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    • 1. 发明授权
    • Brush seal for turbo engines
    • 涡轮发动机刷密封
    • US6077038A
    • 2000-06-20
    • US994348
    • 1997-12-19
    • Alfons GailUwe MichelEdgar PfisterLothar ReisingerThomas Miller
    • Alfons GailUwe MichelEdgar PfisterLothar ReisingerThomas Miller
    • F01D11/00F01D11/02F01D11/12F16J15/00F16J15/32F01D29/04
    • F16J15/002F01D11/001F01D11/02F01D11/025F01D11/12F16J15/3288F05D2240/56
    • A brush seal assembly for turbo-engines is provided for sealing off spaces on a circumferential gap which are differently acted upon by pressure, particularly between an engine stator and an engine rotor. A holding device for a bristle bundle is provided on the engine stator, from which holding device the bristle bundle is guided between circumferential webs in a sealing manner against the engine rotor and forms an axial gap in the circumferential direction with respect to one web facing the high-pressure side. The upstream one of the circumferential webs, together with the engine rotor surface, forms an axial ring gap for flow of fluid therethrough. Turbulence reducing structure is disposed upstream of the upstream web in the high pressure space and serves to reduce the turbulence in flow of air from the upstream space through the axial ring gap. This turbulence reducing structure can be in the form of a metal sponge and/or a honey comb structure.
    • 用于涡轮发动机的刷子密封组件被设置用于密封周向间隙上的空间,其不同地受到压力的作用,特别是在发动机定子和发动机转子之间。 用于刷毛束的保持装置设置在发动机定子上,保持装置使刷毛束在周向腹板之间以密封方式被引导到发动机转子上,并且相对于面向所述发动机转子的一个腹板在圆周方向上形成轴向间隙 高压侧。 周向腹板中的上游侧与发动机转子表面一起形成用于流过其中的流体的轴向环间隙。 湍流减少结构设置在高压空间中的上游腹板的上游,并且用于减少来自上游空间的空气的流动通过轴向间隙的紊流。 这种湍流减少结构可以是金属海绵和/或蜂巢结构的形式。
    • 2. 发明授权
    • Blade for fluid flow engine having a metallic coating layer, and method
of manufacturing and repairing the same
    • 具有金属涂层的流体流动发动机用叶片及其制造和修理方法
    • US5951254A
    • 1999-09-14
    • US891853
    • 1997-07-09
    • Siegfried SikorskiMichael SchoberReinhold Schoenacher
    • Siegfried SikorskiMichael SchoberReinhold Schoenacher
    • F01D5/28B29C70/06B29C70/10B29C73/04B29K105/06B29L31/08B32B15/02F04D29/38
    • B32B15/02
    • A blade for a fluid flow machine such as a jet turbine engine includes a blade body (2) that is to be exposed to the fluid flow and therefore is subject to damage by erosion due to abrasive particle entrained in the fluid flow and due to thermal loading. The blade body (2) is a layered body including base layers (6) of a fiber reinforced synthetic material and a metallic cover layer (7) applied as an erosion protective layer onto at least a portion or the entirety of the surface of the base layers (6). The cover layer (7) includes metallic fibers or threads (9A, 9B) which are bonded with the fiber reinforced synthetic material of the adjacent base layers (6) by the same synthetic resin binder material permeating through and forming a matrix for all the layers (6 and 7). The metallic fibers or threads (9A, 9B) embedded in a synthetic resin matrix are characterized by a high degree of erosion resistance and a good tolerance for defects in the case of local impact or erosion damage. The blade may be a blade of a fan or compressor stage of a jet turbine engine. A method for manufacturing and a method for repairing such blades involves exposing outer layers of fibers of a blade, and applying thereon a cover layer of metallic fibers or threads. An additional outer protective layer may be applied on the cover layer.
    • 用于诸如喷气涡轮发动机的流体流动机的叶片包括将被暴露于流体流动的叶片体(2),并且因此由于夹带在流体流中的磨料颗粒和由于热量而受到侵蚀而损坏 加载。 叶片体(2)是包括纤维增强合成材料的基层(6)和作为侵蚀保护层的金属覆盖层(7)的层叠体,其至少部分或全部的基底表面 层(6)。 覆盖层(7)包括金属纤维或线(9A,9B),其通过相同的合成树脂粘合剂材料与相邻基层(6)的纤维增强合成材料粘合,所述合成树脂粘合剂材料渗透并形成所有层的基质 (6和7)。 嵌入合成树脂基体中的金属纤维或线(9A,9B)的特征在于在局部冲击或侵蚀损伤的情况下具有高抗侵蚀性和良好的缺陷耐受性。 叶片可以是喷气涡轮发动机的风扇或压缩机级的叶片。 制造方法和修复这种刀片的方法包括暴露刀片的纤维外层,并在其上涂敷金属纤维或线的覆盖层。 可以在覆盖层上施加另外的外部保护层。
    • 3. 发明授权
    • Gas turbine engine flame tube cooling system and integral swirler
arrangement
    • 燃气涡轮发动机火焰管冷却系统和整体旋流器布置
    • US5765376A
    • 1998-06-16
    • US570776
    • 1995-12-12
    • Nikolaos ZarzalisGunter Meikis
    • Nikolaos ZarzalisGunter Meikis
    • F02C7/18F23R3/10F23R3/42F23R3/60
    • F23R3/10F05B2260/201Y02T50/675
    • A system is provided for cooling especially the backplate of a flame tube of a combustion chamber for gas turbine engines, of the type having at least one burner arranged on the backplate and having a fuel nozzle and at least one swirler arranged coaxially with the fuel nozzle for the supply of combustion air. The backplate is cooled with compressed air diverted from a compressor and ducted to a head end of the combustion chamber. The backplate forms at least one cooling air duct to carry the compressed air supplied for backplate cooling, and the cooling air duct communicates at its outlet end at the burner with the flame tube such that the compressed air issuing from the cooling air duct enters into combustion in the primary zone. At its outlet end the cooling air duct can communicate with the air inlets of at least one swirler.
