| 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 | 铣床的刀具设备 | CN200910129250.4 | 2009-04-03 | CN101745681A | 2010-06-23 | 辛龙夏 |
| 一种铣床的刀具设备包括:设有主轴和向主轴传递旋转力的电机的X轴方向上的传动装置;可旋转地布置在传动装置的一侧以切割工件的铣刀;和置于主轴与铣刀之间并且连接铣刀以使其能够在Y轴方向上偏心地旋转的刀架。由于可消除Y轴方向上的传动装置的必要性,所以可简化机械结构,并可解决对添加模型和更改工件的限制的问题。 | ||||||
| 2 | 用于在偏心螺杆泵的定子中制造空腔的方法和装置 | CN201480050685.9 | 2014-07-17 | CN105579172A | 2016-05-11 | 拉尔夫·道恩海默尔 |
| 本发明涉及一种用于在偏心螺杆泵的定子内制造空腔(14)的方法,其中,利用工具(11)在定子坯件(10)内部去除材料。为了如此改善所述方法,即能够在一个生产工序中制造出非常长的定子,本发明建议:所述工具(11)在定子坯件(10)内部进行通过第一轴(12)实现的旋转运动以及绕着第二轴(13)的偏心运动,其中,定子坯件(10)和工具(11)相向运动。本发明还涉及一种用于实施所述方法的装置。 | ||||||
| 3 | Portable drilling machine or to secure the cutting machine to a template device, an orbital machining apparatus and radial offset mechanism for forming such hole for forming a hole in a workpiece | JP2004535342 | 2003-09-16 | JP4374315B2 | 2009-12-02 | リンダホルム,ダーグ |
| 4 | Portable drilling machine or to secure the cutting machine to a template device, an orbital machining apparatus and radial offset mechanism for forming such hole for forming a hole in a workpiece | JP2004535342 | 2003-09-16 | JP2005538857A | 2005-12-22 | リンダホルム,ダーグ |
| 【課題】被加工物(14)孔及び/又は溝を形成するために型板(12)に携帯型切削機械を一時的に固定する装置を提供する。
【解決手段】型板(12)の開口部(16)の内径に対応する外径を有する管状のハブ(30)を備える案内スリーブ(20)と、案内スリーブ(20)を中に挿入する際に開口部(16)内の対応する溝(18)と適合し、型板(12)に対する案内スリーブ(20)を部分的に回転したときに型板(12)の内面に係止するように構成され且つ設置される径方向に延びた突部(24)を有するハブ(30)の前端と、切削機械(10)の鼻部(38)にはめ込まれる管状のアダプタソケット(34)に連結されるハブ(30)の後部端と、アダプタソケット(34)に取り付けられて該アダプタソケット(34)に対して軸方向に移動すると共に、型板(12)の外面との係合のための前端面を有するテンションユニット(40,42,46)と、を備える。 |
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| 5 | CHAMFERING TOOL, TOOL SUPPORT SET AND CHAMFERING SYSTEM | US15724615 | 2017-10-04 | US20180264560A1 | 2018-09-20 | Syuichi NAKATA |
| A chamfering tool that chamfers an opening edge of a target hole formed in a work, the chamfering tool including a support shaft, a base shaft having the support shaft on a tip end side thereof and being eccentric with respect to the support shaft, and a blade portion having a rake face that is a step surface of a step protrusion portion protruded laterally from the support shaft or that is an end surface of the support shaft. The blade portion including an edge line in a shape of a curve and being bulged to a side away from a center axis of the support shaft, and the edge line being inclined with respect to an axial direction of the support shaft. | ||||||
| 6 | Forming closely spaced annular internal corrugations in circular waveguides | US15793947 | 2017-10-25 | US09943915B2 | 2018-04-17 | Michelangelo DiMartino; Charles P. Moeller |
| An apparatus for cutting annular corrugations in an interior surface of a cylindrical tube having a cutter head comprising a plurality of cutting teeth; a drive shaft coupled to the cutter head for spinning the cutter head; a mandrel coupled to the cutter head, wherein the mandrel defines a longitudinal axis, wherein an axis of rotation of the cutter head is parallel to, but in a position not coaxial with the axis of rotation of the cutter head; an outer eccentric coupled to mandrel, wherein the outer eccentric rotates the mandrel, wherein the axis of rotation orbits around the longitudinal axis. | ||||||
| 7 | FORMING CLOSELY SPACED ANNULAR INTERNAL CORRUGATIONS IN CIRCULAR WAVEGUIDES | US15158219 | 2016-05-18 | US20170334002A1 | 2017-11-23 | Michelangelo DiMartino; Charles P. Moeller |
| An apparatus for cutting annular corrugations in an interior surface of a cylindrical tube having a cutter head comprising a plurality of cutting teeth; a drive shaft coupled to the cutter head for spinning the cutter head; a mandrel coupled to the cutter head, wherein the mandrel defines a longitudinal axis, wherein an axis of rotation of the cutter head is parallel to, but in a position not coaxial with the axis of rotation of the cutter head; an outer eccentric coupled to mandrel, wherein the outer eccentric rotates the mandrel, wherein the axis of rotation orbits around the longitudinal axis. | ||||||
