| 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 | 倒角机中的单触式斜角切割深度控制器 | CN201010211035.1 | 2010-06-28 | CN102152166B | 2014-09-03 | 全炳禹; 全炳权 |
| 提供了一种在专用倒角机中的单触式斜角切割深度控制器,该专用倒角机用来在工件(金属面板、管道等)上倒角焊道表面。根据本发明,在当斜角切割深度控制单元在其操作旋转后被释放时,位置设定销装配进斜角切割深度控制单元的固定开口中,斜角切割深度通过校准设定而准确地控制,并且同时设定的斜角切割深度被自动锁定并保持,从而通过单触式方法来更方便地控制斜角切割的深度。另外,在操作斜角切割深度控制单元时,斜角切割的深度在刀具轴垂直移动期间得以控制。从而,不管刀具的旋转运行如何,即便在操作期间,斜角切割的深度可以直接并快速地控制。 | ||||||
| 2 | 用于便携式倒角机的倒角量调节装置 | CN200980000393.3 | 2009-06-15 | CN101801577B | 2012-07-18 | 金康石 |
| 公开了一种用于便携式倒角机的倒角量调节装置,该倒角量调节装置包括:倒角量调节器,其适于通过旋转而向上和向下运动,并具有布置在其外周的下端上的水平引导部,从而引导工件的倒角位置;刻度部,其适于装配至倒角量调节器的下外周从而固定联接至水平引导部的上周边,并具有沿其周边的顶端形成的多个刻度槽;运动壳体,其适于使倒角量调节器插入地安装于其内,并具有适于插入刻度槽中并适于离开刻度槽的固定杆;弹性构件,其适于联接在所述运动壳体内;以及固定壳体,其适于插在布置在运动壳体内的弹性构件与倒角量调节器之间。 | ||||||
| 3 | 能够单触式斜角切割深度控制的用来加工焊道表面的倒角机 | CN201010211049.3 | 2010-06-28 | CN102152167B | 2014-05-07 | 全炳禹; 全炳权 |
| 提供了一种用来在工件(金属面板、管道等)上加工焊道表面的专用倒角机。根据本发明,在当斜角切割深度控制单元在其操作旋转后被释放时,位置设定销装配进斜角切割深度控制单元的固定开口中,斜角切割深度通过校准设定而准确地控制,并且同时设定的斜角切割深度被自动锁定并保持,从而通过单触式方法来更方便地控制斜角切割的深度。另外,当操作斜角切割深度控制单元时,在活动刀具轴垂直移动期间控制斜角切割的深度。从而,不管刀具的旋转操作如何,即便在操作期间,斜角切割的深度可以直接并快速地控制。 | ||||||
| 4 | 能够单触式斜角切割深度控制的用来加工焊道表面的倒角机 | CN201010211049.3 | 2010-06-28 | CN102152167A | 2011-08-17 | 全炳禹; 全炳权 |
| 提供了一种用来在工件(金属面板、管道等)上加工焊道表面的专用倒角机。根据本发明,在当斜角切割深度控制单元在其操作旋转后被释放时,位置设定销装配进斜角切割深度控制单元的固定开口中,斜角切割深度通过校准设定而准确地控制,并且同时设定的斜角切割深度被自动锁定并保持,从而通过单触式方法来更方便地控制斜角切割的深度。另外,当操作斜角切割深度控制单元时,在活动刀具轴垂直移动期间控制斜角切割的深度。从而,不管刀具的旋转操作如何,即便在操作期间,斜角切割的深度可以直接并快速地控制。 | ||||||
| 5 | 倒角机中的单触式斜角切割深度控制器 | CN201010211035.1 | 2010-06-28 | CN102152166A | 2011-08-17 | 全炳禹; 全炳权 |
| 提供了一种在专用倒角机中的单触式斜角切割深度控制器,该专用倒角机用来在工件(金属面板、管道等)上倒角焊道表面。根据本发明,在当斜角切割深度控制单元在其操作旋转后被释放时,位置设定销装配进斜角切割深度控制单元的固定开口中,斜角切割深度通过校准设定而准确地控制,并且同时设定的斜角切割深度被自动锁定并保持,从而通过单触式方法来更方便地控制斜角切割的深度。另外,在操作斜角切割深度控制单元时,斜角切割的深度在刀具轴垂直移动期间得以控制。从而,不管刀具的旋转运行如何,即便在操作期间,斜角切割的深度可以直接并快速地控制。 | ||||||
| 6 | 用于便携式倒角机的倒角量调节装置 | CN200980000393.3 | 2009-06-15 | CN101801577A | 2010-08-11 | 金康石 |
| 公开了一种用于便携式倒角机的倒角量调节装置,该倒角量调节装置包括:倒角量调节器,其适于通过旋转而向上和向下运动,并具有布置在其外周的下端上的水平引导部,从而引导工件的倒角位置;刻度部,其适于装配至倒角量调节器的下外周从而固定联接至水平引导部的上周边,并具有沿其周边的顶端形成的多个刻度槽;运动壳体,其适于使倒角量调节器插入地安装于其内,并具有适于插入刻度槽中并适于离开刻度槽的固定杆;弹性构件,其适于联接在所述运动壳体内;以及固定壳体,其适于插在布置在运动壳体内的弹性构件与倒角量调节器之间。 | ||||||
| 7 | Router | US15663429 | 2017-07-28 | US09937568B2 | 2018-04-10 | Warren A. Ceroll; Craig Schell; Steven D. McDaniel; Gregory Griffin |
| A router includes a housing and a motor assembly disposed within the housing. The motor assembly includes a driven shaft having a cavity on a first end of the driven shaft. The router includes a collet that is configured to mate into the cavity of the driven shaft with the collet being configured to grip a shank of a router bit. The router includes a gear mechanism that is configured to couple and decouple from a second end of the driven shaft such that a rotation of the gear mechanism when the gear mechanism is coupled to the second end of the driven shaft causes at least one of tightening and loosening of the collet. | ||||||
| 8 | ROUTER | US15663429 | 2017-07-28 | US20170326654A1 | 2017-11-16 | Warren A. Ceroll; Craig Schell; Steven D. McDaniel; Gregory Griffin |
| A router includes a housing and a motor assembly disposed within the housing. The motor assembly includes a driven shaft having a cavity on a first end of the driven shaft. The router includes a collet that is configured to mate into the cavity of the driven shaft with the collet being configured to grip a shank of a router bit. The router includes a gear mechanism that is configured to couple and decouple from a second end of the driven shaft such that a rotation of the gear mechanism when the gear mechanism is coupled to the second end of the driven shaft causes at least one of tightening and loosening of the collet. | ||||||
| 9 | Router | US14103751 | 2013-12-11 | US09724767B2 | 2017-08-08 | Warren A. Ceroll; Craig Schell |
| A router includes a motor assembly that is arranged and configured to hold a router tool and to impart rotation to the router tool and a frame that is fixed in size and that is configured to house the motor assembly. | ||||||
