Product DescriptionCream Ointment Lotion Cosmetics Vacuum Mixing Tank Blending Machine
Jacketed Blending Machines for to make shampoo has many characteristics such as: reasonable structure design, advanced technology, perfect durability, large heating area, high thermal efficiency, uniform heating and so on.Heating methods:
Cream Ointment Lotion Cosmetics Vacuum Mixing Tank Blending Machine for to make shampoo is made of stainless steel 304 or 316 ; its tank body surface adopt to mirror polishing; there are two different heat forms: electric heating and steam heating , as for heating methods, it can be heated by jacketed heating, coil heating, and heating pipe heating etc.Agitator:
The agitator of making machineis top center stirring, Agitator which is capable of handling very thick highly viscous gel like paste on low speed(rpm) and at the same time should be capable for mixing oils with low to medium viscosity at medium to high speeds ( rpm).
Meanwhile, there are many different kinds of agitators, such as: frame mixer, anchored mixer, paddle mixer and turbo type mixer and so on, it is decided by the technological process.Inlet and outlet:
The input and export of Cream Ointment Lotion Cosmetics Vacuum Mixing Tank Blending Machine adopt to Flanging arc, which is easy to clean and no dead corner.Design:
The design of Cream Ointment Lotion Cosmetics Vacuum Mixing Tank Blending Machine is highly humanized, it can be customized the tank volume(from 50L to 5000L)and other Configuration accessories according to production requirement; tank inner surface adopt mirror polishing, therefore, there is no dead corner in tank inside, and feeding material can be discharged clean, no stranded after operation.Wide Applicable range:
1. Used as blending tank, mixing tank, preparation tank, fermentation tank, disinfection tank and ageing tank etc.
2. Ideal in fields such as food, dairy products, fruit juice beverages, pharmacy, chemical industry and biological engineering etc.Reference technical parameters:
|Volume (L)||Dimension D*h (mm*mm)||Height (mm)||In/Outlet diameter (mm)||Heat preservation layer|