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    • 2. 发明申请
    • TUBE PROFILE MACHINING PROCESS
    • 管材加工工艺
    • WO2014092871A4
    • 2014-08-07
    • PCT/US2013067420
    • 2013-10-30
    • DANA AUTOMOTIVE SYSTEMS GROUP
    • SMITH JOHNNY NO'NEIL THOMAS M
    • B23K20/06B23K20/24B23K33/00F16C3/02
    • B23K20/24B23B41/06B23B2222/04B23K20/06B23K33/00B23K2201/06B23K2203/10F16C3/023F16L9/02F16L13/0209
    • In a first embodiment, at a time of magnetic pulse welding, a stepped tube profile machining process axially bores a walled tube (10) from an end inward to a transition depth (14) to form a section with a reduced wall thickness (16) and then axially bores the walled tube (10) from the transition depth (14) to a fall off depth (18), thereby forming a section with a maximized welding wall section (20). In a second embodiment, also at a time of magnetic pulse welding, a surface angle tube profile machining process axially bores at a surface angle a walled tube (30) from an end to a bore length (34) to form an angular welding wall thickness (36) inward to a maximized wall section (38). For both embodiments, the bored surfaces are virgin with no pits, oil, residue, or oxidation thereon, thus making the machined walled tubes available for immediate magnetic pulse welding.
    • 在第一实施例中,在磁脉冲焊接时,阶梯管型材加工过程从端部向内轴向地穿过壁管(10)到过渡深度(14)以形成壁厚减小的部分(16) 然后从过渡深度(14)轴向地将壁管(10)穿孔到脱落深度(18),从而形成具有最大化的焊接壁部分(20)的截面。 在第二实施例中,同样在磁脉冲焊接时,表面角管剖面加工过程从壁的端部到孔长度(34)轴向地以壁表面的角度轴向地钻有壁管(30),以形成角焊接壁厚度 (36)向内延伸到最大化的壁段(38)。 对于两个实施例而言,钻孔表面都是原始的,其上没有凹坑,油,残留物或氧化物,从而使机加工的壁管可用于立即磁脉冲焊接。
    • 5. 发明申请
    • BEARBEITUNGSVORRICHTUNG ZUR HERSTELLUNG EINES PLASTIFIZIERZYLINDERS
    • 处理设备用于生产增塑剂
    • WO2006010729A1
    • 2006-02-02
    • PCT/EP2005/053514
    • 2005-07-20
    • Krauss-Maffei Kunststofftechnik GmbHMAYER, LUDWIG
    • MAYER, LUDWIG
    • B23B5/38
    • B23B5/38B23B41/06B23B2265/12B29C47/0016B29C47/66Y10T82/10Y10T82/16
    • Die Erfindung betrifft eine Bearbeitungsvorrichtung zur Herstellung eines Plastifizierzylinders (20, 20') mit zumindest einer konischen Schneckenbohrung umfassend eine Einspanneinrichtung (12, 12', 14, 14') zum Einspannen des zu bearbeitenden Plastifizierzylinders (20, 20') sowie eine Bearbeitungseinheit (40, 100) zur Bearbeitung der konischen Scheckenbohrung. Erfindungsgemäß ist vorgesehen, dass die Einspanneinrichtung (12, 12', 14, 14') drehangetrieben ist, dass die Einspanneinrichtung (12, 12', 14, 14') zur außermittigen Aufnahme des zu bearbeitenden Plastifizierzylinders (20) ausgebildet derart ist, dass bei einer Drehung der Einspanneinrichtung (12, 12', 14, 14') eine taumelnden Drehung des Plastifizierzylinders (20) um seine Symmetrieachse erreicht ist, wobei die spätere Zentrallinie der konischen Bohrung die Drehachse bildet, dass die Bearbeitungs- einheit (40, 100) einen Drehmeißel (46, 106) aufweist, und dass der Drehmeißel (46, 106) in Richtung der Drehachse linear hin und her verfahrbar ist.
    • 本发明涉及一种加工设备用于制造增塑缸(20,20“)配有至少一个锥形螺钉孔包括一夹紧装置(12,12”,14,14“),用于在增塑缸的夹紧待加工(20,20”)和一个处理单元( 40,100)用于加工所述锥形检查孔。 根据本发明,它提供的是,夹紧装置(12,12”,14,14‘)被驱动旋转,所述夹紧装置(12,12’,14,14' ),以塑化料筒的偏离中心视图被加工(20)被形成为使得 在所述卡盘(12,12”,14,14' )的旋转具有塑化料筒的摆动旋转(20)达到其对称轴,其中,所述锥形孔形成的旋转轴的后中心线,该处理单元(40,100 )具有车削刀具(46,106),并且所述车削刀具(46,106)线性地移动在旋转轴线的方向来回。
    • 7. 发明申请
    • TUBE PROFILE MACHINING PROCESS
    • 管型材加工工艺
    • WO2014092871A1
    • 2014-06-19
    • PCT/US2013/067420
    • 2013-10-30
    • DANA AUTOMOTIVE SYSTEMS GROUP, LLC
    • SMITH, Johnny, N.O'NEIL, Thomas, M.
