Patent application number | Description | Published |
20140244100 | REMOTE MONITORING TERMINAL DEVICE FOR MOBILE WORK VEHICLE OR VESSEL - Disclosed is a remote monitoring terminal device including: connection terminals (T, . . . ); a data storage control section for storing, in a first data storage section at predetermined intervals, only a predetermined number of latest data sets fed via the connection terminals (T, . . . ); a sampling data storage control section for storing in a second data storage section sampling data obtained by sampling the data stored in the first data storage section at sampling intervals (TC); and a communications section, wherein the sampling data storage control section transmits the sampling data stored in the second data storage section to the remote monitoring device via the communications section in response to a request from the remote monitoring device or in response to an end of a work. | 08-28-2014 |
20140247138 | REMOTE MONITORING TERMINAL DEVICE FOR MOBILE WORK VEHICLE OR VESSEL - Disclosed is a remote monitoring terminal device | 09-04-2014 |
20140257625 | REMOTE MONITORING TERMINAL DEVICE FOR MOBILE WORK VEHICLE OR VESSEL - Disclosed is a remote monitoring terminal device including: connection terminals (T, . . . ); a data storage control section for storing, in a data storage section at predetermined interval (TA), only a predetermined number of latest data sets in data fed via the connection terminals (T, . . . ); and a communications section, wherein in response to an occurrence of a predetermined event in the mobile work vehicle or vessel, the data storage control section stores in the data storage section the predetermined number of data sets including a data set obtained upon the occurrence of the predetermined event and transmits the predetermined number of data sets stored in the data storage section, together with information indicating the predetermined event, to a remote monitoring device via the communications section. | 09-11-2014 |
Patent application number | Description | Published |
20140111066 | ROTARY MACHINE AND DRIVE SYSTEM THEREFOR - A rotary machine includes two sets of three-phase stator winding wires and two sets of inverters connected to the same direct-current power supply. Alternating-current terminals of the inverters are respectively connected to the three-phase stator winding wires. Stator winding wires are housed in a plurality of slots to form a stator. The two sets of three-phase stator winding wires and the stator winding wires in the same phase of the sets are started to be wound from the slot positions, with phases thereof being different from each other by 180 degrees, among the plurality of slots and are finished being wound in the slot positions, with phases thereof different from each other by 180 degrees. Winding end points of the three-phase stator winding wires are respectively connected in common, and alternating-current voltages having the same magnitude and opposite phases are applied to the two sets of three-phase stator winding wire. | 04-24-2014 |
20140306450 | ELECTRICAL MACHINE AND WIND POWER GENERATING SYSTEM - A electrical machine and a wind power generating system include a stator having a stator winding, a rotor arranged on a side of an inner diameter of the stator with a clearance between the rotor and the stator, a shaft fixed to the rotor and rotated along with the rotor, and a heat pipe arranged from an inner portion over to an outer portion of the shaft, and a radius of gyration of a portion of the heat pipe arranged at the outer portion of the shaft is smaller than that of a portion arranged at the inner portion of the shaft. | 10-16-2014 |
20140337402 | Analysis Computation Method, Analysis Computation Program and Recording Medium - A method for efficiently carrying out an analysis and computation using mesh structures is disclosed. When an insulator is brought into contact with two conductors, the mesh structures are generated and a displacement current is analyzed. In the generated structures, the insulator is considered a three-dimensional mesh structure and at least a portion of the conductor brought into contact with the insulator is considered a three-dimensional structure whereas the other portions are taken as a one- or two-dimensional structures. In an alternative, the insulator is considered a three-dimensional structure and at least a portion of the conductor brought into contact with the insulator is considered a three-dimensional structure whereas the other portions are considered three- to one-dimensional structures. In the conductor, a short-circuit section with no mesh elements is provided between at least a portion brought into contact with the insulator and the other portions. | 11-13-2014 |