Patent application number | Description | Published |
20090115103 | TIRE VULCANIZATION METHOD AND TIRE VULCANIZATION APPARATUS - The present invention provides method and apparatus for tire vulcanization which can smoothly separate a bladder from the inner surface of a vulcanized tire by quickly detaching the bladder therefrom to contract it, when separating the bladder from the inner surface of the vulcanized tire by contracting the bladder after the vulcanizing. In the method in which a green tire (G) set in a die is vulcanized in a state that the green tire (G) is pressed into an inner surface of the die by inflating a bladder ( | 05-07-2009 |
20090162462 | TIRE VULCANIZING DEVICE - A tire vulcanizer is provided in which upper and lower clamp rings can be positioned at a shaping position easily and smoothly with a simple engagement structure. The tier vulcanizer with a vulcanizer body (A) and a shaping unit (B) is configured that the upper and lower clamp rings ( | 06-25-2009 |
20090263524 | TIRE VULCANIZER - The invention provides a tire vulcanizer having a vulcanizer body and a shaping unit and configured to be able to accurately mount a green tire in the shaping unit and shape it accurately when shaping the green tire in the shaping unit. As a result, the green tire can be placed and set accurately in a lower container of the vulcanizer body when the shaping unit is placed in a container of the vulcanizer body. In order to mount the green tire in the shaping unit (B) outside the vulcanizer body, the tire vulcanizer includes outside the vulcanizer body (A) a tire mounting device (D) which mounts the green tire in the shaping unit. | 10-22-2009 |
20100060006 | GENERATOR - The generator has a driving section provided with an impeller received in a casing, which is formed so as to allow the fluid at high-temperature and under high-pressure to flow in an inlet and to allow the fluid to flow out of an outlet, and adapted to rotate the impeller by the flow pressure of fluid, a power generating section consisting of a rotor and a stator coil, and a driving shaft having one end for fixing the impeller and the other end for fixing the rotor. Electric power is generated at the power generating section by rotating the rotor by the impeller through the driving shaft. The generator is further provided with a partition wall for hermetically partitioning the rotor and the stator coil with the rotor contained in a rotor containing chamber formed therein. | 03-11-2010 |
20100104676 | APPARATUS FOR COOLING TIRE AFTER VULCANIZATION - The invention aims to provide a vulcanized tire cooling apparatus configured to blow cooling air to a vulcanized tire in rotation, thereby achieving uniform cooling of the vulcanized tire and shortening of cooling time as well as preventing the vulcanized tire from being deformed due to centrifugal force. It includes a blower unit ( | 04-29-2010 |
20100278950 | TIRE VULCANIZER - A tire vulcanizer which can make a bladder supply pressurized fluid at a tire vulcanization position and a shaping position, disconnects the channel during movement of a lower container, while keeping the internal pressure of the bladder. Under a state where the lower container ( | 11-04-2010 |
Patent application number | Description | Published |
20140047919 | ANGULAR ACCELERATION DETECTION DEVICE - An angular acceleration detection device includes a rotating weight, a fixed portion, a support beam, and a detection portion. The rotating weight is rotatable about a Z-axis with respect to the fixed portion by action of an inertial force generated by an angular acceleration about the Z-axis. The fixed portion is disposed at a position spaced from the rotating weight. The support beam is disposed in an X-Y plane between the fixed portion and the rotating weight, the support beam elastically supporting the rotating weight with respect to the fixed portion. The detection portion outputs a detection signal corresponding to stress generated in the support beam. A gravity center position of the rotating weight is aligned with the support beam when viewed in a Z-axis direction. | 02-20-2014 |
20150247878 | ANGULAR ACCELERATION SENSOR - An angular acceleration sensor includes a flat plate surface, a fixed portion, a weight portion, and a beam portion. The weight portion includes a recessed portion that is recessed in an X-axis negative direction in the flat plate surface. The fixed portion includes a projecting portion projecting in the X-axis negative direction in the flat plate surface to be opposed to the recessed portion, and a slit extending inward in an X-axis positive direction from a position adjacent to the projecting portion. The beam portion extends along the Y-axis in the flat plate surface, is connected between the recessed portion and the projecting portion, and supports the weight portion movably relative to the fixed portion. | 09-03-2015 |
