| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 一种凸轮轴铣打中心孔工装及使用其打中心孔方法 | CN201410705840.8 | 2014-11-26 | CN104493268A | 2015-04-08 | 覃世拥; 曾小明; 唐水平; 利洁 |
| 本发明公开了一种凸轮轴铣打中心孔工装及使用其打中心孔方法,包括油缸和底板,底板的左右两侧分别设置有左右V型块,底板中间设有基座,基座的内部设置有调节轴、弹簧,调节轴的一端设置有左拨块,左拨块同时与油缸相连接,调节轴的右端设置有右拨块,右拨块通过螺母固定锁紧在调节轴上;高平台部的右侧固定有定位块,定位块后侧的高平台部设置有定位板,定位板上有支撑钉;支撑钉的前部设置有铣刀;高平台部的左侧设置有两个防错销。凸轮轴在打中心孔时,将凸轮轴放在工装上,防错销、支撑钉对凸轮轴的前后位置调整定位,左侧拨块、右侧拨块对凸轮轴的左右位置调整定位,定位基准精确可靠,加工精度高,提高产品合格率。 | ||||||
| 2 | 铣刀 | CN200310123746.3 | 2003-12-24 | CN1277644C | 2006-10-04 | 鲁伊·弗罗塔·德索萨; 斯科特·W·莱博 |
| 一种铣刀,具有多个立置式切削刀片,其围绕本体的周壁安装在槽内,刀具本体包括成一定角度的槽,其不仅允许有大量的接收刀片的槽,而且允许相对容易地接近,从而插入和取出用于将各刀片固定在槽内的安装螺丝。 | ||||||
| 3 | 用于凸轮轴铣削装置的切削插入件 | CN01807765.X | 2001-04-03 | CN1189279C | 2005-02-16 | G·韦尔迈斯特 |
| 本发明涉及一切削件插入件,特别是用于铣削凸轮轴的切削插入件,此切削插入件有至少一个切削刃。本发明的目的是提供一切削插入件,它与传统的切削插入件相比能够具有明显的节约的优点。为此目的,本发明的切削插入件的至少一个切削刃是由多个切削刃分段组成的。当从与切削刃相邻的面的平面顶部的立体图看时,它具有下列的几何安排:一第一直分段(1),一与第一直分段(1)相邻的第二直分段(2),它们之间具有一大于90°,小于180°的角(α),以及一第三切削刃分段,此第三切削刃分段具有向上凸的曲面,并且与远离第一分段(1)的第二直分段(2)的端部相邻,此向上凸的曲面延伸一大于90°的角度,此向上凸的曲面也可以由彼此偏移(倾斜)的直的小分段所组成。 | ||||||
| 4 | 用于凸轮轴铣削装置的切削插入件 | CN01807765.X | 2001-04-03 | CN1422197A | 2003-06-04 | G·韦尔迈斯特 |
| 本发明涉及一切削件插入件,特别是用于铣削凸轮轴的切削插入件,此切削插入件有至少一个切削刃。本发明的目的是提供一切削插入件,它与传统的切削插入件相比能够具有明显的节约的优点。为此目的,本发明的切削插入件的至少一个切削刃是由多个切削刃分段组成的。当从与切削刃相邻的面的平面顶部的立体图看时,它具有下列的几何安排:一第一直分段(1),一与第一直分段(1)相邻的第二直分段(2),它们之间具有一大于90°,小于180°的角(α),以及一第三切削刃分段,此第三切削刃分段具有向上凸的曲面,并且与远离第一分段(1)的第二直分段(2)的端部相邻,此向上凸的曲面延伸一大于90°的角度,此向上凸的曲面也可以由彼此偏移(倾斜)的直的小分段所组成。 | ||||||
| 5 | 精密凸轮轴加工方法 | CN201510799466.7 | 2015-11-19 | CN105269052A | 2016-01-27 | 刘伟淋; 程璋; 李军; 叶成思 |
| 本发明公开了一种精密凸轮轴加工方法,包括:根据凸轮轮廓曲线生成凸轮轮廓轨迹,设置加工参数进而得到凸轮的实际加工路径,经后置处理得到用于数控加工的数控程序;将凸轮轴安装在数控机床上并在数控机床上导入数控程序,在凸轮轴的外圆周面上加工出凸轮槽。通过对凸轮轴加工用的数控程序进行优化,根据凸轮轮廓曲线生成凸轮轮廓轨迹,进而根据加工参数得到凸轮实际加工路径,避免了传统的三维实体建模导致的编程过程复杂及数控程序不易根据凸轮轴的设计精度进行调整的问题,从数控程序编制的环节上进行优化,以满足凸轮轴的加工精度,且编程过程简单,调整便利。 | ||||||
| 6 | 用于工件的车-车拉削或外部铣削的刀具 | CN200980116431.1 | 2009-03-06 | CN102015172B | 2013-07-17 | J·贝尔; M·海因洛特; R·弗洛伊杰; J·韦尔纳 |
| 本发明涉及一种用于在机加工过程中围绕纵向轴线转动的工件的车削/车拉削或外部铣削的刀具,该刀具包括一个盘形的刀具支架,该刀具支架具有在其周边上安置的多个卡座(20),每个所述卡座包含一个切削镶片(12,13,14),所述卡座是可紧固到一个环形的、部分环形的或分段的可移动的支架(11)上,该支架或者被直接紧固到一个机器转轴上或者通过一个适配器被间接地紧固到一个机器转轴上。根据本发明,卡座(20)包括一个板座,该板座具有一个就座表面(21)以及作为切削镶片(12,13,14)的接触表面的两个侧向表面(22,23),并且该卡座可以通过一个调节构件(27)被径向调节并且可以通过一个夹紧构件(18)被紧固;该卡座(20)进一步包括与切削镶片(12,13,14)的就座表面(21)平行的一个槽缝形凹槽(30),所述凹槽具有相对的凹槽壁,其中这些凹槽壁彼此相对的距离和角度通过一个调节螺钉(33)是可调节的,这样使得就座表面(20)的角度位置可以被改变。 | ||||||
| 7 | 用于工件的车-车拉削或外部铣削的刀具 | CN200980116431.1 | 2009-03-06 | CN102015172A | 2011-04-13 | J·贝尔; M·海因洛特; R·弗洛伊杰; J·韦尔纳 |
| 本发明涉及一种用于在机加工过程中围绕纵向轴线转动的工件的车削/车拉削或外部铣削的刀具,该刀具包括一个盘形的刀具支架,该刀具支架具有在其周边上安置的多个卡座(20),每个所述卡座包含一个切削镶片(12,13,14),所述卡座是可紧固到一个环形的、部分环形的或分段的可移动的支架(11)上,该支架或者被直接紧固到一个机器转轴上或者通过一个适配器被间接地紧固到一个机器转轴上。根据本发明,卡座(20)包括一个板座,该板座具有一个就座表面(21)以及作为切削镶片(12,13,14)的接触表面的两个侧向表面(22,23),并且该卡座可以通过一个调节构件(27)被径向调节并且可以通过一个夹紧构件(18)被紧固;该卡座(20)进一步包括与切削镶片(12,13,14)的就座表面(21)平行的一个槽缝形凹槽(30),所述凹槽具有相对的凹槽壁,其中这些凹槽壁彼此相对的距离和角度通过一个调节螺钉(33)是可调节的,这样使得就座表面(20)的角度位置可以被改变。 | ||||||
| 8 | 铣刀 | CN200310123746.3 | 2003-12-24 | CN1509833A | 2004-07-07 | 鲁伊·弗罗塔·德索萨; 斯科特·W·莱博 |
| 一种铣刀,具有多个立置式切削刀片,其围绕本体的周壁安装在槽内,刀具本体包括成一定角度的槽,其不仅允许有大量的接收刀片的槽,而且允许相对容易地接近,从而插入和取出用于将各刀片固定在槽内的安装螺丝。 | ||||||
