| 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 | 用于研磨和测试齿轮的装置 | CN201410858395.9 | 2014-11-20 | CN104722852B | 2017-09-29 | H·穆勒 |
| 本发明涉及用于研磨或测试齿轮(T、R)的装置(100),其具有:第一主轴组(111),其用于卡特第一齿轮(T),由此第一齿轮(T)能够安装在第一主轴组(111)上,从而能够绕着第一旋转轴(TA)旋转;第二主轴组(112),其用于卡持第二齿轮(R),由此第二齿轮(R)能够安装在第二主轴组(112)上,从而能够绕着第二旋转轴(RA)旋转;第一线性轴(LA1),其用于实施第一齿轮(T)与第一主轴组(111)相对于第二齿轮(R)与第二主轴组(112)的第一线性位移;以及第二线性轴(LA2),其用于实施第一齿轮(T)与第一主轴组(111)相对于第二齿轮(R)与第二主轴组(112)的第二线性位移,其中所述装置(100)还包括:回转轴(SA),用于使第一齿轮(T)与第一主轴组(111)或者第二齿轮(R)与第二主轴组(112)绕着该回转轴(SA)枢转。 | ||||||
| 2 | 一种高速干切滚齿机用转台 | CN201610434838.0 | 2016-06-19 | CN105855919A | 2016-08-17 | 陈文旭 |
| 本发明公开了一种高速干切滚齿机用转台,其中,伺服电机安装在底盖的底面上,第一主动齿轮安装在伺服电机的输出轴上,底盖安装在箱体的底面上,右齿轮轴安装在箱体的安装孔里,第一从动齿轮安装在右齿轮轴上,左齿轮轴安装在箱体的安装孔里,第二从动齿轮安装在左齿轮轴上,轴承座安装在底盖的安装孔里,转轴通过组合轴承安装在轴承座上,轴承压盖安装在轴承座的底面上,第三从动齿轮安装在转轴上,径向静压支撑圈安装在箱体上,静压支撑块安装在径向静压支撑圈的顶面上,台面安装在转轴的顶面上,活塞通过导柱安装在转轴的中心孔里,转筒安装在活塞的中心孔里,撞杆通过轴承安装在转筒的中心孔里,消隙马达安装在箱体上。 | ||||||
| 3 | 齿轮加工机 | CN201280061605.0 | 2012-12-12 | CN103998170B | 2016-06-22 | K·E·格拉索; W·D·麦格拉森 |
| 一种机床(2),包括具有包括第一平坦面(10)的第一侧(6)的机床基座(4)和可沿第一平坦面上的弧形路径(B)运动的机床立柱(20)。机床还包括第一主轴(36),该第一主轴可沿第一直线方向(Y)运动并且绕第一转动轴线(A)转动。机床还包括位于机床基座的第一侧的第二平坦面(12)上的机床转塔(40)。机床转塔可绕枢转轴线(T)作角度运动(P)。机床转塔包括定位在转塔内的第二主轴(42),该第二主轴可绕第二转动轴线(W)转动并且可沿第二直线方向(X)运动。 | ||||||
| 4 | 齿轮加工机 | CN201280061605.0 | 2012-12-12 | CN103998170A | 2014-08-20 | K·E·格拉索; W·D·麦格拉森 |
| 一种机床(2),包括具有包括第一平坦面(10)的第一侧(6)的机床基座(4)和可沿第一平坦面上的弧形路径(B)运动的机床立柱(20)。机床还包括第一主轴(36),该第一主轴可沿第一直线方向(Y)运动并且绕第一转动轴线(A)转动。机床还包括位于机床基座的第一侧的第二平坦面(12)上的机床转塔(40)。机床转塔可绕枢转轴线(T)作角度运动(P)。机床转塔包括定位在转塔内的第二主轴(42),该第二主轴可绕第二转动轴线(W)转动并且可沿第二直线方向(X)运动。 | ||||||
| 5 | 超大精密齿圈的加工方法、所制齿圈及齿圈的装配方法 | CN201410061179.1 | 2014-02-24 | CN103817501A | 2014-05-28 | 许仁伟; 牟杏华; 姜维杰; 倪官仁; 石利军 |
| 本发明涉及超大精密齿圈的技术领域,尤其是一种超大精密齿圈的加工方法、所制齿圈及齿圈的装配方法,其加工方法主要工序包括精车工序、滚齿工序以及磨齿工序;磨齿工序具体步骤为:首先对滚齿后的齿圈进行定位夹装,然后按工艺要求对齿圈进行磨齿,磨齿完成后,利用磨齿砂轮在齿圈的齿顶外圆上磨出找正带,磨齿顶圆时磨齿砂轮与齿圈端面呈35°~45°的夹角。该超大精密齿圈的加工方法、所制齿圈及齿圈的装配方法保证了磨齿精度与产品安装基准精度同步,获得了提高装配精度和装配效率的新方法。 | ||||||
| 6 | 数控齿轮机工件主轴尾顶系统及方法 | CN201710307109.3 | 2017-05-04 | CN107350570A | 2017-11-17 | 李海; 凌爱萍; 刘雁; 罗兴征 |
| 本发明提供了一种数控齿轮机工件主轴尾顶系统及方法,涉及数控机床技术领域。本发明包括主轴、尾顶架、伺服驱动机构、输入面板和控制单元,所述输入面板用于输入顶紧力数据,输入面板与控制单元连接,控制单元将输入面板上输入的顶紧力数据转换为伺服驱动机构的控制参数,在伺服控制器的作用下,伺服驱动机构驱动尾顶架对工件进行顶紧。本发明的尾顶系统及方法可以有效消减或消除被加工工件尺寸大小、顶紧基点不稳定等因素造成的影响,可有效消除因上述原因造成的工件加工不合格的情况。 | ||||||
| 7 | 一种星轮磨床结构 | CN201710022955.0 | 2017-01-12 | CN106862677A | 2017-06-20 | 李媛媛; 党军朋; 梁英杰; 陈伟良 |
| 本发明公开了一种星轮磨床结构,包括机床底座,机床底座上设有机床横梁,机床横梁上设有工件主轴座及Z向滑板,Z向滑板上固定有工件主轴,工件主轴上设有A轴,机床底座上还设有可沿Y轴滑动的大滑板,大滑板上设有可绕B轴旋转的转台,转台上设有可沿V轴滑动的砂轮。此星轮磨床结构可通过机床横梁上设置的工件主轴对待加工的星轮工件进行一次装夹定位,随后通过工件主轴在X轴和Z轴的移动以及大滑板和转台在Y轴和V轴的移动来调整待加工的工件和砂轮之间的位置,并通过调整A轴和B轴之间的传动比来控制星轮加工的加工精度,从而实现一次装夹定位即可完成星轮的加工,节省加工工序,并能有效提高加工精度,此发明用于机床结构领域。 | ||||||
