Flow switch for water based media with simultaneous monitoring of flow and temperature
Flow Captor 4220.1xF/.1xT xx °C
The flow-captor 4220.1xF/.1xT xx °C is ideally suited for use in automation processes and other industrial applications where both the flow and the temperature of the medium must be monitored.according to the calorimetric measuring principle and without mechanically moved parts.
Key benefits for you:
Precise switching sensor
Separate adjustment of flow range and flow set-point
The Flow-Captor 4220.1xF/.1xT combines flow monitoring and temperature control in one powerful device. With a factory setting of the temperature switch-point, tailored to your exact specifications, you can trust that your marine systems are operating within the desired temperature range.
This flow switch features a user-friendly interface, with an analog display that provides real-time feedback on the current flow speed. Additionally, the flow switch boasts an LED chain that displays the adjusted flow set-point, ensuring precise control over your water-based fluids at all times.
The Flow-Captor 4220.xxF/.xxT xx °C from Weber Sensors offers a range of key features, including:
Suitable for Pressures up to 100 bar
IP65-rated with a housing constructed of glass fiber-reinforced PBTP (Ultradur®)
Factory setting of the temperature switch-point according to your specification
Analog display of real-time flow rate and set-point value
Sensor probe available in different sizes
Compliant with ISO 9001:2015 certification standards
Sensor head
The sensor head is crafted from a single piece of electro-polished stainless steel, ensuring that no sensor elements intruding into the medium. It can be easily installed using a T-piece or welded fitting. For applications involving aggressive media, special materials like titanium or Hastelloy, is available upon request.
The housing is constructed from glass fiber-reinforced PBTP (Ultradur®), with the internal electronics fully encapsulated in epoxy resin. The standard version features a G 1/2" BSP thread. Alternatively, a 1/2" - 14NPT thread option is also available.
The sensor probe sizes for the Flow-Captor 4220.1xF/.1xT xx °C are each designed to cater to your specific needs, whether it's the compact 30 mm BSP length or the extended 90 mm BSP length. Your options include:
a) 4220.1xF/.1xT xx °C BSP Length 30 mm, 1/2" BSP
b) 4220.1xF/.1xT xx °C S110/45 BSP Length 45 mm, 1/2" BSP
c) 4220.1xF/.1xT xx °C S110/67 BSP Length 67 mm, 1/2" BSP
d) 4220.1xF/.1xT xx °C S110/90 BSP Length 90 mm, 1/2" BSP
Efficiency and Durability Unleashed: Flow-Captor's Mechanical Simplicity with Calorimetry
The system operates on a fascinating and highly versatile measuring principle known as calorimetry. This calorimetric measuring principle is the cornerstone of the technology that underpins the flow-captor type 4220.1xF/.1xT xx °C, and it offers a wide array of benefits and capabilities including:
Flexibility
No need for mechanical moving parts
Increased durability and reliability
Highly adaptable
At its core, calorimetry is a technique that measures changes in temperature to determine various properties of a substance or system. In the context of the flow-captor system, it means that the device can precisely detect and quantify temperature variations within the liquid media it is tasked with controlling.
What truly sets the calorimetric measuring principle apart is its incredible flexibility in adapting to different measurement ranges. This adaptability allows the flow-captor to cover a vast spectrum of quantities. Whether you're dealing with subtle temperature shifts or more significant fluctuations, the flow-captor can effectively adjust its measurement range to accommodate the specific requirements of your application. This capability ensures that it can handle a diverse range of scenarios within automation processes, industrial settings, and even marine applications where liquid media control is crucial.
Furthermore, the ability to utilize calorimetry means that the flow-captor operates without the need for mechanical moving parts. This is a significant advantage because it reduces wear and tear on the sensor, resulting in increased durability and reliability. In practical terms, this translates to fewer maintenance requirements and a longer operational lifespan for the device, ultimately saving time and resources.
In summary, the calorimetric measuring principle employed by the flow-captor type 4220.1xF/.1xT xx °C is not only ingenious but also highly adaptable. It empowers the system to precisely monitor temperature changes within water or oil-based media, making it an invaluable tool in a wide range of industries and applications where precision and reliability are paramount.