20150247880 | ANGULAR ACCELERATION SENSOR - An angular acceleration sensor includes a flat plate surface, a fixed portion, a weight portion, and a beam portion. The weight portion includes a recessed portion that is recessed in an X-axis negative direction in the flat plate surface. The fixed portion includes a projecting portion that projects in the X-axis negative direction in the flat plate surface to be opposed to the recessed portion. The beam portion extends from the projecting portion in a Y-axis positive direction in the flat plate surface, and is connected to the recessed portion at an end portion in the Y-axis positive direction. Beam-portion proximity regions of the fixed portion and the weight portion in proximity to connecting positions to the beam portion are plane-symmetrical with respect to a stress neutral plane in the flat plate surface. | 09-03-2015 |
20150274504 | ANGULAR ACCELERATION SENSOR AND ACCELERATION SENSOR - An angular acceleration sensor includes a planar surface extending along an X-Y plane, a fixed portion, a weight, a beam, and piezoresistors. The weight is supported by the fixed portion. The beam extends along a Y-axis and is connected to the fixed portion and the weight. A width of the beam in an X-axis direction is larger than a width of the connection portion at which the beam is connected to the fixed portion. | 10-01-2015 |
20150276788 | ANGULAR ACCELERATION SENSOR AND ACCELERATION SENSOR - An angular acceleration sensor includes a planar surface extending along an X-Y plane, a fixed portion, a weight, a beam, and piezoresistors. The weight is supported by the fixed portion. The beam extends along an Y-axis and is connected to the fixed portion and the weight. The beam includes through-holes extending therethrough in a Z-axis direction and protrusions protruding in an X-axis direction. The positions of the piezoresistors in the Y-axis direction overlap those of the through-holes and are displaced from those of the width-direction protrusions. | 10-01-2015 |
Patent application number | Description | Published |
20090292419 | SUSPENSION CONTROL APPARATUS - The present invention provides a suspension control apparatus capable of an excellent vibration control by a model thereof designed to incorporate nonlinearity and a time-lag element of a control damper. The present invention employs the backstepping method which is one of nonlinear control methods, and is designed so as to incorporate the nonlinearity of a damper | 11-26-2009 |
20100057297 | VEHICLE STATE ESTIMATING APPARATUS, SUSPENSION CONTROL APPARATUS AND SUSPENSION SYSTEM - A first observer gain of an actual damping force estimating observer | 03-04-2010 |
20110035089 | SUSPENSION CONTROL APPARATUS - The present invention provides a suspension control apparatus enabling a driver to obtain an excellent driving feeling. A suspension control apparatus according to the present invention controls an actuator disposed between a vehicle body and a wheel of a vehicle. The suspension control apparatus comprises a lateral acceleration detector operable to detect a lateral acceleration, a lateral jerk detector operable to detect a lateral jerk, and a suspension controller operable to control the actuator to change a pitch of the vehicle based the detected lateral acceleration and lateral jerk. | 02-10-2011 |
20110127127 | SUSPENSION CONTROL APPARATUS FOR VEHICLE AND CONTROL APPARATUS FOR DAMPING-FORCE ADJUSTABLE SHOCK ABSORBER - Provided is a suspension control apparatus for a vehicle comprising a damping-force adjustable shock absorber interposed between a vehicle body and a wheel of a vehicle, and a controller for variably controlling damping-force characteristics of the damping-force adjustable shock absorber between hard and soft, wherein the controller is configured to switch the damping-force characteristics to a soft side when a direction of a stroke of the damping-force adjustable shock absorber is reversed between an extension stroke and a contraction stroke. | 06-02-2011 |
20120029770 | VEHICLE BODY ATTITUDE CONTROL APPARATUS - The present invention provides a vehicle body attitude control apparatus capable of improvement of cornering operability, steering stability, and a ride comfort while a vehicle is running. A controller includes a gain, a determination unit, a multiplication unit, an FF control unit, a difference calculation unit, an FB control unit, an average value calculation unit, a target damping force calculation unit, and a damper instruction value calculation unit so as to enable such control that a pitch rate and a roll rate are set into a proportional relationship while the vehicle is cornering. The controller calculates a target pitch rate proportional to the roll rate, variably controls a damping force characteristic of a damping force variable damper disposed at each of front left, front right, rear left, and rear right wheels so as to achieve the target pitch rate, and generates a pitch moment to be applied to the vehicle body accordingly. | 02-02-2012 |