| 8 | 用于齿轮磨削加工的数控机床 | CN201611083168.9 | 2016-11-30 | CN106625250A | 2017-05-10 | 邹云高; 庞云 |
| 本发明涉及磨削加工技术领域,针对现有齿轮磨床操作复杂、占用空间大、效率低的缺点,公开了用于齿轮磨削加工的数控机床,包括数控系统、基座、砂轮进给机构、砂轮修型机构、展成运动机构;砂轮进给机构安装在基座上,砂轮进给机构上设有用于控制砂轮进给机构的第一电机和第二电机;砂轮修型机构安装在砂轮进给机构上,砂轮修型机构上设有用于控制砂轮修型机构的第三电机和第四电机;展成运动机构安装在基座上,展成运动机构上设有用于控制展成运动机构的第五电机和第六电机;数控系统通过线缆与以上所有电机连接,控制用于齿轮磨削加工的数控机床运行。本发明用于齿轮磨削加工,具有操作简单、节省空间、效率高的有益效果。 | ||||||
| 9 | T160推土机单绞盘主动锥齿轮对滚工具 | CN201510355670.X | 2015-06-20 | CN106312646A | 2017-01-11 | 祁晶; 范春仙; 王华; 赵志远; 袁立会; 王秀红 |
| T160推土机单绞盘主动锥齿轮进行淬火热处理加工后,其锥齿部分产生变形,原来由于没有专用对滚工具,且由于采用内孔定位,旋转自由度在加工过程中形成的定位误差大,内花键与弧齿的同轴度不好,啮合时与内花键形成跳动,影响啮合效果,噪音偏高。采用该T160推土机单绞盘主动锥齿轮对滚的专用工具,通过盆齿验齿工具心轴及定位套实现工件与心轴,机床与心轴的定位,拉紧螺杆与机床、螺母连接,同时使用专用垫圈夹紧工件,保证主动锥齿轮对滚工序顺利进行。实现了主动锥齿轮内花键与机床的定位,按照中心距安装,提高啮合率,减少零件误差。 | ||||||
| 10 | 一种齿条旋切加工装置 | CN201610267129.8 | 2016-04-27 | CN105834526A | 2016-08-10 | 柳国豪 |
| 本发明涉及一种齿条旋切加工装置,包括底座,底座上设有支撑板,支撑板的端部之间设有导向板,导向板上设有旋切电机,旋切电机设有驱动轴,驱动轴的端部设有旋切轮;底座上设有导向管,导向管内套装有旋转调节柱,旋转调节柱的端部上设有载物台。本发明的载物台可以通过旋转调节柱沿着导向管实现水平转动调节,从而方便对载物台上的齿条进行灵活操作;旋切电机通过驱动轴方便对旋切轮进行旋转操作,通过旋切轮可以方便对齿条进行旋切加工。 | ||||||
| 11 | 用于研磨和测试齿轮的装置 | CN201410858395.9 | 2014-11-20 | CN104722852A | 2015-06-24 | H·穆勒 |
| 本发明涉及用于研磨或测试齿轮(T、R)的装置(100),其具有:第一主轴组(111),其用于卡特第一齿轮(T),由此第一齿轮(T)能够安装在第一主轴组(111)上,从而能够绕着第一旋转轴(TA)旋转;第二主轴组(112),其用于卡持第二齿轮(R),由此第二齿轮(R)能够安装在第二主轴组(112)上,从而能够绕着第二旋转轴(RA)旋转;第一线性轴(LA1),其用于实施第一齿轮(T)与第一主轴组(111)相对于第二齿轮(R)与第二主轴组(112)的第一线性位移;以及第二线性轴(LA2),其用于实施第一齿轮(T)与第一主轴组(111)相对于第二齿轮(R)与第二主轴组(112)的第二线性位移,其中所述装置(100)还包括:回转轴(SA),用于使第一齿轮(T)与第一主轴组(111)或者第二齿轮(R)与第二主轴组(112)绕着该回转轴(SA)枢转。 | ||||||
| 12 | FLEXIBLE AUTOMATION CELL FOR PERFORMING SECONDARY OPERATIONS IN CONCERT WITH A MACHINING CENTER AND ROLL CHECK OPERATIONS | US15412621 | 2017-01-23 | US20170131179A1 | 2017-05-11 | Predrag Lazic; Chris Mackey; Steve Moore |
| An automation cell incorporating elements for performing secondary operations on a machined part is adapted to be disposed adjacent to a machining center for performing the primary operations on the part. The cell incorporates a robotic arm capable of being moved into position with respect to the machining center so as to load machined parts into the machining center and unload primarily machined parts for the performance of secondary operations in the cell. In a preferred embodiment the automation cell performs roll check operations on the primarily machined gear by bringing it into meshed engagement with a master gear and rotating the meshed gears and employing a sensor to monitor the roll-out of the machined gear. | ||||||
| 13 | 歯車を製造する、および/または、加工する方法および歯切盤 | JP2016514299 | 2014-05-20 | JP2016522092A | 2016-07-28 | ブローニ ヨハネス; クレブサー ゲルハルト; シュナイダー クリストフ; フィリッピン マティアス |
