Patent application number | Description | Published |
20080314216 | Tire cord cutting apparatus - A cord cutting apparatus is provided for remotely cutting a terminal end segment of a tire cord line from a toroidal tire building core surface. The apparatus includes a mechanism for capturing, controlling and aligning the cord line end segment; tensioning the end segment between leading and trailing segment ends; and severing the cord end segment at a point opposite an initiation point on the tire build core. The apparatus moves between an extended position proximate the tire building core and a retracted position that does not obstruct the tire building core during subsequent tire construction. | 12-25-2008 |
20080314524 | Method for single line tire ply construction - A method for positioning an end of a cord line at a target location on an annular tire building surface, includes positioning a cord line segment over the target location; tensioning the cord line segment between leading and trailing segment ends; and severing the cord line segment at a point between the leading and trailing segment ends so that the resultant cord line end is at the target location on the tire building surface. Transporting a severed portion of the cord line segment away from the annular tire building surface may be conducted and a tire cord ply may be constructed to extend from the cord line segment about at least a portion of the annular tire building surface prior to severing the cord line segment. | 12-25-2008 |
20090090455 | SPRING LOADED TOOLING HEAD AND METHOD FOR TIRE CORD APPLICATION - A tooling head for bidirectional tire cord application to an annular surface reciprocates in a forward and a reverse direction across the annular surface. The tooling head includes a housing; a nose block assembly coupled to the housing and reciprocating in an axial direction relative to the tooling head housing; a pair of cord engaging rollers mounted to a remote end of the nose block assembly and moving therewith in a forward and a reverse direction across the annular surface, the rollers positioning at least one cord against the annular surface in the forward and reverse directions; and a biasing element engaging against the nose block assembly for alternatively biasing the rollers against the annular surface. | 04-09-2009 |
20090090456 | SYNCHRONOUS DRIVE AND METHOD FOR TIRE CORD APPLICATION - A synchronous drive system and method for tire cord application to an annular core surface includes an arm that moves laterally about a first axis in a forward and a reverse direction across the annular surface. A cord application head is coupled to the arm and positions one or more cords on an on the annular surface in the forward and reverse directions. First and second ring motors are coupled to synchronously move the arm and rotate the core. The cord application head may further reciprocate about a second axis of rotation. | 04-09-2009 |
20090090457 | TIRE CORD APPLICATION STATION AND METHOD - A ply application station for applying a tire carcass cord ply to an annular surface includes a plurality of applicator heads disposed at respective spaced apart circumferential locations about the annular surface, each applicator head proximally positioned to a respective assigned region of the annular surface. The system coordinates the application of at least one ply cord by each head to the annular surface region assigned respectively to each head. The plurality of applicator heads operate independently within their respective assigned regions while the core annular surface is rotatably indexed in order to achieve a desired cord ply pattern. | 04-09-2009 |
20120125504 | IN-LINE PUMPING ASSEMBLY FOR SELF-INFLATING TIRE - A tire for a self-inflating tire system includes a tire carcass having an annular air tube-receiving groove formed within a tire carcass wall and a pump assembly within the groove. The pump assembly includes an air tube having an axial air passageway; an inlet device positioned along the air tube, the inlet having a tubular inlet body having an internal air passageway aligned with the air tube and having at least one inlet opening extending through the inlet body for admitting air into the tubular inlet body. The inlet device further includes an air filtering sleeve at least partially surrounding the inlet opening of the inlet device, the sleeve having a tubular sleeve body at least partially surrounding and in co-axial relationship the tubular inlet body. The pump assembly further includes an outlet device positioned in-line along the air tube, the outlet device having a tubular outlet body and an axial passageway in-line with the air tube and having at least one outlet passage tube from the outlet device through the carcass wall to the tire cavity. | 05-24-2012 |
20120125510 | TIRE FOR SELF-INFLATING TIRE SYSTEM - A tire for a self-inflating tire system includes an annular air tube-receiving groove formed within a tire carcass wall at a prescribed radial location. The groove has an access opening, a primary internal groove chamber dimensioned and profiled for close receipt of an annular air-pump tube. A secondary expansion chamber of the groove communicates with the internal groove chamber for operationally receiving a flattened air-pump tube extended portion during tire operation. A passageway is located at a prescribed outlet location along the annular air tube-receiving groove, the passageway extending from the groove to an axially inward terminal end within the tire carcass wall separated from a tire inner liner by a removable wall partition of reduced sectional thickness. | 05-24-2012 |
