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1. 发明专利

JP2015121397A 加熱装置及び該加熱装置の制御方法审中-公开
标题翻译：加热器和加热器控制方法
公开(公告)号：JP2015121397A
公开(公告)日：2015-07-02
申请号：JP2014256672
申请日：2014-12-18
申请人：デビッドヴァンダイリノ
发明人：デビッドヴァンダイリノ
IPC分类号： F28D20/00 , F24D11/00
CPC分类号： F28D20/0056 , F24D11/006 , F24D11/003 , F24D11/009 , F28D2020/0078 , F28D2020/0082 , F28F2210/08 , F28F2210/10
摘要：【課題】貯蔵される熱エネルギーを多量に得ることができ、熱エネルギーの貯蔵のために消費されるエネルギーを減少することができ、熱蓄積器の容積を小さくすることができる加熱装置、及び該加熱装置の制御方法を提供する。【解決手段】加熱装置10は、夫々が熱エネルギーを貯蔵する複数のコンテナ20を有する熱蓄積器12と熱蓄積器14とを備える。各コンテナ20は、第1の熱移動流体の循環のための少なくとも供給路と第2の熱移動流体の循環のための収集路とが通っているアースを収容した断熱性の容器を有する。各熱蓄積器12,14にあって、コンテナ20の供給路は並列に接続し、コンテナ20の収集路は直列に接続している。加熱装置10は、第1の熱移動流体に熱エネルギーを供給する熱エネルギー生成装置16を備える。熱エネルギー生成装置16は、分配経路22を用いて、熱蓄積器12または熱蓄積器14内に第1の熱移動流体を循環させる。【選択図】図1
摘要翻译：要解决的问题：提供一种能够获得大量待储存的热能的加热器，减少用于存储热能的能量消耗，并减少每个蓄热器的体积，以及加热器的控制方法。解决方案：加热器10包括蓄热器12和14，每个蓄热器12和14各自包括存储热能的多个容器20。每个容器20包括存储地球的绝热容器，至少一个用于循环第一传热流体的供应路径和用于循环通过地球的第二传热流体的收集路径。在每个蓄热器12和14中，容器20的供应路径并联连接，容器20的收集路径串联连接。加热器包括将热能提供给第一传热流体的热能发生器16。热能发生器16使用分配路径22将第一传热流体循环在任一个蓄热器12或14中。

2. 发明专利

JP4997062B2 Cogeneration system 有权
公开(公告)号：JP4997062B2
公开(公告)日：2012-08-08
申请号：JP2007278195
申请日：2007-10-25
申请人：本田技研工業株式会社
发明人：将博山本 , 信行由利
IPC分类号： F24H1/00 , F24D3/00 , F24D3/12 , F24H1/18
CPC分类号： F24D11/009 , F01P7/165 , F02G5/00 , F24D11/005 , F24D2200/26 , F24D2220/06 , F24D2220/08 , F24H2240/02 , Y02E20/14 , Y02P80/15 , Y02T10/166
摘要： A cogeneration system includes a first cooling device disposed in a cooling water circulation path extending between an engine and a waste-heat heat exchanger, and a second cooling device disposed in a hot water circulation pipe extending between a hot water storage tank and a hot air heater. The first cooling device is activated to cool cooling water when the temperature of hot water stored in the hot water storage tank exceeds a first predetermined value, and the second cooling device is activated to cool the hot water when the temperature of hot air inside the hot air heater exceeds a second predetermined value.

3. 发明专利

JP2009103419A Cogeneration system 有权
标题翻译：加工系统
公开(公告)号：JP2009103419A
公开(公告)日：2009-05-14
申请号：JP2007278195
申请日：2007-10-25
申请人： Honda Motor Co Ltd , 本田技研工業株式会社
发明人： YURI NOBUYUKI , YAMAMOTO MASAHIRO
IPC分类号： F24H1/00 , F24D3/00 , F24D3/12 , F24H1/18
CPC分类号： F24D11/009 , F01P7/165 , F02G5/00 , F24D11/005 , F24D2200/26 , F24D2220/06 , F24D2220/08 , F24H2240/02 , Y02E20/14 , Y02P80/15 , Y02T10/166
摘要： PROBLEM TO BE SOLVED: To provide a cogeneration system capable of performing a continuous operation of an engine even if hot water supply is not demanded. SOLUTION: This cogeneration system 10 is provided with a first cooling means 71 and a second cooling means 72, and the first cooling means 71 is disposed in a cooling water circulation passage 21 formed between the engine 11 and an exhaust-heat heat exchanger 17. A first control portion 73 is disposed to start the first cooling means 71 when a temperature of hot water in a hot water storage tank exceeds a prescribed value. The second cooling means 72 is disposed in a hot water/water circulation pipe 32 disposed between the hot water storage tank 23 and a fan forced heater 33 for circulating the hot water/water. A second control portion 74 is disposed to start the second cooling means 72 when a temperature of warm air of the fan forced heater 33 exceeds a second prescribed value. COPYRIGHT: (C)2009,JPO&INPIT
摘要翻译：要解决的问题：提供一种即使不要求热水供应也能够进行发动机的连续运转的热电联产系统。解决方案：该热电联产系统10设置有第一冷却装置71和第二冷却装置72，第一冷却装置71设置在形成在发动机11和排热热量之间的冷却水循环通道21中第一控制部分73设置成当热水储水箱中的热水温度超过规定值时启动第一冷却装置71。第二冷却装置72设置在设置在热水储存箱23和用于使热水/水循环的风扇强制加热器33之间的热水/水循环管32中。当风扇强制加热器33的暖风的温度超过第二规定值时，第二控制部74设置成启动第二冷却装置72。版权所有（C）2009，JPO＆INPIT

