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31. 发明专利

JP2013204984A Magnetic refrigerating device with rotation type permanent magnet 有权
标题翻译：具有旋转型永久磁铁的磁性制冷装置
公开(公告)号：JP2013204984A
公开(公告)日：2013-10-07
申请号：JP2012077420
申请日：2012-03-29
申请人： Railway Technical Research Institute , 公益財団法人鉄道総合技術研究所
发明人： NAGASHIMA MASARU , WAKI KOICHIRO
IPC分类号： F25B21/00 , H01F7/02
CPC分类号： Y02B30/66
摘要： PROBLEM TO BE SOLVED: To provide a magnetic refrigerating device with rotation type permanent magnets, capable of strengthening a magnetic field in the vicinity of a magnetic circuit, and arranging a magnetic field distribution by using a pair of permanent magnetic circuits having circular Halbach array fitted to a common rotary shaft, and constituting a part fixing the pair of permanent magnets of a cover body of a magnetic metal.SOLUTION: In a magnetic refrigerating device with rotation type permanent magnets, a pair of permanent magnetic circuits having circular Halbach array fitted to a common rotary shaft is used, a cover plate 5 is arranged in a part fixing the pair of permanent magnets, and the cover plate 5 comprises a magnetic metal.
摘要翻译：要解决的问题：提供一种具有旋转型永久磁铁的磁性制冷装置，其能够加强磁路附近的磁场，并且通过使用一对具有圆形Halbach阵列的永久磁路布置来布置磁场分布共同的旋转轴，并且构成固定磁性金属的盖体的一对永磁体的部件。解决方案：在具有旋转型永磁体的磁性制冷装置中，具有圆形的Halbach阵列的一对永久磁路安装到使用共同的旋转轴，在固定一对永磁体的部分中设置盖板5，盖板5包括磁性金属。

32. 发明专利

JP2013055265A High temperature superconductive coil 审中-公开
标题翻译：高温超导线圈
公开(公告)号：JP2013055265A
公开(公告)日：2013-03-21
申请号：JP2011193472
申请日：2011-09-06
申请人： Railway Technical Research Institute , 公益財団法人鉄道総合技術研究所
发明人： MIZUNO KATSUTOSHI , OGATA MASABUMI , NAGASHIMA MASARU
IPC分类号： H01F6/06
摘要： PROBLEM TO BE SOLVED: To provide a high temperature superconductive coil which applies or infiltrates an instant adhesive to or into a superconductive coil, instead of conventional resin impregnation, and thereby eliminating the peeling of a high temperature superconductive wire due to thermal distortion and preventing the performance deterioration of a superconductive coil.SOLUTION: In a high temperature superconductive coil including a high temperature superconductive wire 1 and an insulation layer 2, the performance deterioration of the high temperature superconductive wire 1 is prevented by an instant adhesive 3.
摘要翻译：要解决的问题：提供一种高温超导线圈，其将即时粘合剂施加或渗透到超导线圈中，而不是传统的树脂浸渍，从而消除由于热变形引起的高温超导线的剥离并防止超导线圈的性能恶化。解决方案：在包括高温超导丝1和绝缘层2的高温超导线圈中，通过即时粘合剂3防止高温超导丝1的性能劣化。版权所有（C） 2013年，JPO＆INPIT

