CN113582660A - 普通石膏模日注三次马桶生产用泥浆 - Google Patents
普通石膏模日注三次马桶生产用泥浆 Download PDFInfo
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Abstract
本发明涉及卫生陶瓷制造领域,尤其是一种普通石膏模日注三次马桶生产用泥浆,配制泥浆的干料包由以下质量份原料组成:章村土8~10份,宣化瓷石3~5份,钾长石粉10~12份,石英砂15~16份,球土5~6份,焦作高岭土9~11份,飞天燕9~10份,茂名高岭土14~16份,彰武土5~6份,废瓷5~6份,大田高岭土8~10份。本发明能够有效解决普通是要模注浆时间长的问题,大大提高了生产效率,减少时间浪费。
Description
技术领域
本发明涉及卫生陶瓷制造领域,尤其是一种普通石膏模日注三次马桶生产用泥浆。
背景技术
到目前为止,卫生陶瓷半成品生产应用最广泛的仍然是注浆成型。实际生产中,注浆成型的种类、方式很多,注浆的设备、模型、工具、工艺参数以及操作等也有很大不同。
由于卫生陶瓷产品规格较大,外形、结构比较复杂,决定了其半成品的成型生产不能像墙地砖及日用陶瓷等产品那么简单。卫生陶瓷产品的模型比较复杂,手工劳动操作繁多,环境条件要求比较严格,因而注浆成型生产效率低,成型就往往成为卫生陶瓷生产的关键工序。
卫生陶瓷产品的目前大多还是普通石膏模,但是普通石膏模成型速度较慢,同行业内几乎都是每天注浆一次,生产效率低。
发明内容
为解决上述技术问题,本发明提出一种通过调整泥浆、石膏模具以及车间环境等因素、提高注浆效率的在普通石膏模日注三次马桶生产用泥浆。
本发明采用如下技术方案:
一种普通石膏模日注三次马桶生产用泥浆,配制泥浆的干料包由以下质量份原料组成:章村土8~10份,宣化瓷石3~5份,钾长石粉10~12份,石英砂15~16份,球土5~6份,焦作高岭土9~11份,飞天燕9~10份,茂名高岭土14~16份,彰武土5~6份,废瓷5~6份,大田高岭土8~10份。
与现有技术相比,本发明的有益效果是:
本发明解决了卫生陶瓷产品普通石膏模注浆成型时间长的问题,利用本泥浆可达到普通石膏模日注三次马桶,大大提高了生产效率,减少了时间浪费,节省人力物力,降低生产成本。
进一步的,本发明采用的优选方案是:
物理指标为:泥浆比重控制在1.70~1.82之间,水份控制在25%-28%之间,泥浆温度控制在30-35℃,泥浆细度控制孔筛余1%-2%,控制泥浆的厚化系数在1.8-2.0之间,将吸浆时间控制在55-75分钟内,45分钟吸浆厚度在7.5-8.0mm内;成型车间温度控制在35-38℃之间。
采用上述技术方案,通过调配泥浆,车间环境等因素,缩短成型时间。
配制泥浆的干料由以下质量份原料组成:章村土8份,宣化瓷石5份,钾长石粉12份,石英砂15份,球土5份,焦作高岭土10份,飞天燕10份,茂名高岭土15份,彰武土5份,废瓷5份,大田高岭土10份。
采用上述技术方案,对泥浆中含量进一步细化确定,试验取得更好的配比,进一步提高泥浆性能质量,提高成型工段的合格率。
常规生产用泥浆坯体干燥后的化学成分按重量百分比为:SiO2 65-68%,Al2O3 21-24%,CaO<0.7% ,MgO<0.5%,Fe2O3 <0.9%,TiO2 <0.4%,K2O 2.6-3.5%,Na2O 0.5-1.0%,IL6.4-7.2%。
具体实施方式
以下结合具体实施例对本发明进一步说明。
所用原料干燥后的化学成分按照重量百分比如下:
