US751564A - Variable-speed mechanism - Google Patents
Variable-speed mechanism Download PDFInfo
- Publication number
- US751564A US751564A US751564DA US751564A US 751564 A US751564 A US 751564A US 751564D A US751564D A US 751564DA US 751564 A US751564 A US 751564A
- Authority
- US
- United States
- Prior art keywords
- rollers
- disk
- shaft
- driving
- pair
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
- 210000003414 Extremities Anatomy 0.000 description 18
- 230000001502 supplementation Effects 0.000 description 10
- 238000010276 construction Methods 0.000 description 4
- 230000000694 effects Effects 0.000 description 4
- 210000003746 Feathers Anatomy 0.000 description 2
- 239000010985 leather Substances 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 230000000149 penetrating Effects 0.000 description 2
- 230000002093 peripheral Effects 0.000 description 2
Images
Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16H—GEARING
- F16H37/00—Combinations of mechanical gearings, not provided for in groups F16H1/00 - F16H35/00
- F16H37/02—Combinations of mechanical gearings, not provided for in groups F16H1/00 - F16H35/00 comprising essentially only toothed or friction gearings
- F16H37/06—Combinations of mechanical gearings, not provided for in groups F16H1/00 - F16H35/00 comprising essentially only toothed or friction gearings with a plurality of driving or driven shafts; with arrangements for dividing torque between two or more intermediate shafts
- F16H37/08—Combinations of mechanical gearings, not provided for in groups F16H1/00 - F16H35/00 comprising essentially only toothed or friction gearings with a plurality of driving or driven shafts; with arrangements for dividing torque between two or more intermediate shafts with differential gearing
- F16H37/0833—Combinations of mechanical gearings, not provided for in groups F16H1/00 - F16H35/00 comprising essentially only toothed or friction gearings with a plurality of driving or driven shafts; with arrangements for dividing torque between two or more intermediate shafts with differential gearing with arrangements for dividing torque between two or more intermediate shafts, i.e. with two or more internal power paths
- F16H37/084—Combinations of mechanical gearings, not provided for in groups F16H1/00 - F16H35/00 comprising essentially only toothed or friction gearings with a plurality of driving or driven shafts; with arrangements for dividing torque between two or more intermediate shafts with differential gearing with arrangements for dividing torque between two or more intermediate shafts, i.e. with two or more internal power paths at least one power path being a continuously variable transmission, i.e. CVT
- F16H37/0853—CVT using friction between rotary members having a first member of uniform effective diameter cooperating with different parts of a second member
Definitions
- My invention relates to variable-speed mechanisms wherein power is transmitted from the driving member to the driven member by friction.
- the object of my invention is to provide a gear in which the power-transmitting factors above enumerated shall be large compared to the size of the mechanism. It is also proposed a mechanism in which the power-transmission shall remain substantially constant for all speeds of the driving member.
- Another object of the invention is to provide means whereby the speed may be easily and quickly varied or reversed, while the driving-disk maintains a constant speed in the'same direction, and finally the invention contemplates the construction of a mechanism which shall be compact and composed of few parts simply constructed.
- Figures 1 and 2 are plan and side views, respectively, of the complete mechanism.
- Fig. 3 is an end view thereof looking in the direction of the arrow, Fig. 2.
- Fig. et is similar to Fig. 3, but is in section, taken on the line A 4, Fig. 2.
- Fig. 5 is a plan view drawn to an increased scale and taken chiefiy in section on the line 4 Lf, Fig. 9..
- Fig. 6 is a detail view chiefly in horizontal central section through the axis of the rear friction-spindles.
- (Z represents a driving-shaft journaled in a fixed bearing
- a shoulder a' is formed upon said shaft to abut against said bearing to limit the end play of said shaft therein.
- the driving-disk c At the extremity of said driving-shaft is rigidly fixed the driving-disk c, which is desirably provided upon its front and rear surfaces with the facings c c', of leather or other suitable material, for driving the friction-rollers (Z, (1, f, and g.
- the rollers (Z and e are formed upon the hubs (Z and e', respectively, and there are also formed on said hubs the bevel gear-wheels (Z2 and e2, respectively.
- /L represents the shaft to be driven, and it has a fixed axis extending' at right angles to and located substantially in the same-plane as the axis of the driving-shaft (Z.
