子分类:
| 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 | 生产螺钉和类似部件的倒角装置 | CN201080038403.5 | 2010-07-12 | CN102574208A | 2012-07-11 | E·盖齐 |
| 一种用于制造螺钉和类似部件的倒角装置,包括固定式支撑结构,所述固定式支撑结构包括第一马达单元(3)和第二马达单元(4),所述第一马达单元和第二马达单元致动适于锁定待机加工部件、并与活动式支撑结构相连的卡钳单元。所述第一马达单元由一对线性马达构成,所述线性马达具有与致动所述卡钳单元的托架(8)相连的转子(6,7)。所述第二马达单元也包括一对线性马达,所述线性马达具有与所述活动式支撑结构相连的转子,以致动所述活动式支撑结构相对于所述固定式支撑结构的轴向运动,以便限定所述卡钳单元的至少两个操作位置:用于拾取和卸载所述待机加工部件的位置,在该位置所述卡钳单元距离机床的加工头有一定距离;以及用于机加工所述部件的位置,在该位置所述卡钳单元位于所述机床的加工头处。 | ||||||
| 2 | 用于检测机床的主轴的热变形的设备、机床的主轴托架-主轴单元、机床的移动组和机床 | CN200780045182.2 | 2007-04-30 | CN101631643B | 2011-04-13 | 罗伯托·戈弗里尼 |
| 本发明的目的是一种用于检测机床的主轴的热变形的检测设备。所述机床包括主轴托架(6)和主轴(8)。所述设备包括:主轴托架罩盖(12),所述主轴托架罩盖(12)能够在前部处与所述主轴托架相关联,以至少部分地遮盖所述主轴托架开口,从而使得所述主轴在任何情况下都能够移位;以及固定至所述主轴托架罩盖的检测装置。所述检测装置适于检测所述主轴的所述信号元件的位置,以在所述缩回位置测量所述主轴的热变形。 | ||||||
| 3 | 机床 | CN200710128039.1 | 2007-06-22 | CN101104241A | 2008-01-16 | J·茂; S·卡得卢巴斯基 |
| 在一具有至少两个运动轴线(2、7)的机床中,一第一功能承载单元(1)或一第二功能承载单元(5)按照该两个轴线运动,只对于第一功能承载单元(1)设置一自己的伺服驱动,由此,第二功能承载单元(5)通过一在连接状态和分离状态之间切换的连接单元(13)由第一功能承载单元(1)驱动。 | ||||||
| 4 | 用于机床的刀具装卸装置 | CN201210088198.4 | 2012-03-29 | CN102729084B | 2016-06-29 | 马提亚·麦尔; 迈克·川克勒; 汉斯·广巴赫 |
| 本发明涉及一种用于机床的刀具装卸装置,其包括刀具库(5),所述刀具库具有用于刀具转移的转移位置(7),所述刀具装卸装置包括:换刀装置(33),其可在所述转移位置与交换位置之间移动,所述换刀装置具有旋转式双夹爪(36);以及支撑结构(20、31),其可在底座(10)上移动,所述支撑结构上安装有所述换刀装置(33)。为了在机械的狭小空间中实现快速换刀,所述支撑结构具有上部滑动装置(31)和下部滑动装置(20),所述滑动装置均可借助于主轴驱动装置而沿着相同方向在底座(10)上移位,其中设有单个驱动电机(40),以用于驱动两个主轴驱动装置。 | ||||||
| 5 | 生产螺钉和类似部件的倒角装置 | CN201080038403.5 | 2010-07-12 | CN102574208B | 2014-07-23 | E·盖齐 |
| 一种用于制造螺钉和类似部件的倒角装置,包括固定式支撑结构,所述固定式支撑结构包括第一马达单元(3)和第二马达单元(4),所述第一马达单元和第二马达单元致动适于锁定待机加工部件、并与活动式支撑结构相连的卡钳单元。所述第一马达单元由一对线性马达构成,所述线性马达具有与致动所述卡钳单元的托架(8)相连的转子(6,7)。所述第二马达单元也包括一对线性马达,所述线性马达具有与所述活动式支撑结构相连的转子,以致动所述活动式支撑结构相对于所述固定式支撑结构的轴向运动,以便限定所述卡钳单元的至少两个操作位置:用于拾取和卸载所述待机加工部件的位置,在该位置所述卡钳单元距离机床的加工头有一定距离;以及用于机加工所述部件的位置,在该位置所述卡钳单元位于所述机床的加工头处。 | ||||||
| 6 | 用于检测机床的主轴的热变形的设备 | CN200780045182.2 | 2007-04-30 | CN101631643A | 2010-01-20 | 罗伯托·戈弗里尼 |
| 本发明的目的是一种用于检测机床的主轴的热变形的检测设备。所述机床包括主轴托架(6)和主轴(8)。所述设备包括:主轴托架罩盖(12),所述主轴托架罩盖(12)能够在前部处与所述主轴托架相关联,以至少部分地遮盖所述主轴托架开口,从而使得所述主轴在任何情况下都能够移位;以及固定至所述主轴托架罩盖的检测装置。所述检测装置适于检测所述主轴的所述信号元件的位置,以在所述缩回位置测量所述主轴的热变形。 | ||||||
| 7 | 机床的加工控制方法及加工信息制作方法 | CN200710163040.8 | 2007-09-29 | CN101154102A | 2008-04-02 | 长谷部孝男; 日置克也; 若冈俊介 |
| 本发明提供一种机床的加工控制方法及加工信息制作方法。可不使加工精度和加工效率降低地进行凹凸加工等复杂的表面加工。在具有可相对于工件在三个轴方向上移动的主轴头、和在该主轴头上设置并可在Z轴方向上移动的附加主轴的机床中,使主轴头沿平滑化曲面(R)相对移动,并同时使附加主轴移动加工面(S)和平滑化曲面(R)的差的量,利用工具(T)进行加工面(S)的加工,其中,上述平滑化曲面被平滑化成相对于工件的加工面(S)在附加主轴的移动方向上收纳在附加主轴的移动量以内。 | ||||||
| 8 | 用于加工毛坯的方法和用于执行该方法的加工机床 | CN200780046183.9 | 2007-11-21 | CN101600537B | 2013-03-13 | W·-D·霍恩; F·谢勒 |
