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Damage detection apparatus and method for a conveyor belt having magnetically permeable members

  • US 5,426,362 A
  • Filed: 09/30/1992
  • Issued: 06/20/1995
  • Est. Priority Date: 09/30/1992
  • Status: Expired due to Fees
First Claim
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1. An apparatus to detect faults in a plurality of magnetically permeable reinforcing cable members of a conveyor belt, where said belt comprises a main body portion having upper and lower surfaces, a longitudinal axis, a transverse axis, and a vertical axis, and said reinforcing members are longitudinally aligned and positioned within the main body portion at spaced intervals along the transverse axis of the belt, said apparatus comprising:

  • a. a magnetic field coil means having an upper coil portion and a lower coil portion;

    b. a mounting means to mount and position said field coil means in an operating position so that the upper coil portion extends adjacent to, and transversely across, the upper surface of the belt, and the lower coil portion extends adjacent to, and transversely across, the lower surface of the belt,c. said coil means being arranged so that when the coil means is in the operating position, the upper coil portion produces an upper flux field extending at least partially through the cable members in the belt, and the lower coil portion produces a lower flux field extending at least partially through the cable members in the belt;

    d. a sensing means comprising a plurality of upper sensors, which are positioned at spaced intervals to extend transversely across, and adjacent to, the upper surface of the belt, and a plurality of lower sensors which are positioned at spaced intervals to extend transversely across, and adjacent to, the lower surface of the belt, each of said upper sensors being positioned and arranged to be located in the upper flux field to be responsive to absolute strength of the upper flux field at the location of that sensor, and each of said lower sensors being positioned and arranged to be located in the lower flux field to be responsive to the absolute field strength of the lower flux field at the location of that sensors,whereby, variations in the permeability of the magnetically permeable member are sensed by the sensors responding to variations in the absolute strength of the magnetic fields at the upper and lower sensors, with said variations indicating an anomaly in a portion of the magnetically permeable member positioned at the operating area, and flutter or oscillations of the belt in the operating area create contrasting differences in the magnetic field which are related to belt position and can be differentiated from magnetic field changes related to a belt condition that changes magnetic permeability.

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