WO/2017/064740 STERILIZING DEVICE||WO||20.04.2017|
||PCT/JP2015/005185||SUNTORY HOLDINGS LIMITED||HIGASHIYAMA, Kenichi|
A sterilizing device includes a nozzle (10) for spraying sterilizing agent (70) and a water vapor feeding section (40) for feeding water vapor to the nozzle (10). The nozzle (10) includes a plasma generating section (11), an outlet section (12) and a relaying section (13) connected to the plasma generating section (11) and the outlet section (12). The water vapor feeding section (40) is connected to the relaying section (13). The outlet section (12) sprays, as the sterilizing agent (70), a sterilizing agent 70 containing the plasma fed from the plasma generating section (11) and ROS (Reactive Oxidizing Species) generated through a reaction between the plasma and water vapor to the sterilization object.
WO/2017/064741 STERILIZATION SYSTEM||WO||20.04.2017|
||PCT/JP2015/005186||SUNTORY HOLDINGS LIMITED||HIGASHIYAMA, Kenichi|
A sterilization system includes a sterilizing device having a nozzle (10) to spray sterilizing agent (70) onto a sterilization object (80) and a conveying unit (90) conveying a plurality of sterilization objects (80) one after another continuously to the sterilizing device. The nozzle (10) is capable of moving a reaching position of the sterilizing agent (70) sprayed therefrom to the conveying unit (90) along a conveying path (91) of the sterilization objects (80). A controlling unit is provided for executing a following control which causes the reaching position to follow each sterilization object (80) as being conveyed by synchronizing a moving speed of the reaching position of the sterilizing agent (70) with a conveying speed of the sterilization object (80).
WO/2017/064742 LINEAR DRIVE DEVICE||WO||20.04.2017|
||PCT/JP2015/005228||NIDEC SANKYO CMI CORPORATION||OKAWA, Takanori|
Provided is a linear drive device wherein occurrences of clattering in a slider can be reliably prevented. The present invention is a linear drive device having: a lead screw (10) and a guide shaft (11); a base (1) having a travel surface (1d) parallel to these; and a slider (20) that has a guide hole (29) through which the guide shaft passes and a nut (28) threaded onto the lead screw and that moves linearly in the direction of an axial line by rotation of the lead screw. In the linear drive device, the slider is provided with: a first pressure applying spring (35) for applying rotary biasing force (RA, RB) along a circumferential direction having the lead screw as a center; and steel balls (24) that are disposed between the travel surface and the slider so as to freely travel and that transfer the rotary biasing force applied to the slider to the travel surface and receive reaction force.
WO/2017/064743 PORTABLE SPRAY DEVICE||WO||20.04.2017|
||PCT/JP2015/005231||YA-MAN LTD.||YAMAZAKI, Iwao|
The present invention provides a portable spray device comprising: a gas supply body (1) having gas supply means (6); an injection head (2) that is integrally connected to the gas supply body (1) and is provided with a control valve (12) provided in a valve support body (14) so as to close or open an outflow hole (15a) of a nozzle (15) provided at the tip end of the valve support body (14), and, on the nozzle, a spray port member (16) having an injection hole (16a); a cover body (3) externally fitted onto the injection head (2); and a driving operation means (4), wherein gas and liquid merge with each other in the injection hole (16a) when the driving operation means (4) is operated. The cover body (3) is a first operation member. On the basis of an operation of the first operation member, the control valve (12) is moved backward by an urging force of an urging means (17), via a motive force conversion part provided in the cover body (3) and the control valve (12). In addition, the driving operation means (4) serving as a second operation member is operated on the condition that a closed state of the nozzle (15) has been released.
WO/2017/064744 RECONFIGURABLE CIRCUIT||WO||20.04.2017|
||PCT/JP2015/005239||NEC CORPORATION||BAI, Xu|
A reconfigurable circuit includes first and second wires and two or more paths active at different times. Each path includes: a first NVRS whose first terminal is connected to the first wire; a first transistor whose drain terminal is connected to a second terminal of the first NVRS; a second NVRS whose first terminal is connected to the second terminal of the first NVRS; a second transistor whose source terminal is connected to a second terminal of the second NVRS and whose drain terminal is connected to the second wire; and a 2-input AND circuit whose output is connected to a gate terminal of the first transistor. A time control signal is supplied to a first input of the 2-input AND circuit and a gate terminal of the second transistor. A write control signal is supplied to a second input of the 2-input AND circuit.
