Patents by Inventor Brendan M. Walsh
Brendan M. Walsh 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: 20110117760Abstract: In one embodiment, a female electrical connector comprises a socket having slots and electrical contacts. At least one of the electrical contacts can be movable between an open electrical circuit position where the electrical contacts are not in electrical communication and the socket is electrically inactive and a closed electrical circuit position where the electrical contacts are in electrical communication and the socket is electrically active. In one embodiment, an electrical box can comprise a container formed from a base having sides extending therefrom to define a cavity and the female electrical connector.Type: ApplicationFiled: November 4, 2010Publication date: May 19, 2011Applicants: WINSTANLEY PARTNERS, SIGMA ELECTRIC MANUFACTURING CORPORATIONInventors: Nathan B. WINSTANLEY, Brendan M. WALSH, Philip A. COHEN, Ashok Alilughatta SATHYANARAYANA, Chandrakanthtrao GIREESHRAO, Ralph Michael CIRONE, Robert Alan KROSKY
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Patent number: 7921776Abstract: This invention relates to a detonating cord (10) having a core (12) of reactive material and a composite jacket around the core, and the method of its manufacture. The composite jacket includes an interior jacket (14) in contact with the core and a sacrificial jacket (20) disposed over the interior jacket. The sacrificial jacket prevents the cord from being cut off by the detonation of another detonating cord of like core load disposed adjacent thereto. The sacrificial jacket is separable from the interior jacket beneath it under the force of the adjacent detonating cord, thus absorbing energy and allowing the first detonating cord to remain intact. The detonating cord may have a core load of not more than 3.2 grams/meter (15 grains/ft) or, optionally, less than 1.25 g/m (6 grains/ft). The interior jacket may be free of metal jacket layers. Optionally, the outer cross-sectional diameter of the cord may be not more than about 3.8 mm (0.15 inch) so that it can be inserted into a standard detonator.Type: GrantFiled: June 1, 2004Date of Patent: April 12, 2011Assignee: Ensign-Bickford Aerospace & Defense CompanyInventors: Brendan M. Walsh, P. Cary Franklin
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Publication number: 20100265715Abstract: In one embodiment, a light comprises: a body portion, a base, and an electrical power cord connected to the body and capable of establishing electrical communication between the light source and an electricity source. The body portion can comprise a lens, a light source, a reflector, a body connection, and a focusing element. The focusing element can be configured to create relative movement between the light source and the reflector, such that, when in use, a spread of a light beam from the light source can be adjusted. The base comprise can comprise a mounting element and a base connector capable of connecting to the body connection.Type: ApplicationFiled: April 1, 2010Publication date: October 21, 2010Applicants: Sigma Electric Manufacturing Corporation, Winstanley PartnersInventors: Nathan B. Winstanley, Philip A. Cohen, Brendan M. Walsh, Ashok Alilughatta Sathyanarayana
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Publication number: 20100124849Abstract: In one embodiment, an electrical box can comprise: a container formed from a base having sides extending therefrom to define a cavity; a cover configured to cover the cavity when in a closed position; and a female electrical connector disposed in the cavity when the cover is in the closed position. A socket of the female electrical connector can be capable of receiving a male electrical connector. Even when the electrical box is connected to live wiring, when the cover is in an open position, current cannot flow to the socket, and when the cover is in a closed position, current can flow to the socket. In another embodiment, an electrical box can comprise: a container; a cover configured to cover the cavity when in a closed position; and a female electrical connector physically connected to the cover such that the female electrical connector moves as the cover is opened.Type: ApplicationFiled: November 17, 2009Publication date: May 20, 2010Applicant: SIGMA ELECTRIC MANUFACTURING CORPORATIONInventors: Nathan B. Winstanley, Brendan M. Walsh, Philip A. Cohen, Alilughatta Sathyanarayana Ashok, Chandrakanthrao Gireeshrao
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Publication number: 20080028970Abstract: This invention relates to a detonating cord (10) having a core (12) of reactive material and a composite jacket around the core, and the method of its manufacture. The composite jacket includes an interior jacket (14) in contact with the core and a sacrificial jacket (20) disposed over the interior jacket. The sacrificial jacket prevents the cord from being cut off by the detonation of another detonating cord of like core load disposed adjacent thereto. The sacrificial jacket is separable from the interior jacket beneath it under the force of the adjacent detonating cord, thus absorbing energy and allowing the first detonating cord to remain intact. The detonating cord may have a core load of not more than 3.2 grams/meter (15 grains/ft) or, optionally, less than 1.25 g/m (6 grains/ft). The interior jacket may be free of metal jacket layers. Optionally, the outer cross-sectional diameter of the cord may be not more than about 3.8 mm (0.15 inch) so that it can be inserted into a standard detonator.Type: ApplicationFiled: June 1, 2004Publication date: February 7, 2008Inventors: Brendan M. Walsh, P. Cary Franklin
