子分类:
| 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 | 锥柄插齿刀的制造工艺 | CN201310738305.8 | 2013-12-27 | CN103707023A | 2014-04-09 | 陈绩 |
| 本发明公开了一种锥柄插齿刀的制造工艺,所述锥柄插齿刀包括齿形部分和锥柄部分,其制造工艺主要包括以下步骤:S1)选用两块坯料分别加工出插齿刀的齿形部分和锥柄部分,所述齿形部分的中部加工有锥孔,所述锥柄部分的一端加工出莫氏锥柄,另一端加工出圆锥形台阶;S2)将所述齿形部分的锥孔与锥柄部分的圆锥形台阶配磨装配;S3)装配好后用粘结剂将齿形部分端面和圆锥形台阶间隙填充满后,在压力机上压紧;S4)将合格产品放在烤箱中烧结;S5)去除工艺头,磨前角后即得所述锥柄插齿刀。本发明的锥柄插齿刀的制造工艺,采用齿形部分与锥柄部分分别加工的工艺,不但提高了加工效率,而且加工后的锥柄插齿刀其齿形精度能够达到要求。 | ||||||
| 2 | 圆柱齿轮的刮削 | CN201480022512.6 | 2014-04-21 | CN105121082B | 2017-09-19 | H·J·斯塔特费尔德; R·T·多南 |
| 一种刮削工具,所述刮削工具包括刀具头(2),所述刀具头具有绕刀具头的周界(7)优选等距间隔开布置的多个刀具刀片安装和定位槽(8),其中刀片槽并且因此切削刀片(4)优选垂直于刀具头的旋转轴线(A)进行定向。替代地,刀片槽可以从垂直定向倾斜小于50度,优选小于20度,由此从此锥形形状的刀具。额外地,刀片槽可以定位为从刀具头轴线径向地延伸,由此刀具刀片的纵向轴线将会与刀具头轴线相交,或刀片槽可以从刀具头轴线径向地偏移。刀片槽可以具有任何横截面形状,诸如正方形、矩形或具有包括一对均小于90度的成角度的安装表面(12、14)的大致V形安置表面(10)的那些类型。相比于已知的切削刀片配置,本发明的切削刀片(4)使其切削面(16)位于切削刀片的设置为与切削刀片的安置表面或V形安置表面(13、15)相对的表面中。 | ||||||
| 3 | 摆线类精密减速器内齿轮插刀 | CN201610255325.3 | 2016-04-21 | CN105689809A | 2016-06-22 | 李朝阳; 黄健; 李现章; 陈兵奎; 孔霞 |
| 本发明公开了摆线类精密减速器内齿轮插刀,属于插刀技术领域,包括刀体和均布于刀体外圆周表面上的刀齿,所述刀体中心设置有安装孔,所述刀齿的齿廓由内齿轮圆弧包容槽包络形成。本发明针对现有的双圆弧包容槽结构,提出其齿廓由内齿轮圆弧包容槽包络而成的新型插刀,提高内齿轮的加工精度,保证减速器的传动精度,从而为摆线类精密减速器内齿轮提供了专用刀具,解决了现有技术由于无专用刀具存在的加工效率低、质量差和成本高的问题,使双圆弧包容槽结构的广泛应用成为可能,具有较高的商业价值。 | ||||||
| 4 | 圆柱齿轮的刮削 | CN201480022512.6 | 2014-04-21 | CN105121082A | 2015-12-02 | H·J·斯塔特费尔德; R·T·多南 |
| 一种刮削工具,所述刮削工具包括刀具头(2),所述刀具头具有绕刀具头的周界(7)优选等距间隔开布置的多个刀具刀片安装和定位槽(8),其中刀片槽并且因此切削刀片(4)优选垂直于刀具头的旋转轴线(A)进行定向。替代地,刀片槽可以从垂直定向倾斜小于50度,优选小于20度,由此从此锥形形状的刀具。额外地,刀片槽可以定位为从刀具头轴线径向地延伸,由此刀具刀片的纵向轴线将会与刀具头轴线相交,或刀片槽可以从刀具头轴线径向地偏移。刀片槽可以具有任何横截面形状,诸如正方形、矩形或具有包括一对均小于90度的成角度的安装表面(12、14)的大致V形安置表面(10)的那些类型。相比于已知的切削刀片配置,本发明的切削刀片(4)使其切削面(16)位于切削刀片的设置为与切削刀片的安置表面或V形安置表面(13、15)相对的表面中。 | ||||||
| 5 | 一种复合插齿刀复合剃齿刀 | CN201110022372.0 | 2011-01-10 | CN102151913A | 2011-08-17 | 李仕清 |
| 本发明提供一种复合插齿刀复合剃齿刀,该种刀具效率高,强度大,寿命长,包括刀具柄或定位孔和刀具头,刀具头一体地设置有多个切削刀条或切削刀体,在每个切削刀条或切削刀体上有一切削面,其特征在于,在复合插齿刀复合剃齿刀的;1切削面上凸起的设置有阶梯状的复合切削面或复合切削面和阶梯状的复合后切削面,形成阶梯状的复合切削刃或复合切削刃,并形成有至少一级阶梯状的阶梯刃或分切刃;2切削刃或切削刃上设置有至少一个凹口刃,呈开口向切削面或切削面或后切削面延伸形成为至少一个凹槽;3切削刃或侧或后切削刃或复合切削刃或复合侧或复合后切削刃上设置有至少一个凹口刃,呈开口向切削面或切削面或后切削面延伸形成为至少一个凹槽。 | ||||||
| 6 | Verfahren zum Wälzschälen von Aussenverzahnungen und Vorrichtung mit entsprechendem Wälzschälwerkzeug | EP11173901.7 | 2011-07-14 | EP2527072B8 | 2018-05-23 | Vogel, Olaf |
| 7 | Skiving of cylindrical gears | US14781753 | 2014-04-21 | US09956627B2 | 2018-05-01 | Hermann J. Stadtfeld; Robert T. Donnan |
| A skiving tool comprising a cutter head (2) having a plurality of cutter blade mounting and positioning slots (8) arranged spaced, preferably equidistant, about the periphery (7) of the cutter head with the blade slots, and hence the cutting blades (4), preferably oriented perpendicular to the axis of rotation (A) of the cutter head. Alternatively, the blade slots may be inclined from the perpendicular orientation by less than 50 degrees, preferably less than 20 degrees, thereby forming a conical shaped cutter. Additionally, the blade slots may be positioned to extend radially from the cutter head axis whereby the longitudinal axis of a cutter blade will intersect the cutter head axis, or the blade slots may be radially offset from the cutter head axis. The