US2138221A - Shuttle for automatic looms - Google Patents

Shuttle for automatic looms Download PDF

Info

Publication number
US2138221A
US2138221A US118787A US11878737A US2138221A US 2138221 A US2138221 A US 2138221A US 118787 A US118787 A US 118787A US 11878737 A US11878737 A US 11878737A US 2138221 A US2138221 A US 2138221A
Authority
US
United States
Prior art keywords
shuttle
bobbin
jaws
rings
boxed
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
US118787A
Inventor
Richard G Turner
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.)
Crompton and Knowles Corp
Original Assignee
Crompton and Knowles Corp
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 Crompton and Knowles Corp filed Critical Crompton and Knowles Corp
Priority to US118787A priority Critical patent/US2138221A/en
Application granted granted Critical
Publication of US2138221A publication Critical patent/US2138221A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • DTEXTILES; PAPER
    • D03WEAVING
    • D03JAUXILIARY WEAVING APPARATUS; WEAVERS' TOOLS; SHUTTLES
    • D03J5/00Shuttles
    • DTEXTILES; PAPER
    • D03WEAVING
    • D03JAUXILIARY WEAVING APPARATUS; WEAVERS' TOOLS; SHUTTLES
    • D03J2700/00Auxiliary apparatus associated with looms; Weavening combined with other operations; Shuttles
    • D03J2700/10Shuttles
    • D03J2700/12Shuttles for automatic bobbin changing

Definitions

  • Fig. 2 is a. vertical section on an enlarged scale It has been discovered that there is a tendency On line is on the part of a bobbin to rotate about its longi- F g.
  • FIG. 3 is a diagrammatic v w ill r i g the tudinal axis during weaving, particularly when a s e mechanism, and bobbin is held by means of spring jaws which en- 4 is a horizontal Sect o n ne of gage rings on the head of the bobbin.
  • An angular motion sufiicient to give the bobbin a quarter turn Referring mo e p a ly to Fi I ve would place the long transverse axis vertical and shown a 100m y having a Shuttle bOX B to .20
  • This invention relates to improvements in autothe shuttle when the latter is being boxed and matlc looms and more-particularly for means for therefore eliminate possibility of the bobbin turnpreventing spring clips from spreading due to ing on its axis.
  • the bobbin y be f the sooa11ed oval or t the lower part of the mass of eft, type wherein the barrel on which the weft W is The shuttle moves at a high rate of s ed and wound has a horizontal transverse dimension 5 is brought to r st abru tl by engagement th greater than the vertical dimension and the weft the picker.
  • a transferrer arm 40 movable about a pivot 4
  • a reserve bobbin 5!] is presented in any approved manner under the transferrer arm when a transfer is to take place. The advancing lay depresses the rear end of the transferrer arm to force the reserve bobbin 50 against the bobbin lever.
  • the blocks 30 will not be able to prevent spreading of the spring jaws under the action of the positive force exerted by the transferrer arm, and the reserve bobbin 50 will therefore pass into the shuttle and the depleted bobbin I I will be expelled downwardly through a slot Si in the lay.
  • the blocks 30 will spring back to their normal condition where they are effective to resist a separation of the jaws when the shuttle is boxed.
  • my present invention contemplates a particular relationship between three forces the strongest of which is exerted by the transferrer arm through the incoming bobbin and the weakest of which is exerted by the momentum of the bobbin tending to spread the jaws when the shuttle is boxed. Lying intermediate these two forces is the resistance offered by the blocks 30, these blocks being strong enough to resist compression when the shuttle is boxed, but yielding sufficiently to permit a normal transfer when the transfer arm 40 descends.
  • a shuttle for an automatic loom integral spaced resilient bobbin holding jaws mounted in the shuttle, a bobbin having rings held by the jaws and tending by the momentum thereof to spread the jaws apart when the shuttle is boxed, and a block of slightly resilient material for each jaw, each block located between and contacting the corresponding jaw and an adjacent part of the shuttle adjacent to the rings, said blocks resisting the tendency of the jaws to spread apart when the shuttle is boxed.
  • integral spaced resilient bobbin holding jaws mounted in the shuttle, a bobbin head with rings held by the jaws and tending by the momentum thereof to spread the jaws apart when the shuttle is boxed, and a block of slightly resilient rubber for each jaw, each block of rubber engaging the shuttle and also the corresponding jaw adjacent to the rings on the head, said blocks resisting the tendency of the jaws to spread apart when the shuttle is boxed.
  • a pair of integral resilient substantially parallel jaws mounted in the shuttle and extending along walls of the shuttle and having grooves therein, a bobbin having a head provided with rings to enter the grooves of the jaws, said bobbin tending by its momentum to spread the jaws apart when the shuttle is brought to rest, and a block of resilient material between each jaw and the adjacent shuttle wall acting in addition to the resilience of the jaws to prevent separation of the latter by the momentum of the bobbin, said blocks being located between the grooves in the jaws and the adjacent shuttle walls.
  • a spring member mounted in the shuttle and having two spaced resilient integral jaws, each jaw extending along one of the walls, each jaw having transverse grooves therein on the sides thereof opposite the adjacent wall, a bobbin having a head provided with holding rings which enter the grooves in the jaws, the momentum of the bobbin tending by reason of contact between the rings and the jaws to spread the latter when the shuttle is brought to rest, and a block of rubber between each jaw and the adjacent shuttle wall, each block of rubber engaging the corresponding jaw along the surface opposite the grooves there of and acting in addition to the resilience of the jaws to resist spreading of the latter by the bobbin when the shuttle comes to rest.

