CN109676768B - Material distribution system - Google Patents

Abstract

A material distribution system, which comprises a material mixing device, a secondary flowing inclined plane, a material collecting hopper, a material collecting mould frame and a mould frame conveying device; the mixing device is arranged above the secondary flow inclined plane, the outlet of the mixing device is aligned with the upper inlet of the secondary flow inclined plane, the secondary flow inclined plane is arranged above the collecting hopper, and the lower outlet of the secondary flow is aligned with the inlet of the collecting hopper; the die frame conveying device is arranged below the collecting hopper, the aggregate die frame is arranged on the die frame conveying device, and the die frame conveying device is used for conveying the aggregate die frame. According to the technical scheme, mixed slurry is formed in the mixing device before the slurry is stirred, and then the mixed slurry is stirred in the aggregate mould frame, so that the formed brick or stone plate can conform to the texture of natural stone.

Description

Material distribution system

Technical Field

The application relates to the technical field of ceramic tile manufacturing, in particular to a material distribution system.

Background

At present, decoration process methods for the imitated natural ceramic tile are continuously diversified, in the process of performing slurry decoration, a bell jar slurry spraying device or a linear slurry spraying device is generally adopted for decoration of the brick/plate surface of the brick/plate, the prior linear slurry spraying device has single slurry spraying process mode, slurry spraying control is difficult, the limitation of slurry spraying equipment leads to the limitation of surface decoration effect, the mixing effect of slurry is also influenced, the blending mixing degree of slurry is poor, the layering effect is often not obvious, the process effect is simple and hard, and the uneven slurry spraying can lead to the defects of insufficient definition, repeated singleness, vivid and hard lines and simplicity of the pattern texture of the prepared imitated natural stone brick/plate.

Disclosure of Invention

The application aims at overcoming the defects in the prior art and provides a cloth system.

To achieve the purpose, the application adopts the following technical scheme: a material distribution system, which comprises a material mixing device, a secondary flowing inclined plane, a material collecting hopper, a material collecting mould frame and a mould frame conveying device;

the mixing device is arranged above the secondary flow inclined plane, the outlet of the mixing device is aligned with the upper inlet of the secondary flow inclined plane, the secondary flow inclined plane is arranged above the collecting hopper, and the lower outlet of the secondary flow is aligned with the inlet of the collecting hopper;

the die frame conveying device is arranged below the collecting hopper, the aggregate die frame is arranged on the die frame conveying device, and the die frame conveying device is used for conveying the aggregate die frame;

the stirring device is arranged in the collecting hopper and is used for stirring the sizing agent of the aggregate mould frame; the material stirring device comprises a plurality of groups of reciprocating material stirring groups, wherein each reciprocating material stirring group comprises an air cylinder and a plurality of stirring sheets; the air cylinder is connected with a plurality of the poking sheets and is used for driving the poking sheets to swing back and forth in a reciprocating manner.

Preferably, a plurality of groups of the reciprocating material stirring groups are adjacently and alternately arranged.

Preferably, the reciprocating material stirring group further comprises a movable rod;

the cylinder barrel of the air cylinder is arranged on the collecting hopper, the piston rod of the air cylinder is connected with the movable rod, the upper end of the poking plate is connected with the movable rod, the middle part or the middle lower part of the poking plate is hinged in the collecting hopper, and the lower end of the poking plate passes through the outlet of the collecting hopper; the shifting sheets in the same group are arranged adjacently at equal intervals.

Preferably, the reciprocating material stirring group is provided with four groups, and the cylinders of two adjacent groups are respectively arranged at the front side and the rear side of the collecting hopper.

Preferably, the device also comprises a bulk material device;

the bulk material device is arranged at the upper end of the interior of the collecting hopper and is arranged right below the outlet of the secondary flow inclined plane; the bulk cargo device is composed of a plurality of partition plates, and the partition plates are arranged in the front-back direction and are arranged at intervals.

Preferably, the mixing device comprises a first flow inclined plane and a second flow inclined plane, and the first flow inclined plane and the second flow inclined plane are arranged in an inclined manner to form a mixing flow passage with a V-shaped section.

Preferably, a plurality of flow channels are arranged on the first flow inclined plane and/or the second flow inclined plane.

The application has the beneficial effects that: according to the technical scheme, mixed slurry is formed in the mixing device before the slurry is stirred, and then the mixed slurry is stirred in the aggregate mould frame, so that the formed brick or stone plate can conform to the texture of natural stone.