| 10 | Plunge base router | US10230611 | 2002-08-29 | US06619894B2 | 2003-09-16 | Mary Hathcock; Carl Christian Carlson; Manfred Staebler |
| A plunge base router for use in an upright and an inverted position is disclosed. The router includes a depth adjustment mechanism, a depth stop mechanism, a post lock mechanism, and a return spring defeat mechanism. The depth adjustment mechanism includes a course adjustment mechanism and a fine adjustment mechanism to set the cutting distance of a bit. The course and fine adjustment mechanisms are usable in both the upright and inverted positions and the fine adjustment mechanism is operable without being reset throughout the full range of motion of the plunge router. The depth stop includes a mechanism for locking the end of a rod on the housing to the base in order to set the relative position in between the housing and the base. The depth stop also includes a plurality of steps for engaging the rod and permitting incremental passes of cutting at different depths with the router. The post lock mechanism includes a lever for locking the housing to the guide posts in a relative position relative to the base, and the lever is normally biased to the lock position. The lever includes a latch for locking the lever in the open positions so that the plunger can be easily mounted in an inverted position under a worktable without the need to hold down the lever in order to permit relative movement between the housing and the base. The return spring defeat mechanism defeats the return spring that biases the housing away from the base so that it is easier to mount the plunge router in an inverted position on the underside of a worktable. | ||||||
| 11 | Plunge base router | US10230611 | 2002-08-29 | US20030002948A1 | 2003-01-02 | Mary Hathcock; Carl Christian Carlson; Manfred Staebler |
| A plunge base router for use in an upright and an inverted position is disclosed. The router includes a depth adjustment mechanism, a depth stop mechanism, a post lock mechanism, and a return spring defeat mechanism. The depth adjustment mechanism includes a course adjustment mechanism and a fine adjustment mechanism to set the cutting distance of a bit. The course and fine adjustment mechanisms are usable in both the upright and inverted positions and the fine adjustment mechanism is operable without being reset throughout the full range of motion of the plunge router. The depth stop includes a mechanism for locking the end of a rod on the housing to the base in order to set the relative position in between the housing and the base. The depth stop also includes a plurality of steps for engaging the rod and permitting incremental passes of cutting at different depths with the router. The post lock mechanism includes a lever for locking the housing to the guide posts in a relative position relative to the base, and the lever is normally biased to the lock position. The lever includes a latch for locking the lever in the open positions so that the plunger can be easily mounted in an inverted position under a worktable without the need to hold down the lever in order to permit relative movement between the housing and the base. The return spring defeat mechanism defeats the return spring that biases the housing away from the base so that it is easier to mount the plunge router in an inverted position on the underside of a worktable. | ||||||
| 12 | Plunge base router | US10230561 | 2002-08-29 | US20030002947A1 | 2003-01-02 | Mary Hathcock; Lawrence M. Cotton; Carl Christian Carlson |
