公开(公告)号：US07928823B2

公开(公告)日：2011-04-19

申请号：US10531522

申请日：2004-11-18

申请人： Tsuyoshi Tatsukawa ,  Keisuke Takayama

发明人： Tsuyoshi Tatsukawa ,  Keisuke Takayama

IPC分类号： H01F5/00 ,  H01F27/29 ,  H01F27/28 ,  H01F7/06

CPC分类号： H01F41/042 ,  H01F17/0013 ,  H01F27/292 ,  H01F41/0233 ,  H01F41/043 ,  H01F41/34 ,  H01F2017/0093 ,  H05K3/246 ,  Y10T29/4902 ,  Y10T29/49075 ,  Y10T29/49078

摘要： A laminated ceramic electronic component includes a plurality of conductor pattern layers for a coil arranged to overlap each other to form substantially U-shaped conductors for the coil. The conductors for the coil are electrically connected in series through via holes for inner layer connection provided in ceramic green sheets to form a spiral coil. A plurality of leading conductor pattern layers also overlaps each other to form leading conductors. One leading conductor pattern layer is disposed per a predetermined number of conductor pattern layers for the coil. An end of each leading conductor pattern layer is in contact with the corresponding conductor pattern layer for the coil. In other words, the thickness of the lead conductors is less than the thickness of the conductors for the coil.

摘要翻译： 层叠陶瓷电子部件包括用于线圈的多个导体图案层，其布置成彼此重叠以形成用于线圈的基本上U形的导体。 用于线圈的导体通过陶瓷生片中提供的用于内层连接的通孔串联电连接以形成螺旋线圈。 多个引导导体图案层也彼此重叠以形成引导导体。 每个预定数量的线圈的导体图案层布置一个引导导体图案层。 每个引导导体图案层的一端与用于线圈的对应的导体图形层接触。 换句话说，引线导体的厚度小于线圈导体的厚度。

公开(公告)号：US08898886B2

公开(公告)日：2014-12-02

申请号：US13005555

申请日：2011-01-13

申请人： Tsuyoshi Tatsukawa ,  Keisuke Takayama

发明人： Tsuyoshi Tatsukawa ,  Keisuke Takayama

IPC分类号： H01F41/04 ,  H01F41/12 ,  H01F41/02 ,  H01F27/29 ,  H05K3/24 ,  H01F17/00 ,  H01F41/34

CPC分类号： H01F41/042 ,  H01F17/0013 ,  H01F27/292 ,  H01F41/0233 ,  H01F41/043 ,  H01F41/34 ,  H01F2017/0093 ,  H05K3/246 ,  Y10T29/4902 ,  Y10T29/49075 ,  Y10T29/49078

摘要： A method for producing a laminated ceramic electronic component includes the steps of preparing ceramic green sheets, transferring an inner conductor pattern layer and a lead conductor pattern layer formed on a support on the ceramic green sheets to form the inner conductor and the lead conductor on the ceramic green sheets, laminating the ceramic green sheets to cover the inner conductor and the lead conductor, and firing the ceramic laminated product. In the step of forming the inner conductor and the lead conductor, the inner conductor pattern layer is transferred onto the ceramic green sheet a plurality of times so as to overlap each other, thereby forming the inner conductor, and the lead conductor pattern layer is transferred onto the ceramic green sheet, wherein the number of times of the transferring is less than the number of times of the transferring of the inner conductor pattern layer.