| 本発明は、被加工物において歯車を製造、および/または、加工する方法に関し、被加工物は、その被加工物が被加工物用スピンドルに連結される締付け装置により締め付けられ、加工されるために第1の工具に接触される第1の位置からその被加工物が加工されるために第2の工具に接触される第2の位置に、締め付けられたまま、移動される。その移動が実行される以前に、締付け装置と被加工物用スピンドルとの間の連結は、切り離され、第2の工具を有する加工位置に移動された後、締付け装置は、他の被加工物用スピンドルに連結される。 | ||||||
| 14 | VERFAHREN ZUM ERZEUGEN ODER BEARBEITEN VON VERZAHNUNGEN UND DAZU AUSGELEGTE VERZAHNUNGSMASCHINE | EP16808914.2 | 2016-12-07 | EP3386670A1 | 2018-10-17 | KLEINBACH, Kurt; BROGNI, Johannes |
| The invention relates to a method for creating or machining gears on workpieces (W1, W2), in which a rolling first machining engagement between a machining tool (WF; WS) that is driven about its rotation axis (B) and a first workpiece that is rotatable about the rotation axis (C1) of a first workpiece-side spindle (11) is realized at a first location on a gear-cutting machine (100; 200) by means of a tool-side spindle drive motor (22), and in which a second machining engagement is realized at a second workpiece, different from the first workpiece, that is rotatable about the rotation axis of a second workpiece-side spindle (12) that is different from the first workpiece-side spindle, wherein the machining tool can execute, relative to the first workpiece-side spindle, a movement, serving as an axial infeed movement in the first machining engagement, along a tool-side machine axis (Z) that has a direction component in the direction of the first workpiece-side spindle axis and in particular extends parallel thereto, wherein, after the first machining engagement, a tool-side positioning movement that takes place along this tool-side machine axis and allows the second machining engagement is carried out, wherein the second machining engagement is a machining engagement that is identical to the first machining engagement in terms of type of machining, is effected using the same tool-side spindle drive motor as in the first machining, and is carried out in the gear-cutting machine at a second point that is different from the first point. | ||||||
| 15 | GEAR PROCESSING MACHINE | EP12806301.3 | 2012-12-12 | EP2790862A2 | 2014-10-22 | GLASOW, Kenneth, E.; MCGLASSON, William, D. |
| A machine tool (2) comprising a machine base (4) having a first side (6) comprising a first planar surface (10) and a machine column (20) movable along an arcuate path (B) on the first planar surface. The machine further comprises a first spindle (36) movable in a first linear direction (Y) and being rotatable about a first axis of rotation (A). The machine further comprises a machine turret (40) located on a second planar surface (12) of the machine base first side. The machine turret is angularly movable (P) about a pivot axis (T). The machine turret includes a second spindle (42) positioned within the turret with the second spindle being rotatable about a second axis of rotation (W) and being movable in a second linear direction (X). | ||||||
