| 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 | 具有高压冷却剂盖的旋转切削工具 | CN201510573842.0 | 2015-09-10 | CN105414639A | 2016-03-23 | R·L·达德齐恩斯基 |
| 本发明公开了一种具有高压冷却剂盖的旋转切削工具,所述旋转切削工具包括刀体、冷却剂盖以及用于将冷却剂盖可拆卸地固定到所述刀体的固定环;冷却剂盖包括外表面、内表面以及在外表面与内表面之间延伸的大体圆柱形的外表面;固定环设置在刀体的固定环缺口内,使得在将高压冷却剂引入刀体中时冷却剂盖的外表面接触固定环而将冷却剂盖可拆卸地固定到刀体。 | ||||||
| 2 | 具有可调节冷却机构的旋转切削工具 | CN201180011848.9 | 2011-02-13 | CN102770224B | 2016-03-16 | F.邦纳兰格; C.格拉德勒 |
| 一种具有可调节冷却机构的旋转切削工具(10),包括具有主体中心孔的工具主体。至少一个槽口被成形在主体周面上。每一个槽口都包括第一列刀片槽以及相对于第一列轴向向后移位的至少第二列刀片槽。冷却机构包括中心销(54),其具有沿中心销的长度彼此轴向间隔开的至少两个凹槽。可再定位密封件(94)被安置在其中一个凹槽内。当可再定位密封件被安置在第一凹槽内时,主体中心孔(32)与跟第一数量的刀片列相关联的冷却孔流体连通;当可再定位密封件(94)被安置在第二凹槽内时,主体中心孔(32)与跟第二数量的刀片列相关联的冷却孔流体连通。 | ||||||
| 3 | 具有可调节冷却机构的旋转切削工具 | CN201180011848.9 | 2011-02-13 | CN102770224A | 2012-11-07 | F.邦纳兰格; C.格拉德勒 |
| 一种具有可调节冷却机构的铣刀(10),包括具有主体中心孔的工具主体。至少一个槽口被成形在主体周面上。每一个槽口都包括第一列刀片槽以及相对于第一列轴向向后移位的至少第二列刀片槽。冷却机构包括中心销(54),其具有沿中心销的长度彼此轴向间隔开的至少两个凹槽。可再定位密封件(94)被安置在其中一个凹槽内。当可再定位密封件被安置在第一凹槽内时,主体中心孔(32)与跟第一数量的刀片列相关联的冷却孔流体连通;当可再定位密封件(94)被安置在第二凹槽内时,主体中心孔(32)与跟第二数量的刀片列相关联的冷却孔流体连通。 | ||||||
| 4 | ROTARY CUTTING TOOL WITH HIGH-PRESSURE COOLANT CAP | US14483408 | 2014-09-11 | US20160074948A1 | 2016-03-17 | Ronald Louis Dudzinsky |
| A rotary cutting tool includes a cutter body, a coolant cap, and a retaining ring for removably securing the coolant cap to the cutter body. The coolant cap includes an outer surface, an inner surface and a generally cylindrical outer surface extending between the outer surface and the inner surface. The retaining ring is disposed within a retaining ring notch of the cutter body such that the outer surface of the coolant cap contacts the retaining ring when high pressure coolant is introduced into the cutter body to removably secure the coolant cap to the cutter body. | ||||||
| 5 | Rotary cutting tool having an adjustable cooling mechanism | US13033333 | 2011-02-23 | US08696252B2 | 2014-04-15 | Frederic Bonnarang; Christian Guerardelle |
| A milling cutter, having an adjustable cooling mechanism, has a tool body having a body central bore. At least one flute is formed on a body peripheral face. Each flute comprises a first row of insert pockets and at least a second row of insert pockets axially rearwardly displaced from the first row. The cooling mechanism includes a center pin having at least two grooves axially spaced apart from one another along the length of the center pin. A relocatable seal is seated in one of the grooves. When the relocatable seal is seated in a first groove, the body central bore is in fluid communication with cooling holes associated with a first number of rows of inserts; when the relocatable seal is seated in a second groove, the body central bore is in fluid communication with cooling holes associated with a second number of rows of inserts. | ||||||
| 6 | Rotary cutting tool with high-pressure coolant cap | US14483408 | 2014-09-11 | US09623497B2 | 2017-04-18 | Ronald Louis Dudzinsky |
| A rotary cutting tool includes a cutter body, a coolant cap, and a retaining ring for removably securing the coolant cap to the cutter body. The coolant cap includes an outer surface, an inner surface and a generally cylindrical outer surface extending between the outer surface and the inner surface. The retaining ring is disposed within a retaining ring notch of the cutter body such that the outer surface of the coolant cap contacts the retaining ring when high pressure coolant is introduced into the cutter body to removably secure the coolant cap to the cutter body. | ||||||
| 7 | Rotary Cutting Tool Having an Adjustable Cooling Mechanism | US13033333 | 2011-02-23 | US20110217131A1 | 2011-09-08 | Frederic Bonnarang; Christian Guerardelle |
| A milling cutter, having an adjustable cooling mechanism, has a tool body having a body central bore. At least one flute is formed on a body peripheral face. Each flute comprises a first row of insert pockets and at least a second row of insert pockets axially rearwardly displaced from the first row. The cooling mechanism includes a center pin having at least two grooves axially spaced apart from one another along the length of the center pin. A relocatable seal is seated in one of the grooves. When the relocatable seal is seated in a first groove, the body central bore is in fluid communication with cooling holes associated with a first number of rows of inserts; when the relocatable seal is seated in a second groove, the body central bore is in fluid communication with cooling holes associated with a second number of rows of inserts. | ||||||
