CN211114596U - Floor connecting buckle and floor system - Google Patents

Abstract

The utility model belongs to the technical field of solid wood floor, multilayer, three-layer solid wood floor mat formation, concretely relates to floor connecting buckle and floor system. The floor connection buckle that provides includes integrated into one piece's the fossil fragments section that is connected with the fossil fragments and the floor section that is connected with the floor. The floor system comprises groove keels which are laid on a substrate in parallel at fixed intervals, floor boards which are arranged on the groove keels in an adjacent mode and the floor board connecting buckles. The utility model provides a technical scheme thoroughly solved fossil fragments and floor be connected from top to bottom and because the lateral displacement problem that the shrink inflation arouses, solved the deformation problem to a great extent. In addition, the traditional paved floor has quality problems and needs to be reworked and disassembled, and the disassembled floor is basically scrapped. The utility model discloses it is convenient to rework, can not damage the floor, and this has just solved a big problem.

Description

Floor connecting buckle and floor system

Technical Field

The utility model belongs to the technical field of the floor of mating formation, concretely relates to floor connecting buckle and floor system can be used to the solid wood floor |, mating formation on multilayer, three-layer solid wood floor.

Background

The floor is popular among many families due to the characteristics of sound and heat insulation, warmness in winter and coolness in summer and gorgeous and noble properties. At present, the common floors in home decoration comprise solid wood floors, solid wood composite floors, reinforced composite floors, bamboo floors and the like. Because of high cost, the technical requirements for paving the floor are strict. The wooden floor is good, the laying is not proper, and the function is halved. The quality of the wood floor is directly influenced by the quality of the wood floor, so that the wood floor is beautiful, comfortable and long in service life.

Keel laying is the most traditional and widespread method of laying flooring, the keel laying flooring system comprising a wood keel laid on a base layer and a wood floor laid on the wood keel. The laying method comprises the steps of leveling the ground, uniformly distributing and fixing the wood keels on the leveled base layer through expansion nails or iron hammering, wherein the base layer can be a concrete ground or a skid, then laying a first row of wood floors, fixing the floors on the wood keels through threaded nails or iron nails outside convex corners of the floors, and then tightly arranging the floors one by one, wherein the parts of each floor, which are contacted with the wood keels, are nailed through air guns, threaded nails or common nails and nailed obliquely at 35-45 degrees. The method is time-consuming and labor-consuming, has high technical requirements on floor keel nailing, and is easy to cause personnel injury without paying attention. Moreover, the metal nails are easy to corrode, deform and fall off, the time between two adjacent floors is long, and the deformation gap of the floors is larger and larger, so that the floor is not attractive, and the stored garbage is not easy to clean.

A series of problems occur with conventional flooring applications such as: due to weather problems and floor shrinkage and expansion caused by temperature and humidity problems, the floor cannot slide (due to being nailed by nails) to generate tile-shaped deformation and warping, and has large gaps, loud sound, uneven bulges and the like. The moisture absorption of the used wood keel greatly influences the bottom of the floor to be damp and generate expansion deformation, the wood keel is easy to damage by worms and mildew and the like, and the wood keel and the floor are connected by the nail and can not be connected in other modes.

SUMMERY OF THE UTILITY MODEL

The utility model provides a floor connecting buckle and floor system for solve present floor construction difficulty, easy deformation, adaptability subalternation problem.

In order to solve the technical problem, the technical scheme of the utility model is that: floor connection buckle, its include integrated into one piece's the fossil fragments section that is connected with the fossil fragments and the floor section that is connected with the floor, the floor section is located between the adjacent floor, the floor section includes left mosaic structure and the right mosaic structure that the mirror image set up, a left side mosaic structure passes through the buckle with one in the adjacent floor and is connected, another passes through the buckle in right side mosaic structure and the adjacent floor and is connected.

Optionally, the floor section is i-shaped in cross section, at least one of the upper cross beam and the lower cross beam is connected with the floor in a buckling manner, and the upper cross beam and the lower cross beam are connected with the floor in an inserting manner without buckling. The I-shaped structure not only can ensure the connection stability through double layers, but also can be used as a knob of a keel section, and is convenient to install.

Optionally, the left splice structure includes at least one straight arm snap, and the right splice structure includes at least one straight arm snap.

Optionally, the floor connecting buckle is made of plastic. The plastic material has certain elasticity, and is moisture-resistant, corrosion-resistant, can guarantee to guarantee under the high temperature and high humidity environment that fossil fragments and floor compact stably.

The utility model also provides a floor system, it includes and lays recess fossil fragments, the next-door neighbour on the basement with the fixed spacing parallel and arranges floor and above-mentioned floor connection buckle on the recess fossil fragments, the recess fossil fragments are equipped with the spread groove that links to each other with floor connection buckle, the recess fossil fragments trend moves towards mutually perpendicular with the floor, the recess fossil fragments set up floor connection buckle with double-phase adjacent floor intersection department.

