XOY plane where the ground is positioned and are fixed on the ground through first to third fixing pieces; in each row, the first to the Nth floors are sequentially arranged end to end along the positive direction of the X axis; wherein, two sides of the head end of the first floor are respectively connected with a first fixing piece; two sides of the tail end of the Nth floor are respectively connected with a second fixing piece; between two adjacent floor boards, the two sides of the tail end of the front floor board are respectively connected with the two sides of the head end of the rear floor board through a third fixing piece;

the first fixing piece comprises a first flat plate and a first inclined plate which are integrally connected; the second fixing piece comprises a second flat plate and a second inclined plate which are integrally connected; the third fixing piece comprises a third flat plate, a third inclined plate, a fourth inclined plate and a fixing plate which are integrally connected; the first to third inclined plates are arranged in parallel to an XOY plane, and included angles between the first to fourth inclined plates and the positive direction of the X axis are all a;

two sides near the head end of the floor are respectively provided with a first chute; two sides near the tail end of the floor are respectively provided with a second chute and a fixed groove; the included angles between the groove bodies of the first chute and the second chute and the positive direction of the X axis are both a; the shapes of the groove bodies of the first inclined groove and the second inclined groove are matched with the shapes of the first inclined plate, the second inclined plate and the fourth inclined plate; the shape of the groove body of the fixing groove is matched with that of the fixing plate;

the opening of the first chute is positioned on the bottom surface of the floor; the openings of the second inclined grooves are positioned on the bottom surface and the side surface of the floor; the openings of the fixing grooves are positioned on the bottom surface and the side surface of the floor or on the bottom surface and the end surface of the floor;

in each row of floors, two sides of the tail ends of the first floor to the (N-1) th floor are respectively inserted with a third fixing piece, and a fourth inclined plate and a fixing plate of each third fixing piece are respectively inserted into a second inclined groove and a fixing groove from the side surface of each floor along the Y-axis direction; the groove body of the fixing groove and the groove body of the second chute are not parallel to each other, so that the third fixing piece and the floor are relatively fixed in the X-axis direction and the Z-axis direction; a first inclined groove at the head end of the first floor is obliquely downwards inserted on the first inclined plate from the upper part of the first fixing piece along the direction of the included angle a; the first inclined grooves at the head ends of the second to the Nth floor boards are obliquely downwards inserted on the third inclined plate from the upper part of the third fixing piece along the direction of the included angle a; and a second chute at the tail end of the Nth floor is obliquely and downwards inserted on the second inclined plate from the upper part of the second fixing piece along the direction of the included angle a.

Further, the included angle a is greater than 10 ° and less than 80 °.

Furthermore, in the first fixing piece, at least 2 screw holes are formed in the first flat plate; in the second fixing piece, at least 2 screw holes are formed in the second flat plate; in the third fixing piece, at least 2 screw holes are formed near the third inclined plate on the third flat plate.

Furthermore, included angles between the fixing plate and the fixing groove and the X-axis negative direction are equal and are a; the fixed plate is symmetrical to the fourth inclined plate and is arranged on one side of the fourth inclined plate in the X-axis negative direction; the fixed slot is symmetrical with the second chute and is arranged on one side of the X-axis negative direction of the second chute, and the opening of the fixed slot is positioned on the bottom surface and the side surface of the floor.

Furthermore, included angles between the fixing plate and the fixing groove and the X-axis negative direction are equal and are a; the fixed plate is symmetrical to the fourth inclined plate and is arranged on one side of the fourth inclined plate in the positive direction of the X axis; the fixed slot is symmetrical with the second chute, and is arranged on one side of the positive direction of the X axis of the second chute, and the opening of the fixed slot is positioned on the bottom surface and the side surface of the floor.

Furthermore, the fixing plate is connected to the third fixing member through a vertical supporting plate and arranged between the third inclined plate and the fourth inclined plate, and the fixing plate is parallel to the XOY plane and protrudes towards the negative direction of the X axis; the groove body of the fixing groove is parallel to the XOY plane, and the opening of the fixing groove is positioned on the side surface and the end surface of the floor.

Further, in a third fixing piece, a transverse limiting plate and a longitudinal limiting plate are integrally connected to the third flat plate; the transverse limiting plate extends along the X-axis direction and is positioned on the outer side of the third flat plate; the longitudinal limiting plate extends along the Y-axis direction and is located between the third inclined plate and the fourth inclined plate, and the distance between the longitudinal limiting plate and the third inclined plate is equal to the distance between the end part of the head end of the floor and the opening of the first inclined groove.

