Patents by Inventor Tory Klavuhn
Tory Klavuhn 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: 8286325Abstract: Embodiments disclosed include fiber optic module housings used for fiber optic modules and methods for manufacture and assembly of same. The fiber optic module housing comprise at least one hinge to allow a component of the housing to be opened and closed to allow easy access to the fiber optic module housing and/or its internal chamber. The hinge may be a living hinge disposed within a single part to allow each side of the living hinge to be bent or folded. The hinge may be disposed on a panel configured to support one or more fiber optic components to allow the panel to be opened and closed about the module housing for access. The fiber optic module housing may also be entirely comprised of a single part employing the use of living hinges between foldable parts. In this manner, no sides or parts of the fiber optic module housing need be provided as separate parts.Type: GrantFiled: March 31, 2009Date of Patent: October 16, 2012Assignee: Corning Cable Systems LLCInventors: Terry L. Cooke, David L. Dean, Jr., Tory A. Klavuhn
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Patent number: 8280216Abstract: Fiber optic drawers supporting fiber optic modules are disclosed. The drawer is movable about a chassis. At least one fiber optic equipment tray is received in the drawer. The fiber optic equipment tray(s) is movable about the drawer and configured to receive at least one fiber optic module. The fiber optic module(s) is movable about a fiber optic equipment tray. In this manner, enhanced access can be provided to the fiber optic module(s) and their fiber optic connections. The drawer can moved out from the chassis to provide access to fiber optic equipment tray(s) and fiber optic module(s). The fiber optic equipment tray(s) can be moved out from the drawer to provide enhanced access to fiber optic module(s). The fiber optic module(s) can be moved from fiber optic equipment tray(s) to provide further enhanced access to fiber optic module(s). The drawer may also be tiltable about the chassis.Type: GrantFiled: October 9, 2009Date of Patent: October 2, 2012Assignee: Corning Cable Systems LLCInventors: Terry L. Cooke, Mark R. Dagley, David L. Dean, Jr., Tory A. Klavuhn, Juan Garcia Martinez, Diana Rodriguez, Octavio Beltran Salinas, Manuel Alejandro Lopez Sanchez, Kevin L. Strause
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Patent number: 8184938Abstract: Fiber optic equipment that supports one or more rear-installable fiber optic modules is disclosed. The fiber optic equipment is comprised of a chassis defining a front end and a rear section. At least one guide system is disposed in the chassis and configured to receive at least one fiber optic module. The guide system may be provided in the form of a rail guide system. The at least one guide system receives the at least one fiber optic module from the rear section on the chassis and is configured to guide the fiber optic module toward the front end of the chassis. In this manner, a technician can make fiber optic connections to fiber optic modules and also install the fiber optic modules into the fiber optic equipment from the rear section of the chassis to reduce time and/or labor in making fiber optic connections.Type: GrantFiled: November 25, 2008Date of Patent: May 22, 2012Assignee: Corning Cable Systems LLCInventors: Terry L. Cooke, Tory A. Klavuhn, David L. Dean, Jr., Juan Garcia, Elmer Mariano, Manuel Lopez, Juan Miguel Gonzalez
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Publication number: 20120106897Abstract: A fiber optic connector that employs an optical fiber guide member, and a cable assembly that uses the connector are disclosed. The connector has a connector housing formed by mateable sections. The connector housing defines a housing passage having opposite connector-end and channel-end portions that define respective connector-end and channel-end passages, with the channel-end portion configured to be arranged adjacent the end of a fiber optic cable. An optical fiber guide member is disposed in the channel-end passage and has a first transition end that faces the connector-end passage. The optical fiber guide member has a conduit configured to loosely confine and guide the optical fibers to the connector-end passage. Connector sub-assemblies can be operably supported at the connector-end portion supporting end portions of the optical fiber.Type: ApplicationFiled: October 29, 2010Publication date: May 3, 2012Inventors: Timothy S. Cline, Terry L. Cooke, David L. Dean, JR., Tory A. Klavuhn
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Patent number: 8135257Abstract: Furcation management structures and fiber optic shelf assemblies including one or more furcation management structures are disclosed. The furcation management structures are disposed in a chassis of a fiber optic shelf assembly and define a mounting surface for mounting at least one furcation body of a fiber optic cable assembly thereto. The furcation management structure may allow the fiber optic shelf assemblies to provide a greater density of fiber optic cable assemblies to support high density fiber optic equipment. Moreover, the furcation management structures provides the craft with an organized mounting structure that is relatively quick and easy to remove, rearrange, and/or reconfigure.Type: GrantFiled: April 2, 2009Date of Patent: March 13, 2012Assignee: Corning Cable Systems LLCInventors: Terry L. Cooke, David L. Dean, Jr., Tory A. Klavuhn, Manuel Alejandro Lopez Sanchez, Harley J. Staber
