CN218990771U - Integrated unit type ceramic tile floor structure - Google Patents

Abstract

The utility model discloses an integrated unit type ceramic tile floor structure, which comprises: the utility model relates to a leveling mechanism, which comprises a base plate, a framework arranged on the upper part of the base plate, fixing mechanisms arranged at four corners between the base plate and the framework, leveling mechanisms arranged at edges between the base plate and the framework, and a mounting mechanism arranged at the top end of the framework.

Description

Integrated unit type ceramic tile floor structure

Technical Field

The utility model relates to the technical field of decoration tile construction, in particular to an integrated unit type tile floor structure.

Background

The interior decoration refers to further decoration of the interior of a blank room, such as surface decoration of the ground and the wall surface and the selection of furniture, wherein the ground decoration is paved by ceramic tiles, and the ceramic tiles are also called floor tiles. The ceramic tile is made by firing clay in various specifications. The tile has the advantages of hardness, pressure resistance, wear resistance, moisture resistance and decoration, is a common indoor floor decoration material for large-scale modern buildings, is widely applied, and is one of important building decoration components.

The prior art can refer to the publication number: the utility model of CN103967257B discloses a floor tile structure, which changes the structure of a tile on one hand, namely, longitudinal connecting ribs and transverse connecting ribs are arranged on four sides of the back of a tile block, and longitudinal buckling grooves are arranged on the longitudinal connecting ribs and the transverse connecting ribs. On the other hand, the ceramic tile support frame is assembled, the ceramic tile support frame is provided with a longitudinal support bar and a transverse support bar, the longitudinal support bar and the transverse support bar comprise a keel and a ceramic tile fixing groove frame, the ceramic tile fixing groove frame is provided with a fixing groove, two longitudinal ceramic tile buckling convex strips are arranged in the fixing groove, namely, the longitudinal support bar and the transverse support bar form a ceramic tile block mounting frame, and the ceramic tile blocks are respectively fixed in the ceramic tile block mounting frame through the matching of the longitudinal connection convex edges on the four sides of the back of the ceramic tile block and the ceramic tile fixing groove frame of the transverse support bar. Therefore, the wet pasting technology is avoided when the floor tiles are installed, only the keels are fixed on the ground, after the tile fixing groove frames are fixed on the keels, the tile blocks are embedded in the tile block installation frames, any tile block can be conveniently replaced during maintenance, the quick installation of the floor tiles is realized, the maintenance is convenient, the construction quality is easy to control, and the tile blocks can be repeatedly used, so that the construction difficulty is reduced, the construction efficiency is improved, the labor cost is saved, the resources are saved, and the sustainable use is facilitated.

However, the tile floor structure has the following problems when in use, firstly, the leveling treatment cannot be carried out, the tile levelness adjustment is difficult, the situation that the tile is cracked is easy to occur when in use, secondly, the tile floor structure is poor in installation firm positioning effect when in use, and if the tile is impacted by large force in subsequent use, cracks are generated between every two tiles, so that normal use and aesthetic property are affected, therefore, the integrated unit tile floor structure is provided by the skilled in the art, and the problems in the background art are solved.

Disclosure of Invention

The utility model aims to provide an integrated unit type tile floor structure, which solves the problems that in the prior art, leveling treatment cannot be performed, tile levelness adjustment is difficult, cracks are easily caused on tiles in use, and the tile floor structure is poor in firm installation and positioning effect in use, and cracks are generated between each tile in subsequent use when the tile floor structure is impacted by large force, so that normal use and attractiveness are affected.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

an integrated unit tile floor structure comprising:

the device comprises a base plate, a framework arranged at the upper part of the base plate, fixing mechanisms arranged at four corners between the base plate and the framework, a leveling mechanism arranged at the edge part between the base plate and the framework, and a mounting mechanism arranged at the top end of the framework;

the fixing mechanism includes: the clamping columns are fixedly connected to the four sides of the top of the substrate, and the clamping grooves are formed in the four sides of the bottom of the framework.

As still further aspects of the utility model: the outer sizes of the clamping columns are matched with the inner sizes of the clamping grooves.

As still further aspects of the utility model: the leveling mechanism includes: the utility model provides a lower cell body of seting up in base plate top four corners department sets up in turn round in the front and back portion of base plate both sides, through the bearing rotate connect in four the inside screw rod of lower cell body, its four turn round all with four screw rods fixed connection, threaded connection in four the outside movable block of screw rod, fixed connection in four the slider of movable block front and back portion sets up in the spout of the inside front and back lateral wall of lower cell body, fixed connection in four the gyro wheel on movable block top sets up in the last cell body of framework bottom four corners department, fixed connection in four the inside trapezoidal piece of last cell body.

As still further aspects of the utility model: screw holes matched with the outer surfaces of the four screws are formed in the four moving blocks.

As still further aspects of the utility model: the outer parts of the eight sliding blocks are in sliding connection with the inner parts of the eight sliding grooves.