| 8 | ROUND TOOTH CUTTERS | US16266883 | 2019-02-04 | US20190232527A1 | 2019-08-01 | William J. Endres; Douglas J. Woodruff; Ryan R. Kroll |
| A device for mechanically removing material from a workpiece or bulk feedstock, thereby creating chips of removed material while producing a new surface on the workpiece or bulk feedstock. The device comprises a body and at least one round cutting insert that is tangentially mounted on the body. Location and orientation of the insert is characterized by a reference plane offset and an insert axis angle. The insert has an outwardly-facing rake surface on which chips are formed. A planar flank surface is oriented relative to a cutting motion so as to provide clearance between the cutting insert and the surface created by removal of a layer that is converted into chips. A circular cutting edge lies at the intersection of the flank and rake surfaces. | ||||||
| 9 | ROUND TOOTH CUTTERS AND METHOD OF DESIGN AND USE | US14502035 | 2014-09-30 | US20150104262A1 | 2015-04-16 | William J. Endres; Douglas J. Woodruff; Ryan R. Kroll |
| A device for mechanically removing material from a workpiece or bulk feedstock, thereby creating chips of removed material while producing a new surface on the workpiece or bulk feedstock. The device comprises a body that is rotatable about an axis and at least one round cutting insert that is tangentially mounted on the body. Location of the insert is characterized by a reference plane offset and an insert axis angle. The insert has a cylindrical rake surface on which chips are formed. A planar flank surface is oriented relative to a cutting motion so as to provide clearance between the cutting insert and the surface created by removal of a layer that is converted into chips. A circular cutting edge lies at the intersection of the flank and rake surfaces. | ||||||
| 10 | Cutter body, rotary tool, and method for assembling the rotary tool | US10807345 | 2004-03-24 | US07163360B2 | 2007-01-16 | Hidenori Toyose |
| A cutter body which includes cartridges 11 for allowing corresponding cutting inserts 9 to be removably fixed thereto, a cutter body member 3, second screws (cartridge fixation screws 17) for fixing the corresponding cartridges 11 to the cutter body member 3, and adjustment screws 19 for adjusting the positions of the corresponding cartridges 11. A wrench reception socket 51 of each of the fastened second screws 17 and/or a wrench reception socket 50 of each of the adjustment-completed adjustment screws 19 is sealed. A rotary tool (milling cutter 1) is configured such that the cutting inserts 9 are fixed to the corresponding cartridges 11 of the cutter body. | ||||||
| 11 | Cutter body, rotary tool, and method for assembling the rotary tool | US10807345 | 2004-03-24 | US20040191009A1 | 2004-09-30 | Hidenori Toyose |
| A cutter body includes cartridges 11 for allowing corresponding cutting inserts 9 to be removably fixed thereto, a cutter body member 3, second screws (cartridge fixation screws 17) for fixing the corresponding cartridges 11 to the cutter body member 3, and adjustment screws 19 for adjusting the positions of the corresponding cartridges 11, wherein a wrench reception socket 51 of each of the fastened second screws 17 and/or a wrench reception socket 50 of each of the adjustment-completed adjustment screws 19 is sealed. A rotary tool (milling cutter 1) is configured such that the cutting inserts 9 are fixed to the corresponding cartridges 11 of the cutter body. | ||||||
| 12 | Cutter body, rotary tool and assembling method of rotary tool | JP2004041229 | 2004-02-18 | JP2004306245A | 2004-11-04 | TOYOSE SHUSUKE |
