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    • 3. 发明专利
    • Gas purifying device, and gas purifying method
    • 气体净化装置和气体净化方法
    • JP2004125329A
    • 2004-04-22
    • JP2002292840
    • 2002-10-04
    • Matsushita Electric Ind Co Ltd松下電器産業株式会社
    • TERAJIMA TETSUOSUZUKI MOTOHIRO
    • F23G5/02B01D5/00B01D53/44B01D53/74B01D53/86F23G7/04F23G7/06F23G7/07
    • Y02P70/34
    • PROBLEM TO BE SOLVED: To further suppress energy consumption and reduce running cost in combustion of a lean combustible component by a gas purifying device in regard to a combustion type gas purifying method wherein there are a direct fired system, a catalytic combustion system, a heat storage combustion system or the like, and the heat storage combustion system capable of obtaining heat recovery efficiency of 85% or more is becoming popular particularly in recent years even though the initial cost is high since energy consumption can be cut to almost half by comparison with the catalytic combustion system. SOLUTION: The gas purifying device is provided with a condensing part 10 condensing a combustible gas component such as VOC of gas lead in from the outside, an adsorption medium 11 storing the condensed combustible gas component, a heater 16 periodically vaporizing the stored combustible gas component, and a heater 15 burning the vaporized combustible gas component. COPYRIGHT: (C)2004,JPO
    • 要解决的问题:为了进一步抑制能量消耗,并且通过气体净化装置降低燃烧式的可燃性成分的运行成本,其中存在直接燃烧系统的燃烧型气体净化方法,催化燃烧系统 ,蓄热燃烧系统等,并且能够获得85%以上的热回收效率的蓄热燃烧系统在近年来变得普及,即使初始成本高,因为能量消耗可以减少到几乎一半 与催化燃烧系统相比。 解决方案:气体净化装置设置有冷凝部分10,其将来自外部的气体引线的可燃气体成分(例如VOC)聚集在一起,存储冷凝的可燃气体成分的吸附介质11,周期性地使存储的 可燃气体成分和燃烧汽化后的可燃性气体成分的加热器15。 版权所有(C)2004,JPO
    • 4. 发明专利
    • Catalyst combustion device
    • 催化燃烧装置
    • JP2003028403A
    • 2003-01-29
    • JP2001214976
    • 2001-07-16
    • Matsushita Electric Ind Co Ltd松下電器産業株式会社
    • SUZUKI MOTOHIROFUJITA TATSUOTERAJIMA TETSUOANDO TOMOAKIWATANABE YUKIOYAMAGUCHI SHIGETO
    • F23D11/40F23Q3/00
    • PROBLEM TO BE SOLVED: To solve a problem that, in a catalyst combustion device using liquid fuel, since combustion exhaust gas containing unburned fuel is momentarily generated, combustion exhaust gas characteristics are not excellent, and a problem that there is a need for an excessive electric input to heat a catalyst to an active temperature or higher.
      SOLUTION: The catalyst combustion device comprises a fuel feed route through which liquid fuel is supplied; an air feed route through which air is fed; a vaporizer provided with a vaporizer heating heater; a catalyst heat generating body arranged in contact with the vaporizer; a catalyst combustion part having a plurality of communication holes; and an ignition means arranged between the catalyst heat generating body and the catalyst combustion part. A flame is formed in the vicinity of the catalyst heat generating body or between the catalyst heat generating body and the catalyst combustion part, and the catalyst combustion part is preheated.
      COPYRIGHT: (C)2003,JPO
    • 要解决的问题为了解决在使用液体燃料的催化剂燃烧装置中,由于含有未燃烧燃料的燃烧废气暂时产生,所以燃烧废气特性不好,存在过度需要的问题 电输入以将催化剂加热至活性温度或更高。 解决方案:催化剂燃烧装置包括供应液体燃料的燃料供给路径; 供给空气的空气供给路径; 具有蒸发器加热加热器的蒸发器; 与蒸发器接触地设置的催化剂发生体; 具有多个连通孔的催化剂燃烧部; 以及设置在催化剂发生体和催化剂燃烧部之间的点火装置。 在催化剂发生体附近或催化剂发热体与催化剂燃烧部分之间形成火焰,催化剂燃烧部分被预热。
    • 5. 发明专利
    • Solar light panel
    • 太阳能面板
    • JP2006284072A
    • 2006-10-19
    • JP2005103119
    • 2005-03-31
    • Matsushita Electric Ind Co Ltd松下電器産業株式会社
    • MARUYAMA TAKEHIROTERAJIMA TETSUOSUZUKI MOTOHIROWAKITA KATSUYA
    • F24J2/20F24J2/34H01L31/042
    • F24J2/4625F24J2/34Y02E10/40
    • PROBLEM TO BE SOLVED: To provide a solar light panel for suppressing heat radiation from a heat storage part while preventing the degradation of the power generating efficiency of a solar battery cell. SOLUTION: The solar light panel comprises a heat collecting part having a surface protecting material 1, the solar battery cell 4 and a reflecting material 10 or the like laminated in close contact with one another, and a heat storage part installed on the opposite side of the solar light receiving face thereof and having first and second flow paths 5a, 5b filled with latent heat storage materials 6a, 6b and laminated. When the solar battery cell 4 is in an overheated state, heat is efficiently transferred and radiated to prevent the degradation of the power generating efficiency. When the latent heat storage materials 6a, 6b tend to radiate the heat, substituting gas 9 in a heat storage material tank 12 is fed into the first flow path 5a by a pump 11 for substituting the latent heat storage material 6a to form a gas layer in the first flow path 5a which suppresses the heat radiation from the latent heat storage material 6b in the heat storage part to the atmosphere. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种用于抑制来自蓄热部的热辐射的太阳能电池板,同时防止太阳能电池单元的发电效率的劣化。 解决方案:太阳能电池板包括具有表面保护材料1,太阳能电池单元4和彼此紧密接触的层叠的反射材料10等的集热部,以及安装在 具有装有潜热蓄热材料6a,6b的第一和第二流路5a,5b并叠层在太阳光接收面的相反侧。 当太阳能电池单元4处于过热状态时,有效地传递和辐射热量,以防止发电效率的降低。 当潜热蓄热材料6a,6b倾向于散热时,将蓄热材料罐12中的气体9置换为用于代替潜热蓄热材料6a的泵11而被供给到第一流路5a中,形成气层 在第一流路5a中抑制从储热部中的潜热蓄积材料6b向大气的散热。 版权所有(C)2007,JPO&INPIT
    • 6. 发明专利
    • Solar heat pump system
    • 太阳能热泵系统
    • JP2005195187A
    • 2005-07-21
    • JP2003435412
    • 2003-12-26
    • Matsushita Electric Ind Co Ltd松下電器産業株式会社
    • WAKITA KATSUYASUZUKI MOTOHIROTERAJIMA TETSUO
    • F24J2/00F24J2/42F25B27/00
    • Y02E10/40
    • PROBLEM TO BE SOLVED: To provide a solar heat pump system having high energy utilizing efficiency, compatibly preventing the flow of liquid refrigerant into a compressor and uniforming the temperature of a solar battery.
      SOLUTION: The solar heat pump system comprises a heat pump cycle having the compressor, an indoor heat exchanger, an outdoor heat exchanger, and an expansion valve, in which refrigerant is distributed, and a hybrid panel having the solar battery 1, a solar heat conduction part 3 arranged on the reverse side of the solar battery 1 for absorbing and conducting heat received from a solar light 7 by the solar battery 1, and a super heat part 4 for collectively heating predetermined part of a pipe in which the refrigerant is distributed with the heat of the solar heat conduction part 3.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种具有高能量利用效率的太阳能热泵系统,兼容地防止液体制冷剂流入压缩机并使太阳能电池的温度均匀化。 解决方案:太阳能热泵系统包括具有压缩机,室内热交换器,室外热交换器和分配制冷剂的膨胀阀的热泵循环,以及具有太阳能电池1的混合面板, 设置在太阳能电池1的背面的太阳能热传导部3,用于吸收和传导由太阳能电池1从太阳光7接收的热;以及超热部4,用于共同加热管的规定部分, 制冷剂随着太阳能热传导部分3的热量分布。版权所有(C)2005,JPO&NCIPI
    • 8. 发明专利
    • Gas purifying apparatus and gas purifying method
    • 气体净化装置和气体净化方法
    • JP2004195412A
    • 2004-07-15
    • JP2002369480
    • 2002-12-20
    • Matsushita Electric Ind Co Ltd松下電器産業株式会社
    • TERAJIMA TETSUOSUZUKI MOTOHIRO
    • B01D53/44B01D53/74B01D53/86
    • PROBLEM TO BE SOLVED: To provide a gas purifying apparatus which exhibits low energy consumption, is lightweight, and can remove an objective gas component with good operability. SOLUTION: The gas purifying apparatus is provided with an exhaust gas introducing passage 1 for introducing the exhaust gas containing an objective substance for purifying treatment, a purifying room 2 provided on the downstream side of the exhaust gas introducing passage, an exhaust gas vent passage 3 provided on the downstream side of the cleaning room 2, a heat recovering part for recovering heat of the exhaust gas provided in the exhaust gas vent passage 3, an endothermic reaction part 10 thermally connected with the heat recovering part and generating an endothermic reaction to a specified chemical substance with the recovered heat to produce an endothermic reaction product, a heat storing part 14 for storing the endothermic reaction product produced in the endothermic reaction part 10, an exothermic reaction part 11 generating an exothermic reaction of the endothermic reaction product stored in the heat storing part 14 under a specified condition, and an exothermic part provided in the exhaust gas introducing passage 1 and thermally connected with the exothermic reaction part 11. COPYRIGHT: (C)2004,JPO&NCIPI
    • 要解决的问题:提供一种低能耗,重量轻的气体净化装置,能够除去具有良好可操作性的目标气体成分。 解决方案:气体净化装置设置有用于引入含有净化处理用物质的废气的排气导入通路1,设置在排气导入通路的下游侧的净化室2,排气 设置在清洁室2的下游侧的排气通道3,用于回收设置在排气通道3中的废气的热量的热回收部,与热回收部热连接并产生吸热的吸热反应部10 与回收的热反应产生吸热反应产物的特定化学物质,用于储存在吸热反应部分10中产生的吸热反应产物的储热部分14,产生吸热反应产物的放热反应的放热反应部分11 在特定条件下储存在储热部14中,放热部分提供 在废气引入通道1中并与放热反应部分11热连接。版权所有(C)2004,JPO&NCIPI
    • 9. 发明专利
    • Dish washer, dish dryer, dish washer dryer, and operating method, program, and recording medium thereof
    • 洗碗机,清洗机,洗衣机干燥机及其操作方法,程序和记录介质
    • JP2006158888A
    • 2006-06-22
    • JP2004358927
    • 2004-12-10
    • Matsushita Electric Ind Co Ltd松下電器産業株式会社
    • SUZUKI MOTOHIROTERAJIMA TETSUOWAKITA KATSUYAMARUYAMA TAKEHIRO
    • A47L15/42A47L15/46
    • PROBLEM TO BE SOLVED: To provide a dish washer with superior energy saving performance.
