CN111779225A - Floor block, wall panel and assembling method of floor block and wall panel - Google Patents

Abstract

The application relates to a floor block, a wall panel and an assembling method of the floor block and the wall panel, wherein the floor block and the wall panel respectively comprise: the decorative layer is fixed on the upper surface of the corrugated substrate, and the buckle is fixedly arranged at the side edge of the corrugated substrate; the corrugated substrate includes: the corrugated board comprises an upper board body, a lower board body and a corrugated core layer, wherein the lower board body is arranged below the upper board body in parallel; the buckle that is formed with between the upper plate body and the lower plate body and is located corrugated core layer periphery inlays the dress clearance, and the buckle is including the convex location arch that makes progress, and the embedding buckle of buckle inlays the dress clearance to weld or bond fixedly with upper plate body or lower plate body, the side of upper plate body and location arch are each other the butt in the horizontal direction moreover. This application installs the accurate buckle structure in position additional ingeniously at floor block or shingle nail side to make floor block or shingle nail homoenergetic of various materials rely on the full dry construction connection of neatly mating formation.

Description

Floor block, wall panel and assembling method of floor block and wall panel

Technical Field

The present application relates to the field of flooring and shingles, and more particularly to floor blocks, shingles, and methods of assembling floor blocks and shingles.

Background

The floor block is a plate-shaped member laid on the ground, especially the indoor ground, and is mainly divided into a wood floor, a marble floor and a ceramic tile floor according to the material of the floor block.

In the prior art, only the wood floor can be provided with the floor buckle structure, so the pavement of the wood floor does not need wet construction of arranging a cement filling layer on the ground, and the wood floor blocks can be spliced and butted by directly utilizing the floor buckles on the side edges of the wood floor blocks. However, in order to secure the strength of the flooring, the wood flooring must have a sufficient thickness, consuming a large amount of wood.

The marble floor and the ceramic tile floor are limited by materials and processes, and floor buckles cannot be additionally arranged. Therefore, the marble floor and the tile floor are fixedly connected on the ground by cement mixture which is constructed by a construction method, and the marble floor or the tile floor are not directly connected. The construction method is complex in process and long in construction period, the arrangement degree of the floor blocks in various places is difficult to guarantee completely by the skills of construction workers, and meanwhile, the marble floor and the ceramic tile floor are difficult to dismantle and use for the second time.

Also, the wall panels for decorating the interior and exterior walls of buildings have the same problems as described above.

For the above reasons, the applicant originally conceived that marble, tile or veneer boards are laminated on a base plate which is easy to form or connect with a lock catch, and the lock catch on the base plate is used for connecting various floor blocks or wall panels with each other to form a floor or wall system, so that not only is the wood consumption saved, but also the full-dry construction of the marble, tile floor or wall panel can be realized.

However, it is a problem that the applicant has been thinking about how to precisely compound a marble plate, a tile plate or a wood veneer as a veneer layer on a desired position of a substrate plate surface to ensure that the veneer layer and the substrate on each floor board or wall panel have exactly the same relative position.

The present application is hereby presented.

Disclosure of Invention

The technical problem that this application will solve is: aiming at the problems, the floor block, the wall panel and the assembling method of the floor block and the wall panel are provided, and the accurate locking structure is ingeniously additionally arranged on the side edge of the floor block or the wall panel made of various materials, so that the floor block or the wall panel made of various materials can be neatly paved and connected by means of full-dry construction.

The technical scheme of the application is as follows:

a floor or wall panel comprising:

a corrugated substrate is provided with a corrugated base plate,

a finishing layer fixed to an upper surface of the corrugated substrate, an

The buckle is fixedly arranged at the side edge of the corrugated substrate;

the corrugated substrate includes:

the upper plate body is provided with a plurality of concave grooves,

a lower plate body arranged in parallel below the upper plate body,

a corrugated core layer fixedly connected between the upper plate body and the lower plate body;

the corrugated board comprises a corrugated core layer, and is characterized in that a buckle embedding gap is formed between the upper board body and the lower board body and is located around the corrugated core layer, the buckle comprises a positioning protrusion protruding upwards, the buckle is embedded into the buckle embedding gap and is welded or bonded and fixed with the upper board body or/and the lower board body, and the side edge of the upper board body is abutted against the positioning protrusion in the horizontal direction.

On the basis of the technical scheme, the floor board or the wall panel further comprises the following preferable scheme:

the positioning bulge is a linear extending strip-shaped bulge, and the length edge of the positioning bulge is mutually abutted with the side edge of the upper plate body in the horizontal direction.

The veneer layer is marble slab, ceramic tile board, plank or plastic slab, the location arch is higher than the upper surface of last plate body, and with the side on veneer layer mutually supports in the horizontal direction.

The lower part of the side edge of the facing layer is provided with a groove which is sunken inwards and the notch of which extends to the lower surface of the facing layer, and the upper part of the positioning bulge extends into the groove.

