Letson
Eric Letson, Bentonville, AR US
Patent application number | Description | Published |
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20140257883 | ENTERPRISE RESOURCE SEARCH AND RESERVATION SYSTEM - Exemplary embodiments are directed to reserving physical resources in an enterprise via an electronic reservation environment. An electronic search request for an availability of one or more resources in an enterprise is received from a user through a web page and/or a mobile application and is submitted to a reservation engine. The search request includes one or more resource search parameters received via a graphical user interface associated with the electronic reservation environment. A result identifying resources that satisfy the resource search parameters in the request is received in response to the search request and an electronic metadata request is automatically submitted in response to receipt of the result. The electronic metadata request including resource identifiers corresponding to the resources identified in the result. Metadata corresponding to the resources identified in the result is received and an identity of the resources returned in the result, an availability of the resources, and the metadata associated with the resources is displayed to the user. | 09-11-2014 |
G. Doug Letson, Tampa, FL US
Patent application number | Description | Published |
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20100234962 | CONSTRAINED PROSTHETIC KNEE WITH ROTATING BEARING - A constrained prosthetic knee having a modular hinge post and a rotating bearing. A cannulated hinge post is rotatably connected to the femoral component of the knee prosthesis so that a hinge post extension may be anteriorly positioned through the hinge post and into the tibial component of the knee prosthesis, after positioning of the femoral component in the femur and the tibial component in the tibia. The hinge post is preassembled to the femoral component so that such assembly is not required during the implantation procedure. A meniscal component forming the rotating bearing of the knee prosthesis is packaged together with the hinge post extension so that the appropriate hinge post extension is readily available. The meniscal component includes a mechanism for preventing lift off of the meniscal component from the tibial component, while allowing rotation of the meniscal component relative to the tibial component. | 09-16-2010 |
G. Douglas Letson, Tampa, FL US
Patent application number | Description | Published |
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20110009973 | METHODS AND APPARATUSES FOR ATTACHING TISSUE TO ORTHOPAEDIC IMPLANTS - Methods and apparatuses for attaching tissue structures to orthopaedic implants. In one exemplary embodiment, the methods and apparatuses are used to attach soft tissue and/or bone to a proximal tibial implant. In another exemplary embodiment, the methods and apparatuses are used to attach soft tissue and/or bone to a proximal femoral implant. | 01-13-2011 |
20120101591 | STEM WITH PRESSFIT POROUS ELEMENT - An implant assembly comprises a stem and an augment. The augment includes a porous outer region which is integrally formed onto a solid inner region. The augment further includes, solid posts integrally formed on the solid inner region and extend through the porous outer region to the outer surface of the augment. The posts are integrally formed with and surrounded by the porous region and are designed to allow assembly of the augment to the stem without damaging the structure of the porous region. A method of attaching the augment is described, wherein a tool is designed to grip to posts of the augment and apply loads through these posts during assembly. | 04-26-2012 |
20120191207 | METHODS AND APPARATUSES FOR ATTACHING TISSUE TO ORTHOPAEDIC IMPLANTS - Methods and apparatuses for attaching tissue structures to orthopaedic implants. In one exemplary embodiment, the methods and apparatuses are used to attach soft tissue and/or bone to a proximal tibial implant. In another exemplary embodiment, the methods and apparatuses are used to attach soft tissue and/or bone to a proximal femoral implant. | 07-26-2012 |
20130326859 | STEM WITH PRESSFIT POROUS ELEMENT - An implant assembly comprises a stem and an augment. The augment includes a porous outer region which is integrally formed onto a solid inner region. The augment further includes, solid posts integrally formed on the solid inner region and extend through the porous outer region to the outer surface of the augment. The posts are integrally formed with and surrounded by the porous region and are designed to allow assembly of the augment to the stem without damaging the structure of the porous region. A method of attaching the augment is described, wherein a tool is designed to grip to posts of the augment and apply loads through these posts during assembly. | 12-12-2013 |
George D. Letson, Tampa, FL US
Patent application number | Description | Published |
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20090222007 | MODULAR STEM EXTENSION - The modular stem component may include a shaft portion, a head, and a sleeve. The shaft portion is configured for receipt within the intramedullary canal of a bone and the head is configured to receive another component of a modular prosthetic system, such as a femoral neck, thereon. In one exemplary embodiment, the head extends radially around at least a portion of the stem and includes a rib defining a flange extending therefrom. The sleeve, which is formed as an independent part of the modular stem component and is made at least partially of a highly porous biomaterial, includes opposing ends and has a bore extending therethrough. The bore is configured to facilitate sliding receipt of the sleeve on the head. | 09-03-2009 |
