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Production Description:
A colloid mill typically consists of the following main components:
Hopper or Inlet: This is the entry point where the material to be processed is fed into the colloid mill. It can be a solid or liquid substance or a mixture of both.
Rotor: The rotor is a rotating component within the colloid mill. It is typically driven by an electric motor or another power source. The rotor is designed with a series of concentric teeth, grooves, or other patterns that create intense shearing and grinding action when in contact with the stator.
Stator: The stator is a stationary component that surrounds the rotor. It is typically made of a hard material such as stainless steel and has a carefully engineered shape to form a small and uniform gap with the rotor. The stator provides support and stability to the rotor and contributes to the shearing and grinding process.
Gap Adjustment Mechanism: Some colloid mills have a mechanism to adjust the gap between the rotor and stator. This allows for fine-tuning of the grinding intensity and particle size reduction. The gap can usually be adjusted by either manual or mechanical means.
Motor and Drive System: The colloid mill is powered by an electric motor or another power source, which drives the rotation of the rotor. The motor is connected to the rotor through a drive system such as belts, gears, or direct coupling.
Discharge Outlet: After the material has undergone the grinding process, it is discharged from the colloid mill through a separate outlet. The outlet can be connected to a collection container or directed to further processing equipment.
Frame and Housing: The colloid mill is housed within a sturdy frame or housing, which provides support, protection, and stability to the internal components. The housing is typically made of stainless steel or other suitable materials for hygienic and corrosion-resistant purposes.
LENO Colloid mill Sheet
Production Description:
A colloid mill typically consists of the following main components:
Hopper or Inlet: This is the entry point where the material to be processed is fed into the colloid mill. It can be a solid or liquid substance or a mixture of both.
Rotor: The rotor is a rotating component within the colloid mill. It is typically driven by an electric motor or another power source. The rotor is designed with a series of concentric teeth, grooves, or other patterns that create intense shearing and grinding action when in contact with the stator.
Stator: The stator is a stationary component that surrounds the rotor. It is typically made of a hard material such as stainless steel and has a carefully engineered shape to form a small and uniform gap with the rotor. The stator provides support and stability to the rotor and contributes to the shearing and grinding process.
Gap Adjustment Mechanism: Some colloid mills have a mechanism to adjust the gap between the rotor and stator. This allows for fine-tuning of the grinding intensity and particle size reduction. The gap can usually be adjusted by either manual or mechanical means.
Motor and Drive System: The colloid mill is powered by an electric motor or another power source, which drives the rotation of the rotor. The motor is connected to the rotor through a drive system such as belts, gears, or direct coupling.
Discharge Outlet: After the material has undergone the grinding process, it is discharged from the colloid mill through a separate outlet. The outlet can be connected to a collection container or directed to further processing equipment.
Frame and Housing: The colloid mill is housed within a sturdy frame or housing, which provides support, protection, and stability to the internal components. The housing is typically made of stainless steel or other suitable materials for hygienic and corrosion-resistant purposes.
LENO Colloid mill Sheet