Further, in the first fixing piece, a first slope table is arranged at the end part of the first flat plate in the X-axis negative direction, the distance between the first slope table and the first inclined plate is larger than the distance between the end part of the head end of the floor and the opening of the first slope groove, the included angle between the inclined plane of the first slope table and the X-axis negative direction is a, at least 2 screw holes are formed in the first slope table, and the screw holes are perpendicular to the inclined plane of the first slope table;

the middle part of the first flat plate is provided with a transverse limiting plate, and the transverse limiting plate extends along the X-axis direction.

Further, in a second fixing piece, a second slope table is arranged at the positive direction end part of the X axis of the second flat plate, the distance between the second slope table and a second sloping plate is larger than or equal to the distance between the tail end part of the floor and the opening of the second slope table, the included angle between the slope of the second slope table and the positive direction of the X axis is a, at least 2 screw holes are arranged on the second slope table, and the screw holes are perpendicular to the slope of the second slope table;

and a transverse limiting plate is arranged in the middle of the second flat plate and extends along the X-axis direction.

The utility model discloses the structure on mounting and floor has been designed ingeniously for quick installation can be realized through the mode of inserting to one side on floor, and the whole floor laying process in, need not use too much instrument. The inclined plate on the fixing piece is matched with the inclined groove at the bottom of the floor, so that automatic guiding can be realized in the floor placing process, the whole installation process is convenient and fast, and the installation efficiency is greatly improved. And simultaneously, the utility model provides a each parts simple structure has reduced floor mounting structure's overall cost by a wide margin.

Drawings

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

Fig. 2 is a schematic side view of a floor fixing structure according to an embodiment of the present invention.

Fig. 3 is a schematic overall structure diagram of the first fixing element according to the first embodiment of the present invention.

Fig. 4 is a schematic side view of a first fixing element according to a first embodiment of the present invention.

Fig. 5 is a schematic overall structure diagram of a second fixing element according to a first embodiment of the present invention.

Fig. 6 is a schematic side view of a second fixing element according to a first embodiment of the present invention.

Fig. 7 is a schematic overall structure diagram of a third fixing element according to a first embodiment of the present invention.

Fig. 8 is a schematic side view of a third fixing element according to a first embodiment of the present invention.

Fig. 9 is a schematic side view of a floor according to a first embodiment of the present invention.

Fig. 10 is a schematic view illustrating an installation process of a floor fixing structure according to an embodiment of the present invention.

Fig. 11 is a partial structural schematic view of a third fixing member and a floor board according to a second embodiment of the present invention.

Fig. 12 is a partial structural schematic view of a third fixing member and a floor board according to a third 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 and fig. 2, the present invention provides a floor fixing structure, which comprises a plurality of first fixing members 1, second fixing members 2, third fixing members 3 and a floor 4.

The plurality of floor boards 4 are arranged in a plurality of rows in parallel on an XOY plane where the ground is located, and are fixed on the ground through first to third fixing pieces; in each row, the first to the Nth floors 4 are sequentially arranged end to end along the positive direction of the X axis; wherein, two sides of the head end of the first floor 4 are respectively connected with a first fixed part 1; two sides of the tail end of the Nth floor 4 are respectively connected with a second fixing piece 2; between two adjacent floor boards 4, the two sides of the tail end of the previous floor board 4 are respectively connected with the two sides of the head end of the next floor board 4 through a third fixing piece 3.

As shown in fig. 3 to 8, the first fixing member 1 includes a first flat plate 11 and a first inclined plate 12 integrally connected to each other; the second fixing piece 2 comprises a second flat plate 21 and a second inclined plate 22 which are integrally connected; the third fixing member 3 comprises a third flat plate 31, a third inclined plate 32, a fourth inclined plate 33 and a fixing plate 34 which are integrally connected; the first to third

flat plates

11, 21, 31 are arranged in parallel to an XOY plane, and the first to fourth

inclined plates

12, 22, 32, 33 all have an angle a with the positive direction of the X axis. In this embodiment, the angle a is greater than 10 ° and less than 80 °, preferably 45 °.

As shown in fig. 9, two sides near the head end (the end close to the negative direction of the X axis) of the floor 4 are respectively provided with a first inclined groove 41; a second chute 42 and a fixing groove 43 are respectively arranged on two sides near the tail end (one end close to the positive direction of the X axis) of the floor 4; the included angles between the groove bodies of the first chute 41 and the second chute 42 and the positive direction of the X axis are both a; the shapes of the groove bodies of the first chute 41 and the second chute 42 are matched with the shapes of the first to fourth

inclined plates

12, 22, 32 and 33; the groove body shape of the fixing groove 43 matches with the shape of the fixing plate 34.

