US301234A - Bicycle - Google Patents

Bicycle Download PDF

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Publication number
US301234A
US301234A US301234DA US301234A US 301234 A US301234 A US 301234A US 301234D A US301234D A US 301234DA US 301234 A US301234 A US 301234A
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Prior art keywords
gears
shaft
collar
bicycle
gear
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16HGEARING
    • F16H1/00Toothed gearings for conveying rotary motion
    • F16H1/28Toothed gearings for conveying rotary motion with gears having orbital motion
    • F16H1/2854Toothed gearings for conveying rotary motion with gears having orbital motion involving conical gears

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  • My invention relates to certain novel and useful improvements in bicycles, and has for its object to provide a simple and compact device for increasing the speed of bicycles, whereby for every complete revolution of the cranks two revolutions of the wheel will have been performed, but without an increase of friction proportionate to the increased speed;
  • Figure l is an elevation of the hub of a bicycle containing my improvement, and showing portion of a fork attached to one side;
  • Figure 2 a longitudinalsection of my improved bicycle-hub, showing the gears in operative position, partly in section and partly in elevation, the bearings and balls therein con tained, and a vertical section of an outside bearing, showing its means of attachment to the fork of the bicycle;
  • Figure l is an elevation of the hub of a bicycle containing my improvement, and showing portion of a fork attached to one side
  • Fig. 2 a longitudinalsection of my improved bicycle-hub, showing the gears in operative position, partly in section and partly in elevation, the bearings and balls therein con tained, and a vertical section of an outside bearing, showing its means of attachment to the fork of the bicycle;
  • FIG. 3 an end elevation ofthe hub, showing the plate provided wit-h lugs for the attachment of the fork, and a view of the outer surface of the ring-nuts, showing the serrations by which, in connection with the cheek-block, they are securely held;
  • Fig. i a front elevation of a bicycle provided with my improvement, and showing the respective attachments of the forks upon either side of the wheel and of the cranks upon either end of the drivingshaft;
  • Fig. 5 a section of the hub, taken through the line 00 as, (see Fig. 2,)
  • Fig. 6 a section taken throughthe hub at the line 1 y, and showing the arrangement of the tight and loose collars whose ends form part of the track for the balls which form the bearings.
  • A is a cylindrical shell adapted to contain collars, F G, the outer of which, F, is firmly secured to the shell by screws a, and turns with the wheel upon the bearings H, as will be presently explained.
  • the inner collar, G is rigidly attached to the fork K by means of the plate I, having upon its face the lugs J, which embrace the fork upon either side, and are securely attached thereto by a screw or bolt.
  • E is the driving shaft, passing entirely through the hub, and at whose center is rigidly secured the tight collar L, projecting from the opposite sides of which, at "right angles, are the cross-heads M.
  • the tight collars Q Upon either side of the collar L are the tight collars Q, forming a part of the shaft, and beveled at their inner ends. Near their outer ends these collars are provided with grooves cut in their peripheries, and in shape half-octagonal in cross-section, for the purpose of forming a track for the ballsS.
  • T are loose collars surrounding the fast col lars Q, and are beveled at either end, so as to present a bearing-surface against the balls S, which travel in the track formed at the inner collars Q, the loose collars T, and the inner face of the projection O, and at the outer ends of the collars by the hemi-octagonal grooves R, the beveled surfaces of the loose collars T,
  • Cut in the inner circumference of the collar F is a groove,W, half octagonal in shape, and parallel to the cross-section of the collar, and in the periphery of the collar G is cut a groove, X, similar to the groove ⁇ V, save that one side is cut down and threaded to engage with the threads upon the ring-nut V, so that when the collars are in position and the ring-nut Vin place, as shown in Fig. 2, a track is formed octagonal in shape and adapted to contain the balls S, which run in the bearing H.
  • the ring-nutV is in all respects similar to the nuts U, save in size.
  • the outer surface of the nuts U V is serrated, as shown at Fig.
  • the gears N are identical in size, pitch, and
  • transverse gears revolve around the shaft E upon the ends of the cross-heads, they acquire by the engagement of their teeth with the teeth of the stationary gear 0 an independent rotary motion around the short shafts M in the direction shown by the arrow seen upon the transverse gear N, Fig. 2.
  • this independent motion must be equal to one revolution of the gears N upon their axesthe short shafts-for every revolution of thedriving-shaft E.
  • the driven gear 0, whose sole function isto receive the motion from the transverse gears, and which is in no way dependent directly upon the shaft for its motion, must therefore receive from the gears N not only the speed derived from the motions of the gears N around the shaft, but also the speed imparted by the revolution of the transverse gears upon their axes-the short shafts.
  • the motion of the gears N around the shaft E furnishes motion which causes the gear 0 to revolve'once at every revolution of the shaft.
  • the plate A is readily detachable and permits ready access to the mechanism for the purpose of cleaning and oiling or for repairs.
  • the checkblock Y adapted. to firmly hold the ring-nuts U V, havingupon its inwiLLmu F. HEALY.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Gears, Cams (AREA)