| 9 | 一种制动器凸轮轴数控铣床机械 | CN201610292107.7 | 2016-05-05 | CN105750602A | 2016-07-13 | 许英英; 吴永成; 吴萍莉; 吴萍瑜; 吴艳艳 |
| 本发明公开了一种制动器凸轮轴数控铣床机械,包括基座,所述基座的前端安装有数控装置,且基座的前端安装有第一丝杠驱动装置,所述基座上安装有移动装置,且移动装置通过与第一丝杠驱动装置连接的第一丝杠驱动,所述移动装置的左端一体成型有固定凸起,且固定凸起的左端安装有调节丝杠驱动装置,所述固定凸起内安装有辅助轴,且移动装置的右端设置有第二丝杠驱动装置,本装置通过设计一种行程大,自由度大,且调节精准的新型凸轮轴铣床结构,使得凸轮轴在铣削过程中不容易变形,而且能够通过数控自动加工,因此具有很高的实用价值。 | ||||||
| 10 | 凸轮轴铣刀的切削头和相应的盘状铣刀 | CN00809075.0 | 2000-05-25 | CN1139451C | 2004-02-25 | G·韦尔迈斯特; H·格茨-维尔纳 |
| 本发明涉及一种凸轮轴铣刀的切削头和一相应的盘状铣刀,切削头包括一基本上是立方体的切削本体(1),该本体具有一上表面(2)和一基本上与之平行的下表面(3)、四个侧表面(4,4’)和沿侧表面(4,4’)与上表面(2)和/或下表面(3)的相交线形成的切削刃(5,6,7)。为了提供能简单加工生产的切削头和相应的盘状铣刀,使用它们能高效地加工具有平行于轴线(例如圆柱形)在边缘和/或在较小直径的一侧或两侧延伸部倾斜的一直的主部的凸轮外形,本发明建议,上表面(2)和/或下表面(3)在相互对角相对设置的拐角上具有突起拐角区域(8),它们各自伸出上、下表面(2,3)的平面,并延伸到侧表面(4,4’),使得切削刃(5,6,7)至少部分由侧表面(4,4’)与突起拐角区域(8)的表面的相交线所形成。 | ||||||
| 11 | 凸轮轴铣刀的切削头和相应的盘状铣刀 | CN00809075.0 | 2000-05-25 | CN1355733A | 2002-06-26 | G·韦尔迈斯特; H·格茨-维尔纳 |
| 本发明涉及一种凸轮轴铣刀的切削头和一相应的盘状铣刀,切削头包括一基本上是立方体的切削本体(1),该本体具有一上表面(2)和一基本上与之平行的下表面(3)、四个侧表面(4,4’)和沿侧表面(4,4’)与上表面(2)和/或下表面(3)的相交线形成的切削刃(5,6,7)。为了提供能简单加工生产的切削头和相应的盘状铣刀,使用它们能高效地加工具有平行于轴线(例如圆柱形)在边缘和/或在较小直径的一侧或两侧延伸部倾斜的一直的主部的凸轮外形,本发明建议,上表面(2)和/或下表面(3)在相互对角相对设置的拐角上具有突起拐角区域(8),它们各自伸出上、下表面(2,3)的平面,并延伸到侧表面(4,4’),使得切削刃(5,6,7)至少部分由侧表面(4,4’)与突起拐角区域(8)的表面的相交线所形成。 | ||||||
| 12 | Cutting insert and cutting insert holder therefor | US10018085 | 2000-05-25 | US06929428B1 | 2005-08-16 | Günter Wermeister; Heinz Götz-Werner |
| A milling cutter for machining camshafts includes a rotary disc and an annular row of cutting bits mounted in pockets formed in the disc. Each cutting bit includes a top surface having a pair of diagonally spaced raised portions. Cutting edges are formed where the top surface and the raised portions intersect side surfaces of the bit. The pockets are arranged along an edge of the disc where a cylindrical outer periphery of the disc intersects an end face of the disc. Each pocket is configured with an internal cavity for receiving a raised portion of an inactive cutting portion of the respective bit. | ||||||
| 13 | Toolholder and cutting insert used therein | US10827898 | 2004-04-20 | US20040265073A1 | 2004-12-30 | Brian D. Hoefler; Stephen J. Shubert; Ruy Frota de Souza, Filho; Scott W. Lebo; Ronald L. Dudzinsky |
| A toolholder at least one cutting insert mounted within a pocket about the peripheral wall of the cutter body. The body includes a pocket having an angled retention ledge which provides acts, in conjunction with a fastener, to securely retain an insert mounted therein. The insert has an angled edge which conforms with and works in conjunction with the toolholder pocket. | ||||||
| 14 | MILLING TOOL AND CUTTING INSERT FOR SUCH A MILLING TOOL | US15018924 | 2016-02-09 | US20160236286A1 | 2016-08-18 | Markus Heinloth; Jan Gruenler; Hans Woerner |
| A milling tool with a disk- or strip-shaped base body, which can be driven around an axis of rotation, and several cutting inserts arranged along the outer circumference of the base body on opposite sides from one another, wherein the cutting inserts, viewed in the axial direction, overlap one another. The invention also relates to a tangential cutting insert for a milling tool of the above-mentioned type, with two side surfaces, through which a fastening opening extends, and two face ends, wherein cutting edges are formed at the junction of the front faces to the side surfaces, wherein the fastening opening is positioned eccentrically. | ||||||