Further, the opening of the first chute 41 is located on the bottom surface of the floor 4; the openings of the second inclined grooves 42 are positioned on the bottom surface and the side surface of the floor 4; the openings of the fixing grooves 43 are located at the bottom and side surfaces of the floor. Specifically, in this embodiment, the included angles between the fixing plate 34 and the fixing groove 43 and the negative direction of the X axis are equal and are both a; that is, the fixing plate 34 is provided symmetrically to the fourth swash plate 33 on the X-axis negative direction side of the fourth swash plate 33; the fixing plate 34 and the fourth inclined plate 33 are integrally inverted in a splayed shape. The fixing groove 43 is symmetrical to the second chute 42 and is disposed on one side of the second chute 42 in the negative X-axis direction, and the opening of the fixing groove 43 is located on the bottom surface and the side surface of the floor 4.

Based on the above structure, as shown in fig. 10, in each row of floor boards, the two sides of the end of each of the first to N-1 th floor boards 4 are respectively inserted with a third fixing piece 3, and the fourth inclined board 33 and the fixing board 34 of the third fixing piece 3 are respectively inserted into the second inclined groove 42 and the fixing groove 43 from the side surface of the floor board 4 along the Y-axis direction; the groove body of the fixing groove 43 and the groove body of the second chute 42 are not parallel to each other, so that the third fixing member 3 and the floor 4 are relatively fixed in the X-axis and Z-axis directions and cannot move freely; a first inclined groove 41 at the head end of the first floor 4 is obliquely downwards inserted on the first inclined plate 12 from the upper part of the first fixing piece 1 along the direction of the included angle a; the first inclined groove 41 at the head end of the second to the nth floor 4 is obliquely inserted downwards on the third inclined plate 32 from the upper part of the third fixing piece 3 along the direction of the included angle a; the second inclined groove 42 at the end of the nth floor 4 is inserted obliquely downward from above the second fixing member 2 along the direction of the included angle a onto the second inclined plate 22.

In this embodiment, the first to third fixing members are fixed to the ground by screws; specifically, in the first fixing member 1, at least 2 screw holes are formed in the first flat plate 11; in the second fixing piece 2, at least 2 screw holes are arranged on the second flat plate 21; in the third fixing member 3, at least 2 screw holes are provided near the third inclined plate 32 on the third flat plate 31.

As an improvement, as shown in fig. 3 and 4, in the first fixing member 1, a first sloping platform 14 is arranged at an end of the first flat plate 11 in the negative X-axis direction, a distance between the first sloping platform 14 and the first sloping plate 12 is greater than a distance between an end of the head end of the floor 4 and an opening of the first sloping chute 41, an included angle between an inclined plane of the first sloping platform 14 and the negative X-axis direction is a, 4 screw holes are arranged on the first sloping platform 14, and the screw holes are perpendicular to the inclined plane of the first sloping platform 14; the middle part of the first flat plate 11 is provided with a transverse limiting plate 13, and the transverse limiting plate 13 extends along the X-axis direction.

As shown in fig. 5 and 6, in the second fixing member 2, a second slope table 24 is arranged at the positive direction end of the X axis of the second flat plate 21, the distance between the second slope table 24 and the second sloping plate 22 is greater than or equal to the distance between the end of the tail end of the floor 4 and the opening of the second slope 42, the inclined plane of the second slope table 24 has an included angle a with the positive direction of the X axis, and 4 screw holes are arranged on the second slope table 24 and are perpendicular to the inclined plane of the second slope table 24; the middle part of the second flat plate 21 is provided with a transverse limiting plate 23, and the transverse limiting plate 23 extends along the X-axis direction.

Horizontal limiting

plate

13 and 23 mainly used are separated and spacing the floor between two adjacent rows in the Y axle direction, so, 4 head ends on floor between two adjacent rows can share same first mounting 1, and the end can share same second mounting 2, has saved material and part, and simultaneously, horizontal limiting

plate

13 and 23 still have spacing effect, can assist the position of fixed floor 4 in the Y axle direction.

The first and

second ramps

14 and 24 mainly take the first and second fixing members 1 and 2 into consideration that they are generally located at the corners of a wall, and are inconvenient to operate due to small space. The end part is designed to be in a slope table shape, and the inclined screw hole is formed in the end part, so that the screw can be conveniently screwed.

