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    • 2. 发明专利
    • 蓄熱熱交加熱装置
    • 蓄热交加热装置
    • JPWO2013186822A1
    • 2016-02-01
    • JP2014520805
    • 2012-06-15
    • 三菱電機株式会社
    • 藤塚 正史正史 藤塚和典 土野和典 土野
    • F24H1/18F24H1/00
    • F28D20/0034F24D17/0078F24D17/02F24D19/1054F24D2220/08F24H4/04F25B30/02F25B2339/047F28D2020/0073F28D2020/0078
    • 本発明に係る蓄熱熱交加熱装置100は、加熱された熱媒体を貯える蓄熱槽3と、前記蓄熱槽3の高温側と低温側に接続され、前記熱媒体が循環する循環流路4と、前記循環流路4に設けられ、前記熱媒体と加熱対象との間で熱交換して該加熱対象を加熱する熱交換器5と、前記循環流路4における前記熱媒体の循環を、前記蓄熱槽3の高温側から前記蓄熱槽3の低温側への正流方向と前記蓄熱槽3の低温側から前記蓄熱槽3の高温側への逆流方向とに切り替える循環方向切替手段17と、前記加熱対象の加熱運転をする際、前記循環方向切替手段17を前記正流方向に設定した状態で前記熱媒体を循環させ、前記加熱対象の加熱運転を停止した後に、前記循環方向切替手段17を前記逆流方向に設定した状態で前記熱媒体を循環させる制御手段30と、を備えたものである。
    • 根据本发明蓄热交加热装置100包括:储热罐3储存的加热的热介质,其连接到储热箱3的热侧和冷侧,并且其中所述热介质循环的循环流路4, 其中,在所述循环流路4中提供,通过热交换的热交换器5以加热加热对象,所述热介质之间的加热目标,在循环流路4中,储热的热介质的循环 循环方向切换装置17,用于从储热罐3和正极流动方向蓄热槽3的冷侧到储热箱3的高温侧,将加热的冷侧以相反的流动方向从罐3的高温侧开关 当对象的加热操作中,循环方向切换装置17以循环在向前流动方向上设置的状态下的热介质,之后停止加热目标的加热操作中,其中,所述循环方向切换装置17 明镜那些具有控制装置30,用于在反向流动方向被设定的状态下的热介质循环 。
    • 5. 发明专利
    • Method of producing heat exchanger and method of using the same
    • 生产换热器的方法及其使用方法
    • JP2013111640A
    • 2013-06-10
    • JP2011262606
    • 2011-11-30
    • Miura Co Ltd三浦工業株式会社
    • MATSUNAGA KATSUTOSHIMATSUYA HISAMI
    • B21D53/04B21D26/045B23K26/00B23K26/20F28D1/03F28F3/14
    • F28F3/14F28D2020/0078F28F2265/12F28F2265/14
    • PROBLEM TO BE SOLVED: To readily and reliably weld plates together and to readily vacuum from between the plates and to inject fluid into a swelled part in production of a heat exchanger in which the plates are superposed and welded together, and thereafter the fluid is injected into a predetermined region, which is swelled and deformed to form a flow path.SOLUTION: In a peripheral welding step, a plurality of the plates 2, 3 are superposed and the full periphery is welded at an outer peripheral end face to form a peripheral welded part 17. In a subsequent pressure reduction step, air remaining in a gap between the plates is suctioned and discharged from openings 11, 12 previously provided to surfaces of the plates. In a subsequent interior welding step, the plates are welded together to form an interior welded part 6 at the surfaces of the plates in a state where the gap between the plates is kept under reduced pressure, and the plates are divided into a swelled part 4 and a non-swelled part 5. In a subsequent swelling step, the fluid is injected into the swelled part 4, which is then swelled and deformed.