WO/2017/064745 ELEVATOR DEVICE||WO||20.04.2017|
||PCT/JP2015/078870||HITACHI, LTD.||KUBO Yosuke|
Provided is an elevator device which is equipped with a novel governor device that allows reliable meshing engagement between ratchet teeth of a ratchet wheel and a pawl of a fly weight. A pawl (28) meshing with ratchet teeth (17) of a ratchet wheel (16) is mounted on one side of the fly weight (18A), across a weight support shaft (27A) rotatably supporting the fly weight (18A), in order to cause the fly weight (18A) to move outward, and an inertia mass adjusting unit (33A) which makes the inertia mass of the fly weight equal to or smaller than that of the ratchet wheel (16) is formed on the other side of the fly weight (18A). Thus, it is possible to reliably mesh the ratchet teeth (17) of the ratchet wheel (16) with the pawl (28) of the fly weight (18A), and eliminate adverse effects, such as delays in the operation of an emergency stop device.
WO/2017/064746 IMAGING DEVICE, ENDOSCOPIC DEVICE AND IMAGING METHOD||WO||20.04.2017|
||PCT/JP2015/078871||OLYMPUS CORPORATION||IMADE, Shinichi|
This imaging device includes an imaging unit and an illumination unit. The imaging unit can capture images (Vb, Vg, Vr) including a first color image, a second color image having a longer wavelength than the first color, and a third color image having a longer wavelength than the second color, and can also capture the first color image and the third color image as a stereo image (Mb, Mr). The illumination unit irradiates a subject with patterned light having prescribed light quantity distribution in a first wavelength band Pb included in the wavelength band of the first color while not included in a second-color wavelength band, and in a second wavelength band Pr included in the wavelength band of the third color while not included in the second-color wavelength band.
||PCT/JP2015/078880||MITSUBISHI ELECTRIC CORPORATION||NAKAJIMA, Komei|
Disclosed is a refrigerator wherein an air blower and a radiator are disposed in a machine chamber. The radiator is disposed between the air blower and a suction port of the machine chamber, and is provided with fin tube-type first heat dissipating unit and second heat dissipating unit. The second heat dissipating unit is disposed by being shifted in the front-rear direction and vertical direction of a housing from the first heat dissipating unit. In the cases where a gap formed in the single first heat dissipating unit is specified as a first region, and a gap formed in the whole radiator is specified as a second region when the radiator is viewed from the suction port side of the machine chamber, the shortest distance between a fan and a bell mouth in the air blower is smaller than the equivalent diameter of the first region, and larger than the equivalent diameter of the second region.
||PCT/JP2015/078882||MITSUBISHI HEAVY INDUSTRIES, LTD.||TAKEDA Shingen|
This ship (1) is equipped with: a ship body (2) which has broadsides (3A, 3B) on either side in the ship width direction; a pair of watertight zones (6A, 6B) which are provided along the broadsides (3A, 3B) on either side in the ship width direction within the ship body (2), and are partially partitioned and formed by the broadsides (3A, 3B); a communication portion (7) which causes the interiors of the pair of watertight zones (6A, 6B) to communicate with each other; an opening/closing valve (8) which is provided to the communication portion (7); and a control device (9) which controls the opening/closing of the opening/closing valve (8). Upon receiving a signal that damage has occurred in the broadside (3A), the control device (9) moves the opening/closing valve (8) from an open position to a closed position if predetermined conditions are satisfied.
WO/2017/064749 QUANTUM CRYPTOGRAPHY DEVICE AND SIGNAL LIGHT POLARIZATION COMPENSATING METHOD||WO||20.04.2017|
||PCT/JP2015/078887||MITSUBISHI ELECTRIC CORPORATION||ASAI, Takeshi|
A quantum cryptography device for performing a quantum-encrypted communication between a transmitter (10) having a transmission-side interferometer (13) and a receiver (20) having a reception-side interferometer (22) is configured to perform a temperature adjustment such that the temperature of the reception-side interferometer (22) is a polarization-independent temperature that causes the waveguide length difference of the reception-side interferometer (22) to be equal to an integral multiple of the beat length, and the quantum cryptography device is further configured to apply a pressure to the waveguide of the reception-side interferometer (22), thereby adjusting the polarization-independent temperature.