CN214364677U

CN214364677U - Construction ceramic tile paving structure

Info

Publication number: CN214364677U
Application number: CN202120189416.8U
Authority: CN
Inventors: 王红梅; 傅关校; 凌利明
Original assignee: Hangzhou Lihao Construction Co ltd
Current assignee: Hangzhou Lihao Construction Co ltd
Priority date: 2021-01-23
Filing date: 2021-01-23
Publication date: 2021-10-08
Anticipated expiration: 2031-01-23

Abstract

The application relates to a building tile paving structure, which comprises a framework and tiles, wherein the framework is used for being connected with a paving surface, one end of the framework is fixedly connected with the paving surface, the other end of the framework is provided with a plurality of paving moulds for installing the tiles, and the tiles are connected with the paving moulds in a gluing manner; and the laying mold is provided with a connecting piece for connecting the framework and the laying mold. The framework is fixedly connected to the laying surface, the laying mold is installed on the framework, and finally the ceramic tile is glued to the laying mold. The application has the effects of being convenient to install, improving the use quality and improving the construction efficiency.

Description

Construction ceramic tile paving structure

Technical Field

The application relates to a building ceramic tile lays the field, especially relates to a building ceramic tile lays a structure.

Background

The ceramic tile is made up by using refractory metal oxide and semimetal oxide through the processes of grinding, mixing, pressing, glazing and sintering, etc. and is an acid-alkali-resisting ceramic material or stone material for building or decoration. The ceramic tile is paved on the ground to have clean and beautiful effects.

Tile among the related art is spread and is pasted ceramic tile through the concrete and bond the ceramic tile on the face of laying, and the workman makes cement mortar etc. into the concrete earlier, with concrete tiling on the face of laying, lays the ceramic tile in concrete layer's top again, treat after the concrete solidifies can, in order to help reducing the hollowing phenomenon of production, usually earlier the ceramic tile is moist to absorb water.

In view of the above-mentioned related technologies, the inventor thinks that because tiles are paved through concrete, tiles need to be wetted and absorb water first, and the tiles can be used after the concrete is solidified after paving is completed, and because the concrete is solidified for a long time, the construction period is too long, which affects the construction efficiency.

SUMMERY OF THE UTILITY MODEL

In order to help improving the efficiency of construction, this application provides a building ceramic tile paves pastes structure.

The application provides a construct ceramic tile and spread structure adopts following technical scheme:

a building tile paving structure comprises a framework and tiles, wherein the framework is used for being connected with a paving surface, one end of the framework is fixedly connected with the paving surface, the other end of the framework is provided with a plurality of paving molds used for installing the tiles, and the tiles are connected with the paving molds in an adhesive manner; and the laying mold is provided with a connecting piece for connecting the framework and the laying mold.

Through adopting above-mentioned technical scheme, the one end of skeleton is connected with the face of laying, and the other end passes through the connecting piece and is connected with laying the mould, and the ceramic tile is glued and is connect on laying the mould, because the setting time of gluing is less than the setting time of concrete far away, consequently helps improving the efficiency of construction.

Optionally, the laying mold comprises a mounting plate and a fixing plate, one side of the fixing plate is in contact with the framework, the other side of the fixing plate is provided with a connecting plate, and one side of the connecting plate, which is far away from the fixing plate, is connected with the mounting plate; a plurality of first through holes are formed in the mounting plate, and a plurality of second through holes are correspondingly formed in the fixing plate; the connecting piece sets up to the screw, correspond on the skeleton and be equipped with a plurality of screw holes.

Through adopting above-mentioned technical scheme, will lay mould and skeleton through the screw and be connected, threaded connection is firm reliable, directly screw up can, easy operation, be convenient for installation and dismantlement help saving installation time to help improving the efficiency of construction.

Optionally, one end of the fixing plate, which is close to the framework, is provided with a rib, and one side of the framework is correspondingly provided with a groove for accommodating the rib.

