Large Magnetic Stirrer
(1)LCD/Double Knob/Timmer/Heating Plate
(2)Stirring Volume:5L
2. Large Capacity Magnetic Stirrer
(1)Double Knob/DC Brushless Motor/100~240V/5~40°C 80%RH
(2)Stirring Volume:10L/20L/50L
3. Multi Link Magnetic Stirrer:
(1)Double Knob/LCD/100~240V/100~1500RPM
(2)Stirring Volume:3*1/6*1/9*1
4. Mini Magnetic Stirrer:
(1)Miniature Brushless Motor/Stepless Speed Regulation/0~2000RPM/AC 220V 50Hz
(2)Stirring Volume:2L
5. Single Control Multi Connection Magnetic Stirrer:
(1)LED Digital/0~1600RPM/RT±5~99.9°C/220V 50/60Hz
(2)Stirring Volume:4*1/6*1
***Price List for whole above, inquire us to get
Description
Technical Parameters
Large Magnetic Stirrer, A large capacity magnetic stirrer is a widely used equipment in laboratories and industries, mainly used for stirring and mixing various liquid samples. It achieves efficient and uniform stirring of liquids through magnetic force, thus meeting the needs of liquid treatment in multiple fields such as chemistry, biology, and medicine. The main function is to drive the stirrer (usually a small ball or rod made of magnetic material) to rotate in the liquid through magnetic force, thereby achieving uniform stirring of the liquid. This mixing method avoids the problems of liquid splashing and sample contamination that may arise from traditional mechanical mixing, while reducing the noise and vibration generated during the mixing process. In addition, it also has various auxiliary functions, such as temperature control, stirring speed adjustment, etc., to meet the needs of different experiments and production.
Classification of lab Equipment Magnetic Stirrer
Large Magnetic Stirrer, As an indispensable and efficient mixing equipment in laboratories and industrial production, its working principle cleverly utilizes magnetic coupling. This efficient mechanism not only ensures the smoothness and accuracy of the mixing process, but also greatly improves the mixing efficiency and operational convenience. Specifically, the construction and functionality can be further refined into the following key parts:
Stirring element:
As a stirring element in direct contact with liquid, the stirring element is carefully crafted with high-quality strong magnetic materials such as neodymium iron boron. These materials not only possess strong magnetic attraction, but also have good corrosion resistance and wear resistance, ensuring stable magnetism and shape during long-term stirring. The shape (such as spherical, paddle shaped, etc.) and size of the stirrer can be customized and
Blender body:
The agitator body is carefully arranged with permanent magnets or high-performance electromagnets inside, which rotate at high speed under the drive of the motor, generating a strong rotating magnetic field around the agitator. This magnetic field interacts with the magnetic material inside the stirrer, and through magnetic coupling, it can drive the stirrer to rotate synchronously without direct contact. This non-contact transmission method not only avoids the pollution and wear problems that traditional mechanical mixing may bring, but also ensures the smooth and accurate mixing action
Motor system:
As the power source of the entire mixer, the motor part usually uses high-performance DC or AC motors to ensure stable and adjustable rotational power. Through advanced motor control technology, users can easily adjust the speed of the motor, thereby achieving precise control of the mixing speed. This flexible speed regulation function is crucial for meeting different experimental conditions and production needs.
Control circuit:
The control circuit is the core of the intelligent operation of the device. It integrates advanced microprocessor technology and digital control technology, responsible for receiving user instructions, monitoring motor operating status, and executing corresponding control strategies. Modern Large Magnetic Stirrers are commonly equipped with intuitive and easy-to-use digital displays and button operation interfaces. Users can easily set parameters such as mixing speed and working time through these interfaces, and monitor various data during the mixing process in real time. In addition, some advanced models also have fault self diagnosis function, which can promptly issue alarms and take corresponding protective measures when abnormalities occur.
