A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Provided is a ceramic slurry pretreatment process. According to the ceramic slurry pretreatment process, ceramic tile slurry iron removal equipment is adopted. The ceramic tile slurry iron removal equipment comprises a shell; a feeding hole is formed in the shell; a discharging hole is formed in the end, away from the feeding hole, of the shell; an iron removal cavity is formed in the side, close to the feeding hole, of the shell; a discharging cavity is formed in the side, close to the discharging hole, in the shell; a grinding mechanism is arranged in the iron removal cavity; the grinding mechanism enables the iron removal mechanism to adsorb iron in slurry through impact of the slurry; and the iron removal mechanism is arranged on the grinding mechanism. When iron impurities on the iron removal mechanism need to be cleaned, the grinding mechanism controls an isolation mechanism to be closed to separate the slurry subjected to iron removal from the slurry being subjected to iron removal. When a stirring paddle stops rotating, a first partition plate and a second partition plate are closed to isolate the treated ceramic slurry from the ceramic slurry being treated, the treated ceramic slurry cannot flow back to an untreated slurry pool together with the ceramic slurry being treated, so that the ceramic slurry iron removal efficiency is improved.
一种陶瓷泥浆预处理工艺,该陶瓷泥浆预处理工艺采用如下瓷砖陶瓷泥浆除铁设备,包括外壳,所述外壳内设有进料孔,远离所述进料孔的一端设有出料口,所述外壳内靠近所述进料孔侧设有除铁腔,所述外壳内靠近所述出料口侧设有出料腔,所述除铁腔内设有研磨机构,所述研磨机构通过泥浆的冲击使除铁机构吸附泥浆中的铁,所述除铁机构设在所述研磨机构上,当要清理所述除铁机构上的铁杂质时,所述研磨机构控制隔离机构关闭,将以除过铁的泥浆与正在除铁的泥浆分隔开,当搅拌桨停止转动时,第一隔板与第二隔板闭合,将处理过的陶瓷泥浆与正在处理的陶瓷泥浆进行隔离,使处理过的陶瓷泥浆不会同正在处理的陶瓷泥浆回流到未处理的泥浆池里,提高了陶瓷泥浆的除铁效率。
Provided is a ceramic slurry pretreatment process. According to the ceramic slurry pretreatment process, ceramic tile slurry iron removal equipment is adopted. The ceramic tile slurry iron removal equipment comprises a shell; a feeding hole is formed in the shell; a discharging hole is formed in the end, away from the feeding hole, of the shell; an iron removal cavity is formed in the side, close to the feeding hole, of the shell; a discharging cavity is formed in the side, close to the discharging hole, in the shell; a grinding mechanism is arranged in the iron removal cavity; the grinding mechanism enables the iron removal mechanism to adsorb iron in slurry through impact of the slurry; and the iron removal mechanism is arranged on the grinding mechanism. When iron impurities on the iron removal mechanism need to be cleaned, the grinding mechanism controls an isolation mechanism to be closed to separate the slurry subjected to iron removal from the slurry being subjected to iron removal. When a stirring paddle stops rotating, a first partition plate and a second partition plate are closed to isolate the treated ceramic slurry from the ceramic slurry being treated, the treated ceramic slurry cannot flow back to an untreated slurry pool together with the ceramic slurry being treated, so that the ceramic slurry iron removal efficiency is improved.
一种陶瓷泥浆预处理工艺,该陶瓷泥浆预处理工艺采用如下瓷砖陶瓷泥浆除铁设备,包括外壳,所述外壳内设有进料孔,远离所述进料孔的一端设有出料口,所述外壳内靠近所述进料孔侧设有除铁腔,所述外壳内靠近所述出料口侧设有出料腔,所述除铁腔内设有研磨机构,所述研磨机构通过泥浆的冲击使除铁机构吸附泥浆中的铁,所述除铁机构设在所述研磨机构上,当要清理所述除铁机构上的铁杂质时,所述研磨机构控制隔离机构关闭,将以除过铁的泥浆与正在除铁的泥浆分隔开,当搅拌桨停止转动时,第一隔板与第二隔板闭合,将处理过的陶瓷泥浆与正在处理的陶瓷泥浆进行隔离,使处理过的陶瓷泥浆不会同正在处理的陶瓷泥浆回流到未处理的泥浆池里,提高了陶瓷泥浆的除铁效率。
| European Patent Office | 2021
Preparation process of ceramic slurry for ceramic 3D printing
| European Patent Office | 2021