| <P>PROBLEM TO BE SOLVED: To provide a cutter body and a rotary tool, preventing an adjusting screw from being moved by mistake. <P>SOLUTION: This cutter body includes: a cartridge 11 for removably fixing a cutting insert 9; a cutter body 3; a second screw (a cartridge fixing screw 17) for fixing the cartridge 11 to the cutter body 3; and an adjusting screw 19 for adjusting the position of the cartridge 11, wherein a wrench insert part 51 of the already fastened second screw 17 and a wrench insert part 50 of the already adjusted adjusting screw 19 are sealed. In this rotary tool (a milling cutter 1), a cutting insert 9 is fixed to the cartridge 11 of the cutter body. <P>COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
| 13 | End mill | JP2001306583 | 2001-10-02 | JP4015833B2 | 2007-11-28 | 泰宏 後藤; 勝 飯田 |
| 14 | ROTARY CUTTING TOOL HAVING AN ADJUSTABLE COOLING MECHANISM AND CORRESPONDING COOLING METHOD | EP11712017.0 | 2011-02-13 | EP2542371B1 | 2015-09-02 | BONNARANG, Frederic; GUERARDELLE, Christian |
| 15 | ROTARY CUTTING TOOL HAVING AN ADJUSTABLE COOLING MECHANISM | EP11712017.0 | 2011-02-13 | EP2542371A1 | 2013-01-09 | BONNARANG, Frederic; GUERARDELLE, Christian |
| A milling cutter, having an adjustable cooling mechanism, has a tool body having a body central bore. At least one flute is formed on a body peripheral face. Each flute comprises a first row of insert pockets and at least a second row of insert pockets axially rearwardly displaced from the first row. The cooling mechanism includes a center pin having at least two grooves axially spaced apart from one another along the length of the center pin. A relocatable seal is seated in one of the grooves. When the relocatable seal is seated in a first groove, the body central bore is in fluid communication with cooling holes associated with a first number of rows of inserts; when the relocatable seal is seated in a second groove, the body central bore is in fluid communication with cooling holes associated with a second number of rows of inserts. | ||||||
| 16 | 調整可能な冷却機構を有する回転切削工具 | JP2012555539 | 2011-02-13 | JP5714032B2 | 2015-05-07 | フレデリック ボナラン; クリスチャン ゲラールデール |
| 17 | Rotary cutting tool having an adjustable cooling mechanism | JP2012555539 | 2011-02-13 | JP2013521143A | 2013-06-10 | ボナラン フレデリック; ゲラールデール クリスチャン |
| 調整可能な冷却機構を有するフライス(10)は、本体中央穴を有する工具本体を有する。 少なくとも1本の刃溝が本体外周面に形成されている。 それぞれの刃溝は、第1の列のインサートポケットと、この第1の列から軸線方向後方にずれた第2の列のインサートポケットとを少なくとも具える。 冷却機構は中央ピン(54)を含み、この中央ピンはその長手方向に沿って相互に軸線方向に空間をあけた少なくとも2本の溝を有する。 再配置可能なシール(94)は溝の一方に装着させられる。 再配置可能なシールを第1の溝に装着した場合、本体中央穴(32)は第1番目の列のインサートと関連付けた冷却穴と流体連通状態にある。 再配置可能なシール(94)を第2の溝に装着した場合、本体中央穴(32)は第2番目の列のインサートと関連付けた冷却穴と流体連通状態にある。 | ||||||
| 18 | Cutter body and the rotary tool, as well as a method of assembling a rotary tool | JP2004041229 | 2004-02-18 | JP4430956B2 | 2010-03-10 | 秀典 豊瀬 |
| 19 | O-ring installation structure, machining tool suitable for machining the same, and machining method therefor | JP2001306583 | 2001-10-02 | JP2003113944A | 2003-04-18 | IIDA MASARU; GOTO YASUHIRO |
| PROBLEM TO BE SOLVED: To provide an O-ring groove easy to machine and preventing an O-ring from easily coming off. SOLUTION: An O-ring groove 10 has projecting parts 12i, 12o projecting toward the sides of side walls 11i, 11o formed on an opening side edge parts of the side walls 11i, 11o opposing each other in a direction that the groove extends. Groove bottoms 14 of the projecting parts 12i, 12o and opposing surfaces 13i, 13o gradually go away from the groove bottom 14 as the same go away from the side walls 11i, 11o having the projecting parts 12i, 12o formed thereon. The O-ring groove 10 can easily be machined by using an end mill provided by cutting out a part of a straight helical flute end mill. COPYRIGHT: (C)2003,JPO | ||||||
| 20 | 조정가능한 냉각 기구를 갖는 회전식 절삭 공구 | KR1020127022819 | 2011-02-13 | KR101749784B1 | 2017-06-21 | 보나랑프레데릭; 게라흐델크리스띠앙 |
| 조정가능한냉각기구를갖는밀링커터(10)는본체중앙보어를갖는공구본체를갖는다. 적어도하나의플루트가본체주연면에형성된다. 각플루트는제1 열의인서트포켓및 상기제1 열로부터축방향으로후방으로변위되는적어도제2 열의인서트포켓을포함한다. 상기냉각기구는중앙핀의전체길이를따라서로축방향으로이격되는적어도두개의홈을갖는중앙핀(54)을포함한다. 상기홈 중하나에재배치가능한밀봉체(94)가안착된다. 상기재배치가능한밀봉체가제1 홈에안착되는경우, 상기본체중앙보어(32)는제1번열의인서트와관련된냉각홀과유체연통하고; 상기재배치가능한밀봉체(94)가제2 홈에안착되는경우, 상기본체중앙보어(32)는제2번열의인서트와관련된냉각홀과유체연통한다. | ||||||
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