WO/2015/177824 AIR CONDITIONER INDOOR UNIT||WO||26.11.2015|
||PCT/JP2014/002647||MITSUBISHI ELECTRIC CORPORATION ||TAKASU, Kazuaki |
An air conditioner indoor unit has been desired that can simultaneously and easily achieve both a vibration-isolating function of a panel member and an airtightness-maintaining function between a fan chamber and an air intake chamber. This air conditioner indoor unit comprises: a main body casing (16) that has a blowing pathway (19); a substrate (10) that is disposed within the main body casing (16) and that compartmentalizes the blowing pathway (19) into a fan chamber (17) and an air supply chamber (18) in a non-airtight manner; a blower fan (20) that is installed on the substrate (10); a heat exchanger (11) that is provided to the air supply chamber (18); and a panel member (1) that removably seals an opening (27) at the front side of the fan chamber (17) and the substrate (10). The air conditioner indoor unit is characterized in that the heat exchanger (11) is disposed in a manner inclined downward toward the rear side, and an airtight member (15) having a labyrinth structure made of a flexible material that is airtight in the vertical direction is interposed between the front surface (10A) of the substrate (10) and the back surface (1A) of the panel member (1) while the opening (27) is sealed, thus blocking the flow-through of air between the fan chamber (17) and an air entrance side (18A) of the heat exchanger (11) in the air supply chamber (18).
WO/2015/177837 WOVEN FABRIC AND METHOD FOR MANUFACTURING WOVEN FABRIC||WO||26.11.2015|
||PCT/JP2014/063207||KABUSHIKIKAISHA MIYAKE DESIGN JIMUSHO D/B/A MIYAKE DESIGN STUDIO ||MIYAMAE, Yoshiyuki |
Provided is a woven fabric configured so as to allow formation of decoration such as pleats. The woven fabric (10) comprises multiple warp threads (11) and multiple woof threads (12) that intersect with the multiple warp threads. Some of the multiple warp threads are contracting warp threads (21) that contract more in the longitudinal direction than the other warp threads when a specified process is applied. The contracting warp threads (21) have, in at least one area in the longitudinal direction thereof, a first skipping section (21J) in which a first specified number of adjacent woof threads (12) are skipped and multiple first skipping sections (21J) are disposed in a specific first pattern. It is also possible to use contracting woof threads (22), which contract more in the longitudinal direction than the other woof threads when a specified process is applied, for some of the multiple woof threads (12).
WO/2015/177823 ANALYSIS DEVICE||WO||26.11.2015|
||PCT/JP2014/002630||SYSTEM INSTRUMENTS CO., LTD. ||HAMADA, Kazuyuki |
An automatic analysis device (10) is provided with a tip rack (11) for storing pipette tips, pipettes (12) into which a sample is injected, a conveyance unit (13) for conveying the pipettes (12) through parallel motion, a reagent rack (14), a reaction unit (15), a detection unit (16), and a detection block unit (17). The pipette tips stored by the tip rack (11) have a planar structure for direct-light detection of a sample. The tip rack (11) has, in holes for receiving the pipette tips, guides corresponding to the structure of the pipette tips. The driving of a pump causes the sample to be injected into or discharged from the pipettes (12) via the pipette tips, which are attached to the distal ends of the pipettes (12). In the detection unit (16), measurement is carried out with the pipette tips disposed so that the planes for receiving light thereof are in an orientation perpendicular to the optical axis.
WO/2015/177832 SECURITY MEASURE DETERMINATION ASSISTANCE DEVICE AND SECURITY MEASURE DETERMINATION ASSISTANCE METHOD||WO||26.11.2015|
||PCT/JP2014/063158||HITACHI, LTD. ||MATSUBARA, Yukiko |
The present invention enables one to propose security measures taking into account the availability of the subject to which these measures are applied. A security measure determination assistance device (100) is provided with a calculation device (104) which: compares a graphic region corresponding to security requirement information with a graphic region corresponding to measure information, wherein the graphic region corresponding to the security requirement information has side lengths, each corresponding to a security level, or the amount of time for which the security level should be maintained, indicated by the security requirement information, and wherein the graphic region corresponding to the measure information has side lengths, each corresponding to either a security level estimated to be attained by application of a security measure candidate indicated by security measure candidate information included in the measure information, or the amount of time for which the attained security level is maintained; determines the state in which the graphic region corresponding to the security requirement information is covered by the graphic region corresponding to the measure information; and generates evaluation results of the security measure candidate according to the determined coverage state and outputs the evaluation results to an output device.
