-
公开(公告)号:US20050186044A1
公开(公告)日:2005-08-25
申请号:US10786735
申请日:2004-02-25
Applicant: Parag Hegde , Paul Prichard , Gregory Hyatt
Inventor: Parag Hegde , Paul Prichard , Gregory Hyatt
CPC classification number: B23C3/00 , B23C2222/04 , B23C2222/14 , B23C2226/18 , B23C2226/73 , Y10T409/303808
Abstract: The invention described is a method of milling bimetallic, aluminum-cast iron components with silicon nitride based ceramic cutting inserts.
Abstract translation: 描述的本发明是用氮化硅基陶瓷切削刀片研磨双金属铝铸铁部件的方法。
-
公开(公告)号:USD635164S1
公开(公告)日:2011-03-29
申请号:US29363446
申请日:2010-06-09
Applicant: Joseph Nelson , Linn Andras , Thomas Muller , Paul Prichard
Designer: Joseph Nelson , Linn Andras , Thomas Muller , Paul Prichard
-
3.发明授权Cutting insert with internal coolant delivery and cutting assembly using the same 有权具有内部冷却液输送和切割组件的切削刀片公开(公告)号:US08328471B2
公开(公告)日:2012-12-11
申请号:US12797249
申请日:2010-06-09
Applicant: Joseph Nelson , Linn Andras , Thomas Muller , Paul Prichard , Brad Hoffer
Inventor: Joseph Nelson , Linn Andras , Thomas Muller , Paul Prichard , Brad Hoffer
CPC classification number: B23C5/06 , B23C5/109 , B23C5/207 , B23C5/28 , B23Q11/10 , Y10T407/11 , Y10T407/14 , Y10T407/2272 , Y10T407/23 , Y10T407/24 , Y10T407/27
Abstract: A metalcutting insert that is useful in chipforming and material removal from a workpiece The metalcutting insert includes a metalcutting insert body, which includes a cutting edge having at least one discrete cutting location. The metalcutting insert body further contains a distinct interior coolant passage communicating with the discrete cutting location. The distinct interior coolant passage has a coolant passage inlet defining a coolant passage inlet cross-sectional area, a coolant passage discharge defining a coolant passage discharge cross-sectional area, and an axial coolant passage length. The distinct interior coolant passage defines a coolant flow cross-sectional area along the axial coolant passage length thereof. The coolant passage inlet cross-sectional area is substantially the same as the coolant passage discharge cross-sectional area. The geometry of the coolant flow area changes along the axial coolant passage length.
Abstract translation: 一种金属切削刀片,其可用于芯片成形和从工件的材料移除金属切削刀片包括金属切削刀片主体,其包括具有至少一个离散切割位置的切削刃。 金属切削插入体还包括与分立切割位置连通的不同的内部冷却剂通道。 不同的内部冷却剂通道具有限定冷却剂通道入口截面积的冷却剂通道入口,限定冷却剂通道排放横截面积的冷却剂通道排放物和轴向冷却剂通道长度。 不同的内部冷却剂通道限定沿其轴向冷却剂通道长度的冷却剂流动横截面积。 冷却剂通道入口截面积与冷却剂通道排放横截面积基本相同。 冷却剂流动区域的几何形状沿着轴向冷却剂通道长度而变化。
-
4.发明申请CUTTING INSERT WITH INTERNAL COOLANT DELIVERY AND CUTTING ASSEMBLY USING THE SAME 有权切割插入件与内部冷却剂输送和切割组装使用相同公开(公告)号:US20110027021A1
公开(公告)日:2011-02-03
申请号:US12797249
申请日:2010-06-09
Applicant: Joseph Nelson , Linn Andras , Thomas Muller , Paul Prichard , Brad Hoffer
Inventor: Joseph Nelson , Linn Andras , Thomas Muller , Paul Prichard , Brad Hoffer
CPC classification number: B23C5/06 , B23C5/109 , B23C5/207 , B23C5/28 , B23Q11/10 , Y10T407/11 , Y10T407/14 , Y10T407/2272 , Y10T407/23 , Y10T407/24 , Y10T407/27
Abstract: A metalcutting insert that is useful in chipforming and material removal from a workpiece The metalcutting insert includes a metalcutting insert body, which includes a cutting edge having at least one discrete cutting location. The metalcutting insert body further contains a distinct interior coolant passage communicating with the discrete cutting location. The distinct interior coolant passage has a coolant passage inlet defining a coolant passage inlet cross-sectional area, a coolant passage discharge defining a coolant passage discharge cross-sectional area, and an axial coolant passage length. The distinct interior coolant passage defines a coolant flow cross-sectional area along the axial coolant passage length thereof. The coolant passage inlet cross-sectional area is substantially the same as the coolant passage discharge cross-sectional area. The geometry of the coolant flow area changes along the axial coolant passage length.
Abstract translation: 一种金属切削刀片,其用于芯片成形和材料从工件移除。金属切削刀片包括金属切削刀片体,其包括具有至少一个离散切割位置的切削刃。 金属切削插入体还包括与分立切割位置连通的不同的内部冷却剂通道。 不同的内部冷却剂通道具有限定冷却剂通道入口截面积的冷却剂通道入口,限定冷却剂通道排放横截面积的冷却剂通道排放物和轴向冷却剂通道长度。 不同的内部冷却剂通道限定沿其轴向冷却剂通道长度的冷却剂流动横截面积。 冷却剂通道入口截面积与冷却剂通道排放横截面积基本相同。 冷却剂流动区域的几何形状沿着轴向冷却剂通道长度而变化。
-
-
-
Search Results
4
records
(took 0.016 seconds)
