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1. 发明授权

US4299025A Methods and apparatus for placing windings in stator core slots and coil injection machine tool packs 失效
标题翻译：将绕组放置在定子芯槽和线圈注塑机工具包中的方法和装置
公开(公告)号：US4299025A
公开(公告)日：1981-11-10
申请号：US023351
申请日：1979-03-23
申请人： Richard E. Lauer , Dallas F. Smith
发明人： Richard E. Lauer , Dallas F. Smith
IPC分类号： H02K15/00 , H02K15/06
CPC分类号： H02K15/068 , H02K15/0018 , Y10T29/49009 , Y10T29/5137 , Y10T29/53152 , Y10T29/53161
摘要： An injection shuttle system is disclosed for fabricating stator core assemblies. Injection tooling and a stator core are selected and positioned on a shuttle means at a selection station for moving to coil loading stations and a transfer station. The injection tooling is positioned, aligned and manipulated relative to a winding machine at each coil loading station for disposing winding turns thereon. At the transfer station, the injection tooling is transferred to a wedge guide housing of a turntable arrangement which includes wedge making and injection stations. A stator height adjustment arrangement is provided for adjusting the wedge making and injection stations in accordance with the axial length of the core. The injection tooling is moved or indexed to the wedge making stations where insulating wedges are fabricated and inserted into wedge guides of the wedge guide housing. The injection tooling is then moved to the injection station where the core is interfitted with the tooling by a core transfer assembly. An injection mechanism at the injection station then injects or transfers the winding turns and insulating wedges into axially extending slots of the core. The end turns of the windings are then moved away from the bore of the core by an end turn separator. The injection tooling with winding turns removed therefrom is indexed or moved to an unloading station where it is transferred from the turntable arrangement to a shuttle means for subsequent transfer back to the selection station.
摘要翻译：公开了用于制造定子芯组件的注射梭系统。选择注射模具和定子芯，并将其定位在选择站上的穿梭装置上，以移动到线圈装载站和转运站。注射模具相对于每个线圈装载站处的绕线机被定位，对准和操纵，用于在其上布置匝数。在转运站，注射模具被转移到包括楔形制造和注射站的转盘装置的楔形引导壳体。提供了一种定子高度调节装置，用于根据芯的轴向长度来调节楔形和注射台。注射模具被移动或分度到楔形制造工位，其中绝缘楔被制造并插入楔形导向器壳体的楔形导向件中。然后将注射模具移动到注射工位，其中芯通过芯转移组件与模具配合。注射站处的注射机构然后将绕组匝和绝缘楔子注入或转移到芯的轴向延伸槽中。然后绕组的端匝通过端匝分离器移动离开芯的孔。将从其移除的绕组匝的注射模具转位或移动到卸载站，在卸载站将其从转台装置传送到穿梭装置，以便随后传送回选择站。

2. 发明授权

US4151636A Injection shuttle system 失效
标题翻译：注射穿梭系统
公开(公告)号：US4151636A
公开(公告)日：1979-05-01
申请号：US857222
申请日：1977-12-05
申请人： Richard E. Lauer , Dallas F. Smith
发明人： Richard E. Lauer , Dallas F. Smith
IPC分类号： H02K15/00 , H02K15/06
CPC分类号： H02K15/068 , H02K15/0018 , Y10T29/49009 , Y10T29/53152 , Y10T29/53161
摘要： An injection shuttle system is disclosed for fabricating stator core assemblies. Injection tooling and a stator core are selected and positioned on a shuttle means at a selection station for moving to coil loading stations and a transfer station. The injection tooling is positioned, aligned and manipulated relative to a winding machine at each coil loading station for disposing winding turns thereon. At the transfer station, the injection tooling is transferred to a wedge guide housing of a turntable arrangement which includes wedge making and injection stations. A stator height adjustment arrangement is provided for adjusting the wedge making and injection stations in accordance with the axial length of the core. The injection tooling is moved or indexed to the wedge making stations where insulating wedges are fabricated and inserted into wedge guides of the wedge guide housing. The injection tooling is then moved to the injection station where the core is interfitted with the tooling by a core transfer assembly. An injection mechanism at the injection station then injects or transfers the winding turns and insulating wedges into axially extending slots of the core. The end turns of the windings are then moved away from the bore of the core by an end turn separator. The injection tooling with winding turns removed therefrom is indexed or moved to an unloading station where it is transferred from the turntable arrangement to a shuttle means for subsequent transfer back to the selection station.
摘要翻译：公开了用于制造定子芯组件的注射梭系统。选择注射模具和定子芯，并将其定位在选择站上的穿梭装置上，以移动到线圈装载站和转运站。注射模具相对于每个线圈装载站处的绕线机被定位，对准和操纵，用于在其上布置匝数。在转运站，注射模具被转移到包括楔形制造和注射站的转盘装置的楔形引导壳体。提供了一种定子高度调节装置，用于根据芯的轴向长度来调节楔形和注射台。注射模具被移动或分度到楔形制造工位，其中绝缘楔被制造并插入楔形导向器壳体的楔形导向件中。然后将注射模具移动到注射工位，其中芯通过芯转移组件与模具配合。注射站处的注射机构然后将绕组匝和绝缘楔子注入或转移到芯的轴向延伸槽中。然后绕组的端匝通过端匝分离器移动离开芯的孔。将从其移除的绕组匝的注射模具转位或移动到卸载站，在卸载站将其从转台装置传送到穿梭装置，以便随后传送回选择站。