Landscapes

  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Braiding, Manufacturing Of Bobbin-Net Or Lace, And Manufacturing Of Nets By Knotting (AREA)
  • Looms (AREA)

Description

Nov. 29, 1938. R. G. TURNER SHUTTLE FOR AUTOMATIC LOOMS I Filed Jan. 2, 1937 Inventor Richard flrTurner 44m? Attorney momentum of the bobbin when the shuttle is With these and other objects in view which .5 boxed. will appear as the description proceeds, my in- When bobbins oval in transverse ection are vention resides in the combination and arrangeused it is necessary to maintain the long transment of parts hereinafter described and set forth. verse axis horizontal. If this axis becomes ver- In the accompanying drawing, wherein a contical the lower edge of the weft projects below Vehieht embodiment of y invention is Set forth, to the bottom of the shuttle and interferes not only Fi 1 i a p p v w of one n of a y with correct shuttle boxing, but also interferes Showing a Shuttle made ccording to my Dreseh with the lower sheet of warp threads during. the invention, flight of the shuttle. Fig. 2 is a. vertical section on an enlarged scale It has been discovered that there is a tendency On line is on the part of a bobbin to rotate about its longi- F g. 3 is a diagrammatic v w ill r i g the tudinal axis during weaving, particularly when a s e mechanism, and bobbin is held by means of spring jaws which en- 4 is a horizontal Sect o n ne of gage rings on the head of the bobbin. An angular motion sufiicient to give the bobbin a quarter turn Referring mo e p a ly to Fi I ve would place the long transverse axis vertical and shown a 100m y having a Shuttle bOX B to .20
Patented Nov. 29, 1938 2,138,221
UNITED STATES PATENT OFFICE SHUTTLE FOR AUTOMATIC LOOMS Richard G. Turner, Worcester, Mass., assignor to Crompton & Knowles Loom Works, Worcester, Mass, a corporation of Massachusetts Application January 2, 1937, Serial No. 118,787
4 Claims. (Cl. 139207) This invention relates to improvements in autothe shuttle when the latter is being boxed and matlc looms and more-particularly for means for therefore eliminate possibility of the bobbin turnpreventing spring clips from spreading due to ing on its axis.
interfere very objectionably with the proper pickreceive a shuttle S provided with a bobbin H. ing of the shuttle and result also in damage to The bobbin y be f the sooa11ed oval or t the lower part of the mass of eft, type wherein the barrel on which the weft W is The shuttle moves at a high rate of s ed and wound has a horizontal transverse dimension 5 is brought to r st abru tl by engagement th greater than the vertical dimension and the weft the picker. This stopping or" the shuttle motakes the gener-alformihdioated in F tion is attended with considerable shock and as a The bobbin has a head E15 prdvided'with e result there is a tendency on the t of th customary metal rings [6 which are received by a bobbin to continue movement in the direction of Spring p IT having front a real laws l8 and 39 travel of the shuttle due to its momentum. Berespectively These l w a ved in th cause of the shape of the contacting surfaces usual manner, a Suggested in go ceive between the rings and the spring jaws the latter the rings The rings d t e W den head spread slightly due to the fact that the bobbin f the b bbin n whi h 'ar t d e her tends to continue its motion when the shuttle is th t e Spring D n are of the usual Construcabruptly stopped. When the momentum of th tion. The box B has a shuttle binder 28 and a v bobbin is spent the jaws move back to their norbinder Spring 21 and the Shuttle p p y mal position. If at this time the spring forces a picker 22 in the usual way.
acting on the bobbin are not balanced there will When the shuttle is boxed it strikes the picker be a slight turning moment tending to rotate the 22 with considerable force and is brought to rest 40 bobbin about its longitudinal axis. abruptly, since the picker lies against the box 40 It is an important object of my present inend 23. As a result the bobbin, because of its vention to prevent the aforesaid slight spreading momentum, tends to move toward the picker and of the jaws when the shuttle is boxed. As set the round rings bearing against the bevels 25 forth hereinafter I accomplish this result by proof the sides of the grooves 26 tend by reason of 5 viding the shuttle with resilient blocks or" rubber the force exerted due to momentum to spread or the like which are sufficiently strong to rethe jaws slightly. This force is not very large sist spreading of the jaws by any force which but is suflicient to cause a temporary separation may be exerted by the rings of the shuttle against of the jaws l8 and I9. the bevelled grooves of the jaws incident to box- The matter thus far described is of known ing. The blocks, however, are suihciently reconstruction and of itself forms no part of my 50 silient to yield under the positive force exerted present invention. by the transferrer at the time a new bobbin is In carrying my invention into effect, I probeing inserted into the shuttle. By provision of vide the shuttle with blocks 30 of slightly resilient these means I maintain close contact between rubber which are interposed between the front the rings of the bobbin and the spring jaws of and back shuttle walls 3| and 32, respectively, 55
