Patents by Inventor John F. Forkner
John F. Forkner has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 6454937Abstract: A water disinfection system includes a housing having a plurality of risers 207 therein for directing independent columns of water from a manifold at the bottom of the housing. An ultraviolet light source 214 is disposed above the risers to treat the water flowing therein. The UV light source may also be in the form of a fiber optic system (FIG. 4) or a mercury arc lamp including a parabolic reflector 64. Each of the risers can also include notches 304 (FIG. 9) for inducing turbulence to the water flowing thereover in order to ensure that all of the microorganisms receive ultraviolet light. The water flow rate and the light intensity may be adjusted to accommodate different levels of water contamination.Type: GrantFiled: October 20, 2000Date of Patent: September 24, 2002Assignee: Remote Source Lighting International, Inc.Inventors: Isaac Horton, Andrew P. Riser, Kurt Garrett, John F. Forkner
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Patent number: 6086234Abstract: A light guide illumination system, which is used in transmitting illumination from a central source to a variety of remote locations, comprises an illumination source, a configuration of transfer lenses disposed around the illumination source, which are each adapted to focus emitted light from the illumination source in a generally outward direction from the illumination source, a plurality of condenser lenses, and at least one light guide. Each of the plurality of transfer lenses are adapted to focus light into a corresponding condenser lens, and the at least one light guide is adapted to receive light from the condenser lenses. The combination of the several elements of the inventive system results in a very efficient transfer of the energy of the light source to the fibers.Type: GrantFiled: April 28, 1997Date of Patent: July 11, 2000Assignee: Remote Source Lighting International, Inc.Inventors: Andrew P. Riser, Ronald F. Mathis, John F. Forkner
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Patent number: 5892867Abstract: The inventive system, which is used in transmitting illumination from a central source to a variety of remote locations, efficiently couples the light originating from a lamp, or similar source, into a multiplicity of flexible macroscopic fibers. The combination of the several elements of the inventive system results in a very efficient transfer of the energy of the light source to the fibers. Light from the lamp is fed to a spherical configuration of ports, with each port having one or more flexible macroscopic fibers connected thereto.Type: GrantFiled: January 31, 1997Date of Patent: April 6, 1999Assignee: Remote Source Lighting International, Inc.Inventors: Andrew P. Riser, Ronald F. Mathis, John F. Forkner
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Patent number: 5790725Abstract: The inventive system, which is used in transmitting illumination from a central source to a variety of remote locations, efficiently couples the light originating from an arc lamp, or similar source, into a multiplicity of flexible macroscopic fibers. The combination of the several elements of the inventive system results in a very efficient transfer of the energy from the light source to the fibers. The system also provides a very flexible mechanical means for distributing the energy to the fibers and to the remote locations at which the light is used.Type: GrantFiled: November 1, 1996Date of Patent: August 4, 1998Assignee: Remote Source Lighting Int'l, Inc.Inventors: Ronald F. Rykowski, Andrew P. Riser, Stephen S. Wilson, John F. Forkner
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Patent number: 5790723Abstract: The inventive system, which is used in transmitting illumination from a central source to a variety of remote locations, efficiently couples the light originating from an arc lamp, or similar source, into a multiplicity of flexible macroscopic fibers. The combination of the several elements of the inventive system results in a very efficient transfer of the energy of the light source to the fibers. Light from the arc lamp is fed into a circular light pipe, and then directly into a multi-sectored lens, without any requirement of a collimated lens. The multi-sectored lens then focusses the light into the multiplicity of flexible macroscopic fibers.Type: GrantFiled: May 13, 1996Date of Patent: August 4, 1998Assignee: Remote Source Lighting InternationalInventors: Andrew P. Riser, John F. Forkner
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Patent number: 5775799Abstract: A zoomable beamspreader is disclosed having two lenses arranged in closely spaced, confronting relationship, with each lens incorporating an array of alternating positive and negative lens segments. One of the two lenses is controllably movable relative to the other, in a direction substantially perpendicular to an optical axis, between a non-spread position, in which the positive and negative lens segments of one lens are aligned with the respective negative and positive lens segments of the other lens, and a spread position, in which the positive and negative lens segments of one lens are aligned with the respective positive and negative lens segments of the other lens. The two lenses can take any of several alternative forms, including a one-dimensional array of cylindrical lens segments, for providing a zoomable beamspread along just one dimension, and a two-dimensional array of spheric or aspheric lens segments, for providing a zoomable beamspread along both dimensions.Type: GrantFiled: March 26, 1997Date of Patent: July 7, 1998Assignee: David W. CunninghamInventor: John F. Forkner
