Patent application number | Description | Published |
20100319193 | WORK TRANSFER APPARATUS, AND WORK MOUNTING METHOD - According to a work mounting method by the work transfer apparatus of the prior art, a glass plate or a work may fail to abut against a window frame homogeneously at its peripheral edge portion, and the adhesion strength or the sealing property between the glass plate and the window frame may not be retained all over the periphery of the adhered portion. Provided is a work transfer apparatus, which grips a rear glass by its gripping member and mounts the rear glass while pushing the gripped rear glass onto the window frame of a car body by the action of a supporting arm. The work transfer apparatus comprises a control device, and each of absorption pads of the gripping member includes a force detecting sensor for detecting the force to be applied to the absorption pads. The control device controls, when it uses the work transfer apparatus to mount the rear glass on the window frame, the actions of the supporting arm on the basis of the magnitude of the detected value of the force detecting sensor of each absorption pad. | 12-23-2010 |
20110037646 | INTER-MOBILE BODY CARRIER PHASE POSITIONING DEVICE AND METHOD - The inter-mobile body carrier phase positioning device according to the invention includes: a first observation data acquisition means that acquires observation data concerning a phase accumulation value observed in a first mobile body; a second observation data acquisition means that acquires observation data concerning a phase accumulation value observed in a second mobile body; a satellite pair determination means that determines pairs of satellites used for carrier phase positioning; and a carrier phase positioning means that takes, between each of the pairs of the satellites determined by the satellite pair determination means, a single or double difference between the observation data acquired by the first observation data acquisition means and the observation data ac quired by the second observation data acquisition means, and determines relative positional relation between the first mobile body and the second mobile body by carrier phase positioning using the single or double difference of the observation data. | 02-17-2011 |
20110037647 | RELATIVE POSITION DETECTING APPARATUS, AND RELATIVE POSITION DETECTING SYSTEM - In a case in which three or more movable objects, each of those detecting the relative position with respect to another movable object, are able to communicate with each other: a reference movable object obtains observation data and transmits the observation data to non-reference movable objects; one non-reference movable object calculates the relative position with respect to the reference movable object by performing interferometric positioning using the observation data obtained by the observation data obtaining means and data including observation data received from the reference movable object, and also transmits data including an integer bias calculated as interferometric positioning results to another non-reference movable object and receives reliability determination results regarding the interferometric positioning; and the another non-reference movable object receives data including the integer bias from the one non-reference movable object and determines the reliability of the interferometric positioning. | 02-17-2011 |
20110054790 | INTER-MOVING BODY INTERFEROMETRIC POSITIONING SYSTEM, DEVICE AND METHOD THEREOF - An inter-moving body interferometric positioning system for carrying out positioning in coordination with three or more moving bodies that can mutually communicate, including: a reference vehicle decision unit for deciding on a single moving body to function as a reference vehicle from among three or more moving bodies, and a positioning unit for interferometrically determining respective relative positions of other moving bodies relative to the reference moving body that is to function as a reference vehicle decided on by the reference moving body decision unit using satellite wave monitoring data monitored in each of the three or more moving bodies. This inter-moving body interferometric positioning system specifies relative positions among the other moving bodies using positioning results of the positioning unit. | 03-03-2011 |
20130211686 | VEHICULAR DRIVE CONTROL APPARATUS - A vehicular drive control apparatus provided with pulse-driving and gliding means | 08-15-2013 |
20130332020 | CONTROL DEVICE OF HYBRID VEHICLE - It is provided a control device of a hybrid vehicle including a plurality of drive power sources for running including an electric motor driven by electric energy of an electric storage device, the hybrid vehicle configured to perform motor running or assist running using the electric motor for running, the control device being configured to divide a running road acquired from map data into a plurality of sections and stores a change amount of a charged capacity of the electric storage device for each of the divided sections, to acquire all possibly-traveled running routes within a predetermined distance from a current position of the vehicle based on the map data, to calculate a variation characteristic of the charged capacity in correlation with a distance from the current position for each of the running routes based on the change amount of the charged capacity, if it is determined from the variation characteristic of the charged capacity that the possibly-traveled running routes include at least one running route in which electric energy can be recovered to the extent exceeding a predetermined charged capacity upper limit value for permitting charging of the electric storage device, permission being given for the motor running or the assist running using a consumable amount of the electric energy based on electric energy exceeding the predetermined charged capacity upper limit value on the condition that the charged capacity does not fall below a predetermined charged capacity lower limit value for permitting discharging of the electric storage device in all the possibly-traveled running routes even when the electric energy exceeding the predetermined charged capacity upper limit value is consumed before recovery. | 12-12-2013 |
20150263633 | POWER CONVERSION APPARATUS AND METHOD FOR STARTING UP THE SAME - A power conversion apparatus includes a transformer; a primary side full bridge circuit provided on a primary side of the transformer; a first port connected to the primary side full bridge circuit; a second port connected to a center tap of the primary side of the transformer; a secondary side full bridge circuit provided on a secondary side of the transformer; a third port connected to the secondary side full bridge circuit; and a control unit configured to cause an upper arm of the secondary side full bridge circuit to operate in an active region in a case where a capacitor connected to the third port is charged with a transmitted power transmitted to the secondary side full bridge circuit via the transformer from the primary side full bridge circuit when power of the second port is stepped up and the stepped up power is output to the first port. | 09-17-2015 |
20150295445 | ELECTRIC POWER CONVERSION APPARATUS AND METHOD OF CONTROLLING THE SAME - Assuming that a transformer has a primary to secondary winding turn ratio 1:N, VR denotes a voltage of regenerated power, VCd denotes a discharge final voltage of a first battery connected with a transformer-primary-side center tap, VCc denotes a charge final voltage of the first battery, VBd denotes a discharge final voltage of a second battery connected with a transformer-secondary-side full bridge circuit, VBc denotes a charge final voltage of the second battery and Drain denotes a lower limit of a duty ratio D of a transformer-primary-side full bridge circuit, an apparatus determines upon (VBd/N)≦VR≦(VBc/N) that the first and second batteries may be able to be charged with regenerated power and determines upon VCd≦VR≦(VCc/Dmin) that the first battery may be able to be charged with the regenerated power. | 10-15-2015 |
20150295504 | ELECTRIC POWER CONVERSION APPARATUS AND METHOD OF CONTROLLING THE SAME - An electric power conversion apparatus includes a transformer having a primary coil and a secondary coil; a primary-side full bridge circuit having first and second arm circuits in parallel, respective midpoints of the first and second arm circuits being connected via the primary coil; a secondary-side full bridge circuit having third and fourth arm circuits in parallel, respective midpoints of the third and fourth arm circuits being connected via the secondary coil. The number of turns of the secondary coil between the latter respective midpoints is switched and transmission power transmitted between the primary-side and the secondary-side full bridge circuits is controlled through adjustment of a phase difference in switching between the first arm circuit and the third arm circuit and a phase difference in switching between the second arm circuit and the fourth arm circuit. | 10-15-2015 |