US1686916A - Mechanically-operated speed-controlling device - Google Patents
Mechanically-operated speed-controlling device Download PDFInfo
- Publication number
- US1686916A US1686916A US583897A US58389722A US1686916A US 1686916 A US1686916 A US 1686916A US 583897 A US583897 A US 583897A US 58389722 A US58389722 A US 58389722A US 1686916 A US1686916 A US 1686916A
- Authority
- US
- United States
- Prior art keywords
- speed
- drum
- cam
- work
- machine
- 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
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
- F16H9/00—Gearings for conveying rotary motion with variable gear ratio, or for reversing rotary motion, by endless flexible members
- F16H9/02—Gearings for conveying rotary motion with variable gear ratio, or for reversing rotary motion, by endless flexible members without members having orbital motion
- F16H9/04—Gearings for conveying rotary motion with variable gear ratio, or for reversing rotary motion, by endless flexible members without members having orbital motion using belts, V-belts, or ropes
- F16H9/12—Gearings for conveying rotary motion with variable gear ratio, or for reversing rotary motion, by endless flexible members without members having orbital motion using belts, V-belts, or ropes engaging a pulley built-up out of relatively axially-adjustable parts in which the belt engages the opposite flanges of the pulley directly without interposed belt-supporting members
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T74/00—Machine element or mechanism
- Y10T74/19—Gearing
- Y10T74/19555—Varying speed ratio
Definitions
- Eccentrically connected with the crank disk 19 are pitm'en20 and 21, the pit man 20being connected with the lever 3 through a sliding block 22 and a'link 23, While the pitman 21 isconnected with the lever 4 through a sliding blo'ck'24 and a link 25 and by arranging the pitmen 20 and 21eccentrical'ly of the axis of the crank disk 19, rotation of said crank disk willcause the levers 3 and4 to swing laterally and adjust the transmission disks 2.
- slidingblocks 22 and 241 are held in proper ahgnment with the levers 3 and 4 by slidably mounting said blocks upon a rod 26, the ends of which are secured to parts of the frame 1.'
- the cable 8 will pay out over the sheaves 9 and 1O relieve the pull of the cable against the drum 1.1, and in order to cause the drum to rotate incident to the release of the p ull there on by the cable 8, a weight 27 is suspended from the drum 11 through the medium of a cable 28, said cable and weight being so arranged that the drum will be given reverse the log 7 decreases, incident to converting the same into veneer, the cutter-head 6 will eradually move inwardly towards the axis of the log thereby directing a pull on the cable Sand gradually reversing the rotation of the drum 11.
- a machine comprising rotary Work driving means, speed'changing means therefor, an element engaging the periphery of the rotary work, and connections from said work to the speed changing means including a drum, a cable connected at one end to the drum and at the otherend to the work en gaging element, means for rotating the drum to wind the cable thereon, a cam operated with the drum, and a' lever connected at one end to the speedchanging means and having a part resting loosely on the cam whereby one of said parts may lag behind thejother to prevent unduly abrupt changes of speed, substantially as set forth.
- a variable speed transmission mechanism including a controlling element having a movement in one direction, a gradually retreating stop in the path ofsaid element to restrain its movement in that direction, and
- a variable speed drive for giving constop in the stant peripheral speed to Work comprising a belt and two conical disks adjustable to vary 18.
- a variable speed drive for giving con-' stant peripheral speed to Work comprising a belt and two conical disks adjustable to vary the relative axial spacing of the conical disks and the belt, a train of linkage moving-in response to changes in the radius of the Work to adjust said axial spacing, means to move said train in response to such changes,'and a compensation cam in said train shaped so as to enable equal increments of work radius variation to produce unequal increments in the adjustment of the axial spacing so as to finally result in equal increments of drive speed variation, substantially as set forth.
Landscapes
- Engineering & Computer Science (AREA)
- General Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Transmission Devices (AREA)
Description
. 1,686,916 0., E. LEWELLEN MECHANICALLY OPERATED SPEED CONTROLLING DEVICE Oct; 9, 1928.
Original Filed Aug. 23, 1922 FAG. I.
, J INVENTOR Y umcv E.LEWE LLEN BY W,
ATTORNEY Cal Patented Oct. 9, 192 8.
UNITED STATES PATENT OFFICE.
DARCYV E. 111warses, 0F COLUMBUS, I DIANA, Assreivon TO LriwELLEn MANU- racrunme COMPANY, or conmvnsus, INDIANA, A CORPORATION or INDIANA.
ME'cirANIcALLY-orERArnn 'sPEEn-(ioN'rRoLLING DEVICE.
Application filed August 23, 1922, Serial No. 583,'897; Renewed March 1,1923.
