The Experts below are selected from a list of 6 Experts worldwide ranked by ideXlab platform
Kang Zhong - One of the best experts on this subject based on the ideXlab platform.
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intelligent monitoring system for material distribution and delivery
2010Co-Authors: Hongan Wang, Ming Yu, Kang ZhongAbstract:The utility model provides an intelligent monitoring system for material distribution and delivery, and belongs to the technical field of clothes manufacturing. The monitoring system comprises terminal equipment, two RFID card readers and three metal proximity sensors, wherein the terminal equipment performs communication with an upper computer; the card readers are respectively placed at an inlet and an out-station buffer zone of a workstation and are respectively connected with the terminal equipment; two of the three metal proximity sensors are respectively placed at an outlet of the workstation, the third metal proximity sensor is placed at the outlet of the out-station buffer zone of the workstation, and the metal proximity sensors are used for detecting a suspension bracket and a notch and Sending Pulse signals to a programmable logic controller (PLC); and the PLC receives control signals of the upper computer and the Pulse signals of the metal proximity sensors so as to control the action of the equipment. The intelligent monitoring system reduces the difficulty for realization and adaptability, and better solves the track combination of the suspension bracket.
Hongan Wang - One of the best experts on this subject based on the ideXlab platform.
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intelligent monitoring system for material distribution and delivery
2010Co-Authors: Hongan Wang, Ming Yu, Kang ZhongAbstract:The utility model provides an intelligent monitoring system for material distribution and delivery, and belongs to the technical field of clothes manufacturing. The monitoring system comprises terminal equipment, two RFID card readers and three metal proximity sensors, wherein the terminal equipment performs communication with an upper computer; the card readers are respectively placed at an inlet and an out-station buffer zone of a workstation and are respectively connected with the terminal equipment; two of the three metal proximity sensors are respectively placed at an outlet of the workstation, the third metal proximity sensor is placed at the outlet of the out-station buffer zone of the workstation, and the metal proximity sensors are used for detecting a suspension bracket and a notch and Sending Pulse signals to a programmable logic controller (PLC); and the PLC receives control signals of the upper computer and the Pulse signals of the metal proximity sensors so as to control the action of the equipment. The intelligent monitoring system reduces the difficulty for realization and adaptability, and better solves the track combination of the suspension bracket.
Ming Yu - One of the best experts on this subject based on the ideXlab platform.
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intelligent monitoring system for material distribution and delivery
2010Co-Authors: Hongan Wang, Ming Yu, Kang ZhongAbstract:The utility model provides an intelligent monitoring system for material distribution and delivery, and belongs to the technical field of clothes manufacturing. The monitoring system comprises terminal equipment, two RFID card readers and three metal proximity sensors, wherein the terminal equipment performs communication with an upper computer; the card readers are respectively placed at an inlet and an out-station buffer zone of a workstation and are respectively connected with the terminal equipment; two of the three metal proximity sensors are respectively placed at an outlet of the workstation, the third metal proximity sensor is placed at the outlet of the out-station buffer zone of the workstation, and the metal proximity sensors are used for detecting a suspension bracket and a notch and Sending Pulse signals to a programmable logic controller (PLC); and the PLC receives control signals of the upper computer and the Pulse signals of the metal proximity sensors so as to control the action of the equipment. The intelligent monitoring system reduces the difficulty for realization and adaptability, and better solves the track combination of the suspension bracket.
J W Larsen - One of the best experts on this subject based on the ideXlab platform.
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fault distance locator for underground cable circuits
1995Co-Authors: Arthur C Westrom, J W LarsenAbstract:A fault distance locator for underground cable circuits for calculating more accurately the location of a cable fault includes a Pulse generator unit for injecting a series of chirped Pulse streams into the faulted cable shortly after the cable fault has been established. The delay times between the reflected Pulse signals and the Sending Pulse signals are obtained by a correlation process which is specially designed to eliminate the effect of noise caused by arcing voltage and thus provide an accurate calculation of the distance to the cable fault. The accuracy is further enhanced by injecting pre-fault Pulse signals periodically into the cable prior to the occurrence of the cable fault in order to obtain a reference Pulse signal. This Pulse signal provides information concerning the speed of propagation of the cable and thus affects the distance calculation to the fault.
Arthur C Westrom - One of the best experts on this subject based on the ideXlab platform.
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fault distance locator for underground cable circuits
1995Co-Authors: Arthur C Westrom, J W LarsenAbstract:A fault distance locator for underground cable circuits for calculating more accurately the location of a cable fault includes a Pulse generator unit for injecting a series of chirped Pulse streams into the faulted cable shortly after the cable fault has been established. The delay times between the reflected Pulse signals and the Sending Pulse signals are obtained by a correlation process which is specially designed to eliminate the effect of noise caused by arcing voltage and thus provide an accurate calculation of the distance to the cable fault. The accuracy is further enhanced by injecting pre-fault Pulse signals periodically into the cable prior to the occurrence of the cable fault in order to obtain a reference Pulse signal. This Pulse signal provides information concerning the speed of propagation of the cable and thus affects the distance calculation to the fault.
