US907063A - Gearing. - Google Patents

Gearing. Download PDF

Info

Publication number
US907063A
US907063A US408879A US1908408879A US907063A US 907063 A US907063 A US 907063A US 408879 A US408879 A US 408879A US 1908408879 A US1908408879 A US 1908408879A US 907063 A US907063 A US 907063A
Authority
US
United States
Prior art keywords
frames
shafts
movable
pinion
pinions
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
Application number
US408879A
Inventor
Augustus Liese
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Priority claimed from US39352707A external-priority patent/US906904A/en
Application filed by Individual filed Critical Individual
Priority to US408879A priority Critical patent/US907063A/en
Application granted granted Critical
Publication of US907063A publication Critical patent/US907063A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • 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
    • F16H1/006Toothed gearings for conveying rotary motion the driving and driven axes being designed to assume variable positions relative to one another during operation
    • YGENERAL 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
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T74/00Machine element or mechanism
    • Y10T74/19Gearing
    • Y10T74/1955Parallel shafts, adjustable gear mesh

Definitions

  • This invention relates to gearing Which is capable of general use, but which is especially applicable to that class of machines in which a pair of shafts are mounted in such a way that the distance between them varies during the operation of the machine.
  • One application of the invention is to clothes wringers, and the invention is herein illustrated as a plied in that way.
  • the principa objects of the invention are to provide a construction of gearing in which the multiplication of power can be secured in a simple and convenient manner, at the same time inclosing all the gearing so that it may not roject in a position where it can catch in t e clothing of the operator or the articles passing through the machine; also to provide means whereby one of the shafts or rolls thereon may move away from the other without interfering with the positive and constant transmission of power to both of them; to provide means for positively driv ing both shafts at a constant speed irrespective of their position; to provide an improved construction and location of bearings for the shafts; and generally to simplify and improve the construction of machines of this character.
  • he invention is illustrated herein as applied to a wringer comprising a frame 10 provided with a pair of guard plates 30 having flanges 31 on their front and rear edges extending inwardly. These plates are provided with perforations for receiving the spindle 32 of a roll 22 and with slots 33 for receiving the spindle 34 of an upper roll 35, to permit the upper roll to move vertically.
  • the flanges 31 extend inwardly in such position as to prevent articles passing through the wringer from being drawn toward the ends of the rolls and coming into the space between them and the sides of the frame.
  • the side plates 30 are also provided with larger slots 36 above the slots 33 for receiving the ends of the springs 40 for holding the uper roll chloride 43 for holding the uper roll chloride 43 for holding the uper roll chloride 43 for holding the uper roll chloride 43 for holding the uper roll chloride 43 for holding the uper roll chloride 43 for holding the uper roll chloride 43 for holding the uper roll chloride 43 for holding the uper roll chloride 43 for holding the uper roll chloride roll.
  • the ends 47 rest on blocks 48 which reciprocate in the end frames and the upper part of the spring bears on atop crossbar 45.
  • the spindle 32 is mounted to turn in antifriction bearings shown in the present instance as consisting or rollers 51 which are mounted in the casing 52.
  • This casing is provided with a cover plate 53 which in turn is covered by a plate 54 on one end of the machine.
  • the corresponding plate 53 is covered by a larger plate 55 which is preferably substantially clrcular in form, and is fixed to the end of the frame so as to be able to support the operating mechanism which will now be described.
  • the spindle 32 at this end of the machine extends through the plate 55 and has a pinion or gear thereon.
  • the plate 55 also has a slot 61 therein through which projects the spindle 34 at this side of the machine, which spindle is also provided with a pinion or gear 62. It, of course, being understood that the upper roll has vertical motion, it will be seen that this gear or pinion also will move vertically when the article to be wrung is especially thick or heavy.
  • Pivotally mounted on the spind e 34 are two airs of frames 64 each having a slight oscil ating motion.
  • Each of these frames has bearings in which are mounted gears 65.
  • the gear 65 may be made of such size as always to mesh with the pinion 62 whatever the position of the frames 64.
  • an outside plate 66 is mounted over the plate 55 so as to cover the mechanism thereon, this plate being held in position by screws 67 passing from the endiece of the frame through both plates, an having nuts thereon for fixin the outer plate in position.
  • This outer p ate has flanges 68 for engagement with the plate 55 to define and limit its position, and it is provided with a stud 70 on which is rotatably mounted an internal gear wheel 71.
  • the stud of course, is concentric with the roll 35 when in its lowest position.
  • the gear wheel is provided with a handle 72, and when rotated its teeth constantly mesh with the pinion 60 and also with both of the gears 65 mdependently of their position.
  • a spring 73 is mounted above the two frames 64 and formed into a bow-shape so as to yieldingly force them away from each other. It will be observed also that the end of the spring 40 projects through the slots 61 and 36, and that the frames 64 have upwardly extending projections 74 which engage the projecting end of the spring 40 so as to prevent the frames from rising above a certain oint when the rolls are operating on thick 0 0th.
  • these frames have outwardly extending pro'ections 75 at their lower ends which bear on lugs 76 on the inside of the frame 66, and on the outside of plate 55 so as to limit the motion in that direction. It will be seen, therefore, that the frames 64 while free to have a certain motion, are constrained to move within certain limits so that the pinions which they carry will always remain in mesh with the internal gear wheel, and that the rotation of the same independently of the position of the upper roll will be transmitted at all times to both of the rolls to rotate them constantly at the same s eed.