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Patent number: 5751870Abstract: An optical fiber manifold is provided for coupling light from an illumination source to a plurality of spaced, large diameter output fibers, or "light pipes", which are used for a variety of purposes, such as illuminating pools, spas, hazardous material zones, jail cells, and other applications where direct lighting is dangerous, difficult to maintain, or subject to vandalism. The manifold comprises a light converging element, which may be either a lens or a reflector, for converging light separately on each of the spaced optical fibers. The light converging element is segmented, with each segment corresponding to one of the optical fibers, and is precise enough that substantially all of the convergent light is received by the respective cores of each of the spaced output fibers, thereby minimizing light loss.Type: GrantFiled: September 23, 1996Date of Patent: May 12, 1998Assignee: Remote Source Lighting International, Inc.Inventors: John F. Forkner, Andrew P. Riser, Ronald F. Rykowski, Stephen S. Wilson
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Patent number: 5706376Abstract: The inventive system, which is used in transmitting illumination from a central source to a variety of remote locations, efficiently couples the light originating from an arc lamp, or similar source, into a multiplicity of flexible macroscopic fibers. The combination of the several elements of the inventive system results in a very efficient transfer of the energy of the light source to the fibers. The system also provides a very flexible mechanical means for distributing the energy to the fibers and to the remote locations at which the light is used.Type: GrantFiled: June 2, 1995Date of Patent: January 6, 1998Assignee: Remote Source Lighting InternationalInventors: Ronald F. Rykowski, Andrew P. Riser, John F. Forkner, Stephen S. Wilson
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Patent number: 5665051Abstract: A fiberoptic endoscope includes an axially movable optical fiber guide to compensate for focusing effects, such as thermal expansion or mechanical tolerances. The distal end portion of the optical fiber guide is secured to the distal end of the endoscope while the proximal end portion is permitted to move axially relative to a proximal housing portion of the endoscope. The proximal housing portion includes an eye lens unit secured thereto. A decoupling lens unit is fixed to the proximal end portion of the optical fiber guide so as to move therewith with respect to the eye lens unit.Type: GrantFiled: August 12, 1994Date of Patent: September 9, 1997Assignee: Imagyn MedicalInventors: Richard L. Quick, John F. Forkner, Gary M. Woker
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Patent number: 5630788Abstract: An endoscope comprising an elongated endoscope body having a distal end, an objective carried by the endoscope body adjacent the distal end and an elongated fiberoptic image guide in the endoscope body for transmitting an image proximally. The objective has a curved proximal surface and the image guide has a curved distal end surface which has a shape which generally conforms to the shape of the curved proximal surface of the objective. These surfaces are in close proximity to provide an interface and an index matching medium is in the interface. The objective provides a curved image plane substantially at the interface and the image plane has a shape which generally conforms to the shape of the curved proximal surface of the objective.Type: GrantFiled: August 12, 1994Date of Patent: May 20, 1997Assignee: Imagyn Medical, Inc.Inventors: John F. Forkner, Gary M. Woker
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Patent number: 5622419Abstract: A portable collapsible liquid crystal display apparatus which includes a base, and a relatively large viewing screen having a width corresponding substantially to the overall width of said base and which, together with a first planar member of the same size, are pivotally mounted on the base. When the apparatus is in its viewing mode, the screen is turned to an upright position on the base with the mirror in an inclined position extending downwardly behind the screen to reflect images over the entire rear surface of the screen. When the unit is in a collapsed mode, the screen is folded down over the base and the mirror is folded down on top of the screen with its reflective surface facing the screen and with its rear surface forming a protective cover for the screen. The linkage mechanism which couples the screen and mirror to the base includes relatively wide links which also serve to shield the rear surface of the screen from ambient light when the screen is in its upright viewing position.Type: GrantFiled: January 3, 1995Date of Patent: April 22, 1997Assignee: Prolux CorporationInventors: Ron G. Holder, John F. Forkner, Dick F. McClure, Jr., Greg M. Rhoads
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Patent number: 5559911Abstract: An optical fiber manifold is provided for coupling light from an illumination source to a plurality of spaced, large diameter output fibers, or "light pipes", which are used for a variety of purposes, such as illuminating pools, spas, hazardous material zones, jail cells, and other applications where direct lighting is dangerous, difficult to maintain, or subject to vandalism. The manifold comprises a light converging element, which may be either a lens or a reflector, for converging light separately on each of the spaced optical fibers. The light converging element is segmented, with each segment corresponding to one of the optical fibers, and is precise enough that substantially all of the convergent light is received by the respective cores of each of the spaced output fibers, thereby minimizing light loss.Type: GrantFiled: January 17, 1995Date of Patent: September 24, 1996Assignee: Radiant Imaging, Inc.Inventors: John F. Forkner, Andrew P. Riser, Ronald F. Rykowski, Stephen S. Wilson
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Patent number: 5467207Abstract: A projection system comprising a liquid crystal light valve having a wider acceptance angle for incident light in a first direction than in a second direction transverse to the first direction and an illumination system. The illumination system provides light to the liquid crystal light valve at a greater beam spread angle in the first direction than in the second direction. The system also includes projection optics for receiving light from the liquid crystal light valve and projecting such light toward a projection surface.Type: GrantFiled: July 6, 1994Date of Patent: November 14, 1995Assignee: Prolux CorporationInventors: John F. Forkner, Ronald F. Rykowski, Stephen S. Wilson
