||WO||WO/2014/171017 - INTERNAL COMBUSTION ENGINE AND DRIVE SYSTEM||23.10.2014||
||PCT/JP2013/061679||SAWADA, Fukuei||SATO, Shigeru|
To provide an internal combustion engine suitable for a hybrid system and capable of preventing a reduction in medium/high-speed horsepower as well as torque, improving fuel consumption, and reducing the environmental load by reducing global warming, for example.
In an intake stroke a piston (14) within a cylinder (1) descends, an intake valve (20) opens, and air is drawn into the cylinder (10). This indrawn air is compressed by an external supercharger (80) and cooled by a cooling device (90), and the flow volume is adjusted by a throttle mechanism (70). In a pressurization chamber delivery stroke the piston (14) rises, a pressurization chamber delivery valve (40) opens, and pressurized air is delivered to a pressurization chamber (60). In a pressurization chamber intake stroke the piston (14) descends and a pressurization chamber intake valve (50) opens, thereby drawing the pressurized air into the cylinder (10) again from the pressurization chamber (60). Subsequently a compression stroke, a combustion stroke, and an exhaust stroke, which are identical to those in a four-cycle internal combustion engine, occur.
||WO||WO/2014/170961 - DEVICE AND METHOD FOR INSPECTING LIGHT EMISSION PANEL||23.10.2014||
||PCT/JP2013/061319||TAKANO CO., LTD.||GODO, Takamitsu|
This invention addresses the problem of fixing a light emission panel and connecting an electrode in an easy and reliable manner while preventing an increase in the inspection takt time and an increase in cost. As a means for resolving this problem, this invention is an inspection device (20) used for inspection of a flat plate-shaped light emission panel (10) in which the obverse surface side (10a) emits light and the reverse surface or the side surface has an electrode (12) formed thereon, wherein the inspection device (20) is provided with: a housing (22) for housing the light emission panel, the housing (22) facing the reverse surface side (10b); an electrode connection terminal (24) provided in the housing (22), the electrode connection terminal (24) coming into contact with the electrode (12) on the reverse surface (10b) or the side surface (11) of the light emission panel (10); and fixing means (26, 28) for fixing the light emission panel (10) in the housing (22) without there being provided a member coming into contact with the obverse surface side (10a) of the light emission panel (10) housed in the housing (22).
||WO||WO/2014/170973 - DISPLAY CONTROL DEVICE, INFORMATION PROCESSING DEVICE, DISPLAY CONTROL METHOD, DISPLAY CONTROL PROGRAM, AND INFORMATION PROCESSING PROGRAM||23.10.2014||
||PCT/JP2013/061406||FUJITSU LIMITED||HIRAKI, Itaru|
A display control device (31) is provided with the following: an analysis unit (33) that generates text-attribute information on the basis of the display state of a first application; a recording unit (34) that records the text-attribute information generated by the analysis unit (33) onto a storage device (2); and a setting unit (35) that, when a second application is started up, acquires the text-attribute information from the storage device (2) and changes the display state of the second application on the basis of said text-attribute information.
||WO||WO/2014/170955 - HIGHLY EFFICIENT POWER AMPLIFIER||23.10.2014||
||PCT/JP2013/061294||MITSUBISHI ELECTRIC CORPORATION||SHINJO, Shintaro|
It is arranged that a power detection circuit (7) for detecting an average power of high frequency signals as before amplified by a second-stage amplifier (5) and for outputting a voltage corresponding to the average power be provided such that the internal impedance of an output match circuit (6) changes in accordance with the voltage outputted by the power detection circuit (7). In this way, a load impedance suitable for a usage environment can be obtained, thereby achieving a highly efficient power amplifier wherein a high efficiency can be intended.
||WO||WO/2014/170984 - STORAGE SYSTEM AND METHOD FOR CONTROLLING STORAGE||23.10.2014||
||PCT/JP2013/061485||HITACHI, LTD.||NISHINA, Tadato|
This storage system is provided with a storage device having a storage medium in which data is stored and a device controller for executing an additional process on the data involving a change in the state of the data, and a storage controller for controlling input/output of data to and from the storage device. The storage controller transmits, to the storage device, determination information usable by the device controller to determine whether to execute the additional process along with an input/output process relating to data to be inputted/outputted. The device controller controls, on the basis of the determination information transmitted from the storage controller, execution of the additional process on the data to be inputted/outputted.
||WO||WO/2014/170981 - WATER TREATMENT SYSTEM||23.10.2014||
||PCT/JP2013/061461||MITSUBISHI HEAVY INDUSTRIES, LTD.||UKAI, Nobuyuki|
A water treatment system (1) is provided with a desalination unit (10) and an ion selective elimination unit (20). The desalination unit (10) includes a pair of electrodes that face each other and are electrostatically charged with polarities opposite to each other, a flow path, which is positioned between the electrodes and which water containing ions can flow through, and ion exchange membranes disposed on the sides of the flow path on each of the electrodes, and carries out desalination treatment that desalinates the water containing ions by making ions be adsorbed on the electrodes, and regeneration treatment that performs desorption of the ions from the electrodes. The ion selective elimination unit (20) is provided on the downstream side or the upstream side of the desalination unit (10), and separates and eliminates bivalent or higher ions from the water containing ions such that the elimination rate for the bivalent or higher ions, which form scale components, among the ions is relatively higher than the elimination rate for monovalent ions. The water treatment system (1) can increase the elimination rate for scale component ions.