- the hubs (Z' and (1 are each loosely mounted on said shaft and are preventedfrom sliding thereon by means of the hubs e', located between them, and by means of the yoke-,arms
- gears (Z2 and e2 are loosely mounted, so as to revolve upon said studs f and intermesh simultaneously with the gears (Z2 @2.
- the diameter of.A the gears (Z2 and (12 are equal, and the diameter of the gears a are equal, and by preference all of the said gears are miter-gears.
- the gears (Z2, (f2, and a thus form a differential mechanism, and it follows that when gears (Z2 and e2 rotate at the same speed in opposite directions the gears a will rotate about their axes on the studs 3; but said studs will have no rotary motion about the shaft Z( as an axis. IVhen, however, the gears (Z2 and e2 rotate at different speeds, the gears a and studs 3 will be caused to rotate about shaft Zr as an axis,
- the shifting of the friction-rollers Cl and e and connected parts is accomplished by means of the carriage m, .which has bearings m m encircling the shaft /L at the outer side of the gears in.
- the carriage-guide 0 extends parallel to the shaft L, so that said carriage is guided partly by said guide 0 and partly by the shaft itself.
- Said shaft is j ournaled in the fixed bearings o and p p in such manner as to be laterally shiftable therein.
- said bearings o' and p are rigidly connected to said carriage-guide 0.
- the transmitted energy is imparted by shaft tto the band-wheel g, the hub q whereof is confined between said bearings p, and thereby prevented from moving laterally.
- a spline or feather g2 is seated partly in the shaft L and partly in said hub q.
- the parts ofthe mechanism thus far described are operative in themselves to transmit motion from the driving-shaft a to the driven shaft L and obtain both variation in speed and change of direction of said shaft /L without change of speed or direction of the driving-shaft a; but by employing the additional parts hereinafter described a greater area'of friction-surfaces is rendered readily available.
- the carriage m has two standards r r formed thereon, and these support the pivot-blocks s.
- the preferred construction is shown in Fig. 3, s representing a pivot-pin fixed to the block s and rotatably held in the socket r in the standard 7'.
- the arms s2 are formed on said pivot-blocks so as to extend toward the shaft L.
- the brackets t are formed on the carriage m near the bearings m thereon and extend toward said pivot-blocks s. Theextremities of said brackets t are threaded to receive there- A Thus the direction of the motion of studs 3 will correspond to the dileasing-screws u.
- the spindles s3 Projecting inwardly from the blocks s are the spindles s3, whereon the gears o and friction-rollers fand g are loosely mounted. Said gears and friction-rollers are secured to and preferably form an integral part of the hubs o', so as to rotate together. Said gears o and their friction-rollers are held in position on said spindles s3 by means of the nuts s4. The parts are so arranged that under normal conditions the gears o will mesh with the gears and the rollers f and g will make frictional contact with the rear surface ,of the drivingdisk c.
- the yoke-bars w w are loosely mounted on the hubs o adjacent to the friction-rollers f and g.
- Said tension-springs have threaded extremities penetrating the apertured extremities of said yoke-bars y' and w and carry outside of said yoke-bars the nuts whereby the tension of said springs may be adjusted.
- the length of the bars j' and w is sufficient to permit the springs .fr to clear the driving-disk c.
- There is a slight amount of end play of the shaft a in the bearing so that under normal conditions there will be a self-adjustment of said disk, with the result that the friction-rollers on opposite sides of the disk will be held in contact therewith un-V der equal pressures.
- the slight end play of shaft a in its bearing is also useful, for the reason that when the friction-rollers f and g are withdrawn from contact with'the driving-disk the pressure between the said driving-disk and the disks (Z and e will be reduced suiiiciently IOO IIO
- the driving-disk is supposed to rotate in the same direction and at the same speed at all times.
- rollers Z and c are equidistant from the axis of shaft a, there will be no rotation imparted to the shaft L. Then the roller Z is at a greater distance from the axis of shaft a, said shaft /ly will rotate in one direction, and when the roller e is at a greater distance from the axis of shaft a said shaft 7i will rotate in the opposite direction, and the speed of rotation of said shaft 71, will increase as the distance of the farthest friction-roller from the axis of the driving-shaft increases.
