US3393708A - Let-off motion - Google Patents

Let-off motion Download PDF

Info

Publication number
US3393708A
US3393708A US582809A US58280966A US3393708A US 3393708 A US3393708 A US 3393708A US 582809 A US582809 A US 582809A US 58280966 A US58280966 A US 58280966A US 3393708 A US3393708 A US 3393708A
Authority
US
United States
Prior art keywords
bar
motion
warp
tension
warp beam
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
US582809A
Inventor
Schiappa Antonio
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.)
Johnson and Johnson
Original Assignee
Johnson and Johnson
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 Johnson and Johnson filed Critical Johnson and Johnson
Priority to US582809A priority Critical patent/US3393708A/en
Application granted granted Critical
Publication of US3393708A publication Critical patent/US3393708A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D49/00Details or constructional features not specially adapted for looms of a particular type
    • D03D49/04Control of the tension in warp or cloth
    • D03D49/06Warp let-off mechanisms

Definitions

  • a let-off motion for a warp beam comprising parallel members spaced above' arid perpendicular to the'w'arp beam shaft" and' said memb'ers being connected"at their front andrear portions by barsparallel to the shaft.
  • the shaft has abrak'e' drum on one end along witha-brake strap for controlling the warp beam rotation;
  • the tension
  • This invention relates toalet-off motion for th ebeams off under extreme control in order to prevent the formation I of stripes in the fabric. If the warp yarns are not let off at a constant tension, they will be woven tightly for awhile while the tension is drawn taut, at which point the warp beam jerks and allows for a loose weave forming a stripe in the fabric. Standard let-off motions presently used, for the part, do not have sufficient control of the tension to completely eliminate the formation of stripes when weaving with elastic warp yarns.
  • the let-off motion of the present invention gives excellent control of the tension applied to elastic yarns and prevents the formation of stripes when weaving narrow elastic fabrics.
  • the let-off motion of the present invention also gives suitable control over the warp yarn beam immaterial of the diameter of the beam, that is, it has the same type of control over the large diameter beam and maintains that control as the beam is used and becomes very small in diameter.
  • the let-off motion of the present invention also allows for a much less run of the elastic yarn from the warp beam to the weaving operation which reduces the breakage of the yarns during the weaving operation.
  • the let-01f motion of the present invention also has the advantage that when the warp beam is used up, my let-off motion stays in place and does not drop out of the way greatly simplifying the rethreading when changing warp beams.
  • the let-01f motion of the present invention takes reduced space and is very suitable for weaving operations wherein a series of warp beams are required.
  • the let-off motion of the present invention comprises a pair of spaced apart side bars spaced above and perpendicular to the warp beam shaft.
  • a brake is mounted at one end of the warp beam shaft directly beneath one of the side bars.
  • the brake comprises a band or strap attached to approximately the center of the side bar.
  • the strap passes about the perimeter of a pulley mounted in a stationary manner on the warmp beam shaft and the strap is attached back to the side bar at a point closer to the front end of the bar.
  • Mounted between the front ends of the side bars and parallel to the warp beam shaft is a round bar. Warp yarns are guided from the Warp beam about this round bar to be fed to any standard 3,393,708 Patented July 23, 196 8 Flce weaving loom.
  • Mounted between the back ends o'f'the side bars is aifiat bar for carrying the weights to control the exact tension to be placed on the warpyarns.
  • FIGURE 1 is a fragmentary side view 'of the let-off motionof the present'invention
  • I I V FIGURE 2 is a top view of said let-off motion.
  • the let-off motion comprises two spaced-apart side bars 16 and 17 mounted perpendicular to the shaft 13. The side bars are connected at'their front edge by a stationary round bar 18, at their rear edge by a flat bar 19 suitable'for carrying weights 20 and at their midpoints by a middle round bar 21.
  • the round bar 21 may extend through the side bars and be pivotally mounted in the frame 10 as shown in FIGURE 2. However, the side bars 16 and 17 must be secured at their mid-points to the round bar 21 so that the entire let-off motion is pivotally mounted in the frame as mentioned above and there is no slippage between the round bar 21 and the side bars 16 and 17.
  • One of the perpendicular side bars is positioned directly above the brake drum so that the brake strap or band may be connected directly to the middle bar 21.
  • the band 22 is Wrapped about the brake drum and then hooked back into one of the three smaller holes 23 placed in the side bar closer to the front round bar. These holes allow variance in the gross tension placed by the strap on the brake drum and may be varied dependent upon the elasticity in the yarn to be fed by the let-off motion.
  • the warp yarns 25 are taken from the beam and fed over the middle round bar and the front round bar to the weaving operation.
  • the front round bar is urged downwardly raising the rear weights and releasing the tension placed by the strap on the brake drum allowing more warp yarn to be fed off. If the tension in the warp yarns is too little, the rear weights keep suflicient tension on the strap of the brake drum to prevent any let off of the warp yarn.
  • the counterbalancing of the rear Weights and the front round bar provide for excellent control of the tension applied to the warp yarns, and just slight changes in tension will allow the warp beam to let-off or stop letting off warp yarns.
  • This counterbalancing action also prevents any jerking motion in the warp beam.
  • the warp beam is fully wound providing for a large diameter let-off, and when the warp beam is almost used, this diameter is much smaller; however, the counterbalancing action of the let-off motion provides excellent control of the tension immaterial of the diameter of the warp beam.
  • the warp yarns are fed directly from the front round bar to the weaving operation, and the distance between the front round bar and the warp beam is quite short. With this short run of warp yarns, there is much less chance of breakage of the yarns as contrasted to standard let-off motions Where yarn runs are quite extensive placing much greater stress on the warp yarns.
  • the let-off motion of the present invention when the warp beam is used up and no further tension is placed on the front round bar, the let-off motion still remains in place as the rear weights place tension on the strap at the brake drum holding the let-off motion in its operating position for ready replacement of the warp beam.
  • a let-off motion for a warp beam comprising spaced parallel side members, spaced above and perpendicular to the shaft carrying said warp beam, said parallel side members being connected at their front portion by a first bar and at their rear portion by a second bar, said bars being parallel to the shaft carrying said warp beam, a brake drum on said shaft of said warp beam positioned directly below One of said parallel members and a brake strap passing about the periphery of said brake drum, a first end of said strap being connected to said parallel member directly above said brake drum and the second end of said strap also being connected to the same parallel member but spaced a slight distance from said first end whereby if warp yarns are pulled about said first bar to place tension thereon, said tension may be counter balanced by placing Weights on said second bar.
  • a let-off motion for a warp beam comprising spaced parallel side members, spaced above and perpendicular to the shaft carrying said warp beam, said parallel side members being connected at their front portion by a first bar, at their rear portion by a second bar and at their midpoint by a third bar, said bars being parallel to the shaft carrying said warp beam,'a brake drum on said shaft of said warp beam,positioned directly below'onexofsaid parallel side members and a brake strap passing about the periphery of said brake'drum, afirst endof said strap being connected to said third bar immediately adjacent said parallel side member and directly above said brake drum and the second end of said strap being connected to said parallel side member but spaced-"a"slight distance from said first end whereby if warp yarns are pu-lled'about said first bar to place tension thereon, saidtension may be counterbalanced by placing weights on said second bar.

