121 |
Gear cutter setting gauge |
US23054851 |
1951-06-08 |
US2679108A |
1954-05-25 |
REYNOLDS WILLIAM E |
|
122 |
Feed mechanism for metal cutting machines |
US62398932 |
1932-07-22 |
US2001987A |
1935-05-21 |
SYKES WILLIAM E |
|
123 |
Gear cutting machine |
US49159530 |
1930-10-27 |
US1892621A |
1932-12-27 |
EMIL LASSER |
|
124 |
Variable velocity ratio mechanism |
US47099330 |
1930-07-26 |
US1808131A |
1931-06-02 |
GEORGE DOUGLAS JOHN |
|
125 |
Automatic reverse for planers and the like. |
US1912729608 |
1912-11-05 |
US1073033A |
1913-09-09 |
FISHER ALFRED E |
|
126 |
Driving and reversing gear. |
US1911659582 |
1911-11-10 |
US1063104A |
1913-05-27 |
BATEMAN RICHARD WILKINSON; BATEMAN LOFTUS HANSON |
|
127 |
Planer-dog. |
US1905261522 |
1905-05-22 |
US890544A |
1908-06-09 |
WHITCOMB ALONZO W |
|
128 |
Planer. |
US1904203145 |
1904-04-14 |
US826476A |
1906-07-17 |
CHANDLER DANIEL L |
|
129 |
Metal-planer. |
US1904236868 |
1904-12-14 |
US792024A |
1905-06-13 |
HAGMAN WILLIAM J |
|
130 |
Flaming-machine mechanism |
US584495D |
|
US584495A |
1897-06-15 |
|
|
131 |
Metal-planing machine |
US351895D |
|
US351895A |
1886-11-02 |
|
|
132 |
Clutch-operating mechanism |
US312059D |
|
US312059A |
1885-02-10 |
|
|
133 |
walter |
US308715D |
|
US308715A |
1884-12-02 |
|
|
134 |
Improved flaming-machine |
US101462D |
|
US101462A |
1870-04-05 |
|
|
135 |
Metal |
US93903D |
|
US93903A |
1869-08-17 |
|
|
136 |
GEAR CUTTING MACHINE |
US14482725 |
2014-09-10 |
US20150073583A1 |
2015-03-12 |
Thomas Karl; Marco Heider; Tobias Heilmannseder |
The present disclosure relates to a gear cutting machine having a machine control as well as having at least one display for displaying machine-relevant parameters, wherein the display is multitouch-operable and allows an operator input for controlling the gear cutting machine by multifinger gestures over the display. |
137 |
Gear matching device and gear machining apparatus |
US12442457 |
2008-02-05 |
US08137160B2 |
2012-03-20 |
Hiroyuki Kurashiki; Toshifumi Katsuma |
Provided is a gear matching device which performs gear matching to establish a rotational phase relationship between a grindstone (13) and a gear-shaped workpiece (W) in which the grindstone and the workpiece can mesh with each other, before gear machining is performed by causing the grindstone and the workpiece to mesh with each other, and by then relatively rotating the grindstone and the workpiece, the gear matching device including: a tail stock (16) which is supported to be movable in the axial direction of the workpiece, and by which the workpiece is pressed against a rotary table (18) to be rotatably held, the rotary table rotating the workpiece about the axis thereof; and a sensor (33) which is provided to the tail stock, and which faces the workpiece to detect the rotational phase thereof, when the tail stock holds the workpiece. |
138 |
METHOD AND SYSTEM TO MANUFACTURE ORIENTED INTERNAL AND EXTERNAL GEAR TEETH |
US12027357 |
2008-02-07 |
US20080213054A1 |
2008-09-04 |
Stephen D. Doubler; Jeffrey R. Lee; Travis M. Thompson; Richard Vriesen; Scott L. Yoders |
A system and method for forming a feature on an inner surface of a gear includes a sensor for sensing the position of a feature on the gear, a cutting station having a cutting tool for forming the feature on the inner surface of the gear, and a controller. The controller is operable to determine an amount of rotation necessary to rotate either the gear or the cutting tool such that the feature on the inner surface of the gear is formed at a desired orientation relative to the feature on the outer surface of the gear. |
139 |
Manufacturing cell for the treatment of grinding and wheel set testing and procedures for the operation of the manufacturing cell |
US11389843 |
2006-03-27 |
US20060223417A1 |
2006-10-05 |
Klaus Sattelberger; Klaus Stuchlik |
A manufacturing cell for the treatment of grinding of gear wheel flanks, in particular by bevel pinions, and suggested for the wheel set testing, which includes a grinding machine (1), an unreeling test equipment (2), a laser inscription unit (3) with a time band (5) and a robot-supported load system (4), which are concatenated with one another and controllable that the process of pinion loops/wheel set examining/marking and the correction of the grinding machine attitude as a function of the results of the unreeling examination is feasible. |
140 |
Tooth aligning device for the aligning of workpiece with pre-cut teath on gear finishing machines |
US10697977 |
2003-10-31 |
US20040099056A1 |
2004-05-27 |
Walter
Wirz |
The invention concerns a device for the non-contact measurement of the position of the teeth (13) of a workpiece (14) with precut teeth on a gear finishing machine. The measuring probe, retractable from the measuring position into a position of rest protected against soiling, is arranged in a holder (5) for radial and axial adjustment relative to the workpiece, the said holder (5) being a kinematic member of a parallelogram linkage (A) and by means of a hydraulic, pneumatic or electromechanical swivel drive (11) is swivellable from stop to stop between measuring position and position of rest in a plane containing the workpiece axis, such that in the advancement action from the lower end position (15) to the upper end position (12) motions of the measuring probe (1) tangential to the workpiece circumference are completely avoided. The parallelogram kinematics moreover afford adequate protection against swarf and grinding dust, and lends the device a high stiffness and reliability. |