||WO||WO/2014/171003 - WIRELESS COMMUNICATION DEVICE, AND WIRELESS COMMUNICATION CONTROL METHOD||23.10.2014||
||PCT/JP2013/061572||MITSUBISHI ELECTRIC CORPORATION||AKITA, Minoru|
The purpose of the present invention is to effectively reduce the power consumed by a switching unit of a large circuit scale. The present invention comprises: a demultiplexing unit per input port, said demultiplexing units each separating an input multiplexed signal into a plurality of signals; a preliminary rearrangement unit per input port, said preliminary rearrangement units rearranging the plurality of signals input from the demultiplexing units, and outputting a plurality of preliminarily rearranged signals; a switching unit, one being provided to a plurality of input ports, which inputs, as a plurality of pre-switching signals, the plurality of preliminarily rearranged signals that have been output from the preliminary rearrangement units provided to the input ports, performs a switching process, and outputs a plurality of post-switching signals per output port; a subsequent rearrangement unit per output port, said subsequent rearrangement units inputting and rearranging the plurality of post-switching signals that have been output to each output port from the switching unit, and outputting a plurality of subsequently rearranged signals; and a multiplexing unit per output port, said multiplexing units multiplexing the plurality of subsequently rearranged signals.
||WO||WO/2014/171011 - METHOD FOR PURIFYING ALIPHATIC POLYESTER AND ALIPHATIC POLYESTER PURIFIED WITH SAID METHOD||23.10.2014||
||PCT/JP2013/061640||MUSASHINO CHEMICAL LABORATORY, LTD.||TOKUSHIGE, Yukiko|
Provided is a method for purifying an aliphatic polyester which reduces coloring of the aliphatic polyester, reduces the amount of residual monomer and residual catalyst, and improves stability and appearance. This method for purifying an aliphatic polyester subjects an aliphatic polyester containing a monomer to heat treatment under dry air containing oxygen and at a temperature at or above the melting point of the monomer and at or below the melting point of the aliphatic polyester.
||WO||WO/2014/170967 - HYBRID VEHICLE DRIVE DEVICE||23.10.2014||
||PCT/JP2013/061331||TOYOTA JIDOSHA KABUSHIKI KAISHA||HASHIMOTO, Hiroto|
This hybrid vehicle drive device is provided with: an engine; a rotating machine; a meshing type engaging device that regulates the rotation of the rotating machine; a first mode for travelling using the engine as a power source by receiving a reactive force of the engine with a torque of the rotating machine; and a second mode for travelling using the engine as a power source by receiving the reactive force of the engine with the engaging device. When the engaging device is released from the second mode, a first control is implemented whereby the reactive force of the engine is received by the torque (Tmg) of the rotating machine, and, after the magnitude of the torque of the rotating machine is increased to an upper limit value or more of an estimated engine torque range (Rte), the magnitude of the torque of the rotating machine is decreased. In the first control, the magnitude of a slope (β1) of the torque of the rotating machine when the magnitude of the torque of the rotating machine is decreased is not more than the magnitude of a slope (α) of the engine torque when the engine torque (Te) is decreased by explosion variation in the engine.
||WO||WO/2014/170977 - HYDRAULIC CONTROL VALVE AND HYDRAULIC CONTROL DEVICE||23.10.2014||
||PCT/JP2013/061429||TOYOTA JIDOSHA KABUSHIKI KAISHA||SUZUKI, Yuji|
A hydraulic control valve (1) is configured in such a manner that: a positive-pressure chamber (7) to which an inlet port (11) and an outlet port (12) are open is formed on one side of a piston (5) which moves back and forth in the axial direction within a cylinder section (4); a back-pressure chamber (8) is formed on the other side of the piston (5); a valve body (6) which opens and closes the outlet port (12) is provided connected to the piston (5); the positive-pressure chamber (7) and the back-pressure chamber (8) are connected to each other through an orifice (20); a pilot valve (3) which selectively connects the back-pressure chamber (8) to a portion (13) having a lower pressure than the back-pressure chamber (8) is provided in the hydraulic control valve (1); the inlet port (11) is connected to a high-pressure section (10); and the outlet port (12) is connected to the low-pressure section (13) having a lower pressure than the high-pressure section (10). The hydraulic control valve (1) is provided with an orifice adjustment mechanism which adjusts the degree of opening of the orifice (20) on the basis of the state of reduction in hydraulic pressure in the back-pressure chamber.