| 为了通过加工机床、如车铣机床(HSTM)周围加工毛坯(RL)在加工步骤中使毛坯(RL)由至少一个夹紧机构(SM)固定。由加工机床、尤其是车铣机床使所有的工件功能面(毛坯的圆周和两个端面)达到最终的、对应于符合规定应用的总形状。所述毛坯(RL)涉及金属或陶瓷制成的毛坯,具有圆柱形或矩形或多边形的横截面,尤其涉及优选正方形的工件或者任意成形的铸造或锻造毛坯。所述总形状涉及涡轮叶片,所述局部形状涉及涡轮叶片的头部、涡轮叶片的叶片部位和涡轮叶片的根部,其中在加工机床(HSTM)上的一次夹紧中完成涡轮叶片在头部和根部上的功能面。 | ||||||
| 9 | 用于机床的刀具装卸装置 | CN201210088198.4 | 2012-03-29 | CN102729084A | 2012-10-17 | 马提亚·麦尔; 迈克·川克勒; 汉斯·广巴赫 |
| 本发明涉及一种用于机床的刀具装卸装置,其包括刀具库(5),所述刀具库具有用于刀具转移的转移位置(7),所述刀具装卸装置包括:换刀装置(33),其可在所述转移位置与交换位置之间移动,所述换刀装置具有旋转式双夹爪(36);以及支撑结构(20、31),其可在底座(10)上移动,所述支撑结构上安装有所述换刀装置(33)。为了在机械的狭小空间中实现快速换刀,所述支撑结构具有上部滑动装置(31)和下部滑动装置(20),所述滑动装置均可借助于主轴驱动装置而沿着相同方向在底座(10)上移位,其中设有单个驱动电机(40),以用于驱动两个主轴驱动装置。 | ||||||
| 10 | 机床的加工控制方法及加工信息制作方法 | CN200710163040.8 | 2007-09-29 | CN101154102B | 2011-01-26 | 长谷部孝男; 日置克也; 若冈俊介 |
| 本发明提供一种机床的加工控制方法及加工信息制作方法。可不使加工精度和加工效率降低地进行凹凸加工等复杂的表面加工。在具有可相对于工件在三个轴方向上移动的主轴头、和在该主轴头上设置并可在Z轴方向上移动的附加主轴的机床中,使主轴头沿平滑化曲面(R)相对移动,并同时使附加主轴移动加工面(S)和平滑化曲面(R)的差的量,利用工具(T)进行加工面(S)的加工,其中,上述平滑化曲面被平滑化成相对于工件的加工面(S)在附加主轴的移动方向上收纳在附加主轴的移动量以内。 | ||||||
| 11 | 机床 | CN200710128039.1 | 2007-06-22 | CN101104241B | 2010-09-29 | J·茂; S·卡得卢巴斯基 |
| 在一具有至少两个运动轴线(2、7)的机床中,一第一功能承载单元(1)或一第二功能承载单元(5)按照该两个轴线运动,只对于第一功能承载单元(1)设置一自已的伺服驱动,由此,第二功能承载单元(5)通过一在连接状态和分离状态之间切换的连接单元(13)由第一功能承载单元(1)驱动。 | ||||||
| 12 | 用于加工毛坯的方法和用于执行该方法的加工机床 | CN200780046183.9 | 2007-11-21 | CN101600537A | 2009-12-09 | W·-D·霍恩; F·谢勒 |
| 为了通过加工机床、如车铣机床(HSTM)周围加工毛坯(RL)在加工步骤中使毛坯(RL)由至少一个夹紧机构(SM)固定。由加工机床、尤其是车铣机床使所有的工件功能面(毛坯的圆周和两个端面)达到最终的、对应于符合规定应用的总形状。所述毛坯(RL)涉及金属或陶瓷制成的毛坯,具有圆柱形或矩形或多边形的横截面,尤其涉及优选正方形的工件或者任意成形的铸造或锻造毛坯。所述总形状涉及涡轮叶片,所述局部形状涉及涡轮叶片的头部、涡轮叶片的叶片部位和涡轮叶片的根部,其中在加工机床(HSTM)上的一次夹紧中完成涡轮叶片在头部和根部上的功能面。 | ||||||
| 13 | Machine tool featuring a number of machining heads for machining printed circuit boards | US163069 | 1998-09-29 | US6098274A | 2000-08-08 | Angelo Raiteri |
| The machine tool featuring a number of machining heads for machining printed circuit boards has a worktable movable along the Y axis, and two rows of four machining heads fitted to a common carriage movable along the X axis. The circuit boards are arranged in packs, each having two locating pins for aligning and locking the pack to a respective rectangular fixture fitted to the worktable with the short side parallel to the Y axis. Each pair of heads is provided with a pair of tool-change devices and a common tool store, which is defined by one or two boxes removably insertable inside respective supports fitted to the carriage; three pairs of tool-change devices are housed inside gaps between adjacent pairs of fixtures; and a further two pairs of tool-change devices are located adjacent to the end fixtures. | ||||||
