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    • 62. 发明专利
    • 冷蔵庫
    • 冰箱
    • JP2015034673A
    • 2015-02-19
    • JP2013166060
    • 2013-08-09
    • 三菱電機株式会社Mitsubishi Electric Corp
    • ETO HIROSHINAKATSU TETSUSHITASHIRO TAKESUKE
    • F25B1/00F25B6/04F25D11/00F25D21/04
    • F25B41/062F25B2600/0251F25B2700/2106F25D29/00F25D2700/14
    • 【課題】安価で簡単な構成により結露の発生を防止しながら消費電力を抑制した運転を行う冷蔵庫を提供する。【解決手段】冷蔵庫の制御装置10は、外気温度TA毎に異なる減圧装置24の流動抵抗Rfが関連付けして記憶されている設定テーブル10Aと、外気温度センサ9aにより検出された外気温度TAに基づいて設定テーブル10Aから流動抵抗Rfを選択する運転条件設定手段10Bと、運転条件設定手段10Bにおいて選択された流動抵抗Rfでの運転時間tを設定し、流動抵抗Rf及び運転時間tによる節電運転が行われるように冷凍サイクルを制御する冷凍サイクル制御手段10Cとを有する。【選択図】図4
    • 要解决的问题:提供一种操作以便以便宜且简单的结构来防止产生结露的电力消耗的冰箱。解决方案:冰箱的控制单元10包括:具有流体阻力的安装台10A 减压装置24的每个与彼此相关联地存储的每个外部空气温度TA不同; 驱动状态设定单元10B,用于根据由外部空气温度传感器9a检测到的外部空气温度TA,从设定台10A选择流体流动阻力Rf; 以及制冷循环控制装置10C,用于通过设定由驱动条件设定装置10B选择的流体阻力Rf的驱动时间t来控制制冷循环,以便以设定的流体流动阻力Rf进行省电运行 开车时间t
    • 64. 发明专利
    • Container refrigeration device
    • 集装箱制冷装置
    • JP2014122780A
    • 2014-07-03
    • JP2013242020
    • 2013-11-22
    • Daikin Ind Ltdダイキン工業株式会社
    • SATO KIICHIROUENO AKITOSHI
    • F25D11/00F24F11/02
    • F25B13/00F25B49/02F25B2400/13F25D11/003F25D17/042F25D29/003F25D2317/04111F25D2400/02F25D2700/14G05D23/1931
    • PROBLEM TO BE SOLVED: To prevent low temperature failure in goods loaded on a container.SOLUTION: A blow temperature sensor (34) detects a temperature of blown air passing through an evaporator (25) and a heater (17) in order and blown out into a container (C). A temperature control unit (101) controls a cooling unit (18) so that the detected temperature (Tss) of the blown air detected by the blow temperature sensor (34) is equal to a target temperature (Tx) in a cooling operation or a dehumidification operation. A target control unit (201) controls the target temperature (Tx) so that the target temperature (Tx) is set to a first set temperature equal to a container set temperature (Tsp) in the cooling operation, and so that the target temperature (Tx) is set to a second set temperature obtained by adding a target addition temperature to the container set temperature (Tsp) in a case of switching the cooling operation to the dehumidification operation.
