CN110541534A

CN110541534A - anti-drop facing brick and construction process thereof

Info

Publication number: CN110541534A
Application number: CN201910844992.9A
Authority: CN
Inventors: 彭仁亚
Original assignee: Shenzhen Intercontinental Architectural Decoration Group Co Ltd
Current assignee: Shenzhen Intercontinental Architectural Decoration Group Co Ltd
Priority date: 2019-09-07
Filing date: 2019-09-07
Publication date: 2019-12-06

Abstract

The invention discloses an anti-drop facing brick and a construction process thereof, which comprises a facing brick and a facing brick mould, the facing tile comprises a glaze layer, a concrete plate, a cross groove and a square groove, the glaze layer is coated on the upper surface layer of the concrete plate, the cross groove and the square groove are uniformly and crossly arranged at the lower end of the concrete plate, the inner space of the cross groove is communicated with the inner space of the square groove, the facing brick mould comprises a mould frame, a square groove mould and cross concave groove grains, the die frame comprises a frame body, a first base plate and a second base plate, the first base plate is fixedly connected to the side wall of the frame body, the second backing plate is fixedly connected with the front end of the frame body, the first backing plate and the second backing plate are of an integrated structure, the square groove die comprises a square die sliding rod and a first blocking strip, and the square die sliding rod is uniformly and fixedly connected to the side wall of the first blocking strip. The method can improve the firmness of the veneer brick and the wall surface and better meet the use requirement.

Description

Anti-drop facing brick and construction process thereof

Technical Field

The invention relates to the technical field of facing brick equipment, in particular to an anti-falling facing brick and a construction process thereof.

Background

in the decoration engineering, the paving quality of the facing brick is always emphasized, and the phenomena of hollowing, cracking and even falling are easy to occur if the control is not good, particularly, the danger of personal injury is increased when the facing brick of the outer wall falls off, so that the high emphasis is needed to be placed on the facing brick, but the traditional method for preventing the facing brick from falling off is only limited in the aspects of cement mortar proportion, binder types and the like, so that the facing brick is inevitably treated as a temporary solution and is not treated as a permanent solution, and the effect is limited. Group organizers develop a new method, and the willing of facing brick falling is deeply researched, and a reliable falling-off prevention process and method are developed, so that a device capable of solving the problems is urgently needed.

Disclosure of Invention

The invention aims to provide an anti-falling face brick and a construction process thereof, and aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an anti-drop facing brick comprises a facing brick and a facing brick die, wherein the facing brick comprises a glaze layer, a concrete plate, a cross groove and a square groove, the glaze layer is coated on the upper surface layer of the concrete plate, the cross groove and the square groove are uniformly and crossly arranged at the lower end of the concrete plate, and the inner space of the cross groove is communicated with the inner space of the square groove; the decorative tile mold comprises a mold frame, a square groove mold and cross concave groove grains, wherein the mold frame comprises a frame body, a first base plate and a second base plate, the first base plate is fixedly connected to the side wall of the frame body, the second base plate is fixedly connected to the front end of the frame body, the first base plate and the second base plate are of an integrated structure, the square groove mold comprises a square sliding mold rod and a first barrier strip, the square sliding mold rod is uniformly and fixedly connected to the side wall of the first barrier strip, the square sliding mold rod and the first barrier strip are of an integrated structure, the lower wall of the first barrier strip is slidably supported on the upper wall of the first base plate, the cross groove grains comprise a cross module, a second barrier strip and a third base plate, the cross module is uniformly and fixedly connected to the front portion of the upper wall of the third base plate, the cross module and the third base plate are of an integrated structure, the rear wall of the second barrier strip is fixedly connected to the front wall of the third base, the third backing plate and the second barrier strip are of an integral structure, the rear end of the third backing plate is slidably inserted into the inner wall of the rear end of the frame body, the lower wall of the third backing plate is slidably supported at the lower end of the inner wall of the frame body, and the lower wall of the square sliding die rod is slidably supported on the upper wall of the third backing plate.

Preferably, the mold frame further comprises a sliding groove, the rear end of the third backing plate is inserted into the inner wall of the sliding groove in a sliding mode, and the sliding groove is hollowed out in the rear end of the frame body.

Preferably, the square groove die further comprises a first handle, the first handle is fixedly connected to the side wall of the first barrier strip, and the first handle and the first barrier strip are of an integral structure.

