Patents by Inventor Adriana Montalvo Urbano
Adriana Montalvo Urbano 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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Publication number: 20230258897Abstract: Embodiments of the disclosure are directed to a retrofit kit for a telecommunications cabinet that is configured to house copper electronic equipment. The kit includes a fiber optic apparatus configured to be mounted in an interior of the telecommunications cabinet and a retrofit door configured to be mounted to the telecommunications cabinet to cover the interior. The retrofit door includes a front surface, a plurality of sidewalls extending from the front surface, and a rear surface extending inward from the plurality of sidewalls. The rear surface is spaced apart from the front surface and defines an opening into a cavity of the retrofit door. The fiber optic apparatus and the retrofit door are configured such that when the fiber optic apparatus and the retrofit door are mounted, the at least one cavity of the retrofit door provides volume to accommodate the fiber optic apparatus.Type: ApplicationFiled: April 19, 2023Publication date: August 17, 2023Inventors: Sandra Irene Amaya Cruz, Larry Eugene Gaertner, Arturo Sanchez Garcia, Brent Vaudry Linas, Adriana Montalvo Urbano, Guadalupe Rodriguez Sanchez, Fabiola Patricia Villanueva Tavares
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Patent number: 11662537Abstract: Embodiments of the disclosure are directed to a retrofit kit for a telecommunications cabinet that is configured to house copper electronic equipment. The kit includes a fiber optic apparatus configured to be mounted in an interior of the telecommunications cabinet and a retrofit door configured to be mounted to the telecommunications cabinet to cover the interior. The retrofit door includes a front surface, a plurality of sidewalls extending from the front surface, and a rear surface extending inward from the plurality of sidewalls. The rear surface is spaced apart from the front surface and defines an opening into a cavity of the retrofit door. The fiber optic apparatus and the retrofit door are configured such that when the fiber optic apparatus and the retrofit door are mounted, the at least one cavity of the retrofit door provides volume to accommodate the fiber optic apparatus.Type: GrantFiled: June 4, 2021Date of Patent: May 30, 2023Assignee: Corning Optical Communications LLCInventors: Sandra Irene Amaya Cruz, Larry Eugene Gaertner, Arturo Sanchez Garcia, Brent Vaudry Linas, Adriana Montalvo Urbano, Guadalupe Rodriguez Sanchez, Fabiola Patricia Villanueva Tavares
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Publication number: 20210294056Abstract: Embodiments of the disclosure are directed to a retrofit kit for a telecommunications cabinet that is configured to house copper electronic equipment. The kit includes a fiber optic apparatus configured to be mounted in an interior of the telecommunications cabinet and a retrofit door configured to be mounted to the telecommunications cabinet to cover the interior. The retrofit door includes a front surface, a plurality of sidewalls extending from the front surface, and a rear surface extending inward from the plurality of sidewalls. The rear surface is spaced apart from the front surface and defines an opening into a cavity of the retrofit door. The fiber optic apparatus and the retrofit door are configured such that when the fiber optic apparatus and the retrofit door are mounted, the at least one cavity of the retrofit door provides volume to accommodate the fiber optic apparatus.Type: ApplicationFiled: June 4, 2021Publication date: September 23, 2021Inventors: Sandra Irene Amaya Cruz, Larry Eugene Gaertner, Arturo Sanchez Garcia, Brent Vaudry Linas, Adriana Montalvo Urbano, Guadalupe Rodriguez Sanchez, Fabiola Patricia Villanueva Tavares
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Patent number: 11054600Abstract: Embodiments of the disclosure are directed to a fiber optic apparatus for retrofit fiber optic connectivity. The fiber optic apparatus is configured to reduce the size and footprint of a typical fiber optic cabinet for retrofit deployment within existing copper infrastructure, while allowing a user to provide and manage fiber optic network connections between a network provider and a plurality of subscribers. In an exemplary embodiment, the fiber optic apparatus decreases width by vertically aligning features of the fiber optic apparatus, and decreases depth by angled mounting of splitter parking and horizontal positioning of vertically stacked ribbon-fanout kit (RFK) sets. Further, the fiber optic apparatus includes flexible tubing attached to a detachable strain relief bracket configured for removal the detachable strain relief bracket from the frame and reattachment to the telecommunications cabinet to facilitate flexibility in mounting of the fiber optic apparatus and fiber deployment.Type: GrantFiled: August 23, 2019Date of Patent: July 6, 2021Assignee: Corning Optical Communications LLCInventors: Sandra Irene Amaya Cruz, Arturo Sanchez Garcia, Brent Vaudry Linas, Adriana Montalvo Urbano, Guadalupe Rodriguez Sanchez, Fabiola Patricia Villanueva Tavares