The corrugated substrate is a polygonal plate formed by enclosing at least three straight line side edges, and each straight line side edge is fixedly provided with one buckle; the length edge of the positioning convex part, which faces the finishing layer, is a bevel edge with the top side far away from the center of the finishing layer and the bottom side close to the center of the finishing layer.

The top of the positioning bulge is bent inwards and bites into the side edge of the veneer layer.

The buckle comprises a second positioning protrusion protruding upwards, and the side edge of the veneer layer is abutted to the second positioning protrusion in the horizontal direction.

The lower part of the side edge of the facing layer is provided with a groove which is sunken inwards and the notch of which extends to the lower surface of the facing layer, and the upper part of the second positioning bulge extends into the groove.

The second positioning bulge is a linear extending strip-shaped bulge, and the length side of the second positioning bulge is mutually abutted with the side edge of the decorative layer in the horizontal direction;

the corrugated substrate is a polygonal plate formed by enclosing at least three straight line side edges, and each straight line side edge is fixedly provided with one buckle;

and the length edge of the second positioning convex part facing the finishing layer is a second inclined surface edge with the top side far away from the center of the finishing layer and the bottom side close to the center of the finishing layer.

The top of the second positioning bulge is bent inwards and bites into the side edge of the veneer layer.

The corrugated substrate is a rectangular plate formed by enclosing four straight line side edges, two buckles which are arranged at right angles and have one ends welded and fixed together are respectively embedded at the positions of the two straight line side edges of the corrugated substrate.

The corrugated substrate is a rectangular plate formed by enclosing four straight line side edges, each straight line side edge is embedded with one buckle, every the buckle is buckled the section by first knot section and second respectively and constitutes, moreover first knot section with be equipped with on the second knot section respectively the location is protruding, and the first knot section of every buckle is detained the section with the second of another buckle that corresponds and is arranged at the right angle and one end welded fastening, and the second of every buckle is detained the section and is arranged at the right angle with the first knot section of another buckle that corresponds and one end welded fastening, and the one end welding is in the same place and is that the first knot section and the second that the right angle was arranged detained the section and is embedded respectively and be in two straight line side edge positions of corrugated substrate

The corrugated substrate is a polygonal plate formed by enclosing at least three straight line side edges, and each straight line side edge is fixedly provided with one buckle;

the positioning bulge on at least one of the buckles is higher than the upper surface of the upper plate body and is mutually abutted with the side edge of the veneer layer in the horizontal direction;

the positioning protrusions on the rest of the buckles comprise second positioning protrusions protruding upwards, and the side edges of the veneer layer are mutually abutted with the second positioning protrusions in the horizontal direction.

The buckle further comprises a third positioning protrusion protruding downwards, and the side edge of the lower plate body is abutted to the third positioning protrusion in the horizontal direction.

A method of assembling the above-described floor or wall panel, comprising:

firstly, arranging two buckles at a right angle, and welding and fixing one ends of the two buckles to form an L-shaped component;

then, two buckles which are arranged in a right angle and one ends of which are welded and fixed are respectively embedded in the buckle embedding gaps at the side edges of the two straight lines of the corrugated base plate, and the positioning bulges on each buckle are mutually abutted with the side edges of the upper plate body in the horizontal direction.

A method of assembling the floor panel, comprising:

firstly, arranging a first buckle section of each buckle and a second buckle section of the other corresponding buckle at a right angle, and welding and fixing one end of each first buckle section and the other second buckle section to form an L-shaped component;

then, the first buckling section and the second buckling section, one ends of which are welded together and arranged at a right angle, are respectively embedded in the buckle embedding gaps at the two linear side edge positions of the corrugated base plate, and the positioning bulges on each first buckling section and each second buckling section are enabled to be mutually abutted with the side edge of the upper plate body in the horizontal direction.

The application can realize the following beneficial effects:

1. the wear-resistant and attractive marble, ceramic tile or wood veneer layer is combined with the corrugated board with excellent compression resistance and bending resistance and high structural strength, and the corrugated board adopts a special structure to connect the buckles skillfully, so that the floor block or the wall panel with the buckles is manufactured, the defect that the traditional wood, marble or ceramic tile floor is low in structural strength and easy to damage is overcome, and the quick splicing of the floor blocks or the wall panel can be realized.

2. The positioning bulges are arranged on the buckles, so that each buckle on each floor block or wall panel and the corrugated board basically have a neat and uniform accurate assembly position, the uniformity of the shape and the structure of each floor block or wall panel is improved, and further each floor block or wall panel can be smoothly butted, and after the butt joint is completed, the size of gaps between the adjacent floor blocks or wall panels is neat and uniform.

3. The positioning bulge on the buckle can be designed to be heightened, and the mounting position of the upper decorative layer can be positioned while the basic assembly position of the buckle and the corrugated pipe is positioned.

4. The buckle section of two buckles or buckles is arranged at a right angle in advance, one end of the buckle section is welded and fixed to form an L-shaped structural member, and then two side arms with positioning protrusions on the L-shaped structural member are respectively embedded in the buckle embedding gaps at the positions of two linear side edges of the corrugated base plate, so that the embedding depth of the buckle at the linear side edge of the corrugated base plate is positioned, and the position of the buckle in the length direction of the linear side edge of the corrugated base plate is also positioned.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings of the embodiments will be briefly introduced below, and it is apparent that the drawings in the following description only relate to some embodiments of the present application and are not limiting on the present application.

