CN111039532A - 一种应用于污泥与生物质共热解制备复合生物碳的装置的定时阀门及其使用方法 - Google Patents
一种应用于污泥与生物质共热解制备复合生物碳的装置的定时阀门及其使用方法 Download PDFInfo
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Abstract
一种应用于污泥与生物质共热解制备复合生物碳的装置的定时阀门及其使用方法。该圆形定时阀门由定时控制器、六折式阀门、弹簧闭合器与旋转中轴组成;所述定时控制器通过旋转中轴与弹簧闭合器连接,所述弹簧闭合器控制六折式阀门的开启或关闭;所述定时控制器由旋转电机、电机承台、定时信息发送器和转动传导轴组成;本装置能够满足污泥与生物质共热解制备复合生物碳的装置各个污泥处理步骤的自动化控制。装置控制系统内置,节约空间,型号大小与普通阀门相同,便于安装,装置结构结实耐用,可满足污泥与生物质共热解制备复合生物碳的要求。
Description
技术领域
本发明属于阀门领域,具体涉及一种应用于污泥与生物质共热解制备复合生物碳的装置的定时阀门。
背景技术
随着经济社会发展和生态文明建设的推进,产生的污泥量日益庞大。污泥热解制备生物碳被认为是一种优良的污泥处理处置方法。污泥处理是备受关注的环境难题,传统的污泥处理处置投资和运行费较高,污泥热解制备生物碳被认为是一种优良的污泥处理处置方法。生物碳富含微孔,可以补充土壤的有机物含量,改善土壤的透气性和排水性,有效地保存水分和养料,提高土壤肥力。目前热解污泥装置均使用普通阀门,未能实现自动化工艺,耗费人力财力。发明专利CN209540091U公开了一种计量定时自动关闭阀门,但是由于其控制器部分过于庞大,无法适用于一体化污泥热解装置。现有技术中,并没有成型的应用于污泥与生物质共热解制备复合生物碳的装置的定时阀门。
发明内容
针对现有技术存在的不足,本发明的目的在于提供一种应用于污泥与生物质共热解制备复合生物碳的装置的定时阀门。该阀门能有效实现污泥与生物质共热解的自动化运行,本发明通过定时控制阀门开关,实现污泥和生物质协同热解装置的自动化运转。通过对污泥处理不同阶段的定时,使污泥与生物质共热解制备复合生物碳的装置自动化完成污泥与生物质的前期处理及后续的热解工作,期间无需人员参与,节约人力财力。与其他普通阀门相比,本发明提高了装置工作效率,与其他定时阀门相比,本发明投入成本低,控制装置内置于阀门上,装置简单,便于安装,不影响热解装置的正常运行,满足工业化需求。可使污泥与生物质共热解制备复合生物碳的装置连续化生产,显著提高生产效率。
本发明技术方案如下。
一种应用于污泥与生物质共热解制备复合生物碳的装置的定时阀门,所述的圆形定时阀门由定时控制器、六折式阀门、弹簧闭合器与旋转中轴组成;所述定时控制器通过旋转中轴与弹簧闭合器连接,所述弹簧闭合器控制六折式阀门的开启或关闭;所述定时控制器由旋转电机、电机承台、定时信息发送器和转动传导轴组成;所述弹簧闭合器由拉伸弹簧、伸缩主轴、定时信号接收器、可折叠钢外壳和电控伸缩钢棒组成;所述旋转中轴由转动轴和实心钢外壳组成;所述弹簧闭合器由拉伸弹簧、伸缩主轴、定时信号接收器、可折叠钢外壳和电控伸缩钢棒组成;所述电机承台内部固定有旋转电机,所述旋转电机通过转动传导轴与位于实心钢外壳内部的转动轴的一端连接,所述转动轴的另一端与实心钢外壳的顶端连接,用于带动实心钢外壳转动;所述实心钢外壳的外部与可折叠钢外壳的一端固定连接;所述电控伸缩钢棒套设于可折叠钢外壳内部,用于控制可折叠钢外壳的伸缩;所述伸缩主轴套设于拉伸弹簧内部,用于固定拉伸弹簧,让拉伸弹簧处于直线状态,所述拉伸弹簧与六折式阀门的折线处连接;所述可折叠钢外壳由设置于实心钢外壳内部的定时信号接收器控制收缩,可折叠钢外壳与拉伸弹簧连接,具体为通过定时信号接收器控制电控伸缩钢棒伸缩,从而带动可折叠钢外壳伸缩,可折叠钢外壳再带动拉伸弹簧收缩,最后带动六折式阀门伸缩;所述定时信息发送器通过信号控制定时信号接收器。
