| 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 | 机床附加装置 | CN89105516.9 | 1989-08-02 | CN1040340A | 1990-03-14 | 安德烈斯·韦特 |
| 一种在机床如铣床和车床上用的在工件上加工对称或不对称多面柱体侧面的附加装置包括:一以花键方式固定在机床主轴1上的切削头2,它以等分度间隔配置特定数目的切削刃(刀具3)。一在其纵向上可动的万向轴11也以花键方式固定在主轴1上。轴11的另端连接在工件卡头5上,卡头可转动地固定在机床工作台4上。具体的传动比是通过在万向轴与工件卡头之间的齿轮传动机构7至9来保证的。本装置安装简单,能加工稍带凸形的多面柱体。 | ||||||
| 2 | 一种用于加工多边形的加工装置及其加工方法 | CN201310559856.8 | 2013-11-12 | CN103586637A | 2014-02-19 | 王次财; 奚军; 王飞; 奚正玉 |
| 本发明公开了一种用于加工多边形的加工装置及其加工方法,加工装置包括并列设置的主箱体和副箱体,主箱体上安装有第一轴,第一轴上且靠近副箱体的一端设有刀盘,刀盘上安装有切削刀具,第一轴上设置刀盘的一端还设有花键槽套;副箱体上安装有第二轴,第二轴上且靠近主箱体的一端设有花键槽,且花键槽与花键槽套配合安装,第二轴上,且位于副箱体的内部安装有主动轮,从动轮通过中间介轮将动力传递到安装在第三轴上的从动轮上,第三轴上靠近主箱体的一端安装有卡盘。具有上述特殊结构的该种用于加工多边形的加工装置及其加工方法可以实现对多边形零件的一次性加工成型,相较于现有的采用铣床和刨床加工多边形工件可提高2-3倍的工作效率。 | ||||||
| 3 | 一种位置可调的长轴花键铣床夹具 | CN201510748070.X | 2015-11-06 | CN106670836A | 2017-05-17 | 连雄兵 |
| 本发明公开了一种位置可调的长轴花键铣床夹具,包括固定设置在铣床尾座上的环形基座,所述环形基座上设置有顶针底座,所述顶针底座通过压板固定在环形基座上,所述顶针底座一端固定设置在环形基座上,其另一端设置有中心孔,所述顶针底座上的中心孔上还设置有便于对顶工件的顶针,所述位置可调的长轴花键铣床夹具还包括工件夹套,所述工件夹套上设置有铣刀槽,所述压板和环形基座之间还设置有用于调整工件夹套位置的调整垫板。本发明的位置可调的长轴花键铣床夹具,不但能防止夹伤工件,同时能避免过定位的问题。 | ||||||
| 4 | 刀具路径生成装置以及方法 | CN201480003435.X | 2014-05-28 | CN105339856A | 2016-02-17 | 入口健二; 山下亮辅 |
| 一种生成用于在加工材料中形成由加工区域整体形状和深度定义的凹部的刀具路径的刀具路径生成装置(50),该刀具路径生成装置(50)具有:螺旋加工路径基准圆生成部(4),其从加工区域整体形状内提取多个满足预先设定的条件的圆形区域;螺旋加工路径生成部(6),其生成刀具路径和螺旋加工区域形状,该刀具路径通过螺旋状的路径对螺旋加工路径基准圆生成部(4)提取的多个圆形区域或者包含圆形区域的周边在内的区域进行加工,该螺旋加工区域形状是从加工区域整体形状中去除螺旋状的刀具路径所涉及的加工区域之后的加工区域形状;以及次摆线加工路径生成部(7),其生成对螺旋加工后加工区域形状进行加工的刀具路径。 | ||||||
| 5 | 用于加工多边形的加工装置及其加工方法 | CN201310560676.1 | 2013-11-12 | CN103586638A | 2014-02-19 | 王次财; 奚军; 王飞; 奚正玉 |
| 本发明公开了一种用于加工多边形的加工装置及其加工方法,加工装置包括并列设置的主箱体和副箱体,主箱体上安装有第一轴,第一轴上且靠近副箱体的一端设有刀盘,刀盘上安装有切削刀具,第一轴上设置刀盘的一端还设有花键槽套;副箱体上安装有第二轴,第二轴上且靠近主箱体的一端设有花键槽,且花键槽与花键槽套配合安装,第二轴上,且位于副箱体的内部安装有主动轮,且主动轮的齿数与从动轮的齿数之比的公倍数等于待加工多边形的边数;从动轮通过中间介轮将动力传递到安装在第三轴上的从动轮上,第三轴上靠近主箱体的一端安装有卡盘。该种加工装置可以实现对多边形零件的一次性加工成型,相较于现有的采用铣床和刨床可提高2-3倍的工作效率。 | ||||||
| 6 | External surface machining apparatus | JP2130383 | 1983-02-10 | JPS59146707A | 1984-08-22 | TAKIGAWA TOSHIMICHI |
| PURPOSE:To facilitate machine cutting of a work of such a construction as of the ''self-orientation'' by synchronizing both tool and work in such a way that in a predetermined angular revolution range of a rotary chip-producing tool, the work is allowed to make a displacement of a predetermined value and it is constructed, so that the work is allowed to be fed radially and displaced to the tool side. CONSTITUTION:As a work handling head 10 is shaped in a hexagonal column, it is fixed onto chucking and indexing tables 22a and 22b as a single unit, these tables being divided into 6 portions by an indexing driving motor 23 and assembled in a chucking head 25. Further, an end of a piston rod 31 of an operating member is fixed integrally with a part of a sliding table 28 and by an action of a liquid cylinder 30, the whole constructional body of the sliding table is available for displacements in both LH and RH directions on a sliding surface 33. An arbor 37 of rotary chip-producing tool is integrated with the flange 35 in a single body and is made to rotate together. Thus, any works of the self-orientation construction can easily be cut with ease. | ||||||
| 7 | zusatzgerät für Werkzeugmaschinen | EP89112016.4 | 1989-07-01 | EP0355332B1 | 1992-02-12 | Witte, Andreas |
| 8 | METHOD FOR PRODUCING DIFFERENTLY SHAPED POLARIZING PLATE | US15759231 | 2016-09-09 | US20180236569A1 | 2018-08-23 | Yasuhiko SUGIHARA; Saori KUROGANE; Takeyuki ASHIDA |
| The present invention provides a method for producing a differently shaped polarizing plate, the method being capable of preventing a decrease in durability. The method for producing a differently shaped polarizing plate of the present invention includes a step of forming a differently shaped portion by moving at least one of a rectangular polarizing plate and an end mill blade while the end mill blade is rotated and pressed against the rectangular polarizing plate to cut the rectangular polarizing plate. Preferably, the step is performed while a jig is pressed against the rectangular polarizing plate, at the periphery of a region to be cut. | ||||||
| 9 | Indexing mechanism | US58127666 | 1966-09-22 | US3403585A | 1968-10-01 | BARKHURST ERNEST F |
