WO/2016/079828 USER INTERFACE SYSTEM FOR HIT OPERATION, OPERATION SIGNAL ANALYZING METHOD, AND PROGRAM||WO||26.05.2016|
||PCT/JP2014/080665||NYAHOON GAMES PTE. LTD. ||KATO Takao |
[Problem] To enable intuitive operation and use thereof in inexpensive and general purpose devices. [Solution] A controller comprises a gyro sensor 164 and a main body that can be held and operated by a user with both hands. A hit detection unit 211 is provided with a hit detection method of using a series of angular velocity values for the controller, which are detected continuously by the gyro sensor 164, to detect hit operation characteristics relating to rotational movement of the controller which could be caused when the user holding the controller with both hands pushes either of the left and right hands forward to perform a hit operation. Using the hit detection method achieves a function of determining when a user has inputted a hit operation.
WO/2016/079832 PROBING SYSTEM FOR ITEM TO BE PROBED, AND PROBING METHOD||WO||26.05.2016|
||PCT/JP2014/080686||THE CHUGOKU ELECTRIC POWER CO., INC. ||OKIDAN, Kazuma |
A device to be probed 20 having a power reception circuit 21 for non-contact magnetic field resonance-type feeding is provided on an item to be probed 5, and a prober 10, which is provided with a power transmission circuit 11 for non-contact magnetic field resonance-type feeding and a power measuring circuit 12 for measuring the power consumed by the power transmission circuit 11, is moved along the ground surface to probe the item to be probed 5 on the basis of a change in power consumed by the power transmission circuit 11. The prober 10 is provided with an information processing device 14, and the information processing device 14 outputs information indicating the change in power consumption. The information processing device 14 remembers the power consumed by the power transmission circuit 11 under no-load and outputs information indicating the difference between the power consumed and the power consumed under no-load. The information processing device 14 remembers the correlation between the power consumption of the power transmission circuit 11 and the distance between the power transmission circuit 11 and the power reception circuit, and obtains and outputs the distance which is from the prober 10 to the device to be probed 20 and corresponds to the measured power consumption.
WO/2016/079780 ION MOBILITY ANALYSIS DEVICE||WO||26.05.2016|
||PCT/JP2014/080318||SHIMADZU CORPORATION ||YASUNO, Motohide |
In the present invention, sufficient spatial separation is provided between a spray area in which many liquid droplets sprayed from a spray nozzle (3) are present and the leading end of a needle electrode (14) for corona discharge, and a grid-shaped electrode (15) is disposed between the spray area and the needle electrode (14) so as to face the needle electrode (14). Further, between the grid-shaped electrode (15) and spray area, a ring-shaped electrode (16) for forming an electric field that moves primary ions for reacting with the sample and generating sample-derived ions is provided in an ion chamber (10). Primary ions generated by corona discharge occurring between the needle electrode (14) and grid electrode (15) pass through an opening of the grid-shaped electrode (15), reach the spray area as a result of the action of the electric field, and ionize a sample component. Because it is possible to prevent droplets from adhering to the needle electrode (14), corona discharge can be stably sustained, and generated primary ions can be transported efficiently and used to ionize the sample. As a result, it is possible to prevent spike-like noise resulting from unstable corona discharge and obtain a satisfactory spectrum.
WO/2016/079794 SOCKS AND KNITTING METHOD THEREFOR||WO||26.05.2016|
||PCT/JP2014/080392||TABIO CO., LTD. ||TAGUCHI, Yoshihiro |
As a result of the toe sheaths being knit three-dimensionally to facilitate insertion of toes into the toe sheaths, the present invention provides a sock that is easy to put on. The present invention is a sock, which is knit with a flat knitting machine having at least a pair of needle beds that face each other front-to-back and in which the toe tip section comprises a toe sheath (40) for accommodating at least one of the five toes. The sock is characterized in that: the toe sheath (40) comprises an upper surface knitted fabric section (42) and a lower surface knitted fabric section (44) that face each other in the toe thickness direction, and side surface knitted fabric sections (46) that face each other in the toe width direction; the upper surface knitted fabric section (42), the lower surface knitted fabric section (44), and the side surface knitted fabric sections (46) comprise stitches that are knit so that the stitch direction of the upper surface knitted fabric section (42) and the lower surface knitted fabric section (44) intersects with the stitch direction of the side surface knitted fabric sections (46).
WO/2016/079784 MULTI-PART PRINTED CIRCUIT AND COIL PATTERN INSPECTION METHOD||WO||26.05.2016|
||PCT/JP2014/080343||NIPPON MEKTRON, LTD. ||TAKANO Shoji |
[Problem] To accurately and efficiently carry out an inductance inspection of coil patterns which are respectively formed in a plurality of product regions. [Solution] Provided is a multi-part printed circuit 1A, comprising: an insulator sheet 2, in which are formed a plurality of product regions P which are arranged in a matrix and a reinforcing region Q which surrounds each of the product regions P; coil patterns 3 which are formed upon the insulator sheet 2 in the respective product regions P; a conduction reinforcement layer 4 which is formed upon the insulator sheet 2 to cover the insulator sheet 2 in the reinforcing region Q; and eddy current shield parts 5a, 5b in which the conduction reinforcement layer 4 is removed such that eddy currents which are induced in the conduction reinforcement layer 4 by magnetic fields which arise in the coil patterns 3 do not circulate among the product regions P in which the coil patterns 3 are formed.
