Fecha de publicación
Nº de solicitud
|1.||WO||WO/2013/175554 - ROBOT AND ROBOT SYSTEM||28.11.2013||
|PCT/JP2012/062949||KABUSHIKI KAISHA YASKAWA DENKI||SHIRAKI, Tomoyuki|
Provided are a robot and a robot system exhibiting excellent reliability with respect to safety. A robot (1) is provided with; a base (2) fixed to a placement surface (200); and an arm member (4) having a plurality of arm bodies which are sequentially connected from the base about an axis. The arm member has a stopper mechanism having a movable stopper member (81) configured so as to have rotational action around an arm-body axis, said rotational action being restricted to a prescribed rotation range. The stopper mechanism is provided with a fixed stopper member (82) which engages with the movable stopper member.
|2.||WO||WO/2013/175557 - SEMICONDUCTOR DEVICE||28.11.2013||
|PCT/JP2012/062965||Unisantis Electronics Singapore Pte. Ltd.||MASUOKA Fujio|
This semiconductor device comprises: a first planar silicon layer (309); first and second columnar silicon layers (504, 505) formed on the first planar silicon layer (309); a first gate insulating film (506) formed around the first columnar silicon layer; a first gate electrode (303) formed around the first gate insulating film (506); a second gate insulating film (506) formed around the second columnar silicon layer; a second gate electrode (304) formed around the second gate; a first gate wiring (305) connected to the first and second gate electrodes; a first n-type diffusion layer (524) formed at the top of the first columnar silicon layer (504); a second n-type diffusion layer (502) formed at the bottom of the first columnar silicon layer (504) and the top of the planar silicon layer (309); a first p-type diffusion layer (525) formed at the top of the second n-type diffusion layer (502); and a second p-type diffusion layer (503) formed at the bottom of the second columnar silicon layer and the top of the planar silicon layer. A center line that extends along the first gate wiring is offset by a first prescribed amount from a line joining the center of the first columnar silicon layer and the center of the second columnar silicon layer.
|3.||WO||WO/2013/175617 - DEVICE FOR COLLECTING INFORMATION FOR DISPLAY AND HMI SYSTEM||28.11.2013||
|PCT/JP2012/063369||Mitsubishi Electric Corporation||FUKATSU, Noriyasu|
To realize a control device HMI function using a portable information terminal, an HMI display terminal unit (4) is provided with: a human detection sensor (45), an IEEE802.11 I/F (46), and a CPU for transmitting data collected from the control device and HMI display data for formatting the collected data for display to a smartphone via the IEEE802.11 I/F 46, wherein the CPU determines whether or not an operator is near on the basis of a detection result of the human detection sensor (45), and when the operator is near, acquires the operator's smartphone-specific information via the IEEE802.11 I/F (46), authenticates the smartphone on the basis of the acquired specific information, and when authentication succeeds, transmits the HMI display data and collected data, and when the authentication fails, does not transmit the HMI display data and the collected data.
|4.||WO||WO/2013/175574 - ORGANIC EL PANEL AND METHOD FOR MANUFACTURING LIGHT EMITTING APPARATUS USING ORGANIC EL PANEL||28.11.2013||
|PCT/JP2012/063068||Pioneer Corporation||ISHIZUKA, Shinichi|
[Problem] To provide an organic EL panel having less variance in light emission luminance, and a method for manufacturing a light emitting apparatus using the organic EL panel. [Solution] This organic EL panel includes: a substrate; a light emitting section of an organic EL panel that is provided on the substrate; current supplying terminals for supplying a current to the light emitting section, said current supplying terminals being provided on the substrate; and current density adjusting sections connected to the current supplying terminals by being electrically parallel to the light emitting section, said current density adjusting sections being provided on the substrate. The organic EL panel adjusts current density of the light emitting section by processing the current density adjusting sections. Furthermore, in this method for manufacturing a light emitting apparatus, after adjusting light emitting characteristics by processing the post-processing region of the organic EL panel, the light emitting apparatus that includes the processed organic EL panel is manufactured.
|5.||WO||WO/2013/175597 - INVERTER APPARATUS||28.11.2013||
|PCT/JP2012/063232||Mitsubishi Electric Corporation||KAWAUCHI, Yuki|
This inverter apparatus is provided with: a heat dissipating housing, which has a main surface, heat dissipating fins disposed on the reverse side of the main surface, a first recessed portion disposed adjacent to a main surface region corresponding to the heat dissipating fins, and a second recessed portion disposed adjacent to the main surface region corresponding to the heat dissipating fins; a semiconductor module, which is disposed in the main surface region corresponding to the heat dissipating fins, and which has a diode module and an inverter module; an inrush current suppressing resistor, which is sealed in the first recessed portion using a sealing material, and which is electrically connected to between the diode module and the inverter module; and a regenerative resistor, which is sealed in the second recessed portion using the sealing material, and which is electrically connected to between the diode module and the inverter module.