20150066243 | VEHICLE BEHAVIOR CONTROL APPARATUS - A tire load calculation section of a controller calculates tire load factors of the respective wheels. A target tire load-factor calculation section calculates a tire load factor average value (η | 03-05-2015 |
Patent application number | Description | Published |
20120032789 | MOBILE TERMINAL, INFORMATION PROCESSING METHOD, AND COMPUTER PROGRAM - A mobile terminal includes a contactless communication unit configured to conduct contactless communication with an external communication apparatus, a plurality of memory units configured to store information to be transmitted to the communication apparatus, and a controller configured to control communication with the communication apparatus and set a priority order for the plurality of memory units when transmitting information from the plurality of memory units to the communication apparatus. The controller sets the priority order depending on the current time. | 02-09-2012 |
20150038077 | COMMUNICATION DEVICE, CONTROL METHOD, PROGRAM, AND FRONT END - The present technology relates to a communication device, a control method, and a program which enable reliable selection of a desired target. | 02-05-2015 |
20160087683 | COMMUNICATION DEVICE, CONTROL METHOD, PROGRAM, AND FRONT END - The present technology relates to a communication device, a control method, and a program which enable reliable selection of a desired target. A CLF transmits a polling command received from a NFC reader for selecting a candidate of a final target to targets, selects the candidate of the final target, by setting a P2P application as a target having the highest priority in the selection of the candidate of the final target, selects the final target based on a command other than the polling command received from the NFC reader, and controls to lower the priority of the P2P application, in a case where the P2P application is selected as the candidate of the final target and the P2P application is not selected as the final target. The present technology can be applied to a communication device supporting an NFC standard, for example. | 03-24-2016 |
Patent application number | Description | Published |
20100324737 | SHAPE DETECTION SYSTEM - A shape detection system includes a distance image sensor that detects an image of a plurality of detection objects and distances to the detection objects, the detection objects being randomly arranged in a container, a sensor controller that detects a position and an orientation of each of the detection objects in the container on the basis of the result of the detection performed by the distance image sensor and a preset algorithm, and a user controller that selects the algorithm to be used by the sensor controller and sets the algorithm for the sensor controller. | 12-23-2010 |
20110301744 | TRANSFER APPARATUS - A transfer apparatus includes a container that contains workpieces to be transferred, a sensor that detects a position and a posture of the workpiece existing in a predetermined detection area, and a robot that takes out the workpiece and transfers the workpiece to a transfer destination on the basis of a detection result of the sensor. The sensor includes an area storage that stores a plurality of detection areas, a condition storage that stores a switching condition for switching the detection areas, and a controller that switches the detection areas in a predetermined order when the switching condition is satisfied. | 12-08-2011 |
20120263347 | THREE-DIMENSIONAL SCANNER AND ROBOT SYSTEM - A three-dimensional scanner according to one aspect of the embodiments includes an irradiation unit, an imaging unit, a position detecting unit, and a scanning-region determining unit. The irradiation unit emits a slit-shaped light beam while changing an irradiation position with respect to a measuring object. The imaging unit sequentially captures images of the measuring object irradiated with the light beam. The position detecting unit detects a position of the light beam in an image captured by the imaging unit by scanning the image. The scanning-region determining unit determines a scanning region in an image as a scanning target by the position detecting unit based on a position of the light beam in an image captured by the imaging unit before the image as a scanning target. | 10-18-2012 |
