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 |
|---|---|---|---|---|---|---|
| 21 | Sticking tool or drawing tool | JP23988788 | 1988-09-27 | JPH01164503A | 1989-06-28 | ROORANTO KUROMAA |
| PURPOSE: To machine a workpiece with high precision by allowing at least one cutter plate to be clamped in a cutter plate holder by means of an adjusting device for its easy exchange requiring no special tools. CONSTITUTION: After a cutter plate 2 of a first kind is mounted on a cutter plate holder 1 and temporarily fixed there by means of a clamp screw 3 of a first kind, an adjusting device 10 allows its adjusting screws 14 to put the first kind of cutter plate 2 at a desired position depending on desired precision selected as to workpiece machining, where the first kind of cutter plate 2 is at last fixed by means of the first kind of clamp screw 3. As far as circumstances permit, the position of the first kind of cutter plate 2 after cutting is adjusted by means of a measuring device at least with respect to the reference plane or axis of the cutter plate holder 1. This constitution enables the cutter plate 2 to be changed with ease and without any special tools for high-precision machining of a workpiece. | ||||||
| 22 | 面取ツール、ツール支持セット及び面取システム | JP2017047987 | 2017-03-14 | JP2018149642A | 2018-09-27 | 中田 周一 |
| 【課題】取り廻しが容易な面取ツールと、面取ツールを容易に取り廻すことができるツール支持セット及び面取システムとを提供する。 【解決手段】本発明の面取ツール10は、支持シャフト13から側方に突出する段差突部20の段差面20Dと側面20Sとが交差してなる稜線20R上に配置され、かつ、支持シャフト13の中心軸J2から離れる側に膨らんだ湾曲形状の刃筋21Sを有する刃部21とを備えている。刃部20のすくい面(段差突部20の段差面20D)と刃筋21Sとが、支持シャフト13の軸方向に対して傾斜する共に、刃部20の逃げ面(段差突部20の側面20S)と刃筋21Sとが、面取対象孔91の開口縁に対して交差する配置になっている。 【選択図】図2 |
||||||
| 23 | 円筒形の表面を機械的に粗面化するための方法およびツール | JP2016567674 | 2015-05-13 | JP2017520413A | 2017-07-27 | ゲルド ヘッケル |
| 本発明は、交差する溝(14、15)からなる定義された微細構造を生成することによって、特に金属の加工物(11)の円筒形の表面(12)、例えば、シリンダブロックにあるシリンダライナのピストン摺動面を、機械的に粗面化するための方法と、この方法を実施するための、切削せずまたは切削して作動する溝形成ツール(20)とに関する。本発明の方法は次のことによって特徴付けられている:a)第1作業工程では、加工物表面(12)に少なくとも1つの軸方向溝(14)が形成されるように、溝形成ツール(20)が軸方向に加工物表面(12)に沿って動かされ;b)第1作業工程の続きの第2作業工程では、前記軸方向溝(14)と交差する少なくとも1つの周囲方向溝(15)が加工物表面(12)に形成されるように、溝形成ツール(20)が、第1作業工程で到達した軸上の位置において、予め設定した回転角でシリンダ軸(13)を中心に回転させられ;c)第2作業工程の続きの第3作業工程では、溝形成ツール(20)は、軸方向に、加工物表面(12)に沿って引き戻される。 | ||||||
| 24 | ワークピースにねじ山を形成するねじ山作成工具 | JP2016153017 | 2016-08-03 | JP2016215370A | 2016-12-22 | グリンペル、ヘルムート; ヘクトル、ディートマー; コプトン、ペーター |
| 【課題】雌ねじを作成する新規な工具を規定する。 【解決手段】ワークピースにねじ山を形成するねじ山作成工具は、以下の特徴を有する:a)工具が工具軸(A)の回りに回転する。b)工具は、ワークピースにそれぞれ一つの溝を作成するn個(n≧1)の溝作成領域(42、44)と、ワークピースにねじ山を作成するm個(m≧1)のねじ山作成領域(32、34)と、を有する。c)工具軸(A)と平行な軸方向投射で観察すると、m個のねじ山作成領域がそれぞれ、n個の溝作成領域のうちの一つの背後に配置されており、軸方向投射の断面で観察すると、溝作成領域よりも広がりが小さい。 【選択図】図11 |
||||||
| 25 | Threads create a tool to form a screw thread to the work piece | JP2013543747 | 2011-12-14 | JP2014501630A | 2014-01-23 | グリンペル、ヘルムート; ヘクトル、ディートマー; コプトン、ペーター |
| 【解決手段】ワークピースにねじ山を形成するねじ山作成工具は、以下の特徴を有する:
a)工具が工具軸(A)の回りに回転する。 b)工具は、ワークピースにそれぞれ一つの溝を作成するn個(n≧1)の溝作成領域(42、44)と、ワークピースにねじ山を作成するm個(m≧1)のねじ山作成領域(32、34)と、を有する。 c)工具軸(A)と平行な軸方向投射で観察すると、m個のねじ山作成領域がそれぞれ、n個の溝作成領域のうちの一つの背後に配置されており、軸方向投射の断面で観察すると、溝作成領域よりも広がりが小さい。 【選択図】図11 |
||||||
| 26 | Method and apparatus for cutting a workpiece according geometrically defined cutting edge | JP2011531349 | 2009-10-13 | JP5373093B2 | 2013-12-18 | メーフェルト・フランク; ザンダー・クルト |
| 27 | Groove forming tool for bearing having groove | JP11362393 | 1993-04-16 | JPH06297226A | 1994-10-25 | TAKASU SHUHEI |
| PURPOSE:To form a groove cross-sectional shape in a desired shape such as a rectangular cross section without creating an upward protrusion on both sides of a groove as well as to arrange a cutting protrusive part easily by the desired number with excellent dimensional accuracy in a tool including a tool to form a groove in a small diameter bearing hole or a shaft body. CONSTITUTION:An upper part is formed as a large diameter grip part 12 to be held, and a lower part is formed as an approximately cylindrical small diameter insertion part 14 to be inserted in a bearing hole 34. A tapering part 16 is formed in a truncated cone shape to smooth insertion. The first guide part 18 and the second guide part 22 are inserted in the bearing hole 34, and guides so that the axes of the bearing hole 34 and a tool 10 coincide with each other. A cutting protrusive part 24 in the same number with the number of grooves to be arranged in a bearing 32 is arranged outward protrusively in the diameter direction with every central angle of 45 degrees on the circumference situated in the upper, lower and intermediate parts of a cutting protrusive part setting part 20. A cross-sectional shape of the cutting protrusive part 24 is formed in a rhombus where an angle of respective sides to the axis is 55 degrees, and the cutting edges 26 and 27 are arranged on two sides on the lower side of the outside end in the diameter direction of the cutting protrusive part 24. | ||||||
| 28 | Finishing cutter of oil seal | JP7105181 | 1981-05-12 | JPS57189714A | 1982-11-22 | WASHIDA AKIRA |
| PURPOSE:To put a cutter completely along the desired cutting face by rounding off the edge near its tip in the direction apart from the face to be cut. CONSTITUTION:When the tip of an oil seal finishing cutter 7 enters the oil face angle side 4 of an oil seal 1, the cutter 7 is slid on the oil face angle side 4 by means of the roundness M provided near the tip 11 of a edge line 10, and is guided so that the straight section 12 of the cutter 7 is made in parallel with the face 6 along the oil face angle side 4. Then, the tip 11 starts cutting the gum stretch 5, and finally the straight section 12 cuts the rubber coating 5, therefore the cutting face is kept nearly in parallel with the face 6 along the oil face angle side 4, preventing any miss cutting. | ||||||
| 29 | CUTTER BLADE, AND PROCESSING DEVICE | EP13895189.2 | 2013-10-11 | EP3056324B1 | 2018-09-19 | TANAKA, Norio |
| A cutter blade and a processing device enable processing of a composite material, for example, FRP, without using an expensive cutter blade and employing a special processing method. In a processing device (1) in which pneumatic cylinders (5A, 5A) are provided in a six-axis vertical articulated robot (3) and a cutter blade (10) is provided in the six-axis vertical articulated robot (3) via the pneumatic cylinders (5A, 5A), the cutter blade (10) includes: profiling portion (10B) that corresponds to a resin molding (20); and a cutting edge portion (10A) including a blade edge positioned in the vicinity of the profiling portion (10B) and having a wedge angle (²) of 15° to 120°, the profiling portion (10B) and the cutting edge portion (10A) being integrated. | ||||||
| 30 | CUTTER BLADE, AND PROCESSING DEVICE | EP13895189 | 2013-10-11 | EP3056324A4 | 2017-06-21 | TANAKA NORIO |
