1
Minoru Kawasaki, Akio Sato, Hitoshi Kinoshita, Koji Yamada: Method and system for processing workpiece with laser seam, with oscillation of beam spot on the workpeiece and beam oscillating apparatus. Toyota Jidosha Kabushiki Kaisha, Oliff & Berridge, November 5, 1996: US05571430 (30 worldwide citation)

Method and apparatus for bidirectionally oscillating a spot of a laser beam incident upon a workpiece to be processed with the laser beam, wherein the laser beam generated by a laser source is reflected by a movable reflecting mirror which is bidirectionally pivoted about a first axis by an oscillat ...


2
Iwao Arimura, Akio Sato, Hironori Hirano: Pneumatic radial type tire having an improved durability in bead section. Bridgestone Tire Company, Sughrue Rothwell Mion Zinn & Macpeak, June 22, 1976: US03964533 (26 worldwide citation)

A pneumatic radial type tire having an improved durability in bead section comprises at least one carcass ply composed of metal cords in a substantially radial arrangement, at least one chafer composed of rubberized metal cords, a carcass reinforcing member secured to the surface of the carcass ply ...


3
Iwao Arimura, Yasuo Suzuki, Akira Matsuda, Akio Sato: Pneumatic tired wheel. Bridgestone Tire Company, Sughrue Rothwell Mion Zinn & Macpeak, February 3, 1976: US03935892 (23 worldwide citation)

A pneumatic tired wheel having excellent highspeed performance after puncture comprises a tubeless tire, a bead stopper and a rim. The tubeless tire comprises a pair of elastic reinforcements having a Shore A hardness of at least 47, the bead stopper comprises an independent air-tight chamber and a ...


4
Iwao Arimura, Akio Sato, Hironori Hirano, Shigeo Makino: Pneumatic radial tires. Bridgestone Tire Company, Sughrue Rothwell Mion Zinn and Macpeak, July 26, 1977: US04037637 (21 worldwide citation)

A pneumatic radial tire so constructed as to reduce a breaker interlayer shearing strain without adding any particular supplemental reinforcing layer is disclosed. The radial tire has an initial sectional shape which satisfies the following conditions.


5
Hiroshi Hirakawa, Akio Sato, Takashi Takusagawa, Nobumasa Ikeda: Pneumatic radial tires for passenger cars having a low rolling resistance. Bridgestone Tire Company, Sughrue Mion Zinn Macpeak & Seas, September 14, 1982: US04349061 (20 worldwide citation)

A pneumatic radial tire for passenger cars having a low rolling resistance is disclosed. The radial tire comprises a body reinforcement including a toroidal carcass composed of radially arranged cords and a belt superimposed about the carcass and consisting of plural rubberized plies each containing ...


6
Akio Sato: Superconducting-coil apparatus. Kabushiki Kasiha Toshiba, Oblon Fisher Spivak McClelland & Maier, August 25, 1987: US04689439 (20 worldwide citation)

A superconducting-coil apparatus according to the present invention comprises a normal-fluid helium bath, a superfluid helium bath, a channel connecting the two baths, superconducting coils contained in the superfluid helium bath, current lead wires extending from an exciting current source to the s ...


7
Kazuo Obata, Yutaka Yamaguchi, Kojirou Yamaguchi, Akio Sato: Pneumatic radial tire. Bridgestone Tire Company, Sughrue Mion Zinn Macpeak and Seas, June 14, 1983: US04387759 (19 worldwide citation)

A pneumatic radial tire having a sandwiched structure formed by embracing side rubber between rubber filler and rubber chafer in the bead portion is disclosed. The tire has a high stiffness in the bead portion and has very excellent durable life.


8
Akio Sato: Flow rate control valve. SMC Kabushiki Kaisha, Paul A Guss, February 18, 2003: US06520479 (17 worldwide citation)

A flow rate control valve comprises a piezoelectric actuator and a displacement amount-amplifying mechanism for amplifying a displacement amount of the piezoelectric actuator. An amplified displacement amount, which is amplified by the displacement amount-amplifying mechanism, is transmitted to a va ...


9
Akio Sato, Tetsuro Maruyama, Yuji Tsuda: Suck back valve having sensor for detecting diaphragm displacement amount. SMC Kabushiki Kaisha, Paul A Guss, January 23, 2001: US06176438 (15 worldwide citation)

A suck back valve comprises an ON/OFF valve, a suck back mechanism, a first sensor for detecting a displacement amount of a first diaphragm of the ON/OFF valve, and a second sensor for detecting a displacement amount of a second diaphragm corresponding to a suction amount of a coating liquid. The su ...


10
Hisashi Uraki, Ichiro Toyoda, Shigeyuki Ehashi, Seiji Aida, Yasuharu Iida, Seiji Sawada, Akio Sato: Water-based ink-jet recording fluid. Toyo Ink Manufacturing, Oblon Spivak McClelland Maier & Neustadt P C, October 26, 1999: US05972087 (15 worldwide citation)

By use of recording liquid for water based inkjet with pigment and colloidal silica, it is possible to obtain prints print recorded on plain paper with good clearness and high quality and image of the print recorded material with sufficient water resistance and light resistance.