子分类:
- B23C1/002: .{龙门铣床}
- B23C1/005: .{工具围绕工件沿一封闭路径移动}
- B23C1/007: .{移动式铣床,例如,在轨道上}
- B23C1/02: .有一个水平工作主轴
- B23C1/04: .有多个水平工作主轴
- B23C1/06: .有一个垂直工作主轴
- B23C1/08: .有多个垂直工作主轴
- B23C1/10: .兼有水平和垂直工作主轴
- B23C1/12: .有可调节成不同角度的主轴,如水平方向或垂直方向的
- B23C1/14: .有旋转工作台(一般机床工作台入B23Q1/00)
- B23C1/16: .专门适用于仿形装置控制的{其他的见B23Q35/00}
- B23C1/20: .便携式装置或机床(与执行操作无特殊关联的便携式机动工具的零件或部件,例如外壳、机体入B25F5/00);手动装置或机床〔4〕
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | 加工装置 | JP2016547812 | 2015-09-14 | JPWO2016039480A1 | 2017-05-25 | 安部 新一; 新一 安部; 篤彦 高瀬; 声喜 佐藤 |
| 【課題】加工精度にバラツキなく製品を製造することができ、軸芯出しが不要な加工装置10を提供すること。【解決手段】本発明の加工装置10は、ベット1と、保持移動部2と、主軸20と、測定部30と、研磨部40と、主軸移動部3と、制御部50とを具備する。保持移動部2は、ベット1上に配置され、被削材を保持して移動させる。主軸20は、保持移動部2により保持された被削材を切削加工するエンドミル23を保持し、エンドミル23を回転させる機構を有する。測定部30は、ベット1上に配置され、主軸20により保持されたエンドミル23の刃部24の摩耗量を測定する。研磨部40は、ベット1上に配置され、主軸20により保持されたエンドミル23の刃部24を研磨する。主軸移動部3は、エンドミル23を保持した主軸20を測定部30及び研磨部40へ移動させる。制御部50は、測定部30により測定されたエンドミル23の刃部24の摩耗量に応じて、研磨部40により研磨されるエンドミル23の刃部24の研磨代を制御する。【選択図】図1 | ||||||
| 42 | Cutting machine and cutting method | JP2011170119 | 2011-08-03 | JP5364132B2 | 2013-12-11 | 浩司 西川 |
| There are provided a cutting apparatus and a cutting method. A cutting device (1) comprises: a guiderail (18) formed into a ring shape along the circumference around the central axis (10c) of a cutting drive unit (10); a laser irradiation unit (22) movable along the guiderail, and irradiates a laser at a predetermined inclination angle onto an object (30) to be cut; a preset cutting position derivation unit for deriving a preset cutting position that corresponds to a preset cutting portion, which is the portion to be cut by a cutting tool (10b) after a predetermined amount of time; a stopping position derivation unit for deriving the stopping position of the laser irradiation unit (22) on the guiderail (18) with the preset cutting position that was derived as a target; and a laser irradiation drive unit (24) for moving the laser irradiation unit (22) to the derived stopping position. | ||||||
| 43 | JPS6140487B2 - | JP22105683 | 1983-11-24 | JPS6140487B2 | 1986-09-09 | HIRAO MASATOSHI |
| 44 | Machining device of radius (r) | JP12668583 | 1983-07-12 | JPS6020810A | 1985-02-02 | IWASE TAKAHIRO; KURITA SADAJI; NOMURA YOSHINORI; KOMEICHI SHIGEKI; TSURU SHIGEO |
| PURPOSE:To improve productivity of a work and its quality, by constituting a device in such a manner that main unit, chuck unit, attitude corrective unit and a conveying unit are operated interlocking by switches, in the case of the device machining a radius (R) in an angular part in the internal peripheral side of the annular work. CONSTITUTION:A start signal, closing a limit switch 71 of a lift chute 63, causes a discriminating device 66 to discriminate whether or not a work is placed in a regular direction. The work, when it is placed in the regular direction, is lifted by actuating a lifter cylinder 64 and fed to a successive feed stopper device 97. The work, if it operates a limit switch 105, runs by itself to a chuck unit 14, closing a limit switch 107, and the work, after confirming any work not existent in the chuck 14, is forced to be pressed and chucked to a reference end face not shown in the drawing in the chuck unit 14. Here a main spindle unit 3 operates machining the work by advancing a tool part 5 to be rotated. In such way, operation of a machining device is automatized improving efficiency and quantity. | ||||||
| 45 | JPS56501397A - | JP50103381 | 1980-10-30 | JPS56501397A | 1981-10-01 | |
| 46 | JPS5540366B2 - | JP8994073 | 1973-08-10 | JPS5540366B2 | 1980-10-17 | |
| 47 | JPS5079883A - | JP9245274 | 1974-08-14 | JPS5079883A | 1975-06-28 | |
| 48 | A processing system and method for a work piece surface | EP14198760.2 | 2014-12-18 | EP2960016B1 | 2018-02-14 | Chen, Qiyue |