blade slots may have any cross-sectional shape such as square, rectangular or those types having generally V-shaped seating surfaces (10) comprising a pair of angled mounting surfaces (12, 14) each less than 90 degrees. In contrast to known cutting blade configurations, the cutting blade (4) of the present invention has its cutting face (16) formed in a surface of the cutting blade that is located opposite to the seating surface or V-shaped seating surfaces (13, 15) of the cutting blade. | ||||||
| 8 | METHOD FOR SKIVING MACHINING OF A WORKPIECE FOR PRODUCTION OF A CHAMFER | US15453378 | 2017-03-08 | US20170173713A1 | 2017-06-22 | Johan Thijssen; Jürgen Peschina |
| A method for skiving machining a toothed workpiece includes the steps of: providing the toothed workpiece rotatable about a workpiece axis; providing a toothed tool rotatable about a tool axis; tilting the tool axis through an azimuth angle φ>0° with respect to an x direction; tilting the tool axis furthermore through a polar angle Θ<90 ° with respect to a z direction; rotating the toothed tool about the tool axis, the toothed tool in a contact zone sliding over the toothed workpiece rotating about the workpiece axis. The workpiece axis defines the x direction and the perpendicular of the contact zone to the workpiece axis defines a z direction. The x direction, a y direction and the z direction form a Cartesian coordinate system. This method can easily produce a chamber on the toothed workpiece with the toothed tool which is subject to fewer geometric restrictions. | ||||||
| 9 | SKIVING OF CYLINDRICAL GEARS | US14781753 | 2014-04-21 | US20160016242A1 | 2016-01-21 | Hermann J. Stadtfeld; Robert T. Donnan |
| A skiving tool comprising a cutter head (2) having a plurality of cutter blade mounting and positioning slots (8) arranged spaced, preferably equidistant, about the periphery (7) of the cutter head with the blade slots, and hence the cutting blades (4), preferably oriented perpendicular to the axis of rotation (A) of the cutter head. Alternatively, the blade slots may be inclined from the perpendicular orientation by less than 50 degrees, preferably less than 20 degrees, thereby forming a conical shaped cutter. Additionally, the blade slots may be positioned to extend radially from the cutter head axis whereby the longitudinal axis of a cutter blade will intersect the cutter head axis, or the blade slots may be radially offset from the cutter head axis. The blade slots may have any cross-sectional shape such as square, rectangular or those types having generally V-shaped seating surfaces (10) comprising a pair of angled mounting surfaces (12, 14) each less than 90 degrees. In contrast to known cutting blade configurations, the cutting blade (4) of the present invention has its cutting face (16) formed in a surface of the cutting blade that is located opposite to the seating surface or V-shaped seating surfaces (13, 15) of the cutting blade. | ||||||
| 10 | Form-cutting tool | US58108856 | 1956-04-27 | US3022569A | 1962-02-27 | ERNEST WILDHABER |
| 11 | Gear cutter | US37511541 | 1941-01-21 | US2348759A | 1944-05-16 | JOHN SNEED |
| 12 | midgley and s | US1307633D | US1307633A | 1919-06-24 | ||
