| 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 | 夹头 | CN201310264830.0 | 2013-06-28 | CN103522088A | 2014-01-22 | E.杭格莱特; P.申克; K.米勒 |
| 本发明涉及一种夹头,更确切地说,涉及一种带有卡盘盘体(2)的夹头,在该卡盘盘体中布置有可通过电驱动装置(5)在夹紧状态与松开状态之间进行调整的夹紧件(3)以用于操纵具有至少两个钳爪(12)的弓形夹钳(4)。为了松开已夹紧的弓形夹钳(4)设置有可与电驱动装置(5)无关地来操纵的紧急打开工具。 | ||||||
| 2 | 压力设备 | CN200710146421.5 | 2007-08-24 | CN101130285B | 2012-05-23 | M·布伦尼曼 |
| 适用于相对轴向运动的两个部件的压力设备,两个部件彼此同轴设置且仅能在较高的压力下相对运动。所述压力设备具有一个固定压板,一个通过液压缸导引并相对液压缸轴向运动的压板,以及围绕待压部件设置的嵌块。所述嵌块通过封闭盖保持闭合,该封闭盖枢接在压力设备的可移动部分上。液压缸的设置尽可能靠近压力中心,也就是尽可能靠近待压部件的轴向。 | ||||||
| 3 | 压力设备 | CN200710146421.5 | 2007-08-24 | CN101130285A | 2008-02-27 | M·布伦尼曼 |
| 适用于相对轴向运动的两个部件的压力设备,两个部件彼此同轴设置且仅能在较高的压力下相对运动。所述压力设备具有一个固定压板,一个通过液压缸导引并相对液压缸轴向运动的压板,以及围绕待压部件设置的嵌块。所述嵌块通过封闭盖保持闭合,该封闭盖枢接在压力设备的可移动部分上。液压缸的设置尽可能靠近压力中心,也就是尽可能靠近待压部件的轴向。 | ||||||
| 4 | Pressing device | US11842266 | 2007-08-21 | US07506580B2 | 2009-03-24 | Martin Brönnimann |
| The pressing device serves for the relative axial movement of two parts, which are arranged coaxially with respect to one another and are moveable relative to one another only by high pressing power. The pressing device has one fixed pressure plate and one pressure plate which is moved axially by hydraulic cylinders and an insert which is to be placed around the parts which are to be pressed. The insert is held closed by means of a closure door which is articulatedly mounted on the moving part of the pressing device. The pressure cylinders are arranged as close as possible to the center of pressure, that is to say to the axis of the parts which are to be pressed. | ||||||
| 5 | Quick change holder for cutting tool | US11998058 | 2007-11-28 | US20080075542A1 | 2008-03-27 | Charles Van Horssen |
| A self contained, toolless quick change tool holder for trigon cutter inserts on machine tools comprises a housing having at least one seat portion which is adapted to receive and conform to the shape of a variant shaped cutter insert. A fork is mounted in the insert housing and is movable within the insert housing. The fork engages a variant shaped cutter insert. A locking mechanism is contained within the housing and has a clamp position which forces the clamp portion to engage a variant shaped cutter insert and a release position which forces the clamp portion to disengage from a variant shaped cutter insert to allow removal and replacement of said variant shaped shaped cutter insert. The locking mechanism moves between the release position and the clamp position. | ||||||
| 6 | Quick change holder for cutting tool | US11366139 | 2006-03-02 | US20060280566A1 | 2006-12-14 | Charles Van Horssen |
| A self contained, toolless quick change tool holder for cutter inserts on machine tools comprises a housing having at least one seat portion which is adapted to receive and conform to the shape of a cutter insert. A clamping arm is mounted in the insert housing. The clamping arm is movable within the insert housing and includes a a clamp portion extending over the seat portion. The clamp portion engages a cutter insert. A locking mechanism is contained within the housing and has a clamp position which forces the clamp portion to engage a cutter insert and a release position which forces the clamp portion to disengage from a cutter insert to allow removal and replacement of said cutter insert. The locking mechanism moves between the release position and the clamp position. | ||||||
| 7 | Compression device | JP2007217484 | 2007-08-23 | JP2008049401A | 2008-03-06 | BROENNIMANN MARTIN; DAVID GERBER |
| <P>PROBLEM TO BE SOLVED: To provide a compression device capable of relatively moving two members which are arranged coaxially with each other and movable to each other only with high pressure in the axial direction. <P>SOLUTION: The compression device comprises one fixed compression plate, one compression plate which is guided by a hydraulic cylinder axially movable in relation to the fixed compression plate, and an insert arranged around a member to be compressed. The insert is held in a closed state by a press closing door, and the press closing door is screwed to a movable part of the compression device. The hydraulic cylinder is arranged as close to the center of pressure as possible, and brought close to the axis of the member to be compressed. <P>COPYRIGHT: (C)2008,JPO&INPIT | ||||||
| 8 | Gripper with emergency release | US13903414 | 2013-05-28 | US09387539B2 | 2016-07-12 | Eugen Hangleiter; Peter Schenk; Klaus Miller |
| A gripper for use in combination with a pin has a body having an axially open cavity in which the pin is engageable. Jaws in the cavity are radially displaceable between an inner holding position bearing radially inwardly on and gripping the pin and an outer release position in which the pin can be removed axially from the cavity. An actuating element in the body is engageable with the jaws and shiftable between end positions corresponding to the inner and outer positions of the jaws. An actuator connected to the actuating element can move it from one of the end positions into the other of the end positions. An externally accessible connecting or operating member on the chuck body is connected through an emergency release with the jaws for moving the jaws into the outer release position as the result of connection to or operation of the member. | ||||||
