US997770A - Apparatus for spinning, doubling, and like operations. - Google Patents

Apparatus for spinning, doubling, and like operations. Download PDF

Info

Publication number
US997770A
US997770A US50234709A US1909502347A US997770A US 997770 A US997770 A US 997770A US 50234709 A US50234709 A US 50234709A US 1909502347 A US1909502347 A US 1909502347A US 997770 A US997770 A US 997770A
Authority
US
United States
Prior art keywords
units
twisting
doubling
spinning
lagging
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
US50234709A
Inventor
Sebastian Ziani De Ferranti
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
Application filed by Individual filed Critical Individual
Priority to US50234709A priority Critical patent/US997770A/en
Application granted granted Critical
Publication of US997770A publication Critical patent/US997770A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01HSPINNING OR TWISTING
    • D01H1/00Spinning or twisting machines in which the product is wound-up continuously
    • D01H1/04Spinning or twisting machines in which the product is wound-up continuously flyer type
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H54/00Winding, coiling, or depositing filamentary material
    • B65H54/02Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers
    • B65H54/28Traversing devices; Package-shaping arrangements
    • B65H54/2896Flyers

Definitions

  • My invention relates to improvements in methods of and apparatus for doubling, spinning and like operations, and has for its object to enable higher rates of production and better work to be obtained than 1s possible with present machinery.
  • the present invention relates particularly to machines in which are employed spinning, twisting or doubling units each having a leading and a lagging part with independent drives of the leadlng or lagging parts, or
  • Figure 1 shows an end elevation partly in section of a form of spinning machine taken as a whole.
  • I have shown in the left hand side a doubling unit in which the inner part, 2'. 0., the spindle o-r bobbin carrier lags, and the outer part leads, while in the right hand side I have shown a doubling unit in which the inner part, 2'. 6., spindle or bobbin carrier, leads, and the outer part lags.
  • Figs. 2 and 3 show sectional elevations of an arrangement for hydraulically retarding an unwinding bobbin.
  • Fig. a shows a plan of same.
  • Fig. 5 shows a plan of an arrangement of hydraulically retarding bobbins in staggered position for doubling.
  • bobbin carriers being arranged at a convenient height for manipulation.
  • the bobbins may be omitted, and the material wound directly on the rotating part itself provided the same is suitably shaped.
  • a gear wheel 2' on the bottom of the spindle which transmits power through an other gear wheel, 70, to a vertical shaft, m, running at a correspondingly lower rate.
  • This shaft may be square in cross-section and slide telescopically in a hollow shaft, 17., coaxial with and driven by it, this hollow shaft having mounted on it one of the feed or drawing rolls, 0, which are disposed on a part of the machine above the corresponding spindle.
  • the telescopic connection described serves to allow for the rising and falling of the rail, 6, carrying the spindles.
  • Suitable means are provided for giving a traverse motion to the rails, in order to allow the material to be laid evenly on the bobbins.
  • a heart shaped cam, r is fixed on the shaft, 8, which is driven for instance by a separate motor of any suitable type, since the speed of the shaft does not need to bear any definite fixed relation to that of the spindle.
  • the cam, r, in contact with the roller or bowl serves to rock a lever, 25, pivoted at u, by way of the link, 22, the necessary constraint being given to the motion of the bowl by means of the second link, to, pivoted at 00, to the frame of the machine.
  • the rails, e, carrying the spindles are connected respectively one at each end of the rocking lever, t, by way of the adjusting link, 2. It will thus be seen that a continuous revolution of the shaft, 8, causes an up and down motion to be transmitted to the spindles.
  • the feed rolls, 0, draw from one or more for the correspondingly opposite pairs of leading and lagging parts.
  • the material to be operated upon thus passes from the bobbin, 2, around guides, down throughaguide eye, 30, between the feed rolls, 0, and thence over another guide, 5, to the rapidly rotating ring fliers carried on the stationary parts, 6, and thence through the bobbins, h, which as before stated are on the right hand side of the figure shown as leading parts and on the left hand side shown as lagging parts.
  • I may construct the lagging part as shown with a motor, d, for the purpose of assisting this lagging part when spinning fine counts.
  • the arrangement I prefer is an air borne flier as the lagging part, which for fine work may be motor assisted so as to diminish the drag; for ordinary doubling, however, and the heavier kinds of work, the motor is preferably omitted.
  • Both of the above arrangements may be embodied in one machine as shown, or if desired a whole machine may be constructed with leading and lagging parts forming one of the arrangement above described.
  • a whole machine may be constructed with leading and lagging parts forming one of the arrangement above described.
  • the feed or feed and draw rolls are driven from the lagging part, as this is itself only driven through the material, so that when the material breaks, the lagging part stops and consequently the corresponding feed or feed and draw rolls also stop.
  • the feed orfee'd and draw rolls will not stop on the breakage of the material, but will slow down only.
  • FIGs. 2,3and 4 A method of hydraulically retarding unwinding bobbins is shown in Figs. 2,3and 4.
  • Bobbins, 2 have retarders, 17, rigidly attached to their spindles, 18.
  • the upper ends of the spindles are pivoted'on hinged arms, 19, the lower ends being mounted in suitable footstep bearings, 20, inserted in the bottom of the trough, 3.
  • the amount of retardation may be varied by altering the level of the water in the trough, thereby varying the immersed area of the retarder, 17.
  • Fig. 5 shows a modified arrangement which is preferably employed in doubling. In this arrangement the bobbins, 2, are staggered, so that the material may be unwound from adjacent bobbins and consequently disposing of the intermediate process of winding.
  • a spinning, twisting or doubling machine the combination of a plurality of units each comprising a leading and a lagging part; rolls serving said units; a stationary frame for supporting certain parts of said units; a plurality of movable members supporting certain other of the parts of saidunits; a plurality of movable memtween said movably mounted parts and their respective feed rolls; means for supporting said movably mounted members, so that certain of said units are disposed on either side of said supporting means, together with means for actuating said movable member so that parts disposed on each side of said bearing move simultaneously in opposite directions, substantially as described.
