Patents by Inventor Alan Lyndon Grantz
Alan Lyndon Grantz 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: 7407327Abstract: A system, method and means is provided for withstanding mechanical shock for use with fluid dynamic bearings. A sealing system is provided that withstands 1000 G shock events. In an aspect, a grooved pumping seal employed between a thrust plate and a shield, a thrust plate having spiral grooves, a fluid recirculation passageway, and a reservoir creates an asymmetric pressure gradient. In an aspect, fluid is retained and air is purged utilizing an enlarged fluid reservoir, axial channels and an angled fill hole. In an aspect, a shaft is attached to a top cover supplying radial stiffness, and an enlarged single-sided thrust plate improves dynamic parallelism.Type: GrantFiled: July 31, 2003Date of Patent: August 5, 2008Assignee: Seagate Technology LLCInventors: Lynn Bich-Quy Le, Alan Lyndon Grantz
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Patent number: 7284910Abstract: A disk drive motor having a capillary bearing seal is provided. In one embodiment, a disk drive motor includes a stationary assembly and a rotating assembly having a fluid dynamic journal bearing disposed therebetween. A capillary seal is defined proximate an upper end of the journal bearing and coupled to at least one re-circulation path. The capillary seal is configured to advantageously retain lubricating fluids within the motor when the motor is subjected to lateral shock.Type: GrantFiled: June 3, 2004Date of Patent: October 23, 2007Inventors: Daniel Dennis Dittmer, Robert Michael Pelstring, Anthony J. Aiella, Lynn Bich-Ouy Le, Hans L. Leuthold, Alan Lyndon Grantz
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Patent number: 7213972Abstract: A fluid dynamic bearing design featuring a shaft, a first and second conical bearing affixed, respectively, to a first and second end of the shaft, and asymmetric seals on each bearing. The asymmetric seals pump fluid into reservoirs on the first and second conical bearings.Type: GrantFiled: June 26, 2003Date of Patent: May 8, 2007Assignee: Seagate Technology LLCInventor: Alan Lyndon Grantz
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Patent number: 7101085Abstract: A fluid dynamic bearing design is provided featuring a rotating shaft with at least one conical bearing formed integrally thereon. The shaft is disposed through a stationary sleeve, and a fluid separates the shaft and sleeve surfaces.Type: GrantFiled: June 3, 2003Date of Patent: September 5, 2006Assignee: Seagate Technology LLCInventors: Alan Lyndon Grantz, Robert Alan Nottingham
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Patent number: 7095147Abstract: A fluid dynamic bearing motor features a stationary assembly, a rotating assembly supported on the stationary assembly, a fluid dynamic bearing system in a gap between the stationary and rotating assemblies, a radial capillary seal defined proximate a first end of the journal gap, and at least one re-circulation hole extending from the radial capillary seal to a second end of the journal gap. A single thrust shaft end bearing which pressurizes the shaft end to create an axial thrust bearing and drive bubbles in the fluid (where the fluid is a liquid) to the outer diameter of the shaft and into the recirculation path. The journal may be supported for rotation by dual sets of grooves; the dual groove asymmetry in the journal maintains a positive pressure between the journals.Type: GrantFiled: January 21, 2003Date of Patent: August 22, 2006Assignee: Seagate Technology LLCInventors: Anthony J. Aiello, Alan Lyndon Grantz, Klaus D. Kloeppel, Paco Flores
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Patent number: 7063462Abstract: A disk drive motor is provided comprising a stationary assembly supported from a base, a rotating assembly supported by the stationary assembly, a fluid dynamic bearing positioned in a gap between the rotating assembly and the stationary assembly, a seal reservoir defined between the stationary assembly and the rotating assembly, at least one fluid re-circulation path extending through the stationary assembly and ending in the seal reservoir, and a pressure-regulating obstruction located in the re-circulation path.Type: GrantFiled: August 19, 2003Date of Patent: June 20, 2006Assignee: Seagate Technology LLCInventors: Anthony Joseph Aiello, Alan Lyndon Grantz
