Details
Mixing form
Product Overview
The WLDH horizontal screw belt mixer consists of a U-shaped shell, screw belt mixing blades, and transmission components; The spiral blade has a double-layer inner and outer structure, with the outer layer of spiral collecting materials from both sides to the center, and the inner layer of spiral conveying materials from the center to both sides, forming convective mixing. The horizontal screw belt mixer has a good effect on the mixing of viscous or cohesive powder particles, as well as the mixing of liquid and paste materials added to the powder. The cylinder cover can be made into a fully open door for easy cleaning and product replacement of the equipment.
Product features and applications
The WLDH horizontal screw belt mixer is a new and efficient mixing equipment that has introduced foreign technology and has been innovatively designed by our professional technical personnel. It is widely used in industries such as chemical, pharmaceutical, compound fertilizer, dye, pigment, rubber, building materials, food, milk powder, health products, feed, additives, aquaculture, biotechnology, fine chemicals, ceramics, refractory materials, rare earths, plastic glass, as well as new materials, nuclear energy materials, etc. It is a new and efficient mixing equipment for solid to solid (i.e. powder to powder) and solid to liquid (i.e. powder to slurry) material mixing.
Specification parameters
1. Determine the volume of materials to be mixed in each batch, ranging from 0.1 to 20 cubic meters, and select equipment of the corresponding specifications.
2. Select equipment manufacturing materials, which are divided into parts that come into contact with the material, parts that do not come into contact with the material, and other components of the equipment that maintain their original materials. The material is determined based on factors such as material properties, working conditions, and hygiene levels. Commonly, carbon steel and 304/316L/321 stainless steel materials are selected and surface treatment requirements are determined according to the requirements.
3. Determine the driving capability of the configuration based on the specific gravity, fluidity, and other properties of the material, as well as the start-up standards. Startup standards are divided into overloaded startup and unloaded startup.
4. According to the actual process situation, add auxiliary functional components such as liquid spraying, heating/cooling, etc.
5. Design the opening requirements for equipment, such as feeding ports, cleaning ports, exhaust holes, etc
6. Select the discharge mode and driving method, including manual, pneumatic, and electric
Important reminder: Equipment selection is a crucial step, and detailed information about materials and process arrangements should be provided as much as possible so that our professional personnel can provide you with high-quality technical services.
Case diagram