- rEhe carriage m and parts mounted thereon are then shifted laterally until the rollers (l, e, f, and g are brought to such distances from shaft t as to obtain the speed and direction desired for shaft t.
- rl ⁇ he bar vu2 is then thrown back to its normal position, with the result that the screws 'It are retracted from the arms s2 and the springs ai are again permitted to hold the friction-rollers in close contact with disk c.
- This mechanism may be employed for a variety of uses; butit is particularly well adapted for use in automobiles,where it is desirable to transmit high driving powers, but where the available space is restricted.
- the speed may be controlled from t-he single bar ai, the rotary motion or swinging motion of the bar causing the driven shaft to stop and the shifting motion of said bar obtaining the desired direction or speed of rotation.
- adriving-disk a pair of frictionrollers adapted to contact one surface of said disk on opposite sides of the axis thereof; and a second pair of friction-rollers adapted to contact the other surface of said disk on opposite ⁇ sides of the axis thereof; connections between the rollers which lie upon the same side of the disk-axis whereby said rollers supplement each other in their power transmitting effect; a driven member; and differential gear connections between said driven member and one of said pairs of rollers.
- a variable-speed mechanism the combination of a driving-disk; a pair of frictionrollers adapted to contact one surface of said disk on opposite sides of the axis thereof; and a second pair of friction-rollers adapted to contact the other surface of said disk on opposite sides of the axis thereof, connections between the rollers which lie upon the same side of the disk-axis whereby said rollers supplement each other in their power transmitting effect; a driven member; differential gear connections between said driven member and one of said pairs of rollers and means for shifting all of said rollers simultaneously along the surfaces of said disk to thereby vary the speed of said driven member.
- a variable-speed mechanism the combination of a driving-disk; two sets of frictionrollers, the rollers of each set being located in position to contact said disk on the same side of the disk-axis but on opposite surfaces of said disk, and the rollers of each set being geared together for supplementing each other; a driven member; a differential mechanism connecting said rollers to said driven member for driving the latter; and means for moving said rollers toward and from said disk.
- a variable-speed mechanism the combination of a driving-disk; two sets of frictionrollers normally held in contact with said disk, the rollers of each set being located in position to contact said disk on the same side of the disk-axis, but on opposite surfaces of said disk, and the rollers of each set being geared together to supplement each other; a driven ⁇ member; a differential mechanism connecting said roller to said driven member for driving the latter; and means for-releasing said rollers from said disk.
- a variable-speed mechanism the combination of a driving-disk; a shiftable carriage; a pair of friction-rollers mounted in said carriage in position to contact said disk on the same surface thereof on opposite sides of the disk-axis; a driven shaft; a differential mechanism connecting said rollers to said shaft for driving ⁇ the same; a second pair of frictionrollers mounted in said carriage and adapted to contact the driving-disk on the remaining surface thereof and g'ear connections between said first pair and second pair of friction-rollers, whereby said second pair of rollers supplements the action of said first pair of rollers,
- a variable-speed mechanism the combination of a driving-disk; a shif'table carriage; apair of friction-rollers mounted in said carriage in position to contact said disk on the same surface thereof on opposite sides of the disk-axis; a driven shaft; a differential mechanism connecting said rollers to said shaft for driving' the same; a second pair of frictionrollers mounted in said carriage and adapted to contact the driving-disk on the remaining surface thereof for supplementing the action of the first pair of rollers, said second pair of rollers being' pivotally mounted to swing toward and from said driving-disk; gear connections between said first and second pairs of rollers; and means for swinging said second pair of rollers toward and from said disk.
- a driving-disk a shiftable carriage; a pair of friction-rollers mounted in said carriage in position to contact said disk on the same surface thereof on opposite sides of the disk-axis; a driven shaft; a differentialmechanism connecting said rollers to said shaft for driving the sameya second pair of frictionrollers mounted in said carriage and adapted to contact the driving-disk on the remaining' surface thereof for supplementing' the action of the first pair of rollers; said second pair of rollers being pivotally mounted to swing toward and from said driving-disk; gear con ⁇ nections between said first and second pairs of rollers; means for swinging said second pair of rollers toward and from said disk; a springinfluenced device for holding said second pair of rollers in frictional contact with the disk; and means for swinging said rollers away from said disk to thereby release the same.