33. 发明专利

JP2012047385A Magnetic refrigerating device 有权
标题翻译：磁性制冷装置
公开(公告)号：JP2012047385A
公开(公告)日：2012-03-08
申请号：JP2010189385
申请日：2010-08-26
申请人： Railway Technical Research Institute , 公益財団法人鉄道総合技術研究所
发明人： WAKI KOICHIRO , NAGASHIMA MASARU , ARAI YUKI , MIZUNO KATSUTOSHI , ITO KOJI
IPC分类号： F25B21/00
CPC分类号： Y02B30/66
摘要： PROBLEM TO BE SOLVED: To provide a highly efficient and convenient magnetic refrigerating device by using a duct enhancing a space utilization factor, a rotary valve improving thermal exchange efficiency, and an easy-to-maintain holder.SOLUTION: A magnetic refrigerating device includes: a duct 1 having an inlet and outlet port 2 of a heat exchange medium at a high temperature side, a magnetic working substance housing section 6 at a low temperature side, an inlet and outlet flow path 7 of the heat exchange medium formed radially, and an inlet and outlet port 8 of the heat exchange medium at a low temperature side; a spoke-shaped holder 11; a duct assembly 21 that is assembled by arranging the duct 1 in the spoke-shaped holder 11 and arranged in a fixed state; a magnetic circuit pair that is arranged so as to interpose the duct assembly 21 to generate a magnetic space, and is arranged rotatably; and a rotary valve connected with the duct 1. The magnetic refrigerating device performs magnetic refrigeration based on magneto-caloric effect by an action of a magnetic field in the magnetic space to the duct assembly 21 accompanied with an operation of the rotary valve.
摘要翻译：要解决的问题：通过使用增强空间利用系数的管道，提高热交换效率的旋转阀和易于维护的保持器来提供高效和方便的磁性制冷装置。解决方案：磁性制冷装置包括：管道1，其具有在高温侧的热交换介质的入口和出口2，低温侧的磁性工作物质容纳部分6，入口和出口流径向形成的热交换介质的路径7，以及在低温侧的热交换介质的入口和出口8; 轮辐形保持器11; 管道组件21，其通过将管道1布置在轮辐形保持器11中并以固定状态布置而组装; 磁路对，其布置成使导管组件21插入以产生磁空间，并且可旋转地布置; 以及与管道1连接的旋转阀。磁性制冷装置通过伴随着旋转阀的操作的磁性空间中的磁场的作用，基于磁热量效应进行磁致冷。版权所有（C）2012，JPO＆INPIT

34. 发明专利

JP2014190874A Optical fiber temperature sensor 有权
标题翻译：光纤温度传感器
公开(公告)号：JP2014190874A
公开(公告)日：2014-10-06
申请号：JP2013067412
申请日：2013-03-27
申请人： Railway Technical Research Institute , 公益財団法人鉄道総合技術研究所 , Tanaka Kikinzoku Kogyo Kk , 田中貴金属工業株式会社
发明人： YAMADA HIDEYUKI , NAGASHIMA MASARU , KURITA MASAAKI , KUBOTA SHUICHI
IPC分类号： G01K11/12 , G01K1/14
摘要： PROBLEM TO BE SOLVED: To provide an optical fiber temperature sensor capable of maintaining high sensitivity and thermal conductivity at cryogenic temperature, and achieving a stable output.SOLUTION: An optical fiber temperature sensor 10 measures temperature at an FBG measurement point 12 from change in a propagation characteristic accompanying heat elasticity of an optical fiber body 11. A metal layer 20 with a larger coefficient of thermal expansion than the optical fiber body 11 is provided on a surface of the optical fiber body 11 on the FBG measurement point 12.
摘要翻译：要解决的问题：提供一种能够在低温下保持高灵敏度和导热性的光纤温度传感器，并实现稳定的输出。解决方案：光纤温度传感器10测量FBG测量点12处的温度伴随着光纤体11的热弹性的传播特性。在FBG测量点12上的光纤体11的表面上设置有比光纤体11热膨胀系数大的金属层20。

35. 发明专利

JP2014190503A Flywheel structure in power storage device 审中-公开
标题翻译：电力存储设备中的飞轮结构
公开(公告)号：JP2014190503A
公开(公告)日：2014-10-06
申请号：JP2013068928
申请日：2013-03-28
申请人： Railway Technical Research Institute , 公益財団法人鉄道総合技術研究所 , Emaajii:Kk , 株式会社エマージー
发明人： ARAI YUKI , NAGASHIMA MASARU , DEMURA TATSUTARO
IPC分类号： F16H33/02 , F16C32/04 , H02J15/00
CPC分类号： Y02E40/67
摘要： PROBLEM TO BE SOLVED: To provide flywheel structure in a power storage device capable of optimizing capacity and reducing costs by forming a hybrid type flywheel incorporating advantages of each of fiber-reinforced plastic or metal.SOLUTION: In a power storage device which stores electric energy as kinetic energy by operating a flywheel 8 under ultralow temperature and high vacuum by rotation via a superconductive magnetic bearing, an inner peripheral part 20 of the flywheel 8 is formed of a material at small destruction peripheral velocity, and an outer peripheral part 21 of the flywheel 8 is formed of a material at destruction peripheral velocity larger than that of the inner peripheral part 20.
摘要翻译：要解决的问题：通过组合具有纤维增强塑料或金属的优点的混合型飞轮，在能够优化能力并降低成本的蓄电装置中提供飞轮结构。解决方案：在存储电能的蓄电装置中作为动能，通过在超低温和高真空下通过超导磁性轴承旋转来操作飞轮8，飞轮8的内周部分20由小破坏圆周速度的材料形成，外周部分21 飞轮8由破坏周边速度大于内周部20的周边速度的材料形成。