| A cutter blade and a processing device enable processing of a composite material, for example, FRP, without using an expensive cutter blade and employing a special processing method. In a processing device (1) in which pneumatic cylinders (5A, 5A) are provided in a six-axis vertical articulated robot (3) and a cutter blade (10) is provided in the six-axis vertical articulated robot (3) via the pneumatic cylinders (5A, 5A), the cutter blade (10) includes: profiling portion (10B) that corresponds to a resin molding (20); and a cutting edge portion (10A) including a blade edge positioned in the vicinity of the profiling portion (10B) and having a wedge angle (²) of 15° to 120°, the profiling portion (10B) and the cutting edge portion (10A) being integrated. | ||||||
| 31 | WERKZEUG ZUM AUFRAUEN EINER METALLISCHEN OBERFLÄCHE | EP15721572.4 | 2015-04-29 | EP3142819A1 | 2017-03-22 | KOPTON, Peter |
| The invention relates to a roughening tool for roughening a metallic surface of an inner wall of a pre-drilled workpiece bore, a profiled contour (20) being designed between the tool clamping shaft and the tool tip (11) by means of which contour, when the tool rotates (R), a roughened structure can be produced by forming the metallic surface with or without chip removal. According to the invention, said roughening tool comprises at least one profiled rib (13) which extends along the tool axis (L), protrudes from a main tool part, and on whose outer rib back said profiled contour (20) is designed. | ||||||
| 32 | VERFAHREN UND WERKZEUG ZUM MECHANISCHEN AUFRAUEN EINER ZYLINDRISCHEN OBERFLÄCHE | EP15722200.1 | 2015-05-13 | EP2958695A1 | 2015-12-30 | HECKEL, Gerd |
| The invention relates to a method for mechanically roughening a cylindrical surface (12) of an in particular metallic workpiece (11), e.g. the piston bearing surface of a cylinder sleeve in a cylinder crankcase, by producing a defined microstructure of mutually crossing grooves (14, 15), and by a groove forming tool (20), operating with or without material removal, for carrying out the method. A method according to the invention is characterized in that a) in a first operation, the groove forming tool (20) is moved axially along the workpiece surface (12) in such a way that at least one axial groove (14) is machined into the workpiece surface (12); b) in a second operation, following the first operation, the groove forming tool (20) is rotated about the cylinder axis (13) by a predefined rotational angle in the axial position reached in the first operation, as a result of which at least one circumferential groove (15) crossing the axial groove (14) is machined into the workpiece surface (12); and c) in a third operation following the second operation, the groove forming tool (20) is drawn back axially along the workpiece surface (12). | ||||||
| 33 | WERKZEUGSYSTEM | EP07786376.9 | 2007-07-27 | EP2049293B1 | 2014-10-01 | NOUREDDINE, Hassan |
| 34 | Verfahren und Vorrichtung zum spanabhebenden Bearbeiten eines Werkstücks mit einer geometrisch bestimmten Schneide | EP08018311.4 | 2008-10-20 | EP2177664B1 | 2012-01-11 | Mevert, Frank; Sander, Kurt |
| 35 | Verfahren und Vorrichtung zum spanabhebenden Bearbeiten eines Werkstücks mit einer geometrisch bestimmten Schneide | EP08018311.4 | 2008-10-20 | EP2177664A1 | 2010-04-21 | Mevert, Frank; Sander, Kurt |
Verfahren zum spanabhebenden Bearbeiten eines Werkstücks (3), insbesondere Schienen eines Gleiskörpers, bei dem zumindest eine geometrisch bestimmte Schneide (2) auf einer Umlaufbahn um eine Achse bewegt wird, und eine Vorrichtung mit einer geometrisch bestimmten Schneide (2) zum spanabhebenden Bearbeiten eines Werkstücks (3), insbesondere von Schienen eines Gleiskörpers, die einen umlaufend antreibbaren Träger (4) aufweist, an dem die Schneide (2) mittels einer Aufnahme (5) angeordnet ist.