    • 要解决的问题:防止装载在容器上的货物的低温故障。解决方案:吹风温度传感器(34)检测经过蒸发器(25)和加热器(17)的吹入空气的温度,并排出 进入容器(C)。 温度控制单元(101)控制冷却单元(18),以使由吹风温度传感器(34)检测到的吹扫空气的检测温度(Tss)等于制冷运转中的目标温度(Tx) 除湿运行。 目标控制单元(201)控制目标温度(Tx),使得目标温度(Tx)被设定为与制冷运转中的容器设定温度(Tsp)相等的第一设定温度,并且使目标温度 Tx)设定为在将冷却操作切换到除湿操作的情况下通过将目标添加温度加到容器设定温度(Tsp)而获得的第二设定温度。
    • 65. 发明专利
    • refrigerator
    • 冰箱
    • JP2013234845A
    • 2013-11-21
    • JP2013154244
    • 2013-07-25
    • Panasonic Corpパナソニック株式会社
    • NAKAGAWA MASASHIKAMISAKO TOYOSHIMORI KIYOSHIKAKITA KENICHI
    • F25D11/00
    • F25D29/00F25D21/006F25D2400/28F25D2500/04F25D2700/02F25D2700/06F25D2700/12F25D2700/14
    • PROBLEM TO BE SOLVED: To provide a refrigerator that is improved in freshness preservation performance and is easy to use while being improved in energy saving performance.SOLUTION: A refrigerator includes: a storage amount estimation unit 23 for estimating a storage amount in a storage compartment; a memory unit 64 for storing estimation results of the storage amount estimation unit 23; a storage amount change prediction unit for predicting the change of the storage amount in the storage compartment in future from the data of the memory unit 64; and a calculation control unit 22 for controlling an output operation of electrical function components, based on the storage amount change prediction data in the future of the storage amount change prediction unit. By using the estimation results of the previous storage amount stored in the memory unit 64 as reference data, a storage change amount is calculated based on the reference data and the estimation results of the storage amount estimation unit. Accordingly, it becomes possible to predict the change of the storage amount in the storage compartment in the future and properly copes therewith, thereby providing the refrigerator that is improved in freshness preservation performance and is easy to use while being improved in energy saving performance.
    • 要解决的问题:提供一种提高保鲜性能并且易于使用同时提高节能性能的冰箱。解决方案:一种冰箱,包括:储存量估计单元23,用于估计储藏室中的储存量 ; 存储单元64,用于存储存储量估计单元23的估计结果; 存储量改变预测单元,用于从存储单元64的数据预测将来存储室中的存储量的变化; 以及计算控制单元22,用于基于存储量改变预测单元的将来的存储量改变预测数据来控制电功能分量的输出操作。 通过使用存储在存储器单元64中的先前存储量的估计结果作为参考数据,基于参考数据和存储量估计单元的估计结果来计算存储改变量。 因此,能够预测未来的储藏室中的储存量的变化,并且适当地处理,从而提供了提高保鲜性能的冰箱,并且在节能性能的提高的同时易于使用。
    • 67. 发明专利
    • Cold storage
    • 冷藏
    • JP2011137593A
    • 2011-07-14
    • JP2009297749
    • 2009-12-28
    • Sanyo Electric Co Ltd三洋電機株式会社
    • HAGIWARA ATSUSHITSURUMA RYUICHITAMAOKI YUICHI
    • F25D11/00
    • F25D31/005F25D2700/02F25D2700/10F25D2700/12F25D2700/14
    • PROBLEM TO BE SOLVED: To improve energy saving performance while keeping a temperature in a heat insulating housing of a cold storage constant. SOLUTION: This cold storage in which a temperature is controlled to keep an inside temperature at a set temperature by supplying cold air into the storage when the inside temperature is higher than the set temperature, and supplying warm air into the storage when the inside temperature is lower than the set temperature, so that the temperature in the storage receiving a cooled object is kept at the predetermined set temperature, is provided with a control device having an ambient temperature sensor for detecting an ambient temperature of the cold storage, and adjusting a supply amount of the warm air into the storage after the supply of cold air into the storage is stopped, on the basis of a temperature detected by the ambient temperature sensor. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:为了提高节能性能,同时保持冷藏的绝热壳体中的温度恒定。 解决方案:当内部温度高于设定温度时,通过将冷空气供应到储存器中,通过控制温度将内部温度保持在设定温度的这种冷藏,并且当 内部温度低于设定温度,使得接收冷却物体的存储器中的温度保持在预定设定温度,设置有具有用于检测冷藏库的环境温度的环境温度传感器的控制装置,以及 基于由环境温度传感器检测到的温度,将冷空气供应到储存器中之后将暖空气的供应量调节到储存器中。 版权所有(C)2011,JPO&INPIT
    • 68. 发明专利
    • Centralized monitoring apparatus
    • 集中监控装置
    • JP2010190521A
    • 2010-09-02
    • JP2009036937
    • 2009-02-19
    • Sanyo Electric Co Ltd三洋電機株式会社
    • SONODA TAIRYOTANAKA MASANAGANONO IKUENAKAMURA SHIGEYUKI