  • a spinning, twisting or doubling machine the combination of a plurality of units each comprising a leading and a lagging part; a frame upon which said leading parts are mounted; a plurality of rails upon which said lagging parts are mounted, feed rolls for serving said units; a telescopic connection between said feed rolls, and said lagging parts; a lever to which said rails are connected; a shaft rotatably mounted on said frame carrying said lever, and disposed between said rails; a link fixed at one end to said frame; a second link fixed on one end of said lever; a roller mounted at the junction of the other end of said links, together with a cam for imparting an upand-down motion to said rolls, substantially as described.
  • a plurality of twisting units each comprising a leading and a lagging part; a plurality of feed rolls serving said units and connected to said lagging part; a plurality of bobbins supplying said feed rolls with material to be spun, with means attached to said bobbins for retarding the rotation thereof, together with a trough for liquid in which a plurality of said retarding devices are immersed.
  • twisting unit comprising thread-transfer means, and twisting mechanism together with a telescopic connection between said transfer means and part of said twisting mechanism.
  • twisting unit comprising thread-transfer means, and twisting mechanism together with a longitudinally adjustable connection operative between said transfer means and part of said twisting mechanism.
  • a twisting unit comprising transfer rolls and twisting mechanism, together with atelescopic connection between said transfer rolls and part of said twisting mechanism.
  • twisting unit com prising conical transfer rolls and twisting mechanism, together with an expanding connection operative between said transfer rolls and said twisting mechanism.
  • a twisting unit comprising thread-t'ansfer rolls, and twisting mechanism, a telescopic connection between said transfer rolls and part of said twisting mechanism, a rail carrying part of said twisting mechanism, together with means for reciprocating said rail.
  • twisting unit comprising thread-transfer rolls and twisting mechanism, a telescopic connection between said transfer rolls and part of said twisting mechanism, a rail carrying part of said twisting mechanism, a shaft, together with a cam operated by said shaft for reciprocating said rail.
  • a plurality of twisting units each unit comprising a rotary element, a co-acting spindle, a separate motor driving each unit, feeding means and gearing between said feeding means and spindle; a station- .ary means on which said rotary elements are mounted and a movable means carrying said spindles and said gearing.
  • a rotatable element on which material is to be wound; means for feeding material thereto; means for giving a reciprocating motion to said element and a mechanical connection between said element and its feeding means, said connection including rotatable members slidable axially in relation to one another.
  • a rotatable element on which material is to be wound; a motor mounted thereon; means for feeding material thereto; means for giving a reciprocating motion to said element and a mechanical connection between said element and its feeding means, said connection including rotatable members slidable axially in relation to one another.
  • a rotatable element on which material is to be wound; means for feeding material thereto; means for giving a reciprocating motion to said ele' ment and a mechanical connection between said element and feeding means, said connection including a pair of telescopic members.
  • a plurality of rotatable elements on which material is to be wound means for feeding material thereto; a bar or rail on which said rotatable elements are mounted; means for giving a reciprocating motion to said bar or rail and means for mechanically connecting said elements and said feeding means, said connecting means including rotatable members slidable axially in relation to one another.
  • I11 combination rotatable elements on which material is to be wound; means for feeding material thereto; means for simultaneously reciprocating certain of said rotatable elements in opposite directions and means for connecting said elements and said feeding means, said connecting means including rotatable members slidable axially in relation to one another.
  • motor means and feeding means serving said element
  • the motor means and feeding means of any one of said units being meehanically independent as regards its operative action from the motor means and feeding means of any other of said units
  • each of said units including also a driving connection between its rotatable element and its feeding means, said connection having contacting rotatable members slidable axially in relation to one another together with means for giving said rotatable elements a reciprocating motion.
  • each of said units including a rotatable element on which material is to be wound, motor means and feeding means serving said element, the motor means and feeding means of any one of said units being mechanically independent as regards its operative action from the motor means and feeding means of any other of said units and each of said units including also a driving connection between its rotatable element and its feeding means, said connection having contacting rotatable members slidable axially in relation to one another, together with a common bar or rail on which said rotatable elements are mounted, and means for giving a reciprocating motion to said bar or rail.
  • each of said units including a rotatable element on which material is to be wound, motor means and feeding means serving said element, the motor means and feeding means of any one of said units being mechanically independent as regards its operative action from the motor means and feeding means of any other of said units; means for giving a reciprocating motion to said rotatable elements and included in each of said units a driving connection between its rotatable element and its feeding means, said driving connect-ion being operative during said reciprocating motion.
  • a rotatable twisting element In combination, a rotatable twisting element; feeding means therefor; means for giving a reciprocating motion to said twist.- ing element; a telescopic spindle comprising two slidable members, one of which carries feeding means and the other of which is geared to said twisting element.
  • a unit comprising a leading and a lagging part; feeding means serving said unit; a stationary frame for supporting certain parts of said unit; a movable member supporting certain other of the parts of said unit; a telescopic connection between said movably supported part and said feeding means together with means for giving said movable member a reciprocating motion.