进一步地,所述六折式阀门的六个折页均为钢材板材质,六个折页完全伸展开形成一个半圆形;六个折页通过第三折末端处的螺栓固定,六个折页以第三折为中心,向四周展开形成半圆形;展开收缩工作原理与折扇类似。
进一步地,所述实心钢外壳与六折式阀门通过第三折固定,且拉伸弹簧与六折式阀门的第一折跟第五折固定连接,收缩时带动六折式阀门的第一折跟第五折向六折式阀门的第三折靠拢,从而实现圆形定时阀门开启。
一种应用于污泥与生物质共热解制备复合生物碳的装置的定时阀门的使用方法,包括如下步骤:
前期设定好污泥与生物质共热解制备复合生物碳的装置内部,搅拌脱水室、烘干室、粉碎室的工作结束时间,待工作结束后,定时控制器开始工作,定时信息发送器发出信号,使定时信号接收器接收到信号,控制电控伸缩钢棒缩短,带动可折叠钢外壳压缩至最短,可折叠钢外壳拉动拉伸弹簧压缩,拉伸弹簧压缩伸缩主轴,使伸缩主轴缩至最短;拉伸弹簧带动六折式阀门,将六折式阀门收起,六折式阀门收起后,定时控制器中,电机承台上的旋转电机开始工作,旋转带动转动传导轴,转动传导轴将转动转导至转动轴,转动轴带动实心钢外壳转动,使旋转中轴转动180°,使六折式阀门上残余生物质落入对应腔体,同时六折式阀门折叠过程中,能将粘连的生物质刮下,阀门根据污泥与生物质混合初步脱水时间定时开启,使初步脱水混合物落入下一个部件中。
本发明的一种应用于污泥与生物质共热解制备复合生物碳的装置的定时阀门,主要作用是在设定时间内打开阀门,然后控制阀门内的六折式阀门转动180°,使得粘附在六折式阀门上的反应物翻落到下一个部件中,然后阀门复位,旋转180°,再复位关闭。
本装置能够满足污泥与生物质共热解制备复合生物碳的装置各个污泥处理步骤的自动化控制。装置控制系统内置,节约空间,型号大小与普通阀门相同,便于安装,装置结构结实耐用,可满足污泥与生物质共热解制备复合生物碳的要求。综上,本发明的创新点如下:1)结构简洁、设计合理,将定时控制装置置于阀门上,节约空间;2)能按照污泥处理步骤自行控制开关,便于污泥与生物质共热解制备复合生物碳的装置连续化生产,大大提高工作效率。
与现有技术相比,本发明的有益效果是:
1、本发明属于应用于污泥与生物质共热解制备复合生物碳的装置的定时阀门,与普通热解装置阀门相比,可根据污泥与生物质处理时间,控制阀门开关,满足装置一体化要求。可用于工业化热解装置等方面。
2、在本发明中,应用于污泥与生物质共热解制备复合生物碳的装置的定时阀门,与普通定时阀门相比,缩小了控制器的大小,并且内置于阀门上。便于工业化的应用。普通定时阀门需要外接或占用外部空间安装控制装置,而本发明结构简洁,不需要占用多余空间,使得污泥与生物质共热解制备复合生物碳装置的空间利用率大大提高。
3、本发明的型号大小可以实现与普通阀门相同,无多余占用空间的装置,可以实现直接与普通阀门相替换,能够将普通热解装置改造为自动化装置,大大节约人力财力。
附图说明
图1为本发明中阀门应用于污泥与生物质共热解制备复合生物碳装置的结构示意图。
图2为本发明中阀门应用于污泥与生物质共热解制备复合生物碳装置的结构示意图。
图3为本发明中阀门应用于污泥与生物质共热解制备复合生物碳装置的烘干室(2)内部的结构示意图。
图4为本发明中阀门应用于污泥与生物质共热解制备复合生物碳装置粉碎室(3)内部的结构示意图。
图5为本发明中阀门应用于污泥与生物质共热解制备复合生物碳装置的尾气处理装置(5)的示意图。
图6为本发明中阀门应用于污泥与生物质共热解制备复合生物碳装置的废液收集装置(6)的示意图。
图7为本发明中阀门应用于污泥与生物质共热解制备复合生物碳装置的搅拌脱水室(1)内部(即图2)的立体示意图。
图8为本发明中阀门应用于污泥与生物质共热解制备复合生物碳装置的烘干室(2)内部(即图3)的立体示意图。
图9为本发明定时阀门示意图。