- a variable-speed mechanism the combination of a driving-disk; a shiftable carriage; a pair of friction-rollers mounted in said carriage in position to contact said disk on the same surface thereof on opposite sides of the disk-axis; a driven shaft; a differential mechanism connecting said rollers to said shaft for driving the same; a second pair of frictionrollers mounted in said carriage and adapted to contact the driving-disk on the remaining surface thereof for supplementing the action of the first pair of rollers; said second pair of rollers being pivotally mounted to swing toward and from said driving-disk; gear connections between said first and second pairs of rollers; means for swinging said second pair of rollers toward and from said disk; a screw device for holding the second pair of rollers in frictional contact with the disk and means for swinging said rollers away from said disk to thereby release the same.
- a variable-speed mechanism the combination of a driving-disk; a shiftable carriage; a pair of friction-rollers mounted in said carriage in position to contact said disk on the same surface thereof on opposite sides of the disk-axis; a driven shaft; a differential mech- V anism connecting said rollers to said shaft for driving the same; a second pair of frictionrollers mounted in said carriage and adapted to contact the driving-disk on the remaining surface thereof for supplementing' the action of the first pair of rollers; said second pair of rollers being pivotally mounted to swing toward and from said driving-disk; gear connections between said first and second pairs of rollers; means for swinging said second pair of rollers toward and from said disk; a screw device for holding the second pair of rollers in frictional contact with the disk, means for swinging said rollers away from said disk to thereby release the same and a controlling-rod for operating said screw device.
Landscapes
- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Friction Gearing (AREA)
Description
No. 751,564. EATENTED EEB. 9, 1904. C. E. SERGENT.
VARIABLE SPEED MEGEANISM.
- APPLICATION FILED MAY 8, 1903.
F0 MODEL. 2 SHEETS-SHEET 1.
` IMI II III Immmmr I i mmmm-A CGIMIIIIIIH@ I II III- III E N@Il I 4 PATENTED FEB. 9 1904.
' C. E. SARGENT. VARIABLBSPEBD MEGHANISM.
APPLICATION FILED MAY 8, 1903.
2 SHEETS-SHEET 2.
N0 MODEL` Patented February 9, 1904.
PATENT OEETCE.
CHARLES E. SARGENT, OF CHICAGO, ILLINOIS.
VARlABLvE-SPEED MECHANISNI.
SPECIFICATION forming part of Letters Patent No. A751,564, dated February 9, 1904.
Application filed May 8, 1903. Serial No. 156,203. (No model.)
To ((ZZ wZwnt it Wawy concern:
Be it known that I, CHARLES E. SARGENT, a citizen of the United States, residing in the city of Chicago, county of Cook, and State of Illinois, have invented a new and useful Improvement in `\Iariable-Speed Mechanisms, of which the following is a specification.
My invention relates to variable-speed mechanisms wherein power is transmitted from the driving member to the driven member by friction.
It is well understood in connection with friction-gears that the energy which can be transmitted in any given period of time depends on the peripheral speed of the driven frictionroller at the point of contact with the drivingdisk, thc amount of surface in contact, and the pressure under which the driven surfaces are held in contact.
The object of my invention is to provide a gear in which the power-transmitting factors above enumerated shall be large compared to the size of the mechanism. It is also proposed a mechanism in which the power-transmission shall remain substantially constant for all speeds of the driving member.
Another object of the invention is to provide means whereby the speed may be easily and quickly varied or reversed, while the driving-disk maintains a constant speed in the'same direction, and finally the invention contemplates the construction of a mechanism which shall be compact and composed of few parts simply constructed.
I attain these objects bythe mechanisnr illustrated in the accompanying drawings, in which Figures 1 and 2 are plan and side views, respectively, of the complete mechanism. Fig. 3 is an end view thereof looking in the direction of the arrow, Fig. 2. Fig. et is similar to Fig. 3, but is in section, taken on the line A 4, Fig. 2. Fig. 5 is a plan view drawn to an increased scale and taken chiefiy in section on the line 4 Lf, Fig. 9.. Fig. 6 is a detail view chiefly in horizontal central section through the axis of the rear friction-spindles.
Similar letters refer to similar parts throughout the several views.
Referring to the drawings, (Z represents a driving-shaft journaled in a fixed bearing A shoulder a' is formed upon said shaft to abut against said bearing to limit the end play of said shaft therein. At the extremity of said driving-shaft is rigidly fixed the driving-disk c, which is desirably provided upon its front and rear surfaces with the facings c c', of leather or other suitable material, for driving the friction-rollers (Z, (1, f, and g. The rollers (Z and e are formed upon the hubs (Z and e', respectively, and there are also formed on said hubs the bevel gear-wheels (Z2 and e2, respectively.
/L represents the shaft to be driven, and it has a fixed axis extending' at right angles to and located substantially in the same-plane as the axis of the driving-shaft (Z.
The hubs (Z' and (1 are each loosely mounted on said shaft and are preventedfrom sliding thereon by means of the hubs e', located between them, and by means of the yoke-,arms
jj, loosely mounted on said shaft at the outer extremities of said hubs (Z and e. Said yokearms are in turn laterally confined by means of the spacing-rollers j y", located between hubs (Z and e and the gears Zt ZJ, which latter are keyed to said shaft ZL.
On the hub 2'., which is secured to shaft ZL by means of the key i', are formed the bosses 2 Z2, which receive and Vsecurely hold the threaded inner extremity of the studs Said studs are arranged at right angles to the axis of.
shaft Zr and form axles for the bevel-gears a a. Said gears are loosely mounted, so as to revolve upon said studs f and intermesh simultaneously with the gears (Z2 @2. The diameter of.A the gears (Z2 and (12 are equal, and the diameter of the gears a are equal, and by preference all of the said gears are miter-gears. The gears (Z2, (f2, and a thus form a differential mechanism, and it follows that when gears (Z2 and e2 rotate at the same speed in opposite directions the gears a will rotate about their axes on the studs 3; but said studs will have no rotary motion about the shaft Z( as an axis. IVhen, however, the gears (Z2 and e2 rotate at different speeds, the gears a and studs 3 will be caused to rotate about shaft Zr as an axis,
vthe axis of the driving-shaft a the gears (Z2 and e2 will rotate at the same speed, and there will be no rotation of the studs 3; but when said rollers are at unequal distances from the axis of said driving-shaft the gears d2 and e2 will rotate at different speeds, and there will be imparted to said studs a rotary motion about the shaft b.
rection of rotation of such one of the rollers d or e as is temporarily located at the greater distance from the center of said driving-shaft a. It is evident, therefore, that the speed and direction of rotation of studs '113 about the shaft L may be controlled by shifting said friction-rollers along the shaft L.
The shifting of the friction-rollers Cl and e and connected parts is accomplished by means of the carriage m, .which has bearings m m encircling the shaft /L at the outer side of the gears in. The carriage-guide 0 extends parallel to the shaft L, so that said carriage is guided partly by said guide 0 and partly by the shaft itself. Said shaft is j ournaled in the fixed bearings o and p p in such manner as to be laterally shiftable therein. By preference said bearings o' and p are rigidly connected to said carriage-guide 0.
In` the present inst-ance the transmitted energy is imparted by shaft tto the band-wheel g, the hub q whereof is confined between said bearings p, and thereby prevented from moving laterally. In order that said band-wheel may not prevent the lateral shifting of the shaft L, a spline or feather g2 is seated partly in the shaft L and partly in said hub q.
The parts ofthe mechanism thus far described are operative in themselves to transmit motion from the driving-shaft a to the driven shaft L and obtain both variation in speed and change of direction of said shaft /L without change of speed or direction of the driving-shaft a; but by employing the additional parts hereinafter described a greater area'of friction-surfaces is rendered readily available.
The carriage m has two standards r r formed thereon, and these support the pivot-blocks s. The preferred construction is shown in Fig. 3, s representing a pivot-pin fixed to the block s and rotatably held in the socket r in the standard 7'. The arms s2 are formed on said pivot-blocks so as to extend toward the shaft L. The brackets t are formed on the carriage m near the bearings m thereon and extend toward said pivot-blocks s. Theextremities of said brackets t are threaded to receive there- A Thus the direction of the motion of studs 3 will correspond to the dileasing-screws u. The inner extremities of said screws bear against the adjacent extremities of the arms s2 of the pivot-blocks, and the parts are so arranged that when said screws are rotated in the direction toward said arms the pivot-blocks s will be rotated about the pins s as an axis. Said screws are rotated by means of the arms u', which are rigidly secured thereto. Said arms u are parallel and are connected at their extremities by means of the controlling-bar u2. The screws u have a coarse thread, so that a slight rotation will produce a comparatively large movement of the screws transversely to the brackets Yz.. In the arrangement shown one of said screws has a left-hand thread and the other a right-hand thread, so that when the controlling-bar u2 is rotated the pivot-blocks s will rotate in opposite directions.