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Publication number: 20110217008Abstract: A fiber optic connector assembly and method employing one or more fiber movement supports. The one or more fiber movement supports are each disposed around one or more optical fibers and are configured to inhibit kinks or sharp bends from occurring in the one or more optical fibers. The fiber movement support is more rigid than an optical fiber. Thus, when a force is exerted on an optical fiber in a direction angled to the axis of the optical fiber, the force is directed to the fiber movement support. The fiber movement support translates the non-axial force in a direction toward the axis of the optical fiber. This causes the optical fiber to be pushed back towards the fiber optic cable instead of the kinking or bending the optical fiber, thus avoiding or reducing high insertion losses resulting from bending of the optical fiber.Type: ApplicationFiled: May 20, 2011Publication date: September 8, 2011Applicant: CORNING CABLE SYSTEMS LLCInventors: Timothy S. Cline, Tory A. Klavuhn, Matthew W. Smith
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Publication number: 20110211800Abstract: Fiber optic shelf assemblies and furcation mounting structures for securing a plurality of furcation bodies of respective fiber optic cable assembles within the fiber optic shelf are disclosed. In one embodiment, the fiber optic shelf has a one-to-one correspondence between a plurality of respective modules and the respective fiber optic cable assemblies. Additionally, the fiber optic shelf assemblies and furcation mounting structures disclosed advantageously allow the mounting of a relatively large number of furcation bodies within the fiber optic shelf assembly for supporting relatively large fiber optic connections per 1U rack space.Type: ApplicationFiled: May 11, 2011Publication date: September 1, 2011Inventors: Terry L. Cooke, David L. Dean, JR., Tory A. Klavuhn, Harley J. Staber
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Publication number: 20110150407Abstract: A rotary locking apparatus for locking and unlocking a fiber optic equipment tray and related methods are disclosed. The rotary locking apparatus may be a torsional rotary locking apparatus. The torsional rotary locking apparatus includes a rod having at least one protrusion and a torsion spring attached to the rod. The torsion spring may also be attached to a tray mount on the fiber optic equipment tray. The rod can be rotatably actuated such that the at least one protrusion selectively engages or disengages one or more of a plurality of slots in a tray guide to allow the fiber optic equipment tray to move from a closed to an open position. The torsion spring may be configured to lock the fiber optic equipment tray in either the open or the closed position when the at least one protrusion engages one of the plurality of slots in the tray guide.Type: ApplicationFiled: December 18, 2009Publication date: June 23, 2011Inventors: Hubert B. Beamon, Terry L. Cooke, Tory A. Klavuhn
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Patent number: 7945136Abstract: Fiber optic shelf assemblies and furcation mounting structures for securing a plurality of furcation bodies of respective fiber optic cable assembles within the fiber optic shelf are disclosed. In one embodiment, the fiber optic shelf has a one-to-one correspondence between a plurality of respective modules and the respective fiber optic cable assemblies. Additionally, the fiber optic shelf assemblies and furcation mounting structures disclosed advantageously allow the mounting of a relatively large number of furcation bodies within the fiber optic shelf assembly for supporting relatively large fiber optic connections per 1U rack space.Type: GrantFiled: June 19, 2009Date of Patent: May 17, 2011Assignee: Corning Cable Systems LLCInventors: Terry L. Cooke, David L. Dean, Jr., Tory A. Klavuhn, Harley J. Staber
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Patent number: 7945135Abstract: Embodiments disclosed in the detailed description include a telescoping fiber optic module. The telescoping fiber optic module may be provided in a fiber optic equipment chassis which may be disposed in an equipment rack to support fiber optic connections. In embodiments disclosed herein, the telescoping fiber optic module is comprised of a fixed housing portion having an opening on a front side defining a passage inside the fixed housing portion. The fiber optic module is also comprised of a telescoping portion received in the passage inside the fixed housing portion. In this manner, the telescoping portion can telescope in and out of the fixed housing portion. This allows fiber optic connectors or adapters disposed in the telescoping portion and any connections made thereto to be telescoped out for improved access and telescoped back into the fixed housing portion when access is no longer needed.Type: GrantFiled: March 31, 2009Date of Patent: May 17, 2011Assignee: Corning Cable Systems LLCInventors: Terry L. Cooke, David L. Dean, Jr., Jose Arturo Urdiales Gonzalez, Tory A. Klavuhn, Manuel Alejandro Lopez Sanchez, Harley J. Staber