As still further aspects of the utility model: the mounting mechanism includes: a placing cavity arranged at the top end of the framework, a first brick body and a second brick body arranged in the placing cavity, a group of cylindrical holes arranged at the side part of the first brick body, the cylinder blocks are fixedly connected to the side parts of the second brick body, and the sucker pads are fixedly connected to the bottom end of the inner cavity of the placing cavity.

As still further aspects of the utility model: the outer sizes of a group of the cylindrical blocks are matched with the inner sizes of a group of cylindrical holes.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the leveling mechanism is arranged, when the leveling device is used, the moving block is enabled to move left and right outside the screw rod through the rotation of the rotating knob, and the two sliding blocks slide inside the two sliding grooves, so that the rolling wheels move left and right, the framework can be adjusted to be horizontal according to the matching of the trapezoid blocks, the leveling treatment is convenient and fast, the efficiency is high, the situation that the tile cracks appear when the tile is used later is prevented, and the integrity effect is good.

2. According to the utility model, the fixing mechanism and the mounting mechanism are arranged, the framework is conveniently and firmly mounted on the substrate through the clamping columns and the clamping grooves, the first brick body and the second brick body in the cavity are placed between the first brick body and the second brick body, the first brick body and the second brick body are adsorbed through the cylindrical holes and the cylindrical blocks, and the first brick body and the second brick body are conveniently and firmly mounted through the sucking disc pads.

Drawings

Fig. 1 is a schematic view of the overall structure of an integrated unit tile floor structure.

Fig. 2 is a schematic view of the structure of the substrate of the integrated unit type tile floor structure.

Fig. 3 is a schematic view of the structure of the leveling mechanism in the integrated unit tile floor structure.

Fig. 4 is a schematic view of the structure of the integrated unit tile floor structure from above.

Fig. 5 is a schematic diagram of a cut-away structure of a frame in an integrated unit tile floor structure.

Fig. 6 is a schematic view of the structure of the mounting mechanism in the integrated unit tile floor structure.

Fig. 7 is a schematic view of a connection structure of a first tile body and a second tile body in an integrated unit type tile floor structure.

In the figure: 1. a substrate; 2. a fixing mechanism; 201. a clamping column; 202. a clamping groove; 3. a frame; 4. a leveling mechanism; 401. a lower tank body; 402. a turning button; 403. a screw; 404. a moving block; 405. a slide block; 406. a chute; 407. a roller; 408. an upper tank body; 409. a trapezoid block; 5. a mounting mechanism; 501. a placement cavity; 502. a first brick body; 503. a second brick body; 504. a cylindrical hole; 505. a cylindrical block; 506. and a sucker pad.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 5, an embodiment of the present utility model provides an integrated unit tile floor structure, including:

a base plate 1, a frame 3 arranged at the upper part of the base plate 1, fixing mechanisms 2 arranged at four corners between the base plate 1 and the frame 3, a leveling mechanism 4 arranged at the edge part between the base plate 1 and the frame 3, and an installation mechanism 5 arranged at the top end of the frame 3;

the base plate 1 and the framework 3 are arranged, so that the equipment is assembled and formed, the use is convenient, the leveling mechanism 4 is arranged for adjusting the flatness of the unit, and the fixing mechanism 2 and the mounting mechanism 5 are arranged for mounting and fixing the unit equipment.

The fixing mechanism 2 includes: a set of clamping columns 201 fixedly connected to the four sides of the top of the substrate 1 and a set of clamping grooves 202 formed in the four sides of the bottom of the frame 3.

The outer dimensions of the set of clamping posts 201 are compatible with the inner dimensions of the set of clamping slots 202.

When in use, a group of clamping columns 201 passing through the four sides of the top of the base plate 1 are matched with a group of clamping grooves 202 at the four sides of the bottom of the framework 3, so that the framework 3 is conveniently and firmly arranged on the base plate 1.

The leveling mechanism 4 includes: the four-screw rotary type solar cell comprises a lower groove body 401 arranged at four corners of the top end of a substrate 1, rotary buttons 402 arranged at the front and rear parts of two sides of the substrate 1, screws 403 connected to the four lower groove bodies 401 in a rotating mode through bearings, four rotary buttons 402 of the rotary buttons are fixedly connected with the four screws 403, movable blocks 404 in the four screws 403 in a threaded mode, sliding blocks 405 fixedly connected to the front and rear parts of the four movable blocks 404, sliding grooves 406 arranged on the front and rear side walls of the inner part of the lower groove body 401, idler wheels 407 fixedly connected to the top ends of the four movable blocks 404, upper groove bodies 408 arranged at four corners of the bottom end of a framework 3, and trapezoid blocks 409 fixedly connected to the inner parts of the four upper groove bodies 408.

Threaded holes matched with the outer surfaces of the four screws 403 are formed in the four moving blocks 404.

The outer parts of the eight sliding blocks 405 are in sliding connection with the inner parts of the eight sliding grooves 406.

