Patent application number | Description | Published |
20150083720 | FUEL FILLER SYSTEMS AND METHODS OF ASSEMBLING SAME - Systems and methods for assembling a fuel filler system for use in a vehicle are provided. The fuel filler system includes a closure device assembly and a fuel filler tube. A circumferential rim extends radially outwardly from a first end of the fuel filler tube. The rim has a non-planar cross-sectional shape. The fuel filler system also includes at least one catch member that extends from an inner surface of the closure device assembly. A seal member encircles a portion of the closure device assembly, and is axially spaced apart from the at least one catch member. After the closure device assembly is coupled to the fuel filler tube, the circumferential rim is axially captured between the at least one catch member and the seal member. | 03-26-2015 |
20150083721 | FUEL FILLER SYSTEMS AND METHODS OF ASSEMBLING SAME - Systems and methods for assembling a fuel filler system for use in a vehicle are provided. A locking bracket is coupled within an end of a fuel filler tube. At least one passage is defined in the locking bracket for facilitating insertion of a closure device into the fuel filler tube end. At least one anti-removal structure on the closure device passes through the at least one passage during insertion of the closure device. The at least one anti-removal structure precludes removal of the closure device after insertion of the closure device, and rotation of the closure device from a first rotational position relative to the locking bracket to a second rotational position. First and second anti-rotation structures extending from the closure device engage first and second ends of the locking bracket to prevent further rotation of the closure device. | 03-26-2015 |
20150136768 | FUEL FILLER SYSTEMS AND METHODS OF ASSEMBLING SAME - A fuel filler system for use in a vehicle is provided. The system includes a fuel filler tube, a locking bracket coupled to an inner surface of the fuel filler tube, and a closure device coupleable within the tube end and including an outer wall and a radially movable tab extending from the outer wall. The tab engages the locking bracket after rotation of the closure device from a first rotational position to a second rotational position to prevent rotation of the closure device relative to the locking bracket. The closure device further includes a web flexibly connecting the tab to the outer wall and a region of weakness defined in the web, such that upon forcible rotation of the closure device from the second rotational position to the first rotational position, the region of weakness facilitates separation of the web from the outer wall. | 05-21-2015 |
Patent application number | Description | Published |
20100242277 | APPARATUS AND METHOD FOR SHAPING ELECTRIC WIRE FOR STATOR COIL OF ELECTRIC ROTATING MACHINE - An electric wire shaping apparatus is provided for shaping an electric wire for a stator coil of an electric rotating machine. The electric wire includes a plurality of straight portions and a plurality of turn portions. Each of the turn portions includes a specific part and all of the specific parts of the turn portions are identical to each other. The apparatus includes a clamping mechanism, first and second holders, and a shaping mechanism. The clamping mechanism clamps the specific part of one of the turn portions of the electric wire in a width-wise direction thereof. The first and second holders respectively hold two different sections of the specific part in a thickness-wise direction thereof. The shaping mechanism moves one of the first and second holders relative to the other in the thickness-wise direction of the specific part, thereby shaping the specific part to form a crank-shaped portion therein. | 09-30-2010 |
20100244617 | STATOR HAVING IMPROVED STRUCTURE FOR RESTRICTING RELATIVE DISPLACEMENT BETWEEN STATOR CORE AND STATOR COIL - A stator for an electric rotating machine includes a hollow cylindrical stator core and a stator coil made up of a plurality of electric wires mounted on the stator core. The stator core has a plurality of slots that are formed in a radially inner surface of the stator core and spaced at predetermined intervals in the circumferential direction of the stator core. The stator core also has a plurality of tooth portions each of which is formed to radially extend between one circumferentially-adjacent pair of the slots. Moreover, the stator core further has a plurality of displacement restricting portions each of which is formed, as an integral part of the stator core, on an axial end face of a corresponding one of the tooth portions of the stator core to restrict displacement of the stator coil relative to the stator core. | 09-30-2010 |
20100251796 | APPARATUS AND METHOD FOR SHAPING ELECTRIC WIRE FOR STATOR COIL OF ELECTRIC ROTATING MACHINE - An electric wire shaping apparatus includes a pair of male and female shaping dies and a pressing mechanism. Each of the male and female shaping dies has a shaping surface that includes a plurality of straight parts and a plurality of bent parts. The pressing mechanism moves one of the male and female shaping dies toward the other, thereby pressing a turn portion of an electric wire between the shaping surfaces of the male and female shaping dies in a width-wise direction of the turn portion. Furthermore, the male and female shaping dies are so configured that when they are located closest to each other, a gap W | 10-07-2010 |
20100252139 | APPARATUS AND METHOD FOR SHAPING ELECTRIC WIRE FOR STATOR COIL OF ELECTRIC ROTATING MACHINE - An electric wire shaping apparatus is disclosed for shaping an electric wire for a stator coil. The electric wire includes a turn portion that is to be located outside of slots of a stator core and a pair of straight portions that are connected by the turn portion and to be respectively received in two of the slots. The interval between the straight portions defines a coil pitch. The apparatus includes a shaping mechanism and a pair of coil pitch keeping mechanisms. The shaping mechanism presses the turn portion of the electric wire in its width-wise direction, thereby shaping the turn portion to have a desired shape. The coil pitch keeping mechanisms respectively press the straight portions of the electric wire toward the inside space between the straight portions, thereby preventing the interval between the straight portions from being changed by the pressing of the turn portion. | 10-07-2010 |
20140354108 | STATOR FOR ROTATING ELECTRIC MACHINE - A stator includes a hollow cylindrical stator core comprised of a plurality of stator core segments and an outer cylinder fitted on the radially outer surface of the stator core. The stator core has a recess formed in the radially outer surface and the recess has an engaging wall surface that extends in both the axial and radial directions of the stator core. The outer cylinder has a fastening portion for fastening the outer cylinder to the stator core. The fastening portion is formed to be partially surrounded by a plurality of first slits and a second slit. The fastening portion is bent radially inward to have a second slit-side end part thereof received in the recess of the stator core. Further, the second slit-side end part of the fastening portion has a distal end engaging with the engaging wall surface of the recess of the stator core. | 12-04-2014 |
20150022052 | STATOR FOR ROTATING ELECTRIC MACHINE - A stator includes a hollow cylindrical stator core, a stator coil and an outer cylinder. The stator core is comprised of a plurality of core segments that are arranged in a circumferential direction of the stator core to adjoin one another in the circumferential direction. The stator coil is mounted on the stator core. The outer cylinder is fitted on a radially outer periphery of the stator core. The outer cylinder has, at least, a protruding portion and a non-protruding portion. The protruding portion protrudes radially inward to include an abutting part that abuts the radially outer periphery of the stator core. The non-protruding portion extends, without protruding radially inward, to define a radial clearance between the radially outer periphery of the stator core and a radially inner surface of the non-protruding portion. The protruding and non-protruding portions are continuously formed in an axial direction of the outer cylinder. | 01-22-2015 |