| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | Driver for lathes | US280119D | US280119A | 1883-06-26 | ||
| 182 | Photo-utkogiupbeb | US229131D | US229131A | 1880-06-22 | ||
| 183 | Improvement in combined center and carrier for lathes | US189953D | US189953A | 1877-04-24 | ||
| 184 | Improvement in lathe-carriers | US183962D | US183962A | 1876-10-31 | ||
| 185 | Improvement in lathe-dogs | US183408D | US183408A | 1876-10-17 | ||
| 186 | Improvement in lathe-dogs | US154671D | US154671A | 1874-09-01 | ||
| 187 | Improvement in lathe-dogs | US154426D | US154426A | 1874-08-25 | ||
| 188 | Improvement in carriers for lathes | US137298D | US137298A | 1873-04-01 | ||
| 189 | Improved jaws foe lathe-dogs and bench-vises | US69883D | US69883A | 1867-10-15 | ||
| 190 | nettleton | US68453D | US68453A | 1867-09-03 | ||
| 191 | Lathe-dog | US50604D | US50604A | 1865-10-24 | ||
| 192 | Dog for lathes | US49180D | US49180A | 1865-08-01 | ||
| 193 | wenzel | US30997D | US30997A | 1860-12-18 | ||
| 194 | Nathan m | US20298D | US20298A | 1858-05-18 | ||
| 195 | Carrier for | US10585D | US10585A | 1854-02-28 | ||
| 196 | Metal lathe, core drill adaptor and rate of cut device for use with a standard drill press | US12069340 | 2008-02-08 | US20090199684A1 | 2009-08-13 | Kenneth Lee Reeves |
| The Metal Lathe, Core Drill Adaptor and Rate of Cut Device are simple lathing and drilling devices including a device that restricts the advancement of the drilling and lathing motions. These devices are attached to a most any common standard upright drilling machine in a secure method to allow a person with little or no experience to operate these devices. | ||||||
| 197 | WORKPIECE HOLDER FOR A LATHE | US11681853 | 2007-03-05 | US20070221021A1 | 2007-09-27 | Eugene D. Perry |
| A workpiece holder for a lathe includes a receptacle having a workpiece-receiving-cavity that has a polygonal cross-section when viewed along an axis of rotation. The receptacle is sized to receive workpiece stock having a polygonal cross-section. | ||||||
| 198 | Device for clamping a workpiece along a rotatably driven longitudinal axis | US10549298 | 2004-03-30 | US20060213339A1 | 2006-09-28 | Peter Bailer; Siegfried Veil |
| The device is constructed with a tensioning spindle (12), a counter-holder (14) and a carrier (30), at least the tensioning spindle (12) being mounted such that it is rotatable about the longitudinal axis, and the carrier (14) being fixed to the tensioning spindle (12) and, when the workpiece (50) is clamped between the tensioning spindle (12) and the counter-holder (14), being capable of being brought into engagement with the workpiece (50) in such a way that it transmits a rotary movement of the tensioning spindle (12) to the workpiece (50). The device furthermore provides for the carrier to have a spring element (30) which can be coupled to the workpiece (50) under prestress to transmit a torque. | ||||||
| 199 | Process for the fine machining of the toothed gears of a gearbox | US10046154 | 2002-01-16 | US06805617B2 | 2004-10-19 | Walter Wirz |
| The process describes how transmission gears (6) can be manufactured in a highly economical and highly precise manner. In one single mounting, the complete hard fine-machining on all of the most important functional surfaces of the workpiece is conducted simultaneously. This multi-process is made possible through the combined use of a continuous generating grinding process for the machining of gearing, a known method for the machining of the boring and possibly of a frontal surface, and the fixing of workpieces (6) on form elements such as chamfers or plane surfaces by means of centering elements (9, 10) which are designed in such a way that they do not block the free access of the individual tools (5, 11, 28) to the surfaces (7, 8, 27) to be machined. | ||||||
| 200 | Process and device for the fine machining of the toothed gears of a gearbox | US09475151 | 1999-12-30 | US06350181B1 | 2002-02-26 | Walter Wirz |
| The process describes how transmission gears (6) can be manufactured in a highly economical and highly precise manner. In one single mounting, the complete hard fine-machining on all of the most important functional surfaces of the workpiece is conducted simultaneously. This multi-process is made possible through the combined use of a continuous generating grinding process for the machining of gearing, a known method for the machining of the boring and possibly of a frontal surface, and the fixing of workpieces (6) on form elements such as chamfers or plane surfaces by means of centering elements (9, 10) which are designed in such a way that they do not block the free access of the individual tools (5, 11, 28) to the surfaces (7, 8, 27) to be machined. | ||||||
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