The mounting mechanism 5 includes: the placing cavity 501 arranged at the top end of the framework 3 is provided with a first brick body 502 and a second brick body 503 which are arranged in the placing cavity 501, a group of cylindrical holes 504 arranged at the side part of the first brick body 502, a group of cylindrical blocks 505 fixedly connected with the side part of the second brick body 503 and a group of sucking disc pads 506 fixedly connected with the bottom end of the inner cavity of the placing cavity 501.

The outer dimensions of the set of cylindrical blocks 505 are all compatible with the inner dimensions of the set of cylindrical holes 504.

When the brick is used, the roller 407 moves left and right outside the screw 403 through the moving block 404, the roller 407 moves left and right, the framework 3 is adjusted to be horizontal according to the cooperation of the trapezoid blocks 409, the framework 3 is matched with the clamping grooves 202 through the clamping columns 201, the framework 3 is stably mounted on the substrate 1, the first brick 502 and the second brick 503 in the cavity 501 are conveniently placed, the cylindrical holes 504 and the cylindrical blocks 505 are matched, the first brick 502 and the second brick 503 are conveniently adsorbed by the sucking disc pads 506, the first brick 502 and the second brick 503 are stably mounted, the whole installation is more firm when the brick is used, the positioning effect is good, the crack phenomenon is prevented when the brick is subjected to a larger impact force, and the attractiveness is improved.

The working principle of the utility model is as follows:

when the utility model is used, the moving block 404 is enabled to move left and right outside the screw 403 through the rotating knob 402, the two sliding blocks 405 slide inside the two sliding grooves 406, so that the roller 407 moves left and right, the framework 3 can be adjusted to be horizontal according to the matching of the trapezoid blocks 409, the leveling treatment is convenient and fast, the efficiency is high, the situation that cracks appear on the ceramic tile during subsequent use is avoided, the integrity effect is good, the framework 3 is firmly installed on the base plate 1 through the clamping columns 201 and the clamping grooves 202, the first brick body 502 and the second brick body 503 inside the cavity 501 are placed through the cylindrical holes 504 and the cylindrical blocks 505, the first brick body 502 and the second brick body 503 are firmly installed through the sucking disc pads 506, the whole installation is firmer during the use, the positioning effect is good, the phenomenon that cracks appear under the impact force is avoided, and the attractiveness is improved.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (7)

1. The integrated unit formula ceramic tile floor structure, its characterized in that includes:

a base plate (1), a framework (3) arranged at the upper part of the base plate (1), fixing mechanisms (2) arranged at four corners between the base plate (1) and the framework (3), a leveling mechanism (4) arranged at the edge part between the base plate (1) and the framework (3), and a mounting mechanism (5) arranged at the top end of the framework (3);

the fixing mechanism (2) includes: a group of clamping columns (201) fixedly connected to the four sides of the top of the base plate (1) and a group of clamping grooves (202) formed in the four sides of the bottom of the framework (3).

2. The integrated unit tile floor structure of claim 1, wherein the outer dimensions of a set of said clamping posts (201) each fit the inner dimensions of a set of clamping slots (202).

3. The integrated unit tile floor structure according to claim 1, wherein the leveling mechanism (4) comprises: the four-side-wall type movable block comprises a lower groove body (401) which is arranged at four corners of the top end of a substrate (1), rotary buttons (402) which are arranged at the front and rear parts of two sides of the substrate (1), screws (403) which are connected to the four lower groove bodies (401) in a rotating mode through bearings, four rotary buttons (402) which are fixedly connected with the four screws (403), movable blocks (404) which are in threaded connection with the four screws (403) in the outer portion, sliding blocks (405) which are fixedly connected to the front and rear parts of the movable blocks (404), sliding grooves (406) which are arranged at the front and rear side walls of the inner portion of the lower groove body (401), idler wheels (407) which are fixedly connected to the four top ends of the movable blocks (404), and upper groove bodies (408) which are arranged at four corners of the bottom end of a framework (3) are fixedly connected to trapezoid blocks (409) in the upper groove bodies (408).

4. An integrated unit tile floor structure according to claim 3, wherein the four moving blocks (404) are each provided with threaded holes matching the outer surfaces of the four screws (403).

5. -integrated unit tile floor structure according to claim 3, characterized in that the outer parts of eight of said sliding blocks (405) each form a sliding connection with the inner parts of eight sliding grooves (406).

6. -integrated unit tile floor structure according to claim 1, characterized in that said mounting mechanism (5) comprises: the novel brick comprises a framework (3), a placing cavity (501) arranged at the top end of the framework, a first brick body (502) and a second brick body (503) arranged in the placing cavity (501), a group of cylindrical holes (504) arranged at the side part of the first brick body (502), a group of cylindrical blocks (505) fixedly connected to the side part of the second brick body (503), and a group of sucking disc pads (506) fixedly connected to the bottom end of the inner cavity of the placing cavity (501).

7. The integrated unit tile floor structure of claim 6, wherein the outer dimensions of a set of said cylindrical blocks (505) each conform to the inner dimensions of a set of cylindrical holes (504).

Images