Description

S. Z. DE PBRRANTI. APPARATUS FOR SPINNING, DOUBLING, AND LIKE OPERATIONS.
APPLICATION FILED JUNE 15, 1909.
Patented July 11, 1911.
2 SHEBTS-SHEET 1.
mUMBlA PLANOGHAPH no. WAMIINONII. D. C
S; Z. DE PERRANTI. APPARATUS FOR SPINNING, DOUBLING, AND LIKE OPERATIONS.
APPLICATION FILED JUNE 15, 1909.
Patented July 11, 1911.
2 SHEETS-SHEET 2.
i E :1 t
[Eva 70a 'mLUlBIA PLANocmH 50., WASH NGTON. I). c.
'mvrrn SATES. ATFJNT FFICIJ.
SEBASTIAN ZIANI DE FERRANTI, OF GRINDL-EFORD, NEAR SHEFFIELD, ENGLAND.
APPARATUS FOR SPINNING, DOUBIIING, AND LIKE OPERATIONS.
T 0 all whom itmay concern:
Be it known that I, SEBASTIAN ZIANI DE FERRANTI, a subject of the King of Great Britain and Ireland, and residing at Grindleford, near Sheffield, in the county of Derby, England, have invented certain new and useful Improvements in Apparatus for Spinning, Doubling, and Like (Jperations, of which the following is a specification.
My invention relates to improvements in methods of and apparatus for doubling, spinning and like operations, and has for its object to enable higher rates of production and better work to be obtained than 1s possible with present machinery.
The present invention relates particularly to machines in which are employed spinning, twisting or doubling units each having a leading and a lagging part with independent drives of the leadlng or lagging parts, or
both.
Referring now to the accompanying drawings, which form part of the spec1ficat-1on:-
Figure 1 shows an end elevation partly in section of a form of spinning machine taken as a whole. In this figure for the purpose of simplification of the drawings, I have shown in the left hand side a doubling unit in which the inner part, 2'. 0., the spindle o-r bobbin carrier lags, and the outer part leads, while in the right hand side I have shown a doubling unit in which the inner part, 2'. 6., spindle or bobbin carrier, leads, and the outer part lags. Figs. 2 and 3 show sectional elevations of an arrangement for hydraulically retarding an unwinding bobbin. Fig. a shows a plan of same. Fig. 5 shows a plan of an arrangement of hydraulically retarding bobbins in staggered position for doubling.
I wish it to be understood that the draw ings are of a diagrammatic nature merely, and are not to be taken as working drawings.
Where desirable, the same reference characters are used to denote similar parts in the different figures.
In carrying my invention into effect, according to one form, as applied in a spin ning or doubling machine, in which air is the motive power, I construct the machine (see Fig. l) with a large horizontal air supply pipe, a, carried by a suitable frame on each side of which are arranged the stationary parts, 6, of the air bearing of each of the units of the machine. The figure thus Specification of Letters Patent.
Application filed June 15, 1909.
Patented July 11, 1911.
Serial No. 502,347.
or bobbin carriers being arranged at a convenient height for manipulation. In some cases the bobbins, It, may be omitted, and the material wound directly on the rotating part itself provided the same is suitably shaped.
For the purpose of driving the feed or feed and draw rolls as the case may be, I provide a gear wheel 2' on the bottom of the spindle which transmits power through an other gear wheel, 70, to a vertical shaft, m, running at a correspondingly lower rate. This shaft may be square in cross-section and slide telescopically in a hollow shaft, 17., coaxial with and driven by it, this hollow shaft having mounted on it one of the feed or drawing rolls, 0, which are disposed on a part of the machine above the corresponding spindle. The telescopic connection described serves to allow for the rising and falling of the rail, 6, carrying the spindles.
Suitable means are provided for giving a traverse motion to the rails, in order to allow the material to be laid evenly on the bobbins. According to the form shown in Fig. 1, a heart shaped cam, r, is fixed on the shaft, 8, which is driven for instance by a separate motor of any suitable type, since the speed of the shaft does not need to bear any definite fixed relation to that of the spindle. The cam, r, in contact with the roller or bowl serves to rock a lever, 25, pivoted at u, by way of the link, 22, the necessary constraint being given to the motion of the bowl by means of the second link, to, pivoted at 00, to the frame of the machine. The rails, e, carrying the spindles are connected respectively one at each end of the rocking lever, t, by way of the adjusting link, 2. It will thus be seen that a continuous revolution of the shaft, 8, causes an up and down motion to be transmitted to the spindles.
