CN211007461U - Can effectively avoid floor is moulded to stone of deformation fracture - Google Patents

Abstract

The utility model discloses a stone plastic floor that can effectively avoid deformation fracture includes floor body, circle arch and bottom plate, the avris of floor body is provided with sub-hasp and female hasp, and the bottom of floor body is paintd the mortar, be provided with net cloth between the mortar, and the lower terminal surface of mortar is provided with the bottom plate, the bottom of mortar and the top of bottom plate are provided with first slotted hole and second slotted hole respectively, the circle arch runs through in first slotted hole and second slotted hole, and the top of circle arch is connected with net cloth to the inboard bottom of circle arch is provided with the triangular supports check, the lower terminal surface of bottom plate is provided with dampproofing coating. This can effectively avoid deformation cracking's stone to mould floor has the effect of the unanimous external resistance to compression of edge from the center, compromises horizontal and fore-and-aft compressive capacity, the effectual deformation cracking who prevents the stone and mould floor.

Description

Can effectively avoid floor is moulded to stone of deformation fracture

Technical Field

The utility model relates to a floor technical field is moulded to stone specifically is a floor is moulded to stone that can effectively avoid deformation fracture.

Background

The main raw material of the stone-plastic floor is natural stone powder, and the stone-plastic floor is a novel green and environment-friendly floor decoration material, and has incomparable advantages for stair bearing and space saving in high-rise buildings due to the super-light and ultrathin appearance, and the super-strong wear-resistant surface, so that the stone-plastic floor is popular with people.

However, the existing stone plastic floor has the following problems when in use:

the stone plastic floor is subjected to the influence of weathering and other external factors after being used for a long time, or is subjected to local deformation or cracking caused by extrusion and collision in the transportation process, the construction period is delayed, the deformation and cracking of the stone plastic floor simultaneously influence the whole pavement, the pavement again needs to consume manpower and material resources, the attractiveness is damaged, and the normal life of people is influenced.

Aiming at the problems, innovative design is urgently needed on the basis of the original stone-plastic floor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can effectively avoid stone of deformation fracture to mould floor, carry the influence through morals and manners and other external factors after the stone is moulded floor stone and is moulded the floor long-time use with solving above-mentioned background art and appearing, with or receive the local deformation or the fracture that the extrusion collision leads to in the transportation, the time limit for a project has been delayed, the deformation fracture that the stone was moulded the floor has influenced whole use when mating formation simultaneously, the need expend manpower and materials of mating formation again, not only destroy pleasing to the eye degree, influence the problem of people's normal life simultaneously.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a can effectively avoid stone of deformation fracture to mould floor, includes floor body, circle arch and bottom plate, the avris of floor body is provided with sub-hasp and female hasp, and the bottom of floor body is paintd the mortar, be provided with net cloth between the mortar, and the lower terminal surface of mortar sets up the bottom plate, the bottom of mortar and the top of bottom plate are provided with first slotted hole and second slotted hole respectively, the circle arch runs through in first slotted hole and second slotted hole, and the top of circle arch is connected with net cloth to the inboard bottom of circle arch is provided with the triangular supports check, the lower terminal surface of bottom plate is provided with dampproofing coating.

Preferably, the female lock catch is composed of 2 hook-shaped structures, the length of the hook-shaped structure positioned above is larger than that of the hook-shaped structure positioned below, the female lock catch is attached to the secondary lock catch, and a sliding dismounting and mounting structure is formed between the female lock catch and the secondary lock catch.

Preferably, the circular arches are of a hemispherical structure, are uniformly distributed below the grid cloth, and the tops of the circular arches are in fit connection with the lower end face of the grid cloth.

Preferably, the triangular support lattices are internally tangent triangles of a circular structure at the bottom of the circular arch, and the triangular support lattices correspond to the circular arch one by one.

Preferably, the first slot and the second slot are connected to form a hemispherical structure, the inner part of the first slot and the inner part of the second slot are attached to the outer wall of the circular arch, and the first slot and the second slot are on the same horizontal line with the lower end face of the circular arch.

