WO/2016/147211 RESIN FILLING METHOD AND RESIN FILLING DEVICE FOR MAGNET EMBEDDED CORE||WO||22.09.2016|
[Problem] To accurately fix permanent magnets into magnet insertion holes in a magnet embedded core by filling a resin and suppress the occurrence of burrs projecting to the outside of an axial direction end surface of a laminated iron core after filling the resin.
[Solution] A resin filling method for a magnet embedded core 1 has: a fixing step of sandwiching the axial direction ends of a laminated iron core by a first mold 21 and a second mold 22 provided opposed to each other; and a resin injection step of injecting a resin into a magnet insertion hole 3 from a resin injection portion 47 provided in the first mold 21 or the second mold 22. In the resin injection step, a tip portion 47a of the resin injection portion 47 is inserted into the magnet insertion hole 3 beyond an axial direction end surface 4a of a permanent magnet 4 inserted into the magnet insertion hole 3.
WO/2016/147213 DOCKING SYSTEM AND DOCKING METHOD||WO||22.09.2016|
This docking system comprises: a first passenger boarding bridge (100A) and a second passenger boarding bridge (100B) which are installed at a terminal building (300); a detector (30) which is equipped on the first passenger boarding bridge (100A); and a controller (50) which receives an output signal from the detector (30). While the first passenger boarding bridge (100A) is in motion after and/or before being docked to an aircraft (200), the controller (50) acquires the positional data of the first passenger boarding bridge (100A) using the detector (30), calculates the docking position data of the second passenger boarding bridge (100B) when docking the second passenger boarding bridge (100B) to the aircraft using the positional data, the known data obtained from the airframe of the aircraft (200), and the known data obtained from the terminal building (300), and controls the automatic docking of the second passenger boarding bridge (100B) to the aircraft (200) on the basis of the docking position data.
WO/2016/147295 WIRELESS POWER SUPPLY SYSTEM AND MOVING BODY||WO||22.09.2016|
A wireless power supply system comprising: a transmission device (1) that wirelessly transmits power; and an electric bicycle (3) having a reception device (2) that receives power wirelessly transmitted by the transmission device (1) and charges, said electric bicycle (3) power-assisting by using the charged power. The reception device (2) has: a relay antenna (205) provided in a wheel of the electric bicycle (3) and receiving power wirelessly transmitted by the transmission device (1); a reception antenna (206) provided in a non-rotating section of the electric bicycle (3) and receiving, in a non-contact manner, power received by the relay antenna (205); and a battery (203) that charges the power received by the reception antenna (206).
WO/2016/147296 SUBSTRATE TREATING DEVICE, METHOD FOR MANUFACTURING SEMICONDUCTOR, AND RECORDING MEDIUM||WO||22.09.2016|
Provided is a technology with which it is possible to obtain uniform film thickness during a substrate treatment in which plasma is used. It is possible to provide a technology having: a reaction tube for forming a treatment chamber in which a substrate is treated; a gas supply part provided inside the treatment chamber, the gas supply part supplying, into the treatment chamber, a reaction gas and a feedstock gas for forming a prescribed film on the surface of the substrate; a plasma generation device for exciting the reaction gas supplied by the gas supply part; and a magnetic-field-generating device provided outside the plasma generation device, the magnetic-field-generating device generating a magnetic field in a direction that is the same as the direction in which the reaction gas excited by the plasma generation device is supplied.
WO/2016/147363 REEL HOLDING DEVICE FOR TAPE FEEDER||WO||22.09.2016|
In a reel holding device (21) for a tape feeder (11), two reel support plates (24) are supported in a swingable manner along the inner surface of a side plate (23a) of a reel accommodating case (23) via plate support shafts (26), and at two places in the side plate (23a). Each of the reel support plates (24) has, provided thereto, a reel support shaft (28) which supports a reel (22) in a rotatable and detachable manner. Central holes (29) in the reels (22) are detachably fitted to the reel support shafts (28). The reel support plates (24) are respectively capable of swinging between a reel set position in which the reels (22) are accommodated inside the reel accommodating case (23), and a reel attachment/detachment position in which the reels (22) are attached and detached. Furthermore, in the reel attachment/detachment position, a portion of each of the reel support plates (24) and a portion of each of the reels (22) are maintained in a state of overlapping the side plate (23a) of the reel accommodating case (23). These overlapping sections become introduction guides, and smooth swing operation of the reel support plates (24) from the reel attachment/detachment position to the reel set position is achieved.