Drawings

The application will be further described with reference to the drawings and examples.

FIG. 1 is a schematic overall construction of one embodiment of the present application;

FIG. 2 is a schematic diagram of a reciprocating dial pack according to one embodiment of the present application;

fig. 3 is a top view of a kick-out device of one embodiment of the present application.

Wherein: the material mixing device 1, the first flow inclined plane 11, the second flow inclined plane 12, the secondary flow inclined plane 2, the collecting hopper 3, the material collecting die frame 4, the die frame conveying device 5, the material stirring device 6, the reciprocating material stirring group 61, the air cylinder 611, the stirring sheet 612, the movable rod 613, the material dispersing device 7 and the partition plate 71.

Detailed Description

The technical scheme of the application is further described below by the specific embodiments with reference to the accompanying drawings.

A material distribution system comprises a material mixing device 1, a secondary flow inclined plane 2, a material collecting hopper 3, a material collecting die frame 4 and a die frame conveying device 5;

the mixing device 1 is arranged above the secondary flow inclined plane 2, the outlet of the mixing device 1 is aligned with the upper inlet of the secondary flow inclined plane 2, the secondary flow inclined plane 2 is arranged above the collecting hopper 3, and the lower outlet of the secondary flow is aligned with the inlet of the collecting hopper 3;

the die frame conveying device 5 is arranged below the collecting hopper 3, the collecting die frame 4 is arranged on the die frame conveying device 5, and the die frame conveying device 5 is used for conveying the collecting die frame 4;

the material stirring device 6 is arranged in the collecting hopper 3 and is used for stirring the sizing agent of the material collecting mould frame 4; the material stirring device 6 comprises a plurality of groups of reciprocating material stirring groups 61, and the reciprocating material stirring groups 61 comprise an air cylinder 611 and a plurality of stirring sheets 612; the cylinder 611 is connected to the plurality of paddles 612, and is used for driving the plurality of paddles 612 to reciprocate back and forth.

The application is arranged to be front along the paper surface and back along the paper surface.

The working process of the material distribution system of the technical scheme is as follows: the basic slurry and the auxiliary slurry are mixed in the mixing device 1, the basic slurry is the color tone of the ceramic tile or stone slab foundation, and the auxiliary slurry is other mixed colors, and mainly plays a role in decoration. After the above two slurries are mixed, they fall onto the secondary flow inclined plane 2, and through the conduction of the secondary flow inclined plane 2, they fall into the collecting hopper 3, and finally all slurries gradually fall into the collecting mold frame 4. The stirring device 6 can stir mixed slurry formed by mixing basic slurry and auxiliary slurry. In fact, in the stirring process, a plurality of groups of reciprocating stirring groups 61 are involved for stirring the slurry at the same time, so that the auxiliary slurry can be fully fused into the basic slurry to form a decorative surface which is more similar to the texture of natural stone. The stirring of the mixed slurry is that the air cylinder 611 drives the plurality of stirring sheets 612 to reciprocate, and the stirring sheets 612 are inserted into the mixed slurry, so that the reciprocating movement of the stirring sheets 612 can continuously stir the mixed slurry. According to the technical scheme, mixed slurry is formed in the mixing device 1 before the slurry is stirred, and then the mixed slurry is stirred in the aggregate mould frame 4, so that the formed ceramic tile can conform to the texture of natural stone.

Further, a plurality of the reciprocating material shifting groups 61 are adjacently staggered.

The plurality of groups of reciprocating stirring groups 61 stir the mixed slurry at the same time, so that the mixed slurry can be stirred comprehensively and fully.

Further, the reciprocating group 61 further includes a movable rod 613;

the cylinder barrel of the air cylinder 611 is arranged on the collecting hopper 3, the piston rod of the air cylinder 611 is connected with the movable rod 613, the upper end of the poking plate 612 is connected with the movable rod 613, the middle part or the middle lower part of the poking plate 612 is hinged in the collecting hopper 3, and the lower end of the poking plate 612 passes through the outlet of the collecting hopper 3; the paddles 612 of the same group are disposed adjacent to each other at equal intervals.

The piston rod of the cylinder 611 extends and retracts to drive the movable rod 613 to move back and forth, so that the plurality of paddles 612 thereon can be driven to swing back and forth simultaneously, and stirring of the mixed slurry is realized.

Further, the reciprocating batch group 61 is provided with four groups, and two adjacent groups of cylinders 611 are respectively mounted on the front side and the rear side of the collecting hopper 3.

