REFRIGERATED MICRO-CENTRIFUGE

REFRIGERATED MICRO-CENTRIFUGE

MAKE DINESH SCIENTIFIC

DESCRIPTION:

With the use of centrifugal force, materials with varying densities can be separated in a sophisticated laboratory device called a chilled centrifuge. It works on the idea that the denser particles in a sample travel outward and form different layers when it is spun rapidly. The following is a thorough explanation of a chilled centrifuge:

A sophisticated laboratory tool called a chilled centrifuge is used to separate particles according to their density from a liquid mixture. Centrifugal force is utilized by this apparatus to quickly spin samples in a temperature-controlled setting, usually between sub-ambient and room temperature.

FEATURES:

• Benchtop Refrigerator Centrifuge:
• Robust C.R.C. structure with powder-coated finish
• A centrifugal bowl made of stainless steel for added protection and simple cleaning.
• Equipped with an electronic drive and a well-balanced brushless motor.
• 20 characters in 4 lines. LCD display for rpm, CF, set and run times, and set times
• There is an automated dynamic brake and an imbalance detector.

MAIN COMPONENTS:

• ROTOR: The sample tubes or containers are held in place by the centrifuge’s rotor. It creates centrifugal force by spinning quickly.
• MOTOR: The rotor is driven by a strong motor, which enables high rotation rates

• CONTROL PANEL: Users can adjust centrifuge process parameters like speed, temperature, and duration via the control panel.

REFRIGERATION SYSTEM:

• This feature separates a conventional centrifuge from a chilled one. It has a cooling system that keeps the centrifugation temperature low, which is essential for protecting the integrity of samples that are sensitive to temperature changes.

FUNCTIONALITY:

• Centrifugation: The main purpose is to rotate the samples quickly such that the denser components settle to the bottom of the tubes.
• REFRIGERATION: The centrifuge’s internal temperature is regulated by an integrated refrigeration system, which permits sample separation without jeopardizing the integrity of materials that are sensitive to temperature changes.

APPLICATIONS:

• Cell separation: cells are divided according to density in biological research.
• Protein filtration is vital for separating and purifying proteins from complicated mixtures in biological investigations.
• DNA AND RNA EXTRACTION: helps to separate nucleic acids from biological materials more easily.
• Clinical diagnostics: utilized in clinical labs for a range of diagnostic procedures, including the separation of blood components.

TEMPERATURE CONTROL:

• Depending on the model, the refrigeration system can normally regulate the temperature between below ambient and below zero.

SAFETY FEATURES:

• LID LOCKING MECHANISM: Makes sure the centrifuge lid stays firmly closed while it is in use.
• AUTOMATIC IMBALANCE DETECTION: In the event of an imbalance, stop the centrifuge to protect the samples and the device.

Capacity and speed:

• Sample capacity: To handle a variety of sample sizes and kinds, refrigerated centrifuges are available in a range of sizes and rotor designs.
• SPEED CONTROL: Users can adjust the centrifugation settings for various applications using variable speed control.

USER INTERFACE:

• Digital Display: For convenient monitoring of the settings, remaining time, and speed, the control panel usually has a digital display. In conclusion, a refrigerated centrifuge is a multipurpose laboratory instrument that combines temperature control and centrifugation principles, allowing scientists to precisely separate and analyze samples, particularly when working with materials that are sensitive to temperature.

TECHNICAL DETAILS: