| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 141 | End mill with a torsional rigidity | JP2007516145 | 2005-06-15 | JP4855395B2 | 2012-01-18 | ヴォロク,ヴラディミル |
| 142 | End mill with a torsional rigidity | JP2007516145 | 2005-06-15 | JP2008502490A | 2008-01-31 | ヴォロク,ヴラディミル |
| 本発明は、材料をフライス削りするための工具に関する。 本発明は、エンドミルの工具本体のねじれ剛性および曲げ剛性を改善し、これによって、高い金属除去率での機械加工、およびよりよい表面品質を可能にしながら、一方で振動を防いで、工具の寿命を延ばす。 剛性を改善するように構成された外径Dのエンドミルであって、このエンドミルは、工作機械によって把持される本体部分と、複数の溝に隣接して切削刃を形成するように機械加工された前記複数の溝を有する切削部分とを備え、各刃の後部は、切削端部から始まる短い外周逃げ部と、より長くされた弓型の刃支持部とを有し、より長くされた弓型の刃支持部は、外周逃げ部に隣接し、より長くされた刃支持部と溝との間に形成された角部に終わり、前記角部は、前記外径Dから距離Cだけ離間し、値Cは0から0.20Dの範囲である。 | ||||||
| 143 | Milling tool | JP2004504666 | 2003-05-16 | JP2005532917A | 2005-11-04 | カマーマイアー ディルク; メルゲンターラー ペーター |
| 工具長手方向軸線(A)を中心として回転可能であるフライス工具(1)が、内部に位置する、工具長手方向軸線(A)に対してほぼ対称的に配置されたチップ導出通路(11)と、吸出し開口(12)とを備えたスリーブ状のシャンク(2)ならびに工具長手方向軸線(A)とシャンク(2)とに対して同軸的に該シャンク(2)に保持された、切刃(7,9)としての端面切刃(7)と周面切刃(9)とを備えたフライスヘッド(3,3a,3b,3c)を有しており、少なくとも1つの切刃(7,9)が、フライスヘッド(3,3a,3b,3c)の周面に正のすくい角(γ a ,γ r )を形成している。 フライス工具(1)は、特に軽金属加工、特にサーキュラフライス削りのために適している。 | ||||||
| 144 | Ball end mill working method and square end mill working method | JP2004073020 | 2004-03-15 | JP2005096399A | 2005-04-14 | MATSUMURA TAKASHI; ONO ITOKU; YAJIMA NAOKI |
| <P>PROBLEM TO BE SOLVED: To efficiently cut a channel having a depth greater than 1 μm in glass as a material to be cut by a ball end mill or a square end mill of cemented carbide. <P>SOLUTION: In a ball end mill working method, the ball end mill 1 is rotated at a high speed, and the channel at least 1 μm in depth is formed in the material 7 to be cut made of a vitreous inorganic material or a hard, fragile inorganic material by one cutting without damaging the material 7. Preferably, the rotary shaft 9 of the ball end mill 1 has a relative inclination angle θ in the feed direction of the ball end mill 1 in relation to the working side surface 11 of the material 7, and the ball end mill 1 is rotated at a high speed to cut the material 7. As a result, by using the ball end mill 1 of cemented carbide, the worked channel 5 of depth width 200 μm and depth 20 μm is formed in the glass substrate as the material 7 by one cutting. <P>COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
| 145 | Machining device of cracking groove for connecting rod | JP2003274822 | 2003-07-15 | JP2005034952A | 2005-02-10 | MOMOSE YASUO; OTA SHIGEO |
| <P>PROBLEM TO BE SOLVED: To surely and inexpensively form a pair of acute-angled cracking grooves on the inner peripheral surface of a large-ended hole of an integrally molded connecting rod to improve breakableness of the connecting rod. <P>SOLUTION: A driving pulley 62 rotates with a rotary driving source 58 provided on a body 16 driven, rotary driving force of the pulley 62 is transmitted via a driving force transmission belt 68 to a driven pulley 64, and a groove machining part 26 integrally coupled with the pulley 