摘要翻译： 层叠陶瓷电子部件的制造方法包括以下步骤：制备陶瓷生片，转移形成在陶瓷生片上的支撑体上的内导体图案层和引线图案层，以形成内导体和引线导体 陶瓷生片，层叠陶瓷生片以覆盖内导体和引线导体，并烧制陶瓷层压产品。 在形成内导体和引线导体的步骤中，内导体图案层被多次转印到陶瓷生片上，从而形成内导体，并且引出导体图案层被转印 在陶瓷生片上，其中转印次数小于内导体图案层的转印次数。

公开(公告)号：US20090278649A1

公开(公告)日：2009-11-12

申请号：US10531522

申请日：2004-11-18

申请人： Tsuyoshi Tatsukawa ,  Keisuke Takayama

发明人： Tsuyoshi Tatsukawa ,  Keisuke Takayama

IPC分类号： H01F5/00 ,  B32B37/00

CPC分类号： H01F41/042 ,  H01F17/0013 ,  H01F27/292 ,  H01F41/0233 ,  H01F41/043 ,  H01F41/34 ,  H01F2017/0093 ,  H05K3/246 ,  Y10T29/4902 ,  Y10T29/49075 ,  Y10T29/49078

摘要： A laminated ceramic electronic component includes a plurality of conductor pattern layers for a coil arranged to overlap each other to form substantially U-shaped conductors for the coil. The conductors for the coil are electrically connected in series through via holes for inner layer connection provided in ceramic green sheets to form a spiral coil. A plurality of lead conductor pattern layers also overlaps each other to form lead conductors. One lead conductor pattern layer is disposed per a predetermined number of conductor pattern layers for the coil. An end of each lead conductor pattern layer is in contact with the corresponding conductor pattern layer for the coil. In other words, the thickness of the lead conductors is less than the thickness of the conductors for the coil.

摘要翻译： 层叠陶瓷电子部件包括用于线圈的多个导体图案层，其布置成彼此重叠以形成用于线圈的基本上U形的导体。 用于线圈的导体通过陶瓷生片中提供的用于内层连接的通孔串联电连接以形成螺旋线圈。 多个引线图案层也彼此重叠以形成引线导体。 每个预定数量的用于线圈的导体图案层布置一个引线图案层。 每个引线导体图案层的一端与用于线圈的对应的导体图形层接触。 换句话说，引线导体的厚度小于线圈导体的厚度。

公开(公告)号：US09322562B2

公开(公告)日：2016-04-26

申请号：US13256982

申请日：2009-04-01

申请人： Keisuke Takayama ,  Koji Yamashita ,  Hiroyuki Morimoto ,  Yusuke Shimazu

发明人： Keisuke Takayama ,  Koji Yamashita ,  Hiroyuki Morimoto ,  Yusuke Shimazu

IPC分类号： F25B13/00 ,  F25B41/04 ,  F25B5/02 ,  F24F3/153 ,  F24F3/06 ,  F25B25/00

CPC分类号： F24F3/065 ,  F25B13/00 ,  F25B25/005 ,  F25B2313/0231 ,  F25B2313/0272 ,  F25B2313/02741 ,  F25B2339/047 ,  F25B2600/2515

摘要： Use side heat exchangers, an intermediate heat exchanger that heats a heat medium flowing to the use side heat exchangers, an intermediate heat exchanger that cools the heat medium flowing to the use side heat exchangers, three-way valves that switch between a flow path connecting the intermediate heat exchanger to the use side heat exchangers and a flow path connecting the intermediate heat exchanger to the use side heat exchangers, and three-way valves and bypasses that control the flow rate of the heat medium flowing into the use side heat exchangers are included. When at least one of the use side heat exchangers is switched from a stop state to an operation state or switched to another operation mode, the flow rate of the heat medium flowing into this use side heat exchanger is suppressed, and a change in air output temperature in the use side heat exchangers other than this use side heat exchanger is suppressed.