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Patent number: 5289557Abstract: A visible helium neon beam is used as an aiming beam to establish a spot at which a carbon dioxide beam also focuses. The carbon dioxide beam is then employed to vaporize biotic material. A distal end of an articulated arm may couple with the micromanipulator to direct the carbon dioxide beam from the laser through a waveguide and into the micromanipulator. Another aspect of the invention includes introducing the aiming beam into the waveguide through a dichroic mirror positioned in a knuckle joint of the articulated arm. In one embodiment, a laser diode generates the visible light of the aiming beam, and is disposed proximate to the distal end of the articulated arm.Type: GrantFiled: February 23, 1993Date of Patent: February 22, 1994Assignee: Premier Laser Systems, Inc.Inventors: Andrew I. Sheinis, Colette Cozean, John F. Forkner, M. John Colles
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Patent number: 5207673Abstract: An optical apparatus functions as a laser catheter for removal, penetration or treatment of human tissue or other biotic material. The arrangement of the optical components, including the focal length of the lens and the spacing between the lens and the source of light is selected to yield an output beam having advantageous characteristics which are particularly suitable for medical laser treatment. Such characteristics include a relatively long beam throw, a long focal range, and a small output beam waist. A hollow tip, preferably conical in shape, is utilized to provide a tactile indicator as to the cutting action of the output beam.Type: GrantFiled: December 6, 1991Date of Patent: May 4, 1993Assignee: Premier Laser Systems, Inc.Inventors: Wendell V. Ebling, John F. Forkner, Robert J. Freiberg, Robert E. Woodard
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Patent number: 5198926Abstract: An optical system for use in a medical laser apparatus comprising an achromat having optical elements selected to cause two substantially different wavelengths, one visible and one infrared, to focus at a common focal point. The achromat comprises a negative lens and a doublet lens formed of a positive bi-convex lens and a negative meniscus lens. The materials of the two lenses which form the doublet have substantially different dispersions and indices of refraction and are chosen to cause a visible helium neon beam and an infrared carbon dioxide beam to focus at the same point. In the preferred embodiment of the present invention, the negative lens is made of zinc selenide, the bi-convex lens of the doublet is made of potassium chloride, and the negative meniscus is made of zinc selenide. The optical system of the present invention can be mounted in a micromanipulator for use in laser surgery.Type: GrantFiled: January 18, 1991Date of Patent: March 30, 1993Assignee: Premier Laser Systems, Inc.Inventors: Andrew I. Sheinis, Colette Cozean, John F. Forkner, M. John Colles
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Patent number: 4838247Abstract: A rugged dual-view arthroscope construction is provided by encasing the optical train in an elongated channel or shoe which is pivotable within the barrel about the barrel axis. The axis of the optical train is offset from the barrel axis. A lens-and-prism assembly projects the image of a first field of view along the optical train axis in one pivotal position of the shoe, and the image of a second field of view along the optical train axis in another pivotal position of the shoe.Type: GrantFiled: October 6, 1988Date of Patent: June 13, 1989Assignee: Baxter International, Inc.Inventor: John F. Forkner
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Patent number: 4750476Abstract: An endoscope comprising a body, including an elongated tubular distal section adapted for insertion into a patient and optics for transmitting an image through the distal section so that the image can be viewed at a viewing location. The image-transmitting optics include an elongated image-transmitting rod for transmitting the image to at least a region of the distal section. The image-transmitting rod is subject to breakage by bending forces and is divided longitudinally into discrete elongated rod sections to thereby reduce the likelihood of breakage by bending forces.Type: GrantFiled: September 19, 1986Date of Patent: June 14, 1988Assignee: Baxter Travenol Laboratories, Inc.Inventors: John F. Forkner, Robert J. Freiberg
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Patent number: 4697577Abstract: Adjustment of the field-of-view angle in a surgical microtelescope from the outside of the patient's body is made possible by including in the objective optical system an assembly of mutually movable prisms. The prisms can be moved by a wire running alongside the optical fibers which convey illumination through the tube. In one embodiment, a movable prism pivots with respect to a fixed prism about an axis coincident with the axis of the image as it is transmitted between the prisms; in another embodiment, a partially silvered prism is slidable between two fixed prisms so as to pick up the image from one of them in one position, and the image from the other in the other position. Apparatus in the eyepiece is also disclosed to compensate for the rotation of the image when the pivoting embodiment is used.Type: GrantFiled: May 22, 1986Date of Patent: October 6, 1987Assignee: Baxter Travenol Laboratories, Inc.Inventor: John F. Forkner
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Patent number: 4623225Abstract: A device for shaping a beam of light comprising a single anamorphic prism having an input face for receiving a beam of light, and an output face for outputting the beam of light. A reflecting face reflects light from the input face to the output face. The faces are oriented to cause the beam exiting the output face to be substantially parallel to the beam entering the input face. The prism is sized to provide colinearity of the input and output light.Type: GrantFiled: June 29, 1984Date of Patent: November 18, 1986Assignee: Melles Griot, Irvine CompanyInventor: John F. Forkner