Preferably, the cross concave groove further comprises a second handle, the rear end of the second handle is fixedly connected to the center of the front wall of the second barrier strip, and the second barrier strip and the second handle are of an integral structure.

Preferably, the anti-falling face brick construction process comprises the following steps: comprises a production construction process and an installation construction process; the production construction process comprises filling work, glazing work and die sinking work, wherein the filling work is firstly carried out, then the glazing work is carried out, and finally the die sinking work is carried out; the installation construction process comprises wall surface grooving work, wall surface roughening work and tile sticking work, wherein the wall surface grooving work is firstly carried out, then the wall surface roughening work is carried out, and finally the tile sticking work is carried out.

Preferably, the filling work is to pour concrete into the interior of the mould frame, the square groove mould and the cross-groove, and then to strike off the surface layer of the concrete.

Preferably, the glazing operation is to coat a glazing material on the surface of the concrete slab after the target concrete is solidified to form the concrete slab.

Preferably, the die sinking operation is to outwards pull out the square sliding die rod and the first stop strip through the first handle, then outwards pull out the cross-shaped die block and the second stop strip through the second handle, and finally take down the face brick.

Preferably, two opposite edges are selected at any time on four edges of the face brick, two flat grooves are formed in the edges, the size of each flat groove is 20 x 40 x 2MM, metal or plastic lock tongues are embedded in the two adjacent face bricks, the two adjacent face bricks are tightly connected together, the face bricks in other directions are sequentially connected to form self-locking and interconnection between the bricks, the whole wall surface is connected into a whole, and the falling of part of face bricks caused by infirm adhesion is effectively guaranteed.

Preferably, the wall roughening work comprises two steps of roughening treatment and layered scraping and leveling, wherein the roughening treatment is carried out firstly, and then the layered scraping and leveling is carried out, and the roughening treatment is carried out, namely cement fine mortar is adopted for the concrete wall of the outer wall according to a ratio of 1: 1, and glue is internally mixed; after the red brick wall surface is wet, plastering 5MM thick by using cement mortar with the thickness of 1: 2, watering and curing, after reaching certain strength, carrying out next procedure construction, wherein the construction is suitable for 1-2 days in summer and 3 days in spring and autumn, and conducting layered rough scraping and leveling, namely conducting layered leveling by using cement mortar with the thickness of 1: 3 and the thickness of about 7 MM; and finally performing conventional tiling work.

Compared with the prior art, the invention has the following beneficial effects:

In the process of using the facing brick mold, the square groove mold is pulled out from the side part of the facing brick mold, the strip-shaped grid of the square sliding mold rod is utilized, the square sliding mold rod can make the lower end of a concrete plate into a strip-shaped groove of the square groove, the square sliding mold rod can slide out to the side part along the inner wall of the square groove, the cross-shaped module is utilized to extrude the lower end of the concrete plate to form the cross-shaped groove, after the square sliding mold rod is pulled out, the inner wall of the cross-shaped module is free from shielding, so that the cross-shaped groove can be pulled out through the second handle, the mold opening work of the facing brick is completed, after the facing brick is pasted on the wall surface through the concrete, the concrete is permeated into the inner walls of the cross-shaped groove and the square groove, the concrete is embedded into the inner wall of the cross-shaped groove after being solidified, the inner wall of the cross-shaped groove is clamped into the concrete to avoid the front and back falling, thereby improving the firmness of the tapestry brick after being attached and installed with the wall surface and achieving the purpose of preventing the tapestry brick from falling off.

Drawings

FIG. 1 is a schematic view of the main structure of the present invention;

FIG. 2 is a schematic view of the structure of the facing brick mold of the present invention;

FIG. 3 is a schematic view of the open configuration of the tile mold of the present invention;

FIG. 4 is a schematic view of a face brick construction of the present invention;

FIG. 5 is a schematic view of the mold frame of the present invention;

FIG. 6 is a schematic view of a square slot former of the present invention;

FIG. 7 is a schematic diagram of the cross-grooved structure of the present invention.