Description

A. LIESE.
GBARING.
APPLICATION FILED JAN. 2, 1908.
907,063. Patented Bea-15,1908.
I Wit/165565 ,10 2 60 9 Wye AUGUSTUS LIESE, OF SOUTH LANCASTER, MASSACHUSETTS.
GEARING.
Specification of Letters Patent.
Patented'Dec. 15, 1908.
Original application filed September 18, 1907, Serial No. 393,527. Divided and. this application filed January-2,
To all whom "it may concern:
Be it known that I, AUGUSTUS Linsn, a citizen of the United States, residing at South Lancaster, in the county of Worcester and State of Massachusetts, have invented a new and useful Gearing, of which the following is a specification.
This invention relates to gearing Which is capable of general use, but which is especially applicable to that class of machines in which a pair of shafts are mounted in such a way that the distance between them varies during the operation of the machine.
One application of the invention is to clothes wringers, and the invention is herein illustrated as a plied in that way.
The principa objects of the invention are to provide a construction of gearing in which the multiplication of power can be secured in a simple and convenient manner, at the same time inclosing all the gearing so that it may not roject in a position where it can catch in t e clothing of the operator or the articles passing through the machine; also to provide means whereby one of the shafts or rolls thereon may move away from the other without interfering with the positive and constant transmission of power to both of them; to provide means for positively driv ing both shafts at a constant speed irrespective of their position; to provide an improved construction and location of bearings for the shafts; and generally to simplify and improve the construction of machines of this character.
Further objects and advantages of the ina wringer showing one way in which the invention may be applied thereto, parts appearing in section. 1g. 2 is an end elevation of the same; and Fig. 3 is an elevation at the opposite end of the machine.
he invention is illustrated herein as applied to a wringer comprising a frame 10 provided with a pair of guard plates 30 having flanges 31 on their front and rear edges extending inwardly. These plates are provided with perforations for receiving the spindle 32 of a roll 22 and with slots 33 for receiving the spindle 34 of an upper roll 35, to permit the upper roll to move vertically.
Serial No. 408,879.
It will be seen that the flanges 31 extend inwardly in such position as to prevent articles passing through the wringer from being drawn toward the ends of the rolls and coming into the space between them and the sides of the frame.
The side plates 30 are also provided with larger slots 36 above the slots 33 for receiving the ends of the springs 40 for holding the uper roll vieldingly in position against the fbwer roll. The ends 47 rest on blocks 48 which reciprocate in the end frames and the upper part of the spring bears on atop crossbar 45.
It will be understood that the blocks rest on bushin s 50 carried b the spindle 34 and rise and fail with the r01 35, the springs operating to hold the roll down. The downward motion of the ends of the springs is limited by projections or shoulders 470 on the guards 30, so as to prevent excessive pressure on the lower roll.
The spindle 32 is mounted to turn in antifriction bearings shown in the present instance as consisting or rollers 51 which are mounted in the casing 52. This casing is provided with a cover plate 53 which in turn is covered by a plate 54 on one end of the machine. On the other end of the machine the corresponding plate 53 is covered by a larger plate 55 which is preferably substantially clrcular in form, and is fixed to the end of the frame so as to be able to support the operating mechanism which will now be described. The spindle 32 at this end of the machine extends through the plate 55 and has a pinion or gear thereon. The plate 55 also has a slot 61 therein through which projects the spindle 34 at this side of the machine, which spindle is also provided with a pinion or gear 62. It, of course, being understood that the upper roll has vertical motion, it will be seen that this gear or pinion also will move vertically when the article to be wrung is especially thick or heavy.
In order that the two pinions 60 and 62 may be driven constantly and uniformly inde endently of the position of the upper ro er; the following mechanism is rovid'e'd.
Pivotally mounted on the spind e 34 are two airs of frames 64 each having a slight oscil ating motion. Each of these frames has bearings in which are mounted gears 65. As these frames swing about the axis of the upper roll, it is obvious that the gear 65 may be made of such size as always to mesh with the pinion 62 whatever the position of the frames 64. In order to drive the gears an outside plate 66 is mounted over the plate 55 so as to cover the mechanism thereon, this plate being held in position by screws 67 passing from the endiece of the frame through both plates, an having nuts thereon for fixin the outer plate in position. This outer p ate has flanges 68 for engagement with the plate 55 to define and limit its position, and it is provided with a stud 70 on which is rotatably mounted an internal gear wheel 71. The stud, of course, is concentric with the roll 35 when in its lowest position. The gear wheel is provided with a handle 72, and when rotated its teeth constantly mesh with the pinion 60 and also with both of the gears 65 mdependently of their position.
The rise of the upper roll will raise the pivot on which the frames 64 swing. In order to provide for forcing the two gears outwardly to keep them in mesh with the teeth of the internal gear wheel, a spring 73 is mounted above the two frames 64 and formed into a bow-shape so as to yieldingly force them away from each other. It will be observed also that the end of the spring 40 projects through the slots 61 and 36, and that the frames 64 have upwardly extending projections 74 which engage the projecting end of the spring 40 so as to prevent the frames from rising above a certain oint when the rolls are operating on thick 0 0th. It will also be observed that these frames have outwardly extending pro'ections 75 at their lower ends which bear on lugs 76 on the inside of the frame 66, and on the outside of plate 55 so as to limit the motion in that direction. It will be seen, therefore, that the frames 64 while free to have a certain motion, are constrained to move within certain limits so that the pinions which they carry will always remain in mesh with the internal gear wheel, and that the rotation of the same independently of the position of the upper roll will be transmitted at all times to both of the rolls to rotate them constantly at the same s eed.