Fig. 1 is a schematic cross-sectional structure of a floor board in the width direction in the first embodiment of the present application.

Fig. 2 is a schematic cross-sectional structure of the floor board along the length direction in the first embodiment of the application.

Fig. 3 is a schematic structural diagram of a corrugated substrate according to an embodiment of the present application.

Fig. 4 is a schematic view of the structure for assembling the buckle and the floor body of the floor board in the first embodiment of the application.

Fig. 5 is a schematic cross-sectional view of a paving structure of two adjacent floor boards in one embodiment of the present application.

Fig. 6 is an illustration of an assembly method of the buckle and the corrugated substrate in the first embodiment of the present application.

Fig. 7 is a schematic cross-sectional structure of the floor board in the second embodiment of the present application along the width direction.

Fig. 8 is a schematic sectional view of the floor boards in the second embodiment of the present application along the length direction.

Fig. 9 is a schematic cross-sectional view of the floor boards in the third embodiment of the present application along the width direction.

Fig. 10 is a schematic sectional view of the floor boards in the third embodiment of the present application along the length direction.

Fig. 11 is a schematic cross-sectional view of the floor boards in the fourth embodiment of the present application along the width direction.

Fig. 12 is a schematic sectional view of the floor boards in the fourth embodiment of the present application along the length direction.

Fig. 13 is a schematic cross-sectional structure of a floor board in the width direction in the fifth embodiment of the present application.

Fig. 14 is a schematic sectional structure view of the floor board in the fifth embodiment of the present application along the length direction.

Fig. 15 is an enlarged view of the X portion of fig. 14.

Fig. 16 is a schematic cross-sectional view of the floor boards in the sixth embodiment of the present application along the width direction.

Fig. 17 is a schematic sectional view of the floor boards in the sixth embodiment of the present application along the length direction.

Fig. 18 is a schematic cross-sectional view of the floor boards in the width direction in the seventh embodiment of the present application.

Fig. 19 is a sectional structure view of the floor boards along the length direction in the seventh embodiment of the present application.

Fig. 20 is a schematic cross-sectional view of the floor boards in the eighth embodiment of the present application along the width direction.

Fig. 21 is a schematic sectional view of the floor boards in the eighth embodiment of the present application along the length direction.

Fig. 22 is a schematic cross-sectional view of the floor board in the width direction in the ninth embodiment of the present application.

Fig. 23 is a schematic sectional view of the floor board along the length direction in the ninth embodiment of the application.

Fig. 24 is a schematic cross-sectional view of a wall panel according to an embodiment of the present invention.

Wherein: 1-corrugated substrate, 2-veneer layer, 3-fastener and 4-wall surface;

101-upper plate body, 102-lower plate body, 103-corrugated core layer, 1 a-buckle embedding gap, 1031-metal sheet, 1032-punching protrusion, 1031 a-upper surface of metal sheet, 1032 a-lower surface of punching protrusion, 10321-cylindrical groove, 10322-cylindrical groove, 10323-inner hole of cylindrical punching protrusion, 10321 a-top groove wall of cylindrical groove, 10322 a-bottom groove wall of cylindrical groove, 201-biting groove, 202-groove, 3 a-male buckle, 3 b-female buckle, 301-positioning protrusion, 302-second positioning protrusion, 303-third positioning protrusion, 301 a-inclined plane edge, 302 a-second inclined plane edge, 31-first buckle section and 32-second buckle section.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings of the embodiments of the present application. It should be apparent that the described embodiments are only some of the embodiments of the present application, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the application without any inventive step, are within the scope of protection of the application.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs. The use of the terms "a" or "an" and the like in the description and in the claims of the present application do not denote a limitation of quantity, but rather denote the presence of at least one.

"fixedly attached", as used in the specification and claims of this application, does not include an integral attachment.

In the description of the present specification and claims, the terms "upper", "lower", "horizontal", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of describing the present application and simplifying the description, but do not indicate or imply that the referred device or unit must have a specific direction, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

Embodiments of the present application will now be described with reference to the accompanying drawings.

The first embodiment is as follows:

figures 1 to 6 show a preferred embodiment of the floor panels of the application, which, like most of the floor panels of the prior art, have a substantially rectangular outer contour and are provided on each side with a catch 3 (colloquially called floor button) for connecting two adjacent floor panels together.