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Patent number: 7056026Abstract: Improved capillary sealing is provided for withstanding shock events, vibration and evaporation, for use with fluid dynamic bearings. In an aspect, minimal axial space is occupied by a fluid reservoir and the sealing system and method withstands at least 1000 G shock events. A fluid reservoir having a capillary surface is formed between diverging walls. A fluid fill pool, separate from the fluid reservoir and having a steeper angle than the fluid reservoir, is positioned adjacent to a fluid fill hole. The fill pool, having a greater diverging angle than the fluid reservoir provides an unstable region for fluid to remain and any fluid is pulled by capillary force gradient to the fluid reservoir.Type: GrantFiled: October 14, 2003Date of Patent: June 6, 2006Assignee: Seagate Technology LLCInventors: Alan Lyndon Grantz, Norbert Steven Parsoneault, Chris Michael Woldemar, James Sidney Lee
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Patent number: 7042125Abstract: A fluid bearing design is provided which according to one aspect includes a shaft defining together with a surrounding sleeve an asymmetric journal bearing, and a thrust bearing at or near an end of the shaft towards which the asymmetric journal bearing is pumping, with that end of the shaft being closed off. The journal bearing asymmetry establishes a hydraulic pressure toward the closed end of the shaft. This pressure provides an axial thrust to set the bearing gap for the conical bearing. The conical bearing itself is a relatively balanced bearing, although it may have a bias pumping toward the shaft and the journal bearing. A pressure closed equalization path from the journal bearing through the conical bearing to the end of the shaft may be established to maintain a constant hydraulic force across the conical bearing, and which may also prevent any asymmetry in the conical bearing from affecting the net thrust force acting upon the end of the shaft where the conical bearing is located.Type: GrantFiled: October 2, 2002Date of Patent: May 9, 2006Assignee: Seagate Technology LLCInventors: Jeffry Arnold LeBlanc, Alan Lyndon Grantz, Troy Michael Herndon, Michael David Kennedy, Anthony Joseph Aiello, Robert Alan Notthingham
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Patent number: 6955471Abstract: A fluid dynamic bearing cartridge includes a shaft or sleeve adapted to be fixed in place has at least one fluid dynamic bearing supporting the shaft and one or more seals at either end of the shaft. The seal arrangements may include a pair of centrifugal capillary seals at either end of the shaft. Alternatively, a grooved pumping seal or centrifugal capillary seal at one end may be used in combination with a static capillary seal, especially where a journal bearing defined along the shaft near the capillary seal has an imbalanced groove section.Type: GrantFiled: October 7, 2003Date of Patent: October 18, 2005Assignee: Seagate Technology LLCInventors: Gunter Heine, Alan Lyndon Grantz
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Patent number: 6946764Abstract: A disc drive design comprising a shaft and sleeve supported for relative rotation by a journal type fluid dynamic bearing utilizing grooves on one of the shaft or sleeve surfaces. At least a part of the shaft is generally conical in cross-section, so that a downward force component is developed to balance upward pressure on end of shaft; this conical region typically includes a fluid dynamic bearing (grooves being on either the shaft or sleeve). A grooved pattern of a design similar to that usually found on a thrust plate may be defined on an axial end surface of the shaft or the counterplate facing the axial end of the shaft, so that thrust is created to maintain separation of the end of the shaft and the facing counterplate plate during relative rotation. A diamond-like coating (DLC) may be applied to the counterplate surface or to the end of the shaft; further, either the counterplate or shaft may be made out of ceramic material to enhance this performance.Type: GrantFiled: December 23, 2002Date of Patent: September 20, 2005Assignee: Seagate Technology LLCInventors: Jeffry Arnold LeBlanc, Alan Lyndon Grantz, Troy Michael Herndon, Michael David Kennedy, Robert Alan Nottingham, Anthony Joseph Aiello, Klaus Dieter Kloeppel, Paco Flores