Optionally, the floor surface of the floor connection buckle floor section is flush with the bottom surface of the floor, and the bottom surface of the floor connection buckle floor section is attached to the upper surface of the groove keel.

Optionally, the cross section of the connecting groove is a rectangular frame, and the connecting groove includes an opening on the upper side of the rectangular frame and a cavity formed by the rectangular frame in a surrounding manner, and the width of the cavity is greater than the width of the opening.

Optionally, the keel section is embedded in the connecting groove, and the cross section is matched with the cross section of the connecting groove.

Optionally, the fossil fragments section embedding cavity is inside to be divided into to be the rectangle, and minor face length is less than the opening width so that floor connection buckle puts into the spread groove, and long limit length is located between opening width and the cavity width, and the fossil fragments section of being convenient for can block and slide in the cavity.

Optionally, the floor splicing side wall is provided with a wire slot matched with the floor section.

Optionally, the left splicing structure comprises a left plug-in and a left buckle, the right splicing structure comprises a right plug-in and a right buckle, and the floor trunking comprises a first trunking matched with the left plug-in or the right plug-in and a second trunking matched with the left buckle or the right buckle.

Optionally, the left insert insertion depth is less than the left snap and the right insert insertion depth is less than the right snap.

The utility model provides a technical scheme thoroughly solved fossil fragments and floor be connected from top to bottom and because the lateral displacement problem that the shrink inflation arouses, solved the deformation problem to a great extent. In addition, the traditional paved floor has quality problems and needs to be reworked and disassembled, and the disassembled floor is basically scrapped. The utility model discloses it is convenient to rework, can not damage the floor, and this has just solved a big problem.

Drawings

FIG. 1 is a schematic structural view of a flooring system according to embodiment 1;

FIG. 2 is a schematic cross-sectional view of the floor connecting clip of embodiment 1;

FIG. 3 is a schematic view showing the installation state of the groove keel and floor connecting buckle in embodiment 1;

FIG. 4 is a schematic view showing the connection, fastening and fixing state of the groove keel and the floor in embodiment 1;

FIG. 5 is a schematic view showing an intermediate state of the floor-to-floor connecting buckle in embodiment 1;

figure 6 is a schematic view of the groove keel and floor connection snap connection described in example 2.

Shown in the figure:

10-groove keel, 11-connecting groove, 111-opening, 112-bent claw, 113-cavity and 12-reinforcing structure;

20-floor, 21-first floor, 22-second floor, 221-first trunking, 222-second trunking;

30-floor connecting buckle, 31-keel section, 311-vertical section, 312-horizontal section, 32-floor section, 321-left splicing structure, 3211-left plug-in component, 3212-left buckle, 322-right splicing structure, 3221-left plug-in component, and 3222-left buckle.

Detailed Description

For ease of understanding, the floor coupling buckle and the floor system are described below with reference to embodiments, which are only used for illustrating the present invention and are not intended to limit the scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations and positional relationships based on the orientation and positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "connected" and "connected" are to be interpreted broadly, and may be, for example, a fixed connection, a detachable connection or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

As shown in fig. 1, the flooring system comprises groove keels 10 laid on a substrate in parallel at fixed intervals, such as 30-40cm, floor boards 20 arranged next to the keels 10, and floor connecting buckles 30, wherein the groove keels 10 run perpendicular to the floor boards 20, and the floor connecting buckles 30 are arranged at the intersections of the groove keels 10 and the adjacent floor boards 20.

As shown in fig. 2, the floor connecting buckle 30 includes a keel section 31 connected with the groove keel 10 and a floor section 32 connected with the floor 20, which are integrally formed, wherein the keel section 31 includes a vertical section 311 and a horizontal section 312 below the keel section, and the floor section 32 has an i-shaped cross section above the keel section.

The structure of the groove grid 10, the floor 20 and the floor attachment clip 30 will be further described in connection with the installation process of the flooring system.

As shown in fig. 3, the groove keel 10 is laid, the cross section is square, two layers of connecting groove 11 and reinforcing structure 12 are respectively arranged at the upper and lower parts, the connecting slot is a rectangular frame and comprises an opening 111, a bent claw 112 extending downwards from the opening 111 and a cavity 113 of the bent claw 112 formed by the rectangular frame, the width of the cavity 113 is larger than the width of the opening 10, the horizontal section 312 of the keel section 31 is rectangular, the length of the short side is smaller than the opening 10, therefore the floor connecting buckle 30 can be placed in the connecting groove as shown, then the floor section 32 is used as a handle to rotate 90 degrees to be in a state shown in figure 4, at this time, the keel section 31 is in an inverted T shape, the horizontal section 312 has a long side length which is larger than the width of the opening 10 and smaller than the width of the cavity 113, and is clamped by the bent claw 112, while the length of the vertical section 311, which is less than the width of the opening 10, allows for rotation so that the floor attachment clip 30 can slide within the attachment slot of the channel runner 10.