Description

(No Model.) I 3 Sheets-Sheet 1. W. F. HEALY.
BIOYGLVE. No. 301,234.
Patented July 1,1884.-
wvjnemes N. PETERS PllclmLllhogmpher. Wcuhinglnn. D, c.
(No Model.) 3 Sheets-$heet 2 W. P. HEALY.
BICYCLE.
No. 301,234. Patented July 1 17884.
wifizeaies [nae mfbr mlh cmv F J! eagy (No Model.) 3 Sheets-M66133.
W. F. HEALY.
BICYCLE.
No. 301,234. Patented July 1, 1884.
" lhuirnn dramas a'rnnrr @rrren.
\VILLIAM. F. HEALY, OF BRIDGEPORT, CONNECTICUT.
BICYCLE.
SPECIFICATION forming part ofLetters Patent No. 301,234., dated'J'uly 1, 1.884.
Application filed January 23, 1884.
(No model.)
To aZZ whom it may concern:
Be it known that I, WILLIAM F. IIEALY, a citizen of the United States, residing at Bridgeport, in the county of Fairfield and State of Connecticut, have invented certain new and useful Improvements in Bicycles; and I do hereby declare the following to be a full, clear, and exaetdescription of the invention, such as will enable others skilled in the art to which it appertains to make and use-the same.
My invention relates to certain novel and useful improvements in bicycles, and has for its object to provide a simple and compact device for increasing the speed of bicycles, whereby for every complete revolution of the cranks two revolutions of the wheel will have been performed, but without an increase of friction proportionate to the increased speed;
and with these ends in view my invention consists in the details of construction and combination of elements hereinafter fully and in detail explained, and then specifically designated by the claims.
In order that those skilled in the art to which my invention appertains may more fully understand how to make and use my improvement, I will proceed to describe the same, referring by letter to the accompanying drawings, in which Figure l is an elevation of the hub of a bicycle containing my improvement, and showing portion of a fork attached to one side; Fig. 2, a longitudinalsection of my improved bicycle-hub, showing the gears in operative position, partly in section and partly in elevation, the bearings and balls therein con tained, and a vertical section of an outside bearing, showing its means of attachment to the fork of the bicycle; Fig. 3, an end elevation ofthe hub, showing the plate provided wit-h lugs for the attachment of the fork, and a view of the outer surface of the ring-nuts, showing the serrations by which, in connection with the cheek-block, they are securely held; Fig. i, a front elevation of a bicycle provided with my improvement, and showing the respective attachments of the forks upon either side of the wheel and of the cranks upon either end of the drivingshaft; Fig. 5, a section of the hub, taken through the line 00 as, (see Fig. 2,)
and showing the arrangement of the balls in the inner and outer bearings; and Fig. 6, a section taken throughthe hub at the line 1 y, and showing the arrangement of the tight and loose collars whose ends form part of the track for the balls which form the bearings.
Similar letters denote like parts in the several figures of the drawings.
A is a cylindrical shell adapted to contain collars, F G, the outer of which, F, is firmly secured to the shell by screws a, and turns with the wheel upon the bearings H, as will be presently explained. The inner collar, G, is rigidly attached to the fork K by means of the plate I, having upon its face the lugs J, which embrace the fork upon either side, and are securely attached thereto by a screw or bolt.
E is the driving shaft, passing entirely through the hub, and at whose center is rigidly secured the tight collar L, projecting from the opposite sides of which, at "right angles, are the cross-heads M. Upon either side of the collar L are the tight collars Q, forming a part of the shaft, and beveled at their inner ends. Near their outer ends these collars are provided with grooves cut in their peripheries, and in shape half-octagonal in cross-section, for the purpose of forming a track for the ballsS.
T are loose collars surrounding the fast col lars Q, and are beveled at either end, so as to present a bearing-surface against the balls S, which travel in the track formed at the inner collars Q, the loose collars T, and the inner face of the projection O, and at the outer ends of the collars by the hemi-octagonal grooves R, the beveled surfaces of the loose collars T,