The feed rolls, 0, draw from one or more for the correspondingly opposite pairs of leading and lagging parts. The material to be operated upon thus passes from the bobbin, 2, around guides, down throughaguide eye, 30, between the feed rolls, 0, and thence over another guide, 5, to the rapidly rotating ring fliers carried on the stationary parts, 6, and thence through the bobbins, h, which as before stated are on the right hand side of the figure shown as leading parts and on the left hand side shown as lagging parts.
It will be understood that by suitably shaping the stationary part of the bearing the proper conduits can be obtained connecting with the central air pipe without any complication of connecting pipes. It will be understood also that the air bearing might be reversed, if desired, and the ring made to rotate inside the stationary part, but I prefer the external ring.
In some cases in addition to having a motor on the leading part, 6. 9., on the air borne flier or spinning ring, 0, in the particular example described, with reference to the left hand side of Fig. l, I may construct the lagging part as shown with a motor, d, for the purpose of assisting this lagging part when spinning fine counts. The arrangement I prefer is an air borne flier as the lagging part, which for fine work may be motor assisted so as to diminish the drag; for ordinary doubling, however, and the heavier kinds of work, the motor is preferably omitted.
With reference to the feed of the material according to my present invention, I drive the feed rolls from either, (a) the lagging part, (b) a lagging part internally disposed in relation to the leading parts, (0) the leading parts. In the machine above dealt with, I have shown and described gearing between the spindle and the shaft, m, through which motion is transmitted to the feed rolls, 0, disposed above. On the left hand side of Fig. 1, I have shown an internally disposed lagging part driving the feed rolls. On the right hand side of the same figure I have shown an internally disposed leading part driving the feed rolls.
Both of the above arrangements may be embodied in one machine as shown, or if desired a whole machine may be constructed with leading and lagging parts forming one of the arrangement above described. I however, prefer the form above indicated, in which the feed or feed and draw rolls are driven from the lagging part, as this is itself only driven through the material, so that when the material breaks, the lagging part stops and consequently the corresponding feed or feed and draw rolls also stop. It will be understood that when the lagging part is motor assisted, the feed orfee'd and draw rolls will not stop on the breakage of the material, but will slow down only. In this case, and also when I drive the feed or feed the draw rolls from the leading part, I may employ any well known automatic stop device, either to remove one of the elements of the friction drive or apply a brake, thus effecting the stop required. It will be understood that when I use the form of feed drives, (a) and (b), above indicated, abrake may be preferably applied to secure quicker stopping of the lagging part.
A method of hydraulically retarding unwinding bobbins is shown in Figs. 2,3and 4. Bobbins, 2, have retarders, 17, rigidly attached to their spindles, 18. The upper ends of the spindles are pivoted'on hinged arms, 19, the lower ends being mounted in suitable footstep bearings, 20, inserted in the bottom of the trough, 3. The amount of retardation may be varied by altering the level of the water in the trough, thereby varying the immersed area of the retarder, 17. Fig. 5 shows a modified arrangement which is preferably employed in doubling. In this arrangement the bobbins, 2, are staggered, so that the material may be unwound from adjacent bobbins and consequently disposing of the intermediate process of winding.
As described in my specification No. 930,848, the units of a machine to which my present invention is applied can be slowed down for convenience in piecing and handling. I have in this specification frequently used the term air borne, and use it in the sense that the bearing is air lubricated, and not in the limited sense that the weight of the rotating part is necessarily air supported.
Having now described my invention what I claim as new and desire to secure by Letters Patent is 1. In a spinning, twisting or doubling machine the combination of a plurality of twisting units, feeding means for said units interconnected with certain part-s thereof, together with means for reciprocating said certain parts of said units in opposite direc tions while maintaining the interconnections of said units and feeding means.
2. In a spinning, twisting or doubling machine, the combination of a plurality of units each comprising a leading and lagging part, feeding means for said units interconnected with one of said parts, together with means for reciprocating certain of said interconnected parts in opposite directions while maintaining the interconnections between said parts and the feeding means.