As shown in fig. 5, the floor section 32 includes a left splicing structure 321 and a right splicing structure 322 arranged in a mirror image, and the two splicing structures are combined to form an i-shape. Left side mosaic structure 321 is connected with left side floor 20 through piecing together to insert with the buckle, right side mosaic structure 322 is connected with right side floor 20 through piecing together to insert with the buckle.

With reference to fig. 2, the left splicing structure 321 is taken as an example, and includes a left plug-in 3211 of the upper beam and a left buckle 3212 of the lower beam, where the left buckle 3212 is a straight-arm buckle. The corresponding right splice structure 322 includes a right insert 3221 and a right clasp 3222.

With continued reference to fig. 5, the first floor 21 is placed on the left side, the floor connecting buckle 30 is moved to the left, and is connected to the first floor 21 by splicing and buckling, and then the second floor 22 is placed on the right side, and the floor connecting buckle 30 is moved to the left, and then splicing and buckling with the floor connecting buckle is completed, the side walls of the first floor 21 and the second floor 22 are provided with wire grooves matched with the floor sections 32, taking the right splicing structure 322 and the second floor 22 as an example, the wire groove of the side wall of the second floor 22 comprises a first wire groove 221 matched with the right plug 3221 and a second wire groove 222 matched with the right buckle 3222, while the depth of the first wire groove 221 is smaller than that of the second wire groove 222, that is, the insertion depth of the right plug 3221 is smaller than that of the right buckle 3222, the plug is mainly used for alignment guidance, and the buckle can realize tight fixation of the adjacent floor by the floor connecting buckle.

The floor connecting buckle is made of plastic, and the groove keels can be made of aluminum alloy profiles, plastic steel profiles, plastic wood profiles and the like.

Example 2

As shown in fig. 6, the difference from the embodiment 1 lies in that the groove keel 10 has a rectangular cross section and only has a one-layer structure of the connecting groove 11, and the reinforcing structure 12 is arranged on both sides of the connecting groove 11 instead of below the connecting groove 11. In addition, the opening 111 does not extend out of the curved claw 112, and the corresponding structure of the keel section 31 of the floor connecting buckle 30 is also different, mainly because the length of the vertical section 311 of the keel section 31 is matched with the thickness of the connecting groove rectangular frame, which is greatly shortened, and is similar to a connecting neck. The overall thickness of the groove keel 10 is thinner, and the groove keel is more suitable for users with lower layer heights.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it. Although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: it is to be understood that modifications may be made to the above-described arrangements in the embodiments or equivalents may be substituted for some or all of the features thereof without departing from the scope of the present invention.

Claims (10)

1. The utility model provides a floor connection buckle, its characterized in that, the fossil fragments section that is connected with fossil fragments including integrated into one piece and the floor section that is connected with the floor, fossil fragments are equipped with the spread groove, the floor section is located between the adjacent floor, the floor section includes left mosaic structure and the right mosaic structure that the mirror image set up, left side mosaic structure passes through the buckle with one in the adjacent floor and is connected, another is connected through the buckle in right side mosaic structure and the adjacent floor.

2. The floor connecting clip according to claim 1, wherein the floor section has an i-shaped cross-section, and at least one of the upper cross member and the lower cross member is connected to the floor connecting clip, and the non-clip connection is achieved by splicing.

3. The floor coupling clip of claim 1, wherein the left mating structure comprises at least one straight arm clip and the right mating structure comprises at least one straight arm clip.

4. The floor connecting clip of claim 1, wherein the floor connecting clip is made of plastic.

5. Floor system, comprising groove runners laid in parallel at regular intervals on a base, floors arranged next to the groove runners and floor coupling studs according to any of claims 1-4, the groove runners being provided with coupling slots for coupling with floor coupling studs, the groove runners running perpendicular to the floor running, and floor coupling studs arranged at the intersections of the groove runners with two adjacent floors.

6. The flooring system of claim 5, wherein the bottom surface of the floor connecting snap floor section is flush with the bottom surface of the floor, and the bottom surface of the floor connecting snap floor section engages the upper surface of the groove runner.

7. The flooring system of claim 6, wherein the connecting groove has a rectangular cross section and includes an opening at an upper side of the rectangular frame and a cavity surrounded by the rectangular frame, and the width of the cavity is greater than the width of the opening.

8. The flooring system of claim 7, wherein the keel section is embedded in the cavity and has a rectangular shape, the length of the short side is less than the width of the opening so that the floor connecting buckle can be inserted into the connecting groove, and the length of the long side is between the width of the opening and the width of the cavity so that the keel section can be clamped in the cavity.

9. The flooring system of claim 6, wherein the floor splice side walls are provided with wire grooves that mate with the floor sections.

10. The flooring system of claim 9, wherein the left splice structure comprises a left insert and a left snap, the right splice structure comprises a right insert and a right snap, and the floor trunking comprises a first trunking cooperating with the left insert or the right insert and a second trunking cooperating with the left snap or the right snap.

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