Unlike the conventional floor boards, the floor board of the present embodiment is mainly composed of a lower corrugated substrate 1 and an upper veneer layer 2. The lower corrugated substrate 1 and the upper facing layer 2 are both rectangular in configuration, both having two parallel long sides and two parallel short sides. And, every side of corrugated substrate 1 all fixedly connected with a buckle 3, totally four buckles 3, two of these four buckles 3 are pin thread 3a, and two are box 3b in addition. Specifically, one long side and one short side of the corrugated base plate 1 are fixedly connected with a male buckle 3a, respectively, and the other long side and the other short side of the corrugated base plate 1 are fixedly connected with a female buckle 3b, respectively. It can be seen that the buckle and the floor body in this embodiment are not an integral structure, and the buckle and the floor body are two separate parts connected with each other. The male buckle 3a and the female buckle 3b which are the buckle 3 on the floor block are matched, so-called 'matched' means: the male buckle 3a and the female buckle 3b detached from the corrugated board 1 can be engaged with each other. In this way, a plurality of such floor panels can be interconnected by means of co-operating male and female buttons to form a flooring system for laying on the ground, as shown in fig. 5.

The two male buttons on the floor block can adopt different structures, and the two female buttons can also adopt different structures. For example, the floor block disclosed in chinese patent application No. CN101910528B, has two long sides respectively provided with a male buckle and a female buckle which are mutually matched in a manner of turning at an angle, and two short sides respectively provided with a male buckle and a female buckle which are mutually matched in a manner of vertical displacement and have another structure.

The corrugated substrate 1 of the present embodiment also includes, as in the conventional corrugated board: an upper plate body 101, a lower plate body 102 arranged in parallel below the upper plate body, and a corrugated medium layer 103 fixedly connected between the upper plate body and the lower plate body.

Further, the upper plate 101 is adhesively fixed to the upper surface of the corrugated core 103 by an adhesive (hot melt adhesive film), and the lower plate 102 is adhesively fixed to the lower surface of the corrugated core 103 by an adhesive (hot melt adhesive film). Of course, the upper and lower plate bodies and the corrugated medium layer may be welded and fixed.

The finishing layer 2 is adhesively fixed to the upper surface of the upper plate 101 by an adhesive, and thus the finishing layer 2 is bonded to the corrugated board 1. In order to improve the compression resistance and impact resistance of the finishing layer 2 in the vertical direction and prevent the finishing layer 2 from being broken when it is subjected to a vertical load or a vertical impact (especially, when the finishing layer 2 is a marble plate or a tile plate), the adhesive for bonding the finishing layer 2 and the upper plate body 101 is preferably continuous and dense, so that a continuous and dense adhesive layer (not shown) is formed between the finishing layer 2 and the upper plate body 101.

The continuous and dense adhesive layer can be realized by increasing the amount of the adhesive, or by sandwiching a hot melt adhesive film between the facing layer 2 and the upper plate 101, and melting the hot melt adhesive film at a high temperature and then solidifying the molten hot melt adhesive film at a low temperature.

Unlike the conventional corrugated board, the area of the corrugated medium layer 103 in the corrugated board of the present embodiment is smaller than the areas of the upper board body 101 and the lower board body 102, and each side of the corrugated medium layer 103 is located inside the corresponding side of the upper board body 101 and the lower board body 102, so that the snap fit gap 1a around the corrugated medium layer 103 is formed between the upper board body 101 and the lower board body 102. The respective clips 3 are fitted into the clip fitting gaps 1 a. The engaging portion fitted into the engaging gap 1a is welded and fixed to the upper plate 101 and the lower plate 102.

The clip 3 may be welded to only one of the upper plate 101 and the lower plate 102. The advantage of so designing lies in: the assembly efficiency of buckle and corrugated substrate 1 has been promoted. But has the defects that: the connection strength of the clip and the corrugated base plate 1 is slightly poor.

Alternatively, an adhesive may be applied to the clip 3, and the portion of the clip fitted into the clip fitting gap 1a may be fixed to the upper plate 101 or/and the lower plate 102 by the adhesive.

In this embodiment, each buckle is an integrated part and is made of aluminum profile. Of course, the latch may be made of other materials, such as an integrally formed plastic member.

In this embodiment, the corrugated board 1 is also a rectangular board having a long strip shape, and the shape of the corrugated board is matched with that of the floor board. Like most corrugated board, the corrugated core layer 103 in this embodiment is also a wave-shaped structure having a plurality of alternately arranged peaks and valleys. It is known that the bending strength of the rectangular strip board in the length direction is weaker than that in the width direction, while the bending strength of the corrugated medium layer in the direction perpendicular to the arrangement of the peaks and valleys is much higher than that in the direction parallel to the arrangement of the peaks and valleys. Based on this, this embodiment arranges each crest and trough of this wavy flute core layer along corrugated substrate 1's width direction in turn to rectangular floor block's bending resistance in length direction has been promoted greatly.

As described above, the upper plate 101 is adhesively fixed to the upper surface of the corrugated core 103 by an adhesive (hot melt adhesive film), and the lower plate 102 is adhesively fixed to the lower surface of the corrugated core 103 by an adhesive (hot melt adhesive film). Therefore, the bonding process is controlled only when the upper plate body and the lower plate body are bonded with the middle corrugated core layer, all wave crests of the corrugated core layer can be bonded and fixed with the upper plate body 101, and all wave troughs of the corrugated core layer are bonded and fixed with the lower plate body 102, so that all wave crests and all wave troughs of the corrugated core layer are tightly combined with the upper plate body and the lower plate body, and the rectangular floor block can bear large bending torque in the width direction.