64 is rotated. By inserting the groove machining part 26 into the large-ended hole 22 of the connecting rod 20, a first groove with an approximately V-shaped cross section is formed by a cutter member 40 of the machining part 26, and in addition a second groove with an approximately V-shaped cross section having a symmetric shape of the first groove is formed at a position opposite to the first groove with respect to the axial line of the connecting rod 20. <P>COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
| 146 | Cemented carbide end mill | JP2000327985 | 2000-10-27 | JP2002126934A | 2002-05-08 | SEKIGUCHI TORU; KAGITANI YU |
| PROBLEM TO BE SOLVED: To provide a three-blade cemented carbide end mill excellent in discharge performance of chips produced by continuous machining from drilling to a groove and decreasing the occurrence of inclination of a groove and wear of a corner. SOLUTION: As seen from the axial orthogonal section of a cutting edge 2, a ratio between a land width L1 and a width L2 of a blade groove 5 is set to 1:2-1:4. A blade groove shape is formed that an intersection between approximate linear states 5a and 5b in the shape of a middle recess R is protrusion toward the outside. A web thickness 6 is set to 62-68% of an outside diameter 7, a blade twist angle is set to 40-60 deg., and the cutting edge 3 formed that ultra fine-particle cemented carbide containing 10-14% of cobalt is a parent material is covered by a titanium nitride aluminium rigid film. | ||||||
| 147 | Cart Riddji type Milling | JP65279595 | 1995-06-29 | JPH0827U | 1996-01-19 | エス.ツカラ トミー; ニルソン ペル; バルスト リョーム ラルス−グンナー |
| (57)【要約】 【目的】 インサートのクランプ性能の向上と、インサートの半径方向位置調節を容易に且つ高精度に行うことが出来るカートリッヂ式フライスの提供。 【構成】 フライス本体がインサート装備カートリッヂ(23)を受容する複数の外周上の凹所(11)を有し、各凹所(11)の1方の壁には本体と一体成形の2
本のアーム(15)が配設されており、両アームは非ネジ孔(25,26)を夫々有し、凹所の両壁の間に挿置した非ネジ孔を有するカートリッヂを該1方の凹所壁の外側からボルト(29)をアームとカートリッヂの非ネジ孔に通して他方の凹所壁に配設したネジ孔(19)に螺結するようにした。 |
||||||
| 148 | JPH03503862A - | JP50044088 | 1988-11-17 | JPH03503862A | 1991-08-29 | |
| 149 | JPH0338042B2 - | JP50268783 | 1983-05-20 | JPH0338042B2 | 1991-06-07 | TENNENHAUSU JERARUDO JEI; RANKURU FURANKURIN DEII |
| 150 | Tool inserted tooth | JP16270383 | 1983-09-06 | JPS59134603A | 1984-08-02 | HENRII BURUTSUKU DAIYAA; ROJIYAA JIYON UIDOREIKU |
| 151 | 래디어스 엔드 밀, 볼 엔드 밀, 및 엔드 밀 | KR1020177018314 | 2016-02-24 | KR1020170120094A | 2017-10-30 | 와타나베히로시; 사카구치고우타로우 |
| 본발명은, 세라믹으로이루어지는엔드밀 본체 (2) 와, 엔드밀 본체 (2) 의외주에형성된절삭부스러기배출홈 (4) 과, 절삭부스러기배출홈 (4) 에있어서의공구회전방향 (T) 을향하는벽면과, 엔드밀 본체 (2) 의외주면의교차능선에형성된외주날 (6) 과, 절삭부스러기배출홈 (4) 에있어서의벽면과, 엔드밀 본체 (2) 의선단면의교차능선에형성된바닥날과, 엔드밀 본체 (2) 의선단외주부에위치함과함께, 바닥날의외단과외주날 (6) 의선단을연결하여, 엔드밀 본체 (2) 의선단외주측을향하여볼록해지는볼록곡선상을이루는코너날을구비한다. 외주날 (6), 바닥날및 코너날중, 적어도외주날 (6) 의레이디얼레이크각 (각도 (α)) 이부의각도로설정되어있다. 외주날 (6) 의레이디얼레이크각 (각도 (α)) 은 -20 °∼ -10 °이다. | ||||||
| 152 | 태양 복사선용 세라믹 흡수체 부재의 제조 방법 및 흡수체 부재 | KR1020117020019 | 2010-01-29 | KR101646811B1 | 2016-08-08 | 하크우도 |
