CN216199564U - Artificial stone slab convenient to splice - Google Patents

Abstract

The utility model discloses an artificial stone slab convenient for splicing, which belongs to the technical field of slabs and comprises a main body, wherein at least one side of the main body is provided with a splicing part, the splicing part comprises an upper mortise, an upper tenon, a lower mortise and a lower tenon, when the main body is spliced with another group of main bodies, the lower tenon of the other group of main bodies is embedded in the upper mortise, the upper tenon of the other group of main bodies is embedded in the lower mortise, when the artificial stone slab is spliced, adhesives are respectively coated on the splicing parts of two groups of artificial stone slabs, the other group of artificial stone slabs are overturned to push the lower tenon and the upper tenon of the other group of artificial stone slabs to be respectively embedded in the upper mortise and the lower mortise of the first group of artificial stone slab, compared with the prior art, the artificial stone slabs only need to be kept mutually flush, the splicing of the artificial stone slabs is more convenient and efficient, and simultaneously, because the upper mortise, the upper tenon, the lower mortise and the lower tenon of the two groups of artificial stone slabs are respectively embedded with each other, the structural strength of the spliced part of the artificial stone plate is improved, and the tensile property and the bending resistance of the spliced part are better.

Description

Artificial stone slab convenient to splice

Technical Field

The utility model relates to the technical field of plates, in particular to an artificial stone plate convenient to splice.

Background

The natural stone is not suitable for manufacturing the table top with larger size due to the limitation of mechanical property. Generally, artificial stone slabs are mostly used for large-sized table tops, however, in order to save cost, when the table tops with the large sizes are manufactured, different from natural stone, the splicing of the artificial stone slabs is influenced by surface patterns, and a plurality of artificial stone slabs are generally spliced together in a splicing mode. The artificial stone slab is usually spliced by directly bonding two plates together by using an adhesive with the same color, and polishing the joint to form natural transition after the adhesive is solidified. Although the adhesive capacity of adhesives is stronger with the advancement of technology, the splice seam is still at risk of cracking under long-term stress.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, the utility model provides an artificial stone plate which is convenient to splice.

The technical scheme adopted by the utility model for solving the technical problems is as follows: an artificial stone slab convenient to splice comprises a main body, wherein at least one side of the main body is provided with a splicing part, the splicing part comprises an upper mortise, an upper tenon, a lower mortise and a lower tenon, a horizontal step fall exists between the upper mortise and the lower mortise, and the upper tenon and the lower tenon have a horizontal step fall;

when the main body and the other main body are mutually spliced, the lower tenon of the other main body is embedded in the upper mortise, the upper tenon of the other main body is embedded in the lower mortise, and the spliced part is coated with adhesive.

Preferably, the upper tenon and the lower tenon are respectively provided with a reinforcing through hole which transversely penetrates through the upper tenon and the lower tenon, the reinforcing through holes are respectively communicated with the upper mortise and the lower mortise, and the reinforcing through holes are circular through holes.

Preferably, when the main body and the other main body are spliced with each other, the reinforcing through hole of the lower tenon of the other main body is opposite to the reinforcing through hole of the upper tenon of the other main body.

Preferably, the orifices at both ends of the reinforcing through hole are provided with fillets or bevels.

Preferably, both sides of the bottom of the upper mortise and the bottom of the lower mortise are provided with rounded corners, and both sides of the upper end of the upper tenon and the lower tenon are provided with rounded corners.

The utility model has the beneficial effects that: compare in prior art, when the artificial slabstone of concatenation, only need keep two sets of artificial slabstones parallel and level each other can, need not more fixed, the concatenation of artificial slabstone is more convenient, high-efficient, treat that the adhesive solidifies the back, polish to the concatenation seam that two sets of artificial slabstones expose again, simultaneously because the last tongue-and-groove of two sets of artificial slabstones, go up the tenon, lower tongue-and-groove and lower tenon gomphosis each other respectively, the structural strength of promotion artificial slabstone concatenation department that can be great, the tensile of concatenation department is better with the anti buckling performance.

Drawings

FIG. 1 is a perspective view of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view at A in FIG. 1;

FIG. 3 is a schematic cross-sectional view of an embodiment of the present invention;

FIG. 4 is an enlarged schematic view at B of FIG. 3;

FIG. 5 is a schematic illustration of a splice according to an embodiment of the present invention;

FIG. 6 is a schematic cross-sectional view of a splicing state according to an embodiment of the present invention;

fig. 7 is an enlarged schematic view at C in fig. 6.

In the figure, 10, main body; 11. a splice; 12. an upper mortise; 13. an upper tenon; 14. a lower mortise; 15. a lower tenon; 16. the through-hole is reinforced.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1-7, the artificial stone slab convenient for splicing provided by the utility model comprises a main body 10, wherein at least one side of the main body 10 is provided with a splicing part 11, the splicing part 11 comprises an upper mortise 12, an upper tenon 13, a lower mortise 14 and a lower tenon 15, a horizontal step fall exists between the upper mortise 12 and the lower mortise 14, and the upper tenon 13 and the lower tenon 15 have a horizontal step fall;

when the main body 10 is jointed with the other main body 10, the lower tenon 15 of the other main body 10 is embedded in the upper mortise 12, the upper tenon 13 of the other main body 10 is embedded in the lower mortise 14, and the joint 11 is coated with adhesive.