Through adopting above-mentioned technical scheme, the bead holds in the recess, makes to lay the effect that the mould had spacing and direction when placing on the skeleton, can promote to lay mould to the screw hole of second through-hole alignment along the skeleton, is convenient for install the mould of will laying on the skeleton, helps saving installation time to help improving the efficiency of construction.

Optionally, the groove is a dovetail groove, and the outer side surface of the rib is in contact with the framework.

Through adopting above-mentioned technical scheme, the size of dovetail upper end is greater than the size of lower extreme, and when placing the bead in the dovetail, the less one end of bead passes through the great upper end of dovetail earlier, and it holds inside the dovetail to go down until the bead is complete again. The dovetail groove is provided with a guide function, so that the ribs can be conveniently accommodated in the dovetail groove, the laying mold can be aligned and placed, and the installation time can be reduced.

Optionally, two pull plates are arranged on one side of the mounting plate close to the connecting plate, and two ends of each pull plate are respectively connected with the connecting plate; one side of the pulling plate is provided with a magnet, and one side of the other pulling plate is correspondingly provided with an iron block.

By adopting the technical scheme, after the laying molds in the first row on the laying surface are connected with the framework, the laying molds in the second row are installed. The magnets on the second row of laying molds are adsorbed to the iron blocks on the first row of laying molds, so that the second row of laying molds are effectively prevented from deviating. Then will lay mould and skeleton through the screw and be connected, magnetism inhales and can make the connection of laying between the mould more firm under the effect, helps preventing to lay the mould skew when screwing up the screw to be convenient for install.

Optionally, the mounting panel is close to one side fixedly connected with backup pad of fixed plate, the backup pad is kept away from one side of mounting panel with fixed plate fixed connection.

Through adopting above-mentioned technical scheme, because the mounting panel has certain size, the setting of backup pad can increase the intensity of mounting panel, helps improving the intensity of laying mould self, lays the ceramic tile and accomplishes the back, helps improving service quality.

Optionally, the first through holes are symmetrically arranged along a central plane in the length direction of the mounting plate; the first through holes are symmetrically arranged along the central plane in the width direction of the mounting plate.

Through adopting above-mentioned technical scheme, first through-hole symmetry sets up, and the screw corresponds the symmetry and sets up, makes the atress of laying the mould more even to the messenger lays the mould and is connected more firmly with the skeleton, helps improving service quality.

Optionally, adjacent laying molds are in contact with each other.

By adopting the technical scheme, the laying molds are mutually contacted, so that different-size ceramic tiles can be glued on the upper surface of the laying mold conveniently, and the use flexibility of the laying mold is increased.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the laying mold is arranged, the ceramic tile is connected with the laying mold in a gluing mode, the glue setting time is far shorter than that of concrete, and construction efficiency is improved;

2. be provided with the connecting piece, the connecting piece sets up to the screw, will lay mould and skeleton through the screw and be connected, and threaded connection is firm reliable, and the installation of being convenient for helps improving the efficiency of construction.

Drawings

FIG. 1 is a schematic view of the overall architecture of a tile tiling structure according to an embodiment of the present application;

FIG. 2 is an exploded view of a construction tile tiling according to an embodiment of the present application;

fig. 3 is a partial schematic view of portion a of fig. 2.

Description of reference numerals: 1. a framework; 11. a first support bar; 12. a second support bar; 2. ceramic tiles; 3. laying a mold; 31. mounting a plate; 32. a fixing plate; 33. a connecting plate; 34. a first through hole; 35. a second through hole; 36. a rib; 37. a groove; 38. pulling a plate; 39. a support plate; 4. a connecting member; 5. a magnet; 51. and (4) iron blocks.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses a building ceramic tile paving structure. Referring to fig. 1, the construction tile paving structure includes a frame 1 and tiles 2 for being connected with a paving surface, one end of the frame 1 is fixedly connected with the paving surface, and the other end is provided with a plurality of paving molds 3 for installing the tiles 2. The ceramic tile 2 is connected with the laying mold 3 in a gluing way, and the glue used is ceramic tile glue. After the framework 1 and the laying mold 3 are installed, the ceramic tile 2 is glued to the upper surface of the laying mold 3, the glue connection and solidification time is short, and the construction efficiency is improved.