3. In a spinning, twisting or doubling machine, the combination of means for twisting material, means for feeding material to said twisting means, and directly interconnected therewith, together with means for reciprocating certain of said interconnected means in opposite directions while maintaining the interconnections with said feeding means.
t. In a spinning, twisting or doubling machine the combination of a plurality of units each comprising a leading and a lagging part; r'olls serving said units; means for actuating said rolls from said lagging parts, and means independent of the twisting mechanism for reciprocating certain interconnected pluralities of lagging parts in opposite directions, substantially as described.
5. In a spinning, twisting or doubling machine, the combination of a plurality of units each comprising a leading and a lagging part; rolls serving said units; a stationary frame for supporting certain parts of said units; a plurality of movable members supporting certain other of the parts of saidunits; a plurality of movable memtween said movably mounted parts and their respective feed rolls; means for supporting said movably mounted members, so that certain of said units are disposed on either side of said supporting means, together with means for actuating said movable member so that parts disposed on each side of said bearing move simultaneously in opposite directions, substantially as described.
6. In a spinning, twisting or doubling machine the combination of a plurality of units each comprising a leading and a lagging part; a frame upon which said leading parts are mounted; a plurality of rails upon which said lagging parts are mounted, feed rolls for serving said units; a telescopic connection between said feed rolls, and said lagging parts; a lever to which said rails are connected; a shaft rotatably mounted on said frame carrying said lever, and disposed between said rails; a link fixed at one end to said frame; a second link fixed on one end of said lever; a roller mounted at the junction of the other end of said links, together with a cam for imparting an upand-down motion to said rolls, substantially as described.
7. In combination a plurality of twisting units each comprising a leading and a lagging part; a plurality of feed rolls serving said units and connected to said lagging part; a plurality of bobbins supplying said feed rolls with material to be spun, with means attached to said bobbins for retarding the rotation thereof, together with a trough for liquid in which a plurality of said retarding devices are immersed.
8. In a spinning, twisting or doubling. machine the combination of a plurality of twisting units; a plurality of rolls serving said units; a plurality of bobbins supplying material to be twisted to said feed rolls; a retarding device on said bobbins, together with a trough for liquid in which a plu rality of said retarding devices are immersed, substantially as described.
9. In combination a twisting unit comprising thread-transfer means, and twisting mechanism together with a telescopic connection between said transfer means and part of said twisting mechanism.
10. In combination a twisting unit comprising thread-transfer means, and twisting mechanism together with a longitudinally adjustable connection operative between said transfer means and part of said twisting mechanism.
11. In combination a twisting unit comprising transfer rolls and twisting mechanism, together with atelescopic connection between said transfer rolls and part of said twisting mechanism.
12. In combination a twisting unit com prising conical transfer rolls and twisting mechanism, together with an expanding connection operative between said transfer rolls and said twisting mechanism.
13. In combination a twisting unit comprising thread-t'ansfer rolls, and twisting mechanism, a telescopic connection between said transfer rolls and part of said twisting mechanism, a rail carrying part of said twisting mechanism, together with means for reciprocating said rail.
14:. In combination a twisting unit comprising thread-transfer rolls and twisting mechanism, a telescopic connection between said transfer rolls and part of said twisting mechanism, a rail carrying part of said twisting mechanism, a shaft, together with a cam operated by said shaft for reciprocating said rail.
15. In a machine for twisting fibrous material, a plurality of twisting units, each unit comprising a rotary element, a co-acting spindle, a separate motor driving each unit, feeding means and gearing between said feeding means and spindle; a station- .ary means on which said rotary elements are mounted and a movable means carrying said spindles and said gearing.
16. In combination, a rotatable element on which material is to be wound; means for feeding material thereto; means for giving a reciprocating motion to said element and a mechanical connection between said element and its feeding means, said connection including rotatable members slidable axially in relation to one another.
