CN209987148U - Ceramic tile homogenization former - Google Patents

Abstract

The utility model discloses a ceramic tile homogenizing and forming device, which comprises a feeding mechanism, a homogenizing mechanism, a conveying mechanism, a fidelity grid mechanism, a cloth pressing mechanism and a die cavity forming mechanism; the conveying mechanism is sequentially provided with a homogenizing mechanism, a fidelity grating mechanism, a die cavity forming mechanism and a cloth pressing mechanism along the material conveying direction and comprises a conveying belt and a die cavity arranged on the conveying belt; the feeding mechanism comprises a plurality of sets of feeding barrels and an inclined slide carriage, and the feeding barrels are arranged on the upper side of the inclined slide carriage; the homogenizing mechanism comprises a vibrating screen slide carriage, a first belt and a second belt; the fidelity grating mechanism is sequentially provided with a grating and a material distributor; the cloth pressing mechanism is provided with a carrying belt, a scraping plate and a film pressing assembly; the die cavity forming mechanism is provided with a material distributor and a plurality of pressing assemblies in sequence. The material is through suppression many times for ceramic tile after firing possesses the grid line, and the cloth many times, different materials spill on the ceramic tile, makes the decorative pattern point clear, and the ceramic tile structure is clear bright.

Description

Ceramic tile homogenization former

Technical Field

The utility model relates to a brick and tile production field especially relates to a ceramic tile homogenization former.

Background

The ceramic tile is made of metal oxide and semimetal oxide, and is widely applied to buildings and indoor and outdoor decorations, and the conventional preparation process comprises grinding, mixing, pressing, glazing and sintering.

The ceramic tile production equipment is applied to the modern industry, and accordingly production of the ceramic tile is characterized by mechanization, large-scale production and quantification. However, in the processes of grinding, mixing, glazing and the like, the difference between manual production and mechanical production is very large, and how to improve the mechanical production capacity and achieve the manual production effect as much as possible is a direction in which a person skilled in the art urgently needs to research and develop.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a ceramic tile homogenization former, the material is through suppression many times for ceramic tile after firing possesses the grid line, and the cloth many times, and different materials spill on the ceramic tile, make the decorative pattern point clear, and the ceramic tile structure is clear bright.

In order to solve the problems, the utility model provides a ceramic tile homogenizing and forming device, which comprises a feeding mechanism, a homogenizing mechanism, a conveying mechanism, a fidelity grid mechanism, a cloth pressing mechanism and a die cavity forming mechanism;

the conveying mechanism spans the inside of the ceramic tile homogenizing and forming equipment, and is sequentially provided with a homogenizing mechanism, a fidelity grid mechanism, a die cavity forming mechanism and a cloth pressing mechanism along the material conveying direction, and comprises a conveying belt and a die cavity arranged on the conveying belt;

the feeding mechanism is arranged on the upper side of the homogenizing mechanism and comprises a plurality of sets of feeding barrels and an inclined slide carriage, and the feeding barrels are arranged on the upper side of the inclined slide carriage;

the homogenizing mechanism comprises a vibrating screen slide carriage, a first belt and a second belt, the vibrating screen slide carriage is arranged on the lower side of the inclined slide carriage, and the first belt is arranged on the lower side of the vibrating screen slide carriage and is used for receiving materials; the second belt is arranged on the lower side of the first belt and correspondingly receives the materials which are run down by the first belt, and the second belt is used for conveying the materials to a die cavity of the conveying mechanism;

the fidelity grating mechanism is sequentially provided with a grating and a distributing machine along the material conveying direction;

the cloth pressing mechanism is provided with a carrying belt, a scraping plate and a film pressing assembly;

the die cavity forming mechanism is sequentially provided with a material distributor and a plurality of pressing assemblies along the material conveying direction.

Preferably, the plane of the carrier belt and the plane of the conveying belt form an acute angle, the film pressing assembly is arranged in the carrier belt, and the scraper is arranged at the joint of the scraper and the conveying belt.

Preferably, 4 sets of feeding barrels and inclined slide carriages of the feeding mechanism correspond to one vibrating screen slide carriage in pairs.

Preferably, the die cavity forming mechanism is provided with a material distributor, a pressing assembly and another pressing assembly in sequence along the material conveying direction.

Preferably, the two vibrating screen slide carriages are provided with conveying strips and rotate towards the middle of the two vibrating screen slide carriages, the tail end of the first belt is provided with a pressing block, and the middle part of the second belt is provided with a pressing block.

Preferably, the squeeze film assembly is internally provided with a grid structure.

It can be seen that, the utility model discloses a ceramic tile homogenization former, the material gets into oblique carriage apron through the storage bucket of throwing the material mechanism, carries to the die cavity of conveyer belt on via the swift current board that shakes the net, first belt, second belt again, and through the grid suppression pattern of fidelity grid mechanism after that, the cloth machine adds the material, and the press mold assembly that passes through cloth pressing mechanism again further suppresses, send to the cloth machine at last and add the material once more, finally send to the suppression subassembly suppression to form the brick embryo. Because this technique is with interior material of die cavity through suppression many times for ceramic tile after firing possesses the grid line, and the cloth many times, and different materials scatter on the ceramic tile, makes the decorative pattern point clear, and the ceramic tile structure is clear bright.

