公开(公告)号：US20250076083A1

公开(公告)日：2025-03-06

申请号：US18948885

申请日：2024-11-15

Applicant: DENSO CORPORATION

Inventor： Yuki MATSUMOTO ,  Tsukasa KONO ,  Atsushi KOBAYASHI ,  Tetsuya OHMI ,  Michihiro MAKITA ,  Naoki WATANABE ,  Sukhwa JUNG

IPC: G01D5/14 ,  G01D5/16

Abstract: Magnets are arranged at intervals along a stroke direction with an interposed space. Magnetic pole surfaces of adjacent ones of the magnets have opposite poles. A detector is arranged with a gap in a gap direction against a magnetic pole surface of each of the magnets and acquires a sine signal and a cosine signal as detection signals of phases corresponding to the positions of the magnets, based on a change in a magnetic field received from the magnets according to movement of the detector relative to the detection object in the stroke direction. A signal processor acquires the sine signal and the cosine signal from the detector, generates, based on the sine signal and the cosine signal, an arctangent signal corresponding to a stroke amount of the detection object relative to the detector, and acquires the arctangent signal as a position signal.

公开(公告)号：US20150096307A1

公开(公告)日：2015-04-09

申请号：US14508240

申请日：2014-10-07

Applicant: DENSO CORPORATION

Inventor： Naoki WATANABE ,  Tsuyoshi MORIMOTO ,  Takuya FUSE

IPC: F25B21/00

CPC classification number: F25B21/00 ,  B60H1/00478 ,  F25B2321/0022 ,  Y02B30/66

Abstract: A magneto-caloric-effect element has a plurality of element units. The element units have lengths, respectively. The element units have different Curie temperatures, respectively. The element units demonstrate magneto-caloric effects. Two adjoining performance distribution crosses at a cross temperature. A temperature in the rated operational status between two adjoining element units is called a boundary temperature. The lengths and/or Curie temperatures are set so that the boundary temperatures and the cross temperatures coincide each other. Thereby, a plurality of element units can function at high effectiveness in the rated operational status.

Abstract translation: 磁热量效应元件具有多个元件单元。 元件单元分别具有长度。 元件单元分别具有不同的居里温度。 元件单元表现出磁热效应。 两个相邻的性能分布在交叉温度下交叉。 两个邻接单元之间的额定运行状态的温度称为边界温度。 设定长度和/或居里温度使得边界温度和交叉温度彼此重合。 因此，多个元件单元可以在额定操作状态下以高效率起作用。

公开(公告)号：US20170059215A1

公开(公告)日：2017-03-02

申请号：US15251018

申请日：2016-08-30

Applicant: DENSO CORPORATION

Inventor： Naoki WATANABE ,  Shigeo NOMURA ,  Akito TORII ,  Tsuyoshi MORIMOTO ,  Takayuki SUGIURA ,  Tomoyuki NOMURA ,  Yasunori NIIYAMA

IPC: F25B21/00 ,  F25B49/00 ,  F25B30/00

CPC classification number: F25B21/00 ,  F25B2321/0021 ,  Y02B30/66

Abstract: A controller is configured to, based on a characteristic information of thermal output with respect to a temperature difference between a hot end and a cold end of a working chamber, changes at least one of a flow rate of a heating target fluid in a high temperature heat exchanger and a flow rate of a cooling target fluid in a low temperature heat exchanger. At least one of the flow rate of the heating target fluid in the high temperature heat exchanger and the flow rate of the cooling target fluid in the low temperature heat exchanger is adjusted such that the temperature difference between the hot and cold ends changes in a direction that increases thermal output.

Abstract translation: 控制器被配置为基于关于工作室的热端和冷端之间的温度差的热输出的特性信息，改变加热目标流体在高温下的流量中的至少一个 热交换器和冷却目标流体在低温热交换器中的流量。 调节高温热交换器中的加热对象流体的流量和低温热交换器中的冷却对象流体的流量中的至少一个，使得热端和冷端之间的温度差在方向 这增加了热输出。

公开(公告)号：US20160370037A1

公开(公告)日：2016-12-22

申请号：US15253975

申请日：2016-09-01

Applicant: DENSO CORPORATION

Inventor： Tsuyoshi MORIMOTO ,  Naoki WATANABE ,  Shinichi YATSUZUKA ,  Katzutoshi NISHIZAWA