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Patent number: 6408759Abstract: An initiator (100) assembled from a housing (112), an output charge (144) and an initiation means (110, 120, 58, 54) includes a pulverulent ignition charge (46a) disposed in direct initiation relation to the initiation means, and an output charge (144) that may contain a pulverulent deflagration-to-detonation transition (DDT) charge (144a) and an explosive base charge (144b). The ignition charge (46a) has an average particle size of less than 10 microns, or even less than 5 microns, e.g., 1 to 2 microns. The initiation means may include a semiconductor bridge (18) and the ignition charge (46a) may be compacted with a force of less than about 5880 psi, e.g., with a force of 1000 psi. In another embodiment, an initiator (210) includes a low-energy electrical initiator (234), a loosely packed BNCP ignition charge (218) and a pyrotechnical output charge (214).Type: GrantFiled: February 29, 2000Date of Patent: June 25, 2002Assignee: The Ensign-Bickford CompanyInventors: David W. Ewick, Brendan M. Walsh
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Patent number: 6311621Abstract: A shock-resistant electronic circuit assembly (10) is provided in which an electronic circuit is encased in an encapsulation (14) that engages a surrounding enclosure (18) in shock-dispersing contact therewith. The encapsulation may have a plurality of edges (16, 16a, 16b), fins (24) or bosses (70) that bear against the enclosure. The encapsulation may include a shock-absorbing material (14f) disposed against the enclosure to protect the circuit against vibrations and a structural support material such as a casing (14e) to protect the circuit against stress. The circuit assembly (10) may be part of a sheathed initiator assembly (55) that includes a transfer member (58) for converting shock wave energy into electrical energy for the electronic circuit, and the released energy may be converted into a detonation initiation signal. Assembly (55) may be part of a detonator (100) that receives a non-electric initiation signal and detonates following the delay determined by the electronic circuit.Type: GrantFiled: December 6, 1999Date of Patent: November 6, 2001Assignee: The Ensign-Bickford CompanyInventors: Paul N. Marshall, Thomas C. Tseka, Brendan M. Walsh, James E. Fritz
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Patent number: 6079332Abstract: A shock-resistant electronic circuit assembly (10) is provided in which an electronic circuit is encased in an encapsulation (14) that engages a surrounding enclosure (18, 22) in shock-dispersing contact therewith. The encapsulation may have a plurality of edges (16, 16a, 16b), fins (24) or bosses (70) that bear against the enclosure. The encapsulation may include a shock-absorbing material (14f) disposed against the enclosure to protect the circuit against vibrations and a structural support material (14e) to protect the circuit against stress. The circuit assembly (10) may contain a capacitor (34) for storing an electrical signal and timing circuitry for releasing the stored energy after a predetermined delay. The circuit assembly (10) may be part of a transducer-circuit assembly (55) that includes a transducer module (58) for converting shock wave energy into electrical energy for the electronic circuit, and the released energy may be converted into a detonation initiation signal.Type: GrantFiled: November 1, 1996Date of Patent: June 27, 2000Assignee: The Ensign-Bickford CompanyInventors: Paul N. Marshall, Thomas C. Tseka, Brendan M. Walsh, James E. Fritz
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Patent number: 5929368Abstract: An electronic delay circuit (10) for use in a detonator (100) has a switching circuit (20) and a timer circuit (22). Switching circuit (20) controls the flow of a stored charge of electrical energy from a storage capacitor (12) to a bridge initiation element such as a semiconductor bridge (18) or a tungsten bridge. The timing of the release of this energy is controlled by timer circuit (22). Switching circuit (20) is an integrated, dielectrically isolated, bipolar CMOS (DI BiCMOS) circuit, whereas timer circuit (22) is a conventional CMOS circuit. The use of a DI BiCMOS switching circuit allows for greater efficiency of energy transfer from the storage capacitor (12) to the semiconductor bridge (18) than has previously been attained.Type: GrantFiled: December 9, 1996Date of Patent: July 27, 1999Assignee: The Ensign-Bickford CompanyInventors: David W. Ewick, Paul N. Marshall, Kenneth A. Rode, Thomas C. Tseka, Brendan M. Walsh
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Patent number: 5889228Abstract: A detonator (100) assembled from a housing (112), an output charge (144) and an initiation means (110, 120, 58, 54) includes a pulverulent ignition charge (46a) disposed in direct initiation relation to the initiation means, and an output charge (144) that may contain a pulverulent deflagration-to-detonation transition (DDT) charge (144a) and a base charge (144b). The ignition charge (46a) has an average particle size of less than 10 microns, or even less than 5 microns, e.g., 1 to 2 microns. The initiation means may include a semiconductor bridge (18) and the ignition charge (46a) may be compacted with a force of less than about 5880 psi, e.g., with a force of 1000 psi.Type: GrantFiled: April 9, 1997Date of Patent: March 30, 1999Assignee: The Ensign-Bickford CompanyInventors: David W. Ewick, Brendan M. Walsh
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Patent number: 5341638Abstract: A composite structure for rocket motors includes a longitudinal element of the composite structure, which is an assembly of segments of clamshell or barrel stave form. The element is held in place by a circumferential element, which is a composite overwrap of reinforcing fibers in a resin matrix. The matrix may be thermoplastic or thermosetting. The reinforcing fiber being high strength polyolefin thereby providing the rocket motor with insensitive munitions capability.Type: GrantFiled: March 9, 1992Date of Patent: August 30, 1994Assignee: Thiokol CorporationInventors: Frederick W. Van Name, Michael A. Gerace, Victor Singer, Brendan M. Walsh
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Patent number: D641904Type: GrantFiled: December 23, 2009Date of Patent: July 19, 2011Assignees: Winstanley Partners, Sigma Electric Manufacturing CorporationInventors: Nathan B. Winstanley, Philip A. Cohen, Brendan M. Walsh, Ashok Alilughatta Sathyanarayana