CN101032834B - Compound bottom-reverse grizzly screen material arranging device and method - Google Patents

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

Compound anti-bottom sieve frame grid distribution device and distributing method

Technical field

The present invention relates to a kind of distribution device and distributing method of production Ceramic Tiles, particularly a kind of compound anti-bottom sieve frame grid distribution device and distributing method.

Background technology

At present, produce the distributing method of fine pattern or similar lines ornamental porcelain brick and the method that distribution device generally adopts moulding outside subregion cloth, the unsteady framed chamber.The basic procedure of this method is: earlier to holding layout area powder on the powder carrier, and then arrange line powder from level to level, and layout area powder more at last, thus finish the cloth of full brick face.Then, the traction monoblock holds powder carrier and the powder that drives on it moves to the framed place of press together, by the mould of the framed structure of floating, with hold powder carrier and on powder cover, suppress, finish cloth, shaping work that ceramic tile is produced.

The distributing method of moulding has been broken through the limitation of grid cloth outside this kind subregion cloth, the chamber, can realize meticulous, complicated patterns decorative effect, and hold powder carrier and powder and move the mode that reaches moulding outside the chamber together, further avoided powder in displacement and enter pattern deformation in the die cavity pressing process, the size of the thickness of ceramic tile and size is not subjected to the restriction of die cavity yet simultaneously, can realize the production of big specification, splits.

But when laying line powder the cloth station need be set according to the color of lines owing to this method, a kind of color accounts for a station, every kind of independent cloth of color, make cloth efficient lower, adopt this distributing method the equipment overall structure complexity, take up room big, the powder waste is serious, particularly produce to decorate that precision prescribed is not high, the common micro-powder brick of compound or the space of a whole page decorate special requirement when the ceramic tile of certain variation is arranged, the economy of this distributing method is poorer, the production cost height.

Summary of the invention

The purpose of this invention is to provide a kind of compound anti-bottom sieve frame grid distribution device and distributing method, effectively solve existing subregion distributing method and equipment cloth efficient is low, complex structure, production cost high-technology defective.

To achieve these goals, the invention provides a kind of compound anti-bottom sieve frame grid distribution device, comprise the grid that is positioned on the delivery platform, hold powder carrier and in described grid, arrange the distributing device of powder, described grid is connected with a driver, described driver is for driving described grid rising or the lifter that descends and driving the shifter that described grizzly level moves, described shifter drives powder that grid drives in it and moves holding on the powder carrier, described grid with hold the grid bottom that powder carrier surface contacts and be communicated with, in moving the powder of grid bottom with hold the powder carrier surface and produce friction, powder in the grid produces displacement under rubbing action, make the powder of grid bottom produce ripple effect.

Further, comprise that also being arranged on described grid lower surface is controlled the flat board that together rises or descend with described grid by described lifter.

On the technique scheme basis, also comprise being arranged on the described delivery platform and driving the described portable plate that powder carrier rises or descend that holds.

To achieve these goals, the present invention also provides a kind of compound anti-bottom sieve frame grid distributing method, comprising:

Hold powder carrier and run to the front lower place of grid; Grid and the flat board that is positioned on the grid bottom surface descend, and a dull and stereotyped end is pushed down the tail end that holds powder carrier, makes the upper surface of described flat board and the described upper surface that holds powder carrier be in a horizontal plane; Arrange powder to the grid that is positioned on the flat board; The powder that described grid drives in it moves to holding on the powder carrier; Grid and flat board together rise or hold powder carrier and descend, and powder is stayed held on the powder carrier.

Wherein, described grid drives powder mobile being specially on holding powder carrier in it: the powder that grid drives in it begins to move; The bottom of the powder that moves and the static surface of holding powder carrier produce friction and make powder generation displacement in the grid; Grid stops after moving to fully and holding on the powder carrier.

On the technique scheme basis, also comprise: hold powder carrier drive powder and move in the press; The framed decline of floating, with hold powder carrier and on powder cover; Powder is pressed into Ceramic Tiles.

For achieving the above object, the present invention also provides another kind of compound anti-bottom sieve frame grid distributing method, comprising:

Arrange powder to being positioned at the grid that holds on the powder carrier; Described grid and the described powder carrier that holds relatively move, and make the powder bottom and hold the powder carrier surface because of friction generation displacement; Grid rises or holds powder carrier and descends, and makes powder stay described holding on the powder carrier.

