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    • 1. 发明授权
    • Automatic ice maker and its operating method
    • 自动制冰机及其操作方法
    • US06860111B2
    • 2005-03-01
    • US10706399
    • 2003-11-12
    • Masao SanukiChiyoshi ToyaFumio Maruyama
    • Masao SanukiChiyoshi ToyaFumio Maruyama
    • F25C1/12F25C1/22F25C5/10
    • F25C1/12F25C1/22F25C5/10F25C2400/14F25C2500/08
    • There are disclosed an automatic ice maker and its operating method. A pair of ice making chambers are longitudinally arranged to face each other across a cooling tube. A plurality of ice making compartments are defined in each ice making chamber. On the open side of the ice making chamber, water trays for opening/closing the ice making chamber are arranged in parallel to be laterally moved. The water tray is moved between an ice making position for closing the ice making chamber and an open position for opening the ice making chamber by an opening/closing device. When a deicing operation is carried out, the water tray is laterally moved to the open position while ice cubes are frozen thereto to remove the ice cubes from the ice making compartments, and the cubes are deiced from the water tray in this open position.
    • 公开了一种自动制冰机及其操作方法。 一对制冰室纵向布置成横跨冷却管彼此相对。 在每个制冰室中限定了多个制冰隔间。 在制冰室的敞开侧,用于打开/关闭制冰室的水盘平行布置以横向移动。 水盘在用于关闭制冰室的制冰位置和通过打开/关闭装置打开制冰室的打开位置之间移动。 当执行除冰操作时,水盘被横向移动到打开位置,同时冰块被冻结以从制冰室中移除冰块,并且立方体在该打开位置从水盘中除冰。
    • 2. 发明申请
    • Ice making machine
    • 制冰机
    • US20060213215A1
    • 2006-09-28
    • US11087756
    • 2005-03-24
    • Akihiko HiranoMasao SanukiChiyoshi ToyaKazuhiro Yoshida
    • Akihiko HiranoMasao SanukiChiyoshi ToyaKazuhiro Yoshida
    • F25B41/00F25B49/00F25C1/00F25C5/10
    • F25B47/022F25B2400/0403F25B2600/2507F25C5/10F25C2600/04
    • In external unit 19, three-way valve 25 provided downstream of CPR 23 enables a switching connection between CPR 23 and branch line 21A of first bypass line 21 with respect to liquid line 18 A. In internal unit 20, second bypass line 27 connects inlet side of receiver 13 and inlet side of evaporator 16, and open/close valve 28 is provided along second bypass line 27. At de-icing, three-way valve 25 switches to first bypass line 21 side and open/close valve 28 opens. There upon, hot gas from compressor 11 circulates from first bypass line 21 to liquid line 18A to enter evaporator 16 through second bypass line 27 while squeezing out liquid refrigerant. Evaporator 16 is heated by manifest heat of introduced hot gas, and when the internal pressure of vaporator 16 rises to a condensation temperature over 0° C., de-icing is performed efficiently by manifest heat plus latent heat.
    • 在外部单元19中,设置在CPR23下游的三通阀25能够实现第一旁通管线21的CPR 23与分支管线21A之间相对于液体管线18A的切换连接。在内部单元20中,第二旁路管线27连接 接收器13的入口侧和蒸发器16的入口侧,以及沿着第二旁路管线27设置开/关阀28.在除冰时,三通阀25切换到第一旁通管路21侧,打开/关闭阀28打开 。 此时,来自压缩机11的热气体从第一旁通管路21循环到液体管线18A,同时挤出液体制冷剂,通过第二旁路管线27进入蒸发器16。 蒸发器16被引入的热气体的明显的热量加热,并且当蒸发器16的内部压力上升到超过0℃的冷凝温度时,通过明显的加热潜热来有效地进行除冰。
    • 3. 发明申请
    • Ice making section of stream down type ice making machine
    • 流式制冰机制冰部分
    • US20050252233A1
    • 2005-11-17
    • US11121738
    • 2005-05-03
    • Masao SanukiChiyoshi ToyaYuji Wakatsuki
    • Masao SanukiChiyoshi ToyaYuji Wakatsuki
    • F25B39/02F25C1/12F25C1/00
    • F25C1/12F25B39/02
    • An ice making section of a stream down type ice making machine for enabling easy cleaning between a pair of ice making plates and for enabling individual replacement of every component, thereby reducing the cost of replacement. A plurality of mounting members 16 are provided on an evaporation pipe 14 in parallel being separated at a predetermined interval in the extending direction of a linear part 14. Each of parts to be engaged 16b, 16b is formed at an open end of each mounting member 16. At an open end of each ice making member 18 formed into generally U-shaped by bending, each engagement part 22d which is engageable with and disengageable from the part to be engaged 16b is formed. By assembling the ice making member 18 between the mounting members 16, 16 adjacent to each other so as to engage each engagement part 22d with the corresponding part to be engaged 16b, a first ice making section is configured so that the pair of ice making plates are oppositely arranged across the evaporation pipe 14.