When the floor block is installed indoors (or outdoors), the upper surface of the decorative layer 2 is exposed in the environment for people to step on, so that the decorative layer has a decorative function and good wear resistance. The veneer layer 2 is typically a marble, tile, wood or plastic board. The finishing layer 2 is in this embodiment a wood board and the thickness of the wood board is only a few millimeters.

The corrugated board 1 is a corrugated aluminum board, the upper board 101 and the lower board 102 are both aluminum boards, and the middle corrugated layer 103 is an aluminum corrugation. The finish layer 2 and the upper plate 101, the lower plate 102 and the corrugated medium layer 103 of the corrugated board 1 are made of other materials, such as: the veneer layer 2 may be a marble plate, a tile plate, a plastic plate, or the like. The upper plate body 101 and the lower plate body 102 may also be steel plates, and the middle corrugated layer 103 may also be a stainless steel corrugation, a plastic corrugation or a glass cloth corrugation.

The embodiment adopts a corrugated aluminum plate as the substrate of the floor block, and is mainly based on the following two considerations:

1. the corrugated aluminum has mature manufacturing process, lower cost and light weight.

2. Corrugated aluminum plate's heat conduction rate is high, can be used for underfloor heating system with this floor block to with the heat of floor block below heat source lead finish coat 2 fast, lead indoor by finish coat 2 again.

In the manufacturing process of this floor block, when inlaying buckle 3 and inlaying the buckle between the upper and lower plate body and inlaying dress clearance 1a, the inlaying depth of buckle 3 is difficult to control, and this position that leads to buckle 3 on each floor block is not unified, and then leads to each floor block to link together the back, and the gap between adjacent floor blocks is not of uniform size, influences beautifully. Even the severe situation may result in the panels being unable to be assembled together.

Based on this, the present embodiment provides the positioning projection 301 projecting upward on each of the clips 3, and the side of the upper plate 101 and the positioning projection 301 abut against each other in the horizontal direction (the positioning projection abuts against the outer side of the corresponding side of the upper plate).

During the assembly, will buckle 3 aim at the buckle between the upper and lower plate body and inlay dress clearance 1a and inwards insert, when the protruding 301 of location on buckle 3 and the corresponding side butt of upper plate body can't further interpolation, explain buckle 3 and install in place.

Further, the positioning protrusion 301 is a linear extending strip-shaped protrusion, and a length side of the strip-shaped positioning protrusion and a side of the upper plate 101 abut against each other in the horizontal direction. So not only can fix a position inlaying of buckle 3 and adorn the degree of depth, can also fix a position inlaying of buckle 3 and adorn the angle very accurately.

Referring to fig. 1 and 2, the positioning protrusions 301 of the two clasps 3 (male clasps) are higher than the upper surface of the upper plate body 101, and the raised parts of the positioning protrusions 301 abut against the side edges of the finishing layer 2 in the horizontal direction. The design is favorable: after the buckles 3 are assembled with the corrugated base board 1, the positioning protrusions 301 of two buckles 3 protrude out of the upper surface of the upper board body 101, so as to provide positioning for the installation of the veneer layer 2.

If the side of the veneer layer 2 is of a flat structure, the upper part of the positioning bulge 301 completely abuts against the outer side of the veneer layer 2, after the floor plates are spliced, a large gap can exist between the adjacent veneer layers 2, the appearance is not attractive, and the floor plates are also easy to pollute. In this embodiment, the lower portions of the two side edges of the finishing layer 2 are formed with grooves 202 which are recessed inward and the notches of which extend to the lower surface of the finishing layer 2, and the upper portions of the positioning protrusions 301 extend into the grooves 202, as shown in fig. 1 and 2.

Referring again to fig. 1 and 2, if only two positioning protrusions 301 on the buckle 3 are higher than the upper surface of the upper plate 101 to position the installation of the finishing layer 2, the positioning installation of the finishing layer 2 still cannot be accurate and rapid. Therefore, in this embodiment, the second positioning protrusion 302 protruding upward is provided on the other two buckles 3 (male buckles) of the floor board, and the other side of the finishing layer 2 and the second positioning protrusion 302 abut against each other in the horizontal direction. So, after buckle 3 and corrugated substrate 1 assembly were accomplished, wherein two buckle 3's high location arch 301 and two other buckle 3's second location arch 302 just formed a groove-shaped structure, aim at this groove-shaped structure's notch with finish layer 2 and imbed downwards, alright completion finish layer 2's location installation.

In this embodiment, the lower portions of the other two side edges of the finishing layer 2 are also provided with grooves 202 which are recessed inwards and the notches of which extend to the lower surface of the finishing layer 2, and the upper portions of the second positioning protrusions 302 extend into the grooves 202.

In this embodiment, the second positioning protrusion 302 is also a linear extending strip-shaped protrusion, and the length side of the second positioning protrusion 302 and the side of the finishing layer 2 abut against each other in the horizontal direction.