20120125524 | METHOD OF MANUFACTURING A SELF-INFLATING TIRE - A method of constructing a self-inflating tire assembly includes molding in an air tube-receiving groove within a green tire carcass wall, the groove having an access opening, primary internal groove chamber and a secondary expansion groove chamber adjacent to and communicating with the internal groove chamber. A groove partial passageway is molded with the groove at a prescribed groove outlet location and extends from the groove partially through the tire carcass wall toward the tire cavity. A tire carcass wall barrier of reduced section between the partial passageway and the tire cavity is removed in a post-cure operation to create a through-bore from the groove to the tire cavity. A pump assembly inserts into the tube-receiving groove in a post-cure procedure with an outlet passage tube from a pump assembly outlet device extended through the through-bore to the tire cavity. | 05-24-2012 |
20130008579 | AIR MAINTENANCE PUMPING ASSEMBLY AND TIRE - A groove is positioned within the bending region of the first tire sidewall and deforms segment by segment within the rolling tire footprint. An air tube positioned within the sidewall groove is in contacting engagement with groove sidewalls and resiliently squeezes and collapses segment by segment as the groove constricts segment by segment within the rolling tire footprint. A series of adjacent projecting ridges extend from a groove sidewall segment into the groove air passageway, the projecting ridges operatively positioned to vary the applied pressure on the air tube increase the air pressure within the air tube passageway as the air tube rolls segment by segment with the tire through tire footprint. The series of projecting ridges are constructed having a variable amplitude and/or spacing frequency in a direction of air flow within the air passageway to increase the pressure applied to the air tube and air pressure of the air flowing through the tube passageway. | 01-10-2013 |
20130014876 | AIR MAINTENANCE PUMPING TUBE AND TIRE ASSEMBLYAANM Delgado; Andres IgnacioAACI MedinaAAST OHAACO USAAGP Delgado; Andres Ignacio Medina OH USAANM Dyrlund; Christopher DavidAACI CantonAAST OHAACO USAAGP Dyrlund; Christopher David Canton OH US - A groove defined by groove sidewalls is positioned within the bending region of a tire sidewall. An elongate air tube positioned within the sidewall groove is in contacting engagement with the groove sidewalls and resiliently squeezes and collapses segment by segment as the groove constricts segment by segment within the rolling tire footprint. A longitudinally oriented projecting locking rib extends from a tube sidewall and registers within a complementary configured and located detent extending adjacent the groove to deter lateral movement of the tube within the groove after insertion. An annular projecting ridge extends from the groove for engaging the sidewalls of the air tube to deter an axial movement of the tube within the groove after insertion. | 01-17-2013 |
20130061996 | AIR MAINTENANCE PUMPING ASSEMBLY AND TIRE - A tire assembly includes a tire, sidewalls, and a sidewall groove. The tire has a pneumatic cavity. The sidewall has at least one bending region operatively bending when radially within a rolling tire footprint of the tire. The sidewall groove is defined by groove sidewalls positioned within the bending region of the tire sidewall. The sidewall groove deforms segment by segment between a non-deformed state and a deformed, constricted state in response to the bending of the sidewall bending region when radially within the rolling tire footprint. An air passageway is defined by the sidewall groove and a cover strip. The air passageway resiliently deforms segment by segment between an expanded condition and an at least partially collapsed condition in response to respective segment by segment deformation of the sidewall groove when radially within the rolling tire footprint. | 03-14-2013 |
20130081745 | AIR MAINTENANCE TIRE AND PUMPING TUBE ASSEMBLY AND METHOD - A tire has an elongate profiled sidewall groove extending into a first tire sidewall from an outward first sidewall surface. An elongate air tube is positioned within the elongate sidewall groove in contact with the groove sidewalls, the air tube having an external surface configuration corresponding with and seating within the internal sidewall configuration defining the sidewall groove. The air tube when subject to outward originating impinging force collapses from an expanded unstressed configuration into a collapsed configuration to allow the tube to insert through the groove entry opening and expand outwardly once within the sidewall groove to its unstressed configuration. The configuration of the groove sidewalls capture the air tube within the groove in its expanded unstressed configuration to prevent separation of the tube from the tire during use. | 04-04-2013 |
20130133802 | AIR MAINTENANCE PUMPING ASSEMBLY AND TIRE - A tire assembly includes a tire, sidewalls, and a sidewall groove. The tire has a pneumatic cavity. The sidewall has at least one bending region operatively bending when radially within a rolling tire footprint of the tire. The sidewall groove is defined by groove sidewalls positioned within the bending region of the tire sidewall. The sidewall groove deforms segment by segment between a non-deformed state and a deformed, constricted state in response to the bending of the sidewall bending region when radially within the rolling tire footprint. An air passageway is defined by the sidewall groove and a cover strip. The air passageway resiliently deforms segment by segment between an expanded condition and an at least partially collapsed condition in response to respective segment by segment deformation of the sidewall groove when radially within the rolling tire footprint. | 05-30-2013 |
20140069573 | METHOD FOR PREFORMING A GREEN TIRE - Disclosed is a method and apparatus for preforming a green tire into a shape that is equivalent to the shape of the green tire when placed in a closed mold. The method for preforming orients the beads of the green tire parallel and concentric to one another and also rotates the bead area components of the tire into the proper configuration prior to cure. The bead portions of the tire maintain the parallel position as the tire is loaded into a tire mold. | 03-13-2014 |