3. 发明授权

US3964525A Mechanism for use in winding apparatus 失效
公开(公告)号：US3964525A
公开(公告)日：1976-06-22
申请号：US575225
申请日：1975-05-07
申请人： Richard B. Arnold , Dallas F. Smith
发明人： Richard B. Arnold , Dallas F. Smith
IPC分类号： H02K15/04 , B21F3/04
CPC分类号： H02K15/0457
摘要： Mechanism for use in high speed winding machines used for developing coil groups each comprising one or more coils each having one or more turns of winding material. The apparatus may be advantageously utilized in the manufacture of wound inductive devices, e.g., dynamoelectric machines such as motors. Mechanism prevents rotation of a coil form while a flyer rotates and generates winding turns about the coil form. Mechanism may be a migrating linkage having a carriage which supports a wobble face gear having teeth on opposite faces thereof. Teeth on one face of the wobble gear mesh with the stationary gear teeth on the frame while teeth on the other face of the wobble gear engage the gear on the coil form support. As a carriage rotates with the flyer, wobble gear executes a rotationless wobble motion synchronized with the flyer. This motion results in a moving shutter, synchronized with the flyer, through which wire is fed to the flyer. In preferred forms, the mechanism includes a first meshing surface carried by the machine frame; a second meshing surface fastened to or forming a part of a winding form mechanism; and a locking structure supported to accomplish a meshing engagement with the first and second meshing surfaces. The locking structure may be a deformable spline that meshes with the first and second gear surfaces. In another form, the above mentioned carriage may rotate about a first given axis and may support at least one pair of gear surfaces for rotation about a second axis of rotation generally parallel to the first given axis. For example, a pair of gears locked or keyed on a common shaft parallel to but removed from the flyer axis of rotation may be used. The at least one pair of gears would be supported by and rotate with the flyer structure. The gears of such pair would then mesh, respectively, with a gear structure fastened to the machine frame, and with a gear interconnected with a coil form or coil form support. In one of the other forms, strain wave gearing means may be used so as to provide an exit path, preferably generally radially extending for wire that is fed generally axially to mechanisms embodying the invention.

4. 发明授权

US06999677B2 Protection switching arrangement for an optical switching system 有权
公开(公告)号：US06999677B2
公开(公告)日：2006-02-14
申请号：US09726027
申请日：2000-11-30
申请人： Alan F. Graves , Dallas F. Smith
发明人： Alan F. Graves , Dallas F. Smith
IPC分类号： H04B10/00
CPC分类号： G02B6/359 , G02B6/3512 , G02B6/3546 , G02B6/356 , H04J14/0227 , H04J14/0241 , H04J14/0283 , H04J14/0289 , H04J14/0291 , H04J14/0293 , H04J14/0295 , H04J14/0297 , H04Q11/0005 , H04Q2011/0011 , H04Q2011/0016 , H04Q2011/003 , H04Q2011/0039 , H04Q2011/0043 , H04Q2011/0075 , H04Q2011/0083
摘要： A protection arrangement for an optical switching system includes protection switching for switch planes in the optical core and for ports in the tributary cards. For a multiple layer switch core protection is also provided between layers. A first layer is for switching optical channels. The protection switches used may be 1×N, 2×N or 3×N MEMS optical switches. The 1×N MEMS provides for protection switching. The 2×N MEMS provides protection switching and testing capability. The 3×N MEMS provides for protection switching, testing and backup of the protection switching. Application of these protection switches is shown in lambda plane switch cores, multiple layer switch cores and combined switch cores.

