WO/2016/129029 AUTOMATIC ANALYZER||WO||18.08.2016|
||PCT/JP2015/053484||HITACHI, LTD.||YAMAMOTO Kyoko|
The present invention has: a reaction disk in which cells containing a reaction solution mixed from a sample and a reagent are held on a circle, and which is repeatedly rotated and stopped; and a scattered light measurement unit for illuminating the cells with illuminating light from a light source while the reaction disk rotates, and measuring scattered light subsequent to interaction with the reaction solution in the cells. The scattered light measurement unit receives scattered light of angles of less than 15° from the optical axis of the illuminating light, and measures the change over time in the quantity of light received by the scattered light measurement unit using, as the reagent, a latex reagent having a particle diameter of 450 to 875 nm, inclusive, obtained by sensitizing an antibody that recognizes a measured substance. The scattered light measurement performs the measurements by way of reaction process data of an agglutination reaction of a reaction solution mixture of the latex reagent and a sample containing the measured substance, and quantifies the measured substance present in the sample.
||PCT/JP2015/053529||MITSUBISHI HEAVY INDUSTRIES, LTD.||NAMBU, Takashi|
The supercharger 100 of one embodiment of the present invention comprises: a rotating shaft 2; a compressor impeller 105; a compressor housing 104; a bearing housing 106 connected to the compressor housing 104 and defining a diffuser flow passage 112 between the bearing housing 106 and the compressor housing 104; a thrust plate 4 axially supporting the rotating shaft 2; an insert member 6 for holding, between the insert member 6 and a protrusion wall section 106A within the bearing housing, the thrust plate 4; a snap ring 8 inserted in a first circumferential groove 81 formed in the inner peripheral wall surface 106a of the bearing housing 6, thereby affixing the insert member 6 while the insert member 6 is pressed against the thrust plate 4; and a diffuser member 9 having a diffuser surface 91a extending between the inner peripheral wall surface 106a at one end of the bearing housing 106 and the outer peripheral edge 105a of the compressor impeller 105, in the direction perpendicular to the rotating shaft 2.
WO/2016/129086 TRAIN CONTROL SYSTEM, BASE STATION CONTROL APPARATUS, TERRESTRIAL WIRELESS BASE STATION, VEHICLE-MOUNTED WIRELESS STATION||WO||18.08.2016|
||PCT/JP2015/053859||MITSUBISHI ELECTRIC CORPORATION||AOYAMA, Tetsuya|
In order to improve an arrival rate of communication data used in train control between a terrestrial wireless base station and a vehicle-mounted wireless station, a train control system controls the operation of a train 11 by transmitting and receiving, via wireless communication between a vehicle-mounted wireless station 21 mounted in the train 11 and a terrestrial wireless base station 31, information including train control information that is information for controlling the operation of the train 11, wherein general transmission information U1 that is information other than the train control information among the information transmitted by the terrestrial wireless base station 31 including the train control information C1 is transmitted only once from the terrestrial wireless base station 31 to one vehicle-mounted wireless station 21, the train control information C1 is transmitted repeatedly a plurality of times from the terrestrial wireless base station 31 to the one vehicle-mounted wireless station 21, and the vehicle-mounted wireless station 21 uses, for the operation of the train 11, the train control information C1 received first without occurrence of data loss among the train control information C1.
WO/2016/129044 COOLING DEVICE AND ELECTRONIC APPARATUS||WO||18.08.2016|
||PCT/JP2015/053554||FUJITSU LIMITED||HAYASHI, Nobuyuki|
The purpose of the present invention is to improve cooling performance of a cooling apparatus.
According to an embodiment of the present invention, a cooling device is provided with an evaporator, condenser, path section, valve, and pressure adjusting section. The path section has a vapor path and a liquid path, which communicate the inside of the evaporator and the inside of the condenser with each other, said path section circulating a refrigerant between the evaporator and the condenser. The valve is provided to the vapor path and/or the liquid path. The pressure adjusting section increases opening of the valve corresponding to an increase of pressure in the evaporator.
WO/2016/129065 REAR END STRUCTURE OF VEHICLE BODY||WO||18.08.2016|
||PCT/JP2015/053702||HONDA MOTOR CO., LTD.||TAKAHASHI Koichi|
Provided is a rear end structure of a vehicle body, with which it is possible to reduce vehicle weight and achieve satisfactory vehicle body rigidity. The rear end structure of a vehicle body (1) is equipped with a floor panel (3) having a low floor part (32), a high floor part (43) provided rearward of the low floor part (32), and a floor recess (44) formed in the high floor part (43) and describing a protuberant configuration when viewed in the longitudinal direction of the vehicle, and a brace (90) connecting the low floor part (32) and the bottom surface (44b) of the floor recess (44).
