Abstract:
A two speed motorcycle hub transmission in which the wheel may be driven at a one to one, or at a lower speed by a sliding clutch changing the drive from having the wheel locked to the drive shaft, to a planetary system the drive shaft driving the sun gear.

Description:
BACKGROUND OF THE INVENTION 
     It is an object of the present invention to provide a two speed hub for a motorcycle so that the motorcycle may be operated at either a one to one speed or at a lower speed by a very simple hub that makes the motorcycle convertible from a motorcycle of one gear ratio to one of another. 
     Other and further objects and advantages will appear from the following specification taken with the accompanying drawings in which like reference characters refer to similar parts in the several views. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 is an elevation of the device looking from the right in FIG. 2; 
     FIG. 2 is a section taken on line 2--2 of FIG. 1; 
     FIG. 3 is a section taken on line 3--3 of FIG. 2; 
     FIG. 4 is an exploded view of the device. 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENT 
     The hub comprises a cylindrical casing 10 having one open side and peripheral flanges 12 and 12a to which the spokes of the wheel are to be secured, and a cylindrical bearing receiving flange 14. The open side of the casing is closed by a plate 16 bolted to casing 10 provided with a cylindrical bearing receiving flange 18. 
     A shaft 20 which is driven by the motorcycle motor extends into casing 10 through a bearing enclosed in flange 14. A gear 22 is keyed to shaft 20. This gear 22 is the means by which the power from the motorcycle engine is transmitted to the wheel by the hub. 
     A second gear 24 of the same diameter and number of teeth as gear 22 is mounted for free rotation on shaft 20 but is pinned by pins 26 to a plate 28 that is bolted to casing 10. 
     An internal gear 30 slidably engages over gear 22 and while still engaging gear 22, may be slid over gear 24 so that gear 24, pinned to casing 10 will drive casing 10 at a one to one ratio. 
     Internal gear 30 may also be moved axially, when desired, by half ring 32, riding in an annular groove 34 in internal gear 24. 
     Half ring 32 is mounted on an axially moveable shaft 36 extending parallel to shaft 20 so that when shaft 36 is moved axially, internal gear 30 is moved axially so as to either engage over gear 24 to the left as seen in FIG. 2 while still engaging gear 22, or to the right to disengage from gear 24, and to engage sun gear 38 which is mounted for free rotation on shaft 20. Sun gear 38 has a shoulder 40 in the form of a gear similar to gears 22 and 24 as to diameter and number of teeth so that when internal gear 30 is moved to the right in FIG. 2 under the influence of half ring 32 gear 22, keyed to shaft 20 will drive sun gear 38 at a one to one ratio. 
     Secured to plate 28 and casing 10 is at least one stud 42 (but preferably three) on which a planet gear 44 is mounted for free rotation on the stud and in mesh with sun gear 38. 
     An internal ring gear 46 meshes with planet gear 44. Internal gear 46 is held against rotation by an extension 48 extending through plate 16 to be mounted on the frame of the motorcycle. A bearing 50 is included between flange 18 on plate 16 and element 48 so plate 16 and casing 10 may rotate easily. 
     It will be noted that internal gear 30 is wide enough so that when moved to the left to fully engage gear 24 it will remain in mesh with gear 22, and when moved to the right to fully engage the gear teeth of shoulder 40 it will remain in mesh with gear 22. 
     Studs 42 are supported at their ends remote from plate 28 by a plate 52 providing also a support for axially moveable shaft 36 that moves half ring 32 that positions internal gear 30 so that it can engage either gears 22 and 24, or gears 22 and 40. Axially moveable shaft 36, carrying half ring 32 is biased to the right in FIG. 2 by spring 54. A cam lever 56 is shown in FIG. 2 holding half ring 32, and therefore internal gear 30, in mesh with gears 24 and 22 to give the one to one drive. If cam lever 56 is turned to permit shaft 36 to move to the right, internal gear 30 will be biased to move to the right so that it engages the gear teeth of shoulder 40 as well as gear 22. 
     Gear 22, now driving sun gear 38, will rotate sun gear 38 in the same direction as shaft 20 is rotating. Sun gear 38 will rotate planet gears 44 which will roll on the stationary internal ring gear so that studs 42 will move, within internal ring gear 46, in the same rotational direction as shaft 20, but at a reduced speed. Since studs 42 are secured to casing 10 the entire hub will be rotated at the reduced speed. The actual speed ratio will depend on the diameter of sun gear 38 and planet gears 44. 
     Struts 58 securing plate 52 in position absorb the torque that might otherwise interfere with the alignment of planet gears 44. 
     Use of elements 58 along with plates 28 and 52 to form a &#34;spider&#34; to carry planet gears 44 makes it possible to assemble shaft 20, gears 22, 24, 30, 38 and 44 along with half ring 32 and its actuating springed shaft 54 and 36, into a unit to facilitate manufacture of its hub. 
     Having thus described the preferred embodiment of the invention it should be understood that numerous structural modifications and adaptations may be resorted to without departing from the spirit of the invention.