The rotary granulator has a wide range of applications in industries such as pharmaceuticals, chemicals, and food. It is suitable for granulating various powders, granules, and liquid materials, and is particularly suitable for situations such as chicken essence factories that require the preparation of uniform and fine particles. The particles made can be directly packaged, filled with glue, etc., and are widely used in the preparation process of various dosage forms such as tablets, glue agents, granules, etc.
In addition, the rotary granulator can also be used in conjunction with other equipment such as spray drying machines, mixers, etc. to form a complete production line and achieve automated production. This can not only improve production efficiency, but also reduce production costs and enhance the market competitiveness of enterprises,
The structure of a rotary granulator mainly consists of a cylinder, rotor, transmission system, feeding system, discharging system, and cooling system. Below, the editor will briefly introduce to you:
1. Cylinder: This is the main body of the entire device, usually cylindrical or conical in shape. The cylinder is equipped with many toothed or cylindrical rods inside, which are used for friction and impact of raw materials to promote the formation of particles.
2. Rotor: As the main moving component inside the cylinder, the rotor can disperse raw materials and accelerate the formation of particles. The rotor is divided into single-layer and multi-layer types, which can be selected according to production needs.
3. Transmission system: mainly transmits the speed of the motor to the rotor so that it can rotate continuously and stably.
4. Feeding system: Usually, equipment such as screw conveyors and vibrators are used to evenly feed the raw materials into the cylinder, ensuring the continuity and stability of the particle preparation process,
5. Discharge system: responsible for discharging the prepared particles from the cylinder, usually using pneumatic or mechanical discharge methods to meet different production needs.
6. Cooling system: Cool the prepared particles to prevent deformation or adhesion due to high temperature, and improve the quality and stability of the particles.