| 8 | Cutting tool with an eccentric drive and pinned fastener with de-binding release feature | US13303412 | 2011-11-23 | US09132488B2 | 2015-09-15 | Stojan Stojanovski |
| A cutting tool assembly having a tool holder and a cutting tool. The cutting tool has a shank that is matingly received within an axial bore in the lower end of the tool holder. The shank includes an eccentrically-shaped driver portion. The tool holder's axial bore includes an enlarged eccentrically-shaped drive opening which is complementary in shape to, but slightly larger than, the driver portion. When the shank is inserted into the axial bore, the driver portion and drive opening are aligned allowing the cutting tool to be partially rotated relative to the tool holder. This partial rotation abuts a portion of the eccentric driver portion against the drive opening wall to provide rigid support of the cutting tool against further rotation as the tool assembly cuts. A cammed fastener releasably interlocks the partially rotated cutting tool within the tool holder. | ||||||
| 9 | Cutting tool and clamping mechanism for holding a cutting insert thereto | US13552262 | 2012-07-18 | US09089910B2 | 2015-07-28 | Gil Hecht; Danny Chen |
| A cutting tool (10) includes a cutting portion (14) and a clamping mechanism (16) configured to be brought between an unclamped position in which a cutting insert (12) is removable from the cutting portion (14), and a clamped position in which the cutting insert (12) is clamped to the cutting portion (14). The clamping mechanism (16) includes a clamp (20) and a cam shaft (18). The clamp (20) is formed with a growth pattern region (20C6) having a varying diameter. The cam is formed with a growth pattern region (18C1) having a varying diameter. The growth pattern regions (20C6, 18C4) are configured for engaging each other to transform rotary motion of the cam shaft (18) into linear motion of the clamp (20) to thereby move the clamping mechanism (16) into the clamped position. | ||||||
| 10 | Cutter apparatus of milling machine | US12371069 | 2009-02-13 | US08024999B2 | 2011-09-27 | Yong Ha Shin |
| A cutter apparatus of a milling machine includes: a transmitting means in an X-axis direction provided with a spindle and a motor delivering rotation power to the spindle; a milling cutter rotatably arranged at one side of the transmitting means so as to cut a work piece; and a tool holder interposed between the spindle and the milling cutter and connecting the milling cutter to be able to eccentrically rotate in a Y-axis direction. Since the necessity of a transmitting means in a Y-axis direction can be eliminated, a mechanical structure can be simplified and a problem of restriction of addition of a model and modification of a work piece can be solved. | ||||||
| 11 | Milling tool holder with camming plug | US11029826 | 2005-01-06 | US07234902B2 | 2007-06-26 | Stojan Stojanovski |
| A milling tool holder apparatus includes a tool holder having a male structure received in a female opening of a shank, and a camming plug received in a transverse plug-receiving opening in the shank and the tool holder. Turning the camming plug in one direction moves the male structure axially to a locked position. Turning the camming plug in the opposite direction moves the male structure axially to a release position. | ||||||
| 12 | FORMING CLOSELY SPACED ANNULAR INTERNAL CORRUGATIONS IN CIRCULAR WAVEGUIDES | US15793947 | 2017-10-25 | US20180043443A1 | 2018-02-15 | Michelangelo DiMartino; Charles P. Moeller |
| An apparatus for cutting annular corrugations in an interior surface of a cylindrical tube having a cutter head comprising a plurality of cutting teeth; a drive shaft coupled to the cutter head for spinning the cutter head; a mandrel coupled to the cutter head, wherein the mandrel defines a longitudinal axis, wherein an axis of rotation of the cutter head is parallel to, but in a position not coaxial with the axis of rotation of the cutter head; an outer eccentric coupled to mandrel, wherein the outer eccentric rotates the mandrel, wherein the axis of rotation orbits around the longitudinal axis. | ||||||