Through the arrangement, the reciprocating stirring group 61 can stir the mixed slurry omnidirectionally and without dead angles, so that the decoration surface plate is formed into a more natural stone-like texture.

Still further, a bulk device 7 is included;

the bulk material device 7 is arranged at the upper end of the interior of the collecting hopper 3, and the bulk material device 7 is arranged right below the outlet of the secondary flow inclined plane; the bulk material device 7 is composed of a plurality of partition plates 71, and the partition plates 71 are arranged along the front-back direction and are arranged at intervals.

The base slurry and the auxiliary slurry falling down on the secondary flow inclined plane 2 pass through the bulk cargo device 7 and are separated and cut by a plurality of separation plates 71, and finally fall into the collecting hopper 3, so that the base slurry and the auxiliary slurry can be fully mixed.

Further, the mixing device 1 includes a first flow inclined surface 11 and a second flow inclined surface 12, and the first flow inclined surface 11 and the second flow inclined surface 12 are disposed obliquely to each other, so as to form a mixing flow channel with a V-shaped cross section.

The first flow inclined surface 11 and the second flow inclined surface 12 may be used to flow and drop the base slurry and the auxiliary slurry, respectively, so that the base slurry and the auxiliary slurry can be mutually fused at the junction of the first flow inclined surface 11 and the second flow inclined surface 12, and a mixed slurry can be formed.

Further, a plurality of flow channels are provided on the first flow ramp 11 and/or the second flow ramp 12.

The basic slurry and the auxiliary slurry can fall down along a plurality of flow channels, and the intersection and fusion of the two slurries can be facilitated.

The foregoing is merely exemplary of the present application, and those skilled in the art should not be considered as limiting the application, since modifications may be made in the specific embodiments and application scope of the application in light of the teachings of the present application.

Claims (7)

1. A cloth system, characterized by: comprises a mixing device, a secondary flow inclined plane, a collecting hopper, a collecting mould frame and a mould frame conveying device;

the mixing device is arranged above the secondary flow inclined plane, the outlet of the mixing device is aligned with the upper inlet of the secondary flow inclined plane, the secondary flow inclined plane is arranged above the collecting hopper, and the lower outlet of the secondary flow is aligned with the inlet of the collecting hopper;

the die frame conveying device is arranged below the collecting hopper, the aggregate die frame is arranged on the die frame conveying device, and the die frame conveying device is used for conveying the aggregate die frame;

the stirring device is arranged in the collecting hopper and is used for stirring the sizing agent of the aggregate mould frame; the material stirring device comprises a plurality of groups of reciprocating material stirring groups, wherein each reciprocating material stirring group comprises an air cylinder and a plurality of stirring sheets; the air cylinder is connected with a plurality of the poking sheets and is used for driving the poking sheets to swing back and forth in a reciprocating manner;

the reciprocating material stirring group also comprises a movable rod;

the cylinder barrel of the air cylinder is arranged on the collecting hopper, the piston rod of the air cylinder is connected with the movable rod, the upper end of the poking plate is connected with the movable rod, the middle part or the middle lower part of the poking plate is hinged in the collecting hopper, and the lower end of the poking plate penetrates through the outlet of the collecting hopper.

2. The distribution system according to claim 1, characterized in that: and a plurality of groups of reciprocating material stirring groups are adjacently staggered.

3. The distribution system according to claim 1, characterized in that: the shifting sheets in the same group are arranged adjacently at equal intervals.

4. The distribution system according to claim 2, characterized in that: the reciprocating material stirring group is provided with four groups, and the cylinders of two adjacent groups are respectively arranged at the front side and the rear side of the collecting hopper.

5. The distribution system according to claim 1, characterized in that: the device also comprises a bulk material device;

the bulk material device is arranged at the upper end of the interior of the collecting hopper and is arranged right below the outlet of the secondary flow inclined plane; the bulk cargo device is composed of a plurality of partition plates, and the partition plates are arranged in the front-back direction and are arranged at intervals.

6. The distribution system according to claim 1, characterized in that: the mixing device comprises a first flow inclined plane and a second flow inclined plane, and the first flow inclined plane and the second flow inclined plane are arranged in an inclined mode to form a mixing flow passage with a V-shaped section.

7. The distribution system according to claim 6, wherein: and a plurality of flow channels are arranged on the first flow inclined plane and/or the second flow inclined plane.