Patents Assigned to General Cable Corporation
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Patent number: 4276251Abstract: This invention is an improved insulation for electric cables and an improved method of making the insulation. Cross linked polyethylene insulation is too stiff, particularly in high voltage cables which require a thick layer of insulation. Copolymers of polypropylene have electrical properties substantially equal to those of polyethylene, but do not have the necessary physical strength and have to be filled with clay or other filler that provides the required strength but degrades the electrical characteristics. A novel feature of this method is the utilization of the screw of the extruder to effect a mixing of the ingredients in an improved polymer system for cable insulation.Type: GrantFiled: September 22, 1978Date of Patent: June 30, 1981Assignee: General Cable CorporationInventor: Louis A. Bopp
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Patent number: 4253890Abstract: This specification describes an improved method for making fire-resistant communication cables that have a core which includes a multitude of individual conductors or pairs with insulation surrounding some or all of the conductors. The conductors are enclosed in a metal sheath that has a welded seam and that is annealed to maintain the flexibility of the cable. The sheath is of larger diameter of the core when welded, but is drawn down to a reduced diameter that hugs the core prior to the annealing. Heat insulation is wrapped around the core to protect the insulation on the conductors from the heat that is used to anneal the sheath. The purpose of the construction is to provide indoor cable that does not propagate flames from a burning area in a building into adjacent non-burning areas. The cable sheath is purposely not bonded to the core to facilitate sheath removal for ease of terminating the cable.Type: GrantFiled: November 13, 1978Date of Patent: March 3, 1981Assignee: General Cable CorporationInventor: William J. Brorein
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Patent number: 4246435Abstract: Petrolatum-based filling compounds are known to migrate into the insulation and jacket of telephone cables and to extract the stabilizers, and as a consequence, to affect the physical and/or electrical characteristics of those cable components. It does not seem possible to avoid these characteristics of petrolatum in commercial compounding operations. The filling compound of this specification is for use in telephone cables and is based on better resistance to dripping at elevated temperatures, compatibility with high density polyethylene insulation and low density and medium density polyethylene jacket compounds. It has processability at moderate elevated temperatures, resistance to cracking at room temperature and low temperatures, adhesiveness and desirable electric properties.Type: GrantFiled: July 20, 1979Date of Patent: January 20, 1981Assignee: General Cable CorporationInventor: Paul F. Thompson
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Patent number: 4221924Abstract: This invention provides relatively simple and inexpensive end seals for protecting the ends of telephone cables that are preconnectorized at the factory or distribution center. These end seals are moisture-proof, able to retain pressure and afford mechanical protection while the preconnectorized cables are carried in inventory and during handling to a place of use in the field.Type: GrantFiled: May 25, 1978Date of Patent: September 9, 1980Assignee: General Cable CorporationInventors: Anthony P. Gabriel, John D. Lawler
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Patent number: 4218577Abstract: This telephone service wire has metal conductors insulated with polyethylene plastic insulation or equivalent, assembled in a core having a flame-retardant polyvinyl chloride jacket. Space between the individual insulated conductors is filled with an improved filling compound for preventing access of water into the core of the service wire. The filler compound is an ester-based compound that avoids the disadvantages of the usual petrolatum-based filler compound which extracts not only antioxidants and copper-inhibitors from a polyethylene component but plasticizers from a polyvinyl chloride compound. Depletion of these essential compounding materials can seriously affect the physical characteristics of either the insulation or jacket of such filled telephone service wires.Type: GrantFiled: July 20, 1979Date of Patent: August 19, 1980Assignee: General Cable CorporationInventors: George Bahder, Paul F. Thompson
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Patent number: 4215086Abstract: This telephone drop wire is insulated with an improved insulation made from a semi-crystalline, low molecular weight, ethylene-propylene diene terpolymer (EPDM) which is used for a unipass insulation. The insulation has improved electrical properties which permit thinner sections of insulation to be used, so that the overall cross-section of the drop wire is of lower cost, higher temperature rating, and with moisture resistance suitable for use buried underground. The insulation is also much tougher for use where abrasion is a factor.Type: GrantFiled: September 25, 1978Date of Patent: July 29, 1980Assignee: General Cable CorporationInventors: Manuel A. Durakis, John R. Reiser
