161 |
Machine for grinding toothed parts |
US68238057 |
1957-09-06 |
US2930163A |
1960-03-29 |
BARKER PAUL F; CARLSEN LEONARD O; CRITCHLEY WILLIAM C; HAASE NELSON K |
|
162 |
Feed cam trip mechanism for gear shapers |
US34984853 |
1953-04-20 |
US2757577A |
1956-08-07 |
BEAN ARTHUR I; KINGSTON PAUL H |
|
163 |
Gearing mechanism |
US49094221 |
1921-08-09 |
US1467655A |
1923-09-11 |
STEWART ARTHUR L; EYVIND FINSEN |
|
164 |
Rack and gear cutting machine |
US39408820 |
1920-07-06 |
US1404205A |
1922-01-24 |
JORGENSEN HANS F |
|
165 |
Driving mechanism. |
US1913749789 |
1913-02-21 |
US1254695A |
1918-01-29 |
JANNEY REYNOLD |
|
166 |
Planing-machine |
US580039D |
|
US580039A |
1897-04-06 |
|
|
167 |
Reversing mechanism for metal shaping and planing machines |
US519941D |
|
US519941A |
1894-05-15 |
|
|
168 |
George a |
US419437D |
|
US419437A |
1890-01-14 |
|
|
169 |
Metal-planing machine |
US417084D |
|
US417084A |
1889-12-10 |
|
|
170 |
James k |
US344082D |
|
US344082A |
1886-06-22 |
|
|
171 |
David l |
US310774D |
|
US310774A |
1885-01-13 |
|
|
172 |
juengst |
US309857D |
|
US309857A |
1884-12-30 |
|
|
173 |
Metal-plan ing machine |
US296951D |
|
US296951A |
1884-04-15 |
|
|
174 |
Improvement in metal-planing machines |
US206424D |
|
US206424A |
1878-07-30 |
|
|
175 |
機械加工プロセスの適応制御 |
JP2013513406 |
2011-06-06 |
JP5907956B2 |
2016-04-26 |
エリック ジー.ムント; リチャード エフ.カルバート ジュニア |
|
176 |
Gear grinding method |
JP2010136812 |
2010-06-16 |
JP5308404B2 |
2013-10-09 |
吉言 ▲柳▼瀬 |
Provided is a gear grinding method wherein an initial cutting position by a grindstone is appropriately set, resulting in an improvement being able to be made in machining accuracy. For this purpose, the gear grinding method is such that rotation of a workpiece (W) about a workpiece rotation axis (C), cutting by a grindstone (15) in the X-axis direction, and feeding of the grindstone (15) in the Z-axis direction are controlled, resulting in the workpiece (W) being ground by the grindstone (15). In this method, measurement points (P1 - P9) are set in a grid-like pattern on a left tooth surface (WL) and a right tooth surface (WR) of a predetermined tooth (Wa) of the workpiece (W); rotation phases about the workpiece rotation axis (C) at the measurement points (P1 - P9) are detected; tooth thickness deviation amounts (e) between a reference involute tooth surface and the measurement points (P1 - P9) on the left and right tooth surfaces, as well as tooth thickness deviation amounts (e) between the involute tooth surface and corresponding points (Q1 - Q9) on all teeth other than the tooth (Wa), are obtained on the basis of the detected rotation phases; and an initial cutting position (X1) for the grindstone (15) is set on the basis of the largest of the deviation amounts (e) . |
177 |
Gear grinding method |
JP2010136812 |
2010-06-16 |
JP2012000707A |
2012-01-05 |
YANASE YOSHIKOTO |
PROBLEM TO BE SOLVED: To provide a gear grinding method which can improve processing accuracy, by properly setting a first time cutting-in position of a grinding wheel.SOLUTION: The gear grinding method is provided for grinding a work W by the grinding wheel 15 by controlling rotation around a work rotary shaft C of the work W, cutting-in to the X axis direction and feeding in the Z axis direction in the grinding wheel 15. Measuring points P1-P9 are set in a grating shape on a left tooth surface WL and a right tooth surface WR of a predetermined tooth Wa of the work W, and a rotational phase around the work rotary shaft C in the measuring points P1-P9 is detected, and a deviation quantity (e) of a tooth thickness between reference involute both left-right tooth surfaces, the measuring points P1-P9 and corresponding points Q1-Q9 corresponding to there is determined based on the detected these rotational phases, and the first time cutting-in position X1 of the grounding wheel 15 is set based on the largest deviation quantity (e). |
178 |
Gear alignment device and gear machining machine |
JP2007026394 |
2007-02-06 |
JP2008188717A |
2008-08-21 |
KURASHIKI HIROYUKI |
PROBLEM TO BE SOLVED: To provide a gear alignment device and a gear machining machine which reduce alignment time.
