公开(公告)号：US09253824B2

公开(公告)日：2016-02-02

申请号：US13125861

申请日：2009-10-23

申请人： Kazuhiko Inoue ,  Eiji Suzuki ,  Shinichi Kaga ,  Yukimasa Takeda ,  Akihiko Hirano ,  Hiroshi Kai ,  Masao Sanuki ,  Motohiko Mouri ,  Yoshitaka Uchihori

发明人： Kazuhiko Inoue ,  Eiji Suzuki ,  Shinichi Kaga ,  Yukimasa Takeda ,  Akihiko Hirano ,  Hiroshi Kai ,  Masao Sanuki ,  Motohiko Mouri ,  Yoshitaka Uchihori

IPC分类号： A47J27/04 ,  F22B1/28 ,  H05B6/10 ,  B24B49/10 ,  F01K17/02 ,  F22B37/26

CPC分类号： H05B6/108 ,  B24B49/105 ,  F01K17/02 ,  F22B1/281 ,  F22B37/26

摘要： A small steam generator uses a cylindrical steam generation vessel having a steam generation portion formed to store an amount of water for generating steam and a steam passage portion formed on the upper end of the steam generation portion for spouting steam generated in the steam generation portion. A heater element is disposed within the steam generation vessel, and an induction heating coil is wound around the periphery of the steam generation vessel for energizing the heater element. The heater element is energized by supply of electric power to the heating coil so that steam generated by boiling of the water in the steam generation portion spouts upward from the steam passage. In the steam generator, a steam discharge duct is mounted on the upper end of the steam passage for receiving the steam spouting upward from the steam passage and to discharge it in a lateral direction such that drops of hot water adhered to a ceiling surface of the discharge duct fall and re-circulate back into the steam generation part.

摘要翻译： 小型蒸汽发生器使用具有形成蒸汽产生部分的蒸汽发生部分的圆柱形蒸汽发生器，用于储存用于产生蒸汽的水量，以及形成在蒸汽发生部分的上端的蒸汽通道部分，用于喷射在蒸汽发生部分中产生的蒸汽。 加热器元件设置在蒸汽发生容器内，并且感应加热线圈缠绕在蒸汽发生容器的周边上，以激励加热器元件。 加热器元件通过向加热线圈供电而通电，使得蒸汽生成部分中的水沸腾产生的蒸汽从蒸汽通道向上喷出。 在蒸汽发生器中，蒸汽排放管道安装在蒸汽通道的上端，用于接收从蒸汽通道向上喷出的蒸汽并沿横向排出蒸汽，使得一滴热水附着在 排放管道下降并再循环回蒸汽发生部分。

公开(公告)号：US20120037145A1

公开(公告)日：2012-02-16

申请号：US13125861

申请日：2009-10-23

申请人： Kazuhiko Inoue ,  Eiji Suzuki ,  Shinichi Kaga ,  Yukimasa Takeda ,  Akihiko Hirano ,  Hiroshi Kai ,  Masao Sanuki ,  Motohiko Mouri ,  Yoshitaka Uchihori

发明人： Kazuhiko Inoue ,  Eiji Suzuki ,  Shinichi Kaga ,  Yukimasa Takeda ,  Akihiko Hirano ,  Hiroshi Kai ,  Masao Sanuki ,  Motohiko Mouri ,  Yoshitaka Uchihori

IPC分类号： A47J27/04 ,  F22B1/28

CPC分类号： H05B6/108 ,  B24B49/105 ,  F01K17/02 ,  F22B1/281 ,  F22B37/26

摘要： The subject of the present invention is to provide a steam generator constructed small in size. A steam generator 20 of the present invention is composed of a cylindrical steam generation vessel 30 having a steam generation portion 31 formed to store an amount of water for generating steam and a steam passage 32 formed on the upper end of the steam generation portion for spouting steam generated in the steam generation portion, a heater element 40 disposed within the steam generation vessel 30, and an induction heating coil wound around the periphery of the steam generation vessel 30 for energizing the heater element. The heater element 40 is energized by supply of electric power to the heating coil so that steam generated by boiling of the water in the steam generation portion spouts upward from the steam passage. In the steam generator 20, a steam discharge duct 70 is mounted on the upper end of the steam passage 32 for receiving the steam spouting upward from the steam passage to discharge it in a lateral direction such that drops of hot water adhered to a ceiling surface of the discharge duct fall and circulate into the steam generation part 31.

