WO/2015/092829 GUARD FENCE||WO||25.06.2015|
||PCT/JP2013/007407||PROTEC ENGINEERING, INC.||NOMURA, Toshimitsu|
[Problem] To hold posts at fixed positions while maintaining the postures of the posts by a simple structure. [Solution] A pair of mountain-side stay ropes (32, 32) having a V-shape is stretched between a mountain-side slope and the post head of each of posts (20), a pair of valley-side oblique ropes (33, 33) having an inverted V-shape is stretched between a valley-side slope and the post head of each of the posts (20), a net body (31) which constitutes a guard net is restrained by a plurality of valley-side oblique ropes (33, 33), and a plurality of mountain-side stay ropes (32, 32) and the plurality of valley-side oblique ropes (33, 33) are connected to the heads of the posts to thereby hold the posts (20) at fixed positions.
WO/2015/092867 VIRTUAL-IMAGE GENERATION ELEMENT AND HEADS-UP DISPLAY||WO||25.06.2015|
||PCT/JP2013/083764||PIONEER CORPORATION||YANAGISAWA, Takuma|
This virtual-image generation element, which constitutes, for example, a combiner, contains a first optical element and a second optical element. Circularly polarized image light is incident upon the first optical element, and after passing therethrough, is incident upon the second optical element, which exhibits circular dichroism. The surface of the first optical element is angled with respect to the surface of the second optical element. The image light that has passed through the first optical element is reflected by the second optical element, is then reflected again by the first optical element, and then passes through the second optical element.
WO/2015/092878 HOLDING DEVICE AND AIRBORNE-SALT-TRAPPING DEVICE||WO||25.06.2015|
||PCT/JP2013/083856||THE CHUGOKU ELECTRIC POWER CO., INC.||NAKAMURA, Takeshi|
[Problem] To simplify the task of replacing a mounted object, such as a piece of gauze that traps airborne salt, that is mounted in a high-up location. [Solution] A disengageable holding device (100) that disengageably holds a mounted object, namely a salt-trapping body (20), in a high-up mounting location. Said holding device (100) has the following: a cylindrical fixed part (110) that is fixed in place in the aforementioned mounting location such that an open end thereof faces downwards; a cylindrical disengageable part (120) that is laid out so as to be coaxial with the fixed part (110), holds the salt-trapping body (20), is inserted into the fixed part (110) from the bottom thereof, and moves out of the fixed part (110) from the bottom thereof; and a locking mechanism (130) whereby, after having been inserted into the fixed part (110), the disengageable part (120) is rotated about the axis thereof and guided to a prescribed holding position, and after having been moved upwards from said holding position, the disengageable part (120) is rotated about the axis thereof and guided to a prescribed lowering position.
WO/2015/092914 DATA RETRIEVAL METHOD AND DATA RETRIEVAL SYSTEM||WO||25.06.2015|
||PCT/JP2013/084249||HITACHI, LTD.||IIJIMA Michio|
Provided are a data retrieval method and a data retrieval system capable of extracting data, including an appropriate response to an inquiry, using conceptual retrieval. The data retrieval method retrieves sentence groups similar to a query sentence, from data in which are stored a plurality of sentence groups comprising a plurality of sentences which have been grouped together. For each sentence group, first information that could be a retrieval target, and the frequency of appearance of the first information, are obtained. If the frequency of appearance of the first information is at most equal to a predetermined frequency, the first information is set as second information to be retrieved. Third information contained in the query sentence is extracted. For each sentence group, the third information is retrieved from the second information. Identifiers of a predetermined number of sentence groups in which the number of hits of the third information contained in the query sentence is high are output.
WO/2015/092932 EXHAUST PURIFICATION DEVICE FOR INTERNAL COMBUSTION ENGINE||WO||25.06.2015|
||PCT/JP2013/084352||TOYOTA JIDOSHA KABUSHIKI KAISHA||NOGI, Yoshito|
In the present invention, by means of injecting additional fuel into a cylinder during an expansion stroke or an exhaust stroke in the state of a throttle aperture being switched from a base throttle aperture to a rich control throttle aperture and an EGR rate being switched from a base EGR rate to a rich control EGR rate, rich control is performed that temporarily lowers the air-fuel ratio of exhaust gas discharged from an engine combustion chamber. When starting rich control, first the low-pressure-side EGR control valve aperture (VEGRL) is switched to a low-pressure-side EGR control valve aperture (VEGRLR) for rich control. Next, the high-pressure-side EGR control valve aperture (VEGRH) is switched to a high-pressure-side EGR control valve aperture (VEGRHR) for rich control. Next, the throttle aperture (VTH) is controlled, and then the injection of additional fuel (Qa) is started.