章村土:SiO257.0-63.0%,Al2O3 22.0-27.0%,CaO 0.2%,MgO 0.05%,Fe2O3 0.2%,TiO2 0.2%,K2O+Na2O 7-11%,IL 4.76%。
宣化瓷石:SiO2 75~79%,Al2O3 12~16%,CaO 0~2%,MgO 0~2%,Fe2O3<2%,TiO2<2%,K2O+Na2O 4~7%,IL 1~3%。
钾长石粉:SiO2 74-79%,Al2O3 12-15%,CaO 0.37-0.4%,MgO 0.06-0.2%,Fe2O3<0.5%,TiO2<0.2%,K2O 5-6%,Na2O 3-4%,IL 0.16-0.2%。
石英砂:SiO2 94-98%,Al2O3 3-4.5%,TiO2+ Fe2O3<0.5,IL 0.1-0.8%。
球土:SiO2 50-59.8%,Al2O3 21.2-32.5%,CaO 0.1-0.3%,MgO 0.11-0.49%,Fe2O3 0.9-1.84%,TiO2 1.64-2.50%,K2O 0.47-2.42%,Na2O 0.13-0.58%,IL 6.4-11.18%。
焦作高岭土: SiO2 42.7%,Al2O3 28-38%,CaO 0.8-1.00%,MgO ≤1.00%,TiO2+Fe2O3≤1.8%。
飞天燕:SiO2 63.83%,Al2O3 23.8%,CaO 0.01%,MgO 0.11%,Fe2O3 1.76%,K2O+Na2O4~5%,IL 9.54%。
茂名高岭土:SiO2 69.0-73.0%,Al2O3 21-24%,CaO 0.3-0.5%,MgO ≤0.5%,TiO2+Fe2O3≤3%。
废瓷粉:SiO2 65-72%,Al2O3 19-23%,Na2O 3-5%。K2O 3-4%
大田高岭土:SiO2 50-52%,Al2O3 30-35%,CaO <0.1%,MgO ≤0.2%,TiO2+ Fe2O3≤1.5%。
彰武土:SiO2 70.0-78.0%,Al2O3 11.0-16.0%,CaO +MgO <2.5%,Fe2O3 1.76%,K2O+Na2O 3-6%,IL 9.54%。TiO2+ Fe2O3≤3%。
实施例1:
配制泥浆干料,泥浆干料包含以下成分:章村土8份,宣化瓷石5份,钾长石粉12份,石英砂15份,球土5份,焦作高岭土10份,飞天燕10份,茂名高岭土15份,彰武土5份,废瓷5份,大田高岭土10份。
调整泥浆参数:将泥浆比重控制为1.795,水份控制在27%,泥浆温度控制在32℃,泥浆细度控制万孔筛余2%,控制泥浆的厚化系数在1.85,将吸浆时间控制在70分钟,45分钟吸浆厚度在7.7mm。
在石膏模具方面,制作标准书石膏模具,将成型车间的夜间模具干燥温度由原来的45-55℃高温降低到35-38℃,起到延长石膏模的作用。
增加车间温湿环境管控设备,通过搅拌微风使车间各位置的温湿参数一致化、标准化。
本实施例中,泥浆坯体干燥后的化学成分按重量百分比为SiO2 :66.72%,Al2O3 :21.18%,CaO:0.34% ,MgO:0.1%,Fe2O3:0.87%,TiO2:0.36%,K2O:2.61%,Na2O:0.52%,IL:7.17%。
实施例2:
配制泥浆干料,泥浆干料包含以下成分:章村土8份,宣化瓷石6份,钾长石粉12份,石英砂16份,球土5份,焦作高岭土10份,飞天燕10份,茂名高岭土15份,彰武土7份,废瓷6份,大田高岭土5份。
调整泥浆参数:将泥浆比重控制为1.796,水份控制在27%,泥浆温度控制在31℃,泥浆细度控制万孔筛余2%,控制泥浆的厚化系数在1.84,将吸浆时间控制在73分钟,45分钟吸浆厚度在7.8mm。