| The present invention provides a processing system and method for a work piece surface in the mechanical technical field. The processing system for work piece surface of the invention is disposed on the side of the processing center which machine the work piece. The processing system comprises two milling cutter carving machines symmetrically located on both sides of the processing center and an article positioning shelf located between the said two milling cutter carving machines to place the work piece. A first manipulator is provided between the processing center and the article positioning shelf and between the two milling cutter carving machines. The first manipulator transfer the work piece among the processing center, the article positioning shelf and two milling cutter carving machines. A group of polishing units is located on the side of the article positioning shelf. A second manipulator is provided in the polishing unit which transfers the work piece between the article positioning shelf and the polishing unit. The processing system and method for work piece surface has advantages including a short polishing period, a high polishing speed, high polishing efficiency and a low work piece reprocessing rate. | ||||||
| 49 | A processing system and method for a work piece surface | EP14198760.2 | 2014-12-18 | EP2960016A3 | 2016-02-24 | Chen, Qiyue |
The present invention provides a processing system and method for a work piece surface in the mechanical technical field. The processing system for work piece surface of the invention is disposed on the side of the processing center which machine the work piece. The processing system comprises two milling cutter carving machines symmetrically located on both sides of the processing center and an article positioning shelf located between the said two milling cutter carving machines to place the work piece. A first manipulator is provided between the processing center and the article positioning shelf and between the two milling cutter carving machines. The first manipulator transfer the work piece among the processing center, the article positioning shelf and two milling cutter carving machines. A group of polishing units is located on the side of the article positioning shelf. A second manipulator is provided in the polishing unit which transfers the work piece between the article positioning shelf and the polishing unit. The processing system and method for work piece surface has advantages including a short polishing period, a high polishing speed, high polishing efficiency and a low work piece reprocessing rate.
|
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| 50 | A METHOD OF UTILIZING A MILLING MACHINE WITH STATIONARY TOOLS AND A MACHINE FOR PERFORMING THE METHOD | EP89910229.0 | 1989-09-01 | EP0407484A1 | 1991-01-16 | SKOOG, Stefan; ELG, Reinhold; JOHANSSON, Tage |
| Les tours sont souvent occupés à faire tourner de longues séries de productions c'est pourquoi il est extrêmement difficile d'interrompre le travail pour traiter des séries courtes. L'invention vise à utiliser des machines de fraisage pour de courtes séries de production, dans lesquelles l'ébauche (2) est fixée dans le support (1) destiné à des fraises, et dans lesquelles on place des outils stationnaires de fraisage (18) sur la table de fraisage (13). | ||||||
| 51 | Dynamically clamped planing tool and a method for its manufacture | EP90830294.6 | 1990-06-27 | EP0406184A2 | 1991-01-02 | Gemmani, Giuseppe |
The dynamically clamped planing tool has a series of cutting knives (3), having, each one, a longitudinal tooth (5) engaging with a corresponding recess (6) in a lateral wall (2a) of each longitudinal seat (2) on a shaft (1) and designed to allow a cutting knife (3) to be positioned inside the same seat, and corresponding wedges (4) having, each one, a tapered profile with an angle (Ω) less than the opening angle (Ω1) of the seat (2) so as to lock the cutting knife (3), in a working position, against the lateral wall (2a) , under the action of a force (F), directed towards the outside of the shaft (1), due to the rotation of the