| 본발명은, 세라믹태양흡수체요소(9)를수용하기위한제1 자유단부(82) 및제1 단부(82)보다작은단면적을갖는제2 단부(83)를갖는테이퍼링된제1 하우징부(81), 및길이를따라실질적으로일정한단면을갖는제2 하우징부(84)를포함하는, 태양열발전소용태양흡수체모듈(8)용하우징(80)에관한것이다. 제2 하우징부(84)는제1 하우징부(81)의제2 단부(83)와인접한다. 본발명에따라, 하우징(80)은, 복수의개구(86)를갖고제1 하우징부(81)의전체내부단면을가로질러연장되는벽(85)이테이퍼링된제1 하우징부(81)에배열되는것을특징으로한다. 본발명은또한, 이러한하우징(80)의제조방법및 하우징(80)을지지구조물(11)에체결하는방법에관한것이다. | ||||||
| 153 | 치과용 보철물 제작을 위한 밀링 방법 | KR1020147031026 | 2013-04-18 | KR101617632B1 | 2016-05-18 | 후프슈미드,랄프 |
| 본발명은다축 CNC 머신에서선소결된세라믹화이트바디를기계가공하기위한치과용밀링도구에관한것으로, 최대외경(Dk)이 1~4mm이고반구형으로둥근볼 헤드부분(1), 외주에서일정하게상기외경을가지고축상으로신장되며볼 헤드부분과이어지는축상절단부분(2), 축상절단부분에서이어지면서그 이상의외경(Ds)를가지는자루부분(3)을가진다. 세개나두 개의나선홈(4)과그에대응하는숫자의절단날(5)이고체로원형단면을갖는중심영역(9)을둘러서와형으로볼 헤드부분부터축상절단부분을따라신장된다. 축방향에서볼 때볼 헤드부분에서원호형태로뻗고, 축상절단부분의최대외경의방사상좌표에서뻗어나가는블레이드(6)는각각의절단날에서오른손회전방향의나선홈(4)과면하는끝단으로제공된다. 본발명은절단날과나선홈이왼손나선을가진와형으로뻗음을특징으로한다. 본발명은치과보철물을제작하는밀링방법과관련되며, 향후완전소결될치과용보철물화이트바디가선소결세라믹화이트바디특히지르코늄산화물화이트바디로부터, 다축 CND 밀링머신상의도출된이동경로를따르는삼차원자유형태밀링을사용하여, 앞선청구항들가운데어느한 항의치과용밀링도구를가지고밀 가공된다. | ||||||
| 154 | 360˚ 시야를 제공하기 위한 광학 배치 | KR1020157008733 | 2013-09-04 | KR1020150054891A | 2015-05-20 | 드프리에스,레인홀드 |
| 본발명은광학배치에관한것으로, 특히, 기본대물렌즈카메라의직선광 경로(direct beam path)에서는불가능했던경우에대하여 360°광학시스템으로응용될수 있는광학배치에관한것이다. 본발명은적어도하나의벨트렌즈(1) 및상기적어도하나의벨트렌즈 (1)의광 경로에적어도부분적으로배치된적어도하나의광 센서(2)를제공한다. 특히이 때, 광신호는반사되지않고벨트렌즈를통해전달된다. 따라서, 360°뷰에적합한벨트렌즈광학시스템은중앙에배치된이미지센서시스템과의조합으로제공되며, 이는바람직하게는조감도로부터움직이는물체를신뢰성있게감지하고해석하기위해사용될수 있다. 이미지센서시스템과결합된벨트렌즈광학시스템은효과적으로동작하고기술적공정에쉽게통합될수 있는 360°모니터링시스템을구성한다. 한바람직한실시예는빠른렌즈속도와이동을분석하는기능으로주위를감시하기위한중앙이미지센서시스템을가지도록디자인된벨트렌즈라는특징이있다. | ||||||
| 155 | 적어도 부분적으로 성형된 몸체를 구비한 절삭 공구, 및 그 제조 방법 | KR1020120128796 | 2012-11-14 | KR1020130054186A | 2013-05-24 | 가이크리스토프; 배리존; 코놀리조셉; 가우프랑수아; 뮐러틸로 |
| PURPOSE: A cutting tool with a partially molded body and a manufacturing method thereof are provided to improve intensity and abrasion resistance of the cutting tool in a part of the cutting tool mounting on a machine tool or in a surrounding part. CONSTITUTION: A cutting tool(10) comprises a cylindrical body(12), a cutting unit(17), and a mounting unit(22). The cylindrical body is arranged around a central shaft(11). The cylindrical body includes a first end(14) and a second end(16) to the opposite side. The cutting unit includes a plurality of cutting blades. The mounting unit is arranged on the second end. The mounting unit is formed to be connected to a machine tool. | ||||||
| 156 | DIAMOND PLATED GRINDING ENDMILL FOR ADVANCED HARDENED CERAMICS MACHINING | EP15782702 | 2015-01-28 | EP3134224A4 | 2018-07-25 | RAKES JEREMI; MERRIT KEN |
| A grinding tool for reducing damage to the tool during a milling operation is provided in an embodiment herein, including a generally cylindrical body having a first and second end, a grinding portion adjacent to the first end and a shank portion adjacent to the second end. An outer surface of the tool includes a diamond coating, two or more flutes formed in the grinding portion, and at least one grinding element formed in the grinding portion between the two or more flutes, wherein the flutes and grinding element are disposed along a longitudinal axis of the tool. The at least one grinding element includes a grinding surface, a leading edge and a trailing edge. A first radius at the leading edge of the grinding element is smaller than a second radius at the trailing edge of the grinding element. | ||||||