    • 一种流式制冰机的制冰部分,用于使得能够在一对制冰板之间容易地清洁并且能够单独更换每个部件,从而降低更换成本。 多个安装构件16平行地设置在蒸发管14上,在线性部分14的延伸方向上以预定间隔隔开。 每个待接合的部件16b,16b形成在每个安装部件16的开口端。 在通过弯曲形成为大致U形的每个制冰部件18的开口端形成有可与待接合部件16b接合和分离的每个接合部分22d。 通过将制冰构件18组装在彼此相邻的安装构件16,16之间,以使每个接合部分22d与待接合的相应部分16b接合,第一制冰部分被构造成使得一对冰 制造板相对地布置在蒸发管14的两侧。
    • 5. 发明授权
    • Ice making section of stream down type ice making machine
    • 流式制冰机制冰部分
    • US07243508B2
    • 2007-07-17
    • US11121738
    • 2005-05-03
    • Masao SanukiChiyoshi ToyaYuji Wakatsuki
    • Masao SanukiChiyoshi ToyaYuji Wakatsuki
    • F25C1/12
    • F25C1/12F25B39/02
    • An ice making section of a stream down type ice making machine for enabling easy cleaning between a pair of ice making plates and for enabling individual replacement of every component, thereby reducing the cost of replacement.A plurality of mounting members 16 are provided on an evaporation pipe 14 in parallel being separated at a predetermined interval in the extending direction of a linear part 14. Each of parts to be engaged 16b, 16b is formed at an open end of each mounting member 16. At an open end of each ice making member 18 formed into generally U-shaped by bending, each engagement part 22d which is engageable with and disengageable from the part to be engaged 16b is formed. By assembling the ice making member 18 between the mounting members 16, 16 adjacent to each other so as to engage each engagement part 22d with the corresponding part to be engaged 16b, a first ice making section is configured so that the pair of ice making plates are oppositely arranged across the evaporation pipe 14.
    • 一种流式制冰机的制冰部分,用于使得能够在一对制冰板之间容易地清洁并且能够单独更换每个部件,从而降低更换成本。 多个安装构件16平行地设置在蒸发管14上,在线性部分14的延伸方向上以预定间隔隔开。 每个待接合的部件16b,16b形成在每个安装部件16的开口端。 在通过弯曲形成为大致U形的每个制冰部件18的开口端形成有可与待接合部件16b接合和分离的每个接合部分22d。 通过将制冰构件18组装在彼此相邻的安装构件16,16之间,以使每个接合部分22d与待接合的相应部分16b接合,第一制冰部分被构造成使得一对冰 制造板相对地布置在蒸发管14的两侧。
    • 6. 发明授权
    • Ice making machine
    • 制冰机
    • US07168262B2
    • 2007-01-30
    • US11087756
    • 2005-03-24
    • Akihiko HiranoMasao SanukiChiyoshi ToyaKazuhiro Yoshida
    • Akihiko HiranoMasao SanukiChiyoshi ToyaKazuhiro Yoshida
    • F25C5/10
    • F25B47/022F25B2400/0403F25B2600/2507F25C5/10F25C2600/04
    • In external unit 19, three-way valve 25 provided downstream of CPR 23 enables a switching connection between CPR 23 and branch line 21A of first bypass line 21 with respect to liquid line 18 A. In internal unit 20, second bypass line 27 connects inlet side of receiver 13 and inlet side of evaporator 16, and open/close valve 28 is provided along second bypass line 27. At de-icing, three-way valve 25 switches to first bypass line 21 side and open/close valve 28 opens. There upon, hot gas from compressor 11 circulates from first bypass line 21 to liquid line 18A to enter evaporator 16 through second bypass line 27 while squeezing out liquid refrigerant. Evaporator 16 is heated by manifest heat of introduced hot gas, and when the internal pressure of vaporator 16 rises to a condensation temperature over 0° C., de-icing is performed efficiently by manifest heat plus latent heat.