This invention relates to mechanically op erated speed controlling devices designedpri marily for use in connection with variable speed transmission mechanisms, and the prime feature of the invention is the provision of means in connection with a movable part of the machine which the variable speed transmission mechanism is driving for regulating the speed of the transmission mechanism as a variance occurs in the element being treated by the machine.
A further feature of the invention is in so constructing and arranging the parts of the speed regulating mechanism that they will be free to move in the event the transmission mechanism is idle without injury to the parts of the transmission mechanism. 1
A further feature of the invention is in so constructing the cam portion of the device and the members associated therewith that a greater degree of movement will be imparted to the controlling device. at one time than another. p
Other objects and advantages will be hereinafter more fully at forth and pointed out in the accompanying specification;
In the accompanying drawings,
Figure 1 is an elevation of, a variable speed transmission mechanism with the controlling means attached thereto, and a veneer cutting machine shown in miniature,
Figure 2 is a fragmentary top plan view of a portion of the transmission mechanism showing the controlling means mounted thereon, and k Figure 3 is a detail elevation of a different form of lever actuating mechanism.
Referring to the drawings, 1 indicates the frame of a variable speed transmission mechanism which in this instance is suspended from a ceiling, although the same may be mounted in any suitable manner, and co-operating with said frame are the usual form of disks 21Which are adapted to co-ope'rate with a belt (not shown) for changing the speed of the shaft driven thereby, levers 3and 4 being provided for shifting the disks 2.
In the present instance the variable speed transmission mechanism is shown driving a veneer cutting machine 5, which "is shown in miniature in Figure 1, said machine having a movable cutter-head 6'which is gradually fed inwardly towards the axis of the section of log being out into veneer, the log being shown by dotted lines at 7. The movement of the cutter-head 6 is employed solely for regulating the speed of the transmission where by the speed of the driven shaft thereof will be gradually increased as the diameter of the logis reduced, incident to the movement of the cutter-head towards the axis of the log.
To' automatically control the mechanism,
cident to the movement of the cutter-head 5" to its position for initial engagement with the log, the cable will be wound'onto the drum I while the movement of the cutter-head inwardly towards the axis of the log will cause the drum to be rotated reversely. The rotation of the drum 11 in one direction is em ployed for shifting the levers 3 and 4 for adjusting the disks 2 by fixing a cam 13 to the drum, so that it will rotate therewith, said cam co-operating with atrunnion 14 carried by a beam 15, one end of the beam being pivoted to the frame 1, while the opposite end thereof is connected with a sector 16 through the medium of an adjustable pitman 17. The sector 16 is fixed to a shaft 18 which projects through the frameland'has a crank disk 19 fixed to the inner end thereof so that as the sector is swung in the arc of a circle the crank disk 19 will be rotated. i i
Eccentrically connected with the crank disk 19 are pitm'en20 and 21, the pit man 20being connected with the lever 3 through a sliding block 22 and a'link 23, While the pitman 21 isconnected with the lever 4 through a sliding blo'ck'24 and a link 25 and by arranging the pitmen 20 and 21eccentrical'ly of the axis of the crank disk 19, rotation of said crank disk willcause the levers 3 and4 to swing laterally and adjust the transmission disks 2. The
As the cutter-head'G is moved outwardly to position the same for engagement with the outer surface of the log at the beginning of the operation of cutting the log into veneer, the cable 8 will pay out over the sheaves 9 and 1O relieve the pull of the cable against the drum 1.1, and in order to cause the drum to rotate incident to the release of the p ull there on by the cable 8, a weight 27 is suspended from the drum 11 through the medium of a cable 28, said cable and weight being so arranged that the drum will be given reverse the log 7 decreases, incident to converting the same into veneer, the cutter-head 6 will eradually move inwardly towards the axis of the log thereby directing a pull on the cable Sand gradually reversing the rotation of the drum 11. This operation so positions the cam 13 that the beam 15 will be free to descend and to hold the trunnion 14: in constant contact with the edge face of the cam 13, a weight 29 connected to the sector 16 by a cable 30, and as the beam 15 desecndathe sector 16 will be s nmg downwardly in the arc of a circle thereby rotating the crank disk 19 and shifting the levers 3 and i so as to gradually increase the speed of the driven shaft of the transmission mechanism. Instead of employing the disk 19 andv pitmen 20 and 21 for shifting the levers 3 and 4, that form of device shown in Figure 3 of the drawings may be substituted. therefor, and in this structure the shaft 18 has a pinion 19 fixed thereto with which co-operatc rack bars 20" and 21 the outer ends thereof being connected with swivel blocks 92* and 244" respectively, and these are in turn pivoted to the levers 3 and l. The rack bars are held in engagement with the pinion 19 in any suitable manner as by means of guide'rollers 20 and 21'. This mechanism is operated in the same manner and flOlll lZhG SflIDG SOUICG (as the disk 19 and parts associated therewith.