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Patent number: 7903925Abstract: Fiber optic cable assemblies having a fiber optic cable, a furcation body, and one or more furcated legs are disclosed herein. In embodiments disclosed herein, the furcation body comprises a first end and a second end opposite the first end, the first end having the fiber optic cable extending therefrom, and the second end having one or more furcated legs extending therefrom. The furcation body can include one or more features that facilitate cable management by supporting cabling components used in making fiber optic interconnections. The cable management features of the fiber optic cable assemblies advantageously inhibit sagging, facilitate access to fiber optic interconnections, and/or improve air flow paths between fiber optic interconnections.Type: GrantFiled: February 27, 2009Date of Patent: March 8, 2011Assignee: Corning Cable Systems LLCInventors: Terry L. Cooke, David L. Dean, Jr., Christopher S. Houser, Tory A. Klavuhn, Clyde B. Mabry, III
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Publication number: 20100322578Abstract: Fiber optic shelf assemblies and furcation mounting structures for securing a plurality of furcation bodies of respective fiber optic cable assembles within the fiber optic shelf are disclosed. In one embodiment, the fiber optic shelf has a one-to-one correspondence between a plurality of respective modules and the respective fiber optic cable assemblies. Additionally, the fiber optic shelf assemblies and furcation mounting structures disclosed advantageously allow the mounting of a relatively large number of furcation bodies within the fiber optic shelf assembly for supporting relatively large fiber optic connections per 1U rack space.Type: ApplicationFiled: June 19, 2009Publication date: December 23, 2010Inventors: Terry L. Cooke, David L. Dean, JR., Tory A. Klavuhn, Harley J. Staber
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Publication number: 20100322579Abstract: High-density fiber optic modules and fiber optic module housings and related equipment are disclosed. In certain embodiments, a front opening of a fiber optic module and/or fiber optic module housing is configured to receive fiber optic components. The width and/or height of the front opening can be provided according to a designed relationship to a width and/or height, respectively, of a front side of a main body of the fiber optic module and/or fiber optic module housing. In this manner, a high density of fiber optic components and/or connections for a given space of the front side of the fiber optic module can be supported by the fiber optic module and/or fiber optic module housing. The fiber optic modules and fiber optic module housings disclosed herein can be disposed in fiber optic equipment including but not limited to a fiber optic chassis and a fiber optic equipment drawer.Type: ApplicationFiled: April 30, 2010Publication date: December 23, 2010Inventors: Terry L. Cooke, Gerald J. Davis, David L. Dean, JR., Marco A. Gonzalez Garcia, Tory A. Klavuhn, Manuel A. Lopez Sanchez, Brian K. Rhoney, Alan W. Ugolini
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Publication number: 20100296790Abstract: Fiber optic drawers supporting fiber optic modules are disclosed. The drawer is movable about a chassis. At least one fiber optic equipment tray is received in the drawer. The fiber optic equipment tray(s) is movable about the drawer and configured to receive at least one fiber optic module. The fiber optic module(s) is movable about a fiber optic equipment tray. In this manner, enhanced access can be provided to the fiber optic module(s) and their fiber optic connections. The drawer can moved out from the chassis to provide access to fiber optic equipment tray(s) and fiber optic module(s). The fiber optic equipment tray(s) can be moved out from the drawer to provide enhanced access to fiber optic module(s). The fiber optic module(s) can be moved from fiber optic equipment tray(s) to provide further enhanced access to fiber optic module(s). The drawer may also be tiltable about the chassis.Type: ApplicationFiled: October 9, 2009Publication date: November 25, 2010Inventors: Terry L. Cooke, Mark R. Dagley, David L. Dean, JR., Tory A. Klavuhn, Juan Garcia Martinez, Diana Rodriguez, Octavio Beltran Salinas, Manuel Alejandro Lopez Sanchez, Kevin L. Strause
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Publication number: 20100242251Abstract: Embodiments disclosed include fiber optic module housings used for fiber optic modules and methods for manufacture and assembly of same. The fiber optic module housings comprise at least one hinge to allow a component of the housing to be opened and closed to allow easy access to the fiber optic module housing and/or its internal chamber. The hinge may be a living hinge disposed within a single part to allow each side of the living hinge to be bent or folded. The hinge may be disposed on a panel configured to support one or more fiber optic components to allow the panel to be opened and closed about the module housing for access. The fiber optic module housing may also be entirely comprised of a single part employing the use of living hinges between foldable parts. In this manner, no sides or parts of the fiber optic module housing need be provided as separate parts.Type: ApplicationFiled: March 31, 2009Publication date: September 30, 2010Inventors: Terry L. Cooke, David L. Dean, JR., Tory A. Klavuhn
