公开(公告)号：US08075844B2

公开(公告)日：2011-12-13

申请号：US12100444

申请日：2008-04-10

Applicant: Youichiro Tabata

Inventor： Youichiro Tabata

IPC: B01J19/08

CPC classification number: C01B13/11 ,  C01B2201/60 ,  C01B2201/66

Abstract: An ozone generator for generating ozone by applying a specified process to oxygen by discharge includes a first raw material gas supply unit for supplying the oxygen as a first raw material gas, and a second raw material gas supply unit for supplying an oxide compound gas as a second raw material gas, in which, by excited light, excited and generated by a discharge in the oxygen and the oxide compound gas, the oxide compound gas is dissociated, or the oxide compound gas is excited accelerating dissociation of the oxygen, and ozone is generated. In this way, ozone generation efficiency is raised.

Abstract translation: 一种用于通过排出对氧气进行特定工艺来产生臭氧的臭氧发生器包括：第一原料气体供应单元，用于供应作为第一原料气体的氧;以及第二原料气体供应单元，用于将氧化物化合物气体作为 第二原料气体，其中通过激发光激发并通过在氧气和氧化物化合物气体中的放电产生氧化物化合物气体，氧化物化合物气体被分解，或氧化物化合物气体被激发以促进氧的解离，臭氧是 生成。 这样就可以提高臭氧发生效率。

公开(公告)号：US6093289A

公开(公告)日：2000-07-25

申请号：US219904

申请日：1998-12-22

Applicant: Masaki Kuzumoto ,  Youichiro Tabata ,  Shigenori Yagi ,  Kenji Yoshizawa ,  Masahiro Mukai ,  Junji Ochi ,  Tateki Ozawa

Inventor： Masaki Kuzumoto ,  Youichiro Tabata ,  Shigenori Yagi ,  Kenji Yoshizawa ,  Masahiro Mukai ,  Junji Ochi ,  Tateki Ozawa

IPC: C01B13/11 ,  H01T23/00 ,  B01J19/08

CPC classification number: C01B13/11 ,  C01B2201/12 ,  C01B2201/22 ,  C01B2201/32 ,  C01B2201/60 ,  C01B2201/66 ,  C01B2201/74 ,  C01B2201/90

Abstract: There is provided a highly efficient and compact ozone generating apparatus in which a very short air gap of about 0.2 mm is formed at high accuracy. Non-discharge portions are dispersed and disposed to cover an entire discharge space, or a spacer is provided to form the non-discharge portion. Further, an elastic body is mounted on a back face of an electrode, thereby enhancing an air gap accuracy of the discharge space.

Abstract translation: 提供了一种高效紧凑的臭氧发生装置，其中以高精度形成约0.2mm的非常短的气隙。 不排出部分被分散和设置以覆盖整个放电空间，或者设置间隔件以形成不排出部分。 此外，弹性体安装在电极的背面，从而提高放电空间的气隙精度。

公开(公告)号：US4425493A

公开(公告)日：1984-01-10

申请号：US281530

申请日：1981-07-08

Applicant: Takaji Mizuno ,  Masanori Mizuno ,  Hirotsugu Komura ,  Shigeo Ueguri ,  Youichiro Tabata

Inventor： Takaji Mizuno ,  Masanori Mizuno ,  Hirotsugu Komura ,  Shigeo Ueguri ,  Youichiro Tabata

IPC: B23K9/09

CPC classification number: B23K9/091

Abstract: A pulse arc welding machine in which the repetition frequency of the pulse currect is unaffected by the frequency of the power source and the mean value of the pulse current applied can be accurately controlled over a broad range while the arcing is maintained stable. A pulse peak current supplying circuit is connected in series with an arcing region formed between a consumable wire electrode and a material to be welded between the output terminals of a standard direct current source while a base current supplying circuit is connected in parallel with the pulse peak current supplying circuit. The pulse peak current supplying circuit and the base current supplying circuit are both composed of a switching element such as a transistor coupled in series with an inductive element. Diodes are provided for suppressing high voltage transients in the circuit.

