Patent ID: 6843075
Filing Date: 2005-01-18
Classification: C03B

Abstract:
1. A fiberizing assembly for forming fibers, comprising: a fiberizing disk, the fiberizing disk having a disk shaped base and an annular peripheral sidewall extending vertically upward from an outer peripheral edge of the base; the annular peripheral sidewall having an exterior surface with an upper annular edge and a lower annular edge; a portion of the annular peripheral sidewall having thousands of fiberizing orifices therein, in a band intermediate the upper and lower annular edges of the annular peripheral sidewall, through which high temperature, molten, thermoplastic, clear or translucent fiberizable material is extruded by centrifugal force to form fibers by rotating the fiberizing disk; means for rotating the fiberizing disk at speeds of thousands of revolutions per minute; means for introducing molten fiberizable material into the fiberizing disk to be extruded through the fiberizing orifices in the annular peripheral sidewall of the fiberizing disk to form fibers; an annular air ring assembly concentrically located with respect to the fiberizing disk; the annular air ring assembly having annular outlet means for discharging an annular curtain of high velocity air downward externally of and adjacent to the exterior surface of the annular peripheral sidewall of the fiberizing disk to direct glass fibers issuing from the fiberizing orifices in the annular peripheral sidewall of the fiberizing disk downward for collection; an optical sensor assembly for monitoring fiberizing disk temperature; the optical sensor assembly including an optical sensor and a water cooled tubular jacket housing the optical sensor to maintain the optical sensor below a temperature at which the optical sensor may become damaged due to high temperature ambient conditions; the water cooled tubular jacket being located at the underside of the annular air ring assembly; the water cooled tubular jacket having a first open end directed toward the exterior surface of the annular peripheral sidewall of the fiberizing disk that is adjacent the annular curtain of high velocity air discharged from the air ring assembly and a second open end directed away from the exterior surface of the annular peripheral sidewall of the fiberizing disk; the optical sensor having an optical fiber sensor probe at a first end of the optical sensor with a tip of the optical fiber sensor probe directed toward the exterior surface of the annular peripheral sidewall of the fiberizing disk to in effect only gather light emitted from the exterior surface of the annular peripheral sidewall of the rotary fiberizing disk; the tip of the optical fiber sensor probe being recessed within the first end of the water cooled tubular jacket to shield the tip of the optical fiber sensor probe from clear or translucent fibers issuing from the fiberizing orifices while permitting the optical sensor probe to gather light from the exterior surface of annular peripheral sidewall of the fiberizing disk; the optical fiber sensor probe having a coupling at a second end of the optical fiber sensor probe for coupling the optical fiber sensor probe to an optical fiber transmission cable which conducts light emitted from the exterior surface of the sidewall of the fiberizing disk and collected by the optical fiber sensor probe to an electronics unit that converts light energy into a digitized electrical signal that is converted into a temperature value.