Various means may be provided for operating the shifting mechanism, but it is preferable to use a cam, as shown, as a given movement of parts of the variable speed mechanism at one point gives a far greater degree of change in speed than will result from the same given movement at another point, and by properly shaping the cam this variable change of movement will be compensated for.
In addition to the above specified advantages, the cam and beam are so arranged. with respect to each other, as torender tbe same substantially fool proof in that when the transmission mechanism is idle, in which event it is impossible to shift the parts thereof, a pull. on the cable. 8 will merely result in moving the cam 13 away from the trunnion 1a, and in view of thelightness of the weight 29, the downward pull on the sector 16 will heavier than the weight 29, will rotate the drum 11 and through the cam 13 and trunnion 14 swing the end of the beam 15 upwards and rotate the sector 16, thereby moving theenols of the levers 3 and .4 towards each other and.
shifting the disks 2 for decreasing the speed of the driven shaft 31 of the transnnssion mechanism.
As the strip of veneer is cut the cutterhead 6 will gradually travel inwardly towards the axis of the log, such movement directing a pull against the cable Sand rotating the drum 11. so as to lift the weight 27, the cam 13 at the same time operating to swing the beam 15 downwardly, such action rotating the crank disk 19 through the "medium of the sector 16, gradually moving, the levers 3 and l .for gradually increasing the speed of the driven shaft 31, thereby increasing the speed of rotation of the log 7. i
This provides an entirely automatic speed controlling means for the varia le speed transmission mechanism, and while the device is shown. as used in connection with a veneer transmission mechanism for driving said machine, said transmission mechanism having ad ustable parts, of a rotating drum, a cam operable with said drum, a beam operated in one movement by said cam, means operable by the movement of said beam for shifting the adjustable partsfof said I transmission mechanism, a flexible element extending from said drum to said movable element of the ma- 1 chine for causing said druiin to rotatein one direction incident to the movement 'of said element, and means for operatlng said drum and beam operable means in reversemove ment.
2,. A machine comprising driving gearing including opposed tapered disks with a belt between them, speed changing means there for including an element controlled by the diameter of the work, connections from said" element to said disks for moving them toward and from each other, and lost motionconnections between parts offthe speed changeast a ing means for preventing damage due to undulyrapid movement of said element, sub-,
disks and a wedge-shaped belt between them, v
speed changing n'ieans for moving said disks toward and from each other, an element] adapted to engage the periphery of the rotating work, connections hem said element to the speed changing means, and means for providing lost motion in said connections to prevent unduly abrupt changes of speed, substantially as set forth. I I
4 A machine comprising rotary Work driving means, speed'changing means therefor, an element engaging the periphery of the rotary work, and connections from said work to the speed changing means including a drum, a cable connected at one end to the drum and at the otherend to the work en gaging element, means for rotating the drum to wind the cable thereon, a cam operated with the drum, and a' lever connected at one end to the speedchanging means and having a part resting loosely on the cam whereby one of said parts may lag behind thejother to prevent unduly abrupt changes of speed, substantially as set forth.
5. A machine comprising rotary work driving mean-s, speed changing means therefor, an element engaging the periphery ofthe rotary work, and connections from said work to the speed changing means including a drum, a cam operated by the drum, a lever resting loosely on the cam and connected to the speedchanging means for operating the same, a cable connected at one end to the drum and at the other end to the work engaging means, and automatic means for winding the cable on the drum whereby unduly rapid movement of the work engaging element in one direction slackens the cable without causing unduly rapid movement or the speed changing means, substantially as set forth.
6. The combination of a machine acting on work of progressively varying diameter, change-speed driving means for. the machine,
an element engaging the work, and connections between said element and elements of the speed changing means including a cam shaped to operate the speed changing mechanism to keep the work at a constant peripheral speed, substantially as set "forth,
7. The combination of a machine acting ment of the drum said cam being shaped to so control the change speed means as to 1111- 'forth. v '7 I H 10. The combination" witha' machine in 'part uniform peripheral speed to the work at all times, substantially as set forth.
8. A machine comprising a rotary work driving means, speed changing means there for including an expansible' pulley having disks movable toward and from each other, levers movable toward and from each other for adjusting said disks, links connected to said levers, arockshaft for operating said lin'ks, an'element adapted to engage the periphery of the work, and connections 'lroiii said element to said rockshait whereby the speed of the work driving means is controlled by the siZe of the Work, substantially as set forth. a a a 9. The combination with a machine having an element moving, progressively in one direction during an operation of the machine and a variable speed transmission for drivingsaidmachine, of means for automatically shifting partsiof the transmission mechanism for regulating the speed of the ma chine, and a cable attached at opposite ends to a part'of the shifting mechanism and to said movable element of said machine respectively whereby the position of themovable element will determine the operation of the shifting mechanism, substantially as set forth.