| 10 | Attachment for milling or slotting metal parts | US69053057 | 1957-10-16 | US2949065A | 1960-08-16 | KULUSIC STEVE M |
| 11 | Machine tool construction | US55543055 | 1955-12-27 | US2914990A | 1959-12-01 | BERGMANN ERICK W |
| 12 | Bar miller | US737548 | 1948-02-10 | US2592606A | 1952-04-15 | SEE THEODORE S; FROMMELT HORACE A |
| 13 | Method of manufacturing bits | US42465920 | 1920-11-17 | US1410990A | 1922-03-28 | BROOKS WALTER C |
| 14 | TOOL-PATH GENERATION APPARATUS AND METHOD | US14436544 | 2014-05-28 | US20160291570A1 | 2016-10-06 | Kenji IRIGUCHI; Ryosuke YAMASHITA |
| To provide a tool-path generation apparatus that generates a tool path for forming a concave part that is defined by an entire machining-area shape and a depth into a machining material. The tool-path generation apparatus includes a spiral-machining-path reference-circle generation unit that extracts a plurality of circular areas that satisfy a preset condition from the entire machining-area shape, a spiral-machining-path generation unit that generates a tool path for machining the circular areas extracted by the spiral-machining-path reference-circle generation unit or an area that includes a circumference of the circular areas by using a spiral path and a machining-area shape after spiral machining in which a machining area by a spiral tool path is removed from the entire machining-area shape, and a trochoidal-machining-path generation unit that generates a tool path for machining the machining-area shape after spiral machining. | ||||||
| 15 | Method of milling at least a localized region of a workpiece | US387174 | 1995-02-13 | US5529446A | 1996-06-25 | Jean-Charles Boyer |
| In a method of milling at least one localized region of a workpiece the workpiece is rotated about a horizontal axis of a cylindrical region having a radius R.sub.p. An external contour of radius R.sub.F of a tool is brought into contact with the cylindrical region of the workpiece at a machining point. The tool rotates about a rotation axis intersecting a first transverse axis of the workpiece perpendicular to and intersecting the longitudinal axis. The rotation axis is in a plane parallel to the longitudinal axis and to a second transverse axis of the workpiece perpendicular to and intersecting the first transverse axis and to the longitudinal axis. The rotation axis is at an angle .alpha. to the second transverse axis such that the tangential speed of said tool parallel to said second transverse axis is equal to the tangential speed of said workpiece. | ||||||
| 16 | Attachment for milling or slotting metal parts | US19105750 | 1950-10-19 | US2648259A | 1953-08-11 | KULUSIC STEVE M |
| 17 | Surface miller | US2681948 | 1948-05-13 | US2638136A | 1953-05-12 | MILLER OLEN L |
| 18 | Material working apparatus | US54245444 | 1944-06-28 | US2436423A | 1948-02-24 | FRANK DOWD; KELLER WILLIAM J |
| 19 | Machine tool | US46565342 | 1942-11-16 | US2372818A | 1945-04-03 | DOSTAL JAMES J |
| 20 | Additional equipment for machine tool | JP18484789 | 1989-07-19 | JPH0265913A | 1990-03-06 | ANDOREASU BUITSUTE |
| PURPOSE: To easily machine a polygonal workpiece by connecting a cutter head with a cutting edge to the spindle of a machine tool and further connecting a work carry to the free end of a length adjustable shaft connected to the spindle with directional gears such as braces. CONSTITUTION: A cutter head 2 connected to the spindle 1 of a machine tool carries at least one cutter 3 with single or plural cutting edge. Directional gears 7-9 such as braces with a special transmission ratio are used to connect a work carry 5 for carrying a workpiece 6 arranged on a machine stock to the free end of a length adjustable shaft 11 connected to the spindle 1. The rotating axial line 16 of the work carry 5 is parallel to the axial line 17 of the spindle. In this case, to form a regular polyhedron, the transmission ratio of the gears 7-9 is 1:2, an even transmission ratio, and the number of the cutting edges of the cutter 3 is a half the number of side portions to be formed. COPYRIGHT: (C)1990,JPO | ||||||
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