| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | Box slotting router bit | US10824104 | 2004-04-14 | US20040221922A1 | 2004-11-11 | Brent K. Hyde |
| Router bits or cutters and methods of using such bits and cutters that enables a slotting cutter to cut a groove having appropriate widths and depths around the entirety of an assembled frame or box so that portions of the panel (or top or bottom in the case of a box) tongue is received around the entire panel, including in the corners. The slotting cutters of this invention have diametric proportions that allow a nullnull to {fraction (3/16)}null deep slot to be cut with a sufficiently small radius at corners to produce a continuous slot around the inside of a frame or box corner. | ||||||
| 22 | Plunge base router | US10230537 | 2002-08-29 | US06558091B2 | 2003-05-06 | Kenneth Smith; Lawrence M. Cotton; Kevin Alfred |
| 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. | ||||||
| 23 | Plunge base router | US10230537 | 2002-08-29 | US20030007843A1 | 2003-01-09 | Lawrence M. Cotton; Kenneth Smith; Kevin Alfred |
| 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. | ||||||
| 24 | Plunge base router | US09627497 | 2000-07-28 | US06488455B1 | 2002-12-03 | Manfred Staebler; Mary Hathcock; Kenneth Smith; Lawrence M. Cotton; Carl Christian Carlson; Kevin Alfred |
| 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 coarse 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. | ||||||
| 25 | One-touch chamfering amount adjustment device chamfering machine | JP2012501949 | 2011-01-13 | JP2012521308A | 2012-09-13 | ジョン,ビョン−ウ; ジョン,ビョン−クォン |
| 【解決手段】
本発明は被加工物(金属板材、パイプなど)に溶接ビード面を専用に面取り加工する面取り機のワンタッチ式面取り量調節装置に関する。 かかる本発明は面取り量調節具を回転操作した後、放した瞬間に上記面取り量調節具の固定溝に位置設定ピンが挟まれて面取り量が単位別に正確に調節されると同時に、設定された面取り量のロッキングを自動で維持し、かかる面取り量の調節がワンタッチ方式で容易に可能となり、上記面取り量調節具の操作時にカッター軸が上下に移動しながら面取り量が調節されて上記カッターの回転作動と関係なく作業途中にも面取り量を容易かつ迅速に調節可能にすることを発明の特徴とする。 【選択図】図2 |
||||||
| 26 | One-touch chamfering amount of regulation that can be weld bead surface machining chamfering machine | JP2012501948 | 2011-01-13 | JP2012521307A | 2012-09-13 | ジョン,ビョン−ウ; ジョン,ビョン−クォン |
| 【解決手段】
本発明は被加工物(金属板材、パイプなど)に溶接ビード面を専用に面取り加工する溶接ビード面加工用面取り機に関する。 かかる本発明は面取り量調節具を回転操作した後、放した瞬間に上記面取り量調節具の固定溝に位置設定ピンが挟まれて面取り量が単位別に正確に調節されると同時に、設定された面取り量のロッキングを自動で維持し、かかる面取り量の調節がワンタッチ方式で容易に可能となり、上記面取り量調節具の操作時に移動カッター軸が上下に移動しながら面取り量が調節されて上記カッターの回転作動と関係なく作業途中にも面取り量を容易かつ迅速に調節可能にすることを発明の特徴とする。 【選択図】図2 |
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| 27 | JPS5911405B2 - | JP19905381 | 1981-12-10 | JPS5911405B2 | 1984-03-15 | OOISHI SADAO; FUJIWARA KATSUAKI; YAMAOKA TAKASHI |
| 28 | JPS5854925B2 - | JP19905481 | 1981-12-10 | JPS5854925B2 | 1983-12-07 | OOISHI SADAO; FUJIWARA KATSUAKI; YAMAOKA TAKASHI |
| 29 | Facing milling cutter | JP19905381 | 1981-12-10 | JPS58102614A | 1983-06-18 | OOISHI SADAO; FUJIWARA KATSUAKI; YAMAOKA TAKASHI |
| PURPOSE:To prevent the generation of cutting vibration and chattering by holding a work through a work pressing member to which the turning effort of a cutter body in a facing milling cutter is not transmitted. CONSTITUTION:When a cutter body 2 will rotate to cut a work W through a cutting edge 3, the cutting work is performed while pressing the vicinity of a cutting section with a circumferential section 10a of a work pressing member 10 which is forced through a spring 17 to the work side W or holding the work W by the cutter itself. Consequently the press member 10 will not rotate and since the work W can be held through pressing, the accuracy of the cutting work can be improved. | ||||||
| 30 | One-touch chamfering amount of regulation that can be weld bead surface machining chamfering machine | JP2012501948 | 2011-01-13 | JP5258074B2 | 2013-08-07 | ジョン,ビョン−ウ; ジョン,ビョン−クォン |
| 31 | Chamfering amount regulating device of portable chamfering machine | JP2011514487 | 2009-06-15 | JP2011524819A | 2011-09-08 | キム,カンソク |
| 本発明は簡単な方法で面取り量を調節して維持して、精密で且つ正確な面取り作業が行われるようにする携帯用面取り機の面取り量調節装置に関し、加工部材の面取り位置を案内する水平ガイド部が下端に形成され、回転によって上、下に移動可能な面取り量調節具と、上記面取り量調節具に嵌められて上記水平ガイド部の上部に結合される複数のスケール溝が形成されたスケールと、上記面取り量調節具を内部に挿入し、上記スケール溝に挿入、離脱される固定バーが形成された移動ハウジングと、上記移動ハウジングの内部に結合される弾性部材と上記移動ハウジングの固定バーが挿入される所定の長さの長孔が形成され、上記移動ハウジングの内部の上記弾性部材と上記面取り量調節具との間に挿入される固定ハウジングとで構成されて、上記固定バーが上記長孔に沿って上向きに移動して、上記スケール溝から離脱された後、上記面取り量調節具を回転して面取り量を調節することを特徴とする携帯用面取り機の面取り量調節装置であって、簡単な操作方法で面取り量を正確に調節して維持して、作業率及び品質が向上され、上記構成要素を簡略化して、製作が便利で、費用が低減される効果を奏することができる。 | ||||||
| 32 | Cutting tools and methods of use thereof | JP2010532662 | 2007-11-13 | JP2011502805A | 2011-01-27 | フランシス デラクレタズ |
| 本発明は、回転切削工具に関する。 本発明による回転切削工具(10,110)は、長手方向軸線(14,114)を備えたバレル(12,112)と、少なくとも1つの溝(16,116)と、作動部分(18,118)を有する。 各作動部分は、周面を有し、周面は、長手方向軸線から切断距離(Rc)のところに配置された半径方向刃先(20,120)と、長手方向軸線から最終クリアランス距離(Rd)のところに位置するクリアランス面(30,130)と、長手方向軸線から侵入規制距離(Rp)のところに位置する規制面(40,140)を有する。 これら距離は、0<Δp<Δdの関係を満たし、ここで、Δp=|Rc−Rp|、及び、Δd=|Rc−Rp|である。 本発明は、歯内療法及び宝石類の分野に適用可能である。 | ||||||
