Patents by Inventor Layne Railsback
Layne Railsback 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: 10359774Abstract: Diagnostic and response systems and methods for a fluid power system acquire data from pressure and temperature sensors disposed in the fluid power system, analyze the data in a failure algorithm to build a history of cumulative damage to hoses in the fluid power system, communicates an indication of potential imminent hose failure to a central location when a level of the cumulative damage indicates imminent failure of a hose, analyze the information at the central location to determine an appropriate response, and transmit information about the fluid power system, including location, and identification of the hose about to fail to a response unit. The response unit responds to the location and replaces the component prior to failure, or the communication might include information that the hose has failed, such that the response unit replaces the failed hose to return the fluid power system to normal operation.Type: GrantFiled: October 28, 2008Date of Patent: July 23, 2019Assignee: Gates CorporationInventors: Geoffrey Richard Keast, Michael H. Ellis, Jonathan Clark Swift, Layne Railsback, Donald R. Gilbreath
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Patent number: 9303797Abstract: An hose standoff comprises a sleeve molded onto a hose and a standoff flange extending circumferentially from the sleeve. The flange contacts a surface to which the hose is adjacent, spacing the hose away from the surface and any proximate edges. The sleeve may extend from the flange, along the hose, in at least one direction to protect the hose from abrasion or cutting by an edge extending perpendicular from the surface toward the hose. A metal collar may be crimped onto the hose with the sleeve overmolding the collar. Also, a fabric covering may be disposed over the hose with the collar crimped over the fabric covering and the sleeve overmolding the collar and at least a portion of the fabric covering. Preferably the sleeve overmold contacts and bonds or otherwise mechanically locks with the fabric covering and/or the underlying hose.Type: GrantFiled: April 6, 2007Date of Patent: April 5, 2016Assignee: Gates CorporationInventors: Layne Railsback, Donald R. Gilbreath, Michael H. Ellis
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Patent number: 9267624Abstract: A bracket stores and separates conduits. The bracket includes two interchangeable halves having an engagement extrusion extending from an inner face. Each half has a corresponding receptive slot disposed in the inner face. The bracket half includes at least one conduit receptive channel defined in the inner face. The halves align and engage when each half's extrusion is inserted into the other half's slot. The channels align to secure a conduit therein. The engagement portions define a dovetail and socket engagement. At least two stages of securement may be provided. Securement may comprise snap fit, sliding or other methods. A first, temporary stage of engagement initially joins the halves, adjustably and releasably retaining the halves and the conduits together. The second and subsequent stages of engagement are tighter engagements between the tail and socket, achieved by applying more pressing force to the halves or inserting a fastener.Type: GrantFiled: April 21, 2014Date of Patent: February 23, 2016Assignee: Gates CorporationInventors: Layne Railsback, Walker Bolger, Donald R. Gilbreath, Jeffrey David Payne
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Publication number: 20140224942Abstract: A bracket stores and separates conduits. The bracket includes two interchangeable halves having an engagement extrusion extending from an inner face. Each half has a corresponding receptive slot disposed in the inner face. The bracket half includes at least one conduit receptive channel defined in the inner face. The halves align and engage when each half's extrusion is inserted into the other half's slot. The channels align to secure a conduit therein. The engagement portions define a dovetail and socket engagement. At least two stages of securement may be provided. Securement may comprise snap fit, sliding or other methods. A first, temporary stage of engagement initially joins the halves, adjustably and releasably retaining the halves and the conduits together. The second and subsequent stages of engagement are tighter engagements between the tail and socket, achieved by applying more pressing force to the halves or inserting a fastener.Type: ApplicationFiled: April 21, 2014Publication date: August 14, 2014Applicant: THE GATES CORPORATIONInventors: Layne Railsback, Walker Bolger, Donald R. Gilbreath, Jeffrey David Payne
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Patent number: 8702044Abstract: A bracket stores and separates conduits. The bracket includes two interchangeable halves having an engagement extrusion extending from an inner face. Each half has a corresponding receptive slot disposed in the inner face. The bracket half includes at least one conduit receptive channel defined in the inner face. The halves align and engage when each half's extrusion is inserted into the other half's slot. The channels align to secure a conduit therein. The engagement portions may comprise a dovetail and socket engagement. At least two stages of securement are provided. Securement may comprise snap fit, sliding or other methods. A first, temporary stage of engagement initially joins the halves, adjustably and releasably retaining the halves and the conduits together. The second and subsequent stages of engagement are tighter engagements between the tail and socket, achieved by applying more pressing force to the halves or inserting a fastener.Type: GrantFiled: February 4, 2009Date of Patent: April 22, 2014Assignee: The Gates CorporationInventors: Layne Railsback, Walker Bolger, Donald R. Gilbreath, Jeffrey David Payne
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Patent number: 8138931Abstract: Diagnostic and response systems and methods for a fluid power system acquire data from pressure and temperature sensors disposed in the fluid power system, analyze the data in a failure algorithm to build a history of cumulative damage to hoses in the fluid power system, communicates an indication of potential imminent hose failure to a central location when a level of the cumulative damage indicates imminent failure of a hose, analyze the information at the central location to determine an appropriate response, and transmit information about the fluid power system, including location, and identification of the hose about to fail to a response unit. The response unit responds to the location and replaces the component prior to failure, or the communication might include information that the hose has failed, such that the response unit replaces the failed hose to return the fluid power system to normal operation.Type: GrantFiled: October 28, 2008Date of Patent: March 20, 2012Assignee: The Gates CorporationInventors: Geoffrey Richard Keast, Michael H. Ellis, Jonathan Clark Swift, Layne Railsback, Donald R. Gilbreath