| 13 | ENGINE AND METHOD OF MANUFACTURING CYLINDER BLOCK OF ENGINE | US15640634 | 2017-07-03 | US20180003127A1 | 2018-01-04 | Kenichi SAKURAI |
| An engine includes a cylinder block including a cylinder hole, a crank shaft as an offset crank, and a connecting rod that connects the piston and the crank shaft. An inclined surface is provided on an entire circumference of a crank-shaft-side opening edge of one end of the cylinder hole. When viewed in the axial direction of the crank shaft, a boundary line between the inclined surface and the cylinder hole extends towards the other end of the cylinder hole as it extends toward an offset side on which the crank shaft is offset from the center axis of the cylinder hole. The offset crank engine has the entire circumference of the crank-shaft-side opening edge of the cylinder hole chamfered without any bad influence on the sliding surface and posture of the piston to avoid interference between the crank-shaft-side opening edge of the cylinder hole and the connecting rod. | ||||||
| 14 | METHOD AND DEVICE FOR PRODUCING A CAVITY IN A STATOR OF A PROGRESSIVE CAVITY PUMP | US14907044 | 2014-07-17 | US20160158852A1 | 2016-06-09 | RALF DAUNHEIMER |
| In a method for producing a cavity (14) in a stator of an eccentric screw pump, material is removed in the interior of a stator blank (10) by means of a tool (11). In order that very long stators can be produced in one production operation, the tool (11) performs a rotational motion through a first shaft (12) and an eccentric motion around a second shaft (13), during which the stator blank (10) and the tool (11) are moved toward each other. A device for performing the method comprises (a) a bearing shaft (3) that can be coupled with its drive end to a first drive and that is rotatable around its longitudinal axis by means of the first drive; (b) a drive shaft (4) that can be coupled with its drive end to a second drive and is arranged in a borehole of the bearing shaft (3) and is rotatable around its longitudinal axis by means of the second drive form-fitting and relative to the bearing shaft (3), and (c) a machining tool (5), which is rotationally fixed connected to the machining end of the drive shaft (4) that can be inserted into the cavity and can be driven rotatably via the drive shaft (4) around the longitudinal axis of the drive shaft (4). The longitudinal axis of the drive shaft (4) intersects the longitudinal axis of the bearing shaft (3) at a point or is arranged askew to the longitudinal axis of the bearing shaft (3). | ||||||
| 15 | CUTTER APPARATUS OF MILLING MACHINE | US12371069 | 2009-02-13 | US20100143053A1 | 2010-06-10 | Yong Ha Shin |
| A cutter apparatus of a milling machine includes: a transmitting means in an X-axis direction provided with a spindle and a motor delivering rotation power to the spindle; a milling cutter rotatably arranged at one side of the transmitting means so as to cut a work piece; and a tool holder interposed between the spindle and the milling cutter and connecting the milling cutter to be able to eccentrically rotate in a Y-axis direction. Since the necessity of a transmitting means in a Y-axis direction can be eliminated, a mechanical structure can be simplified and a problem of restriction of addition of a model and modification of a work piece can be solved. | ||||||
| 16 | CUTTING TOOL ASSEMBLY WITH AN ECCENTRIC DRIVE MEMBER | US12400176 | 2009-03-09 | US20090169318A1 | 2009-07-02 | STOJAN STOJANOVSKI |
| A cutting tool assembly having a tool holder and a cutting tool. The cutting tool has a shank that is matingly received within an axial bore in the lower end of the tool holder. The shank includes an eccentrically-shaped driver portion. The tool holder's axial bore includes an enlarged eccentrically-shaped drive opening which is complementary in shape to, but slightly larger than, the driver portion. When the shank is inserted into the axial bore, the driver portion and drive opening are aligned allowing the cutting tool to be partially rotated relative to the tool holder. This partial rotation abuts a portion of the eccentric driver portion against the drive opening wall to provide rigid support of the cutting tool against further rotation as the tool assembly cuts. A cammed fastener releasably interlocks the partially rotated cutting tool within the tool holder. | ||||||