Landscapes

  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Looms (AREA)
  • Warping, Beaming, Or Leasing (AREA)

Description

July 23, 1968 A. SCHIAPPA 3,393,708
LET 'OFF MOT ION Filed Sept. 29, 1966 INVENTOR. A? 4v ro/v/o Uh/MP! ATTORNEY Y -"*'3,393,708 f I LET-OFF MOTION" Antonio Schiappa, Pawtucket, R.I.=,' assignor to J ohnson=& Johnsomacorporation of'New-Jersey.- i g 7. Filed Sept. Z9,,19 6 6, el'. No. 582,809
. 4. Claims. (Cl..13 9 -1 00) ABSTRACT, OF. DISCLOSURE.
A let-off motion for a warp beam comprising parallel members spaced above' arid perpendicular to the'w'arp beam shaft" and' said memb'ers being connected"at their front andrear portions by barsparallel to the shaft. The shafthas abrak'e' drum on one end along witha-brake strap for controlling the warp beam rotation; The tension,
on yarns pulled from the warp beam about the front bar is controlled by weights placedon the rear bar.
This invention relates toalet-off motion for th ebeams off under extreme control in order to prevent the formation I of stripes in the fabric. If the warp yarns are not let off at a constant tension, they will be woven tightly for awhile while the tension is drawn taut, at which point the warp beam jerks and allows for a loose weave forming a stripe in the fabric. Standard let-off motions presently used, for the part, do not have sufficient control of the tension to completely eliminate the formation of stripes when weaving with elastic warp yarns.
The let-off motion of the present invention gives excellent control of the tension applied to elastic yarns and prevents the formation of stripes when weaving narrow elastic fabrics. The let-off motion of the present invention also gives suitable control over the warp yarn beam immaterial of the diameter of the beam, that is, it has the same type of control over the large diameter beam and maintains that control as the beam is used and becomes very small in diameter. The let-off motion of the present invention also allows for a much less run of the elastic yarn from the warp beam to the weaving operation which reduces the breakage of the yarns during the weaving operation. The let-01f motion of the present invention also has the advantage that when the warp beam is used up, my let-off motion stays in place and does not drop out of the way greatly simplifying the rethreading when changing warp beams. Furthermore, the let-01f motion of the present invention takes reduced space and is very suitable for weaving operations wherein a series of warp beams are required.
The let-off motion of the present invention comprises a pair of spaced apart side bars spaced above and perpendicular to the warp beam shaft. A brake is mounted at one end of the warp beam shaft directly beneath one of the side bars. The brake comprises a band or strap attached to approximately the center of the side bar. The strap passes about the perimeter of a pulley mounted in a stationary manner on the warmp beam shaft and the strap is attached back to the side bar at a point closer to the front end of the bar. Mounted between the front ends of the side bars and parallel to the warp beam shaft is a round bar. Warp yarns are guided from the Warp beam about this round bar to be fed to any standard 3,393,708 Patented July 23, 196 8 Flce weaving loom. Mounted between the back ends o'f'the side bars is aifiat bar for carrying the weights to control the exact tension to be placed on the warpyarns. J
In operation, if tension is placed 'on the warp yarns, they in turn pull the round bar' downwardly allowing for slackin thestrap of the brake and allowing the warp beam tolet off warp yarns; whereas ifthere is too muchslack in the warp yarns, the weights will cause the round bar to ris'eputting more pressureon the brake preventing any motion in thewarp beam. 4 v I The invention will be more fully described when taken in conjunction with the accompanying drawings wherein: FIGURE 1 is a fragmentary side view 'of the let-off motionof the present'invention, and I I V FIGURE 2 is a top view of said let-off motion.
Similar reference numerals refer to like parts in each view.
Referring to the drawings, there is shown the necessary framing 10 upon which warp beams 11 may be mounted for use in weaving operations. Journaled in bearings 12 mounted in the frame is a shaft 13 upon which the warp beam is stationarily mounted. Also mounted on this shaft in a stationary manner is a suitable brake drum 14. Pivotally mounted on the same frame but above the warp beam shaft is the let-off motion 15. The let-off motion comprises two spaced-apart side bars 16 and 17 mounted perpendicular to the shaft 13. The side bars are connected at'their front edge by a stationary round bar 18, at their rear edge by a flat bar 19 suitable'for carrying weights 20 and at their midpoints by a middle round bar 21. The round bar 21 may extend through the side bars and be pivotally mounted in the frame 10 as shown in FIGURE 2. However, the side bars 16 and 17 must be secured at their mid-points to the round bar 21 so that the entire let-off motion is pivotally mounted in the frame as mentioned above and there is no