Referring to fig. 1 and 2, the framework 1 includes a plurality of horizontally disposed first struts 11 and a plurality of horizontally disposed second struts 12. The framework 1 and the pavement surface can be fixedly connected through foundation bolts or expansion bolts. The distance between the first strut 11 and the first strut 11 is the same, and the distance between the second strut 12 and the first strut 11 is the same as the distance between the first strut 11 and the first strut 11.

The side of the framework 1 far away from the laying surface is provided with a groove 37. The groove 37 is provided as a dovetail groove, and the size of the upper end of the dovetail groove is larger than that of the lower end thereof. The distance between the first struts 11 and the second struts 12 are designed according to the size of the pavement. The second bar 12 is a half of the first bar 11 cut on average along a vertical center plane in the length direction of the first bar 11.

Referring to fig. 1 and 2, the laying mold 3 includes a mounting plate 31 and a fixing plate 32, the mounting plate 31 is disposed in a rectangular parallelepiped and horizontally disposed, and a central axis in a longitudinal direction of the mounting plate 31 is parallel to a central axis in a longitudinal direction of the framework 1. The fixed plates 32 are symmetrically arranged along the central plane in the length direction of the mounting plate 31, and the fixed plates 32 are arranged in a rectangular parallelepiped and horizontally. One side of the fixing plate 32 is in contact with the frame 1, and the other side is fixedly connected with a connecting plate 33. Connecting plate 33 is equipped with two, and connecting plate 33 sets up to cuboid and vertical setting, and connecting plate 33 sets up with fixed plate 32 is perpendicular. One end of the connecting plate 33 away from the fixing plate 32 is fixedly connected with the mounting plate 31 and vertically arranged.

A supporting plate 39 is fixedly connected to one side of the mounting plate 31 close to the fixing plate 32, and one end of the supporting plate 39 far away from the mounting plate 31 is fixedly connected with the fixing plate 32. The support plate 39 is provided in two and is vertically disposed. The strength of the laying mold 3 itself can be increased, and the use quality after construction can be improved.

Referring to fig. 2 and 3, a rib 36 is fixedly connected to one end of the fixing plate 32 close to the frame 1, the rib 36 is received in a groove 37, and the outer side surface of the rib 36 contacts the frame 1. The cross section of the rib 36 is correspondingly arranged to be an inverted trapezoid. Placing ribs 36 in grooves 37 enables the laying mold 3 to be pushed along grooves 37, facilitating the installation of laying mold 3.

Referring to fig. 1 and 2, the mounting plate 31 is provided with a plurality of first through holes 34. The first through holes 34 are symmetrically arranged along a central plane in the length direction of the mounting plate 31, and the first through holes 34 are symmetrically arranged along a central plane in the width direction of the mounting plate 31. The fixing plate 32 is correspondingly provided with a plurality of second through holes 35.

The laying mold 3 is provided with a connecting piece 4 for connecting the framework 1 with the laying mold 3, the connecting piece 4 is set to be a screw, and the framework 1 is correspondingly provided with a plurality of threaded holes. The rib 36 is placed in alignment with the groove 37 so that the first through hole 34 is aligned with the threaded hole, and then the screw is mounted on the fixing plate 32 and the frame 1. The threaded connection is stable, and the operation is convenient as the screw can be directly screwed down.

Two pulling plates 38 are fixedly connected to one side of the mounting plate 31 close to the connecting plate 33, and the two pulling plates 38 are symmetrically arranged along the central plane in the width direction of the mounting plate 31. The pulling plate 38 is perpendicular to the mounting plate 31, and two ends of the pulling plate 38 are fixedly connected to the connecting plate 33. One side of the pulling plate 38 is fixedly connected with a magnet 5, and one side of the other pulling plate 38 is correspondingly provided with an iron block 51.

