*Features of Anti-corrosion Mixing Tank:
The mixer pot is made of PP, PVC, plastic material. It is very hard to reaction with any chemical product. The stirring blade is made of enamel. This machine has explosion preventin motor.
The work pressure ≤ -0.01Mpa, work temperature(PP):-10℃-100 ℃,PVC-10℃-60℃.
The blending blade is made by enamel. The blending motor is adopted the explosion proof type.
The whole machine is very easy to install, operate, fix and maintain. With the PP or PVC material, it makes the tank anti-corrosive and light in weight.
This machine is widely used for the production of toilet detergent or any corrosive product.
|Model||Volume (L)||Blending power (KW)||Blending rotation speed (r/min)|
*Application of Anti-corrosion Mixing Tank:
PP, PVC plastic mixer is mainly used in chemical, medicine, petroleum, and other industrial lines. It is specially for the strong causticity product, such as the strong acid and alkali and the water for hair care product.
Toilet cleansing products,such as Toilet Cleaner, bleach,floor cleaner,etc.
The vacuum emulsifying mixer the means the materials are under the vacuum conditions,it makes use of the high shear emulsifier to distribute one or several phases to another continuous hase rapidly and evenly.After the reciprocating circulation at the high frequency,we will get the high quality finished products without bubbles.
1. Definition: High-speed emulsifier means that when the material is emulsified in a homogeneous pot, the speed of the homogenized head reaches 2980r/min or more! With the slow stirring of the mixing frame, the material is fully sheared, broken and evenly mixed to achieve the desired effect.
2. Structural composition
High-speed emulsifier consists of main pot, oil pan, water pot, electrical control system, hydraulic system, vacuum system and rack. The main pot is composed of a homogenizing stirring pot, a homogenizing mechanism, and a two-way stirring mechanism.
3. Working principle
The material is first preheated and stirred in water and oil pan, and then directly sucked into the homogenizing pot under vacuum through a conveying pipe.
The material is stirred in a homogenized pot through a Teflon scraper in the pot (the scraper always greets the pot shape, sweeping the wall adhesive), continuously creates a new interface, and then passes through the frame stirrer and reverse stirring The leaves are cut, compressed, folded, stirred, mixed and flowed down to the homogenizer below the pot, and then subjected to strong shearing, impact, turbulence, etc. between the rotor and the stator rotating at high speed. The material is cut in the shear slit and rapidly broken into particles of 200 nm to 2 μm. Material micronization, emulsification, mixing, homogenization, dispersion, etc. can be completed in a short time. Since the homogeneous pot is in a vacuum state, the bubbles generated during the stirring process of the material are taken away in time. After the homogenization is finished, raise the lid and press the dump button switch to discharge the material in the pot to the outer container of the pot (or open the bottom valve and the pressure valve to discharge directly).
The heating temperature of the homogenizing pan is displayed by the temperature controller on the control panel; the homogenizing stirring and the blade stirring can be used separately; or can be used at the same time; the length of the homogenizing mixing time is mastered by the user according to the properties of the material, and can be passed Control panel adjustment. After the work is finished, open the cleaning ball valve to clean the pot.
|RPMs of Agitators(inner/outer).||25/1750||25/1750||25/1750||25/1750|
|Note:All measurements are approximate|
1. Soluble (or miscible materials) solid and liquid in accelerated dissolution
2.Immiscible solid-liquid phase suspensions in superfine mixing dispersion
3. Immiscible liquid-liquid phase solution in inclusive micro-emulsion
4. High-viscosity material powder-liquid in overall-mixing and superfine dispersion
5.Nanomaterial aggregates in strong deploymerization and superfine dispersion
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