    • 在外部单元19中,设置在CPR23下游的三通阀25能够实现第一旁通管线21的CPR 23与分支管线21A之间相对于液体管线18A的切换连接。在内部单元20中,第二旁路管线27连接 接收器13的入口侧和蒸发器16的入口侧,以及第二旁路管线27设置开/关阀28。 在除冰时,三通阀25切换到第一旁通管路21侧,打开/关闭阀28打开。 此时,来自压缩机11的热气体从第一旁通管路21循环到液体管线18A,通过第二旁路管线27进入蒸发器16,同时挤出液体制冷剂。 蒸发器16被引入的热气体的明显的热量加热,并且当蒸发器16的内部压力上升到超过0℃的冷凝温度时,通过明显的加热潜热来有效地进行除冰。
    • 7. 发明授权
    • Mechanism for detecting completion of ice formation in ice making machine
    • 用于检测制冰机中冰层完成的机理
    • US5425243A
    • 1995-06-20
    • US101356
    • 1993-08-03
    • Masao SanukiTadashi Sakai
    • Masao SanukiTadashi Sakai
    • F25C1/08F25C1/20F25C5/10F25C1/12
    • F25C5/10F25C1/08F25C1/20F25C2600/04
    • Disclosed is a mechanism for detecting completion of ice formation and for preventing such opacification of ice pieces in an ice making machine, in which a multiplicity of freezing fingers formed on the lower surface of a freezing base plate are dipped in the water supplied to a freezing chamber defined in a water tray to carry out a freezing operation and form inverted dome-shaped ice pieces gradually around the freezing fingers; characterized in that the mechanism consists of a rocking plate which is rocked with respect to the freezing fingers by a rocking means; and a position detector which is actuated when a predetermined size of ice pieces are formed around the freezing fingers, and the rocking plate is brought into contact with these ice pieces. In this ice making machine, completion of formation of ice pieces around the freezing fingers is designed to be detected easily and securely by the signal from the position detector, and also transparent ice pieces of high commercial value free from opacification can be formed, while opacification of ice pieces to be formed around the freezing fingers can effectively be prevented since the water to be frozen in the water tray is fully agitated by the rocking motion of the rocking plate having formed thereon a multiplicity of through holes and/or side walls also having such through holes.
    • 公开了一种用于检测制冰完成并防止制冰机中冰块不透明的机构,其中形成在冷冻基板的下表面上的多个冷冻指状物浸入供应到冷冻的水中 在水盘中定义的腔室进行冷冻操作,并在冷冻手指周围逐渐形成倒立的圆顶状冰块; 其特征在于,所述机构由摇摆板组成,所述摇摆板通过摆动装置相对于所述冷冻手指摇动; 以及位置检测器,当在冷冻指状物周围形成预定大小的冰块时被致动,并且摇摆板与这些冰块接触。 在该制冰机中,通过位置检测器的信号容易且可靠地检测冰冻手指周围的冰块的形成的完成,并且还可以形成不透明的高商业价值的透明冰块,而不透明 可以有效地防止要形成在冰冻指状物周围的冰块,因为通过其上形成有多个通孔和/或侧壁的摇摆板的摇摆动作使在水盘中被冷冻的水被充分地搅动, 这样的通孔。
    • 8. 发明申请
    • STEAM GENERATOR
    • 蒸汽发生器
    • US20120037145A1
    • 2012-02-16
    • US13125861
    • 2009-10-23
    • Kazuhiko InoueEiji SuzukiShinichi KagaYukimasa TakedaAkihiko HiranoHiroshi KaiMasao SanukiMotohiko MouriYoshitaka Uchihori
    • Kazuhiko InoueEiji SuzukiShinichi KagaYukimasa TakedaAkihiko HiranoHiroshi KaiMasao SanukiMotohiko MouriYoshitaka Uchihori
    • A47J27/04F22B1/28
    • H05B6/108B24B49/105F01K17/02F22B1/281F22B37/26
    • 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.
