A special agitator shaft with symmetrically arranged agitator pegs and sleeves of tungsten carbide for wear protection devel- Vertical, batch operation mill for the preparation of tungsten Ideal flow behaviour due to a special agitator peg arrange-ment and the hemispherically shaped chamber floor integrated screen plate for grinding media separationIntensive cooling through a double-wall grinding tank and cooled circulation pipeline
Product inlet via rotor / immersion tube system prevents back flow of grinding media into the feed line.
Generally, there are two ways to obtain nano-powders. A bottom-up manufacturing method (bottom up) for chemical methods, such as chemical precipitation, sol-gel process (sol-gel),... Another method is physical method, which changes the powder particles from big to small (top down), such as mechanical ball milling,... And so on.
The Development In 1963, the first vertical agitator was developed internationally, the first horizontal agitator was developed in 1975, the first horizontal agitator bead mill with eccentric disks was introduced to the public and the horizontal disc grinder was introduced, in 2004, which became the industry standard. In the following years, the grinding media separation systems, the geometry of the grinding disks and the various grinding chamber materials were further developed.
The grinding system pin nanomill shows the evolutionary develop- ment of system with the rotor-slotted pipe separating system. The enclosed horizontal agitator mill is designed for highest product throughput rates and possesses a pin grinding system for highest grinding intensity.
In 2011, we developed the first zirconia comminution chamber technology in China. It has no metal ion pollution and is used in batteries, pharmaceuticals, glazes, ink and food.
工作原理:
NORVA德赢vwin高效纳米砂磨机采用销棒式结构设计,物料随着进料泵由顶端进入研磨腔,随着转子的旋转而均匀分布,在转子和定子缝隙内涡流离心力的作用下对物料进行了彻底的预分散处理。在接下来强烈的研磨中,转子棒销和定子对研磨介质连续发生剧烈的撞击变化,研磨介质再作用于物料,物料得以研磨,研磨后的物料在研磨腔停留时间特别短,从而得到一个极窄的产品粒度分布带,在进料泵压力和离心力作用下,由于密度的不同,研磨介质返回研磨腔,物料却沿着离心力相反的方向经缝隙式分离器过滤分离,循环往复。 |
结构设计
核心设计转子上安装有进口耐磨钢棒销,数量和体积、安装位置按涡流体力学设计,达到最大研磨比研磨能量,提高物料研磨效率,使物料研磨细度达到纳米级,经第三方马尔文激光粒度测试仪测定,最小细度可达≤60nm。
主要特点:
*
高能密度(1.5-2.3 kW/dm3)销棒式砂磨机
* 具有较小的长度/直径比例;
*
设计适用于大流量生产(连续式或循环式);
* 产品颗粒级配分布窄;
*
砂磨机分离系统效率高,是传统砂磨机200-300倍分离效率;
* 可使用的研磨珠子粒径为0.1mm;
*
研磨筒体的材料可根据耐磨性,耐腐蚀性的要求加以更换;
* 所使用料浆的粘度范围广泛,在10 mPas - 8000 mPas;
*
由于采用研磨筒体及分离系统采用双重强制冷却系统,出料产品温度低(一般≤35℃);
* 易于操作和过程控制;
研磨筒
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棒销材质
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研磨轴
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分离系统(mm)
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研磨筒体内衬材质(标准)
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筒体密封
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研磨介质
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带冷却
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进口硬质合金耐磨棒销
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不锈钢
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大流量动态分离器30μm -0.5mm
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特耐磨钢
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进口双端面机械密封
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氧化锆珠
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研磨容积(L)
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加工批量(L)
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转速((r/min)
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驱动功率(kw)
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细度(nm)
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长度(mm)
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宽度(mm)
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高度(mm)
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重量(kg)
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10L
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100-500
|
600-1300
|
15
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≤50
|
1200
|
700
|
1180
|
680
|