CN211499613U - Stone plastic floor convenient to splice firmly - Google Patents

Abstract

The utility model discloses a stone plastic floor convenient to concatenation is firm, mould the substrate including floor block, through-hole and stone, be provided with the cardboard on the floor block, and be fixed with the fixture block on the cardboard, install the connecting block under the fixture block, and the connecting block setting is on the cardboard, the through-hole has been seted up on the cardboard, and the through-hole fixes on the connecting plate, the connecting plate is installed on the floor block, and has seted up the spacing groove on the connecting plate to the connecting block is fixed in the spacing groove, be provided with the fixed block on the connecting plate, and the fixed block is installed on the cardboard to the fixture block is fixed in the fixed block, the cardboard sets up on the connecting plate, and the connecting block is fixed on the connecting plate. This stone of splicing of being convenient for is moulded floor and is provided with the fixed block, under the effect of cardboard, can push away the fixture block to the spacing groove in, under the effect of fixed block, can prevent effectively that the stone from moulding the floor and taking place crooked when splicing, improved the use high efficiency on stone and moulded the floor.

Description

Stone plastic floor convenient to splice firmly

Technical Field

The utility model relates to a floor technical field specifically is a floor is moulded to stone convenient to concatenation is firm.

Background

The stone plastic floor belongs to a classification of PVC sheet floors, is a novel ground decoration material, does not contain any radioactive elements, is a green and environment-friendly novel ground decoration material, can be applied to various occasions such as indoor families, office buildings, supermarkets and the like, and has the best relative performance when the composite stone plastic floor is used in the office buildings.

However, most of the existing stone-plastic floors have the following problems:

firstly, the stone-plastic floor blocks need to be paved on the ground one by one for sticking in the construction process, the working efficiency is not high, and the deviation can be caused in the paving process;

secondly, in the use of stone-plastic floor, the ground deforms to cause the joint deformation or cracking of the stone-plastic floor, and the service life of the stone-plastic floor is shortened.

We have therefore proposed a stone-plastic flooring which is easy to splice securely, so as to solve the problems set forth above.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a floor is moulded to stone convenient to concatenation is firm to solve the problem that inconvenient floor laying and stone plastic floor piece easily ftractures are moulded to stone in the existing market that above-mentioned background art provided.

In order to achieve the above object, the utility model provides a following technical scheme: a stone-plastic floor convenient to splice firmly comprises floor blocks, through holes and a stone-plastic substrate, wherein the floor blocks are provided with clamping plates, clamping blocks are fixed on the clamping plates, connecting blocks are installed below the clamping blocks and are arranged on the clamping plates, the clamping plates are provided with the through holes, the through holes are fixed on connecting plates, the connecting plates are installed on the floor blocks, limiting grooves are formed in the connecting plates, the connecting blocks are fixed in the limiting grooves, fixing blocks are arranged on the connecting plates and are installed on the clamping plates, the clamping blocks are fixed in the fixing blocks, the clamping plates are arranged on the connecting plates, the connecting blocks are fixed on the connecting plates, cable pipes are installed in the through holes, the stone-plastic substrate is arranged in the clamping plates, rubber buffer layers are fixed below the stone-plastic substrate, abrasion-resistant resin layers are installed below the rubber buffer layers, and low-carbon steel anti-pressure, and a wear-resistant resin layer is arranged on the low-carbon steel pressure-resistant layer.

Preferably, the fixture block is fixed on the terminal surface of cardboard, and the top of fixture block and the top parallel and level of cardboard to the height of fixture block equals the half of cardboard height.

Preferably, be integral structure between fixture block and the connecting block, and the fixture block equidistance distributes on the connecting block to the length of connecting block equals the length of cardboard.

Preferably, the through hole and the connecting plate form a complete circle together, the diameter of the through hole is equal to that of the cable tube, and the through hole is fixed at the central part of the connecting plate.

Preferably, the width between the connecting plate and the clamping plate is equal, an integrated structure is formed between the connecting plate and the fixing block, and the top end of the fixing block is flush with the top end of the floor block.

Preferably, the wear-resistant resin layer symmetric distribution is in the upper and lower both sides of stone plastic substrate, and is the bonding between wear-resistant resin layer and the low carbon steel anti-pressure layer to structure between wear-resistant resin layer and the low carbon steel anti-pressure layer.

