CN106272893A - A kind of grouting process of ceramic body - Google Patents

Abstract

The invention discloses the grouting process of a kind of ceramic body, including pressure pan circulation step, low-pressure grouting pipe circulation step, at a slow speed filling step, Fast Filling step, high-pressure slip-casting step, spoil disposal step, consolidation step etc., achieve the ceramic body grouting process that can automatically control, and improve production efficiency, shorten the production cycle, improve base substrate qualification rate, stabilize green body quality, reduce labor intensity.

Description

A kind of grouting process of ceramic body

Technical field

The present invention relates to pottery manufacture field, be specifically related to the grouting process of a kind of ceramic body.

Background technology

In pottery manufacture field, particularly in sanitary ware manufacture field, blank forming is an important step.And note Sizing process is the core link of blank forming.In prior art, base substrate grouting process experienced by from artificial slip casting to low-pressure grouting Arrive the process of high-pressure slip-casting again.Artificial slip casting labor intensity is big, and production efficiency is low, and product quality is heavily dependent on slip casting The proficiency level of workman and experience so that sanitary pottery green body quality is very to be guaranteed.Thus some enterprises are progressively sent out Putting on display low-pressure grouting technique, slip casting pressure is typically in 0.3 to 0.7Mpa, low-pressure casting technique, although broken away from heavy hands Work is worked, but slow owing to eating slurry speed, and production efficiency is the lowest.

In Chinese invention patent application CN104290174A that on January 21st, 2015 announces, describe a kind of high pressure injection Sizing process, the problem that this technique exists mainly has:

1, before slip casting, do not carry out sufficient pipeline circulation due to it, thus cause the base substrate may be because of residual slip physical property Can be different from new mud or there is gas and the body defect that produces；

2, when high-pressure slip-casting, insufficient pressure, thus cause high-pressure slip-casting overlong time, production efficiency is low；

3, in the technical scheme of this patent, making mold tilt realize spoil disposal by machinery means, energy consumption is big, use duration, and Spoil disposal is the cleanest；

4, row spoil disposal again after consolidation, thus cannot ensure that base substrate eats the constant of slurry thickness and green body quality.

Summary of the invention

It is an object of the invention to solve the problems of the prior art, it is provided that a kind of production efficiency is high, with short production cycle, base Body qualification rate is high, and green body quality is stable, and labor intensity is low, it is possible to realize the grouting process automatically controlled.

For reaching above-mentioned purpose, the present invention adopts the following technical scheme that

The grouting process of a kind of ceramic body, comprises the following steps:

Step 1: in controlling mould, injected hole connects slush pump, opens the outer drainage air valve of mould, and closes other pipelines, mud Pump is by injected hole in mould to mold cavity slip casting, and grouting pressure is maintained at 0.1Mpa to 0.3Mpa, and process continues 10 seconds to 30 Second；Step 2: in keeping mould, injected hole connects slush pump, opens the outer drainage air valve of mould, and closes other pipelines, and slush pump leads to In crossing mould, injected hole is to mold cavity slip casting, and grouting pressure is maintained at 0.4Mpa to 0.6Mpa, and process continues 100 seconds to 200 seconds； Step 3: in controlling mould, injected hole connects high-pressure slurry tank, opens the outer drainage air valve of mould, and closes other pipelines, high-pressure slurry Tank is by injected hole in mould to mold cavity slip casting, and grouting pressure is maintained at 1Mpa to 1.5Mpa, and process continues 300 seconds to 500 Second；Step 4: in controlling mould, injected hole connects overfall tank, and in mold cavity, unnecessary mud is expelled to overfall by injected hole in mould Tank, process continues 150 seconds to 500 seconds；Step 5: in controlling mould, pressurization hole connects air compressor machine, opens the outer drainage air valve of mould, and Closing other pipelines, air compressor machine is maintained at 0.15Mpa by pressurization hole in mould to mold cavity injecting compressed air, air pressure To 0.3Mpa, process continues 50 seconds to 150 seconds.