11. A variable speed transmission mechanism including a controlling element having a movement in one direction, a gradually retreating stop in the path ofsaid element to restrain its movement in that direction, and
means tending to move said element'in said direction, said last-named means being proportioned to move said element at low speed only, substantially as set forth.
12. A variable speed transmission mecha nismincluding a controlling element, Workcontrolled means in the path of said element to check itsmovement in one direction, and means acting on said element with a force but little above the resistance of said element andthat of'the parts actuated thereby for moving it in said direction, substantially as set forth. v i
13. A variable speed transmission mechanism including a lever, a cam in the path of the lever, yieldable means for moving the lever in one dlrectlon, and automatic means for actuating the. cam to permit movement of the lever in said direction, substantially as set forth.
14. A variable speed transmission mechanism including a lever, a cam in the path of the lever, yieldable means proportioned to move the lever at low speed in one direction,
and automatic means for moving the cam to ulating the speed of the machine, and flexible actuating means connected With parts of the shifting mechanism and said movable element of said machine whereby the position of the movable element Will determine the operation of the shifting mechanism, substantially as set forth.
16. In a machine operating on work of progressively varying diameter, a changespeed mechanism, a controlling element for said mechanism, a backing-off path ofsaid controlling element, and means responsive to changes in the diameter of the work for determining the action of said stop, substantially as set forth.
17. A variable speed drive for giving constop in the stant peripheral speed to Work, the radius of which continually varies, comprising a belt and two conical disks adjustable to vary 18. A variable speed drive for giving con-' stant peripheral speed to Work, the radius of which continually varies, comprising a belt and two conical disks adjustable to vary the relative axial spacing of the conical disks and the belt, a train of linkage moving-in response to changes in the radius of the Work to adjust said axial spacing, means to move said train in response to such changes,'and a compensation cam in said train shaped so as to enable equal increments of work radius variation to produce unequal increments in the adjustment of the axial spacing so as to finally result in equal increments of drive speed variation, substantially as set forth. H
In witness whereof, I have hereunto set my hand at Indianapolis, Indiana, this 21st day of August, A. D. nineteen hundred and twenty-two.
DARCY E. LEWELLEN.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US583897A US1686916A (en) | 1922-08-23 | 1922-08-23 | Mechanically-operated speed-controlling device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US583897A US1686916A (en) | 1922-08-23 | 1922-08-23 | Mechanically-operated speed-controlling device |
Publications (1)
Publication Number | Publication Date |
---|---|
US1686916A true US1686916A (en) | 1928-10-09 |
Family
ID=24335053
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US583897A Expired - Lifetime US1686916A (en) | 1922-08-23 | 1922-08-23 | Mechanically-operated speed-controlling device |
Country Status (1)
Country | Link |
---|---|
US (1) | US1686916A (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2941133A (en) * | 1954-09-23 | 1960-06-14 | Reliance Electric & Eng Co | Automatic speed-varying control |
-
1922
- 1922-08-23 US US583897A patent/US1686916A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2941133A (en) * | 1954-09-23 | 1960-06-14 | Reliance Electric & Eng Co | Automatic speed-varying control |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US2395625A (en) | Variable-speed drive | |
US1686916A (en) | Mechanically-operated speed-controlling device | |
US3764050A (en) | Differential drive for tension rollers | |
US2753128A (en) | Differential control for beam let-off drive or the like | |
US2346047A (en) | Constant tension drive | |
US2348090A (en) | Constant tension drive | |
US2516821A (en) | Mechanism for driving shafts at equal or unequal speeds | |
US725723A (en) | Spring-coiling machine. | |
US2014954A (en) | Speed variator | |
US409261A (en) | Circular-saw mill | |
US2206246A (en) | Means for winding flexible materials onto spools, bobbins, or the like | |
US2123374A (en) | Apparatus for varying the stroke of pump rods and the like | |
US2085850A (en) | Gear speeder | |
US974308A (en) | Variable-speed power-transmission mechanism. | |
US844520A (en) | Rolling-mill. | |
US2852953A (en) | Automatically variable transmission | |
US744550A (en) | Speed-varying mechanism. | |
US3090576A (en) | Roll slitting and rewinding machines | |
US1532142A (en) | Weight-motor governor | |
US2622230A (en) | Switch control device for dynamically braked, electrically driven machines | |
US2389341A (en) | Speed control mechanism for cutoffs | |
US1952782A (en) | Automatic means controlling feed of wire to wire working machines | |
US1301199A (en) | Speed-changing device for bark-stripping machines. | |
US3385123A (en) | Drive mechanism for roll duplicator | |
US1123028A (en) | Self-feeder for threshing-machines. |