latter. The seats (2) furthermore are made using a method which envisages three different passes with two different tools (9 and 10), the first of which (9) is used in the first two passes in which it is off-centre with respect to the (x) axis of the shaft (1) and it also makes a recess (8) which reproduces the external profile of the cutting knife (3) and respectively in which it is at an angle (β) with respect to the (x) axis of the shaft, the second tool (10) makes the third pass and is at an angle (α) with respect to the (x) axis of the shaft (1) and makes the recess (6) of the lateral wall (2a). |
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| 52 | 이동형 가공기 이송기구 | KR1020160025439 | 2016-03-03 | KR101729588B1 | 2017-04-25 | 김창주; 윤진원; 노승국 |
| 이동형가공기이송기구는상부유닛, 상하이송유닛, 하부유닛및 가공유닛을포함한다. 상기상부유닛은일 방향으로연장된상부가이드를포함한다. 상기상하이송유닛은상기상부유닛에연결되며, 공작물의표면에탈부착되는고정모듈을포함한다. 상기하부유닛은상기상부유닛의하부에위치하며, 상기상부유닛의연장방향과교차하도록연장된하부가이드, 및상기공작물의표면에탈부착되는하부고정모듈을포함한다. 상기가공유닛은상기고정모듈에고정되어상기공작물을가공한다. | ||||||
| 53 | 가공품 표면의 가공시스템 및 가공방법 | KR1020140184948 | 2014-12-19 | KR101699247B1 | 2017-01-24 | 첸,치유에 |
| 가공품표면의가공시스템및 가공방법으로서, 기존가공품표면가공시스템의연마시간이길고연마효율이높지않은문제를해결하기위해, 가공품표면의가공시스템은가공품에대해기계가공하는가공중심측부에설치된다. 이가공시스템은가공중심양측에대칭되게설치된밀링커터조각기및 2대의밀링커터조각기사이에가공품을놓는재료공급대를포함한다. 가공중심, 재료공급대및 2대의밀링커터조각기사이에는제1 기계손이설치된다. 제1 기계손은가공중심, 재료공급대및 2대의밀링커터조각기사이에서가공품을이동한다. 재료공급대측부에는한 조의연마장치가설치된다. 연마장치내에는재료공급대및 연마장치사이에서가공품을이동하는제2 기계손을구비한다. 본가공품표면의가공시스템및 가공방법은연마시간이짧고연마속도가빠르고연마효율이높고가공품재가공율이낮은이점을가지고있다. | ||||||
| 54 | 가공품 표면의 가공시스템 및 가공방법 | KR1020140184948 | 2014-12-19 | KR1020150146367A | 2015-12-31 | 첸,치유에 |
| 가공품표면의가공시스템및 가공방법으로서, 기존가공품표면가공시스템의연마시간이길고연마효율이높지않은문제를해결하기위해, 가공품표면의가공시스템은가공품에대해기계가공하는가공중심측부에설치된다. 이가공시스템은가공중심양측에대칭되게설치된밀링커터조각기및 2대의밀링커터조각기사이에가공품을놓는재료공급대를포함한다. 가공중심, 재료공급대및 2대의밀링커터조각기사이에는제1 기계손이설치된다. 제1 기계손은가공중심, 재료공급대및 2대의밀링커터조각기사이에서가공품을이동한다. 재료공급대측부에는한 조의연마장치가설치된다. 연마장치내에는재료공급대및 연마장치사이에서가공품을이동하는제2 기계손을구비한다. 본가공품표면의가공시스템및 가공방법은연마시간이짧고연마속도가빠르고연마효율이높고가공품재가공율이낮은이점을가지고있다. | ||||||
| 55 | 밀링 공구대의 드라이빙 장치 | KR1020100133762 | 2010-12-23 | KR1020120072002A | 2012-07-03 | 이종열 |
| PURPOSE: A driving device of a milling tool rest is provided to assemble and disassemble without damages by applying a roller bearing. CONSTITUTION: A driving device of a milling tool rest(130) comprises a driving shaft(140), first and second bevel gears(151,152), and a main shaft(124), an integrated body(131). The driving shaft rotates a tool. The first bevel gear is joined to an external surface of one side and rotated to be integrated. One side of the bevel gear is tooth-engaged with the first bevel gear. The main shaft is coaxially connected to the other side of the second bevel gear. The integrated body includes a partial domain of the driving shaft. The integrated body supports the first and second bevel gears to be rotated and formed into a single body by a mechanical machining. | ||||||
| 56 | MULTI-FUNCTIONAL END EFFECTOR WITH INTEGRATED WATERJET, MILLING SPINDLE SYSTEM AND/OR SCANNING SENSOR, AND A FLUID STREAM CATCHER MOUNTING SYSTEM | PCT/US2015015492 | 2015-02-11 | WO2015123349A3 | 2015-10-29 | JUNG THOMAS E; MCCHAIN ANDREW |
| A multifunctional end effector includes a support structure (70) configured to be carried by a robotic system and at least two of a fluid stream cutting system (12), a spindle system (14) and/or a scanning system (16), each mounted to the support structure (70). Also described is a fluid stream cutting system (12) having a plurality of fluid stream catchers (59,114) selectively mountable to the fluid stream system (12) and a mounting arrangement (100) for mounting each fluid stream catcher (59, 114) to the fluid stream cutting system (16). | ||||||
| 57 | Cutting apparatus and method | US13558950 | 2012-07-26 | US09248534B2 | 2016-02-02 | Hirozi Nishikawa |