Projecting inwardly from the blocks s are the spindles s3, whereon the gears o and friction-rollers fand g are loosely mounted. Said gears and friction-rollers are secured to and preferably form an integral part of the hubs o', so as to rotate together. Said gears o and their friction-rollers are held in position on said spindles s3 by means of the nuts s4. The parts are so arranged that under normal conditions the gears o will mesh with the gears and the rollers f and g will make frictional contact with the rear surface ,of the drivingdisk c. Inasmuch as the gears e and it' intermesh, the power received by the rollers f and g will be transmitted through said screws to the shaft h to rotate the same. Thus the gears f and g practically double the tractive force of the mechanismwthat is to say, the amount of power which can be transmitted from the 'driving-shaft to the driven shaft.
In order that the friction-rollers f and g may under normal conditions make close contact, the yoke-bars w w are loosely mounted on the hubs o adjacent to the friction-rollers f and g. Said yoke-bars w and also the yoke-bars j, above mentioned, extend vertically and are joined at their extremity by means of the tension-springs fr. Said tension-springs have threaded extremities penetrating the apertured extremities of said yoke-bars y' and w and carry outside of said yoke-bars the nuts whereby the tension of said springs may be adjusted. The length of the bars j' and w is sufficient to permit the springs .fr to clear the driving-disk c. There is a slight amount of end play of the shaft a in the bearing so that under normal conditions there will be a self-adjustment of said disk, with the result that the friction-rollers on opposite sides of the disk will be held in contact therewith un-V der equal pressures. The slight end play of shaft a in its bearing is also useful, for the reason that when the friction-rollers f and g are withdrawn from contact with'the driving-disk the pressure between the said driving-disk and the disks (Z and e will be reduced suiiiciently IOO IIO
CIJ
to permit said rollers (Z and e to be shifted along the face of said driving-disk.
In operation the driving-disk is supposed to rotate in the same direction and at the same speed at all times.
lVhen the rollers Z and c are equidistant from the axis of shaft a, there will be no rotation imparted to the shaft L. Then the roller Z is at a greater distance from the axis of shaft a, said shaft /ly will rotate in one direction, and when the roller e is at a greater distance from the axis of shaft a said shaft 7i will rotate in the opposite direction, and the speed of rotation of said shaft 71, will increase as the distance of the farthest friction-roller from the axis of the driving-shaft increases.
Under normal conditions the tension-springs f will hold the rollers d, e, f, and g in close' contact with the driving-disk c, any desired pressure being obtained by adjusting the tension of said springs by means of the adjustingnuts ai.
Wvhen it is desired to change the speed yof shaft /1 or vary its direction of rotation, the rollers j and y are forced away from the driving-disk c by rotating the controller-rod if in the proper direction to force the screws a toward the arms .s2 on the pivot-blocks s. Only a slight motion of said pivot-blocks is necessary to withdraw the rollers f and g, this motion being insuficient to cause the gears e to be disengaged from the gears Then the rollers j' and g have thus been withdrawn and the driving-disk c released, said driving-disk will retreat slightly from the rollers Z and e. rEhe carriage m and parts mounted thereon are then shifted laterally until the rollers (l, e, f, and g are brought to such distances from shaft t as to obtain the speed and direction desired for shaft t. rl`he bar vu2 is then thrown back to its normal position, with the result that the screws 'It are retracted from the arms s2 and the springs ai are again permitted to hold the friction-rollers in close contact with disk c.
This mechanism may be employed for a variety of uses; butit is particularly well adapted for use in automobiles,where it is desirable to transmit high driving powers, but where the available space is restricted. In this mechanism the speed may be controlled from t-he single bar ai, the rotary motion or swinging motion of the bar causing the driven shaft to stop and the shifting motion of said bar obtaining the desired direction or speed of rotation.
Another use for which this mechanism may be employed to advantage is in lamp-controllers for photographic-printing apparatus, such as that shown in a companion application for Letters Patent filed by me on even date herewith.