Whi e I have illustrated and described a preferred form of the invention, I am aware that many modifications may be made therein by any person skilled in the art without departing from the sco e thereof as expressed in the claims. Therefore, I do not wish to be limited to the particular form shown, but
What I do claim is 1. The combination with two spindles one being mounted in movable bearings, of pinions on said spindles, a gear adapted to mesh with one of said pinions, and means for driving the movable pinion from said gear independently of the other pinion.
2. The combination with two spindles one mounted in stationary bearings and the other in movable bearin s, of pinions con nected with the ends of said spindles, an internal gear journaled concentric with the movable inion when the latter is nearest to the ot er pinion, and means inside said internal gear for driving the movable pinion therefrom independently of the other pinion.
' 3. The combination with two shafts each having a spindle, one of said shafts being bodily movable toward and from the other, of pinions connected with said shafts, a gear meshing with one of said pinions, and a second gear meshing with the first named gear and with the movable pinion for driving the latter.
4. The combination with two shafts one being mounted to move toward and from the other, a pinion connected with each shaft, an internal gear meshing with one of said pinions, and a bodily movable gear constantly meshing with the movable pinion and with the internal gear.
5. The combination with two shafts, one of which is adapted to move, toward and from the other, of a pair of pinions one con nected with each of said shafts, an internal gear meshing with one of said pinions, a pair of frames mounted to swing, and a gear mounted on each of said frames and constantly meshing with the movable pinion and with the internal gear.
6. The combination with two shafts, one of which is adapted to move toward and from the other, of a pair of pinions one connected with each of said shafts, an internal gear meshing with one of said pinions, a pair of frames mounted to swing, a gear mounted on each of said frames and constantly meshing with the movable pinion and with the internal gear, and a spring for normally holding said frames in such position asto project the gears carried there y toward the teeth of the internal gear.
7. The combination with two shafts, one
of which is adapted to move toward and from the other, of a pair of pinionsone connected with each of said shafts, an internal gear meshing with one of said pinions, a
pair of frames mounted to swing, a gear mounted on each of said frames and constantly meshing with the movable pinion and with the internal gear, and stops for limiting the swinging motion of said frames.
8. The combination with a air of shafts one of which is bodily movable, of pinions connected with said shafts, a pair of frames mounted to swing about the axis of the movable one of said shafts, a gear mounted on each of said frames and constantly meshing with the movable pinion, each of'said frames having projections at its opposite sides, sto s for engaging said projections and limiting 't e swinging motion of said frames in both directions, and an internal gear meshing with the stationary pinion and with both of said movable gears.
9. The combination with a air of shafts, one of which is bodil movab le, of pinions connected with said s afts, a pair of swinging frames, a gear mounted on each of said frames and constantly meshing with the movable pinion, each of said frames having projections at its opposite sides, stops for engaging said projections and limiting the swinging motion of said frames in both directions, an internal gear meshing with the stationary pinion and with both of said movable gears, and a bowed spring connected with the upper ends of both of said frames and norma ly tending to swing them downwardly about their pivot to keep said gears in mesh with the internal gear.
10. The combination with two shafts, one of which is adapted to move toward and from the other, of a pair of pinions one connected with each of said shafts, an internal gear meshing with one of said pinions, a pair of frames mounted to swing, a gear mounted on each of said frames and constantly meshing with the movable pinion and with the internal gear, and a plate mounted over said pinion and movable gears, said plate having a spindle projecting therefrom constituting a bearing for said internal gear, and means for removably holding said plate in position.
11. The combination of a pair of shafts,
one of which is movable toward and from the other, of pinions connected with said shafts for rotating them, a pair of gears movable with the movable shafts and adapted to swing about the axis thereof, said gears meshing with the pinion on the movable shaft, means for operating said gears and pinions, means for limiting the swinging motion of said gears comprising a plate adapted to cover said swinging gears and pinions and having stops thereon adapted to limit the motion of the gears in one direction, and a spring adapted to force the movable shaft toward the stationary shaft and projecting into position to limit the motion of said gears in the opposite direction.
12. The combination with a pair'of shafts, one of which is bodily movable toward and from the other, of means for operating said shafts comprising a frame pivoted on the axis of the movable shaft and a gear on said frame, and a spring for forcing the movable shaft toward the stationary shaft, said spring ro'ectin in osition to en a e said frame P e and limit its swinging motion.
In testimony whereof I have hereunto set my hand, in the presence of two subscribing. witnesses.
AUGUSTUS LIESE.
Witnesses:
Louis W. SOUTHGATE, C. FORREST WESSON.
US408879A 1907-09-18 1908-01-02 Gearing. Expired - Lifetime US907063A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US408879A US907063A (en) 1907-09-18 1908-01-02 Gearing.

