Tuning fork switch
The working principle of a tuning fork switch uses a sensing element in the shape of a tuning fork, which has two sharp teeth inserted into the chamber or tank where the target medium will be present. The tuning fork sensing element vibrates at its natural resonance frequency by establishing motion within the sensing element or tuning fork. In the most common implementation of the working principle of a vibrating fork level switch, the harmonic vibration of the tuning fork sensing element is established using piezoelectric technology.
- ZXYC series
- ZHUOXIN
- 24VDC&220VAC
- IP67
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- +86-15163766288
- The working principle of the tuning fork switch is simple and effective. This makes the vibrating fork type liquid level switch (also known as the tuning fork type liquid level sensor) reliable, cost-effective, and very popular in detecting the presence or absence of liquids and large solid materials. The working principle of a vibrating fork type liquid level switch is based on detecting changes in the harmonic vibration frequency of the sensing element caused by the presence of the target medium.
Description
The working principle of the vibrating fork level switch is simple and effective. This makes the vibrating fork level switch (also known as the tuning fork level sensor) reliable and economical
Efficient and highly popular in detecting the presence or absence of liquid and bulk solid materials. The working principle of the vibrating fork level switch is based on
Detect the changes in harmonic vibration frequency of sensing components caused by the presence of the target medium< Br/>
The working principle of the vibrating fork type liquid level switch uses a sensing element in the shape of a tuning fork, which has a
Two sharp teeth. The tuning fork sensing element vibrates at its natural resonance frequency by establishing motion within the sensing element or tuning fork. In the vibration fork type electric
In the most common implementation of the working principle of a flat switch, the harmonic vibration of the tuning fork sensing element is established using piezoelectric technology< Br/>
Power 19… 60VDC 19… 250VAC 50/60Hz
Switching time in the medium is 2 seconds, empty: 3 seconds
Environmental temperature -40&hellip+ 70° C
Shelf temperature -40&hellip+ 85° C
Medium temperature -40&hellip+ 150° C
Working temperature -1&hellip+ 40bar
Media type powder and particles=10mm, density> 0.1g/cm3
Liquid, viscosity=10000mm2/s, density> 0.7g/cm3
Process connector G1-1/2< Br/>
Electrical connection M12× P1.0 connector
Shell material SS304
Fork material SS304/SS316
Output relay, AC250V/4A, DC60V/4A
NPN, 400mA
PNP, 400mA
Power consumption DC < 3W, AC < 15W
Setting guide:
1) Insert the fork into the medium to be tested at a depth of approximately 10mm, and press&quo; SET” Press the button until the red and greedy LEDs flash alternately at least twice, then
Release&quo; SET” Press the key, at which point the red LED flashes, then press&quo; SET” The button, red and greedy LEDS flash alternately, and then both light up< Br/>
2) Remove the fork from the medium, the green LED lights up and the red LED goes out (NC is turned off through COM, NO and COM are turned on), now move the fork again
In the second insertion of the medium, both LEDs light up (NO is turned off through COM, NC and COM are turned on). Now the setup is complete< Br/>
Attention:
The default density of water is set to 1g/cm3, if the target medium density≥ 1g/cm3 does not require self inspection. When the target medium density< At 1g/cm3,
Self inspection is required< Br/>
The default sensitivity is the highest. For materials with irregular surfaces and fluctuations, please set a lower sensitivity< Br/>
Avoid installing in locations with severe vibrations< Br/>
&Nbsp;
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