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 |
|---|---|---|---|---|---|---|
| 1 | 用于精细加工调整齿轮的方法和设备 | CN201310132218.8 | 2013-04-16 | CN103372688B | 2017-07-28 | 汉斯约尔格·盖泽; 罗伯特·维费尔 |
| 本发明涉及用于精细加工调整齿轮的方法和设备,该方法特别通过精细加工,特别是通过产生磨削或珩磨来制造具有校正的齿轮几何形状和/或调整的表面结构的工件。在这方面进行了规定,通过直接产生工具的摆动运动和/或偏心来实现,在所加工的工件的有效表面上产工具轮廓波度和/或定义的周期侧翼波度。 | ||||||
| 2 | 用于精细加工调整齿轮的方法和设备 | CN201310132218.8 | 2013-04-16 | CN103372688A | 2013-10-30 | 汉斯约尔格·盖泽; 罗伯特·维费尔 |
| 本发明涉及用于精细加工调整齿轮的方法和设备,该方法特别通过精细加工,特别是通过产生磨削或珩磨来制造具有校正的齿轮几何形状和/或调整的表面结构的工件。在这方面进行了规定,通过直接产生工具的摆动运动和/或偏心来实现,在所加工的工件的有效表面上产工具轮廓波度和/或定义的周期侧翼波度。 | ||||||
| 3 | 작업물 호닝 방법, 작업물 호닝 장치 및 그 작업물 | KR1020117005754 | 2009-08-17 | KR101675890B1 | 2016-11-14 | 반코빅다니엘알. |
| 작업물이혼 툴(hone tool)에통과될때에작업물의모든외측가공표면의일부를제거하도록구성된복수의연마제표면을갖는혼 툴에작업물을통과시킴으로써작업물을호닝하는방법이제공되며, 여기서외측가공표면은균일하지않으며, 혼툴은작업물이혼 툴에통과될때에동시에모든외측가공표면을호닝하도록구성된다. 작업물을호닝하는어셈블리는, 혼툴을통해푸시되는작업물의균일하지않은외측표면의일부를제거하도록구성된연마제표면을각각갖는복수의혼 툴을포함하며, 여기서혼 툴은통과되는작업물의전체둘레를둘러싸도록구성된다. | ||||||
| 4 | Method and Device for Precision Machining of Toothed and Hardened Work Wheels | US15560841 | 2016-03-03 | US20180111209A1 | 2018-04-26 | Erich Prock |
| A method for machining toothed and hardened work wheels, includes: mounting a work wheel that is hardened and pre-toothed with an allowance onto a workpiece spindle; removing at least 50% of the allowance by means of gear skiving with a skiving wheel that is rotatably driven by a tool spindle; precision-machining the work wheel in unchanged tension by means of a honing wheel. The forward movement occurs during gear skiving in the extension direction of the toothing. The delivery of the workpiece that is moved in an oscillating manner in the extension direction of the toothing occurs during honing in the radial direction. The skiving wheel and the honing wheel are driven by a common tool spindle. A device for carrying out the method includes a workpiece spindle, which is driven to rotate, and a tool spindle, which carries a combination tool having a skiving wheel and a honing wheel. | ||||||
| 5 | Method and apparatus for honing a workpiece and a workpiece | US12542489 | 2009-08-17 | US08235771B2 | 2012-08-07 | Daniel R. Bankovic |
| A method for honing a workpiece by passing a workpiece through a hone tool having a plurality of abrasive surfaces configured to remove a portion of all exterior machining surfaces of the workpiece as it is passed through the hone tool, the exterior machining surfaces being non-uniform and wherein the hone tool is configured to hone all of the exterior machining surfaces simultaneously as workpiece is passed through the hone tool. An assembly for honing a workpiece, the assembly having a plurality of hone tools each having abrasive surfaces configured to remove a portion of exterior non-uniform surfaces of a workpiece pushed through the hone tool, wherein the hone tool is configured to surround the entire periphery of the workpiece being passed therethrough. | ||||||
| 6 | Gear-shaping grindstone and method of fabricating the same | US10347994 | 2003-01-20 | US20030143932A1 | 2003-07-31 | Toshiya Hayashi; Hisatoshi Kojima; Kazuki Kataoka; Toru Nakanoboh |
| A highly accurate, long-life grindstone for shaping a gear and a method of fabricating the grindstone, without depending on the accuracy of form of a base metal and without using a special grinding machine or a special lapping machine, are disclosed. A super-abrasive layer (29) of a predetermined thickness is fixedly attached on the outer periphery of a body portion (24) of the base metal (23) formed in a cylinder solid. The super-abrasive layer (29) is metal-bonded, and has the outer periphery thereof formed with a toothed portion (31) in the shape of the teeth of an external gear by electric discharge machining. | ||||||
| 7 | Hybrid type resinoid grindstone with abrasive agglomerates in which sol-gel abrasive grains are held by vitrified bond | US09688968 | 2000-10-17 | US06562089B1 | 2003-05-13 | Kouji Iwai; Tsuguo Kusakabe |