Wherein, described grid and the described powder carrier that holds relatively move that to move, hold powder carrier static or hold that powder carrier moves, grid is static for grid.

On the technique scheme basis, also comprise: hold powder carrier drive powder and move in the press; The framed decline of floating, with hold powder carrier and on powder cover; Powder is pressed into Ceramic Tiles.

The present invention proposes a kind of compound anti-bottom sieve frame grid distribution device and distributing method, by grid being set and holding the powder carrier relative motion, make the powder that is positioned at grid bottom produce displacement when holding the friction of powder carrier surface, since with hold the grid bottom that powder carrier surface contacts and be communicated with, the displacement of powder has changed the density and the distribution of each grizzly bar wall place powder in the grid, thereby make the powder in the grid produce certain fluctuation and flow effect, realize required decorative purpose.Divide the subregion distributing method of arrangements of steps powder more than three times or three times to compare with prior art, technique scheme of the present invention has improved cloth efficient, distribution device and die device have been simplified, it is little to take up an area of the space, saved production cost, the rich slight production that change, common micro-powder brick of very suitable decorative pattern.

Below by drawings and Examples, technical scheme of the present invention is described in further detail.

Fig. 1 is the compound anti-bottom sieve frame grid distribution device structural representation of the present invention;

Fig. 2 a～Fig. 2 e is the structural representation of grid of the present invention;

Fig. 3 a～Fig. 3 c is the work schematic diagram of first embodiment of the invention;

Fig. 4 is the shape schematic diagram of powder of the present invention after moving;

Description of drawings

Fig. 5 a～Fig. 5 c is the work schematic diagram of second embodiment of the invention;

Fig. 6 a～Fig. 6 e is the work schematic diagram of third embodiment of the invention;

Fig. 7 a～Fig. 7 e is the work schematic diagram of fourth embodiment of the invention;

Fig. 8 is the flow chart of the compound anti-bottom sieve frame grid distributing method of the present invention;

Fig. 9 is another flow chart of the compound anti-bottom sieve frame grid distributing method of the present invention.

Description of reference numerals:

10-delivery platform; 20-grid; 30-hold powder carrier;

40-distributing device; 50-driver; 21-frame;

22-grizzly bar; 51-lifter; 52-shifter;

60-flat board; 70-portable plate.

The specific embodiment

Fig. 1 is the compound anti-bottom sieve frame grid distribution device structural representation of the present invention.As shown in Figure 1, compound anti-bottom sieve frame grid distribution device structure comprises the grid 20 that is positioned at delivery platform 10 tops, holds powder carrier 30, distributing device 40 and driver 50, wherein distributing device 40 is used for arranging powder in grid 20, grid 20 is used to load powder, holding powder carrier 30 is used for powder is carried to press, driver 50 is with grid 20 or hold powder carrier 30 and be connected, and is used to drive grid 20 or holds powder carrier 30 and rise or descend and make grid 20 and hold powder carrier 30 and relatively move as level.Fig. 2 a～Fig. 2 e is the structural representation of grid of the present invention, and grid 20 comprises frame 21 and grizzly bar 22, and grizzly bar 22 is arranged in the frame 21, can be arranged to difformity and specification according to the needs of decorating.Fig. 2 a is the randomly shaped cell structure of a kind of grizzly bar, and Fig. 2 b is a kind of cell structure of grizzly bar diamond shaped, and Fig. 2 c is the rectangular-shaped cell structure of a kind of grizzly bar, and Fig. 2 d is a kind of cell structure of grizzly bar triangle.Further, the height of grizzly bar 22 is less than the height of frame 21, grid bottom surface relatively, and a distance is left in the lower end of grizzly bar 22 and grid bottom surface, and the fill area of each grizzly bar 22 formation is communicated with in the grid bottom surface.Shown in Fig. 2 e, grizzly bar can be regulated according to the needs of decorating with the distance H of grid bottom surface bottom.