| A plunge base router for use in an upright and an inverted position is disclosed. The router includes a depth adjustment mechanism, a depth stop mechanism, a post lock mechanism, and a return spring defeat mechanism. The depth adjustment mechanism includes a course adjustment mechanism and a fine adjustment mechanism to set the cutting distance of a bit. The course and fine adjustment mechanisms are usable in both the upright and inverted positions and the fine adjustment mechanism is operable without being reset throughout the full range of motion of the plunge router. The depth stop includes a mechanism for locking the end of a rod on the housing to the base in order to set the relative position in between the housing and the base. The depth stop also includes a plurality of steps for engaging the rod and permitting incremental passes of cutting at different depths with the router. The post lock mechanism includes a lever for locking the housing to the guide posts in a relative position relative to the base, and the lever is normally biased to the lock position. The lever includes a latch for locking the lever in the open positions so that the plunger can be easily mounted in an inverted position under a worktable without the need to hold down the lever in order to permit relative movement between the housing and the base. The return spring defeat mechanism defeats the return spring that biases the housing away from the base so that it is easier to mount the plunge router in an inverted position on the underside of a worktable. | ||||||
| 13 | One-touch chamfering amount adjustment device chamfering machine | JP2012501949 | 2011-01-13 | JP5258075B2 | 2013-08-07 | ジョン,ビョン−ウ; ジョン,ビョン−クォン |
| 14 | Milling cutter | JP761681 | 1981-01-20 | JPS57121412A | 1982-07-28 | MIYAZAKI KATSUMI; NAKAMU ICHIROU |
| PURPOSE:To make it possible to perform a main cutting and a finish cutting accurately and efficiently by means of one cutter by providing a blade type finish cutting blade on a cutter body together with a slow-away type main cutting blade while protruding said finish cutting blade from said main cutting blade. CONSTITUTION:A plural number of concave holes 2 for main cutting blade mounting is provided on the outer periphery of the tip of a cutter body 1, and slow-away type main cutting blades 3 having main cutting blades 31 are mounted in this concave holes 2. And, a concave hole 4 for finish cutting blade mounting is provided at a prescribed position radially inward from said concave hole 2, and a finish cutting blade 5 having finish cutting blade 53 is mounted inside said concave hole 4. Here, radial height H from the reference plane 13 formed on the upper surface of the body 1 to the finish cutting blade 53 is formed larger than the height h to the main cutting blade 31. | ||||||
| 15 | Chamfer device for machining weld bead surface which allows one-touch chamfering-amount adjustment | US13265285 | 2011-01-13 | US08740521B2 | 2014-06-03 | Byung-Woo Jeon; Byung-Kwon Jeon |
| The present invention relates to a chamfer device for machining a weld bead surface, which specifically carries out a chamfering process on the welding bead surfaces of objects to be processed (such as metal sheet materials and pipes). In the present invention, immediately after a chamfering-amount-adjustment unit has been rotated and released, a position-setting pin is inserted into a securing recess in the chamfering-amount-adjustment unit, while the chamfering amount is adjusted in precise units and simultaneously locked at a predetermined chamfering amount which is automatically maintained, and the adjustment of the chamfering amount is achieved in a straightforward fashion with just one touch. When the chamfering-amount-adjustment unit is operated, a mobile cutter shaft moves vertically and as it does so the chamfering amount is adjusted in such a way that the chamfering amount can be immediately and rapidly adjusted while continuously operating without regard to any cutter rotation action. | ||||||
| 16 | ROUTER | US14103751 | 2013-12-11 | US20140105702A1 | 2014-04-17 | Warren A. Ceroll; Craig Schell |
| A router includes a motor assembly that is arranged and configured to hold a router tool and to impart rotation to the router tool and a frame that is fixed in size and that is configured to house the motor assembly. | ||||||
| 17 | CHAMFER DEVICE FOR MACHINING WELD BEAD SURFACE WHICH ALLOWS ONE-TOUCH CHAMFERING-AMOUNT ADJUSTMENT | US13265285 | 2011-01-13 | US20120057945A1 | 2012-03-08 | Byung-Woo Jeon; Byung-Kwon Jeon |