Abstract translation: 一种脉冲电弧焊接机，其中脉冲重复频率不受电源频率的影响，并且在电弧保持稳定的同时，可以在宽范围内精确地控制施加的脉冲电流的平均值。 脉冲峰值电流供给电路与在标准直流电源的输出端子之间形成的消耗性电极电极与被焊接材料之间形成的电弧区域串联连接，而基极电流供给电路与脉冲峰值并联连接 电流供应电路。 脉冲峰值电流供给电路和基极电流供给电路均由与感应元件串联连接的晶体管等开关元件构成。 二极管用于抑制电路中的高电压瞬变。

公开(公告)号：US08444831B2

公开(公告)日：2013-05-21

申请号：US13348147

申请日：2012-01-11

Applicant: Youichiro Tabata ,  Hajime Nakatani ,  Masaki Kuzumoto

Inventor： Youichiro Tabata ,  Hajime Nakatani ,  Masaki Kuzumoto

IPC: B01J19/08

CPC classification number: C01B13/11 ,  C01B2201/60 ,  C01B2201/66

Abstract: A method of generating ozone by applying a silent discharge to oxygen as a first raw material gas, and an oxide compound gas, as a second raw material gas, in which excited light, excited and generated by a discharge in the oxygen and the oxide compound gas, dissociates the oxide compound gas, or excites the oxide compound gas, accelerating dissociation of the oxygen and generation of ozone. In this way, ozone generation efficiency is raised.

Abstract translation: 作为第一原料气体，通过对作为第一原料气体的氧进行静电放电而产生臭氧的方法和作为第二原料气体的氧化物化合物气体，其中通过在氧气和氧化物化合物中的放电而激发和产生的激发光 气体，解离氧化物复合气体，或激发氧化物化合物气体，促进氧的分解和产生臭氧。 这样就可以提高臭氧发生效率。

公开(公告)号：US07108836B2

公开(公告)日：2006-09-19

申请号：US10156031

申请日：2002-05-29

Applicant: Yujiro Okihara ,  Youichiro Tabata ,  Akaru Usui ,  Hiromichi Komiya ,  Yuji Ganryu ,  Masaki Kuzumoto ,  Noboru Wada ,  Koji Ohta ,  Shigenori Yagi ,  Hirozoh Kanegae

Inventor： Yujiro Okihara ,  Youichiro Tabata ,  Akaru Usui ,  Hiromichi Komiya ,  Yuji Ganryu ,  Masaki Kuzumoto ,  Noboru Wada ,  Koji Ohta ,  Shigenori Yagi ,  Hirozoh Kanegae

IPC: B01J19/08

CPC classification number: C01B13/11 ,  C01B2201/12 ,  C01B2201/22 ,  C01B2201/32 ,  C01B2201/76

Abstract: An ozonizer has a flat plate-shaped low voltage electrode, flat plate-shaped first and second high voltage electrodes facing the low voltage electrode, a first dielectric, and a first spacer, located between the low voltage electrode and the first high voltage electrode, a second dielectric, and a second spacer between the electrode and the second high voltage electrode. The ozonizer also has a first electrode cooling sheet facing the first high voltage electrode at a side opposite a first discharge gap, a second electrode cooling sheet facing the second high voltage electrode, a first thermally conducting and electrically insulating sheet sandwiched between the first high voltage electrode and the first electrode cooling sheet, and a second thermally conducting and electrically insulating sheet sandwiched between the second high voltage electrode and the second electrode cooling sheet.

Abstract translation: 臭氧发生器具有位于低电压电极和第一高压电极之间的平板状低电压电极，面对低电压电极的平板状的第一和第二高压电极，第一电介质和第一间隔件， 第二电介质，以及在所述电极和所述第二高压电极之间的第二间隔物。 臭氧发生器还具有与第一放电间隙相对的一侧面对第一高压电极的第一电极冷却片，与第二高压电极相对的第二电极冷却片，夹在第一高压电极之间的第一导热电绝缘片 电极和第一电极冷却片，以及夹在第二高压电极和第二电极冷却片之间的第二导热和电绝缘片。

公开(公告)号：US5759497A

公开(公告)日：1998-06-02

申请号：US422900

申请日：1995-04-17

Applicant: Masaki Kuzumoto ,  Youichiro Tabata ,  Shigenori Yagi ,  Kenji Yoshizawa ,  Masahiro Mukai ,  Junji Ochi ,  Tateki Ozawa

Inventor： Masaki Kuzumoto ,  Youichiro Tabata ,  Shigenori Yagi ,  Kenji Yoshizawa ,  Masahiro Mukai ,  Junji Ochi ,  Tateki Ozawa

IPC: C01B13/11 ,  H01T23/00 ,  B01J19/08

CPC classification number: C01B13/11 ,  C01B2201/12 ,  C01B2201/22 ,  C01B2201/32 ,  C01B2201/60 ,  C01B2201/66 ,  C01B2201/74 ,  C01B2201/90

Abstract: There is provided a highly efficient and compact ozone generating apparatus in which a very short air gap of about 0.2 mm is formed at high accuracy. Non-discharge portions are dispersed and disposed to cover an entire discharge space, or a spacer is provided to form the non-discharge portion. Further, an elastic body is mounted on a back face of an electrode, thereby enhancing an air gap accuracy of the discharge space.