WO/2016/147406 CONTROL APPARATUS AND CONTROL METHOD FOR HYBRID VEHICLE||WO||22.09.2016|
The present invention is a control apparatus for a hybrid vehicle that is equipped with: an engine; a motor driven by power from a battery; and an air conditioner operating with the power from the battery. The control apparatus is equipped with: a target driving force calculation means for calculating, as a target driving force, the target value of the driving force transmitted from a drive source to a driving wheel; an air conditioner management means for managing the on-off state of the air conditioner; and a control means which calculates a required output by adding the target driving force to system output required for the drive source by system requirements, and calculates an engine operation point where the engine is optimally driven for the required output, and control the engine in such a manner that the engine is driven at the operation point and controls the motor on the basis of the required output. If the air conditioner is in the on state, the control means subtracts the driving force equivalent to the power consumption of the air conditioner from the target driving force and adds, to the system output, the engine output which is necessary for the motor to generate the power to be consumed by the air conditioner, and then calculates the required output.
WO/2016/147411 CONTROL DEVICE, CONTROL METHOD, AND PROGRAM||WO||22.09.2016|
A power value acquisition unit (101) acquires: a first power value, which is the total value of power supplied from an L1 phase; and a second power value, which is the total value of power supplied from an L2 phase. In the event that the first power value is less than a first threshold value, a control unit (103) controls a first device so that the value representing the power consumed by the first device does not exceed a consumed power upper limit value at which a first total value, which is the total value of the first power value and the value of surplus power that, of the surplus power of the first device, is that portion not clearly supplied from the L2 phase, is equal to or less than a second threshold value, which is smaller than the first threshold value. In the event that the second power value is less than the first threshold value, the control unit (103) controls the first device so that the value representing the power consumed by the first device does not exceed a consumed power upper limit value at which a second total value, which is the total value of the second power value and the value of surplus power that, of the surplus power of the first device, is that portion not clearly supplied from the L1 phase, is equal to or less than the second threshold value.
WO/2016/147414 WATER TREATMENT SYSTEM AND POWER GENERATION APPARATUS||WO||22.09.2016|
A water treatment system equipped with: an aluminate ion addition part 14c which adds an aluminate ion additive 14a to raw water to be treated containing at least salt matter and silica; a first sedimentation part 16 which has been disposed downstream from the aluminate ion addition part 14c and which separates solid matter from the raw water 11 by sedimentation; a first pH regulation part 17c which has been disposed downstream from the first sedimentation part 16 and which supplies a first pH regulator 17a to regulate the pH to a first pH value which makes the aluminum remaining in the raw water 11 sediment; a first solid-liquid separation part 18A which separates solid matter from the raw water 11; a second pH regulation part 19c which regulates the pH of the raw water 11 from the first solid-liquid separation part 18A, to a second pH value; and a first separation membrane (desalting) device 23A which has been disposed downstream from the second pH regulation part 19c and which removes the salt matter contained in the raw water 11 and separates the raw water 11 into first penetrant water 21A and first retentate water 22A.
WO/2016/147303 MANAGEMENT DEVICE, PROGRAM, SYSTEM, APPARATUS, AND METHOD||WO||22.09.2016|
The management device according to an embodiment can be connected to a plurality of apparatuses via a network. The management device is provided with a tree storage unit, a similarity calculation unit, an assignment unit, and an assignment transmission unit. The tree storage unit stores management tree information in which a node key is assigned to a node and an apparatus is assigned to a leaf node. The similarity calculation unit calculates similarity between attribute information representing the attribute of a new apparatus and the attribute information of an apparatus already assigned in the management tree information. The assignment unit determines, on the basis of the similarity, a leaf node to which the new apparatus in the management tree information is assigned. The assignment transmission unit transmits, to the new apparatus, at least one node key assigned to a path from a root node to the corresponding leaf node in the management tree information.
WO/2016/147297 DRUG SOLUTION ADMINISTRATION DEVICE AND METHOD FOR OPERATING SAME||WO||22.09.2016|
The present invention is a drug solution administration device for locally administering a drug solution to a predetermined site, wherein: a distal end (Pos1) of an injection needle (33) of an injector (22) is irradiated with pulsed ultrasonic waves from a cavitation-generating ultrasonic irradiation unit (20), under the control of a cavitation-generating ultrasonic focal point control unit (30), while a predetermined site of a target organ (32) is being monitored with ultrasound images based on an ultrasonic echo signal coming from a monitoring-use ultrasonic irradiation unit (21). After confirmation of changes in tissue characterization at the predetermined site by a detection and imaging unit (26), a cavitation generation surveillance unit (25), and the like connected to a monitoring-use ultrasound sending and receiving unit (27), a control unit (31) performs a control such that a drug solution is locally administered to the predetermined site.