slippage between the round bar 21 and the side bars 16 and 17. One of the perpendicular side bars is positioned directly above the brake drum so that the brake strap or band may be connected directly to the middle bar 21. The band 22 is Wrapped about the brake drum and then hooked back into one of the three smaller holes 23 placed in the side bar closer to the front round bar. These holes allow variance in the gross tension placed by the strap on the brake drum and may be varied dependent upon the elasticity in the yarn to be fed by the let-off motion. The warp yarns 25 are taken from the beam and fed over the middle round bar and the front round bar to the weaving operation. In operation, as tension is placed on the warp yarn, the front round bar is urged downwardly raising the rear weights and releasing the tension placed by the strap on the brake drum allowing more warp yarn to be fed off. If the tension in the warp yarns is too little, the rear weights keep suflicient tension on the strap of the brake drum to prevent any let off of the warp yarn.
The counterbalancing of the rear Weights and the front round bar provide for excellent control of the tension applied to the warp yarns, and just slight changes in tension will allow the warp beam to let-off or stop letting off warp yarns. This counterbalancing action also prevents any jerking motion in the warp beam. When starting operation, the warp beam is fully wound providing for a large diameter let-off, and when the warp beam is almost used, this diameter is much smaller; however, the counterbalancing action of the let-off motion provides excellent control of the tension immaterial of the diameter of the warp beam.
As may be seen from the drawings, the warp yarns are fed directly from the front round bar to the weaving operation, and the distance between the front round bar and the warp beam is quite short. With this short run of warp yarns, there is much less chance of breakage of the yarns as contrasted to standard let-off motions Where yarn runs are quite extensive placing much greater stress on the warp yarns.
In the let-off motion of the present invention when the warp beam is used up and no further tension is placed on the front round bar, the let-off motion still remains in place as the rear weights place tension on the strap at the brake drum holding the let-off motion in its operating position for ready replacement of the warp beam.
The invention in its broader aspects is not limited to the specific mechanism shown and described, but departures may be made therefrom within the scope of the accompanying claims without departing from the principles of the invention and without sacrificing its chief advantages.
What is claimed is:
1. A let-off motion for a warp beam comprising spaced parallel side members, spaced above and perpendicular to the shaft carrying said warp beam, said parallel side members being connected at their front portion by a first bar and at their rear portion by a second bar, said bars being parallel to the shaft carrying said warp beam, a brake drum on said shaft of said warp beam positioned directly below One of said parallel members and a brake strap passing about the periphery of said brake drum, a first end of said strap being connected to said parallel member directly above said brake drum and the second end of said strap also being connected to the same parallel member but spaced a slight distance from said first end whereby if warp yarns are pulled about said first bar to place tension thereon, said tension may be counter balanced by placing Weights on said second bar.
2. A let-off motion in accordance with claim 1 wherein said first bar is a stationary round bar and said second bar is a stationary fiat bar.
3. A let-off motion for a warp beam comprising spaced parallel side members, spaced above and perpendicular to the shaft carrying said warp beam, said parallel side members being connected at their front portion by a first bar, at their rear portion by a second bar and at their midpoint by a third bar, said bars being parallel to the shaft carrying said warp beam,'a brake drum on said shaft of said warp beam,positioned directly below'onexofsaid parallel side members and a brake strap passing about the periphery of said brake'drum, afirst endof said strap being connected to said third bar immediately adjacent said parallel side member and directly above said brake drum and the second end of said strap being connected to said parallel side member but spaced-"a"slight distance from said first end whereby if warp yarns are pu-lled'about said first bar to place tension thereon, saidtension may be counterbalanced by placing weights on said second bar.
4. A let off motion according toclaim 3 wherein said first and third bars are stationary round bars and said second bar is a stationary fiat bar,
References Cited UNITED STATES PATENTS MERVIN STEIN, Primary Examiner, J. KEE CHLAssistant Examiner.
US582809A 1966-09-29 1966-09-29 Let-off motion Expired - Lifetime US3393708A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US582809A US3393708A (en) 1966-09-29 1966-09-29 Let-off motion