| 15 | TOOL FOR TURNING/TURN BROACHING OR EXTERNAL MILLING OF WORK PIECES | US12922868 | 2009-03-06 | US20110222973A1 | 2011-09-15 | Juergen Baer; Markus Heinloth; Reinhard Floiger; Johann Woerner |
| The invention relates to a tool for turning/turn broaching or external milling of work pieces rotating about longitudinal axes during machining, comprising a disc-shaped tool support having cassettes (20) disposed peripherally thereon, each of said cassettes containing a cutting insert (12, 13, 14), said cassettes being fastenable to a circular, partially circular or segmented removable support (11) that is fastened either directly to a machine spindle or indirectly to a machine spindle by way of an adapter. According to the invention, the cassette (20) comprises a plate seat with a seating surface (21) and two lateral surfaces (22, 23) as contact surfaces for the cutting insert (12, 13, 14) and can be radially adjusted by way of an adjustment member (27) and can be fastened by way of a clamping member (18); the cassette (20) further comprises a slit-shaped groove (30) parallel to the seating surface (21) for the cutting insert (12, 13, 14), said groove having opposing groove walls with a distance and angle with respect to one another that are adjustable by way of an adjustment screw (33) such that the angular position of the seating surface (20) can be changed. | ||||||
| 16 | Tool for turning/turn broaching or external milling of work pieces | US12922868 | 2009-03-06 | US08814478B2 | 2014-08-26 | Juergen Baer; Markus Heinloth; Reinhard Floiger; Johann Woerner |
| The invention relates to a tool for turning/turn broaching or external milling of work pieces rotating about longitudinal axes during machining, comprising a disc-shaped tool support having cassettes (20) disposed peripherally thereon, each of said cassettes containing a cutting insert (12, 13, 14), said cassettes being fastenable to a circular, partially circular or segmented removable support (11) that is fastened either directly to a machine spindle or indirectly to a machine spindle by way of an adapter. According to the invention, the cassette (20) comprises a plate seat with a seating surface (21) and two lateral surfaces (22, 23) as contact surfaces for the cutting insert (12, 13, 14) and can be radially adjusted by way of an adjustment member (27) and can be fastened by way of a clamping member (18); the cassette (20) further comprises a slit-shaped groove (30) parallel to the seating surface (21) for the cutting insert (12, 13, 14), said groove having opposing groove walls with a distance and angle with respect to one another that are adjustable by way of an adjustment screw (33) such that the angular position of the seating surface (20) can be changed. | ||||||
| 17 | Toolholder and cutting insert used therein | US10827898 | 2004-04-20 | US07357603B2 | 2008-04-15 | Brian D. Hoefler; Stephen J. Shubert; Ruy Frota de Souza Filho; Scott W. Lebo; Ronald L. Dudzinsky |
