Patents by Inventor Richard A. Bennett

Richard A. Bennett 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).

  • Patent number: 8162158
    Abstract: A slide through shelf is provided. A slide through shelf is illustrated mounted to a vertical retail wall. A slide through shelf as disclosed allows a user to selectably position the slide through shelf's supports in an infinite number of configurations. The slide through shelf may be quickly assembled to accommodate different types of loading and may be adjusted to provide customized product partitioning.
    Type: Grant
    Filed: September 15, 2008
    Date of Patent: April 24, 2012
    Assignee: Southern Imperial, Inc.
    Inventors: Robert L. Northrup, Jr., Richard A. Bennett
  • Publication number: 20100065523
    Abstract: A slide through shelf is provided. A slide through shelf is illustrated mounted to a vertical retail wall. A slide through shelf as disclosed allows a user to selectably position the slide through shelf s supports in an infinite number of configurations. The slide through shelf may be quickly assembled to accommodate different types of loading and may be adjusted to provide customized product partitioning.
    Type: Application
    Filed: September 15, 2008
    Publication date: March 18, 2010
    Applicant: SOUTHERN IMPERIAL
    Inventors: Robert L. Northrup, JR., Richard A. Bennett
  • Patent number: 7051463
    Abstract: A device for displaying and exchanging a plurality of documents of various shapes and sizes and for organizing the same. The device of the present invention comprises at least two layers of pliable sheet material. If multiple sheets are used, the sheets may be nested together. The sheets may then be inserted into a binder mechanism where the binder mechanism compressibly engages the layers to create a pressure region adjacent thereto. The frictional force between the sheet material and the inserted document retains a document inserted into the pressure region formed between two adjacent layers.
    Type: Grant
    Filed: March 20, 2003
    Date of Patent: May 30, 2006
    Assignee: Corbitz, Ltd.
    Inventors: Howard M. Bing, Richard A. Bennett
  • Patent number: 6779550
    Abstract: A pressure vessel or pressurizable canister has a hollow, thin-walled, cylindrical metal shell or tube. Two end caps are hermetically sealed to the respective distal ends of the metal shell by the process of magnetic pulse welding that requires no external heat. The two end caps are made of a metallic alloy such as aluminum. The end caps are each cylindrically shaped and have at least one circumferential recess to accommodate the metal of the shell tube as it deforms about the end caps and forms an intermolecular bond. The canister can hold a pressure of at least 1,800 psi.
    Type: Grant
    Filed: February 26, 2002
    Date of Patent: August 24, 2004
    Assignee: Fuel Cell Components & Integrators, Inc.
    Inventors: Richard A. Bennett, Robert L. Benoit, Bernard I. Rachowitz, Anthony Mascolo
  • Publication number: 20030177682
    Abstract: A device for displaying and exchanging a plurality of documents of various shapes and sizes and for organizing the same. The device of the present invention comprises at least two layers of pliable sheet material. If multiple sheets are used, the sheets may be nested together. The sheets may then be inserted into a binder mechanism where the binder mechanism compressibly engages the layers to create a pressure region adjacent thereto. The frictional force between the sheet material and the inserted document retains a document inserted into the pressure region formed between two adjacent layers.
    Type: Application
    Filed: March 20, 2003
    Publication date: September 25, 2003
    Applicant: Corbitz, Ltd.
    Inventors: Howard M. Bing, Richard A. Bennett
  • Patent number: 6557252
    Abstract: A method and apparatus for fabricating uniform splices for stranded cables. A joint for a stranded cable can be formed by inserting the ends of two cables into an electrically conductive splice band which, in turn, is inserted into a coil or inductor. The splice is fabricated by a process known as magnetic pulse forming, or magnetic pulse welding wherein a very large electrical current of short duration is directed through the coil or inductor from a charged capacitor bank. The resulting magnetic field in the coil or inductor induces a magnetic field on the splice band, compressing the splice band uniformly around the circumference of the two cable ends being spliced. In the case of magnetic pulse welding, the splice not only uniformly compresses the stranded cables, but a weld is also created between the inner diameter of the sleeve and the adjacent stranded cables.
    Type: Grant
    Filed: December 14, 2000
    Date of Patent: May 6, 2003
    Assignee: Fuel Cell Components and Integrators, Inc.
    Inventors: Richard A. Bennett, Robert L. Benoit, Bernard I. Rachowitz, Glenn L. Spacht
  • Publication number: 20020074150
    Abstract: A method and apparatus for fabricating uniform splices for stranded cables. A joint for a stranded cable can be formed by inserting the ends of two cables into an electrically conductive splice band which, in turn, is inserted into a coil or inductor. The splice is fabricated by a process known as magnetic pulse forming, or magnetic pulse welding wherein a very large electrical current of short duration is directed through the coil or inductor from a charged capacitor bank. The resulting magnetic field in the coil or inductor induces a magnetic field on the splice band, compressing the splice band uniformly around the circumference of the two cable ends being spliced. In the case of magnetic pulse welding, the splice not only uniformly compresses the stranded cables, but a weld is also created between the inner diameter of the sleeve and the adjacent stranded cables.