    • 一种用于燃气涡轮发动机燃烧室的火焰管的背板的系统,其特征在于,具有至少一个燃烧器布置在背板上并具有燃料喷嘴和与燃料喷嘴同轴设置的至少一个旋流器 用于供应燃烧空气。 背板用压缩空气从压缩机转向并被引导到燃烧室的前端进行冷却。 背板形成至少一个冷却风道,以承载用于背板冷却的压缩空气,并且冷却风道在其燃烧器的出口端处与火焰管连通,使得从冷却空气管道排出的压缩空气进入燃烧 在主要区域。 在其出口端,冷却风道可以与至少一个旋流器的空气入口连通。
    • 4. 发明授权
    • Turbine blade wheel assembly with rotor blades fixed to the rotor wheel
by rivets
    • 涡轮叶片组件,转子叶片由铆钉固定在转子轮上
    • US5749706A
    • 1998-05-12
    • US794191
    • 1997-01-24
    • Karl Maar
    • Karl Maar
    • F01D5/30F01D5/32
    • F01D5/323F01D5/326Y10T29/49321Y10T29/4992Y10T29/49956
    • Rotor blades (1) are held by means of toothed roots (3) in correspondingly profiled axial grooves (4) of a rotor wheel rim (5). Between each root end and the base of an axial groove (4), there is formed a radial gap (S) accommodating a rivet (6). Each rivet (6) is centrally guided on two inserts (9, 9') resting against the base of the axial groove (4) in the radial gap (S) and having bent or angled end parts (10, 10') resting against the front and rear faces of the wheel rim (5). Seating wedges (11, 11') surround the upset head (8) and the set head (7) of the rivet (6) and are axially and radially clamped to wedge-shaped complementary surfaces (G, G') of the root end and of the respective insert (9, 9') by riveting. As a result, an improved radial and axial clamping of the rotor blades is achieved.
    • 转子叶片(1)通过齿根(3)保持在转子轮缘(5)的相应成型的轴向槽(4)中。 在轴向槽(4)的每个根端和底座之间,形成容纳铆钉(6)的径向间隙(S)。 每个铆钉(6)在径向间隙(S)中的两个插入件(9,9')的中心引导,该两个插入件(9,9')靠在轴向槽(4)的基部上,并且具有弯曲或成角度的端部(10,10'), 轮辋(5)的前后表面。 座榫(11,11')围绕镦锻头(8)和铆钉(6)的固定头(7),并且被轴向和径向夹紧到根端的楔形互补表面(G,G') 和相应的刀片(9,9')铆接。 结果,实现了改进的转子叶片的径向和轴向夹紧。
    • 8. 发明授权
    • Shaft seal with in-line sealing rings
    • 带密封环的轴封
    • US5480160A
    • 1996-01-02
    • US236376
    • 1994-05-02
    • Axel Harms
    • Axel Harms
    • F16J15/00F16J15/26F16J15/16F16J15/40
    • F16J15/006F16J15/26
    • A shaft seal (5) for circumferential shaft speeds in excess of 30 m/s and for sealing a differential pressure between two chambers to be sealed, in excess of 100 kP, has several in-line sealing rings (12A, 12B, 20, 22). Preferably, at least two of the high-pressure side seal rings are constructed as slide seal rings (12A, 12B) that are urged against the shaft by a tension spring (17) surrounding the outer circumferential surface of the slide seal rings. One low-pressure side sealing ring is a brush seal (20). A compressed air seal ring (22) is arranged between this brush seal (20) and the slide seal rings (12A, 12B). The air seal ring (22) forms a radial air gap (24) around the shaft (1). In operation of the seal the pressure in the air gap (24) is lower than the pressure in the high-pressure chamber (HD) and higher than the pressure in the low-pressure chamber (ND), whereby a high sealing integrity and resistance to abrasive wear at very high circumferential shaft speeds in excess of 100 m/s and at high differential pressures are maintained.
    • 用于圆周轴速度超过30m / s并用于密封待密封的两个室之间的压差超过100kP的轴密封件(5)具有几个直列密封环(12A,12B,20, 22)。 优选地,至少两个高压侧密封环被构造为滑动密封环(12A,12B),其通过围绕滑动密封环的外周表面的拉伸弹簧(17)而被推靠在轴上。 一个低压侧密封环是刷密封件(20)。 在该刷子密封件(20)和滑动密封环(12A,12B)之间布置有压缩空气密封环(22)。 空气密封环(22)围绕轴(1)形成径向气隙(24)。 在密封操作中,气隙(24)中的压力低于高压室(HD)中的压力并且高于低压室(ND)中的压力,由此高密封完整性和电阻 在非常高的周向轴速度超过100m / s并且在高压差下保持磨损。