Further, described step 4 is divided into three steps to complete: step 4.1: in controlling mould, injected hole connects overfall Tank, in controlling mould, pressurization hole connects air compressor machine, and closes other pipelines, and air compressor machine is injected to mold cavity by pressurization hole in mould Compressed air, makes unnecessary mud in mold cavity be expelled to overfall tank by injected hole in mould, air pressure be maintained at 0.15 to 0.3Mpa, process continues 150 seconds to 250 seconds；Step 4.2: in keeping mould, injected hole connects overfall tank, and closes other pipelines, In mold cavity, unnecessary mud is expelled to overfall tank by injected hole in mould, and process continues 50 seconds to 100 seconds；Step 4.3: control In mould, injected hole connects overfall tank, and in controlling mould, pressurization hole connects air compressor machine, and closes other pipelines, and air compressor machine passes through Mo Neijia Pressure hole, to mold cavity injecting compressed air, makes unnecessary mud in mold cavity be expelled to overfall tank by injected hole in mould, empty Atmospheric pressure is maintained at 0.15 to 0.3Mpa, and process continues 50 seconds to 150 seconds.

Further, before step 1, further comprising the steps of: step 0.1: to control slush pump and connect high-pressure slurry tank With overfall tank, and closing other pipelines, slush pump is to high-pressure slurry tank slip casting and discharges in high-pressure slurry tank residual slip to returning Slurry tank, grouting pressure is maintained at 0.1Mpa to 0.3Mpa, and process continues 5 seconds to 30 seconds.

Further, before step 1, further comprising the steps of: step 0.2: to control slush pump and connect low-pressure grouting pipe With overfall tank, and closing other pipelines, slush pump is to low-pressure grouting pipe slip casting and discharges in low-pressure grouting pipe residual slip to returning Slurry tank, grouting pressure is maintained at 0.1Mpa to 0.3Mpa, and process continues 5 seconds to 30 seconds.

Technical solutions according to the invention provide the benefit that relative to prior art, acquirement:

1, step 1 can make mud be able to injected hole in drowning mould the most at a slow speed, forms fluid-tight, so that mud is at stream It is not result in when entering mould splashing, it is to avoid the mass defect that base substrate produces because of bubble.

2, step 2 passes through low pressure Fast Filling, makes mud flow into relatively stable speed and fill up mold cavity so that Air in mold cavity is discharged from mould micropore with being stabilized, thus has both improve production efficiency, the most not reason mud Produce gas storage during too fast filling to stay cannot discharge from mould micropore because of high pressure, it is to avoid the quality that base substrate produces because of bubble Defect.

3, the pressure using high pressure in step 3 is 1Mpa to 1.5Mpa so that process only lasts for 300 to 500 seconds, compares existing Having technology, had and be obviously improved, the production cycle has had and has significantly reduced, thus improves production efficiency.

4, in step 4, spoil disposal is discharged by injected hole, thus without being achieved that spoil disposal by turnover mould, fall Low energy consumption, reduces the production cycle, improves production efficiency.

5, in step 5, after consolidation, it is not necessary to spoil disposal again, thus ensure that the perseverance of the constant and green body quality eating slurry thickness Fixed.

6, setting steps 4.1 so that spoil disposal is able to the most effectively carry out, it is ensured that quick spoil disposal after eating slurry.

7, setting steps 4.2, it is to avoid because mud also flows at base substrate inwall more than some, and situation about cannot discharge, can be more Reliably discharge residual mud.

8, setting steps 4.3, make the mud of sluggish flow again accelerate to discharge, so that it is guaranteed that the slightly worse mud of mobility is still Can effective spoil disposal, improve the qualification rate of base substrate.

9, setting steps 0.1, be effectively ensured high-pressure slurry tank residual mud discharge and high-pressure slurry tank in each slip casting Before all can fully be mended tank.The discharge of residual mud, it is to avoid change because of residual mud physical property or there is gas and cause Body defect, improves base substrate conforming product rate.Reliably supplement high-pressure slurry tank, it is to avoid because of mud mistake in high-pressure slurry tank Cause gases at high pressure directly into mould less, make the base substrate cannot the situation of molding.

