| 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 | 集装箱零部件自动钻孔机构 | CN201510591844.2 | 2015-09-16 | CN106541163A | 2017-03-29 | 李建军; 徐金明; 王煜; 张卞中; 鲁统文 |
| 本发明提供了一种集装箱零部件自动钻孔机构,用于在集装箱零部件上钻孔,集装箱零部件自动钻孔机构包括:主架、中间框、钻机安装架、至少一个钻机、第一动力装置和第二动力装置。中间框与主架连接;钻机安装架与中间框连接;至少一个钻机设置在钻机安装架上,并相对于钻机安装架上下可移动,钻机用于在集装箱零部件上钻孔;第一动力装置设置在中间框上并与钻机安装架连接,以带动钻机安装架和钻机沿第一水平方向移动;第二动力装置设置在主架上并与中间框连接,以带动中间框、钻机安装架以及钻机沿与第一水平方向垂直的第二水平方向移动。根据本发明的集装箱零部件自动钻孔机构,可解决人工成本高、效率低、钻孔质量不稳定、存在危险隐患的问题。 | ||||||
| 2 | 平行机械装置及检查装置 | CN00813299.2 | 2000-09-21 | CN1376265A | 2002-10-23 | 冈田尚史; 中原尚寿; 高桥一; 木场博之; 广濑和也 |
| 本发明的检查装置,备有至少3个可伸缩的直动促动器(5)、(12)、(13)、行走驱动机构、载物台支承部(23)和基板座(24)。上述行走驱动机构,将直动促动器(5)、(12)、(13)的基端部可沿导轨(2)、(6)、(7)直线移动地支承着,并且,在这些导轨(2)、(6)、(7)的至少一个上,具有随着直动促动器(12)、(13)的移动而高度变化的倾斜部(102)、(103)。上述载物台支承部(23),支承在直动促动器(5)、(12)、(13)的前端部。上述基板座(24)设在该可动部件上,用于保持被检体。 | ||||||
| 3 | 用于导轨挡片倒角加工的自动机床 | CN201610376572.9 | 2016-05-31 | CN105965310A | 2016-09-28 | 李江欢 |
| 本发明公开了一种用于导轨挡片倒角加工的自动机床,包括机架、设置于机架上端的台板及设置于台板上端的保护罩、振动料盘和自动倒角加工机构,振动料盘、自动倒角加工机构均位于保护罩内,自动倒角加工机构包括工作台面及设置于工作台面上方的用于在初始进料位置压住工件的气动下压机构、用于将工件从初始进料位置推至加工位的并在加工结束后将工件输出的气动推料机构、用于对工件倒角加工的倒角加工机构和在加工位旁侧的用于将工件限位至加工位的气动挡料机构,振动料盘的出料口位于初始进料位置的旁侧。本发明能够自动上料,自动连续对导轨挡片进行倒角加工,并能一次加工成型,其生产效率高,能有效减少作业人员数量,降低生产成本。 | ||||||
| 4 | 两段式位移的钻孔机 | CN201310480276.X | 2013-10-15 | CN104551098A | 2015-04-29 | 余敏守 |
| 本发明公开了一种两段式位移的钻孔机,其主要是透过控制单元的概略控制机制及精密补偿控制机制依序控制动力源驱动设备平台位移,概略控制机制控制动力源驱动设备平台初步位移,初步位移后再配合光学尺精密感测初步位移后的精确位置,而精密补偿控制机制则能依光学尺的感测讯号及操作者设定的距离计算出补偿位移距离进行控制驱动,藉此,整体设备的位移仅需进行单一次的感测及计算便能精准地控制位置,能提高整体位移控制的效率,同时,由于控制单元不需持续感测及计算,因此控制单元的配备需求不高,如此又能降低整体设备成本,提高附加价值。 | ||||||
| 5 | 异构电机共定子多驱动宏微一体化高速精密运动二维平台 | CN201410696821.3 | 2014-11-26 | CN104440345A | 2015-03-25 | 白有盾; 杨志军; 陈新; 王梦; 高健; 李涵雄; 李成祥; 黄宇涵; 王江龙; 余明峰; 刘浩文; 李振新; 钟裕导; 刘伟光; 杨海东; 管贻生; 陈新度 |
| 本发明提出一种异构电机共定子多驱动宏微一体化高速精密运动二维平台,包括X/Y向基座、X/Y向导轨、滑块、U型直线电机、平板电机、U型直线电机定子、宏动动子、微动动子和宏微一体化平台。所述宏动平台与所述微动平台通过弹性构件联接形成一体化平台,安装在X向基座的定子为宏动平台的动子与控制微动平台X向微运动的动子共用,Y向通过压电陶瓷或解耦音圈电机进行精密位移补偿,当宏微动子同时驱动时,可实现整体大范围的高速运动;当出现运动偏差时,微动平台由于惯量小、无摩擦、通过弹性变形实现精密位移输出,可单独驱动实现高频运动偏差补偿。通过复合运动控制,可实现二维高速精密运动,安装使用方式与传统平台一致,方便推广应用。 | ||||||
| 6 | 机床直线驱动装置和刀具滑架移动方法 | CN200980118300.7 | 2009-03-19 | CN102036781A | 2011-04-27 | 冈特·施耐德; 赫尔维格·布克诺尔; 乌尔夫·波纳; 克劳斯·克雷默 |
| 本发明涉及一种用于具有箱体(1)的机床的直线驱动装置,具有滑架(2),安装得可经由两部轴承(6、7)在箱体(1)内沿轴向移动并具有中心轴线(2、3)和长度(11),以及具有至少一部第一电机(3),包括第一电机构件(4)和第二电机构件(5),其中所述第一电机构件(4)设置在所述滑架(2)上,而所述第二电机构件(5)设置在所述箱体(1)上,其中所述第一电机构件(4)制成在所述滑架(2)上作为主要部分(4),而所述第二电机构件(5)制成在所述箱体(1)上作为辅助部分。其次,本发明涉及一种方法,用于移动高效能机床车削刀具的滑架(2),采用交叉滚柱轴承(6,7)以安装滑架(2),其中所述交叉滚柱轴承(6,7)的所有滚柱(6.3)在操作上总是结合于滑架侧承载表面(7.4),而所述滑架(2)以至少50Hz的往复行走频率运行,具体在60Hz与200Hz之间。 | ||||||