公开(公告)号：US4329563A

公开(公告)日：1982-05-11

申请号：US6780

申请日：1979-01-26

Applicant: Hirotsugu Komura ,  Shigeo Ueguri ,  Youichiro Tabata

Inventor： Hirotsugu Komura ,  Shigeo Ueguri ,  Youichiro Tabata

IPC: F24H1/10 ,  H01J37/32 ,  H05B7/00 ,  H05B7/16

CPC classification number: H01J37/32018 ,  F24H1/101 ,  H05B7/005 ,  H05B7/16 ,  Y10S422/907

Abstract: Typically, a bottom of a cup-shaped electrode opposes to that of a similar electrode through a predetermined gap and in a mixture of helium and hydrogen. A step-up transformer connected across an AC source through a resistor applies a voltage in excess of a discharge breakdown voltage for the gap across the electrodes to cause a pilot glow discharge between them before the source voltage reaches a glow hold minimum voltage for the electrodes. A rectified voltage resulting from a transformer connected across the resistor turns a bidirectional triode thyristor on to apply the source voltage across the electrodes through the conducting thyristor. This smoothly transits the pilot glow discharge to a glow discharge between the electrodes. The latter discharge heats a liquid forcedly flowing along inner surfaces of the electrodes. Also an auxiliary electrode can be operatively coupled to the electrodes to cause similarly a pilot glow discharge between it and either one of the electrodes. For a DC source a tubular anode surrounds a middle portion of a tubular cathode through which a liquid flows.

Abstract translation: 通常，杯形电极的底部通过预定间隙和氦和氢的混合物与类似电极的底部相反。 通过电阻器连接在交流电源上的升压变压器对电极之间的间隙施加超过放电击穿电压的电压，以在源电压达到电极的辉光保持最小电压之前在它们之间引起导频辉光放电 。 由连接在电阻器上的变压器产生的整流电压使双向三极管晶闸管导通，通过导电晶闸管将源极电压施加到电极两端。 这样平滑地将导频辉光放电转移到电极之间的辉光放电。 后者的放电加热了沿电极的内表面强制流动的液体。 还可以将辅助电极可操作地耦合到电极，以类似地引起其与电极中的任一个之间的导频辉光放电。 对于DC源，管状阳极围绕液体流过的管状阴极的中间部分。

公开(公告)号：USRE40746E1

公开(公告)日：2009-06-16

申请号：US11233463

申请日：2005-09-23

Applicant: Yujiro Okihara ,  Youichiro Tabata ,  Akaru Usui ,  Hiromichi Komiya ,  Yuji Ganryu ,  Masaki Kuzumoto ,  Noboru Wada ,  Koji Ohta ,  Shigenori Yagi ,  Hirozoh Kanegae

Inventor： Yujiro Okihara ,  Youichiro Tabata ,  Akaru Usui ,  Hiromichi Komiya ,  Yuji Ganryu ,  Masaki Kuzumoto ,  Noboru Wada ,  Koji Ohta ,  Shigenori Yagi ,  Hirozoh Kanegae

IPC: B01J19/08

CPC classification number: C01B13/11 ,  C01B2201/12 ,  C01B2201/22 ,  C01B2201/32 ,  C01B2201/76

Abstract: An ozonizer has a flat plate-shaped low voltage electrode 7, a flat plate-shaped high voltage electrode 3 facing a main surface of the low voltage electrode 7. The ozonizer also has a flat plate-shaped dielectric 5 and a spacer for forming a discharge gap 6 of a thin thickness in a laminating direction provided between the low voltage electrode 7 and the electrode 3, an electrode cooling sheet 1 provided facing a main surface of the electrode 3 at a side opposite the discharge gap 6 for cooling the electrode 3. The ozonizer also has a thermal conducting/electric insulating sheet 2 sandwiched between the electrode 3 and the electrode cooling sheet 1. An alternating voltage is applied between the low voltage electrode 7 and the electrode 3 and a discharge is produced in the discharge gap 6 injected with oxygen gas to produce ozone gas.