10, setting steps 0.2, the residual mud that low-pressure grouting pipeline has been effectively ensured is discharged, it is to avoid because of residual mud physical property Change or there is gas and the body defect that causes, improve base substrate conforming product rate.

11, due to the present invention institute in steps, all can realize by controlling pump and valve, therefore can Automatic Control, from And reduce labor intensity.

Accompanying drawing explanation

Accompanying drawing described herein is used for providing being further appreciated by invention, constitutes the part of the present invention, the present invention Schematic description and description be used for explaining the present invention, be not intended that inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is a kind of pipeline schematic diagram realizing technical solution of the present invention.

Detailed description of the invention

In order to make the technical problem to be solved, technical scheme and beneficial effect clearer, clear, below tie Close drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein is only used To explain the present invention, it is not intended to limit the present invention.

As it is shown in figure 1, the technical scheme in the present invention can realize in the following manner:

Slush pump 20 connects slurry tank 10, and the mud in slurry tank 10 is pumped into required pipeline.

The outer drainage air valve 45 of mould connects die through water hole, and the gas and water absorbed by mould inner wall discharges mould.

Step 0.1: pressure pan circulation step, can control slush pump 20 even by opening valve 71, valve 72 and valve 32 Connecing high-pressure slurry tank 70 and overfall tank 30, other pipelines are turned off.Slush pump 20 is to high-pressure slurry tank 70 slip casting and discharges high pressure In slurry tank 70, residual slip is to overfall tank 30, and grouting pressure is maintained at 0.1Mpa to 0.3Mpa, and process continues 5 seconds to 30 seconds.

Setting steps 0.1, be effectively ensured high-pressure slurry tank residual mud discharge and high-pressure slurry tank before each slip casting All can fully be mended tank.The discharge of residual mud, it is to avoid change because of residual mud physical property or there is gas and the base that causes Volume defect, improves base substrate conforming product rate.Reliably supplement high-pressure slurry tank, it is to avoid because mud is very few in high-pressure slurry tank And cause gases at high pressure directly into mould, make the base substrate cannot the situation of molding.

Step 0.2: low-pressure grouting pipe circulation step, can control slush pump 20 connect by opening valve 61 and valve 32 Low-pressure grouting pipe 6 and overfall tank 30, other pipelines are turned off.Slush pump 20 is to low-pressure grouting pipe 6 slip casting and discharges low-pressure grouting In pipe 6, residual slip is to overfall tank 30, and grouting pressure is maintained at 0.1Mpa to 0.3Mpa, and process continues 5 seconds to 30 seconds.

Setting steps 0.2, the residual mud that low-pressure grouting pipeline has been effectively ensured is discharged, it is to avoid because residual mud physical property occurs Change or there is gas and the body defect that causes, improves base substrate conforming product rate.

Step 1: filling step at a slow speed, can be by opening valve 61 and valve 43, and in controlling mould, injected hole 41 connects mud Pump 20, opens the outer drainage air valve 45 of mould, and other pipelines are turned off.Slush pump 20 by injected hole 41 in mould to the type of mould 40 Chamber 44 slip casting, grouting pressure is maintained at 0.1Mpa to 0.3Mpa, and process continues 10 seconds to 20 seconds.

Step 1 can make mud be able to injected hole in drowning mould the most at a slow speed, forms fluid-tight, so that mud is flowing into It is not result in during mould splashing, it is to avoid the mass defect that base substrate produces because of bubble.

Step 2: Fast Filling step, all valve states are identical with step 1, and in keeping mould, injected hole 41 connects slush pump 20, open the outer drainage air valve 45 of mould, other pipelines are turned off.Slush pump 20 by injected hole 41 in mould to mold cavity 44 note Slurry.Grouting pressure is maintained at 0.4Mpa to 0.6Mpa, and process continues 100 seconds to 200 seconds.

Step 2 passes through low pressure Fast Filling, makes mud flow into relatively stable speed and fill up mold cavity so that mould Air in tool die cavity is discharged from mould micropore with being stabilized, thus has both improve production efficiency, the most not reason mud because of High pressure and produce gas storage during too fast filling and stay and cannot discharge from mould micropore, it is to avoid the quality that base substrate produces because of bubble is scarce Fall into.