| 7 | 具有用于对两个工件进行磨削的磨削工具的磨床 | CN201511036228.7 | 2015-12-17 | CN105772867A | 2016-07-20 | F·布克施; I·格莱克斯纳; C·布里登; L·黑克斯 |
| 一种磨床(100)具有用于接收磨削工具且围绕工具旋转轴线(B)旋转地驱动磨削工具(2)的工具主轴(1、1.1),具有用于接收第一工件(W1)的第一工件主轴(3),且具有用于接收第二工件(W2)的第二工件主轴(4),其中,第一工件主轴(3)和第二工件主轴(4)设置在接收于工具主轴(1)上的磨削工具(2)的一个纵向侧,工件主轴(3、4)都彼此平行地设置,工具主轴(1)安装成使得其沿平行于水平倾斜轴线(Y)延伸的第一线性引导件(5)能移动,第一工件主轴(3)和第二工件主轴(4)与水平倾斜轴线(Y)间隔开相同垂直水平距离(a1),其中工具旋转轴线(B)与水平倾斜轴线(Y)一起在水平投影中形成大于0°的锐角(W)。 | ||||||
| 8 | 一种斜度打孔的数控钻孔机 | CN201510946012.8 | 2015-12-15 | CN105345079A | 2016-02-24 | 解润海; 张杰; 高志华; 张雷; 孙建 |
| 本发明涉及一种斜度打孔的数控钻孔机,包括床身、尾座、卡盘、系统箱体、X轴导轨、X轴伺服电机、X轴丝杠、尾座导轨及Y轴支撑结构、Y轴方向运动组件、钢管支撑结构,在床身纵向固装X轴导轨,在该X轴导轨中部固装X轴丝杠,该X轴丝杠由固装在床身上的X轴伺服电机驱动;在床身纵向与X轴伺服电机同侧固装三爪卡盘,该三爪卡盘同轴对应尾座导轨;在X轴导轨上导向运行有Y轴支撑结构,在Y轴支撑结构上安装Y轴方向运动组件及钢管支撑结构,该钢管支撑结构在尾座导轨上方运行。本数控钻孔机结构简单,在打孔时通过以一定的斜度打孔、增加支撑点等措施来提高管类零件的刚度,并使其受力均匀,能很好地解决管类零件打孔时刚度较低易变形的问题,保证了打孔的精度,并且应用数控技术,能够实现管类零件的高效率钻孔。 | ||||||
| 9 | 多功能锁具打孔机 | CN201410780275.1 | 2014-12-17 | CN104475811A | 2015-04-01 | 戴先科 |
| 本发明提供了多功能锁具打孔机,包括机架, 机架由上机架和下机架组成,打孔装置安装在上机架内的下端,高度调节机构置于上机架上端;打孔装置包括打孔主轴和安装在主轴上的钻头;高度调节机构由升降连杆和由动力驱动的升降齿轮构成;高度调节机构和打孔装置相连接用于控制打孔深度;下机架设有前、后夹固定板;夹具安装在下机架下且置于打孔装置的下端;打孔装置还包括有一个水平调节机构和纵向调节机构;上机架和下机架之间设有钻孔轨道,上机架和下机架与钻孔轨道分别滑槽连接。本发明经水平齿条和所述水平齿轮啮合带动钻孔轨道水平移动,有利于确定打孔精度,同时经手或电动移动钻孔轨道上的打孔装置移动,一次性打孔成功。 | ||||||
| 10 | 机床直线驱动装置和刀具滑架移动方法 | CN200980118300.7 | 2009-03-19 | CN102036781B | 2013-08-07 | 冈特·施耐德; 赫尔维格·布克诺尔; 乌尔夫·波纳; 克劳斯·克雷默 |
| 本发明涉及一种用于具有箱体(1)的机床的直线驱动装置,具有滑架(2),安装得可经由两部轴承(6、7)在箱体(1)内沿轴向移动并具有中心轴线(2、3)和长度(11),以及具有至少一部第一电机(3),包括第一电机构件(4)和第二电机构件(5),其中所述第一电机构件(4)设置在所述滑架(2)上,而所述第二电机构件(5)设置在所述箱体(1)上,其中所述第一电机构件(4)制成在所述滑架(2)上作为主要部分(4),而所述第二电机构件(5)制成在所述箱体(1)上作为辅助部分。其次,本发明涉及一种方法,用于移动高效能机床车削刀具的滑架(2),采用交叉滚柱轴承(6,7)以安装滑架(2),其中所述交叉滚柱轴承(6,7)的所有滚柱(6.3)在操作上总是结合于滑架侧承载表面(7.4),而所述滑架(2)以至少50Hz的往复行走频率运行,具体在60Hz与200Hz之间。 | ||||||
| 11 | 用于机加工光学工件的机床 | CN200610079906.2 | 2006-04-27 | CN100562387C | 2009-11-25 | M·萨冯; E·麦克帕森 |
| 本发明揭示了一种用于机加工光学工件(L),尤其是塑料眼镜片的机床(10),该机床包括一工件主轴(24)和一高速刀具装置(36),该工件主轴能够围绕工件旋转轴线(B)旋转驱动工件,高速刀具装置能够在高速刀具运动平面(X-F1平面)内移动车刀(48),其中,工件主轴和高速刀具装置还能够在包含工件旋转轴线的平面(X-Y平面)内相对运动。按照本发明,相对于包含工件旋转轴线的平面(X-Y平面)倾斜地(工作角α)对高速刀具运动平面(X-F1平面)定位,因此,提供了一种能够以特别简单的和高度准确的方式使车刀刀刃的加工点对准在工件主轴的旋转轴线上的机床。 | ||||||
| 12 | 平行机械装置及检查装置 | CN00813299.2 | 2000-09-21 | CN1288434C | 2006-12-06 | 冈田尚史; 中原尚寿; 高桥一; 木场博之; 广濑和也 |
| 本发明的检查装置,备有至少3个可伸缩的直动促动器(5)、(12)、(13)、行走驱动机构、载物台支承部(23)和基板座(24)。上述行走驱动机构,将直动促动器(5)、(12)、(13)的基端部可沿导轨(2)、(6)、(7)直线移动地支承着,并且,在这些导轨(2)、(6)、(7)的至少一个上,具有随着直动促动器(12)、(13)的移动而高度变化的倾斜部(102)、(103)。上述载物台支承部(23),支承在直动促动器(5)、(12)、(13)的前端部。上述基板座(24)设在该可动部件上,用于保持被检体。 | ||||||
| 13 | 用于机加工光学工件、尤其是塑料眼镜片的机床 | CN200610079906.2 | 2006-04-27 | CN1857835A | 2006-11-08 | M·萨冯; E·麦克帕森 |