摘要翻译： 使用侧热交换器，加热流向使用侧热交换器的热介质的中间热交换器，冷却流向利用侧热交换器的热介质的中间热交换器，在通过流路连接的流路之间切换的三通阀 使用侧热交换器的中间热交换器和将中间热交换器与利用侧热交换器连接的流路，以及控制流入利用侧热交换器的热介质的流量的三通阀和旁路， 包括。 当使用侧热交换器中的至少一个从停止状态切换到操作状态或切换到另一操作模式时，流入该使用侧热交换器的热介质的流量被抑制，并且空气输出的变化 使用侧热交换器以外的使用侧热交换器的温度被抑制。

公开(公告)号：US09163864B2

公开(公告)日：2015-10-20

申请号：US13635152

申请日：2010-03-29

申请人： Yusuke Shimazu ,  Keisuke Takayama ,  Takeshi Hatomura

发明人： Yusuke Shimazu ,  Keisuke Takayama ,  Takeshi Hatomura

IPC分类号： F25B9/00 ,  F25B31/00

CPC分类号： F25B31/004 ,  F25B9/008 ,  F25B2309/061 ,  F25B2500/16 ,  F25B2600/0253 ,  F25B2600/2513 ,  F25B2600/2519 ,  Y02B30/741

摘要： In an air-conditioning apparatus that uses a refrigerant, which operates in a transcritical cycle, and refrigerating machine oil, which has low miscibility with the refrigerant, in a refrigerant circuit for a refrigeration cycle connected to a compressor, a radiator, an expansion mechanism, and an evaporator, the air-conditioning apparatus includes a flow regulating mechanism provided in the refrigerant circuit, and controller that controls the flow regulating mechanism. If a refrigerant flow velocity at an outlet side of the radiator is lower than a predetermined threshold value, the refrigerant flow velocity at the outlet side of the radiator is increased by the controller so that oil-return operation that returns the refrigerating machine oil discharged from the compressor to the compressor is performed for at least a predetermined time period.

摘要翻译： 在与压缩机连接的制冷循环的制冷剂回路中使用在跨临界循环中使用制冷剂的空气调节装置和与制冷剂混合性低的制冷机油，散热器，膨胀机构 和蒸发器，所述空气调节装置包括设置在所述制冷剂回路中的流量调节机构，以及控制所述流量调节机构的控制器。 如果散热器出口侧的制冷剂流速低于预定阈值，则通过控制器增加散热器出口侧的制冷剂流速，从而使冷冻机油返回的回油操作从 到压缩机的压缩机进行至少预定的时间段。

公开(公告)号：US20130000340A1

公开(公告)日：2013-01-03

申请号：US13634562

申请日：2010-04-27

申请人： Keisuke Takayama ,  Yusuke Shimazu ,  Takeshi Hatomura

发明人： Keisuke Takayama ,  Yusuke Shimazu ,  Takeshi Hatomura

IPC分类号： F25B49/02 ,  F25B41/04

CPC分类号： F25B9/008 ,  F25B1/10 ,  F25B49/027 ,  F25B2309/061 ,  F25B2400/0409 ,  F25B2400/13 ,  F25B2500/07 ,  F25B2500/08 ,  F25B2600/17 ,  F25B2600/2509 ,  F25B2700/1931 ,  F25B2700/1933 ,  F25B2700/195 ,  F25B2700/21151 ,  F25B2700/21152

摘要： A refrigeration cycle apparatus increases the cooling capacity even under overload conditions in a refrigeration cycle apparatus that uses a refrigerant which undergoes transition to a supercritical state and in which the high-pressure side enters a supercritical state.A refrigeration cycle apparatus adjusts a high-pressure-side pressure of a refrigerant flowing through a main refrigerant circuit by causing a controller to control an opening degree of a second expansion valve and a heat transfer area of a radiator.