Abstract translation: 臭氧发生器具有平板状低电压电极7，面对低电压电极7的主面的平板状高压电极3.臭氧发生器还具有平板状电介质5和用于形成 位于低压电极7和电极3之间的层叠方向上的厚度薄的放电间隙6，与放电间隙6相对的一侧面对电极3的主面设置的电极冷却片1，用于冷却电极3 臭氧发生器还具有夹在电极3和电极冷却片1之间的导热/电绝缘片2.在低压电极7和电极3之间施加交流电压，并且在放电间隙6中产生放电 注入氧气产生臭氧气体。

公开(公告)号：US06866829B2

公开(公告)日：2005-03-15

申请号：US10155068

申请日：2002-05-28

Applicant: Yujiro Okihara ,  Youichiro Tabata ,  Akaru Usui ,  Hiromichi Komiya ,  Yuji Ganryu ,  Masaki Kuzumoto ,  Noboru Wada ,  Koji Ohta ,  Shigenori Yagi ,  Hirozoh Kanegae

Inventor： Yujiro Okihara ,  Youichiro Tabata ,  Akaru Usui ,  Hiromichi Komiya ,  Yuji Ganryu ,  Masaki Kuzumoto ,  Noboru Wada ,  Koji Ohta ,  Shigenori Yagi ,  Hirozoh Kanegae

IPC: C01B13/11 ,  H01T23/00 ,  B01J19/08

CPC classification number: C01B13/11 ,  C01B2201/12 ,  C01B2201/22 ,  C01B2201/32 ,  C01B2201/76

Abstract: An ozonizer has a flat plate-shaped low voltage electrode 7, a flat plate-shaped high voltage electrode 3 facing a main surface of the low voltage electrode 7. The ozonizer also has a flat plate-shaped dielectric 5 and a spacer for forming a discharge gap 6 of a thin thickness in a laminating direction provided between the low voltage electrode 7 and the electrode 3, an electrode cooling sheet 1 provided facing a main surface of the electrode 3 at a side opposite the discharge gap 6 for cooling the electrode 3. The ozonizer also has a thermal conducting/electric insulating sheet 2 sandwiched between the electrode 3 and the electrode cooling sheet 1. An alternating voltage is applied between the low voltage electrode 7 and the electrode 3 and a discharge is produced in the discharge gap 6 injected with oxygen gas to produce ozone gas.

Abstract translation: 臭氧发生器具有平板状低电压电极7，面对低电压电极7的主面的平板状高压电极3.臭氧发生器还具有平板状电介质5和用于形成 位于低压电极7和电极3之间的层叠方向上的厚度薄的放电间隙6，与放电间隙6相对的一侧面对电极3的主面设置的电极冷却片1，用于冷却电极3 臭氧发生器还具有夹在电极3和电极冷却片1之间的导热/电绝缘片2.在低压电极7和电极3之间施加交流电压，并且在放电间隙6中产生放电 注入氧气产生臭氧气体。

公开(公告)号：US4410792A

公开(公告)日：1983-10-18

申请号：US152500

申请日：1980-05-22

Applicant: Hirotsugu Komura ,  Shigeo Ueguri ,  Youichiro Tabata

Inventor： Hirotsugu Komura ,  Shigeo Ueguri ,  Youichiro Tabata

IPC: F24H1/10 ,  H01J37/32 ,  H05B7/00 ,  H05B7/16 ,  H01S3/097 ,  B23K9/00

CPC classification number: H01J37/32018 ,  F24H1/101 ,  H05B7/005 ,  H05B7/16 ,  Y10S422/907

Abstract: Typically, a bottom of a cup-shaped electrode opposes to that of a similar electrode through a predetermined gap and in a mixture of helium and hydrogen. A step-up transformer connected across an AC source through a resistor applies a voltage in excess of a discharge breakdown voltage for the gap across the electrodes to cause a pilot glow discharge between them before the source voltage reaches a glow hold minimum voltage for the electrodes. A rectified voltage resulting from a transformer connected across the resistor turns a bidirectional triode thyristor on to apply the source voltage across the electrodes through the conducting thyristor. This smoothly transits the pilot glow discharge to a glow discharge between the electrodes. The latter discharge heats a liquid forcedly flowing along inner surfaces of the electrodes. Also an auxiliary electrode can be operatively coupled to the electrodes to cause similarly a pilot glow discharge between it and either one of the electrodes. For a DC source a tubular anode surrounds a middle portion of a tubular cathode through which a liquid flows.