In addition, in order to more accurately position the fitting of the snaps 3 to the corrugated board 1, the present embodiment further provides a third positioning projection 303 projecting downward on each of the snaps 3, and the side edge of the lower plate body 102 and the third positioning projection 303 abut against each other in the horizontal direction.

Referring to fig. 1, 2 and 4, the corrugated board 1 of the present embodiment is a rectangular board formed by four straight sides, and the shape of the board corresponds to the shape of the entire floor board. As mentioned above, each side of the floor board is provided with a catch 3, and each catch 3 is provided with a positioning projection 301 for positioning the mounting position thereof. However, the positioning protrusion 301 of the clip 3 can only position the insertion depth of the clip at the side of the corrugated board 1, and cannot position the clip 3 along the linear side length direction of the corrugated board. However, as long as the length of the clip 3 is set to be smaller than the length of the straight side of the corrugated base, there is substantially no problem that the end of the clip 3 excessively protrudes (protrudes) outside the corrugated base when assembled. However, the present embodiment provides a more ingenious approach to solve the above problems: referring to fig. 4 and 6, each clip 3 on each side of the corrugated board 1 is divided into two sections, so that each clip 3 is formed of a first clip section 31 and a second clip section 32, and the first clip section 31 and the second clip section 32 are provided with the above-mentioned positioning projections 301. Before assembly, the first buckle section 31 of each buckle and the second buckle section 32 of the corresponding other buckle are arranged at a right angle (L shape) and one end of the first buckle section is welded and fixed together, and the second buckle section 32 of each buckle and the first buckle section 31 of the corresponding other buckle are arranged at a right angle (L shape) and one end of the second buckle section is welded and fixed together. Then, the first buckle section 31 and the second buckle section 32, which are welded together at one end and arranged at a right angle and respectively belong to two different buckles 3, are fitted into the buckle fitting gap 1a at two linear side edges (obviously, the two linear side edges are perpendicular to each other) of the corrugated board 1 in the manner described above (i.e., the positioning protrusion 301 of each buckle section horizontally abuts against the side edge of the upper board body 101). After the assembly is completed, the positioning protrusions 301 on the first buckling section 31 and the positioning protrusions 301 on the second buckling section 32 respectively abut against two vertical side edges of the board body on the corrugated base board, so that the embedding depth of each buckling section is positioned, and the position of each buckling section in the length direction of the straight side edge of the corrugated base board is also positioned.

In addition, record respectively and belong to two different buckles 3 and be the one end welded fastening of the first section 31 of detaining and the second section 32 of detaining that the right angle distributes and be back together, promoted each and detain section and corrugated substrate 1's stability of being connected, reduced each and detain the possibility that leads to the side of the plate body or the lower plate body outwards to overturn the perk after section (buckle) atress.

After the assembly is completed, the first buckle section 31 and the second buckle section 32 belonging to the same buckle 3 do not need to be welded.

It is clear that we can just retain one "L" shaped structural element in fig. 6, leaving the remaining three "L" shaped structural elements. The two sides of the only reserved L-shaped structural member are respectively a floor block, one is a male buckle, and the other is a female buckle. In this case, the clip 3 is not formed of two segments, but has a one-piece structure. And these two buckles 3 inlay the buckle that is adorned in two straight line side positions of corrugated substrate 1 respectively and inlay in dress clearance 1a, have both located the embedding degree of depth of buckle at corrugated substrate straight line side in the same way, have located the position of buckle at corrugated substrate straight line side length direction again.

Example two:

figures 7 and 8 show a second preferred embodiment of a floorboard of the kind of the present application, which is essentially identical in construction to the embodiment one floorboard, with the main difference that:

all buckles 3 are female buckles 3b, and the positioning protrusion 301 of each buckle 3 protrudes from the upper surface of the upper plate 101 and is abutted against the side edge of the veneer layer 2 in the horizontal direction. The second positioning protrusions 302 of the first embodiment are not additionally arranged on all the buckles 3.

Example three:

figures 9 and 10 show a third preferred embodiment of a floorboard of the kind specified in the present application, which is essentially identical in construction to the embodiment one floorboard, with the main difference that:

all the clasps 3 are male clasps 3a, and each clasp 3 includes a second positioning projection 302 projecting upward and horizontally abutting against the facing layer side.

In general, the floor boards of the third and fourth embodiments are used in combination and connected to each other to form a large-area floor system paved on the ground.

Example four:

figures 11 and 12 show a fourth preferred embodiment of a floorboard of the kind specified in the present application, which is essentially identical in construction to the embodiment one floorboard, with the main difference that:

those positioning projections 301, which are higher than the upper surface of upper plate body 101, have their tops bent inward and bite into the side edges of finishing layer 2. This provides a more secure grip of the facing layer 2. The tops of the second positioning projections 302 are also bent inward and bite into the side edges of the finishing layer 2. During manufacturing, the middle part of the height of the side of the facing layer 2 may be provided with a straight extending biting groove 201, and then the positioning protrusions 301 and the second positioning protrusions 302 which are originally straight may be bent and bitten into the biting groove.