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US39352707A US906904A (en) 1907-09-18 1907-09-18 Wringer.
US408879A US907063A (en) 1907-09-18 1908-01-02 Gearing.

Publications (1)

Publication Number Publication Date
US907063A true US907063A (en) 1908-12-15

Family

ID=2975499

Family Applications (1)

Application Number Title Priority Date Filing Date
US408879A Expired - Lifetime US907063A (en) 1907-09-18 1908-01-02 Gearing.

Country Status (1)

Country Link
US (1) US907063A (en)

Similar Documents

Publication Publication Date Title
US907063A (en) Gearing.
US1200620A (en) Driving mechanism.
US1122223A (en) Drive-gearing for wringers.
US950725A (en) Driving mechanism for washing-machines.
US1152377A (en) Driving mechanism.
US174047A (en) Improvement in combined washing-machines and wringers
US635475A (en) Gearing for washing-machines.
US1493474A (en) Washing-machine gearing
US1052776A (en) Gearing.
US154897A (en) Improvement in clothes-wringers
US1145157A (en) Rack-and-pinion device.
US994314A (en) Wringer-gearing.
US261639A (en) Clothes-wringer
US864824A (en) Variable-speed gearing.
US42908A (en) Improved clothes-wringer
US459340A (en) Clothes-wringer
US1261009A (en) Driving mechanism for clothes-wringers.
US906904A (en) Wringer.
US1143299A (en) Gearing for clothes-wringers.
US1187263A (en) Frictional gearing.
US221193A (en) Improvement in stopping and reversing mechanisms for machinery
US1462939A (en) Wringer and motor support for washing machines
US1105225A (en) Stop mechanism for wringers.
US1009270A (en) Gearing.
US930271A (en) Alternating mechanical movement.