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Patent number: 4176866Abstract: This improved gland assembly is primarily for use with mineral insulated cables. The same gland body and lock nut is used for cables regardless of the cable diameter. The dimensions of the compression ring are the same, except for the ring bore, which matches the diameter of the cable. The lock nut bottoms on a shoulder to prevent overtightening of the nut and risk of fracturing the sheath of the cable.Type: GrantFiled: May 17, 1978Date of Patent: December 4, 1979Assignee: General Cable CorporationInventor: Solomon Rubinstein
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Patent number: 4176893Abstract: The subject invention relates to a new connector assembly design for making a low resistance, stable electrical connection to a plastic coated aluminum shield adhering to and underlying polyethylene jacket of telephone cables. When the connector in accordance with the invention is applied across the composite sheath, it eliminates the creep strain exhibited by the polyethylene jacket and aluminum shield and results in a stable low resistance electrical connection, which is essential for noise-free operation of the cable and good lightning protection of enclosed telephone circuits.Type: GrantFiled: October 25, 1977Date of Patent: December 4, 1979Assignee: General Cable CorporationInventors: Jerzy A. Olszewski, Towheed Ramy
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Patent number: 4176244Abstract: This invention is an improved connection for splicing or terminating coaxial cables. The connection of this invention maintains substantially the same ratio of outer conductor inside diameter to inner conductor outside diameter as in the rest of the cable, and thus avoids impairment of signals transmitted by the coaxial cable. The splices prevent moisture from entering the cable when used underground; and the splices are strong enough to permit the cable to be plowed in with no fear of splice hang-up in the plow guides.Type: GrantFiled: September 8, 1977Date of Patent: November 27, 1979Assignee: General Cable CorporationInventors: Towheed Ramy, Lal M. Hore
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Patent number: 4170510Abstract: This invention is an improved apparatus and method for making fiber optic communication cables by cutting accurate helical grooves in a layer of insulation surrounding the surface of a strength member, and inserting the fiberglass conductors into the grooves with fillers and spacers around and between the glass conductors to protect them from damage. Helically wrapped binders and heat barrier tapes may be wrapped over the assembly with any additional binder threads or tapes as may be necessary to hold the heat barrier in place.Type: GrantFiled: January 30, 1978Date of Patent: October 9, 1979Assignee: General Cable CorporationInventors: William J. Brorein, Robert Tattanelli
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Patent number: 4165442Abstract: Communication cables with cores that have groups of conductor pairs, that carry messages in opposite directions, in the same cable present the problem of crosstalk between the different groups. With the increase in carrier frequency that is used for communication, the crosstalk problem increases, and cables that were acceptable for lower frequency are no longer adequate. This invention provides more efficient shielding; is suitable for higher frequencies; provides a stronger cable structure; and reduces corrosion of the shielding.Type: GrantFiled: June 12, 1978Date of Patent: August 21, 1979Assignee: General Cable CorporationInventors: Anthony P. Gabriel, Jimmy Justiss
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Patent number: 4155518Abstract: Reel lifting apparatus utilizing a truck-like vehicle having a wheeled framework with a subframe mounted on the framework. A truck bed body is mounted upon the subframe and overlies the subframe. An elongate rod-like member is provided which is pivotally mounted on the body so that it extends in a direction at right angles to the longitudinal axis of the vehicle. First and second arms are mounted in fixed spaced apart positions on the rod-like member. The arms are formed so that they are capable of carrying a reel mounted upon a spindle. A plate is secured to the rod-like member. An L-shaped member has one end of the same pivotally connected to the subframe and the other end pivotally connected to the plate. An actuator is pivotaly connected to the subframe and to the L-shaped member at a point intermediate the ends of the L-shaped member for causing the movement of the arms through an angle in excess of 135.degree.. An in-line motor drive train is mounted upon one of the arms.Type: GrantFiled: January 26, 1978Date of Patent: May 22, 1979Assignee: General Cable CorporationInventor: Robert F. Small