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US582809A US3393708A (en) 1966-09-29 1966-09-29 Let-off motion

Publications (1)

Publication Number Publication Date
US3393708A true US3393708A (en) 1968-07-23

Family

ID=24330581

Family Applications (1)

Application Number Title Priority Date Filing Date
US582809A Expired - Lifetime US3393708A (en) 1966-09-29 1966-09-29 Let-off motion

Country Status (1)

Country Link
US (1) US3393708A (en)

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US407872A (en) * 1889-07-30 mooee
US417033A (en) * 1889-12-10 George p
US943741A (en) * 1909-05-25 1909-12-21 A C Kluge Let-off mechanism for narrow-ware looms.
US1194036A (en) * 1916-08-08 A corpora
US1414873A (en) * 1920-09-03 1922-05-02 Glaser Rudolph Let-off mechanism for looms
US1477958A (en) * 1922-11-15 1923-12-18 Crompton & Knowles Loom Works Spool tension device
US2457923A (en) * 1947-08-26 1949-01-04 Russell Mfg Co Warp beam letoff for looms

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US407872A (en) * 1889-07-30 mooee
US417033A (en) * 1889-12-10 George p
US1194036A (en) * 1916-08-08 A corpora
US943741A (en) * 1909-05-25 1909-12-21 A C Kluge Let-off mechanism for narrow-ware looms.
US1414873A (en) * 1920-09-03 1922-05-02 Glaser Rudolph Let-off mechanism for looms
US1477958A (en) * 1922-11-15 1923-12-18 Crompton & Knowles Loom Works Spool tension device
US2457923A (en) * 1947-08-26 1949-01-04 Russell Mfg Co Warp beam letoff for looms

Similar Documents

Publication Publication Date Title
US4100943A (en) Shuttle for ribbon looms
GB1399711A (en) Shuttle arrangement in a circular loom for weaving tape yarn
US4424836A (en) Warp tension regulating and warp feed apparatus in circular loom
US3698441A (en) Device for forming a selvage
US3815643A (en) Shed forming device in weave looms
US3393708A (en) Let-off motion
US3526252A (en) Loom warp letting-off mechanism
US3645300A (en) Takeup mechanism for weaving loom
US3900051A (en) Apparatus and method for supplying pile warp threads in a loom for weaving terry cloth
US3320978A (en) Selvage braiding means for a shuttleless loom
US2918092A (en) Device for effecting equal tensile stresses in two threads
US2436067A (en) Tension regulator and equalizer for pile fabric looms
US4354530A (en) Crossing thread supply system for a weaving machine
US1477958A (en) Spool tension device
US2741270A (en) Apparatus for weaving tufted fabrics
US2457923A (en) Warp beam letoff for looms
US1852052A (en) Warp let-off for narrow ware looms
US3789887A (en) Arrangement for reciprocating a weft inserter rod
US2433101A (en) Device for stretching the selvedge threads on looms
US1754196A (en) Let-off mechanism for looms
US3360011A (en) Device for binding fabric edges
US2438675A (en) Warp tension attachment
US644429A (en) Friction warp-rack for looms.
US562989A (en) Let-off for narrow-ware looms
KR790002005Y1 (en) Shuttle for circular loom