| The present invention relates to a chamfer device for machining a weld bead surface, which specifically carries out a chamfering process on the welding bead surfaces of objects to be processed (such as metal sheet materials and pipes). In the present invention, immediately after a chamfering-amount-adjustment unit has been rotated and released, a position-setting pin is inserted into a securing recess in the chamfering-amount-adjustment unit, while the chamfering amount is adjusted in precise units and simultaneously locked at a predetermined chamfering amount which is automatically maintained, and the adjustment of the chamfering amount is achieved in a straightforward fashion with just one touch. When the chamfering-amount-adjustment unit is operated, a mobile cutter shaft moves vertically and as it does so the chamfering amount is adjusted in such a way that the chamfering amount can be immediately and rapidly adjusted while continuously operating without regard to any cutter rotation action. | ||||||
| 18 | ONE-TOUCH CHAMFERING-AMOUNT ADJUSTMENT DEVICE FOR A CHAMFERING MACHINE | US13265234 | 2011-01-13 | US20120039682A1 | 2012-02-16 | Byung-Woo Jeon; Byung-Kwon Jeon |
| The present invention relates to a one-touch chamfering-amount adjustment device for a chamfering machine which specifically carries out a chamfering process on the welding bead surfaces of objects to be processed (such as metal sheet materials and pipes). In the present invention, the moment after a chamfering-amount-adjustment piece has been manipulated so as to rotate, a position-setting pin is inserted into a securing recess in the chamfering-amount-adjustment piece and as this happens the chamfering amount is precisely adjusted in units and at the same time locking to the predetermined chamfering amount is automatically maintained, yet nevertheless the adjustment of the chamfering amount is achieved in a straightforward fashion with one touch, and, when the chamfering-amount-adjustment piece is manipulated, a cutter shaft moves vertically and as it does so the chamfering amount is adjusted in such a way that the chamfering amount can be immediately and rapidly adjusted even during working regardless of any cutter rotating action. | ||||||
| 19 | CUTTING INSTRUMENT AND METHODS FOR IMPLEMENTING SAME | US12678201 | 2007-11-13 | US20100209200A1 | 2010-08-19 | Francis Delacretaz |
| A rotating cutting tool (10, 110) includes a body (12, 112) with a longitudinal axis (14, 114) and at least one flute (16, 116) and one active part (18, 118). Each active part has a peripheral surface including: a radial cutting edge (20, 120) that is at a cutting distance (Rc) from the longitudinal axis, a clearance face (30, 130) that is at a final clearance distance (Rd) from the longitudinal axis, and a control face (40, 140) that is at a penetration control distance (Rp) from the longitudinal axis. These distances satisfy the relation: 0<Δp<Δd, with Δp=|Rc−Rp| and Δd=|Rc−Rd|. | ||||||
| 20 | Tool-holder for milling machines, a milling machine and a milling procedure | US11634939 | 2006-12-07 | US07497648B2 | 2009-03-03 | Roberto Muselli; Maurizio Ferrari |
| A tool-holder for a milling machine is composed of a first rotating portion with a coupler attachable to a spindle drive shaft of the machine, a second rotating portion turning as one with the first portion and equipped with a chuck to hold a tool, and a mechanism designed to detect undulations on a surface being milled. The second rotating portion is capable of axial movement relative to the first rotating portion, so that when the tool-holder is traversed along a prescribed trajectory referable to a nominal surface, the undulations on the actual surface of the panel and the extent of their deviation from the nominal surface can be sensed and quantified through the agency of detection mechanism, and a corresponding axial movement induced in the second portion of the tool-holder to compensate the variation and maintain a constant milling depth, thereby improving the quality of finish-milling operations on technological materials such as panels of carbon fiber composite. | ||||||
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