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Patent number: 4154976Abstract: This inside wiring cable has insulated conductors surrounded by one or more layers of heat-resistant tape covered by a protective metal sheath which is preferably made of longitudinally folded metal strip with the seam welded and the tube metal then reduced in diameter down into intimate contact with the core and annealed. The cable is fire-resistant so that it does not spread fire. The metal sheath prevents any "afterburn.Type: GrantFiled: October 25, 1977Date of Patent: May 15, 1979Assignee: General Cable CorporationInventor: William J. Brorein
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Patent number: 4153434Abstract: In some critical use, air-drying systems, 100% back-up capability is desired. The problem has been that an idle standby unit requires considerable time to reach full capability for dry air delivery. This invention bleeds enough dry air from the operating primary unit through parts of the idle back-up unit to maintain any dynamic conditions that are necessary to keep the standby unit ready for immediate use in the event of a failure of the primary unit.Type: GrantFiled: May 25, 1978Date of Patent: May 8, 1979Assignee: General Cable CorporationInventor: Bernard W. Settlemyer
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Patent number: 4146302Abstract: This invention is a fibre optic communication cable in which the signals are transmitted by light. The glass fibres used for the cable are protected from breaking strain and from excessively sharp bends by supporting helically wound optic fibres on the inside of a tension element with provision by which the diameters of the helical convolutions can become smaller to increase the axial length component of the optic fibres when the a axial length of the tube is increased by forces that strain the tube. Several ways of maintaining the helically wrapped optic fibres supported from the tube so as to permit decrease in the diameter of the helix are described and illustrated.Type: GrantFiled: June 28, 1977Date of Patent: March 27, 1979Assignee: General Cable CorporationInventor: Ludwik Jachimowicz
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Patent number: 4145567Abstract: This cable for high-voltage, alternating current power transmission cables not only reduces the access of moisture into the cable but reduces access of moisture to the inner face of the insulation to such an extent as to make the cable highly resistant to the formation of electrochemical trees in the solid extruded insulation of the cable. A compressible layer of closed cell, foamed plastic is extruded over the outside surface of the insulation; and a metallic shield fits tightly around the compressible layer, the metallic shield being a longitudinally folded tape with a lap seam which is preferably bonded to prevent ingress of air or other fluid into the cable. If the conductor is stranded, sealant is used to prevent ingress of moisture, or of air, and the humidity it contains into the cable at cable ends.Type: GrantFiled: June 6, 1977Date of Patent: March 20, 1979Assignee: General Cable CorporationInventors: George Bahder, George S. Eager, Jr., Carlos Katz
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Patent number: RE30228Abstract: This electrostatic shielding tape is a metal strip of low resistance and low reactance folded longitudinally over the length of an insulated power cable having a semi-conducting insulation shield surrounding its insulation. The longitudinally folded metallic tape has its edges free to permit expansion of the insulation and insulation shield, located directly under it, without significant deformation of the insulation and the insulation shield. When the tape is of a metal requiring a thin corrosion-protective coating, the coating on the side adjacent to the insulation shield is preferably semi-conducting to accept charging current from the insulation shield. It is a feature that the metal of the electrostatic shield is in electrical communication with the insulation shield. .Iadd.Type: GrantFiled: September 28, 1977Date of Patent: March 11, 1980Assignee: General Cable CorporationInventors: David A. Silver, George Bahder
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Patent number: RE31277Abstract: Communication cables with cores that have groups of conductor pairs, that carry messages in opposite directions, in the same cable present the problem of crosstalk between the different groups. With the increase in carrier frequency that is used for communication, the crosstalk problem increases, and cables that were acceptable for lower frequency are no longer adequate. This invention provides more efficient shielding; is suitable for higher frequencies; provides a stronger cable structure; and reduces corrosion of the shielding.Type: GrantFiled: August 21, 1981Date of Patent: June 14, 1983Assignee: General Cable CorporationInventors: Anthony P. Gabriel, Jimmy Justiss
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Patent number: D378586Type: GrantFiled: December 21, 1995Date of Patent: March 25, 1997Assignee: General Cable CorporationInventor: Paul A. Hedrick
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Patent number: D402962Type: GrantFiled: December 12, 1997Date of Patent: December 22, 1998Assignee: General Cable CorporationInventor: Paul A. Hedrick