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Patent number: 8087425Abstract: A hose assembly includes a length of hose and a bracket. The bracket includes a rigid insert and a resilient overmold encapsulating at least a portion of the insert and mechanically bonding with at least a portion of an exterior of the hose. A method to produce this assembly may employ thermoplastic injection molding and include the steps of associating the rigid insert with the length of hose and overmolding the rigid insert and a section of the length of hose associated with the rigid insert with the resilient material, thereby encapsulating a portion of the insert and mechanically bonding the resilient material with the section of the length of the hose. A portion of the rigid insert may extend from the bracket and provide amounting holes and a bearing surface for mounting fasteners.Type: GrantFiled: July 17, 2006Date of Patent: January 3, 2012Assignee: The Gates CorporationInventor: Layne Railsback
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Publication number: 20110297266Abstract: An hose standoff comprises a sleeve molded onto a hose and a standoff flange extending circumferentially from the sleeve. The flange contacts a surface to which the hose is adjacent, spacing the hose away from the surface and any proximate edges. The sleeve may extend from the flange, along the hose, in at least one direction to protect the hose from abrasion or cutting by an edge extending perpendicular from the surface toward the hose. A metal collar may be crimped onto the hose with the sleeve overmolding the collar. Also, a fabric covering may be disposed over the hose with the collar crimped over the fabric covering and the sleeve overmolding the collar and at least a portion of the fabric covering. Preferably the sleeve overmold contacts and bonds or otherwise mechanically locks with the fabric covering and/or the underlying hose.Type: ApplicationFiled: April 6, 2007Publication date: December 8, 2011Inventors: Layne Railsback, Donald R. Gilbreath, Michael H. Ellis
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Publication number: 20100193651Abstract: A bracket stores and separates conduits. The bracket includes two interchangeable halves having an engagement extrusion extending from an inner face. Each half has a corresponding receptive slot disposed in the inner face. The bracket half includes at least one conduit receptive channel defined in the inner face. The halves align and engage when each half's extrusion is inserted into the other half's slot. The channels align to secure a conduit therein. The engagement portions may comprise a dovetail and socket engagement. At least two stages of securement are provided. Securement may comprise snap fit, sliding or other methods. A first, temporary stage of engagement initially joins the halves, adjustably and releasably retaining the halves and the conduits together. The second and subsequent stages of engagement are tighter engagements between the tail and socket, achieved by applying more pressing force to the halves or inserting a fastener.Type: ApplicationFiled: February 4, 2009Publication date: August 5, 2010Inventors: Layne Railsback, Walker Bolger, Donald R. Gilbreath, Jeffrey David Payne
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Publication number: 20100102974Abstract: Diagnostic and response systems and methods for a fluid power system acquire data from pressure and temperature sensors disposed in the fluid power system, analyze the data in a failure algorithm to build a history of cumulative damage to hoses in the fluid power system, communicates an indication of potential imminent hose failure to a central location when a level of the cumulative damage indicates imminent failure of a hose, analyze the information at the central location to determine an appropriate response, and transmit information about the fluid power system, including location, and identification of the hose about to fail to a response unit. The response unit responds to the location and replaces the component prior to failure, or the communication might include information that the hose has failed, such that the response unit replaces the failed hose to return the fluid power system to normal operation.Type: ApplicationFiled: October 28, 2008Publication date: April 29, 2010Inventors: Geoffrey Richard Keast, Michael H. Ellis, Jonathan Clark Swift, Layne Railsback, Donald R. Gilbreath
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Publication number: 20100106461Abstract: Diagnostic and response systems and methods for a fluid power system acquire data from pressure and temperature sensors disposed in the fluid power system, analyze the data in a failure algorithm to build a history of cumulative damage to hoses in the fluid power system, communicates an indication of potential imminent hose failure to a central location when a level of the cumulative damage indicates imminent failure of a hose, analyze the information at the central location to determine an appropriate response, and transmit information about the fluid power system, including location, and identification of the hose about to fail to a response unit. The response unit responds to the location and replaces the component prior to failure, or the communication might include information that the hose has failed, such that the response unit replaces the failed hose to return the fluid power system to normal operation.Type: ApplicationFiled: October 28, 2008Publication date: April 29, 2010Inventors: Geoffrey Richard Keast, Michael H. Ellis, Jonathan Clark Swift, Layne Railsback, Donald R. Gilbreath
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Publication number: 20080011933Abstract: A hose assembly includes a length of hose and a bracket. The bracket includes a rigid insert and a resilient overmold encapsulating at least a portion of the insert and mechanically bonding with at least a portion of an exterior of the hose. A method to produce this assembly may employ thermoplastic injection molding and include the steps of associating the rigid insert with the length of hose and overmolding the rigid insert and a section of the length of hose associated with the rigid insert with the resilient material, thereby encapsulating a portion of the insert and mechanically bonding the resilient material with the section of the length of the hose. A portion of the rigid insert may extend from the bracket and provide amounting holes and a bearing surface for mounting fasteners.Type: ApplicationFiled: July 17, 2006Publication date: January 17, 2008Inventor: Layne Railsback
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Patent number: 4997213Abstract: A method of assembling a connection for branched radiator coolant hose in which the hoses to be connected are adhered onto the ends of a T-shaped connector. Then a capsule of rubber is molded around the area of the connection and cured to form a unitary and integral connection.Type: GrantFiled: December 21, 1989Date of Patent: March 5, 1991Assignee: The Gates Rubber CompanyInventors: Dale Traner, Layne Railsback, James McDaniel, Bradley Chaffee