WO/2015/177856 VOICE OPERATION DEVICE, VOICE OPERATION METHOD, AND VOICE OPERATION SYSTEM||WO||26.11.2015|
||PCT/JP2014/063287||MITSUBISHI ELECTRIC CORPORATION ||SETO Yusuke |
The purpose of the present invention is to provide a voice operation device, a voice operation method, and a voice operation system such that a device can be operated even in a situation where the device cannot be touched. A voice operation device (1) according to the present invention is provided with: a speech signal extraction unit (3) that extracts, as a speech signal, a speech interval from a voice signal acquired by a voice signal acquisition unit (2); a speech content recognition unit (4) that recognizes a speech content on the basis of the speech signal extracted by the speech signal extraction unit (3); a coordinate calculation unit (5) that acquires a distribution of the magnitude of speech on a display screen or the magnitudes of speech at a plurality of locations on the display screen on the basis of the speech signal extracted by the speech signal extraction unit (3), and that calculates the coordinates on the display screen corresponding to a position where the magnitude is at a maximum of the distribution of the acquired magnitude of speech or the magnitudes of speech; and an operation content determination unit (6) that determines an operation content with respect to the display screen on the basis of the speech content recognized by the speech content recognition unit (4) and the coordinates calculated by the coordinate calculation unit (5).
WO/2015/177876 LIGHT MEASUREMENT SYSTEM AND OPTICAL BRAIN FUNCTION MEASUREMENT METHOD||WO||26.11.2015|
||PCT/JP2014/063374||SHIMADZU CORPORATION ||ISHIKAWA, Akihiro |
This light measurement system (100) is provided with multiple light measurement units (1) and a control device (2) for controlling the light measurement units. The control device comprises: a communication unit (24) for acquiring, by communication, specific state information (30) for each of the multiple light measurement units relating to whether or not the light measurement unit is in a state that is capable of measurement; a display unit (25) for displaying the acquired state information for each of the multiple light measurement units at one time; and a control unit (21) for controlling the multiple light measurement units so as to perform simultaneous measurement.
WO/2015/177892 FUEL CELL MANUFACTURING METHOD AND FUEL CELL MANUFACTURING APPARATUS||WO||26.11.2015|
||PCT/JP2014/063503||NISSAN MOTOR CO., LTD. ||ICHIHARA, Keiji |
Provided are a fuel cell manufacturing method and a fuel cell manufacturing apparatus, whereby parts to be heated can be locally heated. In this fuel cell manufacturing method, with respect to heating portions (151) of a laminated body (150) wherein membrane electrode bonded bodies (161) and separators (162) are laminated, said heating portions having an adhesive disposed therein, coils (101, 102 (103, 104)) are disposed such that, on both the sides in the lamination direction of the membrane electrode bonded bodies and the separators, currents flow in the direction equal to the direction intersecting the lamination direction, and the heating portions are inductively heated by having currents flow to the coils.
WO/2015/177904 CONTROL DEVICE FOR ELECTRIC-POWERED MOTOR||WO||26.11.2015|
||PCT/JP2014/063573||MITSUBISHI ELECTRIC CORPORATION ||ARAKI Rei |
A substrate (100) has a separating zone (30) configured from one long and narrow through-hole (31) in a region closer to an end portion than a central portion thereof. A first group electronic component (10) serving as a source of generation of heat and electrical noise is disposed in a first region (101) on the central portion side from the separating zone (30) of the substrate (100). A second group electronic component (20) that needs to eliminate the influence of heat or electrical noise from another component as much as possible is disposed in a second region (102) on the end portion side from the separating zone (30) of the substrate (100).
WO/2015/177858 TRIP ATTRIBUTE ESTIMATING SYSTEM, TRIP ATTRIBUTE ESTIMATING METHOD, TRIP ATTRIBUTE ESTIMATING PROGRAM, AND TRAVEL BEHAVIOR SURVEY SYSTEM||WO||26.11.2015|
||PCT/JP2014/063320||HITACHI, LTD. ||OHASHI Hiroki |
The objective of the invention is to provide a technique with which it is possible for trip attributes to be estimated inexpensively and accurately. To this end, in the invention it is proposed that, while taking into account relationships between a plurality of trip attributes such as travel means, purpose of travel, origin and destination, and travel route, estimated results are adjusted by referring mutually to the estimated results between different trip attributes. More specifically, GPS data and acceleration sensor data acquired from a mobile terminal are used to estimate a plurality of trip attributes which define the features of travel carried out by a user holding the mobile terminal. At this time, if an estimated result of a first trip attribute included in the estimated results of a plurality of trip attributes has been adjusted, a computer uses the estimated result of the first trip attribute and inter-trip-attribute relationship information defining relationships between the plurality of trip attributes to adjust the estimated result of a second trip attribute different from the first trip attribute.
WO/2015/177863 ELECTRIC MOTOR CONTROL DEVICE||WO||26.11.2015|
||PCT/JP2014/063341||MITSUBISHI ELECTRIC CORPORATION ||SHODA Tomohisa |
An electric motor control device drives a power conversion device (30) by a two-phase modulation drive on the basis of the calculation by a driving method setting and element loss calculation means (16) when an electric motor (4) has a predetermined rotational speed or less. The electric motor control device switches a switching signal from a switching signal generation means (14) to switch the switching operation of a switching element when the value obtained by integrating the losses of a first switching element having a large switching loss and a second switching element exceeds a predetermined value.