| 14 | Positioning system | US203253 | 1998-12-01 | US6025689A | 2000-02-15 | Thomas C. Prentice; Brian P. Prescott |
| A positioning system for moving a device over an xy-plane has a drive mechanism with pivotable arms for moving a carriage over the xy-plane by driving it from one side. This drive mechanism allows the system to be made narrow along the other side. | ||||||
| 15 | Cutting method by vibratory cutting tool | US888045 | 1997-07-03 | US5911802A | 1999-06-15 | Yoshihiko Kimura; Yasuhiro Fukuyoshi; Satoshi Asakura; Noboru Aoyama |
| A cutting method using a vibratory cutting tool enables efficient creation of chips by breaking or separating of chips, and can retard both a deterioration of machined surface roughness of a workpiece and an increase in cutting resistance. The vibration of the cutting tool is controlled so that the following expressions are satisfied when letting a period of rotation of a workpiece be T, a period of vibration of the cutting tool be t.sub.total, the time required for the cutting edge to move from a farthest position in the feed direction to a farthest position in the direction opposite to the feed direction be t.sub.d, and the time required for moving from the farthest position in the direction opposite to the feed direction to a next farthest position in the feed direction be t.sub.u in the period of vibration of the cutting edge: T.apprxeq.t.sub.total .times.n+t.sub.d, where n is 0 or a positive integer; and t.sub.d .noteq.t.sub.u. | ||||||
| 16 | Positioning system | US796236 | 1997-02-06 | US5903125A | 1999-05-11 | Thomas C. Prentice; Brian P. Prescott |
| A positioning system for moving a device over an xy-plane has a drive mechanism with pivotable arms for moving a carriage over the xy-plane by driving it from one side. This drive mechanism allows the system to be made narrow along the other side. | ||||||
| 17 | Apparatus for machining a non-circular workpiece | US588940 | 1990-09-27 | US5229951A | 1993-07-20 | Kazuhiko Sugita; Norio Sakakibara; Nobumitsu Hori; Yoichi Yamakawa |
| An apparatus for machining a non-circular workpiece, wherein the profile data of plural sections of the workpiece stored in the profile data storage means are transformed into the frequency functions of 1 to n degree which is a function of the rotary angular velocity of the workpiece. The calculation means finds the amplitudes and the phases of each degree of the frequency function of each of plural intermediate sections by means of the interpolation according to the position between selected two sections based on the frequency functions of the selected two sections so as to obtain high frequency functions and low frequency