The present invention proposes the technical scheme of powder relative motion in a kind of grid, at grid and holding in the powder carrier relative motion, the powder that is positioned at grid bottom is producing displacement when holding the friction of powder carrier surface, since with hold the grid bottom that powder carrier surface contacts and be communicated with, the displacement of powder has changed the density and the distribution of each grizzly bar wall place powder in the grid, thereby the powder that makes the grid bottom produces certain effect that flows, and realizes required decorative purpose.Divide the subregion distributing method of arrangements of steps powder more than three times or three times to compare with prior art, technique scheme of the present invention has improved cloth efficient, distribution device and die device have been simplified, it is little to take up an area of the space, saved production cost, the production of the rich slight Ceramic Tiles that changes of very suitable decorative pattern.

On the technique scheme basis, the present invention is compound, and anti-bottom sieve frame grid distribution device can have multiple implementation structure, is illustrated below by specific embodiment.

First embodiment

Fig. 3 a～Fig. 3 c is the work schematic diagram of first embodiment of the invention, and on technical scheme shown in Figure 1 basis, present embodiment driver 50 is the lifter 51 that is connected with grid 20, and lifter 51 is used to drive grid 20 and rises, descends.The powder carrier 30 that holds on the delivery platform 10 moves (shown in Fig. 3 a) along the V direction, stops to move when running to grid 20 belows, and lifter 51 drives grids 20 and descends, and grid 20 is dropped on hold on the powder carrier 30.Distributing device 40 is cloth in grid 20, makes powder be full of the fill area (shown in Fig. 3 b) that each grizzly bar constitutes.Holding powder carrier 30 reruns, stop after moving a segment distance, in moving, the powder of grid bottom with hold the powder carrier surface and produce friction, make the powder of grid bottom under friction effect, produce displacement, change the density and the distribution of each grizzly bar wall place powder, make the powder of grid bottom produce the effect (shown in Fig. 3 c) of certain fluctuation.Last lifter 51 drives grid 20 and rises, and powder is stayed held on the powder carrier 30.Hold powder carrier 30 again along V direction operation, drive powder and move to the framed place of press, the unsteady framed decline of press, with hold powder carrier and on powder cover, suppress, finish the Ceramic Tiles moulding.Fig. 4 is the shape schematic diagram of powder of the present invention after moving, powder in grid 20 is when holding powder carrier 30 and relatively move, the powder of grid bottom with hold the powder carrier surface and produce friction, since with hold the grid bottom that powder carrier surface contacts and be communicated with, friction causes the displacement of bottom powder, being positioned at anterior part powder moves backward, and the part powder that promotes the rear portion raises up, the density and the distribution of each grizzly bar wall place powder in the grid have been changed, thereby make powder produce certain lines, reach certain decorative effect that flows.

Second embodiment

Fig. 5 a～Fig. 5 c is the work schematic diagram of second embodiment of the invention, on technical scheme shown in Figure 1 basis, present embodiment driver 50 comprises lifter 51 and the shifter 52 that is connected with grid 20, its mid-riser 51 is used to drive grid 20 and rises, descends, and shifter 52 is used to drive grid 20 and moves holding on the powder carrier 30.The powder carrier 30 that holds on the delivery platform 10 moves (shown in Fig. 5 a) along the V direction, stops to move when running to grid 20 belows, and lifter 51 drives grids 20 and descends, and grid 20 is dropped on hold on the powder carrier 30.Distributing device 40 is cloth in grid 20, makes powder be full of the fill area (shown in Fig. 5 b) that each grizzly bar constitutes.Shifter 52 drives powder that grids 20 drive in it to be stopped after powder carrier 30 upper edge U directions move a segment distance holding, in moving, the powder of grid bottom with hold the powder carrier surface and produce friction, make the powder in the grid under friction effect, produce displacement, change the density and the distribution of each grizzly bar wall place powder, make the powder of grid bottom produce the effect (shown in Fig. 5 c) of certain fluctuation.The flow process of back is identical with first embodiment.Present embodiment drives grid 20 holding the shifter 52 that moves on the powder carrier 30 by being provided with, and can control displacement and translational speed more accurately, can obtain figure decoration effect preferably.In actual the use, lifter 51 and shifter 52 can be designed to integrative-structure.