Example five:

figures 13 to 15 show a fifth preferred embodiment of a floorboard of the kind of the present application, which is essentially identical in construction to the embodiment one floorboard, with the main difference that:

those positioning projections 301 which are higher than the upper surface of upper plate body 101, the length sides of which facing finish layer 2, are beveled sides 301a having a top side away from the center of the finish layer and a bottom side close to the center of the finish layer, are higher than the upper surface of upper plate body 101. A second positioning protrusion 302, which is higher than a portion of the upper surface of upper plate body 101, a length side facing finish layer 2 is a second inclined surface side 302a having a top side away from the center of the finish layer and a bottom side close to the center of the finish layer.

Thus, the two beveled edges 301a and the two second beveled edges 302a together form a flared slot with a wide top and a narrow bottom, which is very beneficial for positioning and installing the upper finishing layer 2 downwards.

Example six:

fig. 16 and 17 show a sixth preferred embodiment of a floorboard of the kind of the present application, which is substantially identical in structure to the floorboard of the embodiment, with the main difference that:

the top of the positioning protrusion 301 on all the buckles 3 is bent inwards and bites into the side edge of the veneer layer 2.

Example seven:

fig. 18 and 19 show a seventh preferred embodiment of a floorboard of the kind of the present application, which is substantially identical in structure to the floorboard of the embodiment, with the main difference that:

the length side of the positioning protrusion 301 on all the buckles 3, which is higher than the upper surface of the upper plate body 101, facing the finishing layer 2 is a bevel side 301a with the top side far away from the center of the finishing layer and the bottom side close to the center of the finishing layer.

Example eight:

fig. 20 and 21 show an eighth preferred embodiment of a floorboard of the kind of the present application, which is substantially identical in structure to the floorboard of the embodiment, with the main difference that:

the top of the second positioning protrusion 302 on all the buckles 3 is bent inwards and bites into the side edge of the finishing layer 2.

Example nine:

fig. 22 and 23 show a ninth preferred embodiment of a floorboard of the kind of the present application, which is substantially identical in construction to the floorboard of the embodiment, with the main difference that:

the second positioning protrusion 302 on all the clasps 3, which is higher than the upper surface of the upper plate body 101, has a length edge facing the finishing layer 2, which is a second inclined surface edge 302a with a top side far away from the center of the finishing layer and a bottom side close to the center of the finishing layer.

It should be noted that in some other embodiments of the present application, we can make the floor boards in other shapes, such as triangle, hexagon, fan shape and even various shapes. Moreover, the buckle 3 is not necessarily arranged on each side of the floor board, and the buckle 3 can be arranged on at least one side according to actual needs.

Example ten:

fig. 24 shows a concrete embodiment of the wall panel of the present application, which has the same structure as the floor boards in the first embodiment, except that the present embodiment uses it as a wall panel, and the first embodiment uses it as a floor board.

The wall panel can be fixed on the outer wall surface of a building to serve as an outer wall panel, and can also be arranged on the inner wall surface of the building to serve as an inner wall panel.

During the installation, the shingle nail that the side has public, female buckle can splice each other fixedly, and each shingle nail can both make things convenient for the installation of wall system as the basis installation location by a shingle nail before, and the wall system that forms has fine structural integrity and aesthetic property moreover.

The above are exemplary embodiments of the present application only, and are not intended to limit the scope of the present application, which is defined by the appended claims.

Claims (16)

1. A floor panel or wall panel, comprising:

a corrugated substrate (1),

a finishing layer (2) fixed to the upper surface of the corrugated substrate, and

a buckle (3) fixedly arranged at the side edge of the corrugated substrate;

the corrugated board (1) includes:

an upper plate body (101),

a lower plate body (102) arranged in parallel below the upper plate body,

a corrugated core layer (103) fixedly connected between the upper plate body and the lower plate body;

the corrugated board is characterized in that a buckle embedding gap (1a) located around the corrugated core layer (103) is formed between the upper board body (101) and the lower board body (102), the buckle (3) comprises a positioning protrusion (301) protruding upwards, the buckle (3) is embedded into the buckle embedding gap (1a) and is welded or adhered and fixed with the upper board body (101) or/and the lower board body (102), and the side edge of the upper board body (101) is abutted to the positioning protrusion (301) in the horizontal direction.

2. -floor panel or wall panel according to claim 1, characterized in that said positioning projection (301) is a linearly extending strip-shaped projection, the length sides of which positioning projection (301) and the side edges of the upper panel body (101) abut against each other in the horizontal direction.

3. -floor panel or wall panel according to claim 2, characterized in that the finishing layer (2) is a marble, tile, wood or plastic board, the positioning projections (301) being higher than the upper surface of the upper panel body (101) and abutting against the sides of the finishing layer (2) in the horizontal direction.

4. -floor panel or wall panel according to claim 3, characterized in that the lower part of the side edge of the finishing layer (2) is made with a groove (202) that is recessed inwards and whose notch extends to the lower surface of the finishing layer (2), and that the upper part of the positioning projection (301) extends into the groove (202).