| 157 | OUTIL COUPANT ROTATIF PRESENTANT UNE ARETE DE COUPE EN PLUSIEURS MATERIAUX. | EP14731731.7 | 2014-05-27 | EP3003619B1 | 2017-08-23 | DUVAL, Laurent |
| 158 | A COATED CUTTING TOOL AND A METHOD FOR COATING THE CUTTING TOOL | EP13759721.7 | 2013-09-05 | EP3041973A1 | 2016-07-13 | FORSÉN, Rikard; JOHANSSON JÖESAAR, Mats; ODÉN, Magnus; BILAL, Syed Muhammad; GHAFOOR, Naureen |
| A coated cutting tool and a hard and wear resistant coating for a body include at least one metal based nitride layer. The layer is (ZrxCrl-x-y-zAlyMez)Na with 0.55 | ||||||
| 159 | Work holding device and cutting device | EP14197630.8 | 2014-12-12 | EP2889105B1 | 2016-06-01 | Suyama, Akihiro |
| A work holding device includes a substantially C-shaped first frame 16 that includes a first end 16a and a second end 16b and is rotatable about a first center axis O1 that is located therebetween; and a substantially C-shaped second frame 18 that includes a third end 18a located between the first end 16a and the first center axis O1 and a fourth end 18b located between the second end 16b and the first center axis O1, the second frame 18 being rotatable about a second center axis 02 that passes the third end 18a and the second end 18b and is perpendicular to the first center axis O1. A groove b1 into which an edge of a work is insertable is provided in the second frame 18. | ||||||
| 160 | Zahnersatz-Erzeugungsvorrichtung | EP14193336.6 | 2014-11-14 | EP3020358A1 | 2016-05-18 | Burger, Goran; Peschke, Arndt |
Zahnersatz-Erzeugungsvorrichtung, bei welcher der Zahnersatz ein Implantat und ein Abutment (10) aufweist, wobei eine unter Zuhilfenahme von CAM erzeugte Dentalstruktur aus Dentalwerkstoff befestigbar ist, wobei das Abutment (10) über eine lösbare Verbindung, insbesondere eine Schraubverbindung, an dem Implantat gelagert ist, wobei das Abutment (10) einen Implantatanschluss, einen Kragen (14) und einen Rohrabschnitt (16) aufweist, der für die Verbindung mit der Dentalstruktur bestimmt ist auf. Das Abutment (10) weist einen Rohrabschnitt (16) und ein Implantatanschlussteil auf, zwischen denen sich ein nach auswärts vorspringender Kragen (14) erstreckt. Ein Hilfselement (36) ist mit einem zum Außendurchmesser des Rohrabschnitts (16) passenden Innendurchmesser vorgesehen, und weist mindestens einen Höhenanschlag auf, der für die Anlage auf einer Sitrnfläche (20) des Rohrabschnitts (16) und/oder auf dem Kragen (14) bestimmt ist, und mit welchem Hilfselement (36) die Höhe des Rohrabschnitts (16) bestimmbar.
|
||||||
QQ群二维码
意见反馈
意见反馈