WO/2015/107694 SWITCH AND GAS-INSULATED SWITCHGEAR||WO||23.07.2015|
||PCT/JP2014/050967||MITSUBISHI ELECTRIC CORPORATION||HIRAI, Kiyoyuki|
Provided are a switch and a gas-insulated switchgear, equipped with: circuit breakers (2a-2c) for which first-phase through third-phase switching units are housed respectively in containers (3a-3c); a linear drive shaft (5), which penetrates the side surface of the container (3a) in an airtight and rotatable manner at two opposing locations, penetrates the side surface of the container (3b) in an airtight and rotatable manner at two opposing locations, and penetrates the side surface of the container (3c) in an airtight and rotatable manner at one location; and an operation device (10) capable of switching the first-phase through third-phase switching units in unison by rotationally driving the drive shaft (5).
WO/2015/107695 PLUNGER USED IN SOLENOID||WO||23.07.2015|
||PCT/JP2014/050973||GKN DRIVELINE JAPAN LTD||YOSHIDA, Shouji|
The plunger used in a solenoid that is symmetric about an axis is provided with: a first portion, which is mated with the solenoid to be slidable and comprises a magnetic material, assuming a circular shape around the axis and having a first edge and, on the side opposite from the first edge in the direction of the axis, a second edge; a second portion, which is mated with the first part and comprises a non-magnetic material, provided with one or more claw portions that extend from a first edge portion on the first edge along the axis; and a plurality of staked portions that deform plastically from the second portion to overlap with the second edge in order to prevent the first portion from being displaced in a direction along the axis.
WO/2015/107665 PROGRAM FOR CREATING WORK ASSISTANCE DATA||WO||23.07.2015|
||PCT/JP2014/050732||HITACHI, LTD.||SAGAWA, Hirohiko|
Provided is a technology that facilitates the following: associating a work procedure with a 3D model based on the state of an actual work area; adding and registering a work viewpoint image to the 3D model; and registering a work item in an existing work procedure to the 3D model. A program for creating data causes a computer to execute the following: a step in which a converted image, which is a whole-view image the viewpoint of which was switched, is created on the basis of a 3D model generated from a plurality of whole-view images which include a plurality of work targets; a step in which the position of a work viewpoint image, which is captured from the line of sight at which work is carried out, is determined on the basis of the degree of similarity obtained by comparing the converted image and the work viewpoint image, and in which information related to a work target on which work is carried out is registered on the whole-view image; and a step in which the work viewpoint image that corresponds to a registered work target is retrieved on the basis of the positional relationship of the work viewpoint image to the whole-view image, and the retrieved work viewpoint image is associated with the work object.
WO/2015/107682 SNOW SURFACE SKIMMER||WO||23.07.2015|
||PCT/JP2014/050864||KITAZAWA Sawato||KITAZAWA Sawato|
The snow surface skimmer (1) is provided with: a skimmer body (2); a steering handle (3), which extends upward at a slant from the skimmer body (2); a seat (4) installed on a region of the skimmer body (2) that is behind the steering handle (3); and a skimming board (7). The skimming board (7) is detachably attached to the bottom surface (5) of the skimmer body (2) by a skimmer attachment mechanism (6) so that the attachment position in the front-back direction is adjustable. A skimming board (7) suited to the skimming person's body type, build, etc. can be attached to the skimmer body (2) at the appropriate position in the front-back direction.
WO/2015/107616 CIRCUIT BOARD AND MANUFACTURING METHOD FOR SAME, AS WELL AS ELECTRONIC DEVICE||WO||23.07.2015|
||PCT/JP2014/050422||FUJITSU LIMITED||MIZUTANI, Daisuke|
A circuit board of superior flatness, which can mount an electronic component of greater size or miniaturization, even reduces inductance, sufficiently suppresses power supply noise, provides power supply stability, and is of high reliability, is achieved, said circuit board including a core layer (10), and a pair of build-up layers (20) which sandwich the core layer (10) therebetween, wherein the core layer (10) is configured so as to comprise: first insulating layers (12) comprising wiring (11a) inside; and second insulating layers (13) which are disposed inside the first insulating layers (12), embed the wiring (11a) therein, and are of a lower modulus of elasticity than the first insulating layers (12). Also achieved is an electronic device therefor.
