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1. 发明专利

CA1042323A PROCESS FOR THE PREPARATION OF METALLIC FILM RESISTORS BY HEAT TREATING 未知
公开(公告)号：CA1042323A
公开(公告)日：1978-11-14
申请号：CA233159
申请日：1975-08-08
申请人： YASUDA TOSHITAKA , TAKAHAMA HIROSHI , HAMAGUCHI HACHIRO , SHIMIZU SAJIRO , MORI KENJI
发明人： YASUDA TOSHITAKA , TAKAHAMA HIROSHI , HAMAGUCHI HACHIRO , SHIMIZU SAJIRO , MORI KENJI
IPC分类号： H01C17/06 , H01C7/04 , H01C7/06 , H01C17/232 , H01C17/26 , C23F7/04 , B01J17/00
摘要： A method of heat-treating a metal film for use as a resistor and the resulting product. The method involves heating the film in an oxidizing atmosphere for forming a protective oxide film on the metal film, removing adsorbed foreign elements therefrom, and changing the crystal structure thereof, and for a time sufficient to change the initial temperature coefficient of resistance to a desired value. The temperature for the heating when the coefficient is to be changed in the positive direction is a temperature in the range between the first and second critical temperature for heat treating in and above the third critical temperature. When the coefficient is to be changed in the negative direction, the temperature is between the second and the third critical temperatures for heat treating in air.

2. 发明专利

CA1016308A ANTISTATIC PAPER 未知
公开(公告)号：CA1016308A
公开(公告)日：1977-08-30
申请号：CA189382
申请日：1974-01-03
申请人： YASUDA TOSHITAKA
发明人： YASUDA TOSHITAKA

3. 发明专利

ITFI20110200A1 "DISPOSITIVO DI DECOMPOSIZIONE IMPIEGANTE ARIA MAGNETIZZATA, E UN METODO DI TRATTAMENTO DEI RIFIUTI IMPIEGANTE DETTO DISPOSITIVO" 未知
公开(公告)号：ITFI20110200A1
公开(公告)日：2013-01-28
申请号：ITFI20110200
申请日：2011-09-19
申请人： YASUDA TOSHITAKA
发明人： YASUDA TOSHITAKA

4. 发明专利

BRPI1104509A2 未知
公开(公告)号：BRPI1104509A2
公开(公告)日：2014-09-23
申请号：BRPI1104509
申请日：2011-09-09
申请人： YASUDA TOSHITAKA
发明人： YASUDA TOSHITAKA
IPC分类号： B01J19/08 , B01D53/38 , B01D53/77 , B09B3/00

5. 发明专利

AU1210697A Method for using total gravitational energy of flowing fluid and apparatus therefor 未知
公开(公告)号：AU1210697A
公开(公告)日：1998-08-03
申请号：AU1210697
申请日：1997-01-06
申请人： YASUDA TOSHITAKA
发明人： YASUDA TOSHITAKA
IPC分类号： F03B17/06 , F03D1/04 , F03B17/00

6. 发明专利

JP2002317755A METHOD AND DEVICE FOR USING THREE-DIMENSIONAL GRAVITATION AND GRAVITATIONAL TOTAL PRESSURE PGH OF MINIMUM COMPOSITE PARTICLES FILLED IN SPACE 审中-公开
公开(公告)号：JP2002317755A
公开(公告)日：2002-10-31
申请号：JP2002146292
申请日：2002-05-21
申请人： YASUDA TOSHITAKA
发明人： YASUDA TOSHITAKA
IPC分类号： F03G7/10
摘要： PROBLEM TO BE SOLVED: To provide new energy resource on the basis of the three-dimensional gravitation and the gravitational total pressure PGH of the minimum composite particles filled in the outer space. SOLUTION: This invention is realized on the basis of natural science of the second generation based on the assumption that the minimum composite particles are filled in the space. According to the natural science of the second generation, the natural phenomenon is the second class perpetual motion composed of balanced fluid energy by the co-existence fusion of the three-dimensional gravitation and the gravitational total pressure PGH of the minimum composite particles. In order to use the balanced fluid energy artificially generated and kept, a circulated conduit 1, a fluid holding and supplying means, 2 a flow rate generating means, a wind turbine or water turbine 4, and a front part reduction deflection guide part 5 are structured to satisfy 'balanced fluid condition' and 'independency of second class perpetual motion' presented by the natural science of the second generation. In this invention, the balanced fluid energy on the basis of the three-dimensional gravitation and the gravitational total pressure PGH of the minimum composite particles filled in the outer space, is generated and kept in the circulated conduit to be used as the energy resource.

7. 发明专利

JPH07172394A HYDRAULIC POWER GENERATION METHOD FOR SHIP 失效
公开(公告)号：JPH07172394A
公开(公告)日：1995-07-11
申请号：JP35262091
申请日：1991-11-12
申请人： YASUDA TOSHITAKA
发明人： YASUDA TOSHITAKA
IPC分类号： B63J99/00 , B63J5/00
摘要： PURPOSE:To generate power energy for a ship more than fuel energy consumed for generation. CONSTITUTION:Water flowing in an intake SIN passes an effective intake area S1, assumed at the inside and outside of the opening of the intake, at the sailing speed Vm per a second of a ship and flows in the intake. Water discharged through a discharge port SOUT flows through an effective discharge are S2, assumed at the inside and outside of the opening of the discharge port, at a speed Vm per a second and is discharged through a discharge port. A ship set at S1 S2V is sailed at a sailing speed Vm per a second, a quantity of water equivalent to S1V flows in a pressure pipe 3, a reaction water turbine 4 is rotated by the water, and a generator 5 is operated through rotation of the reaction water turbine 4 to effect hydraulic power generation. By discharging water after generation in water by suction output generated by water flowing from the discharge port SOUT through the vicinity thereof at a speed Vm per a second, movement energy produced by water flowing in the pressure pipe 3 and position energy of water produced by a difference between the intake SIN and the discharge SOUT is utilized for hydraulic power generation.