图10为本发明定时阀门开启时的示意图。
图11为本发明的定时阀门控制器的示意图。
图12为本发明定时阀门弹簧闭合器的细部示意图。
图13为本发明定时阀门定时控制器的细部示意图。
图14为本发明定时阀门旋转中轴的细部示意图。
图15为本发明中阀门应用于污泥与生物质共热解制备复合生物碳装置的热解装置的内部示意图。
图16为本发明中阀门应用于污泥与生物质共热解制备复合生物碳装置的拉伸弹簧、伸缩主轴、可折叠钢外壳和电控伸缩钢棒的连接示意图。
图17为本发明定时阀门中可折叠钢外壳和电控伸缩钢棒的工作示意图。
图中各个部件如下:
搅拌脱水室1、烘干室2、粉碎室3、热解装置4、尾气处理装置5、废液收集装置6、安装架7、筒体法兰8、安装法兰9-1、安装法兰9-2、保温壳体10、引水管11、进气阀门12、引气管13、支撑腿架14、出料传送装置15、热解装置密封阀门17、圆形定时阀门18、条状碾压柱101、钢中轴柱102、钢挡板103、条状烘干灯201、搅动扇叶202、带电机的钢中轴203、粉碎室保温外壳301、粉碎刀片302、定时阀门303、带电机的钢中轴304、热解装置密封阀门401、热解装置加热电热丝402、防倒吸瓶501、碱液处理瓶502、酸液处理瓶503、废液容纳箱601、过滤网602、废液收集箱603、真空泵604、液面观察口605、废液排出龙头606、定时控制器1801、六折式阀门1802、弹簧闭合器1803、旋转中轴1804、旋转电机1801-1、电机承台1801-2、定时信息发送器1801-3、转动传导轴1801-4、拉伸弹簧1803-1、伸缩主轴1803-2、定时信号接收器1803-3、可折叠钢外壳1803-4、电控伸缩钢棒1803-5、转动轴1804-1、实心钢外壳1804-2。
具体实施方式
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。
需要说明的是,当组件被称为“固定于”另一个组件,它可以直接在另一个组件上或者也可以存在居中的组件。当一个组件被认为是“连接”另一个组件,它可以是直接连接到另一个组件或者可能同时存在居中组件。当一个组件被认为是“设置于”另一个组件,它可以是直接设置在另一个组件上或者可能同时存在居中组件。本文所使用的术语“垂直的”、“水平的”、“左”、“右”以及类似的表述只是为了说明的目的。
除非另有定义,本文所使用的所有的技术和科学术语与属于本发明的技术领域的技术人员通常理解的含义相同。本文中在本发明的说明书中所使用的术语只是为了描述具体的实施例的目的,不是旨在于限制本发明。本文所使用的术语“及/或”包括一个或多个相关的所列项目的任意的和所有的组合。
本实施例中,如图9~14和图16~17所示,一种应用于污泥与生物质共热解制备复合生物碳的装置的定时阀门,所述的圆形定时阀门18由定时控制器1801、两个六折式阀门1802、弹簧闭合器1803与旋转中轴1804组成;所述定时控制器1801通过旋转中轴1804与弹簧闭合器1803连接,所述弹簧闭合器1803控制六折式阀门1802的开启或关闭;所述定时控制器1801由旋转电机1801-1、电机承台1801-2、定时信息发送器1801-3和转动传导轴1801-4组成;所述弹簧闭合器1803由拉伸弹簧1803-1、伸缩主轴1803-2、定时信号接收器1803-3、可折叠钢外壳1803-4和电控伸缩钢棒1803-5组成;所述旋转中轴1804由转动轴1804-1和实心钢外壳1804-2组成;所述弹簧闭合器1803由拉伸弹簧1803-1、伸缩主轴1803-2、定时信号接收器1803-3、可折叠钢外壳1803-4和电控伸缩钢棒1803-5组成;所述电机承台1801-2内部固定有旋转电机1801-1,所述旋转电机1801-1通过转动传导轴1801-4与位于实心钢外壳1804-2内部的转动轴1804-1的一端连接,所述转动轴1804-1的另一端与实心钢外壳1804-2的顶端连接,