| 16 | METHOD FOR CREATING OR MACHINING GEARS AND GEAR-CUTTING MACHINE DESIGNED THEREFOR | US15777743 | 2016-12-07 | US20180339353A1 | 2018-11-29 | Kurt KLEINBACH; Johannes BROGNI |
| The invention relates to a method for creating or machining gears on workpieces (W1, W2), in which a rolling first machining engagement between a machining tool (WF; WS) that is driven about its rotation axis (B) and a first workpiece that is rotatable about the rotation axis (C1) of a first workpiece-side spindle (11) is realized at a first location on a gear-cutting machine (100; 200) by means of a tool-side spindle drive motor (22), and in which a second machining engagement is realized at a second workpiece, different from the first workpiece, that is rotatable about the rotation axis of a second workpiece-side spindle (12) that is different from the first workpiece-side spindle, wherein the machining tool can execute, relative to the first workpiece-side spindle, a movement, serving as an axial infeed movement in the first machining engagement, along a tool-side machine axis (Z) that has a direction component in the direction of the first workpiece-side spindle axis and in particular extends parallel thereto, wherein, after the first machining engagement, a tool-side positioning movement that takes place along this tool-side machine axis and allows the second machining engagement is carried out, wherein the second machining engagement is a machining engagement that is identical to the first machining engagement in terms of type of machining, is effected using the same tool-side spindle drive motor as in the first machining, and is carried out in the gear-cutting machine at a second point that is different from the first point. | ||||||
| 17 | Apparatus for the lapping or testing of gears | US14549014 | 2014-11-20 | US09702784B2 | 2017-07-11 | Hartmuth Müller |
| An apparatus including a first spindle group for chucking a first gear, whereby the first gear is mountable on the first spindle group so that it is rotatable, and a second spindle group for chucking a second gear, whereby the second gear is mountable on the second spindle group so that it is rotatable. The apparatus further defining a first linear axis oriented to perform a first linear displacement of the first spindle group relative to the second spindle group; a second linear axis oriented to perform a second linear displacement of the first spindle group relative to the second spindle group; and at least one of a swivel axis oriented to perform pivoting of the first spindle group thereabout, and a swivel axis oriented to perform pivoting of the second spindle group thereabout. | ||||||