After the laying molds 3 of the first row are installed, the laying molds 3 of the second row are laid on the framework 1, are stable under the magnetic attraction effect and are not easy to slide, and screws are convenient to screw down until the plurality of laying molds 3 are completely installed. The mutual contact between adjacent laying moulds 3 facilitates the gluing of tiles 2 of different sizes on the laying moulds 3, contributing to an increased flexibility in the use of the laying moulds 3. The tiles 2 are connected to the laying mould 3 by gluing.

The implementation principle of the 2 paving structures of building tile of this application embodiment is: the distance between the first struts 11 and between the first and

second struts

11, 12 is designed according to the dimensions of the laying surface, and then the dimensions of the laying mould 3 are designed. After the framework 1 is fixedly installed on the paving surface, the first row of paving moulds 3 is installed, the ribs 36 are placed in the grooves 37, the first through holes 34 are aligned with the threaded holes, and the screws are tightened. After the laying moulds 3 of the first row have been mounted, the laying moulds 3 of the second row are mounted, the ribs 36 are placed in the grooves 37, the laying moulds 3 of the first row are connected to the laying moulds 3 of the second row by magnetic attraction, and the screws are tightened until the laying of the whole laying surface is completed. And then the ceramic tile 2 is connected on the laying mold 3 in an adhesive way.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a building ceramic tile tiling structure, includes skeleton (1) and ceramic tile (2) that are used for being connected with the face of laying, its characterized in that: one end of the framework (1) is fixedly connected with a laying surface, the other end of the framework is provided with a plurality of laying molds (3) used for installing the ceramic tiles (2), and the ceramic tiles (2) are connected with the laying molds (3) in a gluing mode; and a connecting piece (4) for connecting the framework (1) and the laying mold (3) is arranged on the laying mold (3).

2. A building tile tiling construction according to claim 1, wherein: the laying mold (3) comprises an installation plate (31) and a fixing plate (32), one side of the fixing plate (32) is in contact with the framework (1), the other side of the fixing plate is provided with a connecting plate (33), and one side, far away from the fixing plate (32), of the connecting plate (33) is connected with the installation plate (31); a plurality of first through holes (34) are formed in the mounting plate (31), and a plurality of second through holes (35) are correspondingly formed in the fixing plate (32); the connecting piece (4) is set to be a screw, and the framework (1) is correspondingly provided with a plurality of threaded holes.

3. A building tile tiling arrangement according to claim 2, wherein: the fixing plate (32) is close to one end of the framework (1) is provided with a convex rib (36), and one side of the framework (1) is correspondingly provided with a groove (37) used for accommodating the convex rib (36).

4. A building tile tiling construction according to claim 3, wherein: the groove (37) is arranged to be a dovetail groove, and the outer side face of the convex rib (36) is in contact with the framework (1).

5. A building tile tiling arrangement according to claim 4, wherein: two pulling plates (38) are arranged on one side, close to the connecting plate (33), of the mounting plate (31), and two ends of each pulling plate (38) are connected with the connecting plate (33) respectively; one side of the pulling plate (38) is provided with a magnet (5), and one side of the other pulling plate (38) is correspondingly provided with an iron block (51).

6. A building tile tiling arrangement according to claim 5, wherein: mounting panel (31) are close to one side fixedly connected with backup pad (39) of fixed plate (32), backup pad (39) are kept away from one side of mounting panel (31) with fixed plate (32) fixed connection.

7. A building tile tiling arrangement according to claim 6, wherein: the first through holes (34) are symmetrically arranged along the central plane of the length direction of the mounting plate (31); the first through holes (34) are symmetrically arranged along the center plane in the width direction of the mounting plate (31).

8. A building tile tiling construction according to claim 1, wherein: the adjacent laying molds (3) are contacted with each other.