Patent application number | Description | Published |
20090013684 | SHAPE MEMORY ALLOY ACTUATOR - To provide a shape memory alloy actuator using a shape memory alloy that mechanically restrains a moving body in position to prevent oscillation, the actuator has a moving body pushing member adapted to be capable of abutting to the moving body, a bias spring for the moving body pushing member that exerts an external force on the moving body pushing member in the direction opposite to the direction of change in the shape of a shape memory wire caused by heating, a bias spring for the moving body that exerts an external force on the moving body in the direction same as the direction of change, a first stopper that restricts the movement of the moving body to a predetermined position upon cooling. One end of the shape memory wire is fixed, the other end is mechanically linked with the moving body pushing member. The moving body pushing member and the moving body are moved by deformation caused by heating, and the moving body and the moving body pushing member are separated, when the moving body is stopped at the position of the first stopper. | 01-15-2009 |
20090108779 | CONTROL UNIT OF SHAPE MEMORY ELEMENT ACTUATOR AND METHOD OF CONTROLLING SHAPE MEMORY ELEMENT ACTUATOR - At the time of start of usage, a voltage to be applied to a shape memory alloy wire | 04-30-2009 |
20090236931 | SHAPE MEMORY ALLOY ACTUATOR - A shape memory alloy actuator includes a wire material of a shape memory alloy of which, one end is fixed, a mobile object which is mechanically coupled with the other end of the wire material, a bias applying member which applies an external force on the mobile object, in a direction in which the wire material of the shape memory alloy elongates by cooling, and an attraction force generating mechanism which is disposed at a position facing the bias applying member via the mobile object, and which generates an attraction force acting in a direction same as a direction of the external force applied by the bias applying member to the mobile object. A position of the mobile object is changed by changing a length of the wire material of the shape memory alloy by changing a temperature of the wire material by supplying an electric power to the wire material. | 09-24-2009 |
20090301077 | SHAPE MEMORY ALLOY ACTUATOR SYSTEM - A resistance feedback circuit has a storage section which stores a feedback gain calculated in advance, a resistance value obtained from a detection section, and a time at which the resistance value is obtained. A computing section has a gain setting section which calculates an amount of change in a resistance value in a predetermined time from the resistance value and the time stored in the storage section, and calculates the feedback gain based on the change in the resistance value calculated, and replaces the feedback gain which is calculated in advance. | 12-10-2009 |
20090302708 | SHAPE MEMORY ALLOY ACTUATOR - An actuator has a shape memory alloy wire that contracts when heated by electric power supply and expands when cooled, whereby its length changes, a first hollow member through which the shape memory alloy wire is inserted, a movable element having an end mechanically connected to the shape memory alloy wire and movable relative to the first hollow member along a direction along which the length of the shape memory wire changes, an elastic member that is arranged between the movable element and the first hollow member and by which an external force is exerted on the movable element in a direction in which the shape memory alloy wire expands. In addition, an insulation member is joined to the movable element, apart of the insulation member is inserted in the first hollow member in a movable manner, and the shape memory alloy wire is connected to the end of the inserted part. Thus, the shape memory alloy wire is prevented from being in electrical contact with the elastic member. | 12-10-2009 |
20100166394 | MERCHANDISE PURCHASING SYSTEM, RECORDING/REPRODUCING APPARATUS, AND COMPUTER PROGRAM - The system is capable of obtaining merchandise information from an image on a television screen. The user selects an article or a service of interest and presses a button on a remote control. The information is transmitted to a server, which returns merchandise data relating to the selected article or service and outputs it to the television screen. The system allows the user to select and purchase the article or service and displays information on a merchandise purchase screen. | 07-01-2010 |
20120059979 | MEMORY MANAGEMENT APPARATUS AND MEMORY MANAGEMENT METHOD - A terminal apparatus including a non-volatile memory for which writing is performed in units of blocks; and a control unit configured to perform a first method of managing bad blocks in the non-volatile memory with respect to blocks corresponding to an information management table in a file system of the non-volatile memory, and to perform a second method of managing bad blocks in the non-volatile memory with respect to blocks corresponding to user data in the file system. | 03-08-2012 |
20120269998 | SHEET MATERIAL HAVING CONCAVE-CONVEX SECTION, AND LAMINATED STRUCTURE AND VEHICLE PANEL USING THE SAME - Within an area of substantially regular hexagons arranged at regular intervals on an imaginary reference plane, a sheet material includes a concave-convex section ( | 10-25-2012 |