      SOLUTION: This dish washer comprises a dish storage part 1 on which dishes 2 are laid, an air duct 3 to connect an air outlet 21 for supplying air into the dish storage part 1 and a discharging port 22 to discharge air from the inside of the dish storage part 1, a cooling part 5 set on the air duct 3 to cool down the discharged air, a washing means 16 to wash the dishes 2, a water heating part 8 to heat water to be supplied to the washing means 16, and a heat pump cycle having a compressor 9, a condenser 8, an expansion means 10, and an evaporator 5 and set on coolant piping 11 to flow the coolant. The cooling part 5 is composed the evaporator, and the water heating part 8 is composed of the condenser.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:为洗碗机提供卓越的节能性能。 解决方案:该洗碟机包括盘2放置在其上的盘存储部分1,用于连接用于向盘容纳部分1供应空气的空气出口21的空气管道3和从其中排出空气的排出口22 在盘存储部分1的内部,设置在空气管道3上以冷却排出的空气的冷却部分5,洗涤皿2的洗涤装置16,加热部分8以加热供应到洗涤装置的水 16,以及具有压缩机9,冷凝器8,膨胀装置10和蒸发器5的热泵循环,并设置在冷却剂管道11上以使冷却剂流动。 冷却部5由蒸发器构成,水加热部8由冷凝器构成。 版权所有(C)2006,JPO&NCIPI
    • 10. 发明专利
    • Sunlight heat compound use system, operation control method therefor, program and recording medium
    • 太阳能热化合物使用系统,其操作控制方法,程序和记录介质
    • JP2006064284A
    • 2006-03-09
    • JP2004247047
    • 2004-08-26
    • Matsushita Electric Ind Co Ltd松下電器産業株式会社
    • MARUYAMA TAKEHIROTERAJIMA TETSUOSUZUKI MOTOHIRO
    • F24H1/00F24J2/00F24J2/42H01L31/042
    • Y02E10/40Y02E10/50
    • PROBLEM TO BE SOLVED: To further reduce a carbon dioxide emission amount by reducing power consumption while satisfying heat demand in time of operation of a sunlight heat compound use system. SOLUTION: This sunlight heat compound use system has: a solar battery 1; a first heat collection means 2 collecting heat from the solar battery 1; a second heat collection means 20 collecting heat from a heat source except the solar battery 1; heat collection changeover means 21, 22 performing a changeover into the first heat collection means 2 or the second heat collection means 20; and a control part 10 controlling the changeover of the heat collection changeover means 21, 22. The control part 10 subtracts a power generation amount generated by the solar battery 1 when collecting heat of the same heat quantity by use of the second heat collection means 20 from a power generation amount generated by the solar battery 1 when using the first heat collection means 2 to calculate a difference P sd between the power generation amounts, subtracts a supply power amount when using the first heat collection means 2 from a supply power amount when using the second heat collection means 20 to calculate a difference P hd between the supply power amounts, and controls the changeover of the heat collection changeover means 21, 22 on the basis of the difference P hd between the supply power amounts and the difference P sd between the power generation amounts. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:通过降低功率消耗来进一步降低二氧化碳排放量,同时满足太阳光复合使用系统的操作时的热需求。

      解决方案:该阳光加热复合使用系统有:太阳能电池1; 从太阳能电池1收集热量的第一集热装置2; 从太阳能电池1以外的热源收集热量的第二热量收集装置20; 热交换装置21,22执行切换到第一集热装置2或第二集热装置20; 以及控制部件10,其控制热量收集切换装置21,22的切换。控制部10使用第二热量收集装置20,在收集相同热量的热量的同时,减去由太阳能电池1产生的发电量 从使用第一采集装置2的太阳能电池1产生的发电量计算出发电量之间的差P sd 时,减去使用第一集热装置时的供电量 2,当使用第二热量收集装置20时,从供电量计算供给量之间的差P hd ,并且基于以下方式控制热收集切换装置21,22的切换 供电量之间的差P hd 与发电量之间的差P sd 。 版权所有(C)2006,JPO&NCIPI