摘要翻译： 即使在使用过渡到超临界状态并且高压侧进入超临界状态的制冷剂的制冷循环装置中，即使在过载条件下，制冷循环装置也能提高制冷量。 制冷循环装置通过使控制器控制第二膨胀阀的开度和散热器的传热面积来调节流经主制冷剂回路的制冷剂的高压侧压力。

公开(公告)号：US20130000339A1

公开(公告)日：2013-01-03

申请号：US13635152

申请日：2010-03-29

申请人： Yusuke Shimazu ,  Keisuke Takayama ,  Takeshi Hatomura

发明人： Yusuke Shimazu ,  Keisuke Takayama ,  Takeshi Hatomura

IPC分类号： F25B49/02 ,  F25B41/00

CPC分类号： F25B31/004 ,  F25B9/008 ,  F25B2309/061 ,  F25B2500/16 ,  F25B2600/0253 ,  F25B2600/2513 ,  F25B2600/2519 ,  Y02B30/741

摘要： In an air-conditioning apparatus that uses a refrigerant, which operates in a transcritical cycle, and refrigerating machine oil, which has low miscibility with the refrigerant, in a refrigerant circuit for a refrigeration cycle connected to a compressor, a radiator, an expansion mechanism, and an evaporator, the air-conditioning apparatus includes a flow regulating mechanism provided in the refrigerant circuit, and flow control means that controls the flow regulating mechanism. If a refrigerant flow velocity at an outlet side of the radiator is lower than a predetermined threshold value, the refrigerant flow velocity at the outlet side of the radiator is increased by the flow control means so that oil-return operation that returns the refrigerating machine oil discharged from the compressor to the compressor is performed for at least a predetermined time period.

摘要翻译： 在与压缩机连接的制冷循环的制冷剂回路中使用在跨临界循环中使用制冷剂的空气调节装置和与制冷剂混合性低的制冷机油，散热器，膨胀机构 和蒸发器，所述空气调节装置包括设置在所述制冷剂回路中的流量调节机构，以及控制所述流量调节机构的流量控制单元。 如果散热器出口侧的制冷剂流速低于预定阈值，则通过流量控制装置增加散热器出口侧的制冷剂流速，从而使返回冷冻机油的回油运转 从压缩机排出到压缩机至少进行规定的时间。

公开(公告)号：US20120174610A1

公开(公告)日：2012-07-12

申请号：US13394970

申请日：2009-09-24

申请人： Keisuke Takayama ,  Yusuke Shimazu ,  Masayuki Kakuda ,  Hideaki Nagata ,  Takeshi Hatomura

发明人： Keisuke Takayama ,  Yusuke Shimazu ,  Masayuki Kakuda ,  Hideaki Nagata ,  Takeshi Hatomura

IPC分类号： F25B49/00

CPC分类号： F25B1/10 ,  F25B11/02 ,  F25B13/00 ,  F25B43/006 ,  F25B2309/061 ,  F25B2313/02742 ,  F25B2400/0409 ,  F25B2400/14 ,  F25B2400/16 ,  F25B2500/26 ,  F25B2600/2501 ,  F25B2700/19 ,  F25B2700/191

摘要： A refrigeration cycle apparatus includes a refrigeration cycle formed by a first compressor, a radiator, an expander that expands a refrigerant that has passed through the radiator, and an evaporator. A bypass piping has one end connected to a discharge piping of the expander and the other end connected to a suction piping of the first compressor. A pressure sensor and a temperature sensor detect the suction pressure and suction temperature of the expander as physical quantities of the refrigerant to be sucked into the expander. A bypass valve controls the flow rate of the refrigerant. A control device determines the appropriate discharge pressure of the expander on the basis of the suction pressure and suction temperature of the expander, and opens the bypass valve when the pressure at which the expander discharges the refrigerant is higher than the determined appropriate discharge pressure.

