Manufacturers Index - Bardons & Oliver
Bardons & Oliver
Cleveland, OH, U.S.A.
Manufacturer Class:
Metal Working Machinery
This page contains information on patents issued to this manufacturer.
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475,917
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May. 31, 1892
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Machine for Turning Irregular Shapes
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George C. Bardons |
Cleveland, Cuyahoga County, OH |
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553,802
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Jan. 28, 1896
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Duplex Forming Machine
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George C. Bardons |
Cleveland, OH |
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Duplex Forming Machine
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John G. Oliver |
Cleveland, OH |
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Duplex Forming Machine
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George W. Drake |
Cleveland, OH |
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555,116
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Feb. 25, 1896
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Automatic Valve Milling Machine
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John G. Oliver |
Cleveland, OH |
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Automatic Valve Milling Machine
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George C. Bardons |
Cleveland, OH |
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575,094
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Jan. 12, 1897
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Turret lathe
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George W. Drake |
Cleveland, Cuyahoga County, OH |
H. L. Fisher - patent attorney
Our invention relates to turret-lathes; and the object of the invention is to improve the means which have hitherto been employed for controlling the stock feeding and locking mechanism, whereby the said means are brought close to the hand of the operator and all the parts which the operator is required to handle are placed within convenient and easy reach. Heretofore in machines of this kind having rack-and-pinion feed controlling mechanism the said mechanism was at the rear extremity of the machine, so that the operator had to bodily leave his work and go to the said rear operating mechanism and make the necessary adjustments thereby and then step back again to the work, and thus he had to alternate from one position to the other and waste much valuable time, as well as take his attention wholly from his work while this shifting of position was going on. The inconvenience and objectionableness of this old construction are obvious from this statement of its requirements, and hence the present invention, which is designed to overcome and remedy the said objection and provide controlling mechanism which is within easy reach of the operator in his working position, so that he can concentrate all his attention on the work as he should.
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Turret lathe
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John G. Oliver |
Cleveland, Cuyahoga County, OH |
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Turret lathe
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George C. Bardons |
Cleveland, Cuyahoga County, OH |
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586,832
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Jul. 20, 1897
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Friction-clutch
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George C. Bardons |
Cleveland, OH |
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Friction-clutch
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John G. Oliver |
Cleveland, OH |
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657,306
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Sep. 04, 1900
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Turret Lathe
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George C. Bardons |
Cleveland, Cuyahoga County, OH |
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Turret Lathe
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George W. Drake |
Cleveland, Cuyahoga County, OH |
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926,761
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Jul. 06, 1909
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Lathe Chuck
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John G. Oliver |
Cleveland, OH |
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1,118,072
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Nov. 24, 1914
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Chuck Mechanism
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Horace W. Thompson |
East Cleveland, OH |
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1,224,955
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May. 08, 1917
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Automatic Stop Mechanism for Turret Lathe
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John G. Oliver |
Cleveland, OH |
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Automatic Stop Mechanism for Turret Lathe
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George C. Bardons |
Cleveland, OH |
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1,227,822
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May. 29, 1917
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Machine Tool
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John G. Oliver |
Cleveland, Cuyahoga County, OH |
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1,265,606
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May. 07, 1918
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Chucking device
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Frederic C. Busch |
Cleveland, OH |
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1,320,660
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Nov. 04, 1919
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Lathe Chuck
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Horace W. Thompson |
Detroit, MI |
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1,454,643
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May. 08, 1923
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Feeding and Chucking Mechanism for Machine Tools
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Earl J. Hornberger |
Cleveland Heights, OH |
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1,498,821
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Jun. 24, 1924
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Turret Machine Turret Saddle
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Horace W. Thompson |
East Cleveland, OH |
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1,642,909
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Sep. 20, 1927
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Metal Lathe
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Horace W. Thompson |
East Cleveland, OH |
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1,696,037
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Dec. 18, 1928
