Vortex Mixer Ohaus VXMNAL

Specification
Control Analog
Duty Rating Intermittent
Orbit 0.2 in (4.9 mm)
Speed Range 300 rpm – 2800 rpm
Capacity 0.5 kg
Timer Not Applicable
Dimensions 8.3 in x 6.5 in x 4.8 in (21 cm x 16.5 cm x 12.3 cm) (LxHxW)
Net Weight 9.7 lb (4.4 kg)
Power 230V, 0.6A, 50/60Hz
Power Consumption 135 W
Safety Certification CE;  TUV
Working Environment 39°F – 104°F, 20% – 85%RH, non-condensing (4°C – 40°C, 20% – 85%RH, non-condensing)

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    Features & Compatibility

    Vortex Mixer Ohaus VXMNAL: Efficient, Reliable, and Essential for Laboratory Mixing

    A Vortex Mixer Ohaus VXMNAL is a staple in laboratories around the world, known for its simplicity, versatility, and efficiency. This essential lab tool is used for quickly mixing small vials of liquid, ensuring thorough and uniform mixing of samples in tubes or plates. Whether you’re in a research lab, clinical setting, or industrial environment, a Vortex Mixer can streamline your workflow, making it easier to achieve accurate and reproducible results.

    What is a Vortex Mixer?

    A Vortex Mixer is a laboratory device that uses a rapid circular motion to mix small volumes of liquid in containers like test tubes, microplates, or vials. The device consists of a motor-driven platform or cup that oscillates rapidly in a circular or orbital motion. When a tube or other container is pressed against the cup, the rapid motion creates a vortex within the liquid, mixing the contents thoroughly and efficiently.

    Vortex Mixers are commonly used in molecular biology, biochemistry, clinical diagnostics, and many other scientific fields. They are particularly useful for mixing samples that need to be uniformly dispersed, dissolved, or homogenized.

    Key Features of a Vortex Mixer

    1. Variable Speed Control: Most Vortex Mixers come with adjustable speed settings, allowing users to control the intensity of the mixing action. This feature is crucial for applications that require gentle mixing or more vigorous agitation, depending on the nature of the sample.
    2. Touch and Continuous Modes: Vortex Mixers typically offer two modes of operation: touch mode, where the mixer is activated only when pressure is applied to the platform, and continuous mode, where the mixer runs continuously without the need for constant pressure.
    3. Durable Construction: Built to withstand the demands of frequent use, Vortex Mixers are typically constructed from durable materials like chemically resistant plastic and metal. This ensures long-term reliability and resistance to wear and tear.
    4. Interchangeable Attachments: Some Vortex Mixers come with interchangeable attachments, allowing users to mix different types of containers, from small test tubes to larger beakers or microplates. This versatility makes them suitable for a wide range of applications.
    5. Compact Design: Designed to fit easily on any laboratory bench, Vortex Mixers are compact and space-saving. Their small footprint makes them easy to integrate into any lab setup, even in crowded environments.
    6. Quiet Operation: Despite their powerful mixing capabilities, many Vortex Mixers are designed to operate quietly, minimizing noise disruption in the lab.
    7. Safety Features: Some models include safety features such as automatic shutoff when the mixer is overloaded, ensuring safe and reliable operation in the laboratory.

    Benefits of Using a Vortex Mixer

    1. Efficient Mixing: Vortex Mixers provide rapid and efficient mixing, making them ideal for applications where speed and uniformity are critical. This is especially important in labs that process large numbers of samples daily.
    2. Versatility: Suitable for a wide range of applications, including mixing reagents, suspensions, and samples, Vortex Mixers are versatile tools that can be used across various fields of research and diagnostics.
    3. Consistency: The uniform mixing action of a Vortex Mixer ensures that all components in a sample are evenly distributed, leading to more accurate and reproducible results in experiments and assays.
    4. Time-Saving: By automating the mixing process, Vortex Mixers save valuable time in the laboratory, allowing researchers to focus on other critical tasks.
    5. User-Friendly Operation: With simple controls and straightforward operation, Vortex Mixers are easy to use, making them accessible to both novice and experienced laboratory personnel.
    6. Space Efficiency: The compact design of Vortex Mixers allows them to be easily integrated into any laboratory setup, maximizing bench space without compromising on performance.
    7. Cost-Effective: Vortex Mixers are generally affordable and offer excellent value for money, providing a reliable and long-lasting solution for laboratory mixing needs.

    Applications of Vortex Mixers

    1. Molecular Biology: In molecular biology labs, Vortex Mixers are commonly used to mix small volumes of DNA, RNA, and protein samples. They are also used in PCR preparation, where thorough mixing of reagents is essential for successful amplification.
    2. Clinical Diagnostics: Vortex Mixers are used in clinical laboratories to mix blood samples, urine samples, and reagents for diagnostic tests. Their ability to ensure uniform mixing is crucial for obtaining accurate test results.
    3. Pharmaceutical Research: In pharmaceutical labs, Vortex Mixers are used to mix drug compounds, suspensions, and formulations. Their consistent mixing action ensures that active ingredients are evenly distributed in the final product.
    4. Chemistry: In chemical laboratories, Vortex Mixers are used to mix small quantities of chemicals, solvents, and reagents. They are particularly useful for dissolving powders in liquids or creating homogenous solutions.
    5. Environmental Science: Environmental labs use Vortex Mixers to mix soil, water, and other environmental samples with reagents for analysis. This ensures that all components are uniformly distributed, leading to more accurate measurements.
    6. Food and Beverage Testing: In food and beverage labs, Vortex Mixers are used to mix samples and reagents for quality control tests, such as pH measurement, sugar content analysis, and contamination testing.
    7. Education and Training: Vortex Mixers are commonly used in educational laboratories and training programs to teach students about laboratory techniques and sample preparation.

    Choosing the Right Vortex Mixer

    When selecting a Vortex Mixer for your laboratory, consider the specific needs of your applications. Look for a model with adjustable speed control if you need flexibility in mixing intensity. If you frequently work with different types of containers, choose a mixer with interchangeable attachments.

    Consider the durability and construction of the mixer, especially if it will be used frequently or in demanding conditions. Safety features, such as overload protection and automatic shutoff, are also important to ensure reliable and safe operation.

    Conclusion

    A Vortex Mixer is an essential tool for any laboratory that requires quick, efficient, and uniform mixing of small volumes of liquid. Whether you’re working in molecular biology, clinical diagnostics, pharmaceutical research, or any other field that demands precise sample preparation, a Vortex Mixer delivers the performance and reliability you need.

    With their simple operation, compact design, and versatile applications, Vortex Mixers are a valuable addition to any lab. Invest in a quality Vortex Mixer to enhance your laboratory’s efficiency and ensure consistent, reproducible results in your experiments and tests. Explore our range of Vortex Mixers to find the perfect solution for your laboratory needs.

    Additional information

    Brand

    Ohaus

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