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Publication number: 20100220967Abstract: Embodiments disclosed include fiber optic module housings used for fiber optic modules. The fiber optic module housings comprise at least one hinge to allow a component of the housing to be opened and closed to allow easy access to the fiber optic module housing and/or its internal chamber. The hinge may be a living hinge disposed within a single part to allow each side of the living hinge to be bent or folded. The hinge may be disposed on a panel configured to support one or more fiber optic components to allow the panel to be opened and closed about the module housing for access. The fiber optic module housing may also be entirely comprised of a single part employing the use of living hinges between foldable parts. In this manner, no sides or parts of the fiber optic module housing need be provided as separate parts.Type: ApplicationFiled: February 27, 2009Publication date: September 2, 2010Inventors: Terry L. Cooke, David L. Dean, JR., Tory A. Klavuhn, Clyde B. Mabry, III
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Publication number: 20100202740Abstract: Fiber optic cable assemblies having furcation bodies with features that are advantageous for manufacturing are disclosed along with methods of making the same. The furcation body include at least one anti-rotation feature for mounting the furcation body and a viewing portion and/or weep hole. The viewing portion is advantageous since it allows the observation during filling of the cavity with an epoxy, adhesive, or the like to strain relieve components of the fiber optic cable assembly within the furcation body. Simply stated, the viewing portion is translucent or clear for observing the filling of the furcation body and detecting if an air bubbles/air pockets are formed so that they can be reduced and/or eliminated. The furcation body may also have a weep hole for allowing air bubbles/air pockets to escape. Additionally, the furcation body of the fiber optic cable assembly may be secured within a clip or other suitable structure for mounting the same.Type: ApplicationFiled: March 31, 2010Publication date: August 12, 2010Inventors: Edward K. Barlowe, Terry L. Cooke, David L. Dean, JR., Tory A. Klavuhn, Jeffery M. Walters
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Publication number: 20100195955Abstract: Optical fiber interconnection devices, which can take the form of a module, are disclosed that include an array of optical fibers and multi-fiber optical-fiber connectors, for example, a twenty-four-port connector or multiples thereof, and three eight-port connectors or multiples thereof. The array of optical fibers is color-coded and is configured to optically interconnect the ports of the twenty-four-port connector to the three eight-port connectors in a manner that preserves transmit and receive polarization. In one embodiment, the interconnection devices provide optical interconnections between twenty-four-fiber optical connector configurations to eight-fiber optical connector configurations, such as from twenty-four-fiber line cards to eight-fiber line cards, without having to make structural changes to cabling infrastructure. In one aspect, the optical fiber interconnection devices provide a migration path from duplex optics to parallel optics.Type: ApplicationFiled: January 30, 2009Publication date: August 5, 2010Inventors: William R. Burnham, Terry L. Cooke, David L. Dean, JR., Tory A. Klavuhn, Alan W. Ugolini
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Patent number: 7756371Abstract: Optical fiber interconnection devices, which can take the form of a module, are disclosed that include an array of optical fibers and multi-fiber optical-fiber connectors, for example, a twenty-four-port connector or multiples thereof, and three eight-port connectors or multiples thereof. The array of optical fibers is color-coded and is configured to optically interconnect the ports of the twenty-four-port connector to the three eight-port connectors in a manner that preserves transmit and receive polarization. In one embodiment, the interconnection devices provide optical interconnections between twenty-four-fiber optical connector configurations to eight-fiber optical connector configurations, such as from twenty-four-fiber line cards to eight-fiber line cards, without having to make structural changes to cabling infrastructure. In one aspect, the optical fiber interconnection devices provide a migration path from duplex optics to parallel optics.Type: GrantFiled: January 30, 2009Date of Patent: July 13, 2010Assignee: Corning Cable Systems LLCInventors: William R. Burnham, Terry L. Cooke, David L. Dean, Jr., Tory A. Klavuhn, Alan W. Ugolini
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Publication number: 20100086267Abstract: A fiber optic cable assembly including a fiber optic cable and a furcation body is disclosed. An attachment feature can be provided to mount the furcation body to a mounting surface of fiber optic equipment for securing a portion of the fiber optic cable assembly to the fiber optic equipment. The attachment feature may include an integrated anti-rotation feature to inhibit rotation of the furcation body with respect to a mounting surface. The anti-rotation feature is provided by one or more generally planar surfaces of the furcation body for abutting with at least one complementary planar mounting surface.Type: ApplicationFiled: April 2, 2009Publication date: April 8, 2010Inventors: Terry L. Cooke, David L. Dean, JR., Tory A. Klavuhn, Clyde B. Mabry, III, Daniel S. McGranahan, Jeffrey M. Walters