WO/2016/129026 MIRROR ION MICROSCOPE AND ION BEAM CONTROL METHOD||WO||18.08.2016|
||PCT/JP2015/053450||HITACHI, LTD.||SHICHI Hiroyasu|
This mirror ion microscope comprises: irradiation optics (5, 7, 8) for irradiating onto a sample (9) an ion beam generated by a gas electric field ionization ion source (1); an electric potential control unit for controlling a positive electric potential applied to the sample and an acceleration voltage for the ion beam; ion detection optics (7, 51, 52) for imaging or projecting as a micrograph an ion that has been reflected from the sample; and a detection unit (53). The electric potential control unit is capable of setting a first positive electric potential for causing the ion beam to impinge onto the sample, and a second positive electric potential for causing the ion beam to be reflected before impinging onto the sample. Therefore, setting the first positive electric potential allows the sample surface to be sputtered, and setting the second positive electric potential allows a micrograph to be obtained.
In this manner, an ion microscope can be achieved, capable of high-speed and ultra-high definition observation and examination.
WO/2016/129063 BREATH PRESSURE ADJUSTMENT DAMPER FOR OCARINA AND TWO-STAGE ATTACHMENT ADAPTER||WO||18.08.2016|
||PCT/JP2015/053697||OFFICE ITSUKI AGENCY CO., LTD.||Yonezu Mitsuo|
[Problem] To provide a breath pressure adjustment damper specifically for an ocarina which is a pot-shaped airreed instrument, the damper adapting flexibly to the diversity of the ocarina while maintaining the normal feeling of playing the actual instrument, minimizing the effect on the pitch and sound quality, and reducing the possibility of damage to the ocarina, thereby creating superior damper effect.
[Solution] A mouthpiece g and an adapter h are attached to an ocarina. By turning a breath adjustment ring 4 to adjust the size of a breath vent 3, the part of air 8 arriving at the breath vent 3 from a mouth 1 of the mouthpiece g is discharged from the breath vent 3 to the outside of the mouthpiece to thus decrease a sense of resistance occurring when air is blown. Adjusting a windway width adjustor 5 in the mouthpiece further reduces the air 9 not already discharged at this stage and thus the quantity of air arriving at an ocarina body via a windway width regulator 6 in the mouthpiece is significantly reduced. Thereby, the damping effect can be created while maintaining the normal feeling of playing the actual instrument.
WO/2016/129095 PAD FOR ELECTROCONVULSIVE THERAPY DEVICE||WO||18.08.2016|
||PCT/JP2015/053931||TSUCHIYAGOMU CO., LTD.||KURATA Yuhei|
Provided is a pad for electroconvulsive therapy devices, the pad using non-woven fabric to reduce irritation to the skin and to improve skin moisturization and electrical stimulation by being kept wet by retaining water. The pad comprises: an adhesive layer 11 which is adhered to a living body 10 and includes non-woven fabric that is kept wet by retaining water; a microcurrent sheet 12 which is disposed on a rear side of the adhesive layer 11 and provides electric current to the living body 10 through water in the adhesive layer 11; and a thermal sheet 15 which is disposed on the rear side of the adhesive layer 11 and heats the living body 10.
WO/2016/129096 SYSTEM FOR CONTROLLING OPENING/CLOSING OF SHUTTER FOR VEHICLE||WO||18.08.2016|
||PCT/JP2015/053938||HONDA MOTOR CO., LTD.||MATSUMURA Shiyunpei|
Provided is a system for controlling opening/closing of a shutter for a vehicle, whereby the shutter is appropriately opened/closed on the whole travel paths of the vehicle. A shutter control device (1) comprises: an opening/closing control means (13) for moving the shutter to an open state if the temperature in an engine room exceeds a predetermined threshold value and moving the shutter to a closed state if the temperature is the threshold value or less; and a traveling state predicting means (12) for predicting the traveling state of the vehicle after a lapse of a predetermined time on the basis of map information and path information. The opening/closing control means (13) has a threshold value changing unit (13a) that changes the threshold value on the basis of the traveling state of the vehicle after the lapse of the predetermined time predicted by the traveling state predicting means (12).
WO/2016/129099 CHROMATIC HARMONICA||WO||18.08.2016|
||PCT/JP2015/053952||HATATANI, Jun||HATATANI, Jun|
[Problem] To provide a chromatic harmonica capable of creating extremely loud, clear sound through simple structural improvement.
[Solution] A chromatic harmonica comprises: a main body 1 composed of a plurality of whistle chambers 11 arranged vertically in two rows to be opened forward as a blow openings 10; reed plates 2A, 2B secured to the top and bottom of the main body 1 and provided with a blow reed 21 and a draw reed 22 corresponding to each whistle chamber 11; covers 3A, 3B secured to the outside of both reed plates 2A, 2B; a mouthpiece 4 arranged on the front side of the main body 1 and having a plurality of blow holes 40 each communicating with each pair of the upper and lower blow openings 10, 10; and a slide lever 5 slidably interposed between the main body 1 and the mouthpiece 4 and having a plurality of vent holes 50a, 50b that allows selective communication between each whistle chamber 11 and each blow hole 40. The front side of each whistle chamber 11 in the main body 1 is formed to gradually narrow the right and left width toward the blow opening 10.