| 本发明揭示了一种用于机加工光学工件(L),尤其是塑料眼镜片的机床(10),该机床包括一工件主轴(24)和一高速刀具装置(36),该工件主轴能够围绕工件旋转轴线(B)旋转驱动工件,高速刀具装置能够在高速刀具运动平面(X-F1平面)内移动车刀(48),其中,工件主轴和高速刀具装置还能够在包含工件旋转轴线的平面(X-Y平面)内相对运动。按照本发明,相对于包含工件旋转轴线的平面(X-Y平面)倾斜地(工作角α)对高速刀具运动平面(X-F1平面)定位,因此,提供了一种能够以特别简单的和高度准确的方式使车刀刀刃的加工点对准在工件主轴的旋转轴线上的机床。 | ||||||
| 14 | Hole forming system with multiple spindles per station | US815375 | 1997-03-09 | US5920973A | 1999-07-13 | Wojciech B. Kosmowski |
| A high throughput drilling system for printed circuit board hole formation. Two spindles are disposed at each spindle station, doubling the number of holes produced in a given time period. Each spindle in connected to an overhead linear drive by a mini slide. A first set of the spindles, one for each spindle station, is driven by a first X axis linear drive. A second set is driven by a second X axis linear drive. The work piece table is elongated to support work pieces for all stations, and is supported by a set of bearing guides, with outrigger bearings coupled to the table by flexure mounts that relieve stress due to differential temperature expansion rates between the work piece table and the base table. High speed spindles are employed to obtain higher productivity, with larger holes routed by router tools, eliminating the need for stocking large drill sizes on the system tool changer. | ||||||
| 15 | Process for the machining of a workpiece on a CNC automatic lathe as well as a CNC automatic lathe | US882478 | 1997-06-25 | US5765456A | 1998-06-16 | Walter Grossmann |
| A CNC automatic lathe has at least one carriage system having an X, a Y, and a Z axis that carries a tool revolver designed as a so-called disk revolver for working with lathe tools and rotary machining tools. In order to reduce as much as possible the distance between a defined cutting plane for the turning process and the carriage system, the Y axis forms with the normal to the cutting plane a relatively small acute angle (beta), so that when the tool revolver is rotated in a controlled manner around its axis, a rotatively driven machining tool mounted on the revolver and located in its working position is swivelled with its axis of rotation through an acute angle out of the cutting plane in the direction of the carriage system. The machining area of the machining tool thus described a movement with a component that extends in the minus direction of the Y axis. | ||||||
| 16 | Edge clamp apparatus | US711182 | 1996-08-30 | US5690546A | 1997-11-25 | James V. Mascola |