Drawings

Fig. 1 is the structure schematic diagram of the utility model of a ceramic tile homogenization former.

Wherein the symbols in the figures are as follows:

the device comprises a feeding barrel 1, an inclined slide carriage 2, a vibrating screen slide carriage 3, a first belt 4, a second belt 5, a grid 6, a distributing machine 7, a carrying belt 8, a scraper blade 9, a film pressing component 10, a distributing machine 11, a pressing component 12, a pressing block 13 and a conveying belt 14.

Detailed Description

The utility model discloses a ceramic tile homogenization former, the material is through suppression many times for ceramic tile after firing possesses the grid line, and the cloth many times, and different materials spill on the ceramic tile, make the decorative pattern point clear, and the ceramic tile structure is clear bright.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a tile homogenizing and forming apparatus according to the present invention.

It should be noted that, in the present application, the main development direction is the clear production of the tile grid texture, and therefore, most of the components in the application are the components in the prior art, and therefore, the structure thereof is not described in detail, and further, the structure thereof can be seen from the drawings. It is also a point that the present application is not overly burdensome to describe the structure of the stent/stent, etc.

The components of the known art used in the present application may not be given common names, but it can be seen from the operation and effect thereof that anyone should not determine that the present technical disclosure is insufficient for the problem.

The utility model provides a ceramic tile homogenizing and forming device, which comprises a feeding mechanism (not shown in the figure), a homogenizing mechanism (not shown in the figure), a conveying mechanism (not shown in the figure), a fidelity grid mechanism (not shown in the figure), a cloth pressing mechanism (not shown in the figure) and a die cavity forming mechanism (not shown in the figure);

the conveying mechanism spans the inside of the ceramic tile homogenizing and forming equipment, and is sequentially provided with a homogenizing mechanism, a fidelity grid mechanism, a die cavity forming mechanism and a cloth pressing mechanism along the material conveying direction, wherein the homogenizing mechanism, the fidelity grid mechanism, the die cavity forming mechanism and the cloth pressing mechanism comprise a conveying belt 14 and a die cavity (not shown in the figure) arranged on the conveying belt 14;

the feeding mechanism is arranged on the upper side of the homogenizing mechanism and comprises a plurality of sets of feeding barrels 1 and an inclined slide carriage 2, and the feeding barrels 1 are arranged on the upper side of the inclined slide carriage 2;

the homogenizing mechanism comprises a vibrating screen slide carriage 3, a first belt 4 and a second belt 5, wherein the vibrating screen slide carriage 3 is arranged on the lower side of the inclined slide carriage 2, and the first belt 4 is arranged on the lower side of the vibrating screen slide carriage 3 and receives materials; the second belt 5 is arranged at the lower side of the first belt 4 and correspondingly receives the material running down from the first belt 4, and the second belt 5 is used for conveying the material to a die cavity of the conveying mechanism;

the fidelity grating mechanism is sequentially provided with a grating 6 and a distributing machine 7 along the material conveying direction;

the cloth pressing mechanism is provided with a carrier belt 8, a scraper 9 and a film pressing assembly 10;

the die cavity forming mechanism is sequentially provided with a distributing machine 11 and a plurality of pressing assemblies 12 along the material conveying direction.

As can be seen, the feeding mechanism is arranged at the upper side of the homogenizing mechanism and is used for feeding materials to the homogenizing mechanism, and the homogenizing mechanism is used for uniformly mixing the materials.

The die cavity bears materials, the materials in the die cavity are processed by the grid through the fidelity grid mechanism, and the fired brick blank has clear grid textures, clear flower points and bright style.

And pressing and arranging the die cavity through a cloth pressing mechanism, finally conveying the die cavity to a die cavity forming mechanism, supplementing materials, scattering materials required by final textures into the die cavity, and then pressing.

Finally, the mixture is sent to firing and molding.

Preferably, the plane of the carrier belt 8 and the plane of the conveying belt 14 form an acute angle, the squeeze film assembly 10 is arranged in the carrier belt 8, and the scraper 9 is arranged at the joint of the scraper and the conveying belt 14.

The carrier belt is obliquely arranged on the conveyor belt, and the film pressing assembly is conveyed to the conveyor belt along with the carrier belt as can be seen in the figure.

Preferably, 4 sets of feeding barrels 1 and inclined slide carriages 2 of the feeding mechanism correspond to one vibrating screen slide carriage 3 in pairs.

Preferably, the die cavity forming mechanism is provided with a material distributor, a pressing assembly and another pressing assembly in sequence along the material conveying direction.

Preferably, the two vibrating screen slide carriages 3 are provided with conveying strips, the vibrating screen slide carriages 3 rotate towards the middle, the tail end of the first belt 4 is provided with a pressing block 13, and the middle part of the second belt 5 is provided with the pressing block 13.