20120330430 | CONSTRAINED PROSTHETIC KNEE WITH ROTATING BEARING - A constrained prosthetic knee having a modular hinge post and a rotating bearing. A cannulated hinge post is rotatably connected to the femoral component of the knee prosthesis so that a hinge post extension may be anteriorly positioned through the hinge post and into the tibial component of the knee prosthesis, after positioning of the femoral component in the femur and the tibial component in the tibia. The hinge post is preassembled to the femoral component so that such assembly is not required during the implantation procedure. A meniscal component forming the rotating bearing of the knee prosthesis is packaged together with the hinge post extension so that the appropriate hinge post extension is readily available. The meniscal component includes a mechanism for preventing lift off of the meniscal component from the tibial component, while allowing rotation of the meniscal component relative to the tibial component. | 12-27-2012 |
Jerry Letson, Madison, MS US
Patent application number | Description | Published |
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20110094140 | Adjustable Recoil Reducing Shooting Rest - An adjustable recoil reducing shooting rest disclosed. The shooting rest may be adjusted to absorb differing amounts of recoil from various rifles to prevent rifle any bounce that may add to aim inaccuracy. The user may also adjust both the horizontal and vertical aim of the rifle to consistently aim at the same location after multiple shots. The shooting rest may be secured to an unmodified support surface, and the rest consistently supports the butt stock of the rifle regardless of the vertical angle of the rest. | 04-28-2011 |
Thomas A. Letson, Beaverton, OR US
Patent application number | Description | Published |
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20110062512 | NONPLANAR DEVICE WITH THINNED LOWER BODY PORTION AND METHOD OF FABRICATION - A nonplanar semiconductor device having a semiconductor body formed on an insulating layer of a substrate. The semiconductor body has a top surface opposite a bottom surface formed on the insulating layer and a pair of laterally opposite sidewalls wherein the distance between the laterally opposite sidewalls at the top surface is greater than at the bottom surface. A gate dielectric layer is formed on the top surface of the semiconductor body and on the sidewalls of the semiconductor body. A gate electrode is formed on the gate dielectric layer on the top surface and sidewalls of the semiconductor body. A pair of source/drain regions are formed in the semiconductor body on opposite sides of the gate electrode. | 03-17-2011 |
20120012934 | NONPLANAR DEVICE WITH THINNED LOWER BODY PORTION AND METHOD OF FABRICATION - A nonplanar semiconductor device having a semiconductor body formed on an insulating layer of a substrate. The semiconductor body has a top surface opposite a bottom surface formed on the insulating layer and a pair of laterally opposite sidewalls wherein the distance between the laterally opposite sidewalls at the top surface is greater than at the bottom surface. A gate dielectric layer is formed on the top surface of the semiconductor body and on the sidewalls of the semiconductor body. A gate electrode is formed on the gate dielectric layer on the top surface and sidewalls of the semiconductor body. A pair of source/drain regions are formed in the semiconductor body on opposite sides of the gate electrode. | 01-19-2012 |
20130264642 | NONPLANAR DEVICE WITH THINNED LOWER BODY PORTION AND METHOD OF FABRICATION - A nonplanar semiconductor device having a semiconductor body formed on an insulating layer of a substrate. The semiconductor body has a top surface opposite a bottom surface formed on the insulating layer and a pair of laterally opposite sidewalls wherein the distance between the laterally opposite sidewalls at the top surface is greater than at the bottom surface. A gate dielectric layer is formed on the top surface of the semiconductor body and on the sidewalls of the semiconductor body. A gate electrode is formed on the gate dielectric layer on the top surface and sidewalls of the semiconductor body. A pair of source/drain regions are formed in the semiconductor body on opposite sides of the gate electrode. | 10-10-2013 |
20140239358 | NONPLANAR DEVICE WITH THINNED LOWER BODY PORTION AND METHOD OF FABRICATION - A nonplanar semiconductor device having a semiconductor body formed on an insulating layer of a substrate. The semiconductor body has a top surface opposite a bottom surface formed on the insulating layer and a pair of laterally opposite sidewalls wherein the distance between the laterally opposite sidewalls at the top surface is greater than at the bottom surface. A gate dielectric layer is formed on the top surface of the semiconductor body and on the sidewalls of the semiconductor body. A gate electrode is formed on the gate dielectric layer on the top surface and sidewalls of the semiconductor body. A pair of source/drain regions are formed in the semiconductor body on opposite sides of the gate electrode. | 08-28-2014 |
William K. Letson, Lisbon, CT US