| 9 | Fiber delivery apparatus and system having a creel and fiber placement head with polar axis of rotation | US12905337 | 2010-10-15 | US08534338B2 | 2013-09-17 | Tino Oldani; Klaus Hoffmann; William R. Dent |
| A fiber placement system including positioner and a fiber delivery apparatus having a creel assembly and a fiber placement head is provided. The positioner moves the entire fiber delivery apparatus including the creel assembly and the fiber placement head via at least three linear degrees of freedom. The fiber delivery apparatus includes an articulating wrist for moving the fiber placement head relative to the creel assembly. The fiber placement apparatus is substantially free of linear degrees of freedom within the fiber tow paths between the spools and the fiber placement head. One or more rotational degrees of freedom may be provided along the tow path. In one embodiment, the interface between the fiber delivery apparatus and the positioner is laterally offset such that a portion of the creel axially overlaps with vertical ram of the positioner. | ||||||
| 10 | Quick change holder for cutting tool | US11998058 | 2007-11-28 | US07575399B2 | 2009-08-18 | Charles A. Van Horssen |
| A self contained, toolless quick change tool holder for trigon cutter inserts on machine tools comprises a housing having at least one seat portion which is adapted to receive and conform to the shape of a variant shaped cutter insert. A fork is mounted in the insert housing and is movable within the insert housing. The fork engages a variant shaped cutter insert. A locking mechanism is contained within the housing and has a clamp position which forces the clamp portion to engage a variant shaped cutter insert and a release position which forces the clamp portion to disengage from a variant shaped cutter insert to allow removal and replacement of said variant shaped shaped cutter insert. The locking mechanism moves between the release position and the clamp position. | ||||||
| 11 | Quick change holder for cutting tool | US11366139 | 2006-03-02 | US07322775B2 | 2008-01-29 | Charles A. Van Horssen |
| A self contained, toolless quick change tool holder for cutter inserts on machine tools comprises a housing having at least one seat portion which is adapted to receive and conform to the shape of a cutter insert. A clamping arm is mounted in the insert housing. The clamping arm is movable within the insert housing and includes a a clamp portion extending over the seat portion. The clamp portion engages a cutter insert. A locking mechanism is contained within the housing and has a clamp position which forces the clamp portion to engage a cutter insert and a release position which forces the clamp portion to disengage from a cutter insert to allow removal and replacement of said cutter insert. The locking mechanism moves between the release position and the clamp position. | ||||||
| 12 | Release device for actuating a clamping device for tools | US10906713 | 2005-03-03 | US07249919B2 | 2007-07-31 | Albrecht Dawidziak; Heinrich Englert; Hubert Klein; Bernd Martin; Walter Rapp; Ralf Wagner |
| A release device for actuating a clamping device for tools has at least one release element and a drive drivingly connected to the at least one release element for moving the at least one release element from a rest position into a release position in which a draw bar of the clamping device is moved against a clamping force into a disengaged position. The drive is an electric motor. The axis of the electric motor can be aligned with the axis of the release device but an angled arrangement of the electric motor and of the release device relative to one another is also possible. | ||||||
| 13 | Release Device for Actuating a Clamping Device for Tools | US10906713 | 2005-03-03 | US20050196247A1 | 2005-09-08 | Albrecht Dawidziak; Heinrich Englert; Hubert Klein; Bernd Martin; Walter Rapp; Ralf Wagner |
| A release device for actuating a clamping device for tools has at least one release element and a drive drivingly connected to the at least one release element for moving the at least one release element from a rest position into a release position in which a draw bar of the clamping device is moved against a clamping force into a disengaged position. The drive is an electric motor. The axis of the electric motor can be aligned with the axis of the release device but an angled arrangement of the electric motor and of the release device relative to one another is also possible. | ||||||
| 14 | 機械スピンドル | JP2017512957 | 2015-09-04 | JP2017526546A | 2017-09-14 | エー.カーティス ウィリアム; イー.グラソー ケネス; ジー.レグナ マイケル; アール.ロナルド クレイグ |
| 加工品保持装置(10)であって、引張り棒(22)が、加工品(W)のチャックへの取付け、およびチャックからの取外しを行い、また加工品保持装置の取外しは、機械スピンドル(2)に位置するピストン状の機構(30)により行われる、加工品保持装置(10)。 | ||||||