5. -floor panel or wall panel according to claim 3, characterized in that said corrugated base (1) is a polygonal panel enclosed by at least three rectilinear sides, each of which is fixedly provided with one of said catches (3); the length edge of the positioning bulge (301) which is higher than the upper surface of the upper plate body (101) and faces the veneer layer (2) is a bevel edge (301a) with the top side far away from the center of the veneer layer and the bottom side close to the center of the veneer layer.

6. -floor panel or wall panel according to claim 3, characterized in that the positioning projections (301) have their tops bent inwards and biting into the side edges of the finishing layer (2).

7. -floor panel or wall panel according to claim 1 or 2, characterized in that the clasp (3) comprises a second positioning projection (302) projecting upwards, the side of the finishing layer (2) and the second positioning projection (302) abutting each other in the horizontal direction.

8. -floor panel or wall panel according to claim 7, characterized in that the lower part of the side edge of the finishing layer (2) is made with a groove (202) that is recessed inwards and whose notch extends to the lower surface of the finishing layer (2), and that the upper part of the second positioning projection (302) extends into the groove (202).

9. -floor panel or wall panel according to claim 8, characterized in that said second positioning projection (302) is a linearly extending strip-shaped projection, the length of which second positioning projection (302) abuts against the side edge of the finishing layer (2) in the horizontal direction;

the corrugated substrate (1) is a polygonal plate formed by enclosing at least three straight line side edges, and each straight line side edge is fixedly provided with one buckle (3);

and the length edge of the second positioning bulge (302) which is higher than the upper surface of the upper plate body (101) and faces to the finishing layer (2) is a second inclined surface edge (302a) with the top side far away from the center of the finishing layer and the bottom side close to the center of the finishing layer.

10. -floor panel or wall panel according to claim 7, characterized in that the top of the second positioning projection (302) is bent inwards and bites into the side edge of the finishing layer (2).

11. -floor panel or wall panel according to claim 1, characterized in that the corrugated base (1) is a rectangular panel enclosed by four straight sides, and that two of the clips (3), which are arranged at right angles and welded together at one end, are fitted in the clip fitting gaps (1a) of the corrugated base (1) at the positions of the two straight sides, respectively.

12. The floor or wall panel as claimed in claim 1, wherein the corrugated base (1) is a rectangular plate enclosed by four straight sides, each of the straight sides is embedded with one of the buckles (3), each buckle (3) is respectively composed of a first buckle section (31) and a second buckle section (32), the first buckle section (31) and the second buckle section (32) are respectively provided with the positioning protrusion (301), the first buckle section (31) of each buckle is arranged at a right angle with the second buckle section (32) of the other corresponding buckle and one end of each buckle is welded, the second buckle section (32) of each buckle is arranged at a right angle with the first buckle section (31) of the other corresponding buckle and one end of each buckle is welded, and the first buckle section (31) and the second buckle section (32) which are welded together and arranged at a right angle are respectively embedded in the buckle embedding gaps (1a) at two straight sides of the corrugated base (1).

13. -floor panel or wall panel according to claim 1, characterized in that said corrugated base (1) is a polygonal panel enclosed by at least three rectilinear sides, each of which is fixedly provided with one of said catches (3);

the positioning bulge (301) on at least one of the buckles (3) is higher than the upper surface of the upper plate body (101) and is mutually abutted with the side edge of the veneer layer (2) in the horizontal direction;

the positioning protrusions (301) on the rest of the buckles (3) comprise second positioning protrusions (302) protruding upwards, and the side edges of the veneer layer (2) are abutted to the second positioning protrusions (302) in the horizontal direction.

14. -floor panel or wall panel according to claim 1, characterized in that the clasp (3) further comprises a third positioning projection (303) projecting downwards, the side of the lower plate (102) and the third positioning projection (303) abutting each other in the horizontal direction.

15. A method of assembling a floor panel or wall panel as claimed in claim 11, comprising:

firstly, arranging two buckles (3) at a right angle, and welding and fixing one ends of the buckles to form an L-shaped component;

then, two buckles (3) which are arranged in a right angle and one ends of which are welded and fixed are respectively embedded in the buckle embedding gaps (1a) at the two linear side positions of the corrugated base plate (1), and the positioning bulge (301) on each buckle (3) is enabled to be mutually abutted with the side edge of the upper plate body (101) in the horizontal direction.

16. A method of assembling a floor panel or wall panel as claimed in claim 12, comprising:

firstly, a first buckling section (31) of each buckle (3) and a second buckling section (32) of the other corresponding buckle are arranged at a right angle, and one end of each first buckling section is welded and fixed to form an L-shaped part;

then, a first buckling section (31) and a second buckling section (32) which are welded together at one end and arranged at a right angle are respectively embedded in the buckling embedding gaps (1a) at two straight line side edge positions of the corrugated base plate (1), and a positioning bulge (301) on each of the first buckling section (31) and the second buckling section (32) is abutted against the side edge of the upper plate body (101) in the horizontal direction.

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