36. 发明专利

JP2012162129A Liquid hydrogen container loaded on fuel cell train 审中-公开
标题翻译：液化氢装载在燃料电池上
公开(公告)号：JP2012162129A
公开(公告)日：2012-08-30
申请号：JP2011022705
申请日：2011-02-04
申请人： Iwatani Internatl Corp , Railway Technical Research Institute , 公益財団法人鉄道総合技術研究所 , 岩谷産業株式会社
发明人： HASEGAWA HITOSHI , NAGASHIMA MASARU , NAKAUCHI MASAHIKO , ARAI YUKI , MIZUNO KATSUTOSHI , OGAWA KENICHI , MATSUOKA YOSHIHARU , KASHIWAGI TAKEHIRO , MIWA YUTA , HAMADA MASAHIRO , GOTO KATSUHIKO
IPC分类号： B61C11/00 , B61C7/04 , H01M8/00 , H01M8/04 , H01M8/10
CPC分类号： Y02E60/521
摘要： PROBLEM TO BE SOLVED: To provide a liquid hydrogen container loaded on a fuel cell train that enables a railroad vehicle under which underfloor equipment is disposed to achieve a sufficient volume.SOLUTION: The liquid hydrogen container loaded on the fuel cell train is one liquid hydrogen container 7 comprising a linear liquid hydrogen container part 7A located on the front side in the travelling direction, a linear liquid hydrogen container part 7B located on the rear side in the travelling direction and in addition an offset liquid hydrogen container part 7C therebetween when the under surface 3 of the fuel cell train 1 is loaded with underfloor equipment 4 on one side in the front in the travelling direction and underfloor equipment 5 and 6 on other side in the rear in the travelling direction and when there is a space B between the underfloor equipment 4 and the underfloor equipment 5 and 6.
摘要翻译：要解决的问题：提供一种装载在燃料电池系列上的液体氢容器，其能够使铁路车辆在其下设置地板下设备以实现足够的体积。解决方案：装载在燃料电池列上的液体氢容器是一个液体氢容器7，其包括位于行进方向前侧的线性液体氢容器部分7A，位于后方的线性液体氢容器部分7B 另外在燃料电池单元列1的下表面3在行进方向的前侧的一侧装载地板设备4时，在其间具有偏移液体氢容器部7C，并且将地板上的设备5和6放置在另一侧在行驶方向的后方，以及地板下设备4和地板下设备5和6之间有空间B。（C）2012年，JPO＆INPIT

37. 发明专利

JP2011226735A Magnetic refrigerating apparatus 有权
标题翻译：磁力制冷装置
公开(公告)号：JP2011226735A
公开(公告)日：2011-11-10
申请号：JP2010098594
申请日：2010-04-22
申请人： Railway Technical Research Institute , Shibaura Institute Of Technology , 公益財団法人鉄道総合技術研究所 , 学校法人芝浦工業大学
发明人： WAKI KOICHIRO , NAGASHIMA MASARU , ARAI YUKI , MIZUNO KATSUTOSHI , ITO KOJI , AKIYAMA SHINICHI , IKEDA MASAFUMI , MURAKAMI MASAHITO
IPC分类号： F25B21/00
CPC分类号： Y02B30/66
摘要： PROBLEM TO BE SOLVED: To provide a magnetic refrigerating apparatus which has simple structure, which causes a strong magnetic field to be exerted on a magnetic working substance, and which has a pair of permanent magnetic circuits having circular Halbach array fitted to a common rotary shaft.SOLUTION: A magnetic refrigerating apparatus includes a rotor A and a stator B, The rotor A includes: a permanent magnet assembly 1 that generates a magnetic field space 11 in which interval is set by a spacer 4 with respect to permanent magnetic circuits 2, 3 having circular Hulbach arrays stored in non-magnetic containers 1A, 1B; and the common rotary shaft 5 fitting the permanent magnet assembly 1. The stator B includes a duct 12 which is stored with the magnetic working substance supported by a fixed member and is arranged in the magnetic field space 11, then, magnetic refrigeration based on magnetocaloric effect is performed by action of the magnetic field in the magnetic field space 11 with respect to the duct 12 stored with the magnetic working substance.
摘要翻译：解决问题的方案：提供一种具有简单结构的磁致冷装置，其对磁性工作物质施加强磁场，并且具有一对具有圆形Halbach阵列的永久磁路，普通旋转轴。解决方案：一种磁性制冷装置，包括转子A和定子B.转子A包括：永磁体组件1，其产生磁场空间11，其间隔通过间隔件4相对于永久磁路设置具有存储在非磁性容器1A，1B中的圆形Hulbach阵列的2,3; 以及配合永磁体组件1的公共旋转轴5.定子B包括管道12，其与由固定构件支撑的磁性工作物质一起存储并设置在磁场空间11中，然后基于磁热量相对于与磁性工作物质一起存储的管道12，通过磁场空间11中的磁场的作用来执行效果。版权所有（C）2012，JPO＆INPIT

38. 发明专利

JP2011176905A Non-contact unit cooling device by radiation of flywheel for power storage 审中-公开
标题翻译：非接触式单元冷却装置通过飞轮辐射功率储存
公开(公告)号：JP2011176905A
公开(公告)日：2011-09-08
申请号：JP2010037110
申请日：2010-02-23
申请人： Railway Technical Research Institute , 公益財団法人鉄道総合技術研究所
发明人： ARAI YUKI , NAGASHIMA MASARU , HASEGAWA HITOSHI , MIZUNO KATSUTOSHI
IPC分类号： H02J15/00 , F16H33/02
CPC分类号： Y02E40/67
摘要： PROBLEM TO BE SOLVED: To provide a non-contact unit cooling device by radiation of a flywheel for power storage which reduces an energy loss by a windage loss caused by conduction cooling of a lean gas, improves efficiency of a flywheel system, and reduces labor for pressure adjustment at introduction of the lean gas through heat transfer by radiation.
SOLUTION: The non-contact unit cooling device by radiation of a flywheel for power storage includes a rotation-side heat exchanger plate 22 mounted to a rotating shaft 24 of the flywheel for power storage and a fixed-side heat exchanger plate 28 opposing the rotation-side heat exchanger plate 22, thus increasing a heat transfer area by radiation between the rotation-side heat exchanger plate 22 and the fixed-side heat exchanger plate 28.
COPYRIGHT: (C)2011,JPO&INPIT
摘要翻译：要解决的问题：通过辐射用于蓄电的飞轮来提供非接触单元冷却装置，其通过由贫气的传导冷却引起的风阻损失而降低能量损失，提高飞轮系统的效率，并减少通过辐射传热引入贫气的压力调节工作。解决方案：通过放电用于蓄电的飞轮的非接触单元冷却装置包括安装在用于蓄电的飞轮的旋转轴24上的旋转侧热交换器板22和固定侧热交换器板28 与旋转侧热交换器板22相对，从而通过旋转侧热交换器板22和固定侧热交换器板28之间的辐射增加传热面积。版权所有（C）2011，JPO＆INPIT

