Measuring and testing – With fluid pressure – Porosity or permeability
Patent
1998-02-06
1999-04-06
Raevis, Robert
Measuring and testing
With fluid pressure
Porosity or permeability
G01N 1508
Patent
active
058921427
ABSTRACT:
A gin process control system including sensing stations for sensing the physical properties of cotton as it progresses through a gin. A moisture sensor determines, over a wide range of values, the amount of moisture in the cotton. A quality monitor determines the color of the cotton, color distribution, and the amount and type of trash or other impurities which may be entrained in the cotton. A micronaire unit determines both micronaire and cotton maturity. A fiber length tester provides information on the length distribution, breaking strength, and elongation of the cotton fibers. Cotton samples are gathered from the gin flow stream and presented to the sensing stations in a variety of manual, semi-automated, and automated fashions. In a fully automated unit, the sensing stations are connected directly to the gin. The sensing stations are also in communication with the gin process control system, which uses the data from the sensing stations to automatically control the operation of the gin. Alternately, the sensing stations are assembled into a stand-alone unit. In a semi-automatic version of the stand-alone unit, samples are manually gathered and presented to the unit in cassettes for automated subsampling and testing by the sensing stations. In this semi-automatic version, the sensing stations may be in a configuration identical to that of the fully automatic, on-line unit. In a manual version of the stand-alone unit, the samples are manually gathered and manually placed into contact with the various sensing stations. The information reported by the stand-alone units can be used to manually control the operation of the gin.
REFERENCES:
patent: 2880609 (1959-04-01), Byrkett et al.
patent: 2888823 (1959-06-01), Hertel
patent: 2919573 (1960-01-01), Berkley et al.
patent: 3039293 (1962-06-01), Reddick et al.
patent: 3065629 (1962-11-01), Neil
patent: 4630492 (1986-12-01), Goode
patent: 4884436 (1989-12-01), Ankeny et al.
patent: 4891967 (1990-01-01), Vogt
patent: 5359880 (1994-11-01), Elam et al.
Loptex, Optalyser OP 300 brochure, date unknown.
Schlichter, Trutzschler nep tester NT: a new visual method to analyze neps and interfering particles, Textile Praxis International, pp. 28-29, Sep., 1991.
Trutzschler, Nep Tester NT brochure, date unknown.
Lintronics, Fiber Contamination Tester brochure, date unknown.
Lieberman and Zhao, Categorizing Cotton Trash Shapes Using Video Imagery, Beltwide Cotton Conference, pp. 854-858, 1991.
Lieberman, Bragg, and Brennan, Determining Gravimetric Bark Content in Cotton with Machine Vision, Textile Res. J., pp. 94-104, Feb. 1998.
Zellweger Uster, Uster LVI brochure, date unknown.
Zellweger Uster, Uster Micronaire 775 brochure,date unknown.
Zellweger Uster, Uster HVI 900 brochure, date unknown.
Peyer, texLAB brochure, date unknown.
Peyer, FL-100 manual (2 pages only), date unknown.
Benardin, Delfosse, Measurement of fiber lengths distribution on raw wool, Melliand International, pp. 70-74, Feb., 1996.
Galyon Michael E.
Ghorashi Hossein M.
Irick, Sr. Glen E.
Mansfield Joseph H.
Overbay Mark A.
Raevis Robert
Zellweger Uster Inc.
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