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Automatic chuck and roller feed
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Earl J. Hornberger |
Cleveland, OH |
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1,699,968
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Jan. 22, 1929
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Friction Clutch
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Earl J. Hornberger |
Cleveland Heights, OH |
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1,708,672
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Apr. 09, 1929
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Motor drive for lathes
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Earl J. Hornberger |
Cleveland, OH |
This patent is assigned to "Bardons & Oliver, a copartnership, of Cleveland, Ohio, consisting of George C. Bardons and John G. Oliver." |
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1,772,148
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Aug. 05, 1930
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Cut-off machine
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Earl J. Hornberger |
Germantown, PA |
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1,776,633
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Sep. 23, 1930
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Interlocking Control Mechanism
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William L. Libby |
Cleveland, OH |
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Interlocking Control Mechanism
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Edwin Huge |
Cleveland, OH |
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1,813,002
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Jul. 07, 1931
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Indicator
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John J. N. Van Hamersveld |
Cleveland Heights, OH |
This patent number was seen on a Bardons & Oliver turret lathe. The patent covers an indicator that shows surface feet per minute. The patent drawings show the indicator on a lathe but the specification claims its use on lathes, boring mills, drill presses, milling machines, planers and shapers. |
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1,934,358
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Nov. 07, 1933
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Automatic Turret Clamp
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Oskar Kylin |
Cleveland Heights, OH |
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1,963,023
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Jun. 12, 1934
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Automatic Tool
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William Libby |
Cleveland, OH |
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1,972,595
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Sep. 04, 1934
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Automatic cut-off machine
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William L. Libby |
Cleveland, OH |
Improvements to patent 1,772,148. |
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2,146,583
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Feb. 07, 1939
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Chuck and bar feed
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Oskar Kylin |
Cleveland Heights, OH |
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2,147,203
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Feb. 14, 1939
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Tap holder
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Oskar Kylin |
Cleveland Heights, OH |
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2,149,940
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Mar. 07, 1939
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Brake and Control Therefor
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Oskar Kylin |
Cleveland Heights, OH |
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D128,655
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Aug. 05, 1941
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Design for an overhead piloted vertical slide tool for lathes or the like
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Oskar Kylin |
Cleveland, OH |
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2,279,710
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Apr. 14, 1942
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Sliding Gear Transmission
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Oskar Kylin |
Cleveland, OH |
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Sliding Gear Transmission
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Henrik O. Kylin |
Cleveland, OH |
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412,707
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May. 25, 1943
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Sliding gear transmission
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Hanrik O. Kylin |
Cleveland, OH |
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Sliding gear transmission
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Oskar Kylin |
Cleveland, OH |
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2,333,868
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Nov. 09, 1943
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Releasing Tap Holder
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Oskar Kylin |
Cleveland Heights, OH |
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2,369,466
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Feb. 13, 1945
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Automactic Chuck and Stock Feed for Machine Tools
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Oskar Kylin |
Cleveland Heights, OH |
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Automactic Chuck and Stock Feed for Machine Tools
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Henrik O. Kylin |
Cleveland Heights, OH |
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Automactic Chuck and Stock Feed for Machine Tools
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Michael L. Valentino |
Cleveland Heights, OH |
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2,375,115
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May. 01, 1945
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Collet chuck operating mechanism
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Oskar Kylin |
Cleveland Heights, OH |
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2,375,114
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May. 01, 1945
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Indexing Machanism
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Oskar Kylin |
Cleveland Heights, OH |
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2,382,571
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Aug. 14, 1945
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Adjustable Supporting Tool
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Oskar Kylin |
Cleveland Heights, OH |
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2,399,045
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Apr. 23, 1946
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Lathe Screw Attachment