as shown, and the jaws I8 and I9, respectively. These blocks may be recessed into the shuttle walls or held therein in any other approved manner. The blocks 30 bear against the outer vertical walls of the adjacent jaws and create sufficient resistance to prevent spreading of the shuttle by momentum of the bobbin when the shuttle is boxed.
It is necessary to make provision for transferring a new bobbin into the shuttle, and this result may be accomplished as shown in Fig. 3 by a transferrer arm 40 movable about a pivot 4| and is actuated by a latch 42 pivoted to the arm at 43 and movable by mechanism not shown but well understood into the path of the dagger 44 on the lay. A reserve bobbin 5!] is presented in any approved manner under the transferrer arm when a transfer is to take place. The advancing lay depresses the rear end of the transferrer arm to force the reserve bobbin 50 against the bobbin lever. At this time the blocks 30 will not be able to prevent spreading of the spring jaws under the action of the positive force exerted by the transferrer arm, and the reserve bobbin 50 will therefore pass into the shuttle and the depleted bobbin I I will be expelled downwardly through a slot Si in the lay. As soon as the transferring action is completed the blocks 30 will spring back to their normal condition where they are effective to resist a separation of the jaws when the shuttle is boxed.
It is to be understood that my present invention contemplates a particular relationship between three forces the strongest of which is exerted by the transferrer arm through the incoming bobbin and the weakest of which is exerted by the momentum of the bobbin tending to spread the jaws when the shuttle is boxed. Lying intermediate these two forces is the resistance offered by the blocks 30, these blocks being strong enough to resist compression when the shuttle is boxed, but yielding sufficiently to permit a normal transfer when the transfer arm 40 descends.
From the foregoing it will be seen that I have provided a shuttle wherein the spring jaws are prevented from separation by engagement with the slightly resilient means interposed between the jaws and the walls of the shuttle when the shuttle is boxed. It will also be seen that the resistance offered by these resilient means represents a force which lies between that exerted by the transferrer arm and the force of the momentum derived from the bobbin when the shuttle is boxed.
Having thus described my invention it will be seen that changes and modifications may be made therein by those skilled in the art without departing from the spirit and scope of the invention and I do not wish to be limited to the details herein disclosed, but what I claim is:
1. In a shuttle for an automatic loom, integral spaced resilient bobbin holding jaws mounted in the shuttle, a bobbin having rings held by the jaws and tending by the momentum thereof to spread the jaws apart when the shuttle is boxed, and a block of slightly resilient material for each jaw, each block located between and contacting the corresponding jaw and an adjacent part of the shuttle adjacent to the rings, said blocks resisting the tendency of the jaws to spread apart when the shuttle is boxed.
2. In a shuttle for an automatic loom, integral spaced resilient bobbin holding jaws mounted in the shuttle, a bobbin head with rings held by the jaws and tending by the momentum thereof to spread the jaws apart when the shuttle is boxed, and a block of slightly resilient rubber for each jaw, each block of rubber engaging the shuttle and also the corresponding jaw adjacent to the rings on the head, said blocks resisting the tendency of the jaws to spread apart when the shuttle is boxed.
3. In a shuttle for an automatic loom, a pair of integral resilient substantially parallel jaws mounted in the shuttle and extending along walls of the shuttle and having grooves therein, a bobbin having a head provided with rings to enter the grooves of the jaws, said bobbin tending by its momentum to spread the jaws apart when the shuttle is brought to rest, and a block of resilient material between each jaw and the adjacent shuttle wall acting in addition to the resilience of the jaws to prevent separation of the latter by the momentum of the bobbin, said blocks being located between the grooves in the jaws and the adjacent shuttle walls.
4. In a shuttle having spaced vertical walls, a spring member mounted in the shuttle and having two spaced resilient integral jaws, each jaw extending along one of the walls, each jaw having transverse grooves therein on the sides thereof opposite the adjacent wall, a bobbin having a head provided with holding rings which enter the grooves in the jaws, the momentum of the bobbin tending by reason of contact between the rings and the jaws to spread the latter when the shuttle is brought to rest, and a block of rubber between each jaw and the adjacent shuttle wall, each block of rubber engaging the corresponding jaw along the surface opposite the grooves there of and acting in addition to the resilience of the jaws to resist spreading of the latter by the bobbin when the shuttle comes to rest.
RICHARD G. TURNER.
US118787A 1937-01-02 1937-01-02 Shuttle for automatic looms Expired - Lifetime US2138221A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US118787A US2138221A (en) 1937-01-02 1937-01-02 Shuttle for automatic looms