| An edge clamp apparatus includes an elongated body 14 defining a cylindrical bore within which a piston 86 is received for movement between retracted and extended positions. The body 14 includes a mounting surface 18 and opposed front and rear body portions, and the bore is formed in the rear portion. The front portion includes a support surface 48 that intersects the cylindrical bore of the rear portion and is inclined relative to the mounting surface by an angle of about 10.degree.. A cap 16 is secured to the front portion of the body 14 for closing off the cylindrical bore of the body and limiting movement of the piston 86. The cap 16 includes an inner surface engaging the support surface 46 of the body 14, and a recess formed in the inner surface for receiving a clamp blade 12. The blade is supported on the support surface of the body within the recess of the cap 16 for movement between a retracted, releasing position and an extended engaging position, and includes a rear portion 70 defining a central longitudinal axis and extending into the cylindrical bore for engagement with the piston, and an opposed front portion 76 presenting a clamp head that is offset from the longitudinal axis such that the head is spaced from the support surface 46 of the body 14. | ||||||
| 17 | Mechanism for moving a table in orthogonal directions | US326032 | 1989-03-20 | US4993673A | 1991-02-19 | Kazuya Hirose |
| A mechanism for moving a table means lengthwise and crosswise of the table has two mutually orthogonal pairs of table carried parallel guide faces adapted to be mounted on the table, a support base, two pairs of guide members having two mutually orthogonal pairs of parallel guide faces in spaced opposed relation to corresponding pairs of said table carried guide faces, the guide members being movably mounted on the support base for movement in a direction for moving parallel guide faces of the respective pairs in a direction perpendicular to the length of the guide faces, two pairs of parallel straight motion guide bearing mechanisms mounted between opposed pairs of guide faces for lengthwise movably supporting the table on the guide members, and a driving device engaged with at least one guide member of each pair of guide members for moving the one guide member in a direction to move the guide face thereof in the perpendicular direction. Alternatively, the table can be supported on a support bearing structure and guide bearings used between the guide faces. | ||||||
| 18 | Wedge-type jack apparatus for raising structure while sustaining very large pressure due to same and temporarily supporting the structure | US369972 | 1989-06-22 | US4944492A | 1990-07-31 | Haruo Nonaka |