|
||||||
| 36 | WERKZEUGSYSTEM | EP07786375.1 | 2007-07-27 | EP2049292A1 | 2009-04-22 | NOUREDDINE, Hassan |
| A tool system comprising a holder (1) and a cutting tool (3) having a tool cutting edge (7) and a fixing part (35), wherein the tool cutting edge (7) projects by a predeterminable projecting length beyond the holder (1) for a machining operation, is characterized in that the holder (1) is provided at the outer circumference with a supporting part (15) which projects in the direction of the projecting length of the tool cutting edge (7) and forms a supporting surface (19) for at least partial abutment of the cutting tool (3). | ||||||
| 37 | Outil de lamage | EP01870284.5 | 2001-12-20 | EP1323486A1 | 2003-07-02 | Driesen, Auguste |
La présente invention se rapporte à un outil de lamage en tirant, monobloc et non articulé, pour creuser dans une pièce (10) munie d'un trou (6) une gorge (4) au niveau dudit trou (6), ledit outil comprenant (i) un manche (1) présentant un axe de rotation (A), (ii) une tige support (2) usinée sur ledit manche (1) et présentant un axe de symétrie (B), et (iii) une partie coupante (3) montée sur ladite tige support (2) et présentant également un axe de symétrie (C), l'axe de symétrie (C) de la partie coupante (3) étant décalé par rapport à l'axe de symétrie (B) de la tige support (2), ledit outil étant caractérisé en ce que l'axe de rotation (A) du manche (1) et l'axe de symétrie (B) de la tige support (2) sont décalés l'un par rapport à l'autre. |
||||||
| 38 | WERKZEUG ZUM AUFRAUEN EINER METALLISCHEN OBERFLÄCHE UND VERFAHREN ZUM AUFRAUEN EINER METTALISCHEN OBERFLÄCHE MIT EINEM SOLCHEN AUFRAUWERKZEUG | EP15721572.4 | 2015-04-29 | EP3142819B1 | 2018-03-14 | KOPTON, Peter |
| 39 | BROACH | EP16172284.8 | 2016-05-31 | EP3100807A1 | 2016-12-07 | MARCHETTI, Gianluca |
A broach (1) that is mountable on a tool-holding turret of a numerically controlled lathe for carrying out chip removal machinings on a workpiece (P), comprises: a supporting body (2) that is fixable to the tool-holding turret; at least a first tool-holding shaft (8) and a second tool-holding shaft (9) that are rotatably supported by the supporting body (2) for supporting respectively a first broaching tool (10) and a second broaching tool (11); and driving means that is rotatably supported by the supporting body (2) and removably connectable to a drive of the tool-holding turret for rotating the first tool-holding shaft (8) and the second tool-holding shaft (9) at an adjustable rotation speed (α).
|
||||||
| 40 | VERFAHREN ZUM PLANBEARBEITEN VON OBERFLÄCHEN AN WERKSTÜCKEN | EP13776730.7 | 2013-10-15 | EP2911820A1 | 2015-09-02 | KOPTON, Peter |
| The invention relates to a method and a device for facing surfaces of workpieces, in particular made of light metal alloys, in which a cutting tool is moved in a feed direction relative to the surface and removes material at a defined thickness by cutting, wherein the cutting tool (10; 24) is moved in a defined feed direction (s) with one or more cutter bars (16; 26) oriented substantially parallel to the surface, and the cutter bars (16; 26) are always set at an angle (Pi) of < 90° but > 0° to the feed direction. In this way, surfaces with high surface quality can be produced, in particular for workpieces made of light metal, with cost-effective machining parameters. | ||||||
QQ群二维码
意见反馈
意见反馈