WO/2016/079776 POSITION INDICATOR||WO||26.05.2016|
||PCT/JP2014/080295||WACOM CO., LTD. ||YAMAMOTO Sadao |
To make it possible to use one common position indicator with respect to a plurality of types of position detection systems. This position indicator is provided with: a first transmission unit; a second transmission unit; an input unit that receives input from the outside; a means that generates position detection signals; a plurality of additional information generating means that generate different types of additional information, respectively; and a control means. On the basis of the input received by means of the input unit, the control means controls transmission of the position detection signals via the first transmission unit, and controls transmission of additional information from the first transmission unit or the second transmission unit, said additional information having been generated by means of the plurality of additional information generating means.
WO/2016/079868 INFORMATION PROCESSING DEVICE, INFORMATION PROCESSING METHOD, AND INFORMATION PROCESSING PROGRAM||WO||26.05.2016|
||PCT/JP2014/080932||RAKUTEN, INC. ||MASUKO Soh |
The purpose of the present invention is to increase readability of characters shown in a character image portion when changing the magnification between a character image portion and a background image portion while displaying an image. An information processing device sets a second magnification which is used for displaying a character image extracted from an image, and which is different from a first magnification used for displaying a background image extracted from the image. The information processing device adjusts at least either the character image with a modified display size or the background image with a modified display size on the basis of the relationship between the display state of the character image having the display size modified using the second magnification, and the display state of the area surrounding the character image while the character image with the modified size is superimposed and displayed on the background image having the display size modified using the first magnification.
WO/2016/079870 WATER AMOUNT MEASUREMENT DEVICE AND WATER AMOUNT MONITORING SYSTEM||WO||26.05.2016|
||PCT/JP2014/080940||FUJITSU LIMITED ||TSUBOI, Osamu |
A water amount measurement device for measuring the level of a liquid flowing through a pipe line is provided with: a light-emitting element that irradiates a liquid surface of the liquid with light; a light-receiving element that receives the light reflected by the liquid surface and the light reflected by a liquid bottom at a bottom surface in the pipe line; a storage unit in which a distance V0 from the light-emitting element to the liquid bottom in the pipe line is stored in advance; and a computation processing unit. A distance indicated by an average value of an upper envelope of distance data determined on the basis of an output signal from the light-receiving element is denoted by V1, and a distance indicated by an average value of a lower envelope is denoted by V2. The processing unit computes a level D1 using V1-V0 if, during the level measurement, the result of comparison of the distance data and the distance V0 indicates that the output signal from the light-receiving element includes a first signal component corresponding to a distance exceeding the distance V0 and due to reflection by the liquid bottom in the pipe line. The processing unit computes a level D2 using V0-V2 if the result of comparison indicates that the output signal includes a second signal component corresponding to a distance less than the distance V0 and due to reflection by the liquid surface.
WO/2016/079872 VARIABLE NOZZLE MECHANISM AND VARIABLE DISPLACEMENT TURBOCHARGER||WO||26.05.2016|
||PCT/JP2014/080944||MITSUBISHI HEAVY INDUSTRIES, LTD. ||KATOU, Eigo |
Provided is a variable nozzle mechanism for a variable displacement turbocharger, the variable nozzle mechanism comprising: an annular first plate (12); an annular second plate (14) disposed facing the first plate (12) and forming an exhaust gas passage (24) between the second plate (14) and the first plate (12); a plurality of nozzle vanes (16) supported between the first plate (12) and the second plate (14) so as to be capable of pivoting; and an annular member (22) inserted on the inner peripheral side of the first plate (12). The first plate (12) has a front surface (12a) which faces the exhaust gas passage (24) and a rear surface (12b) which is on the reverse side of the front surface (12a). The annular member (22) has a front surface (22a) which faces the exhaust gas passage (24) and a rear surface (22b) which is on the reverse side of the front surface (22a). A gap (26) is provided between the first plate (12) and the annular member (22), the gap (26) extending in the thickness direction of the first plate (12) from between the inner peripheral edge (12a1) of the front surface (12a) of the first plate (12) and the outer peripheral edge (22a1) of the front surface (22a) of the annular member (22).
WO/2016/079876 WAVE GENERATOR AND WAVE GEAR DEVICE||WO||26.05.2016|
||PCT/JP2014/080959||HARMONIC DRIVE SYSTEMS INC. ||KOBAYASHI Masaru |
A wave generator (4) in a wave gear device has a rigid plug (42) provided with an ellipsoidal outer-peripheral surface (41), and roller bearings (43). The outer-peripheral surface (41) of the plug (42) is provided with a major-axis-side outer-peripheral portion (41a) formed at a major-axis position (L1), and a minor-axis-side outer-peripheral portion (41b) formed at a minor-axis position (L2). The major-axis-side outer-peripheral portion (41a) is a tapered surface that is tapered along a central axis (42a), and the minor-axis-side outer-peripheral portion (41b) is an inverted tapered surface that is tapered in the opposite direction. An externally toothed gear can be supported and flexed into an ellipsoidal shape without partial contact by using the wave generator in which the roller bearings are used.