I do not wish to be understood as limiting myself to the particular design of the mechanism as herein shown, for this may be greatly i varied without departing from the spirit of my invention.
That I claim as new, and desire to secure by Letters Patent, is-
l. In a variable-speed mechanism, the combination of adriving-disk; a pair of frictionrollers adapted to contact one surface of said disk on opposite sides of the axis thereof; and a second pair of friction-rollers adapted to contact the other surface of said disk on opposite` sides of the axis thereof; connections between the rollers which lie upon the same side of the disk-axis whereby said rollers supplement each other in their power transmitting effect; a driven member; and differential gear connections between said driven member and one of said pairs of rollers.
2. In a variable-speed mechanism, ,the combination of a driving-disk; a pair of frictionrollers adapted to contact one surface of said disk on opposite sides of the axis thereof; and a second pair of friction-rollers adapted to contact the other surface of said disk on opposite sides of the axis thereof, connections between the rollers which lie upon the same side of the disk-axis whereby said rollers supplement each other in their power transmitting effect; a driven member; differential gear connections between said driven member and one of said pairs of rollers and means for shifting all of said rollers simultaneously along the surfaces of said disk to thereby vary the speed of said driven member.A
3. In a variable-speed mechanism, the combination of a driving-disk; two sets of frictionrollers, the rollers of each set being located in position to contact said disk on the same side of the disk-axis but on opposite surfaces of said disk, and the rollers of each set being geared together for supplementing each other; a driven member; a differential mechanism connecting said rollers to said driven member for driving the latter; and means for moving said rollers toward and from said disk.
4. In a variable-speed mechanism, the combination of a driving-disk; two sets of frictionrollers normally held in contact with said disk, the rollers of each set being located in position to contact said disk on the same side of the disk-axis, but on opposite surfaces of said disk, and the rollers of each set being geared together to supplement each other; a driven` member; a differential mechanism connecting said roller to said driven member for driving the latter; and means for-releasing said rollers from said disk.
5. In avariable-speed mechanism, the combination of a driving-disk; twosets of frictionrollers normally held in contact with said disk, the rollers of each set being located in position to contact said disk on the same side of the `disk-axis, but on opposite surfaces of said disk,
and the rollers of each set being geared togetherto supplement each other; a driven member; a differential mechanism connecting said roller to said driven member for driving the latter; means for releasing said rollers IOO IIO
from said disk, and means for shifting all of said rollers simultaneously along the surface of said disk to thereby vary the speed of said driven member.
6. In a variable-speed mechanism, the combination of a driving-disk; a shiftable carriage; a pair of friction-rollers mounted in said carriage in position to contact said disk on the same surface thereof on opposite sides of the disk-axis; a driven shaft; a differential mechanism connecting said rollers to said shaft for driving` the same; a second pair of frictionrollers mounted in said carriage and adapted to contact the driving-disk on the remaining surface thereof and g'ear connections between said first pair and second pair of friction-rollers, whereby said second pair of rollers supplements the action of said first pair of rollers,
7. In a variable-speed mechanism, the combination of a driving-disk; a shif'table carriage; apair of friction-rollers mounted in said carriage in position to contact said disk on the same surface thereof on opposite sides of the disk-axis; a driven shaft; a differential mechanism connecting said rollers to said shaft for driving' the same; a second pair of frictionrollers mounted in said carriage and adapted to contact the driving-disk on the remaining surface thereof for supplementing the action of the first pair of rollers, said second pair of rollers being' pivotally mounted to swing toward and from said driving-disk; gear connections between said first and second pairs of rollers; and means for swinging said second pair of rollers toward and from said disk.
8. In a variable-speed mechanism, the combination of a driving-disk; a shiftable carriage; a pair of friction-rollers mounted in said carriage in position to contact said disk on the same surface thereof on opposite sides of the disk-axis; a driven shaft; a differentialmechanism connecting said rollers to said shaft for driving the sameya second pair of frictionrollers mounted in said carriage and adapted to contact the driving-disk on the remaining' surface thereof for supplementing' the action of the first pair of rollers; said second pair of rollers being pivotally mounted to swing toward and from said driving-disk; gear con` nections between said first and second pairs of rollers; means for swinging said second pair of rollers toward and from said disk; a springinfluenced device for holding said second pair of rollers in frictional contact with the disk; and means for swinging said rollers away from said disk to thereby release the same.
