1
Akira Matsuda, Makoto Tanaka, Junichi Murata, Shigeo Yasuda, Hiroshi Nishino: Alarm device for informing reduction of pneumatic pressure of tire. Bridgestone Tire Company, Mitaka Instrument Company, Sughrue Rothwell Mion Zinn and Macpeak, December 25, 1979: US04180795 (115 worldwide citation)

An alarm device for informing reduction of pneumatic pressure of vehicle tires by sensing abnormal change of tire internal pressure of a vehicle when running by a pressure sensing switch, by converting the thus sensed abnormal change into an electric signal and by generating an alarm to an operator. ...


2
Hiroshi Nishino, Toshio Aibe, Katsuya Noguchi: Process for removal of mercury vapor and adsorbent therefor. Takeda Chemical, Wenderoth Lind & Ponack, February 19, 1985: US04500327 (114 worldwide citation)

Mercury vapor in a gas can easily be removed from the gas by contacting the gas with an adsorbent comprising an activated carbon having as supported thereon (1) one or more components included in one of three groups shown below and (2) one or more components included in the remaining two groups show ...


3
Hiroshi Nishino, Toshio Aibe: Process for removal of poisonous gases. Takeda Chemical, Wenderoth Lind & Ponack, March 25, 1986: US04578256 (79 worldwide citation)

Hydrides of As, B, P, Sb or Se in a gas can easily be removed from the gas by contacting the gas with an adsorbent comprising activated carbon having (1) iodine and/or one or more kinds of iodine compounds and/or (2) one or more kinds of sulfates and nitrates of NH.sub.4, Ag, Al, Ti, V, Cr, Mn, Fe, ...


4
Hiroshi Nishino, Toshio Aibe, Fumiichi Ogino: Deodorization method. Takeda Chemical, Wenderoth Lind & Ponack, March 17, 1981: US04256728 (35 worldwide citation)

A deodorization method which comprises allowing a bad-smelling gas containing (a) hydrogen sulfide and/or a mercaptan, (b) a sulfide and/or a disulfide and (c) ammonia and/or an amine to contact (1) firstly with activated carbon, (2) then with activated carbon or clay mineral having an acid supporte ...


5
Nobutaka Ninomiya, Hiroshi Nishino, Toshio Aibe, Kiyoshi Itoga: Removal of nitrogen oxides. Takeda Chemical, Wenderoth Lind & Ponack, July 1, 1980: US04210628 (31 worldwide citation)

Nitrogen oxides contained in waste gases can be effectively removed from waste gases by a novel process which comprises contacting the waste gases with activated carbon in the presence of gaseous ammonia at a temperature between about 110.degree. C. and about 350.degree. C. to convert the nitrogen o ...


6
Hiroshi Nishino, Toshio Aibe: Method for removal of poisonous gases. Takeda Chemical, Wenderoth Lind & Ponack, June 10, 1986: US04594231 (31 worldwide citation)

Halogens and/or hydrogen halides in a gas can easily be removed from the gas by contacting the gas with an adsorbent comprising an activated carbon having as supported thereon (1) one or more components included in one of the three groups shown below and (2) one or more components included in the re ...


7
Hiroshi Nishino, Toshio Aibe: Method for removal of poisonous gases. Takeda Chemical, Wenderoth Lind & Ponack, July 30, 1985: US04532115 (23 worldwide citation)

Hydrides of As, B, P, Sb or Se in a gas can easily be removed from the gas by contacting the gas with an adsorbent consisting of activated carbon containing:


8
Akira Matsuda, Norio Goshima, Shigeo Yasuda, Motoaki Iwasaki, Hiroshi Nishino: Tire inner pressure drop alarming service. Bridgestone Tire Company, Mitaka Instrument Company, Cushman Darby & Cushman, November 10, 1981: US04300118 (21 worldwide citation)

A tire inner pressure drop alarming device comprises an oscillation section mounted on a vehicle body in the vicinity of a vehicle wheel, a resonance section mounted on a peripheral portion of a tire and including a resonance coil, a signal processing and alarming section mounted on the vehicle body ...


9
Hiroshi Nishino, Fumiichi Ogino, Tetsuo Masuko, Kunio Goto, Masao Takahashi: Multilayer glass structure. Takeda Chemical, Mizusawa Kagaku Kogyo Kabushiki Kaisha, Sherman & Shalloway, October 9, 1984: US04476169 (17 worldwide citation)

A multilayer glass structure constructed by joining the edge portions of a plurality of glass sheets by a sealant through spacers having an adsorbent filled therein. According to this invention, the adsorbent comprises a combination of a granular zeolite composed of a core of a synthetic zeolite/cla ...


10
Hiroshi Nishino, Masayuki Suzuki: Method of removing ozone and composition therefor. Takeda Chemical, Wenderoth Lind & Ponack, December 20, 1983: US04421533 (16 worldwide citation)

Compositions comprising (1) manganese compound and (2) one kind or not less than two kinds out of alkali metal and/or alkaline earth metal compounds being supported on activated carbon. Contacting an ozone-containing gas with the said compositions results in highly effective decomposition and remova ...