在石膏模具方面,制作标准书石膏模具,将成型车间的夜间模具干燥温度由原来的45-55℃高温降低到35-38℃,起到延长石膏模的作用。
增加车间温湿环境管控设备,通过搅拌微风使车间各位置的温湿参数一致化、标准化。
本实施例中,泥浆坯体干燥后的化学成分按重量百分比为SiO2:67.92%,Al2O3:23.36%,CaO:0.57% ,MgO:0.1%,Fe2O3:0.79%,TiO2:0.39%,K2O:2.62%,Na2O:0.89%,IL:7.17%。
实施例3:
配制泥浆干料,泥浆干料包含以下成分:章村土9份,宣化瓷石7份,钾长石粉12份,石英砂16份,球土6份,焦作高岭土8份,飞天燕10份,茂名高岭土12份,彰武土6份,废瓷6份,大田高岭土8份。
调整泥浆参数:将泥浆比重控制为1.80,水份控制在26%,泥浆温度控制在33℃,泥浆细度控制万孔筛余1.5%,控制泥浆的厚化系数在1.85,将吸浆时间控制在75分钟,45分钟吸浆厚度在7.6mm。
在石膏模具方面,制作标准书石膏模具,将成型车间的夜间模具干燥温度由原来的45-55℃高温降低到35-38℃,起到延长石膏模的作用。
增加车间温湿环境管控设备,通过搅拌微风使车间各位置的温湿参数一致化、标准化。
本实施例中,泥浆坯体干燥后的化学成分按重量百分比为SiO2:65.92%,Al2O3:22.56%,CaO:0.59% ,MgO:0.10%,Fe2O3:0.88%,TiO2:0.37%,K2O:2.73%,Na2O:0.89%,IL:7.17%。
按照上述实施例配制调整注成的浆料和青坯,在注浆成坯、烘干搬运、半成品施釉、白坯运输烧成、成品检验等方面都能达到预期的目标,符合工厂的整体产质量水平,解决了卫生陶瓷产品普通石膏模注浆成型时间长的问题,大大提高了生产效率,减少时间浪费,符合环保方面的需求,降低车间成本。
以上仅为发明的具体实施方式,但对本发明的保护并不局限于此,所有涉及本技术领域技术人员所能想到的对本技术方案技术特征提出的等效变化或替换,都包含在本发明的保护范围之内。
Claims (4)
1.一种普通石膏模日注三次马桶生产用泥浆,其特征在于,配制的泥浆干料由以下质量份原料组成:章村土8~10份,宣化瓷石3~5份,钾长石粉10~12份,石英砂15~16份,球土5~6份,焦作高岭土9~11份,飞天燕9~10份,茂名高岭土14~16份,彰武土5~6份,废瓷5~6份,大田高岭土8~10份。
2.根据权利要求1所述的普通石膏模日注三次马桶生产用泥浆,其特征在于,物理指标为:泥浆比重控制在1.70~1.82之间,水份控制在25%-28%之间,泥浆温度控制在30-35℃,泥浆细度控制孔筛余1%-2%,控制泥浆的厚化系数在1.8-2.0之间,将吸浆时间控制在55-75分钟内,45分钟吸浆厚度在7.5-8.0mm内;成型车间温度控制在35-38℃之间。
3.根据权利要求1所述的普通石膏模日注三次马桶生产用泥浆,其特征在于,配制泥浆的干料包由以下质量份原料组成:章村土8份,宣化瓷石5份,钾长石粉12份,石英砂15份,球土5份,焦作高岭土10份,飞天燕10份,茂名高岭土15份,彰武土5份,废瓷5份,大田高岭土10份。
4.根据权利要求1所述的普通石膏模日注三次马桶生产用泥浆,其特征在于:常规生产用泥浆坯体干燥后的化学成分按重量百分比为:SiO2 65~68%,Al2O3 21~24%,CaO<0.7% ,MgO<0.5%,Fe2O3 <0.9%,TiO2 <0.4%,K2O 2.6~3.5%,Na2O 0.5~1.0%,IL 6.4~7.2%。
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