4. 发明专利

JPS59195036A Temperature controller for greenhouse 失效
标题翻译：温室温控器
公开(公告)号：JPS59195036A
公开(公告)日：1984-11-06
申请号：JP7046783
申请日：1983-04-19
申请人： Kubota Ltd
发明人： NAKAMURA TATSUO , TERAJIMA TOSHIHIKO , ITOU HAJIME , ITAGI KAZUNOBU , OOYAMA TAKASHI
IPC分类号： A01G9/24 , F24D11/00 , F28D20/00
CPC分类号： F24D11/009
摘要： PURPOSE:To contrive effective heat accumulation and simplification of structure, by a method wherein a heat accumulation bodies are formed in a platelike state and these heat accumulation bodies are set up in a standing posture. CONSTITUTION:A heat accumulation case 4 which is obtained by arranging a plurality of heat accumulation bodies 3 incorporating a heat accumulation agent making use of latent heat in parallel with each other in a state forming ducts S for an air flow between the heat accumulation bodies 3 neibouring with each other. A case 7 for suction air for supply of air in the inside of a greenhouse to be sucked in through a suction port 5 to a case 4 is provided on the upper part of the case 4 and a case 9 for exhaust having an opening 8 discharging air from the case 4 so that the air is returned to the inside of the greenhouse is provided on the lower part of the case 4 further. The heat accumulation bodies 3 are formed in a platelike state and those heat accumulation bodies are set up in a standing posture. With this construction, heat accumulation can be done effectively and simplification of structure for the purpose can be contrived.
摘要翻译：目的：为了有效地积累热量并简化结构，通过一种方法，其中将蓄热体形成为板状状态，并将这些蓄热体以立式姿势设置。构成：通过在形成用于在蓄热体3之间的空气流的管道S的状态下并列使用并列使用潜热的蓄热剂的多个蓄热体3而获得的蓄热箱4 相互吵闹。在壳体4的上部设有用于将通过吸入口5吸入的温室内部的空气供给到壳体4的吸入空气的壳体7和具有开口8排出的排气用壳体9 进一步在壳体4的下部设置来自壳体4的空气，使得空气返回到温室内部。热积聚体3形成为板状状态，并且将这些蓄热体设定为立式姿势。通过这种结构，可以有效地进行热积累，从而可以简化结构。

5. 发明专利

JPS59180222A Heat storage type heating method of greenhouse 失效
标题翻译：热仓储热式加热方法
公开(公告)号：JPS59180222A
公开(公告)日：1984-10-13
申请号：JP5397483
申请日：1983-03-31
申请人： Kanagawaken , Mitsui Petrochem Ind Ltd , Nepon Kk
发明人： SASAKI KOUJI , SHIRAYANAGI RIYUUTAROU , KAMANAKA RIYUUSUKE
IPC分类号： A01G9/24 , F24D11/00 , F24H7/02 , F24H7/04 , F28D20/00
CPC分类号： F24D11/009
摘要： PURPOSE:To contrive to enhance the heat exchange efficiency by a method wherein latent heat type heat storage agent and liquid are used in combination. CONSTITUTION:Vessels 2, in which latent heat type heat storage agent are packed, are disposed in arrays on net-like shelves 3 and yet water is filled in a space part in a heat storage tank. The latent heat type heat storage agent consists of hydrate of inorganic salt or organic crystalline substance, the typical one of which is a simple substance of magnesium chloride hexahydrate, calcium chloride hexahydrate or the like or a mixture of more than one substance just mentioned above, is packed in polyethylene vessels 20 and used. The water, which is filled together with said latent heat type heat storage agent in the heat storage tank, is sent through an outflowing port at the lower part of the tank to a heat exchanger 6 by means of a pump 5. The water sent from the heat storage tank 1 is heat-exchanged with the air in a greenhouse at the heat exchanger 6 and then sent back to the heat storage tank. Because the air temperature in the greenhouse is higher than the temperature in the heat storage tank during the daytime, heat energy is accumulated in the heat storage tank, while, because the air temperature in the greenhouse is lower than the temperature in the heat storage tank during the nighttime, the heat energy accumulated in the heat storage tank is released, resulting in heating the greenhouse.
摘要翻译：目的：通过组合使用潜热型储热剂和液体的方法来提高热交换效率。构成：将堆积有潜热型蓄热剂的容器2排列在网状搁板3上，而将水填充在储热箱的空间部分中。潜热型蓄热剂由无机盐或有机结晶物质的水合物组成，其典型的一种是氯化镁六水合物的单一物质，氯化钙六水合物等或上述刚刚提及的多种物质的混合物，包装在聚乙烯容器20中并使用。与储热箱内的潜热式蓄热剂一起填充的水通过泵5通过罐下部的流出口送入热交换器6。蓄热箱1与热交换器6的温室内的空气进行热交换，然后送回蓄热箱。由于温室内的空气温度高于白天的储热箱内的温度，所以在储热箱内积聚热能，而由于温室内的空气温度低于蓄热槽内的温度在夜间，储存在蓄热箱内的热能被释放，从而对温室进行加热。

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