Patents by Inventor James P. Dacey
James P. Dacey 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: 20130291363Abstract: Methods and devices for the installation of a fiber optic cable to a house or other building structure are provided. The method may include identifying a preferred location of a customer through an indication left by the customer either on the interior side or exterior side of a wall, forming a through opening in the wall near or at the preferred location, and installing the in-wall termination device in the opening. The in-wall termination device may include a wall plate for attaching to an interior surface of the wall. The wall plate includes one or more connectors for receiving ends of cables extending from the exterior and connecting those cables to other cables extending through the interior of the building structure. The method may allow for the installation of the cable without requiring the presence of the customer or requiring access to the interior of the building structure.Type: ApplicationFiled: July 2, 2013Publication date: November 7, 2013Inventors: James P. Dacey, Robert E. Opaluch
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Patent number: 8500099Abstract: Methods and devices for the installation of a fiber optic cable to a house or other building structure are provided. The method may include identifying a preferred location of a customer through an indication left by the customer either on the interior side or exterior side of a wall, forming a through opening in the wall near or at the preferred location, and installing the in-wall termination device in the opening. The in-wall termination device may include a wall plate for attaching to an interior surface of the wall. The wall plate includes one or more connectors for receiving ends of cables extending from the exterior and connecting those cables to other cables extending through the interior of the building structure. The method may allow for the installation of the cable without requiring the presence of the customer or requiring access to the interior of the building structure.Type: GrantFiled: July 28, 2008Date of Patent: August 6, 2013Assignees: Verizon Patent and Licensing Inc., Verizon New England Inc.Inventors: Robert E. Opaluch, James P. Dacey
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Publication number: 20090110358Abstract: Methods and devices for the installation of a fiber optic cable to a house or other building structure are provided. The method may include identifying a preferred location of a customer through an indication left by the customer either on the interior side or exterior side of a wall, forming a through opening in the wall near or at the preferred location, and installing the in-wall termination device in the opening. The in-wall termination device may include a wall plate for attaching to an interior surface of the wall. The wall plate includes one or more connectors for receiving ends of cables extending from the exterior and connecting those cables to other cables extending through the interior of the building structure. The method may allow for the installation of the cable without requiring the presence of the customer or requiring access to the interior of the building structure.Type: ApplicationFiled: July 28, 2008Publication date: April 30, 2009Applicants: Verizon Laboratories Inc., Verizon New England Inc.Inventors: Robert E. Opaluch, James P. Dacey
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Patent number: 7474829Abstract: Assemblies and methods for installing and maintaining aerial fiber optic cable are provided. Embodiments include a cable long enough to extend from two elevated support points and to provide enough slack for at least a portion of the cable to extend along the ground. The cable includes a wrapped portion for storing the slack and to elevate the entire cable above the ground. The wrapped portion being releasable in response to a force acting on the cable, such as a falling tree, allowing for at least a portion of the cable to fall to the ground and minimize the likelihood of the tree snapping the cable. Fasteners and frame members may be employed to support the wrapped portion. An embodiment may also include a cut-off apparatus for cutting the cable in response to the cable being pulled further once any slack in the cable has been expended.Type: GrantFiled: March 22, 2007Date of Patent: January 6, 2009Assignees: Verizon Services Organization, Inc., Verizon New England, Inc.Inventors: Tiejun J. Xia, Glenn A. Wellbrock, James P. Dacey
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Publication number: 20080232757Abstract: Assemblies and methods for installing and maintaining aerial fiber optic cable are provided. Embodiments include a cable long enough to extend from two elevated support points and to provide enough slack for at least a portion of the cable to extend along the ground. The cable includes a wrapped portion for storing the slack and to elevate the entire cable above the ground. The wrapped portion being releasable in response to a force acting on the cable, such as a falling tree, allowing for at least a portion of the cable to fall to the ground and minimize the likelihood of the tree snapping the cable. Fasteners and frame members may be employed to support the wrapped portion. An embodiment may also include a cut-off apparatus for cutting the cable in response to the cable being pulled further once any slack in the cable has been expended.Type: ApplicationFiled: March 22, 2007Publication date: September 25, 2008Applicants: Verizon Services Organization Inc., Verizon New England Inc.Inventors: Tiejun J. Xia, Glenn A. Wellbrock, James P. Dacey
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Patent number: 7406241Abstract: Methods and devices for the installation of a fiber optic cable to a house or other building structure are provided. The method may include identifying a preferred location of a customer through an indication left by the customer either on the interior side or exterior side of a wall, forming a through opening in the wall near or at the preferred location, and installing the in-wall termination device in the opening. The in-wall termination device may include a wall plate for attaching to an interior surface of the wall. The wall plate includes one or more connectors for receiving ends of cables extending from the exterior and connecting those cables to other cables extending through the interior of the building structure. The method may allow for the installation of the cable without requiring the presence of the customer or requiring access to the interior of the building structure.Type: GrantFiled: April 4, 2007Date of Patent: July 29, 2008Assignees: Verizon Laboratories Inc., Verizon New England Inc.Inventors: Robert E. Opaluch, James P. Dacey
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Patent number: 7374149Abstract: A road crossing tool to assist in, and enable, a one-person installation of fiber optic cable which must be connected to a utility pole first, before being connected to a house on the opposite side of the road. Since fiber optic cable is not readily spliced in the field, as compared to copper wire cable which is readily spliceable, the fiber cable is supplied pre-connectorized with fixed lengths. This causes slack, or un-necessary cable length, which must be stored at the building/house site rather than atop the utility pole. This tool permits the installer to have good visibility of the roadway after making the cable connection to the utility pole and prior to hoisting the cable to its intended elevated height over the roadway before making the cable connection to the house and storing the slack at the house. This eliminates the need for a two person installation which would otherwise be required.Type: GrantFiled: August 26, 2005Date of Patent: May 20, 2008Assignee: Verizon New England Inc.Inventor: James P. Dacey
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Patent number: 7316513Abstract: A portable optical-fiber cutter is used to slice a first optical-fiber at an advantageous angle to control reflections and at a suitable length to mate with a similar second optical-fiber that was pre-sliced at a complementary angle in the factory and configured as a receptacle for the first optical-fiber. This technique avoids the need for installation of two-ended, factory pre-connectorized optical-fiber cable and permits usage of a narrow-diameter protective “microduct” to enclose the optical fiber cable rather than requiring large-diameter protective duct to allow passage of a pre-connectorized connector there-through. Space is saved, particularly in large multi-unit apartment buildings where available space may be at a premium for large bundles of multiple optical cables. This technique also results in saving large amounts of technician-installer time when compared with the current time-consuming technique of fusion splicing.Type: GrantFiled: December 30, 2005Date of Patent: January 8, 2008Assignee: Verizon Corporate Services Group Inc.Inventor: James P. Dacey