WO/2015/092898 CAPACITOR SEPARATOR AND CAPACITOR||WO||25.06.2015|
||PCT/JP2013/084075||NIPPON KODOSHI CORPORATION||TANAKA Kosuke|
[Problem] To provide: a capacitor separator having excellent impedance characteristics and short-circuiting resistance, and allowing the capacitor to be reduced in size and/or increased in capacitance; and a capacitor in which the separator is used. [Solution] The present invention is a capacitor separator comprising a porous film made of a fibriform component (B) and regenerated cellulose (A) obtained by dissolution and regeneration without formation of a cellulose derivative; for example, the fibrous component (B) is one or more fibers selected from regenerated cellulose fiber, cellulose fiber, animal fiber, inorganic fiber, synthetic fiber, and plant-derived pulp that can be used as a raw material for paper-making; and the regenerated cellulose (A) is obtained by causing a cellulose solution that results from the dissolution of cellulose in an amine oxide solvent to be formed into a film, solidifying and regenerating the cellulose by immersion in water or a poor solvent such as an amine oxide solvent, washing the regenerated cellulose with water to remove the amine oxide solvent, and drying the cellulose. The porous film has a chlorine content of 2 ppm or less, a sulfate content of 10 ppm or less, a thickness of 3-70 μm, a density of 0.1 g/cm3 or above, and an average pore diameter of 5 μm or less. The present invention is also a capacitor characterized in that said separator is used.
WO/2015/092906 PROCESS FOR MAKING METAL COMPONENT||WO||25.06.2015|
In making a cap (20) for a button fastener (10), an outer layer (20A) made of copper or a copper alloy and an inner layer (20B) made of aluminum or an aluminum alloy are laminated, and the obtained laminate is formed into the shape of the cap (20) nearly simultaneously with the formation of a protrusion (23a) which protrudes on the outer surface side of the first layer (20A). Then, the part of the first layer (20A) that corresponds to the protrusion (23a) is ground, whereby the part of the second layer (20B) that corresponds to the protrusion (23a) is exposed as a design (23).
WO/2015/092893 THROUGH ANCHOR||WO||25.06.2015|
||PCT/JP2013/083988||ENSHU CO.,LTD||ITO, Tadao|
A through anchor (10) is configured in such a manner that, when a vehicle occupant is restrained by webbing (30) in an emergency situation of the vehicle, the webbing (30) is moved in an insertion hole (20) in a guide piece (18) toward the front of the vehicle by the movement of the vehicle occupant due to inertia, and the surface of the webbing (30), which is located at the front end, relative to the vehicle, of the webbing (30) comes into contact under a high load condition with the peripheral surface of the insertion hole (22). A gap is formed between the guide piece (18) and an anchor plate (12). Consequently, the guide piece (18) is moved by the webbing (30) toward the front of the vehicle relative to the anchor plate (12) and, therefore, the webbing (30) is prevented from being displaced in the insertion hole (22) toward the front of the vehicle.
WO/2015/092865 VECTOR HYSTERESIS ANALYSIS METHOD, PROGRAM THEREFOR, AND VECTOR HYSTERESIS ANALYSIS DEVICE||WO||25.06.2015|
||PCT/JP2013/083719||HITACHI, LTD.||LEE Chahn|
This vector hysteresis analysis method is characterized by using a model that assumes a magnetic material to be an aggregate of micro-magnets, wherein the hysteresis of the magnetic material is analyzed by inputting magnetic characteristic data represented by vectors along a plurality of easy magnetization axes and a plurality of hard magnetization axes and further inputting the proportion of each of the easy magnetization axes and the proportion of each of the hard magnetization axes. This makes it possible to obtain the vector magnetization path corresponding to the history of a given vector magnetic field path.
WO/2015/092868 SLIDE FASTENER ASSEMBLY APPARATUS||WO||25.06.2015|
||PCT/JP2013/083765||YKK CORPORATION||TOISHI Yoshiyuki|
Provided is a slide fastener assembly apparatus allowing a first slider side of a slide fastener to be closed, and allowing the cost and time to manufacture the slide fastener to be reduced. The invention is provided with a first gripper (20) for transporting a continuous fastener chain (C1), a cutting device (30) for cutting the continuous fastener chain (C1) transported by the first gripper (20) into a fastener chain (C2) of prescribed length, a second gripper (40) for receiving the fastener chain (C2) from the first gripper (20) and transporting the chain, first and second slider attaching devices (50A, 50B) for attaching a first slider (S1) and a second slider (S2) to the fastener chain (C2) transported by the second gripper (40), a stop-part-attaching device (60) for attaching a stop part (P1) to the fastener chain (C2) transported by the second gripper (40), and a slider movement device (55) for causing the first slider (S1) fastened to the fastener chain (C2) to engage with a pair of fastener element rows (E) of the fastener chain (C2) and causing the slider to move in the closing direction.