    • B23K20/06B23K20/24B23K33/00F16C3/02
    • B23K20/24B23B41/06B23B2222/04B23K20/06B23K33/00B23K2201/06B23K2203/10F16C3/023F16L9/02F16L13/0209
    • In a first embodiment, at a time of magnetic pulse welding, a stepped tube profile machining process axially bores a walled tube (10) from an end inward to a transition depth (14) to form a section with a reduced wall thickness (16) and then axially bores the walled tube (10) from the transition depth (14) to a fall off depth (18), thereby forming a section with a maximized welding wall section (20). In a second embodiment, also at a time of magnetic pulse welding, a surface angle tube profile machining process axially bores at a surface angle a walled tube (30) from an end to a bore length (34) to form an angular welding wall thickness (36) inward to a maximized wall section (38). For both embodiments, the bored surfaces are virgin with no pits, oil, residue, or oxidation thereon, thus making the machined walled tubes available for immediate magnetic pulse welding.
    • 在第一实施例中,在磁脉冲焊接时,阶梯式管型材加工工艺从一端向内轴向地将一端壁向内延伸至一过渡深度(14),以形成具有减小的壁厚(16)的截面, 然后将所述壁管(10)从所述过渡深度(14)轴向地打孔到脱落深度(18),从而形成具有最大化焊接壁部分(20)的部分。 在第二实施例中,也是在磁脉冲焊接时,表面角管型材加工工艺以从端部到孔长度(34)的一个表面角度的一个壁管(30)轴向地孔,以形成角焊接壁厚度 (36)向内到达最大壁部分(38)。 对于两个实施例,钻孔表面是原始的,没有凹坑,油,残余物或氧化,因此使加工的壁管可用于立即磁脉冲焊接。
    • 9. 发明申请
    • NUMERICALLY CONTROLLED ORBITAL MACHINING APPARATUS
    • 数控机床加工设备
    • WO2003008136A1
    • 2003-01-30
    • PCT/SE2002/001365
    • 2002-07-10
    • NOVATOR ABLINDERHOLM, DagROSWALL, GöranNYGREN, Joakim
    • LINDERHOLM, DagROSWALL, GöranNYGREN, Joakim
    • B23C1/12
    • B23Q1/5468B23B41/06B23B2265/12B23C3/02B23C2220/52B23Q1/4885Y10T409/30056Y10T409/307056Y10T409/307616
    • An orbital machining apparatus (10) for producing a cylindrical or conical hole in a workpiece by means of a cylindrical cutting tool (14). The apparatus comprises a radial offset mechanism configured for controlling the radial distance of the center axis (16) of the cutting tool (14) from a principal axis. The radial offset mechanism comprises an inner cylindrical body (24) having an eccentric cylindrical hole, said eccentric hole having a longitudinal center axis that is parallel to and radially offset from a longitudinal center axis of said inner body (24); and an outer cylindrical body (36) having an eccentric cylindrical hole, said eccentric hole of said outer body (36) having a longitudinal center axis (38) that is parallel to and radially offset from a longitudinal center axis of said outer body, said inner cylindrical body (24) being radially supported in said eccentric hole of the outer cylindrical body (36) and ro-tatable therein so as to adjust the radial distance of said center axis of the cutting tool (14) from said principal axis.
    • 一种用于通过圆柱形切割工具(14)在工件中产生圆柱形或锥形孔的轨道加工设备(10)。 该装置包括径向偏移机构,其构造成用于控制切割工具(14)的中心轴线(16)与主轴线的径向距离。 径向偏移机构包括具有偏心圆柱孔的内筒体(24),所述偏心孔具有与所述内体(24)的纵向中心轴线平行并径向偏移的纵向中心轴线; 以及具有偏心圆筒孔的外筒体(36),所述外体(36)的所述偏心孔具有与所述外体的纵向中心轴线平行且径向偏移的纵向中心轴线(38),所述中心轴线 内圆柱体(24)径向支撑在外圆筒体(36)的偏心孔中并在其中可旋转,以便调节切削工具(14)的所述中心轴线与所述主轴的径向距离。