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. 发明申请
    • Microcircuit cooling for a turbine airfoil
    • 用于涡轮机翼的微电路冷却
    • US20050053459A1
    • 2005-03-10
    • US10802260
    • 2004-03-16
    • Frank CunhaKeith SantelerScott GaymanEric Couch
    • Frank CunhaKeith SantelerScott GaymanEric Couch
    • F01D5/00F01D5/08F01D5/18F02C7/16F02C7/18
    • F01D5/187F01D5/186F05D2250/25F05D2260/2212F05D2260/22141Y02T50/676
    • A turbine airfoil includes a plurality of cooling circuits embedded within the pressure and suction sidewalls and a first and a second flow passage. The first flow passage feeds the coolant fluid to the cooling circuits that are embedded only within the pressure sidewall and the second flow passage feeds the coolant fluid to the cooling circuits that are embedded only within the suction sidewall. A method embodiment of the present comprises placing the inlets of the cooling circuits embedded within the first sidewall in flow communication with only one of the flow passages and placing the inlets of the cooling circuits embedded within the second sidewall in flow communication with at least one of the other flow passages to minimize the difference in sink pressures of the suction and pressure sidewalls to ensure ingestion of the coolant fluid into the inlets of the respective cooling circuits.
    • 涡轮机翼片包括嵌入压力和抽吸侧壁内的多个冷却回路以及第一和第二流动通道。 第一流动通道将冷却剂流体供给到仅在压力侧壁内嵌入的冷却回路,而第二流动通道将冷却剂流体供给到仅嵌入在吸力侧壁内的冷却回路。 本发明的方法实施例包括将嵌入在第一侧壁内的冷却回路的入口放置成仅与流动通道中的一个流体连通,并且将嵌入在第二侧壁内的冷却回路的入口与至少一个 其他流动通道以最小化吸入和压力侧壁的吸收压力的差异,以确保将冷却剂流体摄入相应冷却回路的入口。
    • 5. 发明申请
    • COMPOSITE CORE FOR USE IN PRECISION INVESTMENT CASTING
    • 复合核心用于精密投资铸造
    • US20070144702A1
    • 2007-06-28
    • US11522738
    • 2006-09-18
    • John WiedemerKeith Santeler
    • John WiedemerKeith Santeler
    • B22C9/10
    • B22C9/103
    • A composite core for an investment casting process, the core including both a ceramic portion and a refractory metal portion, with the refractory metal portion being so disposed as to perform the function of a plurality of such refractory metal elements. In particular, a refractory metal element attached to a trailing edge of a ceramic element extends beyond the plane of a tip end of the ceramic element so as to replace the refractory metal element otherwise extending from the ceramic tip edge. The refractory metal element also extends beyond the space to be occupied by the wax casting, both in the direction of the tip end and the trailing edge such that improved placement and securing of the core is facilitated during the casting process. A further embodiment uses a single refractory metal element that extends into both the airfoil portion and an orthogonal extending platform portion thereof.
    • 一种用于熔模铸造工艺的复合芯,所述芯包括陶瓷部分和难熔金属部分,其中所述耐火金属部分被设置为执行多个这种难熔金属元件的功能。 特别地,附着到陶瓷元件的后缘的难熔金属元件延伸超过陶瓷元件的尖端的平面,以便替代陶瓷顶端边缘另外延伸的难熔金属元件。 难熔金属元件还延伸超过蜡铸造的空间,两者都在尖端和后缘的方向上,使得在铸造过程中促进芯的改进的放置和固定。 另一实施例使用延伸到翼型部分和其正交延伸平台部分的单个难熔金属元件。
    • 6. 发明申请
    • INVESTMENT CASTING PATTERN MANUFACTURE
    • 投资模式制作
    • US20070044933A1
    • 2007-03-01
    • US11219156
    • 2005-09-01
    • Keith Santeler
    • Keith Santeler
    • B22C9/04
    • B22C7/02B22C9/04B22C9/064B22C9/103B22C21/14
    • At least one feed core and at least one wall cooling core are assembled with a number of elements of a die for forming a cooled turbine engine element investment casting pattern. A sacrificial material is molded in the die. The sacrificial material is removed from the die. The removing includes extracting a first of the die elements from a compartment in a second of the die elements before disengaging the second die element from the sacrificial material. The first element includes a compartment receiving an outlet end portion of a first of the wall cooling cores in the assembly and disengages therefrom in the extraction.
    • 至少一个进料芯和至少一个壁冷却芯与多个模具元件组装以形成冷却的涡轮发动机元件熔模铸造图案。 在模具中模制牺牲材料。 牺牲材料从模具中移除。 去除包括在将第二模具元件与牺牲材料分离之前从模具元件中的第二模具元件中的隔室提取第一模具元件。 第一元件包括容纳组件中的第一壁式冷却芯的出口端部的隔室,并且在提取中与其分离。
    • 9. 发明申请
    • Microcircuit airfoil mainbody
    • 微电脑机翼主体
    • US20050031450A1
    • 2005-02-10
    • US10637352
    • 2003-08-08
    • Frank CunhaKeith Santeler
    • Frank CunhaKeith Santeler
    • F01D5/18F02C7/18F01D5/08
    • F01D5/186F01D5/187F05D2260/22141Y02T50/673Y02T50/676
    • A cooling circuit disposed within a first wall portion and a second wall portion of a wall for use in a gas turbine engine is provided. The cooling circuit includes a plurality of inlet apertures disposed in the first wall portion to provide a flow path of cooling air into the cooling circuit, a first exit slot disposed in the second wall portion to provide a cooling air flow path out of the cooling circuit, a plurality of pedestals arranged in rows extending within the between the first wall portion and the second wall portion and a first elongated pedestal disposed radially and extending between the first and second wall portions. The first elongated pedestal is positioned between the pedestals and the first exit slot.
    • 提供了一种设置在用于燃气涡轮发动机的壁的第一壁部分和第二壁部分内的冷却回路。 冷却回路包括设置在第一壁部分中的多个入口孔,以提供冷却空气进入冷却回路的流动路径,第一出口狭槽设置在第二壁部分中,以将冷却空气流动路径提供出冷却回路 在所述第一壁部和所述第二壁部之间延伸设置的行的多个基座和径向设置并在所述第一和第二壁部之间延伸的第一细长台座。 第一细长基座位于基座和第一出口槽之间。