![]() ![]() The optical level switch is also suited for detecting high foam levels, if it is spray washed after each event. Typically, they are used in applications that either cannot be handled by the more common float and probe-type devices, or when ultrasonic, nuclear, radar or microwave designs would be too sophisticated, expensive, or otherwise unsuited for the task.Īll three types can be used to detect liquid levels or interfaces between liquids. Overall, vibrating fork level switches offer a reliable, accurate, and cost-effective solution for solids level measurement in a wide range of industries, including food and beverage, pharmaceuticals, plastics, and mining.Thermal, vibrating, and optical level switches are specialty devices developed to solve specific level detection problems. Reliability: Vibrating fork level switches are highly reliable and require minimal maintenance due to their robust design.Ĭompatibility: They can be used with a wide range of solid materials, including powders, granular materials, and fine particles.Ĭontinuous measurement: Vibrating fork level switches can provide continuous measurement, allowing for real-time monitoring of material levels.Įasy installation: The installation process is quick and straightforward, as they can be fitted directly into the vessel or silo without the need for any additional equipment.Ĭost-effective: Vibrating fork level switches are cost-effective and offer an affordable option for solid level measurement compared to other technologies. High accuracy: Vibrating fork level switch provide precise measurements, ensuring that the material levels are accurate. Vibrating fork level switches offer several advantages for solids level measurement: They are also suitable for mining, chemical processing, and food and beverage applications. The models are easy to use and are ideal for controlling powders and fine-grained vibrating fork for solids. What is the use of tuning fork level switch?Ī tuning vibrating fork level switch for solids is a sensor that generates an electrical contact at a certain level. The threshold frequency is set to match the natural frequency of tuning fork type level switches under water. When the amplitude drops below a set threshold, the onboard electronics changes the outputs (relays).Īs the tuning fork type level switch is covered with liquid application media, its natural frequency decreases. It is important to consider the type of application media when monitoring given parameters.ġ.Amplitude of vibration: Vibrating Level Switch for SolidsĪs the material level increases and comes into contact with the Vibrating Fork tines, the amplitude of oscillation of tuning fork level switches dampens. Vibrating fork level sensors operate by vibrating tuning fork level sensor continuously at their natural frequency and detecting the change in frequency and amplitude when application media is present. It may sometimes have a voltage-free contact, or sometimes it may have a fixed voltage of 0-12. A level switch's output can be voltage dependent or not, depending on the device. In the event of a variation in the level, the device raises an alarm or produces a sound. It works like any alarm switch that turns on/off when the level of fluid goes above or below a predetermined level. Vibrating fork level switch working principle: This prompts it to actuate an alarm, pump or valve. ![]() When the forks are exposed to liquid, the frequency drops and this is detected by the switch electronics. These models also feature two forks that vibrate at their mechanical resonance frequency, allowing them to self-clean when they come into contact with air. ![]() As it contacts the material in a tank, its oscillation stops, prompting the switch to output a detection signal. ![]() Vibration type level switches are composed of a vibrating rod made from stainless steel. It is the most widely used product in the material (liquid) level switch instrument. The product can adapt to the harsh working conditions and work reliably. When the vibrating fork for pharmaceuticals is subjected to medium damping, the vibrating fork for solids stops vibrating, and the control circuit drives the relay to send out a switch signal. The sensing part for detecting the material (liquid) level is composed of the vibrating fork for liquids, which has a fixed vibration frequency and amplitude vibration. The vibrating fork level switch for solids is designed using the principle of the damping effect of the medium on the v ibrating fork vibration and the piezoelectric effect. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |