会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 4. 发明专利
    • Steam turbine plant
    • 蒸汽涡轮机厂
    • JP2012107610A
    • 2012-06-07
    • JP2011164613
    • 2011-07-27
    • Toshiba Corp株式会社東芝
    • GOTO KOICHIOKITA NOBUO
    • F01D25/32F01D25/00F01K7/22F01K7/44F01K9/00
    • F01K7/22F01K7/223F01K7/40
    • PROBLEM TO BE SOLVED: To provide a steam turbine plant including a mechanism for collecting water from the inside of an upstream turbine or an exhaust steam.SOLUTION: The steam turbine plant includes: a boiler 108 configured to change the water into steam; the upstream turbine 203 configured to be driven by the steam from the boiler; a downstream turbine 204 configured to be driven by the steam from the upstream turbine; a steam condenser 104 configured to change the steam exhausted from the downstream turbine into water; the collector configured to collect water from the steam which exists upstream of an inlet of the final-stage rotor vane in the upstream turbine, or the steam emitted from the upstream turbine; and a collected matter influx path P configured to cause collected matter collected by the collector to flow into, for example, the steam between an outlet of the final-stage rotor vane of the upstream turbine and an inlet of the final-stage rotor vane of the downstream turbine, the water between the steam condenser and the boiler, and an extraction steam from an extraction port of the upstream turbine or the downstream turbine.
    • 要解决的问题:提供一种蒸汽轮机设备,其包括用于从上游涡轮机或排气蒸汽的内部收集水的机构。 蒸汽轮机设备包括:锅炉108,其被配置为将水改变成蒸汽; 所述上游涡轮机203构造成由来自所述锅炉的蒸汽驱动; 被配置为由来自上游涡轮机的蒸汽驱动的下游涡轮机204; 蒸汽冷凝器104构造成将从下游涡轮机排出的蒸汽变为水; 所述收集器构造成从位于上游涡轮机中的末级转子叶片的入口上游的蒸汽或从上游涡轮机排出的蒸汽收集水; 以及收集物流入路径P,其被配置为使由收集器收集的收集物质流入例如上游涡轮机的末级转子叶片的出口与最终级转子叶片的入口之间的蒸汽 下游涡轮机,蒸汽冷凝器和锅炉之间的水以及来自上游涡轮机或下游涡轮机的提取口的提取蒸汽。 版权所有(C)2012,JPO&INPIT
    • 5. 发明专利
    • Steam turbine plant
    • 蒸汽涡轮机厂
    • JP2011220161A
    • 2011-11-04
    • JP2010088651
    • 2010-04-07
    • Toshiba Corp株式会社東芝
    • GOTO KOICHIOKITA NOBUO
    • F01K27/02F01K7/22F03G6/00
    • F01K7/18F01K7/22F03G6/005F03G6/065F22B1/006Y02E10/46
    • PROBLEM TO BE SOLVED: To provide a steam turbine plant using solar heat.SOLUTION: A steam turbine plant includes a solar energy collector 119 which collects solar heat, a boiler 108 which changes water into steam by the solar heat, a high pressure turbine 101 which comprises a turbine or a plurality of turbines connected to each other in series and is driven by the steam from the boiler, first to N-th reheaters (where N is an integer of two or more), and first to N-th reheat turbines, wherein the first reheater 302 heats the steam exhausted from the high pressure turbine by the solar heat, the first reheat turbine 301 is driven by the steam from the first reheater, the second to N-th reheaters (109: second) heat the steam exhausted from the first to (N-1)-th reheat turbines by the solar heat, respectively, and the second to N-th reheat turbines (113: second) are driven by the steam from the second to the N-th reheaters, respectively.
    • 要解决的问题:提供一种使用太阳能热的蒸汽轮机设备。 蒸汽轮机设备包括收集太阳能的太阳能收集器119,通过太阳能热将水改变成蒸汽的锅炉108,包括连接到每个涡轮机的涡轮机或多个涡轮机的高压涡轮机101 其他串联并且由来自锅炉的蒸汽,第一至第N再热器(其中N是两个或更多个的整数)以及第一至第N再热器涡轮机驱动,其中第一再热器302加热从 通过太阳能热量的高压涡轮机,第一再热汽轮机301由来自第一再热器的蒸汽驱动,第二至第N再热器(109:秒)加热从第一再加热器排出的蒸汽(N-1) - 分别通过太阳能热重新加热涡轮机,并且第二至第N再热汽轮机(113:秒)分别由第二至第N再热器的蒸汽驱动。 版权所有(C)2012,JPO&INPIT
    • 9. 发明专利
    • ICE HEAT STORAGE DEVICE
    • JPH10281602A
    • 1998-10-23
    • JP8678697
    • 1997-04-04
    • TOSHIBA CORP
    • GOTO KOICHIYOSHINO HITOSHIKITAGAWA KIYOHIKO
    • F24F5/00F25C1/00
    • PROBLEM TO BE SOLVED: To realize stable ice making by suppressing choking of inside of a freezer with frozen water, and icing on the tip of jet nozzle by suppressing the entrainment of water to the antifreeze solution at the antifreeze solution storage part of an ice making tank. SOLUTION: An ice heat accumulator is provided with an ice making tank 1 storing water insoluble antifreeze solution 4 of witch specific gravity is heavier than that of water and water 2, and an antifreeze solution circulating system producing fine ice particles by heat exchanging the collected antifreeze solution with an antifreeze solution pump from the inside of the ice making tank 1 being flowed from antifreeze solution jetting nozzles 12 opened at the upper part of the boundary between the water 2 and the antifreeze solution 4 with water, after cooling it to the temperature lower that 0 deg.C with a freezer, and an antifreeze solution storing part 5 is formed with a downward recess formed on the bottom surface of the ice making tank 1 forming inclined parts 6 with an adequate angle at the parts connecting between either of the both side opening part edges of the storing part 5 and the bottom surface of the ice making tank 1.
    • 10. 发明专利
    • ICE HEAT STORAGE TANK
    • JPH09178227A
    • 1997-07-11
    • JP33922295
    • 1995-12-26
    • TOSHIBA CORP
    • OMURA KATSUYAHACHIMONJI TAKAYUKINOMA TAKESHIGOTO KOICHI
    • F24F5/00F25C1/00
    • PROBLEM TO BE SOLVED: To achieve a stable continuous operation for a long time by providing a water separation means which applies a resistance to a flow of an antifreeze extract to an antifreeze piping provided on a bottom part of a heat storage tank to separate water mixed in an antifreeze solution. SOLUTION: A multiple plate-shaped member 36 is set at an antifreeze reservoir part 26 as water separation means 35 to make an antifreeze solution 22 flow zig zag so that the flowing length of the antifreeze solution 22 is increased to retain the antifreeze solution at the reservoir part for a longer time. At the reservoir part 26, fine water particles 38 in the antifreeze solution 22 bond to other fine water particles 38 approaching them to grow. The water particles 38 thus grown ascend from the reservoir part 26 because of its increased buoyance to be absorbed into the water 21 in a heat storage tank 23. As a result, the fine water particles 38 in the antifreeze solution 22 reduces, eventually causing a decrease in the water in the antifreeze solution flowing into a refrigerating machine 32. This can prevent the clogging of a pipe as caused by the solidification of the water 21 in a refrigerating machine 32 and achieves a stable continuous operation for a long time thereby enabling economical operation.