Patents by Inventor Jesner H. Pereira
Jesner H. Pereira 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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Patent number: 8985636Abstract: A flexible pipe joint has two annular elastomeric flex elements stacked in a co-axial fashion at an inner radius from a common center of rotation, and at least one elastomeric flex element disposed at an outer radius from the common center of rotation. The flex elements at the inner radius are coupled mechanically in series between the extension pipe and the housing of the flexible pipe joint, and the flex element at the outer radius is coupled mechanically in parallel with the series combination of the inner flex elements. The inner flex elements isolate the flex element at the outer radius from transport fluid, and the flex element at the outer radius reduces the axial compression of the inner flex elements. Thus, the inner flex elements may have a reduced radius and a different composition to handle a higher loading of heat and pressure.Type: GrantFiled: August 25, 2011Date of Patent: March 24, 2015Assignee: Oil States Industries, Inc.Inventors: Danton Gutierrez-Lemini, Todd M. Pottorff, George W. Peppel, James G. Patrick, Carl C. Spicer, Jesner H. Pereira, Gregory P. Cruse
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Patent number: 8128129Abstract: A double-ended flexible pipe joint has first and second extension pipes extending from opposite ends of an outer housing, and first and second primary annular elastomeric flex elements mounting the first and second extension pipes to the outer housing. An inner housing is disposed in the outer housing, and first and second secondary annular elastomeric flex elements disposed in the inner housing mount the first and second extension pipes to the inner housing. Tension upon the first and second extension pipes places each of the first and second primary flex elements and each of the first and second secondary flex elements in compression. The first and second secondary flex elements contain fluid pressure within the first and second extension pipes so that the first and second primary flex elements are not subjected to the fluid pressure within the extension pipes.Type: GrantFiled: July 15, 2009Date of Patent: March 6, 2012Assignee: Oil States Industries, Inc.Inventors: Danton Gutierrez-Lemini, George W. Peppel, Jesner H. Pereira, James G. Patrick, Carl C. Spicer, Gregory P. Cruse, Todd M. Pottorff
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Publication number: 20120032434Abstract: A flexible pipe joint has two annular elastomeric flex elements stacked in a co-axial fashion at an inner radius from a common center of rotation, and at least one elastomeric flex element disposed at an outer radius from the common center of rotation. The flex elements at the inner radius are coupled mechanically in series between the extension pipe and the housing of the flexible pipe joint, and the flex element at the outer radius is coupled mechanically in parallel with the series combination of the inner flex elements. The inner flex elements isolate the flex element at the outer radius from transport fluid, and the flex element at the outer radius reduces the axial compression of the inner flex elements. Thus, the inner flex elements may have a reduced radius and a different composition to handle a higher loading of heat and pressure.Type: ApplicationFiled: August 25, 2011Publication date: February 9, 2012Applicant: OIL STATES INDUSTRIES, INC.Inventors: Danton Gutierrez-Lemini, Todd M. Pottorff, George W. Peppel, James G. Patrick, Carl C. Spicer, Jesner H. Pereira, Gregory P. Cruse
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Patent number: 8038177Abstract: A flexible pipe joint has two annular elastomeric flex elements stacked in a co-axial fashion at an inner radius from a common center of rotation, and at least one elastomeric flex element disposed at an outer radius from the common center of rotation. The flex elements at the inner radius are coupled mechanically in series between the extension pipe and the housing of the flexible pipe joint, and the flex element at the outer radius is coupled mechanically in parallel with the series combination of the inner flex elements. The inner flex elements isolate the flex element at the outer radius from transport fluid, and the flex element at the outer radius reduces the axial compression of the inner flex elements. Thus, the inner flex elements may have a reduced radius and a different composition to handle a higher loading of heat and pressure.Type: GrantFiled: August 21, 2008Date of Patent: October 18, 2011Assignee: Oil States Industries, Inc.Inventors: Danton Gutierrez-Lemini, Todd M. Pottorff, George W. Peppel, James G. Patrick, Carl C. Spicer, Jesner H. Pereira, Gregory P. Cruse
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Patent number: 8016324Abstract: A flexible joint has an extension mounted to a housing for relative angular displacement. Two or more annular elastomeric flex elements are stacked in a co-axial fashion and joined mechanically to mount the extension to the housing so that the flex elements react in parallel to angular and axial displacements of the extension with respect to the housing so that tensile load upon the extension places each of the flex elements in compression to split and share the tensile load among the flex elements in proportion to their relative axial stiffnesses. Therefore, for a given housing size or footprint, the overall load capacity is increased, and the lifetime of the flexible joint is increased for a given load capacity. The flex elements may have a common center of rotation, and the flex elements may be disposed either on the same side of the center of rotation or on opposite sides.Type: GrantFiled: February 25, 2008Date of Patent: September 13, 2011Assignee: Oil States Industries, Inc.Inventors: Danton Gutierrez-Lemini, Todd M. Pottorff, George W. Peppel, James G. Patrick, Carl C. Spicer, Jesner H. Pereira, Gregory P. Cruse
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Publication number: 20110012343Abstract: A double-ended flexible pipe joint has first and second extension pipes extending from opposite ends of an outer housing, and first and second primary annular elastomeric flex elements mounting the first and second extension pipes to the outer housing. An inner housing is disposed in the outer housing, and first and second secondary annular elastomeric flex elements disposed in the inner housing mount the first and second extension pipes to the inner housing. Tension upon the first and second extension pipes places each of the first and second primary flex elements and each of the first and second secondary flex elements in compression. The first and second secondary flex elements contain fluid pressure within the first and second extension pipes so that the first and second primary flex elements are not subjected to the fluid pressure within the extension pipes.Type: ApplicationFiled: July 15, 2009Publication date: January 20, 2011Applicant: Oil States Industries, Inc.Inventors: Danton Gutierrez-Lemini, George W. Peppel, Jesner H. Pereira, James G. Patrick, Carl C. Spicer, Gregory P. Cruse, Todd M. Pottorff
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Publication number: 20090212557Abstract: A flexible joint has an extension mounted to a housing for relative angular displacement. Two or more annular elastomeric flex elements are stacked in a co-axial fashion and joined mechanically to mount the extension to the housing so that the flex elements react in parallel to angular and axial displacements of the extension with respect to the housing so that tensile load upon the extension places each of the flex elements in compression to split and share the tensile load among the flex elements in proportion to their relative axial stiffnesses. Therefore, for a given housing size or footprint, the overall load capacity is increased, and the lifetime of the flexible joint is increased for a given load capacity. The flex elements may have a common center of rotation, and the flex elements may be disposed either on the same side of the center of rotation or on opposite sides.Type: ApplicationFiled: February 25, 2008Publication date: August 27, 2009Applicant: OIL STATES INDUSTRIES, INC.Inventors: Danton Gutierrez-Lemini, Todd M. Pottorff, George W. Peppel, James G. Patrick, Carl C. Spicer, Jesner H. Pereira, Gregory P. Cruse
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Publication number: 20090212558Abstract: A flexible pipe joint has two annular elastomeric flex elements stacked in a co-axial fashion at an inner radius from a common center of rotation, and at least one elastomeric flex element disposed at an outer radius from the common center of rotation. The flex elements at the inner radius are coupled mechanically in series between the extension pipe and the housing of the flexible pipe joint, and the flex element at the outer radius is coupled mechanically in parallel with the series combination of the inner flex elements. The inner flex elements isolate the flex element at the outer radius from transport fluid, and the flex element at the outer radius reduces the axial compression of the inner flex elements. Thus, the inner flex elements may have a reduced radius and a different composition to handle a higher loading of heat and pressure.Type: ApplicationFiled: August 21, 2008Publication date: August 27, 2009Applicant: OIL STATES INDUSTRIES, INC.Inventors: Danton Gutierrez-Lemini, Todd M. Pottorff, George W. Peppel, James G. Patrick, Carl C. Spicer, Jesner H. Pereira, Gregory P. Cruse