, end of the collars by the surfaces of the tight IOO and the beveled surfaces of the ring-nuts next described. U are ring-nuts threaded externally, beveled at their forward ends to form a part of the track for the balls S, and designed .to engage with threads upon the inner circumference of the heads B G, for the purpose of tightening or easing the bearings just described.
Cut in the inner circumference of the collar F is a groove,W, half octagonal in shape, and parallel to the cross-section of the collar, and in the periphery of the collar G is cut a groove, X, similar to the groove \V, save that one side is cut down and threaded to engage with the threads upon the ring-nut V, so that when the collars are in position and the ring-nut Vin place, as shown in Fig. 2, a track is formed octagonal in shape and adapted to contain the balls S, which run in the bearing H. The ring-nutVis in all respects similar to the nuts U, save in size. The outer surface of the nuts U V is serrated, as shown at Fig. 3, and-the cheek-blockY is provided upon its inner surface with' teeth adapted to engage with the serrations on the nuts U V. This block is screwed to the outer face of the inner collar, G, and its ends hold the nuts firmly in position'by the engagement of the teeth upon the block with the serrations on the nuts U V.
Itigidly attached by lugs c to the projection The gears N are identical in size, pitch, and
teeth with the gears O O. The teeth of the transverse gears N engage with the teeth of the gears O O at the points of contact d cfg,
Fig. 2, forthe purpose presently explained.
Z are cranks attached to the ends of the shaft E, for the purpose of revolving it.
The operation.of my invention is as follows: By one revolution of the driving-shaft E one entire revolution will beimparted to the crossheads M, which are fixedly attached thereto, and consequently to the transverse gears N. As has been previously noted, the inner collar, G, of the head D is rigidly attached to the fork K, so that it is held secure as against any rotary movement. The gear 0 therefore always remains stationary. The gear 0 is also immovably attached to the inner face of the projection O by lugs 0; but the head B is in no way attached to the forks, conse= quently any motion transmitted tothe gear .0 is applied directly to the head B, of which said gear forms a part, and which is free to revolve independent of the shaft E. By a revolution of the shaft E the transverse gears N describe not only a revolution around the axis of the driving-shaft, but also by their engagement witlrthe teeth of the stationary gear 0 a complete revolution around the short shafts M.-their axes. This, as willbe readily understood, imparts the twofold speed thus acquired to the movable gear 0, thereby causing it and the head B, to which it is rigidly valuable parts, as when combined and operated in my invention. By the motion of the cranks Z, the shaft E and the tight collar L and cross-heads M, thereto attached, acquire a rotary motion in the direction shown by the arrow seenupon the collar L in Fig.2. As the transverse gears revolve around the shaft E upon the ends of the cross-heads, they acquire by the engagement of their teeth with the teeth of the stationary gear 0 an independent rotary motion around the short shafts M in the direction shown by the arrow seen upon the transverse gear N, Fig. 2. As the gears N and O are all provided with the same number of teeth, this independent motion must be equal to one revolution of the gears N upon their axesthe short shafts-for every revolution of thedriving-shaft E. The driven gear 0, whose sole function isto receive the motion from the transverse gears, and which is in no way dependent directly upon the shaft for its motion, must therefore receive from the gears N not only the speed derived from the motions of the gears N around the shaft, but also the speed imparted by the revolution of the transverse gears upon their axes-the short shafts. In short, the motion of the gears N around the shaft E furnishes motion which causes the gear 0 to revolve'once at every revolution of the shaft. The motion of the gears N around their independent axes M furnishes another revolution of the gear 0 to each turn of the shaft E, and thesetwo sources of power furnish motion which causes the gear 0 to make two complete revolutions to each turn of the shaft E, and in the direction shown by the arrow seen upon the gear 0. As the gear 0 is rigidly attached to the head B, and as the head B, shell A, and outer collar, F, of the head D are firmly secured one to the other, and as the heads B D carry in their peripheries the spokes of the wheel, it will be readily seen that the double revolution just desc'ribed will cause the wheel of the bicycle to revolve twice to each revolution of the cranks.