| A cutting device 1 comprises: a guiderail (18) that is formed into a ring shape along the circumference around the central axis (10c) of a cutting drive unit (10); a laser irradiation unit (22) that is movable along the guiderail, and irradiates a laser at a predetermined inclination angle onto an object (30) to be cut; a preset cutting position derivation unit (26a) for deriving a preset cutting position that corresponds to a preset cutting portion, which is the portion to be cut by a cutting tool (10b) after a predetermined amount of time; a stopping position derivation unit (26b) for deriving the stopping position of the laser irradiation unit on the guiderail with the preset cutting position that was derived as a target; and a laser irradiation drive unit (24) for moving the laser irradiation unit to the derived stopping position. | ||||||
| 58 | Processing System and Method for a Work Piece Surface | US14580193 | 2014-12-22 | US20150367464A1 | 2015-12-24 | Qiyue Chen |
| A processing system and method for a work piece surface in the mechanical technical field. The processing system is disposed on the side of the processing center which could machine the work piece which comprises two milling cutter carving machines symmetrically located on both sides of the processing center and an article positioning shelf located between the said two milling cutter carving machines to place the work piece. A first manipulator is provided between the processing center and the article positioning shelf and between the two milling cutter carving machines. The first manipulator transfer the work piece among the processing center, the article positioning shelf and two milling cutter carving machines. A group of polishing units is located on the side of the article positioning shelf. A second manipulator is provided in the polishing unit which transfers the work piece. | ||||||
| 59 | ASSEMBLY AND METHOD FOR MACHINING OF AN OBJECT WITH A MILLING MACHINE | US13120757 | 2009-09-30 | US20110236146A1 | 2011-09-29 | Abraham Gijsbert De Koning |
| Assembly and method for machining an object with a milling machine. The object needing machining on various sides so as to require clamping. It is proposed to mechanize this time-consuming operation. To this end a further clamp is attached to a conversion or turning station which may clamp the already partially machined object with an already partially machined side thereof. The mutual positioning of the clamp in which the object is located and the clamp wherein the object is transferred, is precisely defined and by the linear movement of the clamps in relation to each other, the object may be transferred. The additional clamp is configured to receive the object to be machined in precisely the desired position, without damage. Subsequently, a further clamp is again put into the milling machine with the aid of a robot so that other sides of the object can be further subjected to a milling operation. | ||||||
| 60 | Method of high speed cutting mold and ultra-high speed milling machine | US720009 | 1996-09-27 | US5919012A | 1999-07-06 | Takeo Nakagawa; Masahiro Anzai; Ichiro Takahashi; Toshitaka Matsuoka |
| There is provided a method of three-dimensionally cutting a mold including the steps, in sequence, of (a) rotating a single ball end mill at a rate in the range of 50,000 rpm to 200,000 rpm, the ball end mill being made of material having high thermal resistance, (b) driving the ball end mill in horizontal, reciprocating movement at a rate in the range of 10 m/min to 100 m/min, and driving the ball end mill in transverse movement at a predetermined depth of cut in a direction perpendicular to a direction in which the ball end mill is reciprocated, at opposite ends of the reciprocating movement to cut a workpiece in a surface thereof at a common depth of cut, and (c) vertically feeding the ball end mill at a predetermined depth of cut. This method makes it possible to significantly increase a rotation speed and a feeding speed of a cutting tool to thereby remarkably reduce time necessary for cutting a mold. | ||||||
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