    • 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。
    • 9. 发明申请
    • Stream down type ice making machine
    • 流下式制冰机
    • US20060032263A1
    • 2006-02-16
    • US11201720
    • 2005-08-11
    • Masao SanukiChiyoshi ToyaYuji Wakatsuki
    • Masao SanukiChiyoshi ToyaYuji Wakatsuki
    • F25C1/22F25C1/00
    • F25C1/12F25C1/22F25C5/10F25C2400/02
    • A stream down type ice making machine having an ice making plate in which an ice making region is defined between a pair of vertical ribs, the pair of vertical ribs being spaced apart in the width direction and projecting from an ice making face and an evaporator disposed meanderingly in the back face opposite to the ice making face of the ice making plate, the ice making region of the ice making plate is cooled by cyclically supplying the evaporator with a refrigerant as well as ice-making water is supplied to flow down thereon so that many a lump of ice is produced on the ice making region, wherein protrusions projecting to the ice making region side and having a slope formed on the upper face thereof, the slope being inclined from above to down as being away from the ice making face, are provided in the vertical rib.
    • 一种具有制冰板的流下式制冰机,其中在一对垂直肋之间限定制冰区域,所述一对垂直肋条在宽度方向上间隔开,并从制冰面和蒸发器放置 在与制冰板的制冰面相反的背面蜿蜒曲折地,制冰板的制冰区域通过向制冷剂循环地供给蒸发器而被冷却,并且供应制冰水以向下流动,从而 在制冰区域产生许多一块冰,其中凸起突出到制冰区域侧并且具有形成在其上表面上的斜面,斜面从上到下倾斜为远离制冰面 ,设置在垂直肋中。
    • 10. 发明授权
    • Electrolyzer
    • 电解液
    • US5766431A
    • 1998-06-16
    • US685838
    • 1996-07-24
    • Tokuo TanakaMasao Sanuki
    • Tokuo TanakaMasao Sanuki
    • C02F1/461C25B9/08C25B9/00C25B15/08
    • C25B9/08C02F1/46104C02F2001/46152C02F2201/4611C02F2201/46115
    • An electrolyzer including an upright casing having a lower portion formed with a pair of opposed inlet ports and an upper portion formed with a pair of opposed outlet ports, an ion permeable diaphragm mounted within the casing to subdivide the interior of the casing into a pair of reaction chambers respectively in open communication with the inlet and outlet ports, a pair of electrode plates respectively disposed within the reaction chambers and opposed to one another through the diaphragm for electrolyzing water flowing therethrough from the inlet ports to the outlet ports when being applied with electric current, wherein the electrode plates are attached to internal surfaces of the casing to cover each inner end of the inlet ports and to form a pair of bifurcated passages respectively in open communication with the inlet ports, and wherein a pair of inlet chambers are formed along each lower edge of the electrode plates and communicated with the inlet ports through the bifurcated passages.
    • 一种电解器,包括:具有形成有一对相对的入口的下部的直立壳体和形成有一对相对的出口的上部,安装在所述壳体内的可离子渗透的隔膜,以将所述壳体的内部分成一对 反应室分别与入口和出口开放连通,一对电极板分别设置在反应室内并通过膜片彼此相对,用于电解从入口到出口的流过的水,当被施加电 电流,其中所述电极板附接到所述壳体的内表面以覆盖所述入口端口的每个内端,并且分别与所述入口开口连通地形成一对分叉通道,并且其中一对入口室沿着 电极板的每个下边缘通过分叉的pas与入口端口连通 圣人