in the figure: 1. facing bricks; 2. a facing brick mould; 3. a mold frame; 4. a square groove die; 5. cross-shaped concave groove lines; 6. a glazed layer; 7. a concrete slab; 8. a cross groove; 9. a square groove; 10. a frame body; 11. a chute; 12. a first backing plate; 13. a second backing plate; 14. a square slide die rod; 15. a first handle; 16. a first barrier strip; 17. a third base plate; 18. a cross module; 19. a second barrier strip; 20. a second handle.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1

Referring to fig. 1 to 7, the present invention provides an anti-falling facing tile: an anti-drop facing brick and a construction process thereof, comprising a facing brick 1 and a facing brick mold 2, wherein the facing brick 1 comprises a glaze layer 6, a concrete plate 7, a cross groove 8 and a square groove 9, the glaze layer 6 is coated on the upper surface layer of the concrete plate 7, the cross groove 8 and the square groove 9 are uniformly and crossly arranged at the lower end of the concrete plate 7, and the inner space of the cross groove 8 is communicated with the inner space of the square groove 9; the decorative tile mold 2 comprises a mold frame 3, a square groove mold 4 and cross concave groove strips 5, the mold frame 3 comprises a frame body 10, a first cushion plate 12 and a second cushion plate 13, the first cushion plate 12 is fixedly connected to the side wall of the frame body 10, the second cushion plate 13 is fixedly connected to the front end of the frame body 10, the first cushion plate 12 and the second cushion plate 13 are of an integral structure, the square groove mold 4 comprises a square sliding mold rod 14 and a first barrier strip 16, the square sliding mold rod 14 is uniformly and fixedly connected to the side wall of the first barrier strip 16, the square sliding mold rod 14 and the first barrier strip 16 are of an integral structure, the lower wall of the first barrier strip 16 is slidably supported on the upper wall of the first cushion plate 12, the cross concave groove strips 5 comprise a cross mold block 18, a second barrier strip 19 and a third cushion plate 17, the cross mold block 18 is uniformly and fixedly connected to the front portion of the upper wall of the third cushion plate 17, the cross mold block 18 and the third cushion plate 17 are of an integral structure, the rear wall of the second, the third backing plate 17 and the second stop strip 19 are of an integral structure, the rear end of the third backing plate 17 is slidably inserted into the inner wall of the rear end of the frame body 10, the lower wall of the third backing plate 17 is slidably supported at the lower end of the inner wall of the frame body 10, the lower wall of the square slide die rod 14 is slidably supported at the upper wall of the third backing plate 17, in the process of using the facing brick die 2, the square groove die 4 is drawn out from the side part of the facing brick die 2, the strip-shaped grid of the square slide die rod 14 is utilized, so that the square slide die rod 14 can make the lower end of the concrete plate 7 into a strip-shaped groove of the square groove 9, the square slide die rod 14 can slide out from the inner wall of the square groove 9 to the side part, the cross-shaped module 18 is utilized to extrude the lower end of the concrete plate 7 to form the cross-shaped groove 8, after being drawn out through the square slide die rod 14, the inner wall of the cross-shaped, accomplish facing brick 1's die sinking work, paste behind the wall when facing brick 1 through the concrete, utilize the inner wall of concrete infiltration cross recess 8 and square groove 9, inlay the inner wall at cross recess 8 after making the concrete solidify, utilize the inner wall card of cross recess 8 to go into the concrete and avoid facing brick 1 fore-and-aft direction to drop, utilize cross recess 8 and square groove 9 and concrete block to avoid facing brick 1 to drop along the wall horizontal direction, thereby the firmness after facing brick 1 and the installation of wall laminating has been improved, reach the purpose that prevents facing brick 1 and drop.

the mold frame 3 further comprises a sliding groove 11, the rear end of a third backing plate 17 is inserted into the inner wall of the sliding groove 11 in a sliding mode, the sliding groove 11 is hollowed out at the rear end of the frame body 10, the square groove mold 4 further comprises a first handle 15, the first handle 15 is fixedly connected to the side wall of a first barrier strip 16, the first handle 15 and the first barrier strip 16 are of an integral structure, the cross-shaped concave groove 5 further comprises a second handle 20, the rear end of the second handle 20 is fixedly connected to the center of the front wall of a second barrier strip 19, the second barrier strip 19 and the second handle 20 are of an integral structure,

Example 2

The invention provides an anti-drop facing brick construction process which comprises the following steps:

Comprises a production construction process and an installation construction process; the production construction process comprises the operations of filling, glazing and die sinking, wherein the filling operation is carried out firstly, then the glazing operation is carried out, and finally the die sinking operation is carried out; the installation and construction process comprises wall surface grooving work, wall surface roughening work and tile sticking work, wherein the wall surface grooving work is firstly carried out, then the wall surface roughening work is carried out, finally the tile sticking work is carried out, the filling work is to pour concrete into the interior of the mould frame 3, the square groove mould 4 and the cross concave groove 5, then the surface layer of the concrete is scraped flat, the glazing work is to coat a glazing material on the surface of a concrete plate 7 after the target concrete is solidified, the mould opening work is to pull out the square sliding mould rod 14 and the first barrier strip 16 outwards through the first handle 15, then pull out the cross mould 18 and the second barrier strip 19 outwards through the second handle 20, finally the facing tile 1 is taken down, two opposite sides are selected from four sides of the facing tile, two flat grooves are formed on the sides, the size of 20 x 40 x 2mm is embedded in two adjacent facing tiles by adopting metal or plastic locking tongues, tightly connecting two adjacent facing bricks together, and sequentially connecting the facing bricks in other directions to form self-locking and interconnection between the bricks, wherein the whole wall surface is connected into a whole, so that the falling off of partial facing bricks due to infirm bonding is effectively ensured, the wall surface roughening work comprises two steps of roughening treatment and layered roughening leveling, wherein the roughening treatment is firstly carried out, and then the layered roughening leveling is carried out, wherein the roughening treatment is to adopt cement fine mortar with a ratio of 1: 1 for the concrete wall surface of the outer wall and internally mix glue according to a certain proportion; after the red brick wall surface is wet, plastering 5MM thick by using cement mortar with the thickness of 1: 2, watering and curing, after reaching certain strength, carrying out next procedure construction, wherein the construction is suitable for 1-2 days in summer and 3 days in spring and autumn, and conducting layered rough scraping and leveling, namely conducting layered leveling by using cement mortar with the thickness of 1: 3 and the thickness of about 7 MM; and finally performing conventional tiling work.

The working principle is as follows: in the process of using the facing brick mold 2, the square groove mold 4 is pulled out from the side part of the facing brick mold 2, the strip-shaped grid of the square sliding mold rod 14 is utilized, the square sliding mold rod 14 can manufacture the strip-shaped groove of the square groove 9 from the lower end of the concrete plate 7, the square sliding mold rod 14 can slide out towards the side part along the inner wall of the square groove 9, the cross-shaped module 18 is utilized to extrude the lower end of the concrete plate 7 to form the cross-shaped groove 8, after the square sliding mold rod 14 is pulled out, the inner wall of the cross-shaped module 18 is free from shielding, so that the cross-shaped concave groove line 5 can be pulled out through the second handle 20, the mold opening work of the facing brick 1 is completed, when the facing brick 1 is pasted on the wall surface through concrete, the concrete permeates into the inner walls of the cross-shaped groove 8 and the square groove 9, the concrete is embedded in the inner wall of the cross-shaped groove 8 after being solidified, the inner wall, utilize cross recess 8 and square groove 9 and concrete block to avoid facing brick 1 to drop along the wall horizontal direction to improved the firmness after facing brick 1 and the wall laminating installation, reached the purpose that prevents facing brick 1 and drop.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. An anti-drop facing brick which characterized in that: the decorative tile comprises a decorative tile (1) and a decorative tile mold (2), wherein the decorative tile (1) comprises a glazed layer (6), a concrete plate (7), a cross groove (8) and a square groove (9), the glazed layer (6) is coated on the upper surface layer of the concrete plate (7), the cross groove (8) and the square groove (9) are uniformly and crossly arranged at the lower end of the concrete plate (7), and the inner space of the cross groove (8) is communicated with the inner space of the square groove (9); veneer brick mould (2) are including mould frame (3), square groove mould (4) and cross concave flute groove (5), mould frame (3) are including support body (10), first backing plate (12) and second backing plate (13), first backing plate (12) fixed connection is at the lateral wall of support body (10), second backing plate (13) fixed connection is at the front end of support body (10), first backing plate (12) and second backing plate (13) structure as an organic whole, square groove mould (4) are including square sliding mold pole (14) and first blend stop (16), the even fixed connection of square sliding mold pole (14) is at the lateral wall of first blend stop (16), square sliding mold pole (14) and first blend stop (16) structure as an organic whole, the upper wall of first blend stop (16) is slided and is supported in first backing plate (12) to the lower wall of first blend stop (16), cross concave flute groove (5) are including cross module (18), Second blend stop (19) and third backing plate (17), the even fixed connection of cross module (18) is anterior at the upper wall of third backing plate (17), and cross module (18) and third backing plate (17) structure as an organic whole, the back wall fixed connection of second blend stop (19) is at the antetheca of third backing plate (17), third backing plate (17) and second blend stop (19) structure as an organic whole, the rear end of third backing plate (17) slides and pegs graft at the rear end inner wall of support body (10), the lower wall sliding support of third backing plate (17) is at the inner wall lower extreme of support body (10), the lower wall sliding support of square sliding die pole (14) is at the upper wall of third backing plate (17).