SOLUTION: In the gear alignment device, before carrying out gear machining by meshing a grindstone 13 with a gear like workpiece W, and carrying out relative rotation, gear alignment is carried out such that the grindstone 13 and the workpiece W are in a rotation phase relationship allowing meshing. It is provided with: a tailstock 16 supported movably in an axial direction of the workpiece W, pressed against a rotary table 18 side rotating the work W around its axis, and rotatably holding the work W, and a sensor 33 provided on the tailstock 16, and detecting a rotation phase by facing the workpiece W when the workpiece W is held by the tailstock 16.
COPYRIGHT: (C)2008,JPO&INPIT |
179 |
Rotating tool with electronic data storage |
JP2007041533 |
2007-02-21 |
JP2007223033A |
2007-09-06 |
THYSSEN WOLFGANG; GRETLER MARKUS |
PROBLEM TO BE SOLVED: To provide a machine tool provided with a rotating cutting tool and maintaining main data of the tool in the up-to-date state, besides connecting to the tool without losing the main data, and also to provide a tool for such a machine.
SOLUTION: Rotating cutting tools 2, 14 and 16 for machining a workpiece held on the machine tool, in particular for dressing the grinding worm of a tooth flank grinding machine, are provided with an annular large-capacity electronic storage 7 concentrically arranged to a rotation axis of the tool so as to store the data important in relation to use of the tool. The electronic storage 7 exchanges the data important in relation to use of the tool between an annular write/read head 10 concentrically arranged to the rotation axis of the tool at high transmission rate when the tools 2, 14 and 16 are rotated in a machining process.
COPYRIGHT: (C)2007,JPO&INPIT |
180 |
Machine tools of chip removal device |
JP2000510573 |
1998-09-01 |
JP2003514674A |
2003-04-22 |
シュタットフェルト、ヘルマン、ジェイ; パルマティア、ドナルド、ダブリュ、ジュニア |
(57)【要約】 工具で機械加工中のワークピースから出るチップを、ワークピースから離隔した出口(20)へと配向する装置(2)。 装置は、ワークピースから出るチップを、出口を介して除去するために筐体に閉じ込めるため、ワークピースと工具を囲む筐体を備える。 筐体は、離隔した第1(4)及び第2(6)壁部分、頂部分(8)、底部分(10)、別個の工具及びワークピースの開口(14、16)を備えた第1端部分(12)、第2端部分(18)、及び底部分と第2端部分との交差部の近傍に位置する出口を含み、それによってワークピースから出るチップの大部分は第2端部分に向かって放出され、これと衝突し、その後、チップの大部分は底部分及び/又は出口へと落下する。 あるいは、筐体は湾曲した内面を備え、チップが内面に配向され、それに沿って出口へと移動することが好ましい。 筐体は、さらに、チップを出口に向けるか、それに入れる、あるいはその両方のために、内面の少なくとも一部に沿って気体流を放出することが好ましい。 筐体は、出口からの空気流を強化する手段も含むことができる。 |