Temperature control system (optional accessories):
In order to meet the strict requirements for temperature control in specific experiments and production processes, some are also equipped with advanced temperature control systems. The system achieves precise monitoring and adjustment of the temperature of the stirred liquid by integrating heating elements and high-precision temperature sensors. Users can set the target temperature range according to experimental requirements and rely on the system to automatically adjust the heating power to maintain stable liquid temperature. This temperature control function greatly expands its application range, making it capable of handling more complex and temperature sensitive mixing tasks.
Application Area
It has a wide range of applications in multiple fields, mainly including the following aspects:
● In the field of biology
It is commonly used in cell culture, enzymatic reactions, and protein purification processes in biological experiments. Its noiseless and vibration free characteristics provide a favorable growth environment for cells and tissues; Meanwhile, its temperature control system can meet the precise temperature control requirements for experiments such as cell culture.
● In the pharmaceutical industry
It is commonly used in drug synthesis, formulation preparation, and drug analysis processes. The characteristics of efficient stirring and precise temperature control contribute to improving the production efficiency and product quality of drugs; At the same time, its easy cleaning and disinfection characteristics also meet the requirements of medical production for equipment hygiene.
● Other fields
In addition to the above three fields, r is also widely used in multiple fields such as environmental protection, food, and materials science. For example, in the field of environmental protection, it can be used for mixing and reaction in wastewater treatment processes; In the food industry, it can be used for stirring and mixing in food processing and preparation processes.
Development Trends
With the continuous advancement of technology and the increasing demand for experiments, the Large Magnetic Stirrer is also constantly developing and improving. In the future, the development trends mainly include the following aspects:
With the continuous development of the Internet of Things and artificial intelligence technology, intelligence will gradually be achieved. By integrating sensors, control algorithms, and wireless communication technologies, real-time monitoring, intelligent control, and remote operation of the mixing process can be achieved. This will greatly improve the automation level and efficiency of experiments and production.
In order to meet the diverse needs of mixing equipment in different fields and experiments, we will develop towards multifunctionality. In addition to the basic stirring function, more auxiliary functions may be integrated in the future, such as temperature gradient control, pressure control, pH monitoring and adjustment, light control, etc., to adapt to more complex experimental and production environments.
Modular design will become an important trend for future development. Through modular design, users can choose different functional modules to combine according to their actual needs, thereby achieving customized device configuration. This design not only improves the flexibility and scalability of the device, but also reduces the purchasing and maintenance costs for users.
With the increasing awareness of environmental protection and the rise in energy prices, efficient and energy-saving will become an important direction for research and development. In the future, more advanced motor technology and control algorithms will be adopted to achieve higher energy efficiency ratios and lower energy consumption. At the same time, by optimizing the design of the agitator and the structure of the agitator, energy loss and heat generation can be reduced, further improving the energy-saving effect of the equipment.
In order to improve the user experience, more efforts will be made in terms of usability and humanized design. For example, adopting a more intuitive operating interface and simpler button layout can reduce users' learning costs; Add voice prompts and fault self diagnosis functions to facilitate users to discover and solve problems in a timely manner; Provide multiple language support and customized interface options to meet the needs of users from different countries and regions.
In fields such as food and medicine that require high hygiene standards, material selection and hygiene standards will receive stricter attention. Future devices will use materials that meet international hygiene standards to manufacture components such as stirrers and agitator bodies, ensuring that samples are not contaminated or harmful substances are not produced during use. At the same time, the equipment will have the characteristics of easy cleaning and disinfection to meet users' requirements for product hygiene.
With the popularization of big data and cloud computing technologies, Large Magnetic Stirrer will gradually integrate into this trend. By integrating data collection and transmission modules, the device can record and analyze various parameters during the mixing process in real time (such as mixing speed, temperature, pH value, etc.), and transmit the data to the cloud for storage and analysis. This helps users gain a deeper understanding of the changing patterns in experiments and production processes, optimize process parameters, and improve product quality. At the same time, cloud computing platforms can also provide remote monitoring and fault diagnosis services, further improving the reliability and maintenance efficiency of equipment.
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