IPC: F25B21/00 ,  B60H1/03 ,  B60H1/00 ,  B60H1/32

CPC classification number: F25B21/00 ,  B60H1/00864 ,  B60H1/00885 ,  B60H1/03 ,  B60H1/32 ,  F25B2321/002 ,  F25B2321/0022 ,  Y02B30/66

Abstract: A magnetic refrigeration system constructed in such a way that a refrigerant transfer part transfers refrigerant from a first refrigerant discharge part of one refrigerant port to a first refrigerant circulation circuit after a magnetic field is applied to a magnetic working material by a magnetic field applying and removing part and that the refrigerant transfer part transfers refrigerant from a second refrigerant discharge part of other refrigerant port to a second refrigerant circulation circuit after the magnetic field is removed from the magnetic working material by the magnetic field applying and removing part.

Abstract translation: 一种磁性制冷系统，其特征在于，在将磁场施加到磁性加工材料之后，制冷剂传递部件将制冷剂从一个制冷剂端口的第一制冷剂排出部分传递到第一制冷剂循环回路， 并且在通过磁场施加和去除部分从磁性工作材料除去磁场之后，制冷剂传递部分将制冷剂从另一制冷剂端口的第二制冷剂排放部分传递到第二制冷剂循环回路。

公开(公告)号：US20150184902A1

公开(公告)日：2015-07-02

申请号：US14579177

申请日：2014-12-22

Applicant: DENSO CORPORATION

Inventor： Akito TORII ,  Naoki WATANABE

IPC: F25B21/00

CPC classification number: F25B21/00 ,  F25B2321/0023 ,  Y02B30/66

Abstract: A thermo-magnetism cycle apparatus has a first magneto-caloric element (MCE) element on a low temperature side and a second MCE element on a high temperature side. A first heat transfer medium flows in the first MCE element and a second heat transfer medium flows in the second MCE element. A third MCE element has a first flow passage that flows the first heat transfer medium and a second flow passage that flows the second heat transfer medium. The third MCE element absorbs heat from the first heat transfer medium utilizing a magneto-caloric process and dissipates the absorbed heat partially to the second heat transfer medium. As such, the third MCE element actively transfers heat between the two heat transfer media via the magneto-caloric process. The third MCE element also passively transfers heat between the two heat transfer media.

Abstract translation: 热磁循环装置在低温侧具有第一磁热量元件（MCE）元件，在高温侧具有第二MCE元件。 第一传热介质在第一MCE元件中流动，第二传热介质在第二MCE元件中流动。 第三MCE元件具有流过第一传热介质的第一流动通道和流过第二传热介质的第二流动通道。 第三MCE元件利用磁热量过程从第一传热介质吸收热量，并将吸收的热量部分地散发到第二传热介质。 因此，第三MCE元件通过磁热量过程在两个传热介质之间主动地传递热量。 第三MCE元件也被动地在两个传热介质之间传递热量。

公开(公告)号：US20180290114A1

公开(公告)日：2018-10-11

申请号：US15928653

申请日：2018-03-22

Applicant: DENSO CORPORATION

Inventor： Takayuki SUGIURA ,  Jun OSAKA ,  Naoki WATANABE

IPC: B01F5/04 ,  H01M8/04082 ,  B01F3/02 ,  B01F3/04 ,  F25B41/00

CPC classification number: B01F5/043 ,  B01F3/02 ,  B01F3/04503 ,  B01F5/0653 ,  B01F2005/0438 ,  B01F2215/0098 ,  B01F2215/0431 ,  F25B41/00 ,  F25B2341/0012 ,  H01M8/04201

Abstract: An ejector has an interior nozzle, an exterior nozzle, a suction part, a mixing part and a diffuser part. The interior nozzle and the exterior nozzle are arranged coaxially with each other. A driving fluid is supplied to the interior nozzle and/or the exterior nozzle. The suction part is arranged on an outer periphery of the exterior nozzle and sucks a suction fluid by a driving fluid jet ejected from the interior nozzle and/or the exterior nozzle. A mixing part mixes the driving fluid jet with the suction fluid, and supplies a mixture fluid. The diffuser part reduces a flow speed of the mixture fluid and ejects the mixture fluid outside. An outlet part of the interior nozzle is arranged at an upstream side of the ejector more than an outlet part of the exterior nozzle along the axial direction of the ejector.