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20150130196 | SAFETY BOLT DEVICE AND SYSTEM - A safety bolt device comprising: a drop down bolt, the drop down bolt comprising: a cross-member; a first vertical pin attached to a first end of the cross-member; a second vertical pin attached to a second end of the cross-member, the second vertical pin parallel to the first vertical pin, and a fixed distance from the first vertical pin; a door receiver configured to receive the first vertical pin, the door receiver comprising: a bolt; a bolt vertical pin hole located on the bolt, the bolt vertical pin hole being a through hole, and the bolt vertical pin hole oriented generally perpendicular to the length of the bolt, and the bolt vertical pin hole configured to accept the first vertical pin; a jamb receiver configured to receive the second vertical pin, the jamb receiver comprising: a pin; a pin vertical pin hole located on the pin, the pin vertical pin hole being a through hole, and the pin vertical pin hole oriented generally perpendicular to the length of the pin, and the pin vertical pin hole configured to accept the second vertical pin; where the door receiver is configured to attach to a door, and the jamb receiver is configured to attach to the door jamb of the door, and where the safety bolt device is configured to prevent the door from being opened when the drop down bolt has been dropped into the door receiver and the jamb receiver. A safety bolt kit comprising: a kit housing, the housing comprising a base, and a hinged cover; a safety bolt device located in the kit housing, the safety bolt device comprising: a drop down bolt, the drop down bolt comprising: a cross-member; a first vertical pin attached to a first end of the cross-member; a second vertical pin attached to a second end of the cross-member, the second vertical pin parallel to the first vertical pin, and a fixed distance from the first vertical pin; a door receiver configured to receive the first vertical pin, the door receiver comprising: a bolt; a bolt vertical pin hole located on the bolt, the bolt vertical pin hole being a through hole, and the bolt vertical pin hole oriented generally perpendicular to the length of the bolt, and the bolt vertical pin hole configured to accept the first vertical pin; a jamb receiver configured to receive the second vertical pin, the jamb receiver comprising: a pin; a pin vertical pin hole located on the pin, the pin vertical pin hole being a through hole, and the pin vertical pin hole oriented generally perpendicular to the length of the pin, and the pin vertical pin hole configured to accept the second vertical pin; where the door receiver is configured to attach to a door, and the jamb receiver is configured to attach to the door jamb of the door, and where the safety bolt device is configured to prevent the door from being opened when the drop down bolt has been dropped into the door receiver and the jamb receiver. A safety bolt system comprising: a door rotatably attached to a doorjamb; a door receiver attached to the door, the door receiver comprising: a door receiver housing, the door receiver housing comprising: a door receiver entry hole located on a top surface of the door receiver housing; a door receiver exit hole located on a bottom surface of the door receiver housing; a bolt; a bolt vertical pin hole located on the bolt, the bolt vertical pin hole being a through hole, and the bolt vertical pin hole oriented generally perpendicular to the length of the bolt, a bolt hole located on a door receiver rear surface of the door receiver housing, where the bolt is configured to slide into the bolt hole; threads located on a distil end of the bolt; a door receiver housing drift pin hole located in one side of the door receiver housing; a bolt drift pin hole located in the bolt, generally perpendicular to the bolt vertical pin hole and offset from the bolt vertical pin hole; a door receiver drift pin configured to slide into the door receiver housing drift pin hole and the bolt drift pin hole thereby locking the bolt with respect to the door receiver housing; a nut configured to mate with the threads, such that the nut and the distil end of the bolt are on one side of the door, and the door receiver is attached to the opposite side of the door; a jamb receiver attached to the doorjamb, the jamb receiver comprising: a jamb receiver entry hole located on a top surface of the jamb receiver housing; a jamb receiver exit hole located on a bottom surface of the jamb receiver housing; a pin; a pin vertical pin hole located on the pin, the pin vertical pin hole being a through hole, and the pin vertical pin hole oriented generally perpendicular to the length of the pin, a; a pin hole located on a rear surface of the jamb receiver housing, where the pin is configured to slide into the pin hole; a jamb receiver housing drift pin hole located in one side of the jamb receiver housing; a pin drift pin hole located in the pin, generally perpendicular to the pin vertical pin hole and offset from the pin vertical pin hole; a pin drift pin configured to slide into the jamb receiver housing drift pin hole and the pin drift pin hole thereby locking the pin with respect to the jamb receiver housing; a drop down bolt configured to slide into the door receiver and the jamb receiver, the drop down bolt comprising: a cross-member; a first vertical pin attached to a first end of the cross-member; a second vertical pin attached to a second end of the cross-member, the second vertical pin parallel to the first vertical pin, and a fixed distance from the first vertical pin; where the first pin is configured to slide into the door receiver entry hole, through the bolt via the door receiver vertical pin hole, and out the door receiver exit hole; and where the second pin is configured to slide into the jamb receiver entry hole, through the pin via the pin vertical pin hole, and out the jamb receiver exit hole. | 05-14-2015 |