| 18 | METHOD FOR PRODUCING AND/OR PROCESSING A GEAR AND GEAR CUTTING MACHINE | US14891687 | 2014-05-20 | US20160114417A1 | 2016-04-28 | Johannes Brogni; Gerhard Krebser; Christoph Schneider; Matthias Philippin |
| The invention concerns a method to generate and/or machine gear teeth on a workpiece, wherein the workpiece is subjected to a movement from a first location where the workpiece, while being held by a clamping device connected to a workpiece spindle, is brought into machining engagement with a first tool, to a second location where the work piece, while remaining in its clamped condition, is brought into machining engagement with a second tool, wherein prior to performing the movement, the connection between the clamping device and the workpiece spindle is released, and after the movement, the clamping device is connected to another workpiece spindle for the machining engagement with the second tool. | ||||||
| 19 | Gear processing machine | US13711678 | 2012-12-12 | US09216466B2 | 2015-12-22 | Kenneth E. Glasow; William D. McGlasson |
| A machine tool comprising a machine base having a first side comprising a first planar surface and a machine column movable along an arcuate path on the first planar surface. The machine further comprises a first spindle movable in a first linear direction and being rotatable about a first axis of rotation. The machine further comprises a machine turret located on a second planar surface of the machine base first side. The machine turret is angularly movable about a pivot axis. The machine turret includes a second spindle positioned within the turret with the second spindle being rotatable about a second axis of rotation and being movable in a second linear direction. | ||||||
| 20 | GEAR PROCESSING MACHINE | US13711678 | 2012-12-12 | US20130149061A1 | 2013-06-13 | Kenneth E. Glasow; William D. McGlasson |
| A machine tool comprising a machine base having a first side comprising a first planar surface and a machine column movable along an arcuate path on the first planar surface. The machine further comprises a first spindle movable in a first linear direction and being rotatable about a first axis of rotation. The machine further comprises a machine turret located on a second planar surface of the machine base first side. The machine turret is angularly movable about a pivot axis. The machine turret includes a second spindle positioned within the turret with the second spindle being rotatable about a second axis of rotation and being movable in a second linear direction. | ||||||
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