The 3rd embodiment

Fig. 6 a～Fig. 6 e is the work schematic diagram of third embodiment of the invention, and present embodiment is the improvement of technical scheme shown in Fig. 5 a～Fig. 5 c.Shown in Fig. 6 a～Fig. 6 e, present embodiment driver 50 can drive grid 20 and rise, descends and move to holding on the powder carrier 30, and the lower surface of grid 20 is provided with flat board 60, and dull and stereotyped 60 can together be risen and descend with grid 20 by driver 50 controls.The powder carrier 30 that holds on the delivery platform 10 moves (shown in Fig. 6 a) along the V direction, stop to move under through grid 20 and when running to the front lower place of grid 20, driver 50 drives grid 20 and dull and stereotyped 60 and together descends, an end of dull and stereotyped 60 is pushed down the tail end that holds powder carrier 30, the tail end that holds powder carrier of softness is bent, make the upper surface of flat board 60 and the upper surface that holds powder carrier 30 be in a horizontal plane (shown in Fig. 6 b).In the present embodiment, the platform of grid 20 and dull and stereotyped 60 belows can be on a horizontal plane with the delivery platform 10 that holds powder carrier 30 belows.The distributing device (not shown) is cloth in grid 20, makes powder be full of the fill area (shown in Fig. 6 c) that each grizzly bar constitutes, because grid has flat board 60 for 20 times, is carried on dull and stereotyped 60 so powder is actually.Driver 50 drives grids 20 and drives powder in it and move in dull and stereotyped 60 upper edge U directions and stop after holding on the powder carrier 30, move the powder and the flat board of middle grid bottom or hold the generation friction of powder carrier surface, make the powder in the grid under friction effect, produce displacement, change the density and the distribution of each grizzly bar wall place powder, make the powder of grid bottom produce the effect (shown in Fig. 6 d) of certain fluctuation.At last, driver 50 drives grid 20 and dull and stereotyped 60 and together rises, and grid 20 interior powders is stayed held (shown in Fig. 6 e) on the powder carrier 30.Hold powder carrier 30 and rerun, drive powder and move to the framed place of press, the unsteady framed decline of press, with hold powder carrier and on powder cover, suppress, finish the Ceramic Tiles moulding.Present embodiment is by being provided with flat board 60, and powder that grid 20 is driven in it can move long distance, obtains better decorative effect.

The 4th embodiment

Fig. 7 a～Fig. 7 e is the work schematic diagram of fourth embodiment of the invention, present embodiment is the improvement of technical scheme shown in Fig. 6 a～Fig. 6 e, different with the 3rd example structure is, one portable plate 70 also is set on the delivery platform, portable plate 70 is connected with a lifter, drives to hold powder carrier 30 risings or decline.

When running on the portable plate 70, the V direction stops to move (shown in Fig. 7 a) when holding powder carrier, driver 50 drives grid 20 and dull and stereotyped 60 and descends together, an end of dull and stereotyped 60 is pushed down the tail end that holds powder carrier 30, the tail end that holds powder carrier of softness is bent, make the upper surface of flat board 60 and the upper surface that holds powder carrier 30 be in a horizontal plane (shown in Fig. 7 b).The distributing device (not shown) is cloth in grid 20, makes powder be full of the fill area (shown in Fig. 7 c) that each grizzly bar constitutes, and this moment, powder was by dull and stereotyped 60 carryings.Its interior powder of driver 50 driving grids 20 drives stops after moving to from flat board 60 along the U direction and holding on the powder carrier 30.At last, portable plate 70 drives are held powder carrier 30 and are descended together (or driver 50 drives together rising of grids 20 and dull and stereotyped 60), the interior powder of grid is dropped on hold on the powder carrier 30.Present embodiment provides implementation structure more flexibly, can adapt to multiple production environment.

The 5th embodiment

Present embodiment is the improvement of the 4th embodiment technical scheme shown in Fig. 7 a～Fig. 7 e, and what structure was different with it is, flat board maintains static, and portable plate drives and holds powder carrier and rise or descend.Particularly, when holding powder carrier and move on the portable plate, lifter drives portable plate and drives and hold powder carrier and rise, and makes the upper surface and the dull and stereotyped upper surface that hold powder carrier be in a horizontal plane, and a dull and stereotyped end is pushed down the tail end that holds powder carrier, with the tail end press-bending of holding powder carrier of softness.After grid cloth on the flat board finished, grid drove powder in it and moves to from flat board and hold on the powder carrier.At last, the portable plate drive is held powder carrier and is descended together, the interior powder of grid is dropped on hold on the powder carrier.