As shown in fig. 7 and 8, in the third fixing member 3, a transverse limiting plate 35 and a longitudinal limiting plate 36 are integrally connected to the third flat plate 31; the transverse limiting plate 35 extends along the X-axis direction and is positioned outside the third flat plate 31; the longitudinal limiting plate 36 extends along the Y-axis direction and is located between the third inclined plate 32 and the fourth inclined plate 33, and the distance between the longitudinal limiting plate 36 and the third inclined plate 32 is equal to the distance between the end of the head end of the floor 4 and the opening of the first chute 41. And 4 screw holes are formed near the third sloping plate 32. The transverse limiting plate 35 is used for limiting the side edge of the floor 4, and the longitudinal limiting plate 36 is used for separating and limiting two adjacent floors in the same row.

All set up a plurality of screw holes in first to third mounting mainly in order to carry out the time dismouting maintenance on the floor, can utilize new screw hole to fix. The problem that the screw is driven back to the original hole and the installation between the screw and the old screw hole is not firm is solved.

Example two

In practical engineering applications, the fixing plate 34 in the third fixing member 3 and the fixing groove 43 in the floor 4 may also have other various implementation forms, and the basic concept is that the groove body of the fixing groove 43 and the groove body of the second chute 42 are not parallel to each other; after the fourth inclined plate 33 and the fixing plate 34 of the third fixing member 3 are inserted into the second inclined groove 42 and the fixing groove 43, respectively, from the side surface of the floor 4 along the Y-axis direction, the third fixing member 3 and the floor 4 are relatively fixed in the X-axis direction and the Z-axis direction, and cannot be moved arbitrarily. Based on the above principles, those skilled in the art can conceive of other possible structural designs, which are all included in the protection scope of the present invention.

Here, the present embodiment provides another possible shape structure of the fixing plate 34 and the fixing groove 43. Specifically, as shown in fig. 11, the included angles between the fixing plate 34 and the fixing groove 43 and the negative direction of the X axis are equal and are both a; the fixing plate 34 is symmetrical to the fourth sloping plate 33 and is arranged on one side of the fourth sloping plate 33 in the positive direction of the X axis; the fixing plate 34 and the fourth inclined plate 33 are generally in a shape of a Chinese character 'ba'. The fixing groove 43 is symmetrical to the second chute 42 and is disposed on one side of the second chute 42 in the positive direction of the X-axis, and the opening of the fixing groove 43 is located on the bottom surface and the side surface of the floor 4.

To avoid encumbrance, fig. 11 provides only a partial structure of the third fixing member and the floor panel in the present embodiment. Other technical features of the present embodiment are the same as those of the first embodiment, and are not described herein again.

EXAMPLE III

As shown in fig. 12, the fixing plate 34 is connected to the third fixing member 3 through a vertical supporting plate and is disposed between the third inclined plate 32 and the fourth inclined plate 33, and the fixing plate 34 is parallel to the XOY plane and protrudes in the negative X-axis direction; the groove body of the fixing groove 43 is parallel to the XOY plane, and the opening of the fixing groove 43 is located on the side surface and the end surface of the floor.

To avoid encumbrance, fig. 12 provides only a partial structure of the third fixing member and the floor panel in the present embodiment. Other technical features of the present embodiment are the same as those of the first embodiment, and are not described herein again.

Example four

Referring to fig. 10, the present embodiment provides an installation method of the above-described floor fixing structure, including:

s1, positioning the head end: arranging 2 first fixing pieces 1 at one end of a ground space to be paved in the X-axis negative direction, and fixing the first fixing pieces 1 on the ground through screws;

s2, preassembly: 1 third fixing piece 3 is respectively arranged on two sides of the tail end of the first floor 4; the fourth inclined plate 33 and the fixing plate 34 of the third fixing member 3 are inserted into the second inclined groove 42 and the fixing groove 43, respectively, from the side of the first floor panel 4 in the Y-axis direction;

s3, oblique insertion placement: from the oblique upper side of the first fixing piece 1, the first inclined groove 41 at the head end of the first floor 4 is flatly placed obliquely downwards along the direction of the included angle a, so that the first inclined groove 41 is inserted on the first inclined plate 12;

s4, fixing: the third fixing piece 3 is fixed on the ground through screws;

s5, preassembly: according to the method of S2, pre-installing third fixing pieces 3 at both sides of the tail end of the second floor 4;