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Publication number: 20040247213Abstract: A disk drive motor having a capillary bearing seal is provided. In one embodiment, a disk drive motor includes a stationary assembly and a rotating assembly having a fluid dynamic journal bearing disposed therebetween. A capillary seal is defined proximate an upper end of the journal bearing and coupled to at least one re-circulation path. The capillary seal is configured to advantageously retain lubricating fluids within the motor when the motor is subjected to lateral shock.Type: ApplicationFiled: June 3, 2004Publication date: December 9, 2004Inventors: Daniel Dennis Dittmer, Robert Michael Pelstring, Anthony J. Aiella, Lynn Bich-Ouy Le, Hans L. Leuthold, Alan Lyndon Grantz
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Patent number: 6828709Abstract: The invention is a fluid dynamic bearing motor featuring a stationary assembly supported from a base, a rotating assembly supported on the stationary assembly, a fluid dynamic bearing in a gap between the stationary and rotating assemblies, a radial capillary seal is defined proximate a first end of the gap, and at least one re-circulation hole extending from the radial capillary seal to a second end of the gap.Type: GrantFiled: January 21, 2003Date of Patent: December 7, 2004Assignee: Seagate Technology LLCInventors: Alan Lyndon Grantz, Anthony J. Aiello
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Publication number: 20040195777Abstract: Improved capillary sealing is provided for withstanding shock events, vibration and evaporation, for use with fluid dynamic bearings. In an aspect, minimal axial space is occupied by a fluid reservoir and the sealing system and method withstands at least 1000 G shock events. A fluid reservoir having a capillary surface is formed between diverging walls. A fluid fill pool, separate from the fluid reservoir and having a steeper angle than the fluid reservoir, is positioned adjacent to a fluid fill hole. The fill pool, having a greater diverging angle than the fluid reservoir provides an unstable region for fluid to remain and any fluid is pulled by capillary force gradient to the fluid reservoir.Type: ApplicationFiled: October 14, 2003Publication date: October 7, 2004Inventors: Alan Lyndon Grantz, Norbert Steven Parsoneault, Chris Michael Woldemar, James Sidney Lee
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Patent number: 6799892Abstract: A bearing system in which an axially stiff narrow gap fluid dynamic gas bearing is preloaded by an axially less stiff larger gap fluid dynamic bearing. As an example two fluid dynamic bearings are provided spaced apart along a shaft, one of the bearings comprising a fluid dynamic bearing, the other comprising an air bearing. The fluid dynamic bearing has a larger gap, while the air bearing has a relatively small gap. The overall working surface area of the air bearing may be twice as much or more than the working surface area of the fluid bearing.Type: GrantFiled: June 28, 2002Date of Patent: October 5, 2004Assignee: Seagate Technology LLCInventors: Hans Leuthold, Michael D. Kennedy, Alan Lyndon Grantz, Susan Immisch, Norbert Steve Parsoneault, Mohamed Mizanur Rahman
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Publication number: 20040184688Abstract: A system, method and means is provided for withstanding mechanical shock for use with fluid dynamic bearings. A sealing system is provided that withstands 1000 G shock events. In an aspect, a grooved pumping seal employed between a thrust plate and a shield, a thrust plate having spiral grooves, a fluid recirculation passageway, and a reservoir creates an asymmetric pressure gradient. In an aspect, fluid is retained and air is purged utilizing an enlarged fluid reservoir, axial channels and an angled fill hole. In an aspect, a shaft is attached to a top cover supplying radial stiffness, and an enlarged single-sided thrust plate improves dynamic parallelism.Type: ApplicationFiled: July 31, 2003Publication date: September 23, 2004Inventors: Lynn Bich-Quy Le, Alan Lyndon Grantz
