Conveyor Frames
Established in 1976 in China, JUXIN, are
considered as the first Conveyor and components: roller, frame, pulley
manufacturer in Hengshui, China. The rapid growth of the business in
China soon created the need for a distribution depot, therefore in 2007 a
new branch was put in place in Tianjin City The modern day JUXIN now
manufactures conveyor products to suit all supplies of mining, steel
plant, cement plant, quarry, crushing and screening equipment. Our
expertise and knowledge allows us to deliver fully on our promises of
providing quick answers to your enquiries, rapid service, high quality
products and above all, we are fully committed to be the best at what we
do Service Agents are also located in: UK, South Africa, Kenya,
Indonesia, Thailand, Kazakhstan All products are underpinned by
unmatched customer service and prompt, reliable delivery. Our internal
quality systems are designed to ensure that all orders are handled
quickly and are manufactured to the ultimate quality standards. Several
checking processes are in place prior to orders being released from the
factory. Many tightly controlled inspections occur during the production
processed.
For position/displacement measurement and nanopositioning. According to Faraday's law of induction, eddy currents will be induced in metal conductors if the conductor is located in a time-varying magnetic field. The magnetic field here produces a wire coil that is current flowing in aternating. The magnetic field generated by this eddy current is the opposite and it overlaps with exciting magnetic fields. As a result, the changing impedance of the sensor coil Z.
The impedance change depends on the distance between a measurement target (metal plate) and the sensor, while the target material. The change of impedance of a coil for a defined measurement target is a function of distance. Therefore, the distance can be obtained by measuring the impedance change. Using an impedance transformer (Figure 2), the impedance change can be converted into a voltage change for further signal processing.
Figure 1 Eddy Current Displacement Sensors Figure 2 Impedance Voltage Converters Eddy current sensors work most efficently at high oscillation frequencies near their resonant frequency. The resonant frequency of the eddy current sensor depends on the sensor coil. The serial impedance Zs must be high enough to obtain high sensitivity. The output voltage U of the output voltage after demodulation U disk as a function of the distance. Figure 3 shows the output signals at different frequencies. 
In order to increase the measurement range of the eddy current sensor, the linearity of the output signal must be improved by signal processing. The output signal at a frequency higher than the resonant frequency approximates an exponential function. In this case, one can use analog signal processing to produce a linear output voltage. Figure 4 shows each embodiment where the linearization of the output signal is at a frequency of 810 kHz. The linear range of the processed signal is greater than the amplification of the original signal. A linearity of less than 0.1% is achieved after sensor optimization.
Special sensor electronics, signal processing and self-calibration were developed for the compensation of temperature and material effects. Therefore, a distance eddy current sensor has been developed that is independent of the measurement object, and can accurately measure the position, distance and vibration measurement under normal conditions.
Conveyor Frames,Conveyor Idler Frames,Belt Conveyor Frames,Belt Conveyor Bracket Frames
Hebei Juxin Conveyor Engineering Co., Ltd , https://www.jxconveyor.com