This shows, the implementation of the compound anti-bottom sieve frame grid distribution device of the present invention is multiple, purpose is to move by powder to make powder produce displacement and finally drop on to hold on the powder carrier, and can regulate the shape that grid and the distance of holding the powder carrier displacement, translational speed, grizzly bar form and the height of grizzly bar according to the needs of design.

Fig. 8 is the flow chart of the compound anti-bottom sieve frame grid distributing method of the present invention, is specially:

Step 11, arrange powder to being positioned at the grid that holds on the powder carrier;

Step 12, described grid and the described powder carrier that holds relatively move, and make the powder bottom and hold the powder carrier surface because of friction generation displacement;

Step 13, grid rise or hold powder carrier and descend, and make powder stay described holding on the powder carrier.

In technique scheme, step 11 specifically comprises: hold powder carrier and run to the grid below and the time stop; Grid drops to and holds on the powder carrier; Distributing device is arranged powder in the grid that is provided with grizzly bar.Wherein grizzly bar is arranged in the frame of grid, can different shapes and specification be set according to the needs of decorating, the height of grizzly bar is less than the height of frame, and the lower end of grizzly bar is higher than the grid bottom surface, and the fill area that each grizzly bar is formed is (shown in Fig. 2 e) that is communicated with in the grid bottom surface.

Wherein, grid can be that grid moves, to hold powder carrier static with holding that powder carrier relatively moves, and also can be to hold that powder carrier moves, grid is static.Therefore step 12 can be specially: the powder that grid drives in it begins to move; The bottom of the powder that moves and the static surface of holding powder carrier produce friction and make powder generation displacement in the grid; Grid stops after moving a distance.Step 12 also can be specially: hold powder carrier and begin to move; The bottom of static powder produces friction with the surface of holding powder carrier of moving makes the powder in the grid produce displacement; Hold and stop after powder carrier moves a distance.

Step 13 can be specially: grid rises, and powder is stayed held on the powder carrier.Step 13 also can be specially: hold powder carrier and descend, powder is stayed held on the powder carrier.

Technique scheme is by grid and the relative motion of holding powder carrier, at grid and holding in the powder carrier relative motion, the powder that is positioned at grid bottom is producing displacement when holding the friction of powder carrier surface, since with hold the grid bottom that powder carrier surface contacts and be communicated with, the displacement of powder has changed the density and the distribution of each grizzly bar wall place powder in the grid, thereby make the powder in the grid produce certain flowing and the fluctuation variation, realize required decorative effect.Decorative effect can obtain with the shape of the distance of holding the powder carrier displacement, translational speed, grizzly bar formation and the parameters such as height of grizzly bar by regulating grid.Divide the subregion distributing method of arranging powder more than three times or three times to compare with prior art, technique scheme of the present invention has been simplified the cloth flow process, improved cloth efficient, and it is little that distribution device and die device take up an area of the space, saved production cost, the production of the rich slight Ceramic Tiles that changes of very suitable decorative pattern.

In addition, on the technique scheme basis, compound anti-bottom sieve frame grid distributing method also comprises: hold powder carrier drive powder and move under the press; The framed decline of floating, with hold powder carrier and on powder cover; Powder is pressed into Ceramic Tiles.Make the compound anti-bottom sieve frame grid distributing method of the present invention also have the production function of big specification, splits concurrently, be with a wide range of applications.

Fig. 9 is another flow chart of the compound anti-bottom sieve frame grid distributing method of the present invention, is specially:

Step 21, hold the front lower place that powder carrier runs to grid;

Step 22, grid and the flat board that is positioned on the grid bottom surface descend, and a dull and stereotyped end is pushed down the tail end that holds powder carrier, makes the upper surface of described flat board and the described upper surface that holds powder carrier be in a horizontal plane;

Step 23, arrange powder to the grid that is positioned on the flat board;

The powder that step 24, described grid drive in it moves to holding on the powder carrier;

Step 25, grid and flat board together rise or hold powder carrier and descend, and powder is stayed held on the powder carrier.