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Publication number: 20190377144Abstract: Embodiments of the disclosure are directed to a fiber optic apparatus for retrofit fiber optic connectivity. The fiber optic apparatus is configured to reduce the size and footprint of a typical fiber optic cabinet for retrofit deployment within existing copper infrastructure, while allowing a user to provide and manage fiber optic network connections between a network provider and a plurality of subscribers. In an exemplary embodiment, the fiber optic apparatus decreases width by vertically aligning features of the fiber optic apparatus, and decreases depth by angled mounting of splitter parking and horizontal positioning of vertically stacked ribbon-fanout kit (RFK) sets. Further, the fiber optic apparatus includes flexible tubing attached to a detachable strain relief bracket configured for removal the detachable strain relief bracket from the frame and reattachment to the telecommunications cabinet to facilitate flexibility in mounting of the fiber optic apparatus and fiber deployment.Type: ApplicationFiled: August 23, 2019Publication date: December 12, 2019Inventors: Sandra Irene Amaya Cruz, Arturo Sanchez Garcia, Brent Vaudry Linas, Adriana Montalvo Urbano, Guadalupe Rodriguez Sanchez, Fabiola Patricia Villanueva Tavares
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Patent number: 10436999Abstract: Embodiments of the disclosure are directed to a fiber optic apparatus for retrofit fiber optic connectivity. The fiber optic apparatus is configured to reduce the size and footprint of a typical fiber optic cabinet for retrofit deployment within existing copper infrastructure, while allowing a user to provide and manage fiber optic network connections between a network provider and a plurality of subscribers. In an exemplary embodiment, the fiber optic apparatus decreases width by vertically aligning features of the fiber optic apparatus, and decreases depth by angled mounting of splitter parking and horizontal positioning of vertically stacked ribbon-fanout kit (RFK) sets. Further, the fiber optic apparatus includes flexible tubing attached to a detachable strain relief bracket configured for removal the detachable strain relief bracket from the frame and reattachment to the telecommunications cabinet to facilitate flexibility in mounting of the fiber optic apparatus and fiber deployment.Type: GrantFiled: April 20, 2017Date of Patent: October 8, 2019Assignee: Corning Optical Communications LLCInventors: Sandra Irene Amaya Cruz, Arturo Sanchez Garcia, Brent Vaudry Linas, Guadalupe Rodriguez Sanchez, Fabiola Patricia Villanueva Tavares, Adriana Montalvo Urbano
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Publication number: 20180246289Abstract: Embodiments of the disclosure are directed to a fiber optic apparatus for retrofit fiber optic connectivity. The fiber optic apparatus is configured to reduce the size and footprint of a typical fiber optic cabinet for retrofit deployment within existing copper infrastructure, while allowing a user to provide and manage fiber optic network connections between a network provider and a plurality of subscribers. In an exemplary embodiment, the fiber optic apparatus decreases width by vertically aligning features of the fiber optic apparatus, and decreases depth by angled mounting of splitter parking and horizontal positioning of vertically stacked ribbon-fanout kit (RFK) sets. Further, the fiber optic apparatus includes flexible tubing attached to a detachable strain relief bracket configured for removal the detachable strain relief bracket from the frame and reattachment to the telecommunications cabinet to facilitate flexibility in mounting of the fiber optic apparatus and fiber deployment.Type: ApplicationFiled: April 20, 2017Publication date: August 30, 2018Inventors: Sandra Irene Amaya Cruz, Arturo Sanchez Garcia, Brent Vaudry Linas, Guadalupe Rodriguez Sanchez, Fabiola Patricia Villanueva Tavares, Adriana Montalvo Urbano
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Patent number: 10025054Abstract: An optical fiber distribution housing is provided. The housing includes an active fiber routing structure positioned between the splitter module and the plurality of optical splice ports and/or a guide structure defining an inactive fiber routing channel. The active fiber routing structure includes a plurality of channels, and each of the plurality of channels of the active fiber routing structure is associated with a subset of optical splice ports. Each channel receives a subset of active fibers from the splitter module and guides the active fibers to the subset of optical splice ports associated with the channel. The inactive fiber guide structure receives an inactive fiber and the fiber follows a path from the splitter modules along the first wall and through the inactive fiber routing channel to the inactive fiber retainer.Type: GrantFiled: February 21, 2017Date of Patent: July 17, 2018Assignee: Corning Optical Communications LLCInventors: Adriana Montalvo Urbano, Sergio Sanchez Garcia
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Publication number: 20170160504Abstract: An optical fiber distribution housing is provided. The housing includes an active fiber routing structure positioned between the splitter module and the plurality of optical splice ports and/or a guide structure defining an inactive fiber routing channel. The active fiber routing structure includes a plurality of channels, and each of the plurality of channels of the active fiber routing structure is associated with a subset of optical splice ports. Each channel receives a subset of active fibers from the splitter module and guides the active fibers to the subset of optical splice ports associated with the channel. The inactive fiber guide structure receives an inactive fiber and the fiber follows a path from the splitter modules along the first wall and through the inactive fiber routing channel to the inactive fiber retainer.Type: ApplicationFiled: February 21, 2017Publication date: June 8, 2017Inventors: Adriana Montalvo Urbano, Sergio Sanchez Garcia