| 15 | Clamp head | JP2013136966 | 2013-06-28 | JP2014008602A | 2014-01-20 | HANGLEITER EUGEN; SCHENK PETER; KLAUS MILLER |
| PROBLEM TO BE SOLVED: To provide a device which can perform fastening release surely even when an electric drive mechanism 5 gets un-operability in a clamp head 1 including a split type collet chuck 4 which consists of at least two collet jaws 12, a fastening drive piece 3 which performs fastening drive to the split type collet chuck while moving in an axial direction, an electrical drive mechanism 5 which drives the fastening drive piece 3, and a chuck trunk body 2.SOLUTION: In order to perform fastening release of a split type collet chuck 4 in a fastening state, an extraordinary opening mechanism is included which can operate independently to the electric drive mechanism 5. The extraordinary opening mechanism consists, for example, of a spindle rod 1 and a spindle nut 18 which perform position shifts by the rotational drive in a shaft direction to move the fastening drive piece 3 to the shaft direction. | ||||||
| 16 | MACHINE SPINDLE WITH EJECTING MEANS | US15504432 | 2015-09-04 | US20170232525A1 | 2017-08-17 | William A. Curtis; Kenneth E. Glasow; Michael G. Regna; Craig R. Ronald |
| A workholding apparatus (10) wherein a draw bar (22) effects chucking and de-chucking of a workpiece (W) and wherein un-seating of the workholding apparatus is effected by piston-like mechanisms (30) located in a machine spindle (2). | ||||||
| 17 | GRIPPER WITH EMERGENCY RELEASE | US13903414 | 2013-05-28 | US20140001713A1 | 2014-01-02 | Eugen HANGLEITER; Peter SCHENK; Klaus MILLER |
| A gripper for use in combination with a pin has a body having an axially open cavity in which the pin is engageable. Jaws in the cavity are radially displaceable between an inner holding position bearing radially inwardly on and gripping the pin and an outer release position in which the pin can be removed axially from the cavity. An actuating element in the body is engageable with the jaws and shiftable between end positions corresponding to the inner and outer positions of the jaws. An actuator connected to the actuating element can move it from one of the end positions into the other of the end positions. An externally accessible connecting or operating member on the chuck body is connected through an emergency release with the jaws for moving the jaws into the outer release position as the result of connection to or operation of the member. | ||||||
| 18 | FIBER DELIVERY APPARATUS AND SYSTEM HAVING A CREEL AND FIBER PLACEMENT HEAD WITH POLAR AXIS OF ROTATION | US12905337 | 2010-10-15 | US20120090788A1 | 2012-04-19 | Tino Oldani; Klaus Hoffmann; William R. Dent |
| A fiber placement system including positioner and a fiber delivery apparatus having a creel assembly and a fiber placement head is provided. The positioner moves the entire fiber delivery apparatus including the creel assembly and the fiber placement head via at least three linear degrees of freedom. The fiber delivery apparatus includes an articulating wrist for moving the fiber placement head relative to the creel assembly. The fiber placement apparatus is substantially free of linear degrees of freedom within the fiber tow paths between the spools and the fiber placement head. One or more rotational degrees of freedom may be provided along the tow path. In one embodiment, the interface between the fiber delivery apparatus and the positioner is laterally offset such that a portion of the creel axially overlaps with vertical ram of the positioner. | ||||||
| 19 | PRESSING DEVICE | US11842266 | 2007-08-21 | US20080072773A1 | 2008-03-27 | Martin Bronnimann |
| The pressing device serves for the relative axial movement of two parts, which are arranged coaxially with respect to one another and are moveable relative to one another only by means of a high pressing power. Said pressing device has one fixed pressure plate and one pressure plate which is moved axially by hydraulic cylinders and an insert which is to be placed around the parts which are to be pressed. Said insert is held closed by means of a closure door which is articulatedly mounted on the moving part of the pressing device. The pressure cylinders are arranged as close as possible to the centre of pressure, that is to say to the axis of the parts which are to be pressed. | ||||||
| 20 | Live center adapter assembly for machine tools | US884713 | 1992-05-18 | US5373760A | 1994-12-20 | Harlan J. Schmidt; Leon E. Schmidt |
| A live center adapter assembly is made up of an elongated housing, a center adapter inserted into the end of the housing with a recess in the adapter having a rearwardly tapered inner wall for insertion of a center therein. Axially spaced needle bearings support the adapter and center for rotation within the housing, and a bore through one end of the housing permits insertion either of a punch for displacing the center from the adapter or a crank for the purpose of manually rotating the adapter and center. | ||||||
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