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Compound bottom-reverse grizzly screen material arranging device and method

A cloth distribution device and grid technology, applied in the direction of supply devices, manufacturing tools, etc., can solve the problems of complex structure, low distribution efficiency, high production cost, etc., to simplify the distribution device and mold device, occupy a small space, and improve the distribution efficiency Effect

Inactive Publication Date: 2010-10-20
KEDA INDUSTRIAL GROUP CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The purpose of the present invention is to provide a composite anti-bottom grid distribution device and distribution method, which can effectively solve the technical defects of the existing partition distribution method and equipment distribution efficiency, complex structure, and high production cost.

Method used

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  • Compound bottom-reverse grizzly screen material arranging device and method
  • Compound bottom-reverse grizzly screen material arranging device and method
  • Compound bottom-reverse grizzly screen material arranging device and method

Examples

Experimental program
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Effect test

no. 1 example

[0038] Figure 3a ~ Figure 3c It is a working schematic diagram of the first embodiment of the present invention, in figure 1 On the basis of the technical solution shown, the driver 50 in this embodiment is a lifter 51 connected to the grille 20, and the lifter 51 is used to drive the grille 20 to rise and fall. The powder bearing carrier 30 on the conveying platform 10 runs along the V direction (as Figure 3a Shown), stop moving when running to the bottom of the grid 20, the lifter 51 drives the grid 20 to descend, so that the grid 20 falls on the powder bearing carrier 30. Distributor 40 distributes material in grid 20, makes powder fill the filling area that each grid bar constitutes (as Figure 3b shown). The powder bearing carrier 30 runs again and stops after moving for a certain distance. During the movement, the powder at the bottom of the grid rubs against the surface of the powder bearing carrier, so that the powder at the bottom of the grid is displaced under t...

no. 2 example

[0040] Figure 5a ~ Figure 5c It is a working schematic diagram of the second embodiment of the present invention, in figure 1 On the basis of the technical solution shown, the driver 50 in this embodiment includes a lifter 51 and a mover 52 connected to the grid 20, wherein the lifter 51 is used to drive the grid 20 to rise and fall, and the mover 52 is used to drive the grid 20 Move on the powder bearing carrier 30. The powder bearing carrier 30 on the conveying platform 10 runs along the V direction (as Figure 5a Shown), stop moving when running to the bottom of the grid 20, the lifter 51 drives the grid 20 to descend, so that the grid 20 falls on the powder bearing carrier 30. Distributor 40 distributes material in grid 20, makes powder fill the filling area that each grid bar constitutes (as Figure 5b shown). The mover 52 drives the grid 20 to drive the powder in it to move along the U direction on the powder carrier 30 and then stops. During the movement, the powde...

no. 3 example

[0042] Figure 6a ~ Figure 6e It is a working schematic diagram of the third embodiment of the present invention, and this embodiment is Figure 5a ~ Figure 5c The improvement of the technical scheme shown. Such as Figure 6a ~ Figure 6e As shown, the driver 50 in this embodiment can drive the grid 20 to rise and fall and move to the powder bearing carrier 30. The lower surface of the grid 20 is provided with a flat plate 60, and the flat plate 60 can be controlled by the driver 50 to rise and fall together with the grid 20. decline. The powder bearing carrier 30 on the conveying platform 10 runs along the V direction (as Figure 6a As shown), when passing directly below the grille 20 and running to the front and lower side of the grille 20, the driver 50 drives the grille 20 and the flat plate 60 to descend together, and one end of the flat plate 60 presses the tail end of the powder bearing carrier 30 , the tail end of the soft powder-bearing carrier is bent, so that the...

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Abstract

The present invention relates to one kind of composite grille material distributing apparatus and method. The material distributing apparatus includes one conveying platform with grille, one powder carrier, one material distributor for distributing powder to the grille, and one driving unit connected to the grille or the powder carrier for relative motion. The material distributing method includes the steps of: running the powder carrier before the grille, lowering the grille and the plate below the grille to make the plate have one end pressing the tail of the powder carrier and the upper surface in the same level as that of the powder carrier, distributing powdered material to the grille, shifting the grille with powdered material toward the powder carrier, and elevating the grille and the plate while leaving powdered material in the powder carrier. The present invention has high material distributing efficiency, simplified material distributing apparatus and low cost, and is suitable for ceramic tile production.

Description

technical field [0001] The invention relates to a distributing device and a distributing method for producing ceramic tiles, in particular to a distributing device and a distributing method for a composite reverse bottom grid. Background technique [0002] At present, the cloth distribution method and the cloth distribution device for producing fine patterns or similar line decorative ceramic tiles generally adopt the method of partitioning cloth and forming outside the cavity of the floating mold frame. The basic flow of the method is as follows: firstly arrange the area powder on the powder bearing carrier, then arrange the line powder layer by layer, and finally arrange the area powder, so as to complete the distribution of the entire brick surface. Then, pull the entire powder-bearing carrier and drive the powder on it to move to the press mold frame together, and cover the powder-bearing carrier and the powder on it through the mold of the floating frame structure, and ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B28B13/02
Inventor 武桢
Owner KEDA INDUSTRIAL GROUP CO LTD