| A hybrid type resinoid grindstone including abrasive agglomerates which are held together by a thermosetting synthetic resin used as a bonding agent, wherein each of the abrasive agglomerates includes sol-gel abrasive grains which are held together by a vitrified bonding agent. In the present hybrid type resinoid grindstone of the present invention, each of the sol-gel abrasive grains, which are held together by the vitrified bonding agent, restores its sharpness as a result of each of the successive removals of fine crystals with application of an impact or shock to the sol-gel abrasive grain, as in a vitrified grindstone, during a grinding operation. | ||||||
| 8 | Fine-machining tool for machining gear workpieces | US09739954 | 2000-12-18 | US06402607B2 | 2002-06-11 | Gerhard Reichert |
| A fine-machining tool, a honing wheel in particular, characterized by an axial laminar structure with a center layer and two exterior layers bonded to each other, the center layer consisting of a plastic material in which cutting grains are embedded, and the outer layers engaged with the two edge areas of the workpiece consisting of ceramically bonded cutting grains. | ||||||
| 9 | Tool for grinding the teeth of bevel gears having longitudinally curved teeth | US476940 | 1990-02-08 | US5255475A | 1993-10-26 | Erich Kotthaus |
| The rotary form tool for finish machining tooth flanks of longitudinally curved teeth of a rough machined bevel gear blank of a hypoid or non-hypoid gear pair, comprises a tool body having the configuration of a hypoid helical bevel gear. Each tooth of the tool body is helically curved and has a longitudinally concave tooth flank and a longitudinally convex tooth flank. At least one tooth flank of the longitudinally concave tooth flanks and the longitudinally convex tooth flanks are coated with an abrading medium. | ||||||
| 10 | Method for the precision working of the tooth flanks of particularly hardened gears | US762958 | 1991-09-20 | US5129185A | 1992-07-14 | Manfred Erhardt; Gerhard Reichert; Herbert Loos; Josef Lohrer |
| A method for the precision working of the tooth flanks of particularly hardened gears (workpiece W) with a gearlike tool, the tooth flanks of which tool have an abrasive surface and which rotates in mesh with the workpiece (W). In order to avoid damage to the tool caused by remaining burrs or the like in the tooth system of the workpiece (W), a twin tool with axially spaced similar tools is utilized, individual ones of the similar tools are used one after the other. The first tool removes thereby first the remaining burrs and the like and the second tool performs thereafter the actual precision working. | ||||||
| 11 | Tool for the precision working of tooth flanks of hardened gears | US578095 | 1990-09-05 | US5074080A | 1991-12-24 | Manfred Erhardt; Gerhard Reichert; Herbert Loos; Josef Lohrer |
| A method for the precision working of the tooth flanks of particularly hardened gears (workpiece W) with a gearlike tool, the tooth flanks of which tool have an abrasive surface and which rotates in mesh with the workpiece (W). In order to avoid damage to the tool caused by remaining burrs or the like in the tooth system of the workpiece (W), a twin tool with axially spaced similar tools is utilized, individual ones of the similar tools are used one after the other. The first tool removes thereby first the remaining burrs and the like and the second tool performs thereafter the actual precision working. | ||||||
| 12 | Diamond gear hone | US809316 | 1977-06-23 | US4077164A | 1978-03-07 | Loyal M. Peterman, Jr. |