| A toolholder at least one cutting insert mounted within a pocket about the peripheral wall of the cutter body. The body includes a pocket having an angled retention ledge which provides acts, in conjunction with a fastener, to securely retain an insert mounted therein. The insert has an angled edge which conforms with and works in conjunction with the toolholder pocket. | ||||||
| 18 | Cutting insert for camshaft milling cutters | US10257112 | 2001-04-03 | US06939091B2 | 2005-09-06 | Günter Wermeister |
| A cutting insert for milling cam shafts includes first and second surface interconnected by a third surface, and at least one cutting edge. The cutting edge includes a straight first cutting edge section, a straight second cutting edge section, and a generally convex third cutting edge section, all adjoining one another. The first section extends along the junction between the first and third surfaces. The second section extends along the junction and includes a first end adjoining an end of the first section. The second is inclined at an obtuse angle from one end of the first section in a direction away from the third surface. The third section extends along the junction and adjoins a second end of the second section. The third section is of generally convex shape and extends over an angular range greater than 90°. The first, second and third sections lie in the third surface. | ||||||
| 19 | Milling cutter | US10328864 | 2002-12-24 | US06722823B1 | 2004-04-20 | Ruy Frota de Souza; Scott W. Lebo |
| A milling cutter having a plurality of on-edge cutting inserts mounted within pockets about the peripheral wall of the cutter body includes angled pockets which not only permit a greater number of pockets to accept inserts but furthermore permits relatively easy access to insert and remove mounting screws for securing each insert within a pocket. | ||||||
| 20 | Cutting insert for camshaft milling cutters | US10257112 | 2003-02-21 | US20030165363A1 | 2003-09-04 | Gunter Wermeister |
| The invention relates to a cutting insert, especially for milling camshafts, said cutting insert having at least one cutting edge. The aim of the invention is provide a cutting insert that allows for considerable savings as compared to conventional cutting inserts. To this end, at least one cutting edge of the inventive cutting insert is composed of a plurality of cutting edge sections that have the following geometrical allocations when viewed from a planar top perspective of the face adjoining the cutting edge: a first, straight section (1), a second, straight section (2) that adjoins the first section (1) and that includes an angle (null) of more than 90null and less than 180null with said first section, and a third cutting edge section that is convexly curved and that adjoins the end of the second section (2) facing away from the first section (1) and whose curved design, that may also consist of straight sub-sections offset with respect to one another, extends over an angular range of more than 90null. | ||||||
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