用于带动实心钢外壳1804-2转动;所述实心钢外壳1804-2的外部与可折叠钢外壳1803-4的一端固定连接;所述电控伸缩钢棒1803-5套设于可折叠钢外壳1803-4内部,用于控制可折叠钢外壳1803-4的伸缩;所述伸缩主轴1803-2套设于拉伸弹簧1803-1内部,用于固定拉伸弹簧1803-1,让拉伸弹簧1803-1处于直线状态,所述拉伸弹簧1803-1与六折式阀门1802的折线处连接;所述可折叠钢外壳1803-4由设置于实心钢外壳1804-2内部的定时信号接收器1803-3控制收缩,可折叠钢外壳1803-4与拉伸弹簧1803-1连接(具体为可折叠钢外壳1803-4的端点与拉伸弹簧1803-1焊接即图12中的a点),具体为通过定时信号接收器1803-3控制电控伸缩钢棒1803-5伸缩,从而带动可折叠钢外壳1803-4伸缩,可折叠钢外壳1803-4再带动拉伸弹簧1803-1收缩,最后带动六折式阀门1802伸缩;所述定时信息发送器1801-3通过信号控制定时信号接收器1803-3。所述六折式阀门1802的六个折页均为钢材板材质,六个折页完全伸展开形成一个半圆形;六个折页通过第三折末端处的螺栓固定,六个折页以第三折为中心,向四周展开形成半圆形;展开收缩工作原理与折扇类似。所述实心钢外壳1804-2与六折式阀门1802通过第三折固定,且拉伸弹簧1803-1与六折式阀门1802的第一折跟第五折固定连接,收缩时带动六折式阀门1802的第一折跟第五折向六折式阀门1802的第三折靠拢,从而实现圆形定时阀门18开启。
该阀门的使用方法为:前期设定好污泥与生物质共热解制备复合生物碳的装置内部,搅拌脱水室1、烘干室2、粉碎室3的工作结束时间,待工作结束后,定时控制器1801开始工作,定时信息发送器1801-3发出信号,使定时信号接收器1803-3接收到信号,控制电控伸缩钢棒1803-5缩短,带动可折叠钢外壳1803-4压缩至最短,可折叠钢外壳180-4拉动拉伸弹簧1803-1压缩,拉伸弹簧1803-1压缩伸缩主轴1803-2,使伸缩主轴1803-2缩至最短;拉伸弹簧1803-1带动六折式阀门1802,将六折式阀门1802收起,六折式阀门1802收起后,定时控制器1801中,电机承台1801-2上的旋转电机1801-1开始工作,旋转带动转动传导轴1801-4,转动传导轴1801-4将转动转导至转动轴1804-1,转动轴1804-1)带动实心钢外壳1804-2转动,使旋转中轴1804转动180°,使六折式阀门上残余生物质落入对应腔体,同时六折式阀门1802折叠过程中,能将粘连的生物质刮下,阀门根据污泥与生物质混合初步脱水时间定时开启,使初步脱水混合物落入下一个部件中。
本实施例阀门用于污泥与生物质共热解制备复合生物碳的装置,该装置结构如图1至图8和图15,包括搅拌脱水室1、烘干室2、粉碎室3、热解装置4、尾气处理装置5和废液收集装置6;所述保温壳体10设置于安装架7上;所述搅拌脱水室1、烘干室2、粉碎室3的外壁面设置有保温壳体10;
所述的搅拌脱水室1与烘干室2通过定时开启的圆形定时阀门18连接;所述烘干室2与粉碎室3之间设置有圆形定时阀门18,阀门根据混合物彻底烘干时间定时开启,烘干时间视烘干物质量来确定,50kg烘干物需要1-2小时左右,每增加100kg,烘干时间增加1小时,使干化污泥生物质混合物落入粉碎室3;所述圆形定时阀门18外围连接有引水管11,所述引水管11与废液收集装置6连接,供废液流至废液收集装置6;所述尾气处理装置5与烘干室2连接;所述粉碎室3与热解装置4通过带圆形定时阀门18的连接管连接,经过粉碎室3细部粉碎后的干化污泥生物质混合物随连接管滑入热解装置4,阀门提供热解装置4缺氧环境;所述搅拌脱水室1底部设有引水管11,以便将初步脱水产生的废液引入废液收集装置6;所述尾气处理装置5与烘干室2之间通过阀门12和管径3-10cm的通气管13相连。