5. 发明授权

US07212739B2 Protection switching arrangement for an optical switching system 有权
标题翻译：光开关系统的保护开关装置
公开(公告)号：US07212739B2
公开(公告)日：2007-05-01
申请号：US11287259
申请日：2005-11-28
申请人： Alan F. Graves , Dallas F. Smith
发明人： Alan F. Graves , Dallas F. Smith
IPC分类号： H04B10/00
CPC分类号： G02B6/359 , G02B6/3512 , G02B6/3546 , G02B6/356 , H04J14/0227 , H04J14/0241 , H04J14/0283 , H04J14/0289 , H04J14/0291 , H04J14/0293 , H04J14/0295 , H04J14/0297 , H04Q11/0005 , H04Q2011/0011 , H04Q2011/0016 , H04Q2011/003 , H04Q2011/0039 , H04Q2011/0043 , H04Q2011/0075 , H04Q2011/0083
摘要： A protection arrangement for an optical switching system includes protection switching for switch planes in the optical core and for ports in the tributary cards. For a multiple layer switch core protection is also provided between layers. A first layer is for switching optical channels. The protection switches used may be 1×N, 2×N or 3×N MEMS optical switches. The 1×N MEMS provides for protection switching. The 2×N MEMS provides protection switching and testing capability. The 3×N MEMS provides for protection switching, testing and backup of the protection switching. Application of these protection switches is shown in lambda plane switch cores, multiple layer switch cores and combined switch cores.
摘要翻译：用于光交换系统的保护装置包括用于光核心中的开关平面和辅助卡中的端口的保护切换。对于多层交换机，层之间也提供核心保护。第一层是用于切换光通道。所使用的保护开关可以是1xN，2xN或3xN MEMS光开关。 1xN MEMS提供保护切换。 2xN MEMS提供保护切换和测试能力。 3xN MEMS为保护开关的保护切换，测试和备份提供保障。这些保护开关的应用在λ平面交换机核心，多层交换机核心和组合交换机核心中显示。

6. 再颁专利

USRE29007E Apparatus for developing winding coils 失效
标题翻译：绕组线圈显影装置
公开(公告)号：USRE29007E
公开(公告)日：1976-10-19
申请号：US576179
申请日：1975-05-09
申请人： Richard B. Arnold , Dallas F. Smith
发明人： Richard B. Arnold , Dallas F. Smith
IPC分类号： H02K15/04
CPC分类号： H02K15/0457
摘要： A high speed winding machine for developing or generating coil groups each comprising one or more coils each having one or more turns of winding material. The turns are developed and placed on coil turn receiving means such as coil injection tooling or a coil transfer mechanism with or without auxiliary coil shaping means. The apparatus may be advantageously utilized in the manufacture of wound inductive devices, e.g., dynamoelectric machines such as motors. An illustrated preferred embodiment includes a frame, a coil form support having auxiliary coil shaping means embodied as a coil form mounted thereon for axial movement relative to the frame, and a flyer rotatable about a central axis for developing wire turns on the coil form. In order to prevent rotation of the coil form, located in the vicinity of the central axis, with the rotating flyer and a rotating wire feed tube, a migrating mechanical linkage is provided between the frame and coil form support to prevent rotation of the coil form with the rotating flyer. The illustrated migrating linkage includes a carriage which supports a wobble face gear and is rotatable relative to the gear. The wobble gear is provided with teeth on opposite faces thereof and the teeth on one face of the wobble gear mesh with the stationary gear teeth on the frame while teeth on the other face of the wobble gear engage the gear on the coil form support. The stationary gear teeth and gear teeth on the coil form support are spaced apart and the wobble gear extends between the spaced gears so that portions of the wobble gear spaced 180.degree. apart engage the stationary gear teeth and gear teeth on the coil form, respectively. The wobble gear carriage is canted relative to the central axis and as it rotates it drives succeeding teeth on the faces of the wobble gear into engagement with succeeding ones of the stationary and coil form support gear teeth. As the carriage rotates with the flyer, the wobble gear executes a rotationless wobble motion synchronized with the flyer. This motion results in a moving shutter, synchronized with the flyer, through which wire is fed to the flyer.

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