8. 发明专利

JPH05141340A HYDRAULIC POWER GENERATION IN SMALL FLOW VELOCITY AND LARGE QUANTITY FLOWING WATER 失效
公开(公告)号：JPH05141340A
公开(公告)日：1993-06-08
申请号：JP26558991
申请日：1991-07-10
申请人： YASUDA TOSHITAKA , KURODA SHIGEHARU
发明人： YASUDA TOSHITAKA , KURODA SHIGEHARU
IPC分类号： F03B17/06 , H02K7/18
摘要： PURPOSE:To facilitate hydraulic power generation in small flow velocity and large quantity flowing water in which a water quantity is abundant and a depth of water is large like in a large river or an ocean current by carrying out the hydraulic power generation while combining the first energy system water in the vicinity of the water surface of the flowing water and the second energy system water in the vicinity of the water bottom of the flowing water with each other. CONSTITUTION:In flowing water, water having kinetic energy and potential energy flowed into a pressure pipe 1 from the vicinity of the water surface of the flowing water F, that is, the water in the first energy system and water having kinetic energy and pressure energy in the vicinity of the water bottom of the flowing water F, that is, the water in the second energy system are combined with each other, so that hydraulic power generation is carried out. A water intake section 2 to take the first energy system water into the pressure pipe 1 is provided in the vicinity of the water surface of the flowing water, and a water sucking section 3 to suck out the second energy system water into the flowing water from inside of the pressure pipe 1 is provided in the vicinity of the water bottom of the flowing water. A water wheel 4 is also provided inside of the pressure pipe 1, and a generator is rotated by this water wheel, so that power generation can be carried out. Thereby, while using an underwater fall in a large river, a tidal current or an ocean current in which a water quantity is abundant and a depth of water is large, the hydraulic power generation becomes possible.

9. 发明专利

JPH07167034A WINDMILL POWER GENERATING METHOD MAKING USE OF ATMOSPHERIC PRESSURE 失效
公开(公告)号：JPH07167034A
公开(公告)日：1995-07-04
申请号：JP34679293
申请日：1993-12-13
申请人： YASUDA TOSHITAKA
发明人： YASUDA TOSHITAKA
IPC分类号： F03D1/04 , F03D9/00 , F03D11/00
摘要： PURPOSE:To enable great capacity power generation by setting up a wind pressure duct in the midst of wind in such a way that the power of atmospheric pressure head acts from the windward side of a windmill at all times, and providing the pressure duct with an inlet port, a guide vane, a generator connected to the reaction windmill, and a lost head compensation blasting means. CONSTITUTION:A wind pressure duct 1 to be set in the midst of wind is provided with an inlet port 3 which is directed to the windward side to let wind flow in the axial direction of the wind pressure duct as running air 2, and with an outlet port 4 discharging running air within the wind pressure duct to the leeward side. Moreover, a guide vane 5, a reaction windmill 6, a generator 7 connected to the reaction windmill 6 and a lost head compensation blasting means 8 are provided in the wind pressure duct 1. The set amount of blasting to be applied by the lost head compensation blasting means 8 is set so as to be adjusted to a condition for the amount of blasting that the amount of blasting shall be less than (wind speed x exhaust mounth cross sectional area), and concurrently blasting pressure head when the set amount of blasting is applied by the compensation blasting means 8 is adjusted so that the total lost pressure head produced within the wind pressure duct 1 can be compensated to zero with respect to the flow speed of running air 2 when windmill power generation is in operation.

10. 发明专利

JPH05126026A SMALL HEAD HYDRAULIC POWER GENERATION METHOD UTILIZING DOWNSTREAM FLOW VELOCITY 失效
公开(公告)号：JPH05126026A
公开(公告)日：1993-05-21
申请号：JP28824991
申请日：1991-08-14
申请人： YASUDA TOSHITAKA , KURODA SHIGEHARU
发明人： YASUDA TOSHITAKA , KURODA SHIGEHARU
IPC分类号： F03B17/06 , H02K7/18
摘要： PURPOSE:To obtain a hydraulic power generation method which can utilize small heads of dams for irrigation water intakes of rivers, reservoirs, and lakes for flood control and for water level regulation, which heads could not be utilized for hydraulic power generation. CONSTITUTION:In a pressure pipe 1 which has a water intake 2 and a water suction part 3, in a dam D which has a small head and an overflow, the flow velocity at the upstream part F1 is made as V1, the flow velocity at the downstream part F2 is made as V2, the section area at the part where the water at the upstream part F1 passes at the velocity V1 is made as the effective water intake area S1, and the section area at the part where the water in the pressure pipe 1 passes at the velocity V2 and sucked into the waterflow at the downstream side F2 is made as the effective water intake area S2. In this case, a stable power generating condition is S1XV1 S2XV2. A reaction water turbine 4 is provided in the pressure pipe 1, a power generator 5 provided at an adequate position inside or outside the pressure pipe 1 is connected to the reaction water turbine 4, the water at the upstream side is let flow in and flow down through the pressure pipe 1, the potential energy of the height H between the water level at the upstream side and the suction part 3 is changed to a kinetic energy to rotate the reaction water turbine and the power generator so as to generate a power, and the water is sucked out by the pressure energy and the kinetic energy of the water flow at the downstream side near the suction part 3.

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