| A diamond hone for re-working and correcting lead and involute profile of hardened gears which is characterized by a monolayer of diamond abrasive bonded to a gear hone which is provided with a unique geometry wherein the tip and pitch diameter portions are specifically formed to obtain a predetermined deviation from the true involute form conventionally employed. This new diamond hone and unique geometry imparts the desirable final geometry in the re-worked gear. | ||||||
| 13 | Gear polishing | US317109 | 1972-12-21 | US3955327A | 1976-05-11 | Melvin A. Franco |
| A gear shaped tool formed of a relatively soft elastically deformable material provided with a multiplicity of pores provided in the sides of its teeth by elimination of solid particles exposed at the surface thereof is rotated in mesh under light pressure contact with a work gear, while a very fine abrasive fluid polishing compound is provided. The operation improves the surface finish of the teeth of the work pieces without appreciably affecting the tooth form. The operation may be carried out with the axes of the gear and polishing tool parallel or crossed at a small angle and a relative traverse may be provided between the gear and tool in a direction which occupies a plane parallel to the axes of both the gear and tool, such direction preferably being parallel to the axis of the gear. | ||||||
| 14 | Honing gear assembly | US3613472D | 1970-08-12 | US3613472A | 1971-10-19 | HELD GERHARD R |
| A HONING GEAR ASSEMBLY COMPRISING A BACKING PLATE, A GEAR PLATE, AND A COVER PLATE, ALL BOLTED TOGETHER, AND MOUNTED ON A DRIVE SPINDLE HUB, WITH PIN AND BUSHING CONNECTIONS BETWEEN THE BACKING PLATE AND THE GEAR PLATE, WITH THE PINS OF SUCH CONNECTIONS BEING RECEIVED IN BLIND SOCKETS OF THE COVER PLATE, WITH THE HOLES OF THE GEAR PLATE
BEING LINED WITH SHOCK ABSORBING BUSHINGS FOR ABSORBING SHOCKS TRANSMITTED FOR THE GEAR PLATE TO THE BACKING PLATE AND THUS TO THE DRIVE SPINDLE HUB. |
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| 15 | Gear finishing apparatus | US8222861 | 1961-01-12 | US3169349A | 1965-02-16 | FINDLEY HOWARD J |
| 16 | Method of molding a gear finishing tool | US76409858 | 1958-09-29 | US2980966A | 1961-04-25 | PRAEG WALTER S |
| 17 | Method and means for honing gears, and for truing the honing means | US39735 | 1935-01-04 | US2105896A | 1938-01-18 | EVERARD STUBBS |
| 18 | Method of lapping gear sets | US51751931 | 1931-02-21 | US1879089A | 1932-09-27 | CHRISTMAN JOHN M |
| 19 | METHOD AND APPARATUS FOR HARD FINISHING MODIFIED GEARS | US13860433 | 2013-04-10 | US20130280990A1 | 2013-10-24 | Hansjoerg Geiser; Robert Wuerfel |
| The present disclosure relates to a method for the manufacture of a workpiece having a corrected gear geometry and/or a modified surface structure, in particular by a hard finishing process, in particular generation grinding or honing. Provision is made in this respect that it is achieved by a direct generation of a wobble movement and/or of an eccentricity of the tool that a modification, in particular a profile modification or profile waviness, and/or a defined periodic flank waviness is generated on the active surface of the workpiece machined therewith. | ||||||
| 20 | Gear-shaping grindstone and method of fabricating the same | US10347994 | 2003-01-20 | US06942555B2 | 2005-09-13 | Toshiya Hayashi; Hisatoshi Kojima; Kazuki Kataoka; Toru Nakanoboh |
| A highly accurate, long-life grindstone for shaping a gear and a method of fabricating the grindstone, without depending on the accuracy of form of a base metal and without using a special grinding machine or a special lapping machine, are disclosed. A super-abrasive layer (29) of a predetermined thickness is fixedly attached on the outer periphery of a body portion (24) of the base metal (23) formed in a cylinder solid. The super-abrasive layer (29) is metal-bonded, and has the outer periphery thereof formed with a toothed portion (31) in the shape of the teeth of an external gear by electric discharge machining. | ||||||
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