    Type: Application
    Filed: December 14, 2000
    Publication date: June 20, 2002
    Inventors: Richard A. Bennett, Robert L. Benoit, Bernard I. Rachowitz, Glenn L. Spacht
  • Patent number: 6123353
    Abstract: A method of forming a tubular frame, e.g., a bicycle frame, from two substantially symmetrical frame-halves utilizes a plurality of interconnected half-tubular elements. Each half-tubular element has an exterior surface, an interior surface, and longitudinal edges that extend between the exterior and interior surfaces in the direction of the longitudinal axis of the half-tubular element. The surfaces of the longitudinal edges of the half-tubular elements are shaped such that corresponding edges of corresponding half-tubular elements in the left and right half-frames may easily be interengaged, and adjusted along the respective longitudinal axes of the half-tubular elements that are being joined. Preferably, the longitudinal free edges are stepped in the radial direction such that each level is substantially planar and smooth along the respective longitudinal axis of the half-tubular element.
    Type: Grant
    Filed: February 19, 1997
    Date of Patent: September 26, 2000
    Assignee: Techmatics, Inc.
    Inventors: Richard A. Bennett, Robert L. Benoit, William F. Fahey, Bernard I. Rachowitz, Glenn L. Spacht
  • Patent number: 5979694
    Abstract: A pressure vessel, or pressurizable canister is described herein. The canister has a hollow, thin-walled, cylindrical, metal shell. The preferred metal is aluminum, because light weight is a consideration for the vessel. Two end caps are mechanically sealed to the respective distal ends of the metal shell tube by the process of electromagnetic pulse forming. The two end caps are made of a high strength, ductile thermoplastic. The preferred plastic is DELRIN.RTM., which is fabricated from an acetal resin. The plastic end caps are injection molded, and can include reinforcing threads. The end caps are each cylindrically shaped, and have at least one circumferential recess to accommodate the metal of the shell tube as it deforms about the end caps. The tube shrinks into the recess of the end caps, and forms a mechanical seal therewith.
    Type: Grant
    Filed: April 9, 1997
    Date of Patent: November 9, 1999
    Assignee: TechMatics, Inc.
    Inventors: Richard A. Bennett, Robert L. Benoit, Bernard I. Rachowitz, Glenn L. Spacht
  • Patent number: 5916039
    Abstract: A new method of fabricating the joint between a golf club head and the golf club shaft, and the article fabricated therefrom, is described herein. The golf club head in which the shaft is inserted has a bore hole having a recessed contoured aperture. The hollow, metal, or electrically conductive golf club shaft is placed into the bore hole of the club head, and an electric coil is placed inside the shaft. The electric coil is electrically pulsed, causing the shaft to expand outwardly to fit the contour of the aperture. The electro-formed, mechanically-bonded shaft is now permanently and integrally anchored to the golf club head. The club head aperture is additionally fitted with a plurality of vertically-disposed grooves along the vertical shaft axis. These vertical grooves capture the shaft as it expands outwardly to the internal surface during electromagnetic forming. The electromagnetically-formed shaft expands into these grooves and is prevented from rotationally or angularly slipping about the club head.
    Type: Grant
    Filed: July 8, 1997
    Date of Patent: June 29, 1999
    Assignee: NBG Technologies, Inc.
    Inventors: Richard A. Bennett, Robert L. Benoit, Bernard I. Rachowitz, Glenn L. Spacht
  • Patent number: 5743810
    Abstract: A new method is disclosed of fabricating the joint between a golf club post and a drive shaft, as is the article fabricated therefrom. The golf club post to which the shaft attaches includes a circumferential recessed contour. The hollow, metal, electrically conductive golf club shaft is placed over the post, and an electric coil is placed around the shaft and post juncture. The electric coil is electrically pulsed, causing the shaft to shrink fit to the contour of the post. The electro-formed, mechanically bonded shaft is now permanently and integrally anchored to the golf club post. In a second embodiment, a non-conductive shaft of carbon fiber, for example, is electromagnetically bonded to the post, using a metallic ring, which is electromagnetically formed around the non-metallic shaft and post. In a third embodiment, the club head post is additionally fitted with at least one vertically disposed groove along the vertical axis of the post.
    Type: Grant
    Filed: April 9, 1997
    Date of Patent: April 28, 1998
    Assignee: TechMatics, Inc.
    Inventors: Richard A. Bennett, Robert L. Benoit, Bernard I. Rachowitz, Glenn L. Spacht
  • Patent number: 5427189
    Abstract: There is described a handheld and actuated tool for making small diameter holes in the earth, comprising an elongated earth penetrating tubular member for cutting a core of earth, and a handle portion connected to the tubular member for transmitting earth penetrating and torsional forces thereto and for pulling the tubular member from the earth to remove the core of earth therein.
    Type: Grant
    Filed: January 27, 1994
    Date of Patent: June 27, 1995
    Inventor: Richard A. Bennett
  • Patent number: 5362183
    Abstract: A titanium-nitride coated carbide cutting tool is formed with complex angularly intersecting surfaces which form cutting edges having a generally trapezoidal configuration. The tool creates fine thread-like grooves in a circumferential wall of a tube which may be employed as a heat pipe. The generally trapezoidal resulting groove increases groove surface area that in turn increases working fluid wicking action.
    Type: Grant
    Filed: October 5, 1993
    Date of Patent: November 8, 1994
    Inventors: Joseph Alario, Richard A. Bennett, Ronald S. Dluginski, William P. Hermanek
  • Patent number: D331330
    Type: Grant
    Filed: May 24, 1990
    Date of Patent: December 1, 1992
    Inventors: Richard A. Bennett, Howard M. Bing