functions which are then converted to high frequency and low frequency profile data. The machining apparatus actuates a linear motor in accordance with the high frequency profile data and actuates a PZT actuator in accordance with the low frequency profile data. The actuations of these actuators are accomplished in a synchronized relationship with the rotation of the workpiece to machine the workpiece into a non-circular shape whose sectional shape changes with respect to its axial position. | ||||||
| 18 | Adjustable multiple spindle machine tool | US605123 | 1990-10-25 | US5105694A | 1992-04-21 | Stephen P. Smith; Donald W. Garnett |
| A machine tool has a main slide movable along a first path and a cross-slide assembly movable perpendicular to the path of the main slide. The cross-slide assembly has a first slide unit which is directly driven by a primary servo control. The cross-slide assembly has a second slide unit driven by the first slide unit through a spring-loaded follower acting against a cam which can transmit numerically-controlled offset to the second slide unit such that both slide units will follow identical paths. The cam is adjustable to enable correction of the offset. Each slide unit carries a cutting tool. The invention is applicable to multiple spindle machines having two or more spindles. | ||||||
| 19 | Drilling apparatus for structural steel shapes | US375769 | 1989-07-05 | US5018911A | 1991-05-28 | Bernd Stursberg |
| A drilling device for drilling holes in structural steel shapes utilizes a control system having a pair of control pistons to set the drill bit at an optimum distance from the workpiece for repeated drilling of holes through material of a given thickness. The control device responds to position switches sensing the positions of the drill-feed cylinder and the control pistons. | ||||||
| 20 | Movable table system | US925479 | 1986-10-31 | US4750721A | 1988-06-14 | Shigeru Sasada |
| A movable table system comprises a base horizontally mounted on a foundation with an intermediate base engaged with the base through first guides so as to be movable reciprocatively in one linear direction. A movable table is engaged with the intermediate base through second guides similar to the first guides so as to be movable reciprocatively in the same linear direction. A direct-acting type drive is interposed between the movable table and the intermediate base for providing relative movement between the table and the intermediate base. Preferably, the base is mounted on the foundation through vibration absorbers. | ||||||
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