    • 要解决的问题:为了容易且可靠地将板焊接在一起并且容易地从板之间进行真空,并且在生产其中将板叠加并焊接在一起的热交换器时将流体注入膨胀部分中,此后 流体被注入到预定的区域中,该区域被膨胀和变形以形成流动路径。 解决方案:在外围焊接步骤中,多个板2,3重叠,并且在外周端部焊接整个周边以形成周边焊接部17.在随后的减压步骤中,剩余的空气 在板之间的间隙被抽吸并从先前提供给板的表面的开口11,12排出。 在随后的内部焊接步骤中,将板焊接在一起,以在板的间隙保持减压的状态下在板的表面形成内部焊接部分6,并将板分成膨胀部分4 和未膨胀部分5.在随后的膨胀步骤中,将流体注入膨胀部分4中,然后膨胀和变形。 版权所有(C)2013,JPO&INPIT
    • 6. 发明专利
    • Heat storage device and air conditioner using same
    • 热存储装置和空调器使用相同
    • JP2012078010A
    • 2012-04-19
    • JP2010223755
    • 2010-10-01
    • Panasonic Corpパナソニック株式会社
    • INOUE SHIGEYUKIKURISUYA KOUJIIMASAKA TOSHIYUKISHIMIZU AKIHIKOYAMAMOTO KENSHO
    • F28D20/00F24F5/00
    • F24F5/0017F25B13/00F25B2400/05F25B2400/24F28D1/06F28D20/0034F28D2020/0078Y02E60/142Y02E60/147
    • PROBLEM TO BE SOLVED: To provide a heat storage device that expands a capacity of a heat storage material and a heat exchanger in a region where heat of a heat source is easily transferred by natural convection, thereby effectively storing heat and using it, wherein the heat storage material which is at low cost and has a large heat capacity and whose main component is water is used and a heat storage tank abuts against the heat source, in the heat storage device.SOLUTION: The device includes: the heat storage material which is constituted of liquid and stores heat from the heat source; the heat storage tank 2 which holds the heat storage material therein; and a heat transfer part 4 which is a wall for forming an outer shell of the heat storage tank and which transfers heat between the heat source and the heat storage material. The heat storage tank 2 is configured so that an upper end of the heat storage tank 2 is higher than an upper end of the heat transfer part 4, and the configuration enables the capacity of the heat storage material to be increased and at the same time enables the temperature of even the heat storage material which is not in contact with the heat transfer part to be efficiently increased by convection heat transfer.
    • 要解决的问题:提供一种在通过自然对流容易地传递热源的区域中扩大蓄热材料和热交换器的容量的蓄热装置,从而有效地储存热量并使用它 其特征在于,在所述蓄热装置中使用成本低且热容量大且主要成分为水的蓄热材料,蓄热容器与所述热源抵接。 解决方案:该装置包括:蓄热材料,其由液体构成并储存来自热源的热量; 将蓄热材料保持在其内的储热箱2; 以及作为用于形成蓄热箱的外壳的壁并且在热源和蓄热材料之间传递热量的传热部4。 蓄热箱2构成为使得储热罐2的上端高于传热部4的上端,并且能够使蓄热材料的容量增加,同时, 能够通过对流传热有效地提高与传热部不接触的蓄热材料的温度。 版权所有(C)2012,JPO&INPIT
    • 8. 发明专利
    • Accumulator
    • JP4657226B2
    • 2011-03-23
    • JP2007023206
    • 2007-02-01
    • トヨタ自動車株式会社株式会社ティラド
    • 賢二 坪根政仁 塚原浩司 成田正隆 福澤聖一 端
    • F28D20/00F24F5/00
    • F28D20/0039F28D2020/0078F28D2020/0086F28F2270/00Y02E60/142
    • An objective of the present invention is to store heat into a thermal storing material using a plurality of thermal transport mediums, in a thermal storage device utilizing natural convection of a thermal storage material resulting from temperature difference of the thermal storage material. The thermal storage device of the invention has a plurality of thermal transport mediums 6a and 6b having different temperatures, a thermal storage material 2 which stores heat of the thermal transport mediums 6a and 6b or whose heat is drawn by the thermal transport mediums 6a and 6b, a thermal storage portion 1 accommodating the thermal storage material 2, and a first and a second thermal storage tanks 3 and 4 formed by dividing an inner space of the thermal storage portion 1, and a thermal exchange between the thermal transport medium 6a or 6b and the thermal storage material 2 takes place in the individual thermal storage tanks. In order to achieve the above-mentioned objective, the thermal storage device of the present invention is characterized by comprising: inner tanks 5a and 5b, which is formed in at least one of the first and the second thermal storage tanks 3 and 4, and in which a side thereof opposite to a boundary between the thermal storage tanks 3 and 4 is open; and a thermal exchange portion 8a and 8b formed inside of the inner tanks 5a and 5b, at which thermal exchange takes place between the thermal transport medium 6a or 6b and the thermal storage material 2.