The utility model belongs to the technical field of glass fiber filter paper production equipment, in particular to a beating tank, which comprises a tank body, a knife shaft in the tank body, and a blade on the knife shaft. The tank body is provided with a feed inlet, a water inlet and a material outlet. The knife shaft is provided with an axis of the tank body, and a plurality of blades are vertically arranged on the knife shaft, and the top of the tank body is provided with a transmission connecting the knife shaft to drive the knife shaft to rotate Shaft, the inner part of the tank body is provided with a tubular mixing plate, the cross section of the mixing plate is wavy, the through-hole is evenly distributed on the plate body of the mixing plate, and the mixing plate body is provided with a plurality of shafts along the radial direction of the tank body, the shaft is provided with a side blade which can rotate and cooperate with the shaft, the bottom of the tank body is provided with a rotary table connected with the mixing plate, and the bottom of the tank body is provided with a driving shaft which is connected with the rotary table and extends to the outside of the tank body, The rotary table is equipped with a bubbling coil, and the upper part of the tank body is equipped with an overflow hole, so the beating efficiency is high, the slurry is evenly mixed, and the effect is good.
【技术实现步骤摘要】
一种打浆罐
本技术属于玻璃纤维过滤纸生产设备
,具体涉及一种打浆罐。
技术介绍
玻璃纤维过滤纸的生产中,需要将纤维原料加入一定比例的结合剂、填料级助剂等,在打浆罐内充分搅拌破碎后分散成纤维浆液,然后再进行脱水成型、烘干等工序的处理后得到纤维纸。目前采用的打浆罐多为立式结构,该种结构便于设置,可容纳更多的浆液,便于混合或的浆液输出。目前的立式结构的打浆罐仅在罐体轴心处设置打浆刀组,打浆效果差,搅拌不均匀、效率低。
技术实现思路
本技术所要解决的技术问题是针对上述缺陷,提供一种打浆罐,打浆效率高,浆液混合均匀,效果好。本技术解决其技术问题采用的技术方案如下:一种打浆罐,包括罐体、罐体内的刀轴、及刀轴上的刀片,罐体设有进料口、进水口及出料口,所述的刀轴设置罐体的轴心处,多个刀片竖向的设置在刀轴上,罐体顶部设有连接刀轴带动刀轴转动的传动轴,罐体内部设有筒状的搅拌板,搅拌板的横截面为波浪状,搅拌板的板体上均匀分布有通孔,且搅拌板板体上设有多个沿罐体径向的轴,轴上设有与轴可转动配合的侧向刀片,罐体底部设有连接搅拌板的转盘,罐体底部设有连接转盘并延伸至罐体外部的驱动轴,转盘上设有鼓泡盘管,罐体上部设有溢气孔。进一步的,罐体上部设有驱动传动轴转动的上部点击,罐体下部设有驱动驱动轴转动的下部电机。进一步的,所述的出料口设置在管体下部。进一步的,所述的转盘上设有多个贯穿上下的孔。进一步的,搅拌板与刀轴转动方向相反。进一步的,搅拌板围设在刀轴外,搅拌板最小处内径大于刀片半径。本技术的有益效果是:采用上述方案,罐体内设置与刀轴转向相反的搅拌板,对物料进行反向的搅拌,使混合浆液得到充 ...
【技术保护点】
1.一种打浆罐,包括罐体、罐体内的刀轴、及刀轴上的刀片,罐体设有进料口、进水口及出料口,其特征在于,所述的刀轴设置罐体的轴心处,多个刀片竖向的设置在刀轴上,罐体顶部设有连接刀轴带动刀轴转动的传动轴,罐体内部设有筒状的搅拌板,搅拌板的横截面为波浪状,搅拌板的板体上均匀分布有通孔,且搅拌板板体上设有多个沿罐体径向的轴,轴上设有与轴可转动配合的侧向刀片,罐体底部设有连接搅拌板的转盘,罐体底部设有连接转盘并延伸至罐体外部的驱动轴,转盘上设有鼓泡盘管,罐体上部设有溢气孔。
【技术特征摘要】
1.一种打浆罐,包括罐体、罐体内的刀轴、及刀轴上的刀片,罐体设有进料口、进水口及出料口,其特征在于,所述的刀轴设置罐体的轴心处,多个刀片竖向的设置在刀轴上,罐体顶部设有连接刀轴带动刀轴转动的传动轴,罐体内部设有筒状的搅拌板,搅拌板的横截面为波浪状,搅拌板的板体上均匀分布有通孔,且搅拌板板体上设有多个沿罐体径向的轴,轴上设有与轴可转动配合的侧向刀片,罐体底部设有连接搅拌板的转盘,罐体底部设有连接转盘并延伸至罐体外部的驱动轴,转盘上设有鼓泡盘管,罐体上部设有溢...
【专利技术属性】
技术研发人员:蒋勤芬,许如庆,张玲佳,
申请(专利权)人:江苏大利节能科技股份有限公司,
类型:新型
国别省市:江苏,32
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