17. In combination, a rotatable element on which material is to be wound; a motor mounted thereon; means for feeding material thereto; means for giving a reciprocating motion to said element and a mechanical connection between said element and its feeding means, said connection including rotatable members slidable axially in relation to one another.
18. In combination, a rotatable element on which material is to be wound; means for feeding material thereto; means for giving a reciprocating motion to said ele' ment and a mechanical connection between said element and feeding means, said connection including a pair of telescopic members.
19. In combination, a plurality of rotatable elements on which material is to be wound; means for feeding material thereto; a bar or rail on which said rotatable elements are mounted; means for giving a reciprocating motion to said bar or rail and means for mechanically connecting said elements and said feeding means, said connecting means including rotatable members slidable axially in relation to one another.
20. I11 combination, rotatable elements on which material is to be wound; means for feeding material thereto; means for simultaneously reciprocating certain of said rotatable elements in opposite directions and means for connecting said elements and said feeding means, said connecting means including rotatable members slidable axially in relation to one another.
21. In combination, a plurality of units, each of said units including a rotatable element on which material is to be wound,
motor means and feeding means serving said element, the motor means and feeding means of any one of said units being meehanically independent as regards its operative action from the motor means and feeding means of any other of said units, and each of said units including also a driving connection between its rotatable element and its feeding means, said connection having contacting rotatable members slidable axially in relation to one another together with means for giving said rotatable elements a reciprocating motion.
22. In combination, a plurality of units,
each of said units including a rotatable element on which material is to be wound, motor means and feeding means serving said element, the motor means and feeding means of any one of said units being mechanically independent as regards its operative action from the motor means and feeding means of any other of said units and each of said units including also a driving connection between its rotatable element and its feeding means, said connection having contacting rotatable members slidable axially in relation to one another, together with a common bar or rail on which said rotatable elements are mounted, and means for giving a reciprocating motion to said bar or rail.
23. In combination, a plurality of units, each of said units including a rotatable element on which material is to be wound, motor means and feeding means serving said element, the motor means and feeding means of any one of said units being mechanically independent as regards its operative action from the motor means and feeding means of any other of said units; means for giving a reciprocating motion to said rotatable elements and included in each of said units a driving connection between its rotatable element and its feeding means, said driving connect-ion being operative during said reciprocating motion.
24:. In combination, a rotatable twisting element; feeding means therefor; means for giving a reciprocating motion to said twist.- ing element; a telescopic spindle comprising two slidable members, one of which carries feeding means and the other of which is geared to said twisting element.
25. In a spinning, twisting or doubling machine, the combination of a unit compris ing a leading and a lagging part; feeding means serving said unit; a stationary frame for supporting certain parts of said unit; a movable member supporting certain other of the parts of said unit; a telescopic connection between said movably supported part and said feeding means together with means for giving said movable member a reciprocating motion.
In testimony whereof, I affix my signature in presence of two witnesses.
SEBASTIAN ZIANI DE FERRANTI.
Vitnesses ALBERT HALL, IVILLIAM DUNCAN DAVIDSON.
Copies of this patent may be obtained for five cents each, by addressing the Commissioner of Patents, Washington, D. C.
US50234709A 1909-06-15 1909-06-15 Apparatus for spinning, doubling, and like operations. Expired - Lifetime US997770A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US50234709A US997770A (en) 1909-06-15 1909-06-15 Apparatus for spinning, doubling, and like operations.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US50234709A US997770A (en) 1909-06-15 1909-06-15 Apparatus for spinning, doubling, and like operations.