WO/2015/107628 FELT HOLDING STRUCTURE OF TENSION PAD DEVICE||WO||23.07.2015|
||PCT/JP2014/050516||JDC, INC.||HASHIKAWA Yoshito|
An insertion-type holding structure (10), which is an example of the felt holding structure of a tension pad device of the present invention, is provided with a fixed outer tube (11) and an inner tube (12) with a protrusion. The inner tube (12) with the protrusion is arranged on the inside of the fixed outer tube (11), and the fixed outer tube (11) is fixed to a base (14) of a tension pad device with a fixing screw (13). Further, felt (15), which becomes the portion of a metal strip, etc., for pressing against an object, is arranged on the surface of the base (14). Further, the fixed outer tube (11) is fixed along the longitudinal direction on the end surface of the base (14) on the side of the slitter line from which the strip is fed. Further, the inner tube (12) with the protrusion is the member that grips the felt (15).
WO/2015/107666 STORAGE APPARATUS AND CACHE CONTROL METHOD FOR STORAGE APPARATUS||WO||23.07.2015|
||PCT/JP2014/050733||HITACHI, LTD.||HAYASAKA, Mitsuo|
This storage apparatus is connected to a host device and a secondary storage apparatus, and has memory, a storage unit and a processor. The memory includes a save memory region, and a cache memory region which temporarily stores data received from the host device. The storage unit stores data received from the host device. At a copy start time, the processor controls copy processing of designated data to another storage apparatus and if, after copy start, an update request is received for a first data block in the cache memory region, then the first data block is saved to the save memory region, and the first data block in the cache memory region is updated to an updated data block.
WO/2015/107634 COMMUNICATION UNIT, HANGER RACK, AND PRODUCT INFORMATION MANAGEMENT SYSTEM||WO||23.07.2015|
||PCT/JP2014/050533||TAIYOPARTS CO., LTD.||MURAKAMI Yoshinori|
This communication unit is provided with a transmission/reception unit for transmitting data to and receiving data from electronic storage media, and a data communication unit for causing data communication with the electronic storage media via the transmission/reception unit, wherein: the transmission/reception unit comprises a base portion which is formed of an insulating material and which extends in one direction, a first antenna portion which is formed of a conducting material and provided in an annular configuration around the outer peripheral surface of the base portion, and a cover portion which is formed of an insulating material and which covers the base portion and the first antenna portion; the data communication unit causes a magnetic flux to radiate from the first antenna portion toward the electronic storage media so that second antenna portions of the electronic storage media are flux-coupled to the first antenna portion, thereby causing data communication between the electronic storage media and the transmission/reception unit; and the first antenna portion is disposed in such a way that the first antenna portion can be flux-coupled to the second antenna portions of the electronic storage media, which are arranged in the longitudinal direction of the base portion.
WO/2015/107635 IMAGE COMPARISON SYSTEM||WO||23.07.2015|
||PCT/JP2014/050567||SHIMADZU CORPORATION||KIHARA, Takayuki|
Provided is an image comparison system (1) for superimposing and thereby comparing a plurality of images displayed on the screen of a display unit (14), said image comparison system (1) being equipped with: a region determination means (31) which determines a first region and a second region on the screen, as instructed by a user; an extraction means (32) which stores, in a storage region as an extracted image, a captured image obtained from the first region determined by the region determination means (31); a transparentization processing means (33) which performs a transparentization process to transparentize predetermined ones of the colors included in the extracted image; and a display control means (37) which, after the transparentization processing means (33) has performed the transparentization process on the extracted image, causes the extracted image to be displayed in the foreground on the screen in such a way that the positional relationship between two reference points in the extracted image is identical to the positional relationship between two reference points in the second region determined by the region determination means (31), by enlarging and/or reducing the extracted image. Thus, the image comparison system (1) allows one to easily compare, on the screen of the display unit, images that show a plurality of analysis results, etc. and that are contained in a file of any format.
WO/2015/107655 OPTICAL MEASURING APPARATUS||WO||23.07.2015|
||PCT/JP2014/050692||PIONEER CORPORATION||MOCHIZUKI Manabu|
Provided is an optical measuring apparatus for a light emitting element, said optical measuring apparatus being capable of performing highly accurate measurement with a simple configuration.
This optical measuring apparatus is provided with a light receiving element and a light receiving element, which detect light emitted from one light emitting element that is disposed adjacent to other light emitting elements. The light receiving elements detect light that the one light emitting element emitted when the one light emitting element is supplied with power, and do not detect light emitted from other light emitting elements due to the light emitted from the one light emitting element, and light reflected by means of other light emitting elements, said light being among the light emitted from the one light emitting element.