Step 3: high-pressure slip-casting step, can be by opening valve 72 and valve 43, and in controlling mould, injected hole 41 connects high pressure Slurry tank 70, opens the outer drainage air valve 45 of mould, and other pipelines are turned off.High-pressure slurry tank 70 is driven by air compressor machine or hydraulic press (not shown) by injected hole 41 in mould to mold cavity 44 slip casting.Grouting pressure is maintained at 1Mpa to 1.5Mpa, process Continue 300 to 500 seconds.

The pressure using high pressure in step 3 is 1Mpa to 1.5Mpa so that process only lasts for 300 to 500 seconds, compares existing Technology, has had and has been obviously improved, and the production cycle has had and significantly reduces, thus improves production efficiency.

Step 4 spoil disposal step can be realized by the three below stage:

Step 4.1: spoil disposal step first, can control injected hole 41 in mould by opening valve 43, valve 32 and valve 51 Connecting overfall tank 32, in controlling mould, pressurization hole 42 connects air compressor machine 50, and other pipelines are turned off.Air compressor machine 50 is by pressurization in mould Hole 42, to mold cavity 44 injecting compressed air, makes unnecessary mud in mold cavity 44 be expelled to overfall by injected hole 41 in mould Tank 30, air pressure is maintained at 0.15Mpa to 0.3Mpa, and process continues 150 seconds to 250 seconds.

Step 4.2: spoil disposal waiting step, can open by keeping valve 43, valve 32, and in keeping mould, injected hole 41 connects Overfall tank, other pipelines are turned off.In mold cavity 44, unnecessary mud is expelled to overfall tank 30, process by injected hole 41 in mould Continue 50 seconds to 100 seconds.

Step 4.3: secondary sludge discharge step, can control injected hole 41 in mould by opening valve 43, valve 32 and valve 51 Connecting overfall tank 32, in controlling mould, pressurization hole 42 connects air compressor machine 50, and other pipelines are turned off.Air compressor machine 50 is by pressurization in mould Hole 42, to mold cavity 44 injecting compressed air, makes unnecessary mud in mold cavity 44 be expelled to overfall by injected hole 41 in mould Tank 30, air pressure is maintained at 0.15Mpa to 0.3Mpa, and process continues 50 seconds to 150 seconds.

Setting steps 4.1 so that spoil disposal is able to the most effectively carry out, it is ensured that quick spoil disposal after eating slurry.Step is set Rapid 4.2, it is to avoid because mud also flows at base substrate inwall more than some, and situation about cannot discharge, can discharge residual mud more reliably.If Put step 4.3, make the mud of sluggish flow again accelerate to discharge, so that it is guaranteed that the slightly worse mud of mobility still can effective spoil disposal, Improve the qualification rate of base substrate.

Step 5: base substrate consolidation step, can be by opening valve 51, and in controlling mould, pressurization hole 42 connects air compressor machine 50, opens The outer drainage air valve 45 of mould, other pipelines are turned off, and air compressor machine 50 injects compression by pressurization hole 41 in mould to mold cavity 44 Air, air pressure is maintained at 0.15Mpa to 0.3Mpa, and process continues 50 seconds to 150 seconds.

In step 5, after consolidation, it is not necessary to spoil disposal again, thus ensure that constant and green body quality constant eating slurry thickness. Base substrate consolidation step, the base substrate formed after making slip casting is had more preferable intensity and other physical properties.

By the preferred embodiments of the present invention it will be seen that the institute of the present invention in steps, all can be by controlling pump and valve Realize, therefore can Automatic Control, thus reduce labor intensity.

Description above describe the preferred embodiments of the present invention, it is to be understood that the present invention is not limited to above-mentioned enforcement Example, and should not regard the eliminating to other embodiments as.By the enlightenment of the present invention, those skilled in the art combine known or existing The change that technology, knowledge are carried out also should be regarded as within the scope of the present invention.