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Publication number: 20040141668Abstract: A fluid dynamic bearing cartridge includes a shaft or sleeve adapted to be fixed in place has at least one fluid dynamic bearing supporting the shaft and one or more seals at either end of the shaft. The seal arrangements may include a pair of centrifugal capillary seals at either end of the shaft. Alternatively, a grooved pumping seal or centrifugal capillary seal at one end may be used in combination with a static capillary seal, especially where a journal bearing defined along the shaft near the capillary seal has an imbalanced groove section.Type: ApplicationFiled: October 7, 2003Publication date: July 22, 2004Applicant: SEAGATE TECHNOLOGY LLCInventors: Gunter Heine, Alan Lyndon Grantz
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Publication number: 20040119353Abstract: A disc drive design comprising a shaft and sleeve supported for relative rotation by a journal type fluid dynamic bearing utilizing grooves on one of the shaft or sleeve surfaces. At least a part of the shaft is generally conical in cross-section, so that a downward force component is developed to balance upward pressure on end of shaft; this conical region typically includes a fluid dynamic bearing (grooves being on either the shaft or sleeve). A grooved pattern of a design similar to that usually found on a thrust plate may be defined on an axial end surface of the shaft or the counterplate facing the axial end of the shaft, so that thrust is created to maintain separation of the end of the shaft and the facing counterplate plate during relative rotation. A diamond-like coating (DLC) may be applied to the counterplate surface or to the end of the shaft; further, either the counterplate or shaft may be made out of ceramic material to enhance this performance.Type: ApplicationFiled: December 23, 2002Publication date: June 24, 2004Inventors: Jeffry Arnold LeBlanc, Alan Lyndon Grantz, Troy Michael Herndon, Michael David Kennedy, Robert Alan Nottingham, Anthony Joseph Aiello, Klaus Dieter Kloeppel, Paco Flores
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Publication number: 20040076351Abstract: A bearing structure/sealing configuration with asymmetric sealing and fluid recirculation allows the shaft to exit both ends of the spindle hub is used. Asymmetric sealing is used across the bearing section, with recirculation provided to ensure that the asymmetric seal predominates. A centrifugal capillary seal may be used on one end of the motor, while a grooved pumping seal may be used on the opposite end, providing asymmetric sealing.Type: ApplicationFiled: August 14, 2003Publication date: April 22, 2004Inventors: Alan Lyndon Grantz, Lynn Bich-Quy Le
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Publication number: 20040075939Abstract: A disk drive motor is provided comprising a stationary assembly supported from a base, a rotating assembly supported by the stationary assembly, a fluid dynamic bearing positioned in a gap between the rotating assembly and the stationary assembly, a seal reservoir defined between the stationary assembly and the rotating assembly, at least one fluid re-circulation path extending through the stationary assembly and ending in the seal reservoir, and a pressure-regulating obstruction located in the re-circulation path.Type: ApplicationFiled: August 19, 2003Publication date: April 22, 2004Inventors: Anthony Joseph Aiello, Alan Lyndon Grantz
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Patent number: 6702465Abstract: A method and apparatus for a conical bearing is provided having a seal shield having an angle supported from the hub or sleeve which surrounds the shaft, and extending at an angle toward the outer surface of the shaft and spaced slightly away from the upper angular surface of the cone. As the cone and seal shield rotate relative to one another, fluid is drawn toward the lower inner region of the reservoir. However, due to shock or the like, some fluid may reach the radial gap between the end of the shield and the outer surface of the shaft, therefore, a ring is either incorporated into the upper end of the cone or pressed against the axial outer end of the cone, defining an axial gap which is smaller than the radial gap. In a preferred form of the invention, the ratio is about 1:3.Type: GrantFiled: December 13, 2001Date of Patent: March 9, 2004Inventors: Alan Lyndon Grantz, Robert Alan Nottingham, Jeffry Arnold LeBlanc, Troy Michael Herndon, Norbert Steve Parsoneault, Saul Ceballos, Hans Leuthold, Alexander Gredinberg