Publications (1)

Publication Number Publication Date
US997770A true US997770A (en) 1911-07-11

Family

ID=3066100

Family Applications (1)

Application Number Title Priority Date Filing Date
US50234709A Expired - Lifetime US997770A (en) 1909-06-15 1909-06-15 Apparatus for spinning, doubling, and like operations.

Country Status (1)

Country Link
US (1) US997770A (en)

Similar Documents

Publication Publication Date Title
US723178A (en) Cord or rope making machine.
US2109247A (en) Variable speed drive for drafting machinery
US997770A (en) Apparatus for spinning, doubling, and like operations.
US2143876A (en) Drafting apparatus
US2449431A (en) Spinning machine
US2558677A (en) Apparatus for twisting and winding textile fibers
US545844A (en) brindle
US1964715A (en) Strand-manipulating mechanism
US1194834A (en) Spinning machine
US1820310A (en) Spindle driving mechanism
US693887A (en) Cord or rope machine.
US708458A (en) Spinning-head.
US819298A (en) Spinning-machine.
US1067907A (en) Spinning, twisting, and doubling machinery.
US927343A (en) Spinning, twisting, and doubling machinery.
US2011429A (en) Machine for winding pirns or spools of yarns or threads
US2208803A (en) Drafting apparatus
US1090586A (en) Drawing-frame.
US1126042A (en) Spinning cotton and other fibers or fibrous material.
US564275A (en) Machine for manufacturing twine and yarn
US381365A (en) hallidie
US335208A (en) bouroart
US5851A (en) Machinery for doubling and twisting tarn
US578678A (en) seymoue
US1146027A (en) Machine for doubling, twisting, and quilling.