    • F25D13/00F25D23/00
    • F25D29/00F25B27/00F25B2700/21175F25D2400/361F25D2600/02F25D2700/12F25D2700/14G01K2207/04
    • PROBLEM TO BE SOLVED: To provide a centralized monitoring apparatus reducing power consumption. SOLUTION: This centralized monitoring apparatus for centrally monitoring a monitored device such as a storage device having a temperature-variable device to cool or heat inside a storage so that a temperature in the storage reaches a set temperature to store a stored object, includes an input device to be input with first information indicating a second time zone when the temperature-variable device performs a power-saving operation in comparison with an operation in a first time zone, and second information indicating a set temperature of the second time zone, a storage device to store the first information and the second information, a timing device to measure a current time, and a control device to control the temperature-variable device on the basis of the first information and the second information stored in the storage device, and the current time measured by the timing device, to start an operation of turning the temperature in the storage to the set temperature of the second time zone by the temperature-variable device, when the current time reaches a starting time of the second time zone, and terminate the operation of turning the temperature in the storage to the set temperature of the second time zone by the temperature-variable device, when the current time reaches an ending time of the second time zone. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供降低功耗的集中式监视装置。 解决方案:该集中监控装置用于集中监测诸如具有温度可变装置的存储装置的被监视装置,以在存储器内冷却或加热,使得存储器中的温度达到设定温度以存储所存储的对象, 包括要输入的输入装置,当与所述第一时区的操作相比,所述温度可变装置执行省电动作时,指示第二时区的第一信息,以及指示所述第二时区的设定温度的第二信息 ,用于存储第一信息和第二信息的存储装置,用于测量当前时间的定时装置,以及基于存储在存储装置中的第一信息和第二信息来控制温度可变装置的控制装置 ,以及由定时装置测量的当前时间,开始将存储器中的温度转到第二次的设定温度的操作 d时间段,当当前时间到达第二时间段的开始时间时,通过温度可变设备终止将存储器中的温度转到第二时间段的设定温度的操作 当当前时间到达第二时区的结束时间时。 版权所有(C)2010,JPO&INPIT
    • 70. 发明专利
    • Equipment control system, control device, and control program
    • 设备控制系统,控制设备和控制程序
    • JP2009210161A
    • 2009-09-17
    • JP2008051079
    • 2008-02-29
    • Sanyo Electric Co Ltd三洋電機株式会社
    • OUCHI ATSUSHIOZAWA YOSHIO
    • F25D21/06F25B47/02F25D21/08
    • F25D21/002F25B5/02F25D2700/14
    • PROBLEM TO BE SOLVED: To appropriately change a start time of a present-round defrosting operation even when an environmental condition in the last-round defrosting operation and an environmental condition of the present-round defrosting operation is largely different from each other.
      SOLUTION: An integrated controller 10, controls a defrosting operation to remove frost attached to showcases 53, 54, 55, etc. cooled inside, in which the defrosting operation is started at a prescribed time interval, and stores past record data based on required time for past defrosting operations for different environmental conditions. The integrated controller 10 includes: an environmental condition acquisition unit 141 for obtaining present environmental conditions; a database control unit 142 for obtaining required time for a present-round defrosting operation based on the past record data corresponding to the present environmental conditions from among the stored past record data in the present-round defrosting operation start or before the start; and a start time changing unit 143 for changing the start time of the present-round defrosting operation, based on the obtained required time from the scheduled start time according to a prescribed time interval.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:即使当最后一轮除霜操作中的环境条件和当前循环除霜操作的环境条件彼此大不相同时,也适当地改变当前循环除霜操作的开始时间 。 解决方案:集成控制器10控制除霜操作,除去附着在内部冷却的陈列柜53,54,55等的霜,其中除霜操作以规定的时间间隔开始,并且存储过去的记录数据 在不同环境条件下过去除霜操作所需的时间。 集成控制器10包括:环境条件获取单元141,用于获得当前环境条件; 数据库控制单元142,用于根据当前环境条件对应的过去记录数据,从当前循环除霜操作开始或开始之前的存储的过去记录数据中获得当前循环除霜操作所需的时间; 以及开始时刻变更部143,根据规定的时间间隔,根据所计划的开始时刻,根据取得的所需时间来变更当前轮廓除霜运转的开始时刻。 版权所有(C)2009,JPO&INPIT