所述搅拌脱水室1为圆柱型腔体,所述搅拌脱水室1内部设置有条状碾压柱101、钢中轴柱102和钢挡板103;所述条状碾压柱101为宽度15-30cm,所述条状碾压柱101为以钢中轴柱102为中点旋转的方形钢条;钢挡板103为宽度5-10cm,所述钢挡板103为过钢中轴柱102的固定钢板;条状碾压柱101与钢挡板103长度均为圆柱型腔体直径;所述钢中轴柱102通过设置于搅拌脱水室1内部的电机带动工作。
所述烘干室2包括带电机的钢中轴203、搅动扇叶202和条状烘干灯201;所述钢中轴203底端焊接有搅动扇叶202,所述搅动扇叶202距离烘干室2底部30-50cm,可使初步脱水混合物受热均匀,所述带电机的钢中轴203位于烘干室2中央位置;其中条状烘干灯201长为100-150cm,环钢中轴203分布,条状烘干灯201角间距20°-40°,维持烘干室2处于80℃-120℃;所述钢中轴203由设置于烘干室2内部的电机带动旋转;所述搅动扇叶202与水平呈30°倾斜设置,所述搅动扇叶202倾斜设置便于将混合物搅动。
所述热解装置4包括热解装置密封阀门401和热解装置加热电热丝402;所述热解装置密封阀门401位于热解装置4本体出口处,所述热解装置加热电热丝402分布于热解装置4本体的内壁面;所述热解装置4与圆形定时阀门18之间还设置有热解装置密封阀门17。
所述粉碎室3包括粉碎室保温外壳301、粉碎刀片302、圆形定时阀门18和带电机的钢中轴304;所述粉碎室保温外壳301设置于粉碎室3主体外部,所述粉碎室3内部设置有带电机的钢中轴304,所述带电机的钢中轴304上连接有粉碎刀片302,所述粉碎室3底部设置有圆形定时阀门18;所述粉碎刀片302从下到上,刀片的长度从45cm至100cm逐级增加。
所述尾气处理装置5包括防倒吸瓶501、碱液处理瓶502和酸液处理瓶503;所述防倒吸瓶501、碱液处理瓶502和酸液处理瓶503通过管道顺次连接;所述碱液处理瓶502内部有5-10mol/L浓度的NaOH溶液;所述酸液处理瓶503内部有20-40%含量的HNO3溶液。
所述废液收集装置6包括废液容纳箱601、过滤网602、废液收集箱603、真空泵604、液面观察口605和废液排出龙头606;所述废液容纳箱601于废液收集箱603上方,通过过滤网602与废液收集箱603连接,真空泵604通过导管与废液收集箱603连接,液面观察口605位于废液收集箱603箱体十分之九高度处,以供观察废液收集进度,废液排出龙头606位于废液收集箱603箱体最底部,方便排出废液。
本实施例还包括筒体法兰8、安装法兰9-1、安装法兰9-2、支撑腿架14和出料传送装置15;所述搅拌脱水室1顶部开设有两个入口,所述入口上设置有筒体法兰8,所述筒体法兰8上设置有安装法兰9-1和安装法兰9-2;所述安装架7下方设置有支撑腿架14,所述热解装置4开设有出料口,所述出料口外设置有出料传送装置15;所述出料传送装置15为传送带。
上述说明是针对本发明较佳可行实施例的详细说明,但实施例并非用以限定本发明的发明申请范围,凡本发明所提示的技术精神下所完成的同等变化或修饰变更,均应属于本发明所涵盖的发明范围。
Claims (4)
1.一种应用于污泥与生物质共热解制备复合生物碳的装置的定时阀门,其特征在于,所述的圆形定时阀门(18)由定时控制器(1801)、六折式阀门(1802)、弹簧闭合器(1803)与旋转中轴(1804)组成;所述定时控制器(1801)通过旋转中轴(1804)与弹簧闭合器(1803)连接,所述弹簧闭合器(1803)控制六折式阀门(1802)的开启或关闭;所述定时控制器(1801)由旋转电机(1801-1)、电机承台(1801-2)、定时信息发送器(1801-3)和转动传导轴(1801-4)组成;所述弹簧闭合器(1803)由拉伸弹簧(1803-1)、伸缩主轴(1803-2)、定时信号接收器(1803-3)、可折叠钢外壳(1803-4)和电控伸缩钢棒(1