|6.||WO||WO/2013/175594 - DRIVER STATE DETERMINATION DEVICE AND DRIVER STATE DETERMINATION METHOD||28.11.2013||
|PCT/JP2012/063205||TOYOTA JIDOSHA KABUSHIKI KAISHA||OKUDA Yuji|
A driver state determination device according to the present invention comprises: a fishtail detection unit which detects a degree of fishtails per a reference time (C) of a vehicle; an awareness decline determination unit which determines whether awareness of a driver of a vehicle has declined; and a control unit which controls the operation of the awareness decline determination unit such that the greater the degree of fishtailing which is detected by the fishtail detection unit, the less likely a determination that awareness has declined will be made.
|7.||WO||WO/2013/175581 - FIBER-REINFORCED PLASTIC AND METHOD FOR PRODUCING SAME||28.11.2013||
|PCT/JP2012/063138||Toray Industries, Inc.||HASHIMOTO Takafumi|
Provided is a fiber-reinforced plastic obtained by impregnating a matrix resin into a fiber material containing discrete inorganic fibers having a number-average fiber length (Ln) of 10 mm or more in a state in which the fibers opened while aligned in substantially the same direction, with the shape of the fiber material being retained by friction and/or entanglement between the fibers, and Lw/Ln of the fiber material being in the range of 1.0 to 1.3, where Lw is the weight-average fiber length of the inorganic fibers, said fiber-reinforced plastic characterized in that the fiber-reinforced plastic has a tensile strength anisotropy of 20% or less. Also provided is a method for producing the fiber-reinforced plastic. The present invention makes it possible to obtain a fiber-reinforced plastic that has favorable moldability even with a complex shape, has high mechanical properties, and has low anisotropy of the mechanical properties.
|8.||WO||WO/2013/175588 - DEVICE FOR ESTIMATING AIR INTAKE VOLUME FOR SUPERCHARGED ENGINE||28.11.2013||
|PCT/JP2012/063189||TOYOTA JIDOSHA KABUSHIKI KAISHA||TAKAHASHI, Machiko|
The purpose of the present invention is to precisely calculate intake air volume, which fluctuates with atmospheric pressure, with a device for estimating air intake volume for a supercharged engine without using an atmospheric pressure sensor. In order to achieve this purpose, the device for estimating air intake volume according to this invention measures the actual intake channel pressure by way of a pressure sensor disposed at a prescribed position in the intake channel, which is from the compressor to the air intake valve, calculates the estimated intake channel pressure under standard atmospheric pressure using a model, and calculates a correction coefficient using the actual intake channel pressure and the estimated intake channel pressure. Then, an estimated intake valve channel air volume under standard atmospheric pressure is calculated using a model, and the intake valve channel air volume under current atmospheric pressure is calculated by way of correcting the estimated intake valve channel air volume using the correction coefficient.
|9.||WO||WO/2013/175566 - REFRIGERANT COMPRESSOR AND REFRIGERATION CYCLE DEVICE||28.11.2013||
|PCT/JP2012/063013||HITACHI, LTD.||KOYAMA Masaki|
A refrigerant compressor (100) is provided with: a closed container (103); a compression mechanism part (101) for taking in and compressing a refrigerant sucked into the closed container (103); a motor (102) for driving the compression mechanism part (101); a suction pipe (104) for guiding the refrigerant into the closed container (103) when the refrigerant is sucked in; a cover (117a) provided to face the outlet of the suction pipe (104) in order to drop, on a winding (126) of the motor (102), a liquid refrigerant obtained by subjecting the refrigerant sucked in from the suction pipe (104) to gas-liquid separation by colliding the refrigerant therewith; and an intake passage (118) for guiding, to the inlet of a compression chamber provided in the compression mechanism part (101), a gas refrigerant obtained by subjecting the refrigerant sucked in from the suction pipe (104) to gas-liquid separation by colliding the refrigerant with the cover (117a). Consequently, a decrease in refrigeration capacity can be prevented by preventing a decrease in the density of the refrigerant to be compressed, which has been sucked into the closed container (103), and the motor efficiency can be improved by decreasing the temperature of the motor (102).
|10.||WO||WO/2013/175639 - SCREEN PRINTER||28.11.2013||
|PCT/JP2012/063555||MICRO-TEC COMPANY, LTD.||MAEDA, Atsushi|
A compact screen printer, which enables a squeegee to follow a printing surface, is provided. The screen printer (100), which uses a squeegee (203) and a screen mask (201) to print, is provided with: an elongated frame (231) that moves the direction of printing; an elongated squeegee holder (203) that holds the squeegee; a pair of guide bushes (213), said guide bushes being fixed at either end of the frame (231) and vertically guiding the movement of the squeegee holder (204); and a pair of air cylinders (211), said air cylinders being fixed to the frame (231) at positions further to the inside than the pair of guide bushes (213), and vertically moving the squeegee holder (204).