The function of the bearings formed by the mere useless generators of friction, instead of combination of the balls S, the grooves It in the tight collars Q, and the beveled ends of the loose collars T is merely to allow the shaft E to revolve within the hub with the least possible friction, and the result obtained by the use of the bearings H is that the outer collar, F, is left free to revolve around the inner collar, G, which is held fast to the fork K.
I am well aware that ball-bearings have been used in many connections for lessening friction of bearing-surfaces, and that they have been very commonly used in connection with bicycles, upon the ends of theforks, for the purpose of allowing the axle or driving-shaftto turn easily, and I do not wish to be understood as laying claim, broadly, to any such construction, the gist of my invention in this regard resting in the broad idea of ball-bearings situated within the hub of a bicycle, whereby thehub may be permitted to revolve around and independent of the axle.
The advantages gained by the use of the pattern and arrangement of the gears in my improvement are that while the two revolutions of the wheel for every one of the cranks is accomplished, as desired, the mechanism required to accomplish this result occupies so little space that a hub of ordinary size is competent to inclose it. Being situated within the wheel,the mechanism cannot be injured by the falling of the machine. It is out of reach of the feet of the rider, and by the use of the shell is fully protected from dust or dirt.
By the use of the various multiplying devices heretofore used the appearance of the bicycle was greatly damaged, they were liable to become useless from dust and dirt, and the useof oil necessary for their operation rendered the machine dirty. The appearance of a bicycle provided with my improved mechanism is in no way changed, save thatby the connection of the peripheries of the hub flanges the hub in my improvement is seen to be somewhat larger than in ordinary bicycles.
By the use of the shell in my improvement all dirt and dust is excluded from the working parts and the two. heads are firmly held to gether.
The plate A is readily detachable and permits ready access to the mechanism for the purpose of cleaning and oiling or for repairs.
The outside bearing shown as attached to the fork K in Fig. 2 is merely for the purpose of showing some means of attachment of the end of the driving-shaft, and I do not wish to be understood as claiming either its construe tion or operation, neither of these being of the gist of my invention;
Having thus described my invention, what I claim as new, and desire to secure by Letters Patent, is-
1. The collar L, rigidly secured to the axle, and having projecting therefrom cross-heads M, carrying gears N,in combination with gearwheel 0, secured to the stationary collar G, gear-wheel O, secured to the head 13 O, hub A, collar F, and means for rotating the axle, substantially as described.
2. In the hub of a bicycle, the combination of the tight collars Q, having grooves R, the loose collars T, and balls S, with the ring-nuts U, threaded externally and arranged around the tight collar, substantially as shown.
3. In abicycle-hub, the nuts V, in combination with the collars F G and the balls S, substantially as shown, and for the purpose set forth.
4. The checkblock Y, adapted. to firmly hold the ring-nuts U V, havingupon its inwiLLmu F. HEALY.
\Vitnesses:
W. J. I-IAVILAND, S. S. WiLLIAMsoN.
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20210293308A1 (en) * 2019-10-30 2021-09-23 Gabrael T. LEVINE Sunless planetary gear and method for use

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20210293308A1 (en) * 2019-10-30 2021-09-23 Gabrael T. LEVINE Sunless planetary gear and method for use
US11639746B2 (en) * 2019-10-30 2023-05-02 Gabrael T. LEVINE Sunless planetary gear and method for use

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