Compared with the prior art, the beneficial effects of the utility model are that: the stone-plastic floor convenient for firm splicing;

(1) the stone-plastic floor is provided with the through holes, the clamping plate is placed on the connecting plate, then the connecting block is pushed into the limiting groove, the through holes in the clamping plate and the connecting plate are combined to form a whole circle under the action of the clamping plate, the cable pipe is inserted into the through holes, the clamping plate and the connecting plate can be connected and fixed under the action of the cable pipe, the stone-plastic floor can be spliced conveniently and quickly, the joint cannot crack under the fixing action of the cable pipe, and the use safety of the stone-plastic floor is improved;

(2) the stone-plastic floor is provided with the fixing block, the fixing block can be pushed into the limiting groove under the action of the clamping plate, the stone-plastic floor can be effectively prevented from being inclined during splicing under the action of the fixing block, and the use efficiency of the stone-plastic floor is improved;

(3) this stone plastic floor still is provided with the connecting block, under the effect of connecting plate, can fix the connecting block under the fixed block, when the cable pipe is fixed in the through-hole, under the effect of connecting block, can prevent effectively that stone plastic floor from rocking from top to bottom, has increased the stability in use on stone plastic floor.

Drawings

Fig. 1 is a schematic top view of the floor block of the present invention;

fig. 2 is a schematic view of a cable tube structure according to the present invention;

FIG. 3 is a schematic view of the through hole structure of the present invention;

FIG. 4 is a schematic view of a top view structure of the fixture block of the present invention;

fig. 5 is a schematic view of the top view structure of the fixing block of the present invention;

fig. 6 is a schematic structural view of the wear-resistant resin layer of the present invention.

In the figure: 1. floor blocks; 2. clamping a plate; 3. a clamping block; 4. connecting blocks; 5. a through hole; 6. a limiting groove; 7. a fixed block; 8. a connecting plate; 9. a cable tube; 10. a stone-plastic substrate; 11. a rubber buffer layer; 12. a sound insulating layer; 13. a wear-resistant resin layer; 14. and a low-carbon steel pressure-resistant layer.

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. 1-6, the present invention provides a technical solution: a stone-plastic floor convenient for firm splicing comprises floor blocks 1, clamping plates 2, clamping blocks 3, connecting blocks 4, through holes 5, limiting grooves 6, fixing blocks 7, connecting plates 8, cable pipes 9, stone-plastic base materials 10, rubber buffer layers 11, sound insulation layers 12, wear-resistant resin layers 13 and low-carbon steel pressure-resistant layers 14, wherein the clamping plates 2 are arranged on the floor blocks 1, the clamping blocks 3 are fixed on the clamping plates 2, the connecting blocks 4 are installed below the clamping blocks 3, the connecting blocks 4 are arranged on the clamping plates 2, the through holes 5 are formed in the clamping plates 2, the through holes 5 are fixed on the connecting plates 8, the connecting plates 8 are installed on the floor blocks 1, the limiting grooves 6 are formed in the connecting plates 8, the connecting blocks 4 are fixed in the limiting grooves 6, the fixing blocks 7 are arranged on the connecting plates 8, the fixing blocks 7 are installed on the clamping plates 2, the clamping blocks 3 are fixed, and the connecting block 4 is fixed on the connecting plate 8, the cable tube 9 is installed in the through hole 5, the stone-plastic substrate 10 is arranged in the clamping plate 2, the rubber buffer layer 11 is fixed below the stone-plastic substrate 10, the wear-resistant resin layer 13 is installed below the rubber buffer layer 11, the low-carbon steel pressure-resistant layer 14 is fixed on the stone-plastic substrate 10, and the wear-resistant resin layer 13 is arranged on the low-carbon steel pressure-resistant layer 14.

Fixture block 3 is fixed on the terminal surface of cardboard 2, and the top of fixture block 3 and the top parallel and level of cardboard 2 to fixture block 3 highly equals the half of cardboard 2 height.

Be integral structure between fixture block 3 and the connecting block 4, and fixture block 3 equidistance distributes on connecting block 4 to the length of connecting block 4 equals the length of cardboard 2.

The through hole 5 and the connection plate 8 form a complete circle together, the diameter of the through hole 5 is equal to that of the cable tube 9, and the through hole 5 is fixed at the center of the connection plate 8.

The width equals between connecting plate 8 and the cardboard 2, and is integrated into one piece structure between connecting plate 8 and the fixed block 7 to the top of fixed block 7 is parallel and level with the top of floor block 1.

The wear-resistant resin layers 13 are symmetrically distributed on the upper side and the lower side of the stone-plastic substrate 10, the wear-resistant resin layers 13 are bonded with the low-carbon steel pressure-resistant layers 14, and the wear-resistant resin layers 13 and the low-carbon steel pressure-resistant layers 14 are structurally arranged.