Wherein, can adopt a driver to make grid and flat board together rise or descend, also a portable plate can be set below holding powder carrier, the portable plate drive is held powder carrier and is together risen or descend.Its idiographic flow can repeat no more referring to Fig. 6 a～Fig. 6 e, Fig. 7 a～Fig. 7 e and respective description.On the technique scheme basis, compound anti-bottom sieve frame grid distributing method also comprises: hold powder carrier drive powder and move under the press; The framed decline of floating, with hold powder carrier and on powder cover; Powder is pressed into Ceramic Tiles.The compound anti-bottom sieve frame grid distributing method of the present invention because the powder that grid drives in it can move long distance, therefore can obtain better lines decorative effect except that the advantage with technical scheme shown in Figure 7.

It should be noted that at last: above embodiment is only unrestricted in order to technical scheme of the present invention to be described, although the present invention is had been described in detail with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can make amendment or be equal to replacement technical scheme of the present invention, and not break away from the spirit and scope of technical solution of the present invention.

Claims (9)

1. compound anti-bottom sieve frame grid distribution device, comprise the grid that is positioned on the delivery platform, hold powder carrier and in described grid, arrange the distributing device of powder, it is characterized in that, described grid is connected with a driver, described driver is for driving described grid rising or the lifter that descends and driving the shifter that described grizzly level moves, described shifter drives powder that grid drives in it and moves holding on the powder carrier, described grid with hold the grid bottom that powder carrier surface contacts and be communicated with, in moving the powder of grid bottom with hold the powder carrier surface and produce friction, powder in the grid produces displacement under rubbing action, make the powder of grid bottom produce ripple effect.

2. compound anti-bottom sieve frame grid distribution device according to claim 1 is characterized in that, also comprises being arranged on the flat board that described grid lower surface is together risen or descends with described grid by described lifter control.

3. compound anti-bottom sieve frame grid distribution device according to claim 1 and 2 is characterized in that, also comprises being arranged on the described delivery platform and driving the described portable plate that powder carrier rises or descend that holds.

4. a compound anti-bottom sieve frame grid distributing method that uses the described compound anti-bottom sieve frame grid distribution device of claim 2 is characterized in that, comprising:

Hold powder carrier and run to the front lower place of grid;

Grid and the flat board that is positioned on the grid bottom surface descend, and a dull and stereotyped end is pushed down the tail end that holds powder carrier, makes the upper surface of described flat board and the described upper surface that holds powder carrier be in a horizontal plane;

Arrange powder to the grid that is positioned on the flat board;

The powder that described grid drives in it moves to holding on the powder carrier;

Grid and flat board together rise or hold powder carrier and descend, and powder is stayed held on the powder carrier.

5. compound anti-bottom sieve frame grid distributing method according to claim 4 is characterized in that, the powder that described grid drives in it is specially to holding to move on the powder carrier:

The powder that grid drives in it begins to move;

The bottom of the powder that moves and the static surface of holding powder carrier produce friction and make powder generation displacement in the grid;

Grid stops after moving to fully and holding on the powder carrier.

6. according to claim 4 or 5 described compound anti-bottom sieve frame grid distributing methods, it is characterized in that, also comprise:

Holding powder carrier drive powder moves in the press;

The framed decline of floating, with hold powder carrier and on powder cover;

Powder is pressed into Ceramic Tiles.

7. a compound anti-bottom sieve frame grid distributing method that uses the arbitrary described compound anti-bottom sieve frame grid distribution device of claim 1～3 is characterized in that, comprising:

Arrange powder to being positioned at the grid that holds on the powder carrier;

Described grid and the described powder carrier that holds relatively move, and make the powder bottom and hold the powder carrier surface because of friction generation displacement;

Grid rises or holds powder carrier and descends, and makes powder stay described holding on the powder carrier.

8. compound anti-bottom sieve frame grid distributing method according to claim 7 is characterized in that, described grid and the described powder carrier that holds relatively move that to move, hold powder carrier static or hold that powder carrier moves, grid is static for grid.

9. according to claim 7 or 8 described compound anti-bottom sieve frame grid distributing methods, it is characterized in that, also comprise:

Holding powder carrier drive powder moves in the press;

The framed decline of floating, with hold powder carrier and on powder cover;

Powder is pressed into Ceramic Tiles.

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