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Oskar Kylin |
Cleveland, OH |
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2,405,435
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Aug. 06, 1946
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Machine Tool
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Oskar Kylin |
Cleveland Heights, OH |
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Machine Tool
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Henrik O. Kylin |
Cleveland Heights, OH |
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Machine Tool
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Michael L. Valentino |
Cleveland Heights, OH |
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2,417,366
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Mar. 11, 1947
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Power Indexing Mechanism
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Oskar Kylin |
Cleveland Heights, OH |
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Power Indexing Mechanism
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Henrik O. Kylin |
Cleveland Heights, OH |
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Power Indexing Mechanism
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Michael L. Valentino |
Cleveland Heights, OH |
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2,421,206
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May. 27, 1947
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Hydraulic brake mechanism and control therefor
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Henrik O. Kylin |
Cleveland Heights, OH |
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Hydraulic brake mechanism and control therefor
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Oskar Kylin |
Cleveland Heights, OH |
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2,500,562
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Mar. 14, 1950
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Centrifugally Operated Mechanism
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Lockwood Oliver |
Hudson, OH |
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2,753,502
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Jul. 03, 1956
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Electric Motor Control for Spindle Postioner
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Henrik O. Kylin |
Aurora, OH |
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2,868,550
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Jan. 13, 1959
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Collet
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John L. Maryanski |
Garfield Heights, OH |
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Collet
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Michael L. Valentino |
Cleveland Heights, OH |
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3,315,550
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Apr. 25, 1967
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Cutting-Off Lathe with Opposed Tool Slides
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Henrik O. Kylin |
Aurora, OH |
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3,447,220
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Jun. 03, 1969
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Selective Fluidic Control and Actuating Mechanism for Machine Tools
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Morris R. Hicks |
Brook Park, OH |
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Selective Fluidic Control and Actuating Mechanism for Machine Tools
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Joseph C. Le Veque |
Cleveland, OH |
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3,448,643
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Jun. 10, 1969
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Tool Slide for Lathes, Cutoff Machines and the Like
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Henrik O. Kylin |
Aurora, OH |
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3,516,439
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Jun. 23, 1970
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Low Fluid Pressure Actuated Fluid Jet Interrupter Means
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Morris R. Hicks |
Brook Park, OH |
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Low Fluid Pressure Actuated Fluid Jet Interrupter Means
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Joseph C. Le Veque |
Cleveland, OH |
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3,583,281
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Jun. 08, 1971
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Programmable Fluidic Control System for Machine Tools
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Morris R. Hicks |
Brook Park, OH |
Abstract
A machine tool, such as a milling machine, embodying a control system employing fluid amplifiers for controlling and actuating in selected sequence a plurality of steps in an automatic cycle of the machine. Means are provided whereby the selective programming of the cycle may be set up at a central control console conveniently located for the operator, and sequentially executed by operation of relatively high fluid pressure in response to relatively low-pressure fluidic signals. The low-pressure fluidic signals, as on the order of about 1 p.s.i. or less, are selectively employed to control flow of relatively high-pressure fluid to cause the relatively high-pressure fluid to actuate power means such as hydraulic cylinders for causing programmed relative movements of work holding and toolholding means of the machine.
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Programmable Fluidic Control System for Machine Tools
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Joseph C. Le Veque |
Cleveland, OH |
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3,807,278
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Apr. 30, 1974
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Programmable Fluidic Control System for Machine Tools
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Morris R. Hicks |
Brook Park, OH |
Abstract
A machine tool, such as a milling machine, embodying a control system employing fluid amplifiers for controlling and actuating in selected sequence a plurality of steps in an automatic cycle of the machine. Means are provided whereby the selective programming of the cycle may be set up at a central control console conveniently located for the operator, and sequentially executed by operation of relatively high fluid pressure in response to relatively low pressure fluidic signals. The low pressure fluidic signals, as on the order of about 1 psi or less, are selectively employed to control flow of relatively high pressure fluid to cause the relatively high pressure fluid to actuate power means such as hydraulic cylinders for causing programmed relative movements of work holding and tool holding means of the machine.
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Programmable Fluidic Control System for Machine Tools
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Joseph C. Le Veque |
Cleveland, OH |
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