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GB Patent: GB-191,211,413
Improvements in Gearing for Driving and Reversing Planing Machines for Metals
Patentee:
Christopher William James (exact or similar names) - Hythe, Kent County, England

USPTO Classifications:

Tool Categories:
metalworking machines : metal planers
metalworking machines : metalworking machine mechanisms : metalworking machine gearing

Assignees:
Joshua Buckton & Co. - Leeds, England

Manufacturer:
Not known to have been produced

Witnesses:
Unknown

Patent Dates:
Applied: May 14, 1912
Granted: May 14, 1913

Patent Pictures:
Espacenet patent
Report data errors or omissions to steward Joel Havens
"Vintage Machinery" entry for Joshua Buckton & Co.
Christopher William James
Description:
Note: Early English patents (pre 1916) were numbered by the year and started at patent #1 at the start of each year in January. The patent # used in DATAMP represents the year of issue of the application and the patent #. This patent is #11,413 of the year 1912.

Abstract:

A planing- machine drive consists of gearing by which the lay shaft of a changespeed box is used to give different cutting speeds while the main shaft gives a direct constant return speed drive, or to give different cutting speeds on both forward and return strokes when d o u b l ecutting. The main shaft A driven by a pulley J passes through the change-speed box E and carries a pinion A<1> on its end in gear with a pinion A<2> loosely mounted on an independent shaft C which also carries a double clutch portion D fixed to it and another loose pinion B<2> on its other end. The lay shaft B is adapted to be driven at different speeds and carries at its forward end a pinion B<1> in gear with the loose pinion B<2>. The pinions A', A<2> are proportioned to give a quick return drive to the shaft C which, through worm gearing G, G', drives the main spindle G<2>, In a modification, Fig. 4, in which the reversal can be effected at different speeds for cutting in both directions, the lay shaft has a further pinion B<1'> adapted to drive at different speeds a pinion A<2'> on the independent shaft C through an idle pulley which is mounted at one end of a lever K, while the main shaft pinion A<1> is mounted at the other, so that both pinions cannot be in mesh at the same time.

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