20140104621 | THREE-DIMENSIONAL SHAPE MEASURING APPARATUS AND ROBOT SYSTEM - A three-dimensional shape measuring apparatus according to the embodiment includes an irradiating unit, an imaging unit, a position detector, a changing unit. The irradiating unit applies a slit light beam while changing an irradiation position in an area under measurement. The imaging unit images reflected light of the light beam. The position detector scans an image taken by the imaging unit to detect a position of the light beam on the image. The changing unit changes a position of an imaging area of the imaging unit in accordance with the irradiation position of the light beam. | 04-17-2014 |
Patent application number | Description | Published |
20130073090 | ROBOT SYSTEM - A robot system includes: a projecting unit for projecting a slit light on a specified placement region and moving the slit light in a specified direction; an imaging unit for imaging the slit light moving on a work on the placement region; an estimated projection region determining unit for determining an estimated projection region such that the length of the estimated projection region in a direction substantially parallel to the moving direction grows larger toward the center of the image in the intersection direction; a projection position detecting unit for detecting a projection position of the slit light within the estimated projection region. The robot system further includes a robot for gripping the workpiece. | 03-21-2013 |
20140277694 | ROBOT SYSTEM AND METHOD FOR PRODUCING TO-BE-PROCESSED MATERIAL - A robot system includes a robot. The robot includes a holder to hold a first workpiece from among workpieces stored in a stocker. A sensor performs shape recognition of the workpieces stored in the stocker and detects a holding state of the first workpiece held by the robot. A controller controls the sensor to perform the shape recognition of the workpieces stored in the stocker, controls the robot to hold the first workpiece based on the shape recognition and transfer the first workpiece to a particular position in a sensor area of the sensor, controls the sensor to detect the holding state of the first workpiece held by the robot, and controls the robot to place the first workpiece at a predetermined position or in a predetermined posture based on the detected holding state. | 09-18-2014 |
20140277734 | ROBOT SYSTEM AND A METHOD FOR PRODUCING A TO-BE-PROCESSED MATERIAL - A robot system includes a first robot, a second robot, a stocker, and a controller. The first robot includes a first sensor. The second robot includes a second sensor. The stocker is configured to accommodate a plurality of workpieces that are to be held by at least one of the first robot and the second robot. The controller is configured to control the first robot and the second robot. When the first robot holds a first workpiece among the plurality of workpieces, the controller is configured to control the first sensor to recognize shapes of the plurality of workpieces in the stocker and control the second sensor to detect a holding state of the first workpiece held by the first robot. | 09-18-2014 |
20140288710 | ROBOT SYSTEM AND CALIBRATION METHOD - A robot system includes: a robot arm; a camera; a calibration jig with a marker that allows image recognition; and a calibration apparatus configured to derive a correlation between camera coordinates being coordinates in a photographed image and robot coordinates using the robot arm as a reference. The robot arm is configured to have a posture corresponding to a relative position of the camera with respect to the marker. The calibration apparatus sets a plurality of photographing positions by changing the relative position, acquires the camera coordinates of the marker in the plurality of photographing positions and information of the posture of the robot arm, and derives the correlation. | 09-25-2014 |
20150338203 | MEASUREMENT SYSTEM, METHOD FOR MEASUREMENT - A measurement system includes an irradiator, an image capturer, and an arithmetic processor. The irradiator irradiates a first irradiation line with a laser beam at a first irradiation angle, and irradiates second irradiation lines with the laser beam respectively at second irradiation angles. The second irradiation lines intersect the first irradiation line. The image capturer acquires a two-dimensional image of an area including the first irradiation line and the second irradiation lines. The arithmetic processor calculates the second irradiation angles based on the first irradiation angle, based on a first position, in the two-dimensional image, of a first point on the first irradiation line, and based on second positions, in the two-dimensional image, of second points of the second irradiation lines, and calculates three-dimensional coordinates of the second points based on the second irradiation angles and the second positions. | 11-26-2015 |