The working principle is as follows: when the stone-plastic floor convenient for firm splicing is used, firstly, the stone-plastic floor is laid in an office area for use, and the used cable tube 9 can be used for laying lines in the floor;

firstly, placing a clamping plate 2 on a connecting plate 8, combining the drawing 1 and the drawing 2, then pushing a connecting block 4 into a limiting groove 6, combining a through hole 5 on the clamping plate 2 and the connecting plate 8 to form a whole circle under the action of the clamping plate 2, inserting a cable tube 9 into the through hole 5, and connecting and fixing the clamping plate 2 and the connecting plate 8 under the action of the cable tube 9;

when the clamping plate 2 is placed on the connecting plate 8, the clamping plate 2 is pushed by combining the figures 3 and 4, the clamping block 3 can be pushed into the limiting groove 6 under the action of the clamping plate 2, and the connecting block 4 can be fixed under the fixing block 7 by the connecting plate 8, when the cable tube 9 is fixed in the through hole 5, referring to fig. 5, under the action of the connecting block 4, the stone-plastic floor can be effectively prevented from shaking up and down, and under the action of the fixing block 7, the stability of the connecting block 4 in the stone-plastic floor can be ensured, and with reference to figure 6, under the action of the wear-resistant resin layer 13, the environment protection and safety of the stone-plastic floor can be ensured, which is the working process of the whole stone-plastic floor and the content which is not described in detail in the specification, such as cable tube 9, rubber buffer layer 11 and low carbon steel crush layer 14, are well known in the art to those skilled in the art.

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 (6)

1. The utility model provides a stone plastic floor convenient to concatenation is firm, includes that floor block (1), through-hole (5) and stone plastic substrate (10), its characterized in that: the floor block is characterized in that a clamping plate (2) is arranged on the floor block (1), a clamping block (3) is fixed on the clamping plate (2), a connecting block (4) is installed below the clamping block (3), the connecting block (4) is arranged on the clamping plate (2), a through hole (5) is formed in the clamping plate (2), the through hole (5) is fixed on a connecting plate (8), the connecting plate (8) is installed on the floor block (1), a limiting groove (6) is formed in the connecting plate (8), the connecting block (4) is fixed in the limiting groove (6), a fixing block (7) is arranged on the connecting plate (8), the fixing block (7) is installed on the clamping plate (2), the clamping block (3) is fixed in the fixing block (7), the clamping plate (2) is arranged on the connecting plate (8), the connecting block (4) is fixed on the connecting plate (8), and a cable pipe (9) is installed in the through hole (5, be provided with stone in cardboard (2) and mould substrate (10), and be fixed with rubber buffer layer (11) under stone moulds substrate (10) to install wear-resistant resin layer (13) under rubber buffer layer (11), be fixed with low carbon steel anti-compression layer (14) on stone moulds substrate (10), and be provided with wear-resistant resin layer (13) on low carbon steel anti-compression layer (14).

2. The stone-plastic floor convenient to splice firmly of claim 1, wherein: fixture block (3) are fixed on the terminal surface of cardboard (2), and the top of fixture block (3) is parallel and level with the top of cardboard (2) to the height of fixture block (3) equals half of cardboard (2) height.

3. The stone-plastic floor convenient to splice firmly of claim 1, wherein: be integrated into one piece structure between fixture block (3) and connecting block (4), and fixture block (3) equidistance distributes on connecting block (4) to the length of connecting block (4) equals the length of cardboard (2).

4. The stone-plastic floor convenient to splice firmly of claim 1, wherein: the through holes (5) and the connecting plate (8) form a whole circle, the diameter of each through hole (5) is equal to that of the cable tube (9), and the through holes (5) are fixed at the center of the connecting plate (8).

5. The stone-plastic floor convenient to splice firmly of claim 1, wherein: the width between connecting plate (8) and cardboard (2) equals, and be integrated into one piece structure between connecting plate (8) and fixed block (7) to the top of fixed block (7) and the top parallel and level of floor block (1).

6. The stone-plastic floor convenient to splice firmly of claim 1, wherein: the wear-resistant resin layers (13) are symmetrically distributed on the upper side and the lower side of the stone-plastic base material (10), the wear-resistant resin layers (13) are bonded with the low-carbon steel pressure-resistant layers (14), and the wear-resistant resin layers (13) and the low-carbon steel pressure-resistant layers (14) are structurally arranged.

Images