Specifically, when the artificial stone slab is processed, an upper tongue-and-groove 12, an upper tenon 13, a lower tongue-and-groove 14 and a lower tenon 15 are respectively formed on the side edge of the main body 10 by die pressing or later-stage cutting, and the widths and heights of the upper tongue-and-groove 12, the upper tenon 13, the lower tongue-and-groove 14 and the lower tenon 15 are the same; when the artificial stone plates are spliced, adhesives are coated on the splicing parts 11 of the two groups of artificial stone plates respectively, the adhesives are filled in the upper mortise 12 and the lower mortise 14 and are covered on the upper tenon 13 and the lower tenon 15, the other group of artificial stone plates are turned over, the lower tenon 15 and the upper tenon 13 of the other group of artificial stone plates are pushed to be respectively embedded in the upper mortise 12 and the lower mortise 14 of the first group of artificial stone plates, the corresponding upper tenon 13 and the corresponding lower tenon 15 of the first group of artificial stone plates are respectively embedded in the lower mortise 14 and the upper mortise 12 of the other group of artificial stone plates, compared with the prior art, when the artificial stone plates are spliced, only the two groups of artificial stone plates are required to be kept in parallel and level with each other, more fixation is not required, the artificial stone plates are more convenient and efficient to splice, after the adhesives are solidified, the splicing seams of the two groups of artificial stone plates are polished, and simultaneously, the two groups of artificial stone plates are subjected to splicing because the upper mortises 12 and the two groups of artificial stone plates, Go up tenon 13, lower tongue-and-groove 14 and lower tenon 15 gomphosis each other respectively, the structural strength of promotion artificial slate concatenation department that can be great, the tensile and the anti buckling performance of concatenation department are better.

Further, go up tenon 13 and lower tenon 15 and all be equipped with the enhancement through-hole 16 that transversely runs through, and strengthen the through-hole 16 and communicate respectively to last tongue-and-groove 12 and lower tongue-and-groove 14, it is circular through-hole to strengthen the through-hole 16, when main part 10 splices each other with another group of main part 10, the enhancement through-hole 16 of the lower tenon 15 of another group of main part 10 is relative with the enhancement through-hole 16 of tenon 13 on it, artificial slate is when splicing each other, the adhesive can enter into and strengthen the through-hole 16 under the pushing effect, treat the adhesive solidification back, just can form the reinforcing rib of connecting tenon 13 under horizontal connection and another group of artificial slate 15, further improvement artificial slate's splice structure intensity.

Further, strengthen the drill way at through-hole 16 both ends and all be equipped with the radius angle, set up the radius angle in the drill way department of strengthening through-hole 16 and can help the adhesive to fill in strengthening through-hole 16, go up the tank bottom both sides of tongue-and-groove 12 and lower tongue-and-groove 14 and all be equipped with the radius angle, set up the radius angle in tank bottom both sides is for improving the structural strength of cell body, the upper end both sides of going up tenon 13 and lower tenon 15 all are equipped with the radius angle.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, and the scope of protection is still within the scope of the utility model.

Claims (5)

1. The artificial stone slab convenient to splice comprises a main body (10) and is characterized in that at least one side of the main body (10) is provided with a splicing part (11), the splicing part (11) comprises an upper mortise (12), an upper tenon (13), a lower mortise (14) and a lower tenon (15), a horizontal step fall exists between the upper mortise (12) and the lower mortise (14), and the upper tenon (13) and the lower tenon (15) have a horizontal step fall;

when the main body (10) and the other group of main bodies (10) are spliced with each other, the lower tenon (15) of the other group of main bodies (10) is embedded in the upper mortise (12) thereof, the upper tenon (13) of the other group of main bodies (10) is embedded in the lower mortise (14) thereof, and the spliced parts (11) are coated with adhesive.

2. An artificial stone slab facilitating splicing as claimed in claim 1, characterised in that the upper tenon (13) and the lower tenon (15) are each provided with a reinforcement through hole (16) extending transversely therethrough, and the reinforcement through holes (16) are respectively communicated with the upper mortise (12) and the lower mortise (14), and the reinforcement through holes (16) are circular through holes.

3. Artificial stone slab as claimed in claim 2, characterised in that, when said bodies (10) are mutually spliced with one another group of bodies (10), the stiffening through holes (16) of the lower tenons (15) of the other group of bodies (10) are opposite to the stiffening through holes (16) of the upper tenons (13) thereof.

4. An artificial stone slab for facilitating splicing according to claim 2, characterised in that the apertures at both ends of the reinforcing through holes (16) are provided with rounded or bevelled corners.

5. An artificial stone slab facilitating splicing as claimed in claim 1, characterised in that both sides of the bottom of the upper mortise (12) and the lower mortise (14) are rounded, and both sides of the upper end of the upper tenon (13) and the lower tenon (15) are rounded.

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