Infrared analysis instrument with offset probe for particulate sample
First Claim
1. An infrared analysis instrument comprising first and second sets of optical fibers, the distal ends of said first and second sets of optical fibers being formed into a probe for inserting into a particulate sample, an infrared light source arranged to introduce a near infrared light into the proximal ends of said first set of optical fibers to introduce said near infrared light into a particulate sample through the distal ends of said first set of optic fibers, the distal ends of said first and second set of optical fibers being offset from one another so that light introduced into said sample through said first set of optical fibers is diffusely transmitted through said sample to be received by the distal ends of said second set of optic fibers, a spectrophotometer positioned to receive the diffusely reflected light transmitted through said second set of optic fibers and detect the intensity of narrow band components of the spectrum of the near infrared light transmitted from the distal ends of said second set of optic fibers through said second set of optic fibers to said spectrophotometer.
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Accused Products
Abstract
In an infrared analysis instrument, a fiber optic probe, designed to be inserted into a particulate sample, is formed from distal ends of transmitting and receiving optic fibers. The distal ends of the transmitting fibers are located centrally in the probe and the distal ends of the receiving fibers are formed in a ring around the distal ends of the transmitting fibers. The distal ends of the receiving fibers are set back from the distal ends of the transmitting fibers. The receiving fibers carrying diffusely scattered light reflected from and transmitted through the particulate sample to a spectrophotometer housing containing fixed grating and an array of silicon photodetectors arranged to detect the spectrum dispersed by the grating in the range of 500 to 1100 nm.
29 Citations
13 Claims
- 1. An infrared analysis instrument comprising first and second sets of optical fibers, the distal ends of said first and second sets of optical fibers being formed into a probe for inserting into a particulate sample, an infrared light source arranged to introduce a near infrared light into the proximal ends of said first set of optical fibers to introduce said near infrared light into a particulate sample through the distal ends of said first set of optic fibers, the distal ends of said first and second set of optical fibers being offset from one another so that light introduced into said sample through said first set of optical fibers is diffusely transmitted through said sample to be received by the distal ends of said second set of optic fibers, a spectrophotometer positioned to receive the diffusely reflected light transmitted through said second set of optic fibers and detect the intensity of narrow band components of the spectrum of the near infrared light transmitted from the distal ends of said second set of optic fibers through said second set of optic fibers to said spectrophotometer.
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9. A probe for an instrument measuring infrared absorbance of a particulate sample comprising a first set of optic fibers designed to transmit near infrared in the range of 500 to 1100 nm, a second set of optic fibers designed to transmit infrared light in the range of 500 to 1100 nm, the distal ends of said second set of optic fibers forming a ring around the distal ends of said first set of optic fibers to form said probe, the distal ends of said second set of optic fibers being set back from the distal ends of said first set of optic fibers, a sheath enclosing said second set of optic fibers said sheath having a distal end terminating at the distal ends of said second set of optic fibers.
- 10. A method of measuring the absorbance of a particulate material comprising inserting a fiber optic probe into said particulate material, said probe comprising a first set of optic fibers and a second set of optic fibers, the distal ends of said second set of optic fibers being offset from the distal ends of said first set of optic fibers, introducing near infrared light into said sample through said first set of optic fibers, receiving infrared light diffusely reflected by said sample into the distal ends of said second set of optic fibers, and measuring the intensity of the light transmitted through said second set of optic fibers.
Specification