803-5)组成;所述旋转中轴(1804)由转动轴(1804-1)和实心钢外壳(1804-2)组成;所述弹簧闭合器(1803)由拉伸弹簧(1803-1)、伸缩主轴(1803-2)、定时信号接收器(1803-3)、可折叠钢外壳(1803-4)和电控伸缩钢棒(1803-5)组成;所述电机承台(1801-2)内部固定有旋转电机(1801-1),所述旋转电机(1801-1)通过转动传导轴(1801-4)与位于实心钢外壳(1804-2)内部的转动轴(1804-1)的一端连接,所述转动轴(1804-1)的另一端与实心钢外壳(1804-2)的顶端连接,用于带动实心钢外壳(1804-2)转动;所述实心钢外壳(1804-2)的外部与可折叠钢外壳(1803-4)的一端固定连接;所述电控伸缩钢棒(1803-5)套设于可折叠钢外壳(1803-4)内部,用于控制可折叠钢外壳(1803-4)的伸缩;所述伸缩主轴(1803-2)套设于拉伸弹簧(1803-1)内部,用于固定拉伸弹簧(1803-1),让拉伸弹簧(1803-1)处于直线状态,所述拉伸弹簧(1803-1)与六折式阀门(1802)的折线处连接;所述可折叠钢外壳(1803-4)由设置于实心钢外壳(1804-2)内部的定时信号接收器(1803-3)控制收缩,可折叠钢外壳(1803-4)与拉伸弹簧(1803-1)连接,具体为通过定时信号接收器(1803-3)控制电控伸缩钢棒(1803-5)伸缩,从而带动可折叠钢外壳(1803-4)伸缩,可折叠钢外壳(1803-4)再带动拉伸弹簧(1803-1)收缩,最后带动六折式阀门(1802)伸缩;所述定时信息发送器(1801-3)通过信号控制定时信号接收器(1803-3)。
2.根据权利要求1所述应用于污泥与生物质共热解制备复合生物碳的装置的定时阀门,其特征在于,所述六折式阀门(1802)的六个折页均为钢材板材质,六个折页完全伸展开形成一个半圆形;六个折页通过第三折末端处的螺栓固定,六个折页以第三折为中心,向四周展开形成半圆形。
3.根据权利要求1所述应用于污泥与生物质共热解制备复合生物碳的装置的定时阀门,其特征在于,所述实心钢外壳(1804-2)与六折式阀门(1802)通过第三折固定,且拉伸弹簧(1803-1)与六折式阀门(1802)的第一折跟第五折固定连接,收缩时带动六折式阀门(1802)的第一折跟第五折向六折式阀门(1802)的第三折靠拢,从而实现圆形定时阀门(18)开启。
4.一种应用于污泥与生物质共热解制备复合生物碳的装置的定时阀门的使用方法,其特征在于,包括如下步骤:
前期设定好污泥与生物质共热解制备复合生物碳装置内部的搅拌脱水室(1)、烘干室(2)、粉碎室(3)的工作结束时间,待工作结束后,定时控制器(1801)开始工作,定时信息发送器(1801-3)发出信号,使定时信号接收器(1803-3)接收到信号,控制电控伸缩钢棒(1803-5)缩短,带动可折叠钢外壳(1803-4)压缩至最短,可折叠钢外壳(180-4)拉动拉伸弹簧(1803-1)压缩,拉伸弹簧(1803-1)压缩伸缩主轴(1803-2),使伸缩主轴(1803-2)缩至最短;拉伸弹簧(1803-1)带动六折式阀门(1802),将六折式阀门(1802)收起,六折式阀门(1802)收起后,定时控制器(1801)中,电机承台(1801-2)上的旋转电机(1801-1)开始工作,旋转带动转动传导轴(1801-4),转动传导轴(1801-4)将转动转导至转动轴(1804-1),转动轴(1804-1)带动实心钢外壳(1804-2)转动,使旋转中轴(1804)转动180°,使六折式阀门上残余生物质落入对应腔体,同时六折式阀门(1802)折叠过程中,能将粘连的生物质刮下,阀门根据污泥与生物质混合初步脱水时间定时开启,使初步脱水混合物落入下一个部件中。
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