reed sensors and float switches in agricultural machinery

Use and benefits of reed sensors and float switches in agricultural machinery

Agricultural machinery plays a crucial role in modern farming, and the integration of advanced sensor technologies such as reed sensors and float switches has significantly improved the efficiency and reliability of these machines. In this blog article, we will look at the use of these sensors in agricultural machinery and take a closer look at their benefits.

 

Reed sensors

How they work and how they are used
Reed sensors are magnetic sensors based on the Hall effect. They consist of a narrow metal strip surrounded by a glass tube. When a magnetic field is brought close to the sensor, the metal strip reacts and closes or opens the circuit. These sensors are used in agricultural machinery for various applications, such as detecting positions, speeds or monitoring fluid levels.

 

Float switches

function and use
Float switches are mechanical sensors based on the principle of a float floating up and down in a liquid. When the liquid level reaches a certain point, the float moves and closes or opens the electrical contact. These switches are often used in agricultural machinery to monitor the fill level of tanks or to trigger alarms in the event of overfilling or underfilling.

 

Advantages of using reed sensors and float switches

Reliability: Both sensors are known for their high reliability and accuracy in recording data, which leads to improved performance of agricultural machinery.
Increased efficiency: By using these sensors, processes can be automated, leading to more efficient use of machinery and optimised workflows.
Cost efficiency: The use of reed sensors and float switches can lead to cost savings through precise monitoring of fluid levels, positions or speeds.
Low maintenance: These sensors generally require little maintenance and are durable, which reduces operating costs and minimises downtime.
Overall, the use of reed sensors and float switches contributes significantly to modernising and improving the performance of agricultural machinery. Their precise detection capability, reliability and efficiency make them indispensable components in today’s agricultural technology.