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Patent number: 9612417Abstract: An optical fiber distribution housing is provided. The housing includes an active fiber routing structure positioned between the splitter module and the plurality of optical splice ports and/or a guide structure defining an inactive fiber routing channel. The active fiber routing structure includes a plurality of channels, and each of the plurality of channels of the active fiber routing structure is associated with a subset of optical splice ports. Each channel receives a subset of active fibers from the splitter module and guides the active fibers to the subset of optical splice ports associated with the channel. The inactive fiber guide structure receives an inactive fiber and the fiber follows a path from the splitter modules along the first wall and through the inactive fiber routing channel to the inactive fiber retainer.Type: GrantFiled: July 7, 2015Date of Patent: April 4, 2017Assignee: CORNING OPTICAL COMMUNICATIONS LLCInventors: Adriana Montalvo Urbano, Sergio Sanchez Garcia
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Publication number: 20170082814Abstract: A housing for fiber optic cable pivotably attachable to an adjacent housing to form a modular housing system is disclosed. The housing may include a first body having a plurality of members angled relative to one another to form a first chamber therebetween, the first body including an opening for receiving a fiber cable in the first chamber. An attachment feature may alternatively pivotably attach one of: a) a first cover to the first body to selectively enclose a first side of the first chamber in a cover state, or b) a second body of an adjacent housing to the first chamber to create a joint chamber involving a second chamber of the second body and the first chamber of the first body in an attached housing state.Type: ApplicationFiled: November 29, 2016Publication date: March 23, 2017Inventors: Ray Samuel Barnes, JR., Trampus Lee Landrum, Jose Martinez Sanchez, Matthew Roy Miller, Arturo Parra Morales, Adriana Montalvo Urbano
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Patent number: 9341800Abstract: A modular optical fiber distribution housing is provided. The housing includes a first row of splitter modules and a second row of splitter modules both supported from the inner surface of one of the plurality of walls, and each splitter module is receives an input optical fiber and includes a splitting device configured to split a signal carried by the received input optical fiber into a plurality of signals carried by respective output optical fibers. The first row of splitter modules is located between the second row of splitter modules and the inner surface of the wall supporting the first and second rows of splitter modules.Type: GrantFiled: July 7, 2015Date of Patent: May 17, 2016Assignee: Corning Optical Communications LLCInventors: Adriana Montalvo Urbano, Sergio Sanchez Garcia
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Publication number: 20160011390Abstract: An optical fiber distribution housing is provided. The housing includes an active fiber routing structure positioned between the splitter module and the plurality of optical splice ports and/or a guide structure defining an inactive fiber routing channel. The active fiber routing structure includes a plurality of channels, and each of the plurality of channels of the active fiber routing structure is associated with a subset of optical splice ports. Each channel receives a subset of active fibers from the splitter module and guides the active fibers to the subset of optical splice ports associated with the channel. The inactive fiber guide structure receives an inactive fiber and the fiber follows a path from the splitter modules along the first wall and through the inactive fiber routing channel to the inactive fiber retainer.Type: ApplicationFiled: July 7, 2015Publication date: January 14, 2016Inventors: Adriana Montalvo Urbano, Sergio Sanchez Garcia
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Publication number: 20160011391Abstract: A modular optical fiber distribution housing is provided. The housing includes a first row of splitter modules and a second row of splitter modules both supported from the inner surface of one of the plurality of walls, and each splitter module is receives an input optical fiber and includes a splitting device configured to split a signal carried by the received input optical fiber into a plurality of signals carried by respective output optical fibers. The first row of splitter modules is located between the second row of splitter modules and the inner surface of the wall supporting the first and second rows of splitter modules.Type: ApplicationFiled: July 7, 2015Publication date: January 14, 2016Inventors: Adriana Montalvo Urbano, Sergio Sanchez Garcia
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Publication number: 20150346450Abstract: A housing for fiber optic cable pivotably attachable to an adjacent housing to form a modular housing system is disclosed. The housing may include a first body having a plurality of members angled relative to one another to form a first chamber therebetween, the first body including an opening for receiving a fiber cable in the first chamber. An attachment feature may alternatively pivotably attach one of: a) a first cover to the first body to selectively enclose a first side of the first chamber in a cover state, or b) a second body of an adjacent housing to the first chamber to create a joint chamber involving a second chamber of the second body and the first chamber of the first body in an attached housing state.Type: ApplicationFiled: May 28, 2015Publication date: December 3, 2015Inventors: Ray Samuel Barnes, JR., Trampus Lee Landrum, Jose Martinez Sanchez, Matthew Roy Miller, Arturo Parra Morales, Adriana Montalvo Urbano