39. 发明专利

JP2011146550A Noncontact excitation superconducting magnet device 审中-公开
标题翻译：非连接激励超导磁体器件
公开(公告)号：JP2011146550A
公开(公告)日：2011-07-28
申请号：JP2010006437
申请日：2010-01-15
申请人： Railway Technical Research Institute , 公益財団法人鉄道総合技術研究所
发明人： HASEGAWA HITOSHI , KASHIWAGI TAKAYUKI , SAKAMOTO YASUAKI , SASAGAWA TAKU , NAGASHIMA MASARU
IPC分类号： H01F6/00 , B60L13/04 , H01L39/14
CPC分类号： Y02T10/7241
摘要： PROBLEM TO BE SOLVED: To provide a noncontact excitation superconducting magnet device, preventing a thermal intrusion into a low-temperature vessel in a time when exciting a superconducting magnet. SOLUTION: The noncontact excitation superconducting magnet device is equipped with: an AC excitation power supply 2 arranged to a normal temperature part 1; and a primary exciting coil for a transformer connected to the AC excitation power supply 2 in the normal temperature part. The noncontact excitation superconducting magnet device is also equipped with, in the low-temperature vessel 4: a secondary exciting coil 3 for the transformer excited by the primary exciting coil; a rectifier 6 connected to the secondary exciting coil 3; a superconducting switch 7 connected to the rectifier 6; and a superconducting magnet 6 connected in parallel with the superconducting switch 7. COPYRIGHT: (C)2011,JPO&INPIT
摘要翻译：要解决的问题：提供一种非接触式激磁超导磁体装置，在激励超导磁体的时候防止热侵入低温容器。
解决方案：非接触式激磁超导磁体装置配备有：配置于常温部1的交流励磁电源2; 以及连接到常温部分的交流励磁电源2的变压器的初级励磁线圈。非接触式激磁超导磁体装置还在低温容器4中配备有用于由主励磁线圈激励的变压器的次级励磁线圈3; 连接到次级励磁线圈3的整流器6; 连接到整流器6的超导开关7; 以及与超导开关7并联连接的超导磁体6.版权所有（C）2011，JPO＆INPIT

40. 发明专利

JP2013257104A Magnetic refrigeration device 审中-公开
标题翻译：磁性制冷装置
公开(公告)号：JP2013257104A
公开(公告)日：2013-12-26
申请号：JP2012134387
申请日：2012-06-14
申请人： Railway Technical Research Institute , 公益財団法人鉄道総合技術研究所
发明人： WAKI KOICHIRO , MIYAZAKI YOSHIKI , ARAI YUKI , MIZUNO KATSUTOSHI , YOSHIZAWA KEISUKE , NAGASHIMA MASARU
IPC分类号： F25B21/00
CPC分类号： Y02B30/66
摘要： PROBLEM TO BE SOLVED: To provide a magnetic refrigeration device with high efficiency by arranging a rod-shape or plate-shape magnetic operation substance housed in a duct of the magnetic refrigeration device such that a demagnetization field and an eddy current are suppressed.SOLUTION: In a magnetic refrigeration device having a duct assembly (21) constituted by assembling ducts (1) in which magnetic operation substances are housed and arranged in a fixed state, a magnetic circuit pair (30) arranged so as to sandwich the duct assembly (21), generating a magnetic field space, and rotatably arranged, and rotary valves (51 to 54) connected to the ducts (1), and carrying out magnetic refrigeration base on a magneto-caloric effect by an action of a magnetic field in the magnetic field to the duct assembly (21) accompanied by an action of the rotary valves (51 to 54), a demagnetization and an eddy currents are suppressed by housing rod-shape magnetic operation substances (101) in the ducts (1) and arranging a longitudinal direction of the rod-shape magnetic operation substances (101) so as to match the same to a direction of the magnetic field (102).
摘要翻译：要解决的问题：通过设置容纳在磁性制冷装置的管道中的棒状或板状磁性操作物质，从而抑制退磁场和涡流，从而提供高效率的磁性制冷装置。解决方案：在具有管状组件（21）的磁性制冷装置中，所述导管组件（21）通过组装固定状态的磁性操作物质的管道（1）构成，所述磁路对（30）被布置成夹持所述管道组件），产生磁场空间和可旋转地布置的旋转阀（51至54），并连接到管道（1）上，并通过磁场的作用在磁热效应上进行磁致冷基伴随着旋转阀（51至54）的作用的管道组件（21）的场，通过在管道中容纳棒状磁性操作物质（101）来抑制退磁和涡流（1），并且使棒状磁性操作物质（101）的长度方向与磁场（102）的方向一致。

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