Preferably, the squeeze film assembly is internally provided with a grid structure. This built-in grid of press mold subassembly can consolidate the texture of adobe once more.

The following is a detailed description of the operation of the technology of the present application:

the materials/raw materials for preparing the ceramic tiles, such as clay, shale, coal porphyry, fly ash, furnace slag and the like, are crushed and enter a feeding barrel, a proper amount of materials are fed into inclined slide carriages according to the production requirements of the ceramic tiles, and the materials of every two inclined slide carriages are mixed in corresponding vibrating screen slide carriages, namely the first step of homogenization.

And then, the two vibrating screen slide carriages operate oppositely to mix the materials on the first belt, and the pressing blocks roll the materials, namely, the second step of homogenization. The material of the first belt falls onto the second belt, i.e. a third step of homogenization.

After multiple times of homogenization, the materials are uniformly mixed, then fall into a die cavity on a conveying belt of the conveying mechanism, enter a fidelity grid mechanism, are embossed by the grid in the die cavity, and are scattered into the materials by a distributing machine.

Then, the die cavity is sent to a cloth pressing mechanism, a carrying belt carries the film pressing assembly, when the die cavity arrives, the film pressing assembly can press the film on the die cavity, and the scraper plate is used for arranging the materials in the film pressing assembly and removing the redundant materials from the die cavity.

And finally, the die cavity enters a die cavity forming mechanism, the material is scattered into a distributing machine by the distributing machine, and then the material enters a pressing assembly for pressing.

Utility model discloses a ceramic tile homogenization former, the material gets into oblique carriage apron through the storage bucket of throwing material mechanism, carries to the die cavity of conveyer belt on via the carriage apron that shakes the net, first belt, second belt again, and through fidelity grid mechanism's grid suppression pattern after that, the cloth machine adds the material, and the press mold subassembly that passes through cloth pressing mechanism further suppresses again, send to the cloth machine at last and add the material once more, finally send to the suppression subassembly suppression to form the brick embryo. Because this technique is with interior material of die cavity through suppression many times for ceramic tile after firing possesses the grid line, and the cloth many times, and different materials scatter on the ceramic tile, makes the decorative pattern point clear, and the ceramic tile structure is clear bright.

It is right above the utility model provides a structure of ceramic tile homogenization former introduces in detail, to the general technical personnel in this field, according to the utility model discloses the thought of embodiment all has the change part on concrete implementation and application scope, to sum up, this description content should not be understood as right the utility model discloses a restriction.

Claims (6)

1. A ceramic tile homogenizing and forming device is characterized by comprising a feeding mechanism, a homogenizing mechanism, a conveying mechanism, a fidelity grid mechanism, a cloth pressing mechanism and a die cavity forming mechanism;

the conveying mechanism spans the inside of the ceramic tile homogenizing and forming equipment, and is sequentially provided with a homogenizing mechanism, a fidelity grid mechanism, a die cavity forming mechanism and a cloth pressing mechanism along the material conveying direction, and comprises a conveying belt and a die cavity arranged on the conveying belt (14);

the feeding mechanism is arranged on the upper side of the homogenizing mechanism and comprises a plurality of sets of feeding barrels (1) and an inclined slide carriage (2), and the feeding barrels are arranged on the upper side of the inclined slide carriage;

the homogenizing mechanism comprises a vibrating screen slide carriage (3), a first belt (4) and a second belt (5), the vibrating screen slide carriage is arranged on the lower side of the inclined slide carriage, and the first belt is arranged on the lower side of the vibrating screen slide carriage and receives materials; the second belt is arranged on the lower side of the first belt and correspondingly receives the materials which are run down by the first belt, and the second belt is used for conveying the materials to a die cavity of the conveying mechanism;

the fidelity grating mechanism is sequentially provided with a grating (6) and a distributing machine (7) along the material conveying direction;

the cloth pressing mechanism is provided with a carrier belt (8), a scraper (9) and a film pressing assembly (10);

the die cavity forming mechanism is sequentially provided with a distributing machine (11) and a plurality of pressing assemblies (12) along the material conveying direction.

2. The apparatus as claimed in claim 1, wherein the plane of the carrier belt is at an acute angle to the plane of the conveyor belt, the squeeze film assembly is disposed in the carrier belt, and the scraper is disposed at the connection with the conveyor belt.

3. The apparatus as claimed in claim 1, wherein the charging barrel and the inclined slide carriage of the charging mechanism are provided with 4 sets of two sets of vibrating screen slide carriages.

4. The apparatus as claimed in claim 1, wherein the cavity forming mechanism comprises a distributor, a pressing assembly and another pressing assembly arranged in sequence along the direction of material transfer.

5. The apparatus for homogenizing and forming ceramic tiles according to any one of claims 1 to 4, wherein two vibrating screen slide carriages are provided with conveying strips and rotate towards the middle of the two vibrating screen slide carriages, a pressing block (13) is arranged at the tail end of the first belt, and a pressing block is arranged in the middle of the second belt.

6. A ceramic tile homogenizing and forming apparatus according to any one of claims 1 to 4 wherein the squeeze film assembly incorporates a grid structure.

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