Compared with the prior art, the beneficial effects of the utility model are that: the stone-plastic floor capable of effectively avoiding deformation cracking has the effect of uniformly resisting pressure outwards from the inner center to the edge, and has both transverse and longitudinal pressure resistance capability, so that the stone-plastic floor is effectively prevented from deformation cracking;

1. the longitudinal pressure on the floor body is resisted only through the circular arch, the bearing capacity of the floor body is improved, and the transverse pressure on the floor body is resisted through the triangular support grids, so that the interior of the floor body can bear the pressure from various angles, and the toughness of the floor body is enhanced;

2. only need the slip concatenation through sub-hasp and female hasp for the edge of floor body is connected firmly, is difficult for separately between the floor body, and the compressive capacity of reinforcing floor body edge makes floor body edge non-deformable fracture.

Drawings

FIG. 1 is a schematic view of a front cross-sectional structure of the present invention;

FIG. 2 is a schematic view of the bottom-up structure of the present invention;

FIG. 3 is an enlarged schematic view of A of FIG. 1 according to the present invention;

fig. 4 is a schematic view of the connection structure of the secondary lock and the primary lock of the present invention.

In the figure: 1. a floor body; 2. a secondary lock catch; 3. a female lock catch; 4. mortar; 5. mesh cloth; 6. a circular arch; 7. a triangular support lattice; 8. a base plate; 9. a moisture resistant coating; 10. a first slot; 11. a second slot.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a can effectively avoid stone plastic floor of deformation fracture, including floor body 1, son hasp 2, female hasp 3, mortar 4, net cloth 5, the circular arch 6, triangular support check 7, bottom plate 8, dampproof coating 9, first slotted hole 10 and second slotted hole 11, the avris of floor body 1 is provided with son hasp 2 and female hasp 3, and floor body 1's bottom is paintd with mortar 4, be provided with net cloth 5 between the mortar 4, and mortar 4's lower terminal surface sets up bottom plate 8, the bottom of mortar 4 and bottom plate 8's top are provided with first slotted hole 10 and second slotted hole 11 respectively, circular arch 6 runs through in first slotted hole 10 and second slotted hole 11, and circular arch 6's top is connected with net cloth 5, and the inboard bottom of circular arch 6 is provided with triangular support check 7, the lower terminal surface of bottom plate 8 is provided with dampproof coating 9.

The main lock catch 3 is composed of 2 hook-shaped structures, the length of the hook-shaped structure positioned above is larger than that of the hook-shaped structure positioned below, the main lock catch 3 is attached to the sub lock catch 2, and a sliding dismounting and mounting structure is formed between the main lock catch 3 and the sub lock catch 2, so that the floor body 1 can be spliced only in a sliding mode and cannot be spliced or dismounted in an colliding mode.

The dome 6 sets up to hemispherical structure, and 6 evenly distributed of dome is in net cloth 5 below to the top of dome 6 is connected with the lower terminal surface laminating of net cloth 5, and hemispherical structure makes floor body 1 bigger at fore-and-aft bearing pressure limit, is difficult for damaging through trampling.

Triangular support check 7 sets up to the interior tangent triangle of 6 circular column structures in circular bottom of circle arch, and triangular support check 7 and 6 one-to-one of circle arch, and the inside of circle arch 6 makes floor body 1 bigger at horizontal bearing pressure limit in addition three angular column structures to make floor body 1 be difficult for bending deformation.

First slotted hole 10 and second slotted hole 11 link to each other and constitute hemispherical structure, and the laminating of the interior outer wall with circle arch 6 of first slotted hole 10 and second slotted hole 11 is connected, and first slotted hole 10 and second slotted hole 11 and the lower terminal surface of circle arch 6 are on same water flat line, through mortar 4 and bottom plate 8 fixed to circle arch 6, in addition the evenly distributed of circle arch 6 for floor body 1 is more firm, non-deformable fracture.

