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    • 5. 发明授权
    • METHOD OF PRODUCING COOLING APERTURES IN A COMBUSTION CHAMBER HEAD
    • 生产燃烧室头部冷却孔的方法
    • EP2977133B1
    • 2017-09-13
    • EP15176390.1
    • 2015-07-13
    • Rolls-Royce plc
    • Garry, IanHufton, Neil
    • B23B35/00B08B3/02F23R3/06
    • F02C7/12B23B35/00B23B51/06B23B2215/76B23B2220/08B23B2270/28B23B2270/30B33Y80/00F05D2220/32F05D2230/10F05D2240/35F05D2260/20F23R3/06F23R3/20F23R3/28F23R2900/00018
    • A method of producing cooling apertures (68) in a combustion chamber head (50) comprises mechanically drilling a plurality of cooling apertures (68) through the combustion chamber head (50) from the downstream side (50B) of the combustion chamber head (50A. A tool (94) is inserted through at least one aperture (56) for a fuel injector from the downstream side (50B) of the combustion chamber head (50) and the tool (94) is rotated about its axis whilst within the aperture (56) for a fuel injector. Fluid is supplied from the drilling machine through the tool (94) and jets of fluid (F) are directed from nozzles (98) in the tool (94) with at least a radial component towards the cooling apertures (68) on the upstream side (50A) of the combustion chamber head (50) to remove burrs and/or caps (70) adjacent the cooling apertures (68). The present disclosure enables cooling apertures (68) to be drilled through a combustion chamber head (58) using conventional mechanical drilling in a viable and cost effective manner.
    • 一种在燃烧室头部(50)中产生冷却孔(68)的方法包括从燃烧室头部(50A)的下游侧(50B)机械地钻出穿过燃烧室头部(50)的多个冷却孔隙(68) ,从燃烧室头部(50)的下游侧(50B)穿过用于燃料喷射器的至少一个孔(56)插入工具(94),并且工具(94)围绕其轴线旋转,同时在孔 (94)中供给流体,并且从工具(94)中的喷嘴(98)引导流体(F)的射流,其中至少径向分量朝向冷却器 (50)的上游侧(50A)上的孔(68),以去除邻近冷却孔(68)的毛刺和/或帽(70)。本公开使得冷却孔(68) 燃烧室头部(58)使用传统的机械钻孔, 成本效益的方式。
    • 6. 发明公开
    • A METHOD AND AN APPARATUS FOR PRODUCING COOLING APERTURES IN A COMBUSTION CHAMBER HEAD
    • EEREM BRENNKAMMERKOPF VERFAHREN ZUR ERZEUGUNG VONKÜHLUNGSÖFFNUNGEN
    • EP2977133A1
    • 2016-01-27
    • EP15176390.1
    • 2015-07-13
    • Rolls-Royce plc
    • Garry, IanHufton, Neil
    • B23B35/00B08B3/02
    • F02C7/12B23B35/00B23B51/06B23B2215/76B23B2220/08B23B2270/28B23B2270/30B33Y80/00F05D2220/32F05D2230/10F05D2240/35F05D2260/20F23R3/06F23R3/20F23R3/28F23R2900/00018
    • A method of producing cooling apertures (68) in a combustion chamber head (50) comprises mechanically drilling a plurality of cooling apertures (68) through the combustion chamber head (50) from the downstream side (50B) of the combustion chamber head (50A. A tool (94) is inserted through at least one aperture (56) for a fuel injector from the downstream side (50B) of the combustion chamber head (50) and the tool (94) is rotated about its axis whilst within the aperture (56) for a fuel injector. Fluid is supplied from the drilling machine through the tool (94) and jets of fluid (F) are directed from nozzles (98) in the tool (94) with at least a radial component towards the cooling apertures (68) on the upstream side (50A) of the combustion chamber head (50) to remove burrs and/or caps (70) adjacent the cooling apertures (68). The present disclosure enables cooling apertures (68) to be drilled through a combustion chamber head (58) using conventional mechanical drilling in a viable and cost effective manner.
    • 在燃烧室头部(50)中产生冷却孔(68)的方法包括从燃烧室头部(50A)的下游侧(50B)机械地钻出穿过燃烧室头部(50)的多个冷却孔(68) 工具(94)从燃烧室头部(50)的下游侧(50B)穿过用于燃料喷射器的至少一个孔(56)插入,并且工具(94)围绕其轴线旋转,同时在孔 (56)用于燃料喷射器,流体从钻孔机通过工具(94)供应,并且流体(F)的射流从工具(94)中的喷嘴(98)被引导至少具有朝向冷却的径向分量 在燃烧室头部(50)的上游侧(50A)上的孔(68),用于去除与冷却孔(68)相邻的毛刺和/或盖(70)。本公开使得能够通过 燃烧室头部(58),其使用常规的机械钻孔在可行的和 成本有效的方式。
    • 7. 发明公开
    • PROCESSING APPARATUS AND BURR REMOVAL DEVICE
    • VERARBEITUNGSVORRICHTUNG UND GRATENTFERNUNGSVORRICHTUNG
    • EP2960010A1
    • 2015-12-30
    • EP14883509.3
    • 2014-02-19
    • Nittan Valve Co., Ltd.
    • ZENKE AtsushiOISHI Yasunori
    • B23P23/02B23C3/12B23D79/00F01L3/24
    • B23B5/167B23B5/16B23B2215/24B23B2220/08B23P15/002B23P23/02B24B5/04B24B5/22B24B9/002B24B15/04F01L3/24F01L2103/00
    • To perform deburring without increasing a machining line length between a cutting device and a grinding device, and to prevent abnormal wear of a rubbing stone based on the deburring by the grinding device. A pair of pinching members (60) which pinch a workpiece stem portion (W1) and a deburring tool (35) which performs deburring with respect to the workpiece stem portion (W1) pinched by the pair of pinching members (60) are disposed under a pair of guide rails (17). The deburring tool (35) has a recess (42) so that an opening of the recess (42) faces the other end face of the stem portion (W1) of a workpiece W, and is capable of a displacement motion in an axis extension direction of the recess (42) while rotating around the axis of the recess (42), and additionally, an inner circumferential surface (42a) of the recess is formed so as to reduce its diameter as it goes from an opening side of the recess (42) toward an internal side of the recess (42), and a blade portion (46a) is provided on the inner circumferential surface (42a) of the recess.
    • 在不增加切割装置和研磨装置之间的加工线长度的情况下进行去毛刺,并且防止基于研磨装置的去毛刺的摩擦石的异常磨损。 一对夹持工件杆部(W1)的夹紧构件(60)和相对于由一对夹持构件(60)夹持的工件杆部(W1)进行去毛刺的去毛刺工具(35)设置在 一对导轨(17)。 去毛刺工具(35)具有凹部(42),使得凹部(42)的开口面对工件W的杆部(W1)的另一端面,并且能够在轴向延伸方向上的位移运动 同时围绕凹部(42)的轴线旋转时的凹部(42)的方向,另外,凹部的内周面(42a)形成为从凹部(42)的开口侧开始直径减小 (42)朝向所述凹部(42)的内侧,并且在所述凹部的内周面(42a)上设置有叶片部(46a)。