| 33 | End mill for relieving process | JP2001130101 | 2001-04-26 | JP2002326116A | 2002-11-12 | HORIIKE NOBUKAZU; IKENAGA KOICHI |
| PROBLEM TO BE SOLVED: To easily recognize a position to have a relieving surface in relieving a work material. SOLUTION: Three grooves 18 are formed at a predetermined interval d from a position of a base end side cutting edge 16 toward the base end side of an end mill body in the end mill body 11 so that the grooves ride the entire loop around the outer peripheral surface 11B in a direction orthogonal to the axial line O. Three grooves 18 are stained with different colors. Depth of the grooves 18 is set in a range from 0.2 to 0.5 mm. Respective proximities of the grooves 18 on the outer peripheral surface 11B have a value indicating a distance from the base end side cutting edge 16 in the axial lien O direction. COPYRIGHT: (C)2003,JPO | ||||||
| 34 | Facing milling cutter | JP19905481 | 1981-12-10 | JPS58102615A | 1983-06-18 | OOISHI SADAO; FUJIWARA KATSUAKI; YAMAOKA TAKASHI |
| PURPOSE:To improve the accuracy of the cutting work, by performing the cutting work while pressing a work through a work pressing member provided nearer to the inner diameter side than a cutting edge or holding the work through the cutter itself. CONSTITUTION:When a cutter body 2 will rotate to cut a work W by means of a cutting edge 3, the cutting work is performed while pressing the vicinity of a cutting edge at the cutting work section by a work pressing member 5 forced to the work W through a spring 7 or holding the work W by the cutter itself 2. Consequently the work W can be held reliably to prevent the vibration. | ||||||
| 35 | 직각 결합부의 용접 비드 절삭 가공장치 | KR1020120068434 | 2012-06-26 | KR1020140000869A | 2014-01-06 | 구용석 |
| The present invention relates to a high efficient weld bead processing device. The weld bead processing device enables rapid, simple, and precise process; facilitates manipulability and field accessibility and increases posture stability and work convenience when the weld bead formed on the perpendicular joints of a structure to be installed in offshore plants, ships, construction equipment, heavy equipment, all kinds of industrial plants, large equipment, and others as a support or a frame is cut. The present invention comprises: V-shaped left and right frames (110, 120); front and rear fixed plates (130, 140) formed on the front and rear sides; an electrical tool (200) for rotary cutting which is fixated obliquely, and which has a rotary cutting blade (211) and a reduction motor (221) embedded between the left and right frames (110, 120); and transfer guide rollers (300, 300') formed on each outer surface of the V-shaped left and right frames (110, 120) to guide the forward and backward transfer of the equipment. | ||||||
| 36 | ROUTER | US15948739 | 2018-04-09 | US20180221968A1 | 2018-08-09 | 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. | ||||||
| 37 | Pipe Milling Machine - Feed Deactivation | US15585739 | 2017-05-03 | US20170320147A1 | 2017-11-09 | Armin Eisenhardt; Boris Richt |
| A pipe milling machine for separating and/or cutting a pipe to length is disclosed. In an embodiment the pipe milling machine includes a milling wheel configured to separate the pipe and a motor configured to generate a feed of the pipe milling machine and to drive the milling wheel, wherein driving the milling wheel is independent of separating the pipe. | ||||||
| 38 | STOP FOR A DRILLING, MILLING OR COUNTERSINKING TOOL | US15427443 | 2017-02-08 | US20170274459A1 | 2017-09-28 | Felix REBHOLZ |
| The invention relates to a stop for a rotating drilling, milling or countersinking tool which comprises a stop sleeve which is freely rotatably coupled, by means of a sliding or rolling bearing, around the tool. A first bearing bush of the bearing supports the stop sleeve. A second bearing bush of the bearing sits in a rotationally fixed manner on a shaft sleeve. The shaft sleeve can be pushed and fastened on a shaft of the tool. In a secondary aspect, the invention relates to a drilling, milling or countersinking tool having such a stop. | ||||||
| 39 | One-touch chamfering-amount adjustment device for a chamfering machine | US13265234 | 2011-01-13 | US08961082B2 | 2015-02-24 | 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. | ||||||
| 40 | Cutting instrument and methods for implementing same | US12678201 | 2007-11-13 | US08657537B2 | 2014-02-25 | 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|. | ||||||
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