| 13 | 外歯用スカイビング加工方法およびスカイビングツールを有する装置 | JP2014511816 | 2012-05-15 | JP6006302B2 | 2016-10-12 | オラフ・フォーゲル |
| 14 | Gearing with two gears whose axes are disposed in one plane and at right angles to each other and method of producing the crown gear | JP665678 | 1978-01-24 | JPS5393243A | 1978-08-16 | FURANKU TSUIMUMAAMAN; ROTAARU HIRUDEBURANTO |
| 15 | スカイビング加工用カッタ及びこれを使用する歯車製造方法 | JP2016061134 | 2016-03-25 | JP6348531B2 | 2018-06-27 | 門田 哲次 |
| 16 | Grinding method of cutter for skiving work and grinding device of the cutter for skiving work | JP2012190366 | 2012-08-30 | JP2014046391A | 2014-03-17 | NAGATA HIDEMICHI |
| PROBLEM TO BE SOLVED: To constitute a grinding method of a cutter for skiving work and a grinding device of the cutter for the skiving work, capable of forming an excellent gear by cutting.SOLUTION: A cutter 10 for skiving, in which a plurality of groove parts 10A of a helical shape are formed, is made a grinding object. One of a pair of blade side surfaces 12 of a cutting edge part 11 of a cutter 10 is ground at a first grinding process #04 with the cutter 10 for skiving, and the other is ground at a second grinding process #05. Thereafter, an edge surface 13 is formed at a third grinding process #06 so as to be continuous to the blade side surface 12 formed at the first grinding process #04 and the blade side surface 12 formed at the second grinding process #05. | ||||||
| 17 | SKIVING OF CYLINDRICAL GEARS | US15933580 | 2018-03-23 | US20180207736A1 | 2018-07-26 | Hermann J. Stadtfeld; Robert T. Donnan |
| A skiving tool comprising a cutter head (2) having a plurality of cutter blade mounting and positioning slots (8) arranged spaced, preferably equidistant, about the periphery (7) of the cutter head with the blade slots, and hence the cutting blades (4), preferably oriented perpendicular to the axis of rotation (A) of the cutter head. Alternatively, the blade slots may be inclined from the perpendicular orientation by less than 50 degrees, preferably less than 20 degrees, thereby forming a conical shaped cutter. Additionally, the blade slots may be positioned to extend radially from the cutter head axis whereby the longitudinal axis of a cutter blade will intersect the cutter head axis, or the blade slots may be radially offset from the cutter head axis. The blade slots may have any cross-sectional shape such as square, rectangular or those types having generally V-shaped seating surfaces (10) comprising a pair of angled mounting surfaces (12, 14) each less than 90 degrees. In contrast to known cutting blade configurations, the cutting blade (4) of the present invention has its cutting face (16) formed in a surface of the cutting blade that is located opposite to the seating surface or V-shaped seating surfaces (13, 15) of the cutting blade. | ||||||
| 18 | Gear planing tool and support therefor | US38890564 | 1964-08-11 | US3267554A | 1966-08-23 | RYAN ARTHUR B |
| 19 | Cutting tool | US33383163 | 1963-12-27 | US3243863A | 1966-04-05 | CARLSEN WILLIAM R |
| 20 | Gear cutter | US36332940 | 1940-10-29 | US2374890A | 1945-05-01 | HARRY PELPHREY |
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