Claims (5)

1. a grouting process for ceramic body, is characterized in that, comprises the following steps:

Step 1: in controlling mould, injected hole connects slush pump, opens the outer drainage air valve of mould, and closes other pipelines, and slush pump leads to In crossing mould, injected hole is to mold cavity slip casting, and grouting pressure is maintained at 0.1Mpa to 0.3Mpa, and process continues 10 seconds to 30 seconds；

Step 2: in keeping mould, injected hole connects slush pump, opens the outer drainage air valve of mould, and closes other pipelines, and slush pump leads to In crossing mould, injected hole is to mold cavity slip casting, and grouting pressure is maintained at 0.4Mpa to 0.6Mpa, and process continues 100 seconds to 200 seconds；

Step 3: in controlling mould, injected hole connects high-pressure slurry tank, opens the outer drainage air valve of mould, and closes other pipelines, high pressure Slurry tank is by injected hole in mould to mold cavity slip casting, and grouting pressure is maintained at 1Mpa to 1.5Mpa, and process continues 300 seconds extremely 500 seconds；

Step 4: in controlling mould, injected hole connects overfall tank, and in mold cavity, unnecessary mud is expelled to overfall by injected hole in mould Tank, process continues 150 seconds to 500 seconds；

Step 5: in controlling mould, pressurization hole connects air compressor machine, opens the outer drainage air valve of mould, and closes other pipelines, and air compressor machine leads to In crossing mould, pressurization hole is to mold cavity injecting compressed air, and air pressure is maintained at 0.15Mpa to 0.3Mpa, and process continues 50 seconds To 150 seconds.

The grouting process of a kind of ceramic body the most as claimed in claim 1, is characterized in that: described step 4 is divided into three steps Suddenly complete:

Step 4.1: in controlling mould, injected hole connects overfall tank, in controlling mould, pressurization hole connects air compressor machine, and closes other pipelines, Air compressor machine to mold cavity injecting compressed air, makes in mold cavity unnecessary mud by injected hole in mould by pressurization hole in mould Being expelled to overfall tank, air pressure is maintained at 0.15 to 0.3Mpa, and process continues 150 seconds to 250 seconds；

Step 4.2: in keeping mould, injected hole connects overfall tank, and closes other pipelines, and in mold cavity, unnecessary mud passes through mould Interior injected hole is expelled to overfall tank, and process continues 50 seconds to 100 seconds；

Step 4.3: in controlling mould, injected hole connects overfall tank, in controlling mould, pressurization hole connects air compressor machine, and closes other pipelines, Air compressor machine to mold cavity injecting compressed air, makes in mold cavity unnecessary mud by injected hole in mould by pressurization hole in mould Being expelled to overfall tank, air pressure is maintained at 0.15 to 0.3Mpa, and process continues 50 seconds to 150 seconds.

The grouting process of a kind of ceramic body the most as claimed in claim 1 or 2, is characterized in that, before step 1, also includes Following steps:

Step 0.1: controlling slush pump and connect high-pressure slurry tank and overfall tank, and close other pipelines, slush pump is to high-pressure slurry Tank slip casting also discharges in high-pressure slurry tank that residual slip is to overfall tank, and grouting pressure is maintained at 0.1Mpa to 0.3Mpa, and process is held Continuous 5 seconds to 30 seconds.

The grouting process of a kind of ceramic body the most as claimed in claim 1 or 2, is characterized in that, before step 1, also includes Following steps:

Step 0.2: controlling slush pump and connect low-pressure grouting pipe and overfall tank, and close other pipelines, slush pump is to low-pressure grouting Pipe slip casting also discharges in low-pressure grouting pipe that residual slip is to overfall tank, and grouting pressure is maintained at 0.1Mpa to 0.3Mpa, and process is held Continuous 5 seconds to 30 seconds.

The grouting process of a kind of ceramic body the most as claimed in claim 3, is characterized in that, after step 0.1 and step 1 it Before, further comprising the steps of:

Step 0.2: controlling slush pump and connect low-pressure grouting pipe and overfall tank, and close other pipelines, slush pump is to low-pressure grouting Pipe slip casting also discharges in low-pressure grouting pipe that residual slip is to overfall tank, and grouting pressure is maintained at 0.1Mpa to 0.3Mpa, and process is held Continuous 5 seconds to 30 seconds.