20130174542 | SHAPE MEMORY ALLOY ACTUATOR - A shape memory alloy actuator includes a wire portion which is inserted through a first tube member, a shape memory alloy wire portion which is inserted through a second tube member, a movable body which is movable in a direction in which, a length of the shape memory alloy wire portion changes, an elastic member which exerts an external force in a direction in which, the shape memory alloy wire portion elongates, and a fixing member to which, one end of the second tube member and one end of the shape memory alloy wire portion are fixed, and one end of the wire portion is connected to the movable body, and one end of the shape memory alloy wire portion and one end of the wire portion are joined to a joining portion, and the joining portion includes a plurality of crimp terminals. | 07-11-2013 |
20140117813 | INERTIAL DRIVE ACTUATOR - An inertial drive actuator includes a shift unit that generates a small shift, a vibration base plate that moves to and fro with the small shift of the shift unit, a mover having a first magnetic field generating unit, a first yoke, and a second yoke. The first yoke and an end portion of the second yoke are opposed to each other at a position outside the vibration base plate, thereby restricting movement of the mover with respect to the direction perpendicular to the driving direction. The frictional force acting between the mover and the vibration base plate is controlled by controlling a magnetic field generated by the first magnetic field generating unit to drive the mover. | 05-01-2014 |
20140183982 | INERTIAL DRIVE ACTUATOR - An inertial drive actuator includes a shift unit that generates a shift in a first direction and in a second direction opposite to the first direction, a base plate that moves with the shift of the shift unit, and a mover disposed on a surface of the base plate and having a magnetic field generating unit. The mover has a first yoke that guides magnetic flux generated by the magnetic field generating unit such that the magnetic flux concentrates on a surface of the mover facing the base plate with respect to both S and N poles. Also included is a second yoke provided on a side of the base plate facing away from the mover. The frictional force acting between the mover and the base plate is controlled by controlling a magnetic field generated by the magnetic field generating unit to drive the mover. | 07-03-2014 |
20140239746 | INERTIAL DRIVE ACTUATOR - An inertial drive actuator includes a displacement unit, a vibration substrate, a first magnetic field generator which generates a magnetic field, a movable body disposed on a flat surface of the vibration substrate, and which includes a first yoke that concentrates a magnetic flux of an N-pole and an S-pole generated by the first magnetic field generator, at a predetermined position, and a second yoke which is disposed on a side of the vibration substrate, opposite to a direction facing the movable body. A movement in a direction perpendicular to a direction in which, the movable body is driven is regulated mechanically by end portions of the second yoke facing end portions of the first yoke at an outer side of the vibration substrate, and a frictional force is controlled by controlling the magnetic field, and the movable body is driven. | 08-28-2014 |
20140239747 | INERTIAL DRIVE ACTUATOR - An inertial drive actuator includes a displacement unit, a vibration substrate, a movable body, a first magnetic field generator which generates a magnetic field so that, a magnetic attractive force or a magnetic repulsive force acts in a direction opposite to the movable body, a first yoke, and which induces a magnetic flux generated by the first magnetic field generator such that, the flux generated by the first magnetic field generator is concentrated on a surface of the movable body, opposite to the vibration substrate, and second yokes and on a side of the vibration substrate, opposite to a direction facing the movable body, and the second yokes and control a frictional force acting between the movable body and the vibration substrate by controlling the magnetic field generated by the first magnetic field generator. | 08-28-2014 |
20140367999 | FRONT FLOOR PANEL - A front floor panel for an automotive body as a lightweight sheet can be reliably press-formed without a press forming loads becoming excessively large, can have desired stiffness, and noise and vibration characteristics for all directions since there is little stiffness anisotropy. The front floor panel includes a floor tunnel formed in a center in an automotive width direction to be oriented to a longitudinal direction, upright flanges disposed left and right formed at a left and right end portions in the automotive width direction to be joined to side sills, and a left and right plane portions formed between the upright flanges disposed left and right and a left and right longitudinal wall portions of the floor tunnel. In loop-shaped areas including outer edge portions of the plane portions, convex-concave parts in specific shapes are formed, and remaining areas excluding the loop-shaped areas are formed into flat sheet shapes. | 12-18-2014 |
20150061463 | INERTIAL DRIVE ACTUATOR - An inertial drive actuator includes a displacement unit which generates a minute displacement in a first direction, and in a second direction, a coil which generates a magnetic flux, a movable object which has a surface facing at least one surface of the coil, and a first yoke which converges the magnetic flux generated by the coil, at a predetermined position, a detecting unit which detects an electric signal of the coil, reflecting a change in the magnetic flux near the coil based on a positional relationship of the movable object and the coil, and a judging unit which judges a position of the movable object, and the inertial drive actuator drives the movable object by controlling a frictional force acting on the movable object, by controlling the magnetic flux generated by the coil, and the coil carries out generation of the magnetic flux and detection of the magnetic flux. | 03-05-2015 |