9. In a variable-speed mechanism, the combination of a driving-disk; a shiftable carriage; a pair of friction-rollers mounted in said carriage in position to contact said disk on the same surface thereof on opposite sides of the disk-axis; a driven shaft; a differential mechanism connecting said rollers to said shaft for driving the same; a second pair of frictionrollers mounted in said carriage and adapted to contact the driving-disk on the remaining surface thereof for supplementing the action of the first pair of rollers; said second pair of rollers being pivotally mounted to swing toward and from said driving-disk; gear connections between said first and second pairs of rollers; means for swinging said second pair of rollers toward and from said disk; a screw device for holding the second pair of rollers in frictional contact with the disk and means for swinging said rollers away from said disk to thereby release the same.
l0. In a variable-speed mechanism, the combination of a driving-disk; a shiftable carriage; a pair of friction-rollers mounted in said carriage in position to contact said disk on the same surface thereof on opposite sides of the disk-axis; a driven shaft; a differential mech- V anism connecting said rollers to said shaft for driving the same; a second pair of frictionrollers mounted in said carriage and adapted to contact the driving-disk on the remaining surface thereof for supplementing' the action of the first pair of rollers; said second pair of rollers being pivotally mounted to swing toward and from said driving-disk; gear connections between said first and second pairs of rollers; means for swinging said second pair of rollers toward and from said disk; a screw device for holding the second pair of rollers in frictional contact with the disk, means for swinging said rollers away from said disk to thereby release the same and a controlling-rod for operating said screw device.
CHARLES E. SARGENT. l
`ritnessesz JULIA M. BRISTOL, JENNIE I. MoDoNALD.
Publications (1)
Publication Number | Publication Date |
---|---|
US751564A true US751564A (en) | 1904-02-09 |
Family
ID=2820057
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US751564D Expired - Lifetime US751564A (en) | Variable-speed mechanism |
Country Status (1)
Country | Link |
---|---|
US (1) | US751564A (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2467739A (en) * | 1945-11-09 | 1949-04-19 | Cread Engineering And Res Comp | Variable-speed power transmission device |
US3426619A (en) * | 1966-11-08 | 1969-02-11 | Cam Technology Inc | Integrator |
US5044916A (en) * | 1990-03-01 | 1991-09-03 | Nabisco Brands, Inc. | Support assembly in a rotary press |
-
0
- US US751564D patent/US751564A/en not_active Expired - Lifetime
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2467739A (en) * | 1945-11-09 | 1949-04-19 | Cread Engineering And Res Comp | Variable-speed power transmission device |
US3426619A (en) * | 1966-11-08 | 1969-02-11 | Cam Technology Inc | Integrator |
US5044916A (en) * | 1990-03-01 | 1991-09-03 | Nabisco Brands, Inc. | Support assembly in a rotary press |
WO1991012955A1 (en) * | 1990-03-01 | 1991-09-05 | Nabisco, Inc. | A support assembly in a rotary press |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US2060884A (en) | Power transmission mechanism | |
US751564A (en) | Variable-speed mechanism | |
US760460A (en) | Variable-speed gear. | |
US813461A (en) | Change-speed gearing. | |
US812888A (en) | Speed-changing mechanism. | |
US1530967A (en) | Power-transmitting device | |
US740128A (en) | Power-transmission device. | |
US1024742A (en) | Power-transmission mechanism. | |
US1242618A (en) | Transmission. | |
US1415164A (en) | Power transmission | |
US1035155A (en) | Friction transmission mechanism. | |
US649020A (en) | Variable gearing. | |
US706664A (en) | Differential-speed power-transmitting mechanism. | |
US725223A (en) | Variable-speed gear. | |
US299082A (en) | Mechanical movement | |
US847457A (en) | Power-transmission device. | |
US162260A (en) | Assionob to | |
US717225A (en) | Transmission-gear. | |
US735094A (en) | Reversing-gear. | |
US1620859A (en) | Transmission gearing | |
US1155898A (en) | Variable-speed gearing. | |
US730066A (en) | Change and reversing gear. | |
US1372638A (en) | Variable-speed friction-gear | |
US860309A (en) | Transmission-gear. | |
US478959A (en) | Frederick w |