The working principle is as follows: when the stone-plastic floor capable of effectively avoiding deformation cracking is used, firstly, as shown in figures 1-3, mortar 4 is coated at the bottom of a floor body 1, and a grid cloth 5 is arranged in the mortar 4 to be used as an interlayer, so that the adhesion degree of the mortar 4 is increased, as shown in figure 3, the upper half part of a circular arch 6 is connected in a first groove hole 10 at the lower end surface of the mortar 4, the lower half part of the circular arch 6 is connected in a second groove hole 11 at the upper end surface of a bottom plate 8, so that the mortar 4 is more tightly connected with the bottom plate 8, meanwhile, the spherical structure at the outer side of the circular arch 6 greatly enhances the limit of longitudinal pressure born by the floor body 1, as shown in figure 2, the circular arches 6 are uniformly distributed, so that the compression resistance degree of the whole floor body 1 is improved, deformation cracking caused by heavy objects is avoided, a triangular support lattice 7 arranged in the circular arch 6 is an inscribed regular triangle, through the stability of the triangle, the floor body 1 is not easy to bend when being stressed transversely, as shown in fig. 1, the combination of transverse compression resistance and longitudinal compression resistance improves the toughness of the floor body 1, and meanwhile, the moisture-proof coating 9 on the lower end surface of the bottom plate 8 effectively blocks the penetration of moisture, and the service life of the floor body 1 is prolonged;

as shown in fig. 1 and 4, the floor body is spliced through the relative sliding of the sub-lock catch 2 and the female lock catch 3 arranged on the side surface of the floor body 1, which is different from the butt-joint splicing method, the sliding splicing method can lead the floor body 1 to bear the transverse pulling force, the connection stability between the floor bodies 1 is effectively improved, the connection of the sub-lock catch 2 and the female lock catch 3 forms a double-lock structure, the transverse friction force between the floor bodies 1 is increased, meanwhile, the edge of the floor body 1 can be prevented from deforming and cracking, and the floor body 1 has good deformation and cracking resistant effects from the edge to the inside.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (5)

1. The utility model provides a can effectively avoid floor is moulded to stone of deformation fracture, includes floor body (1), dome (6) and bottom plate (8), its characterized in that: the avris of floor body (1) is provided with sub-hasp (2) and female hasp (3), and the bottom of floor body (1) has paintd mortar (4), be provided with net cloth (5) between mortar (4), and the lower terminal surface of mortar (4) is provided with bottom plate (8), the bottom of mortar (4) and the top of bottom plate (8) are provided with first slotted hole (10) and second slotted hole (11) respectively, circle arch (6) run through in first slotted hole (10) and second slotted hole (11), and the top of circle arch (6) is connected with net cloth (5) to the inboard bottom of circle arch (6) is provided with triangular supports check (7), the lower terminal surface of bottom plate (8) is provided with dampproofing coating (9).

2. The stone-plastic floor capable of effectively avoiding deformation cracking as claimed in claim 1, wherein: the female lock catch (3) is composed of 2 hook-shaped structures, the length of the hook-shaped structure positioned above is larger than that of the hook-shaped structure positioned below, the female lock catch (3) is attached to the sub-lock catch (2), and a sliding dismounting and mounting structure is formed between the female lock catch (3) and the sub-lock catch (2).

3. The stone-plastic floor capable of effectively avoiding deformation cracking as claimed in claim 1, wherein: the circular arches (6) are of a hemispherical structure, the circular arches (6) are uniformly distributed below the grid cloth (5), and the tops of the circular arches (6) are in fit connection with the lower end face of the grid cloth (5).

4. The stone-plastic floor capable of effectively avoiding deformation cracking as claimed in claim 1, wherein: the triangular support grids (7) are arranged to be inner-tangent triangles of circular structures at the bottoms of the circular arches (6), and the triangular support grids (7) correspond to the circular arches (6) one by one.

5. The stone-plastic floor capable of effectively avoiding deformation cracking as claimed in claim 1, wherein: the first slotted hole (10) and the second slotted hole (11) are connected to form a hemispherical structure, the inner part of the first slotted hole (10) and the outer wall of the circular arch (6) are attached and connected, and the lower end faces of the first slotted hole (10), the second slotted hole (11) and the circular arch (6) are on the same horizontal line.

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