2. The anti-drop facing brick and the construction process thereof according to claim 1, wherein: the die frame (3) further comprises a sliding groove (11), the rear end of the third backing plate (17) is inserted into the inner wall of the sliding groove (11) in a sliding mode, and the sliding groove (11) is arranged at the rear end of the frame body (10) in a hollow mode.

3. The anti-drop facing brick and the construction process thereof according to claim 1, wherein: the square groove die (4) further comprises a first handle (15), the first handle (15) is fixedly connected to the side wall of the first barrier strip (16), and the first handle (15) and the first barrier strip (16) are of an integral structure.

4. The anti-drop facing brick and the construction process thereof according to claim 1, wherein: the cross-shaped concave groove grains (5) further comprise a second handle (20), the rear end of the second handle (20) is fixedly connected to the center of the front wall of the second retaining strip (19), and the second retaining strip (19) and the second handle (20) are of an integral structure.

5. The anti-drop facing brick construction process according to claim 1, wherein: comprises a production construction process and an installation construction process; the production construction process comprises filling work, glazing work and die sinking work, wherein the filling work is firstly carried out, then the glazing work is carried out, and finally the die sinking work is carried out; the installation construction process comprises wall surface grooving work, wall surface roughening work and tile sticking work, wherein the wall surface grooving work is firstly carried out, then the wall surface roughening work is carried out, and finally the tile sticking work is carried out.

6. the anti-drop facing brick construction process according to claim 5, wherein: the filling work is to pour concrete into the die frame (3), the square groove die (4) and the cross groove (5), and then to scrape the surface layer of the added concrete.

7. The anti-drop facing brick construction process according to claim 5, wherein: the glazing work is to coat glazing materials on the surface of the concrete plate (7) after the target concrete is solidified.

8. The anti-drop facing brick construction process according to claim 5, wherein: the mold opening work is that the square sliding mold rod (14) and the first barrier strip (16) are pulled out through the first handle (15), then the cross module (18) and the second barrier strip (19) are pulled out through the second handle (20), and finally the tapestry brick (1) is taken down.

9. The anti-drop facing brick construction process according to claim 5, wherein: two opposite edges are selected at any time on four edges of the facing brick, two flat grooves are formed on the edges, the size of 20 x 40 x 2MM is that a metal or plastic locking tongue is adopted to be inlaid in two adjacent facing bricks, the two adjacent facing bricks are tightly connected together, the facing bricks in other directions are also sequentially connected to form self-locking and interconnection between the bricks, the whole wall surface is connected into a whole, and the falling of part of the facing bricks caused by infirm adhesion is effectively ensured.

10. The anti-drop facing brick construction process according to claim 5, wherein: the wall roughening work comprises two steps of roughening treatment and layered rough scraping and leveling, wherein the roughening treatment is carried out firstly, and then the layered rough scraping and leveling are carried out, wherein the roughening treatment is that cement fine mortar is adopted for the concrete wall of the outer wall according to the proportion of 1: 1, and glue is mixed in the concrete wall according to a certain proportion; after the red brick wall surface is wet, plastering 5MM thick by using cement mortar with the thickness of 1: 2, watering and curing, after reaching certain strength, carrying out next procedure construction, wherein the construction is suitable for 1-2 days in summer and 3 days in spring and autumn, and conducting layered rough scraping and leveling, namely conducting layered leveling by using cement mortar with the thickness of 1: 3 and the thickness of about 7 MM; and finally performing conventional tiling work.