Abstract: Disclosed is a wireless monitoring system for a coal-gangue mixing ratio based on a non-Hermite technology, including a signal generation monitoring device, an excitation coil, a receiving coil and a parallel plate capacitor. The signal generation monitoring device is connected with the excitation coil; the receiving coil is connected with the parallel plate capacitor to form an LC resonance system; the receiving coil is placed in parallel with the excitation coil, and the axis of the receiving coil and the axis of the excitation coil are on a same horizontal line; the signal generation monitoring device is used to generate a pulse current and collect reflected signals; the excitation coil excites an initial magnetic field based on the generated pulse current, and the LC resonance circuit performs an electromagnetic field induction to generate an induced magnetic field, and feeds back the reflected signals to the signal generation monitoring device.
Type:
Application
Filed:
August 5, 2022
Publication date:
March 2, 2023
Applicant:
Shanxi Datong University
Inventors:
Lijuan DONG, Haoyan XI, Yong SUN, Yong DONG, Yue ZHAO, Yanhong LIU, Fusheng DENG, Xiaoqiang SU, Yunlong SHI
Abstract: Disclosed is a wireless monitoring system for a coal-gangue mixing ratio based on a non-Hermite technology, including a signal generation monitoring device, an excitation coil, a receiving coil and a parallel plate capacitor. The signal generation monitoring device is connected with the excitation coil; the receiving coil is connected with the parallel plate capacitor to form an LC resonance system; the receiving coil is placed in parallel with the excitation coil, and the axis of the receiving coil and the axis of the excitation coil are on a same horizontal line; the signal generation monitoring device is used to generate a pulse current and collect reflected signals; the excitation coil excites an initial magnetic field based on the generated pulse current, and the LC resonance circuit performs an electromagnetic field induction to generate an induced magnetic field, and feeds back the reflected signals to the signal generation monitoring device.
Type:
Grant
Filed:
August 5, 2022
Date of Patent:
February 28, 2023
Assignee:
Shanxi Datong University
Inventors:
Lijuan Dong, Haoyan Xi, Yong Sun, Yong Dong, Yue Zhao, Yanhong Liu, Fusheng Deng, Xiaoqiang Su, Yunlong Shi