| The present invention relates to a method of raising a structure while sustaining very large pressure due to same and then tmeporarily supporting the structure, and a wedge-type jack apparatus for use in the method. The wedge-type jack apparatus comprises a wedge-like drive member, an upper member and a lower member, these three members being disposed in a frame body such that the drive member is sandwiched between the upper and lower members in a laminated manner. A slide plate rests on the upper member. When the wedge-like drive member is pushed in a lengthwise direction, the upper member and the wedge-like drive member are moved up to raise the structure overlying the slide plate, while keeping the current condition unchanged. Upon the structure being raised up to a desired level, this level is maintained by stopper means which restricts movement of the wedge-like drive member. Thus, the wedge-type jack apparatus supports the structure while transmitting the load of the structure to a substructure. | ||||||
| 19 | Article positioner and method | US51668 | 1987-05-18 | US4838515A | 1989-06-13 | Thomas C. Prentice |
| An X, Y, Z (and .theta.) article positioner and method are disclosed in which two axial elements, one inclined at an angle .alpha. and the other inclined at an angle -.alpha., are utilized in conjunction with each other to accomplish moves in a pure X or pure Z direction or a combination thereof. Each axial element is driven by a lead screw, which in turn is driven by a motor. Pure X movement is achieved by driving the lead screws the same amount, at the same rate, in the same direction. Conversely, to achieve a pure Z movement, the two lead screws are driven the same amount, at the same rate, but in opposite directions. In the preferred embodiment, three superposed and independently driven wedges are used to provide the desired single axis or combinational axis movement to position a workpiece in X, Y and Z with rotational movement of the three wedges providing .theta. axis positioning. | ||||||
| 20 | Fixture for precision positioning of work pieces | US612259 | 1975-09-10 | US4012030A | 1977-03-15 | Tore Gottfrid Hesselgren |
| A fixture for holding of work pieces on a work table of a machine tool and for precision positioning of the work pieces in rotation and in translation. The fixture is held by springs pressing it against the work table and is thus floating on the work table but is adjustable in two directions relative to the table and rotatable relative thereto. | ||||||
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