摘要翻译： 制冷循环装置包括由第一压缩机，散热器，膨胀已经通过散热器的制冷剂的膨胀机和蒸发器形成的制冷循环。 旁通管道的一端连接到膨胀机的排放管道，另一端连接到第一压缩机的吸入管道。 压力传感器和温度传感器检测膨胀机的吸入压力和吸入温度作为要吸入膨胀机的制冷剂的物理量。 旁通阀控制制冷剂的流量。 控制装置基于膨胀机的吸入压力和吸入温度来确定膨胀机的适当排出压力，并且当膨胀机排出制冷剂的压力高于确定的适当排出压力时，打开旁通阀。

公开(公告)号：US20110138835A1

公开(公告)日：2011-06-16

申请号：US13059331

申请日：2009-03-13

申请人： Keisuke Takayama ,  Yusuke Shimazu

发明人： Keisuke Takayama ,  Yusuke Shimazu

IPC分类号： F28D5/00

CPC分类号： F25B9/06 ,  F24F1/42 ,  F24F13/222 ,  F24F2013/225 ,  F25B1/10 ,  F25B9/008 ,  F25B13/00 ,  F25B2309/061 ,  F25B2313/02741 ,  F25B2339/041 ,  F25B2400/04 ,  F25B2400/072 ,  F25B2400/14

摘要： To provide a refrigerating cycle apparatus capable of improving cooling ability by water spray to perform an efficient operation while suppressing decrease in collected power by an expander. The refrigerating cycle apparatus includes: a first compressor that compresses the refrigerant; an expander that decompresses and expands the refrigerant to collect power for expansion; a second compressor that is driven by the power collected by the expander to further compresses the refrigerant compressed by the first compressor to transmit it to a main radiator; a heat exchanger having an intercooler that cools the refrigerant compressed by the first compressor and a main radiator that cools the refrigerant compressed by the second heat exchanger to transmit it to the expander; indoor heat exchangers that heat the refrigerant decompressed by the expander; and a water spray apparatus that sprays water onto the outer surface of the intercooler and the main radiator. The water spray apparatus sprays water such that the water spray amount per heat transfer area of the intercooler becomes larger than that of the main radiator.

摘要翻译： 提供一种能够通过喷水来提高冷却能力的制冷循环装置，以在抑制膨胀机的收集功率的降低的同时进行有效的操作。 制冷循环装置包括：压缩制冷剂的第一压缩机; 膨胀机，用于减压和膨胀制冷剂以收集动力用于膨胀; 由所述膨胀机收集的动力驱动的第二压缩机，进一步压缩由所述第一压缩机压缩的制冷剂，将其传送到主散热器; 具有冷却由第一压缩机压缩的制冷剂的中间冷却器的热交换器和冷却由第二热交换器压缩的制冷剂以将其传递到膨胀机的主散热器; 室内热交换器，其加热由膨胀机减压的制冷剂; 以及将水喷射到中间冷却器和主散热器的外表面上的喷水装置。 喷水装置喷射水，使得中间冷却器的每个传热面积的喷水量变得比主散热器的喷水量大。

公开(公告)号：US09791194B2

公开(公告)日：2017-10-17

申请号：US14358323

申请日：2011-11-18

申请人： Keisuke Takayama ,  Koji Azuma ,  Yuji Motomura ,  Takeshi Hatomura

发明人： Keisuke Takayama ,  Koji Azuma ,  Yuji Motomura ,  Takeshi Hatomura

IPC分类号： F25B49/00 ,  F25B13/00 ,  F25B25/00 ,  F25B49/02

CPC分类号： F25B49/00 ,  F25B13/00 ,  F25B25/005 ,  F25B49/02 ,  F25B2313/0231 ,  F25B2313/0234 ,  F25B2313/0272 ,  F25B2313/02741 ,  F25B2313/0312 ,  F25B2313/0314 ,  F25B2600/13 ,  F25B2600/2513 ,  Y02B30/745

摘要： An air-conditioning apparatus is capable of completing heat medium freeze prevention control more quickly by performing heat medium temperature rise control for raising the temperature of a cooled heat medium and includes a controller that adjusts a current opening degree of a bypass device at a bypass pipe to an opening degree, and that makes an adjustment such that the flow passage resistance in the case of the opening degree becomes equal to the flow passage resistance in the case of an opening degree before an expansion device is adjusted to a minimum opening degree.