s6, oblique insertion placement: from the obliquely upper side of the third fixing member 3 fixed in S4, the first inclined groove 41 at the head end of the second floor board 4 is placed obliquely downward along the direction of the included angle a, so that the first inclined groove 41 is inserted into the third inclined plate 32 of the third fixing member 3, and the second floor board 4 and the first floor board 4 are connected end to end;

s7, sequentially arranging: according to the method of S4-S6, the third to the N-1 th floors 4 are placed in sequence in a first-to-last phase along the positive direction of the X axis;

s8, end positioning: placing 2 second fixing pieces 2 at one end of the ground space to be paved in the positive direction of the X axis;

s9, oblique insertion placement: on the third fixing piece 3 of the (N-1) th floor 4 and the oblique upper side of the second fixing piece 2, the (N) th floor (the last floor in the current row) 4 is placed horizontally along the direction of the included angle a, so that the first inclined groove 41 is inserted on the third inclined plate 32 of the third fixing piece 3, and the second inclined groove 41 is inserted on the second inclined plate 22 of the second fixing piece 2;

s10, fixing: the second fixing piece 2 is fixed on the ground through screws;

s11, repeating S1-S10 to parallelly install a plurality of rows of floors 4 until the ground space to be paved is filled;

s12, seam beautifying: and filling colloid into gaps among the floor plates 4 for seam beautifying.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. A floor fixing structure is characterized by comprising a plurality of first fixing pieces, a plurality of second fixing pieces, a plurality of third fixing pieces and a floor;

2. The floor fixing structure according to claim 1, wherein the included angle a is greater than 10 ° and less than 80 °.

3. The floor fixing structure of claim 1, wherein in the first fixing member, the first plate is provided with at least 2 screw holes; in the second fixing piece, at least 2 screw holes are formed in the second flat plate; in the third fixing piece, at least 2 screw holes are formed near the third inclined plate on the third flat plate.

4. The floor fixing structure according to claim 1, wherein the fixing plate and the fixing groove have the same included angle with the negative direction of the X axis, and are both a; the fixed plate is symmetrical to the fourth inclined plate and is arranged on one side of the fourth inclined plate in the X-axis negative direction; the fixed slot is symmetrical with the second chute and is arranged on one side of the X-axis negative direction of the second chute, and the opening of the fixed slot is positioned on the bottom surface and the side surface of the floor.

5. The floor fixing structure according to claim 1, wherein the fixing plate and the fixing groove have the same included angle with the negative direction of the X axis, and are both a; the fixed plate is symmetrical to the fourth inclined plate and is arranged on one side of the fourth inclined plate in the positive direction of the X axis; the fixed slot is symmetrical with the second chute, and is arranged on one side of the positive direction of the X axis of the second chute, and the opening of the fixed slot is positioned on the bottom surface and the side surface of the floor.

6. The floor fixing structure according to claim 1, wherein the fixing plate is connected to the third fixing member by a vertical support plate and disposed between the third sloping plate and the fourth sloping plate, the fixing plate being parallel to the XOY plane and protruding in a negative X-axis direction; the groove body of the fixing groove is parallel to the XOY plane, and the opening of the fixing groove is positioned on the side surface and the end surface of the floor.

7. The floor fixing structure according to claim 1, wherein in the third fixing member, a lateral restriction plate and a longitudinal restriction plate are integrally connected to the third plate; the transverse limiting plate extends along the X-axis direction and is positioned on the outer side of the third flat plate; the longitudinal limiting plate extends along the Y-axis direction and is located between the third inclined plate and the fourth inclined plate, and the distance between the longitudinal limiting plate and the third inclined plate is equal to the distance between the end part of the head end of the floor and the opening of the first inclined groove.

8. The floor fixing structure according to claim 1, wherein in the first fixing member, a first sloping platform is provided at the end of the first flat plate in the negative X-axis direction, the distance between the first sloping platform and the first sloping plate is greater than the distance between the end of the first end of the floor and the opening of the first sloping platform, the inclined plane of the first sloping platform forms an included angle a with the negative X-axis direction, at least 2 screw holes are provided on the first sloping platform, and the screw holes are perpendicular to the inclined plane of the first sloping platform;

9. The floor fixing structure according to claim 1, wherein in the second fixing member, a second sloping table is provided at the positive X-axis direction end of the second plate, the distance between the second sloping table and the second sloping plate is greater than or equal to the distance between the terminal end of the floor and the opening of the second sloping table, the inclined plane of the second sloping table has an included angle a with the positive X-axis direction, the second sloping table is provided with at least 2 screw holes, and the screw holes are perpendicular to the inclined plane of the second sloping table;