| 17 | Device for fixation of a portable drilling or milling machine on a template for making holes in a workpiece, and an orbital machining apparatus for producing such holes | US10528294 | 2003-09-16 | US07179028B2 | 2007-02-20 | Dag Linderholm |
| A device for the temporary fixation of a portable cutting machine to a template for making holes and/or recesses in a workpiece including a guide sleeve and a tensioning unit. The guide sleeve includes a tubular hub with an outer diameter corresponding to an inner diameter of an aperture in the template, a forward end of the hub having radially extending lugs configured and located so as to match corresponding recesses in the aperture during the insertion of the guide sleeve therein and to obtain a locking engagement with an inner surface of the template after a partial rotation of the guide sleeve relative to the template. A rearward end of the hub has a tubular adapter socket that is mounted to a nose portion of the cutting machine. The tensioning unit is mounted to the adapter socket for axial displacement relative thereto and having a forward end surface for engagement with an outer surface of the template. | ||||||
| 18 | Milling tool holder with camming plug | US11029826 | 2005-01-06 | US20050117988A1 | 2005-06-02 | Stojan Stojanovski |
| A milling tool holder apparatus includes a tool holder having a male structure received in a female opening of a shank, and a camming plug received in a transverse plug-receiving opening in the shank and the tool holder. Turning the camming plug in one direction moves the male structure axially to a locked position. Turning the camming plug in the opposite direction moves the male structure axially to a release position. | ||||||
| 19 | Cutting tool | US10134328 | 2002-04-29 | US06702526B2 | 2004-03-09 | Kevin M. Gamble; Thomas J. Long, II; Georg H. Wellein |
| A cutting tool comprises a cutter body having at least one pocket therein. The pocket is adapted to receive a cutting insert cartridge. A position-adjusting device cooperates with the cartridge to move the cartridge in opposing directions. The body may have a pocket for receiving the cartridge. The device may include a cylindrical body member supported in a fixed axial relation within a bore in the body. The cylindrical body member may have an eccentric protrusion that engages the cartridge. The cylindrical body member may be displaceable to displace the protrusion and move the cartridge. A clamping wedge may be provided for clamping the cartridge in the pocket. The protrusion may engage a slot in a rear surface of the cartridge. The protrusion may engage the slot. | ||||||
| 20 | Cutting tool | US10134328 | 2002-04-29 | US20030202848A1 | 2003-10-30 | Kevin M. Gamble; Thomas J. Long II; Georg H. Wellein |
| A cutting tool comprises a cutter body having at least one pocket therein. The pocket is adapted to receive a cutting insert cartridge. A position-adjusting device cooperates with the cartridge to move the cartridge in opposing directions. The body may have a pocket for receiving the cartridge. The device may include a cylindrical body member supported in a fixed axial relation within a bore in the body. The cylindrical body member may have an eccentric protrusion that engages the cartridge. The cylindrical body member may be displaceable to displace the protrusion and move the cartridge. A clamping wedge may be provided for clamping the cartridge in the pocket. The protrusion may engage a slot in a rear surface of the cartridge. The protrusion may engage the slot. | ||||||
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