摘要翻译： 本发明的主题是提供一种尺寸小的蒸汽发生器。 本发明的蒸汽发生器20由圆筒形蒸汽发生容器30构成，该圆筒形蒸汽发生容器30具有形成用于储存一定量的用于产生蒸汽的水分的蒸汽发生部分31和形成在蒸汽发生部分上端的蒸汽通道32，用于喷射 在蒸汽产生部分产生的蒸汽，设置在蒸汽发生容器30内的加热器元件40，以及卷绕在蒸汽发生容器30周围的感应加热线圈，用于激励加热器元件。 加热器元件40通过向加热线圈供应电力而被激励，使得由蒸汽产生部分中的水沸腾产生的蒸汽从蒸汽通道向上喷出。 在蒸汽发生器20中，蒸汽排出管道70安装在蒸汽通道32的上端，用于接收从蒸汽通道向上喷出的蒸汽，以沿横向方向排出蒸汽，使得水滴附着在天花板表面上 的排出管道落下并循环到蒸汽发生部31中。

公开(公告)号：US6046442A

公开(公告)日：2000-04-04

申请号：US43372

申请日：1998-09-11

申请人： Yasuzo Kawamura ,  Yoshitaka Uchihori

发明人： Yasuzo Kawamura ,  Yoshitaka Uchihori

IPC分类号： G05D23/20 ,  H05B6/02 ,  H05B6/06 ,  H05B6/08

CPC分类号： H05B6/108 ,  G05D23/1913 ,  G05D23/20 ,  H05B6/06

摘要： The present invention relates to a temperature controller used for an electromagnetic induction heating apparatus provided with a heating element made of magnetic material, and prepared in a fluid passage. A coil is prepared in the perimeter of the heating element and a high frequency electric current generator for the coil. The temperature controller comprises an electric current detection unit measuring the electric current flowing from the high frequency electric current generator to the coil and detecting that the temperature of magnetic material forming the heating element reaches in the vicinity of the magnetic transformation temperature, and an electric current restrictive unit limiting the electric current flowing to the coil based on the electric current detection unit. When the temperature of the heating element reaches in the vicinity of the magnetic transformation temperature, the electric current detection unit detects the rising electric current and the electric current restrictive unit limits the further rising electric current.

摘要翻译： PCT No.PCT / JP96 / 02665 Sec。 371日期：1998年9月11日 102（e）1998年9月11日PCT PCT 1996年9月17日PCT公布。 公开号WO97 / 11578 日期1997年3月27日本发明涉及一种用于电磁感应加热装置的温度控制器，该电磁感应加热装置具有由磁性材料制成的加热元件，并在流体通道中制备。 在加热元件的周边和线圈的高频电流发生器中制备线圈。 温度控制器包括电流检测单元，其测量从高频电流发生器流向线圈的电流，并检测形成加热元件的磁性材料的温度达到磁转变温度附近的电流 限制单元限制基于电流检测单元流向线圈的电流。 当加热元件的温度达到磁转变温度附近时，电流检测单元检测上升电流，电流限制单元限制进一步上升的电流。

公开(公告)号：US5990465A

公开(公告)日：1999-11-23

申请号：US489087

申请日：1995-06-09

申请人： Mutsuo Nakaoka ,  Yasuzo Kawamura ,  Yoshitaka Uchihori

发明人： Mutsuo Nakaoka ,  Yasuzo Kawamura ,  Yoshitaka Uchihori

IPC分类号： H05B6/10 ,  F24H1/10 ,  H05B6/02 ,  H05B6/06 ,  H05B6/08

CPC分类号： H05B6/108 ,  H05B6/06

摘要： This invention pertains to an electromagnetic induction fluid heating apparatus equipped with a heating element constructed from a conductive material installed in a fluid flow passage, a coil installed around this heating element, and a high frequency electrical current generator for this coil. In particular, this heating element is a layered component that allows electrical conduction between metallic plates. This heating element is formed so that electrical current vortices occur throughout this layered component. By forming a fluid flow passage that allows mixing within this layered component, the electrical power efficiency becomes 100%. Moreover, this high frequency electrical current generator is an invertor that uses semiconductor power devices such as SIT, B-SIT, MOSFET, IGRT, and MCT, etc. When the preferred PWM system (Pulse Width Modulation) is used, the heating efficiency (affected by the efficiency of the invertor, etc. matched with this layered component) exceeds 90%.

摘要翻译： 本发明涉及一种电磁感应流体加热装置，该电磁感应流体加热装置配备有由安装在流体流路中的导电材料构成的加热元件，安装在该加热元件周围的线圈和用于该线圈的高频电流发生器。 特别地，该加热元件是允许金属板之间导电的层状部件。 该加热元件形成为使得在整个层状部件中发生电流涡流。 通过形成允许在该层状部件内进行混合的流体流路，电力效率成为100％。 此外，该高频电流发生器是使用诸如SIT，B-SIT，MOSFET，IGRT和MCT等半导体功率器件的逆变器。当使用优选的PWM系统（脉宽调制）时，加热效率 受与该分层成分匹配的变换器等的影响）超过90％。