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US118787A US2138221A (en) 1937-01-02 1937-01-02 Shuttle for automatic looms

Publications (1)

Publication Number Publication Date
US2138221A true US2138221A (en) 1938-11-29

Family

ID=22380732

Family Applications (1)

Application Number Title Priority Date Filing Date
US118787A Expired - Lifetime US2138221A (en) 1937-01-02 1937-01-02 Shuttle for automatic looms

Country Status (1)

Country Link
US (1) US2138221A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2771910A (en) * 1954-01-28 1956-11-27 Draper Corp Shuttle spring
US3048197A (en) * 1958-08-27 1962-08-07 Fink Armin Shuttle with a bobbin clamping device
US3233635A (en) * 1962-07-13 1966-02-08 Klocker O H G Geb Loom shuttle having installed or attached structures liable to be subjected to shock
US3853154A (en) * 1972-01-24 1974-12-10 Rueti Ag Maschf Clip device on a shuttle of a loom

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2771910A (en) * 1954-01-28 1956-11-27 Draper Corp Shuttle spring
US3048197A (en) * 1958-08-27 1962-08-07 Fink Armin Shuttle with a bobbin clamping device
US3233635A (en) * 1962-07-13 1966-02-08 Klocker O H G Geb Loom shuttle having installed or attached structures liable to be subjected to shock
US3853154A (en) * 1972-01-24 1974-12-10 Rueti Ag Maschf Clip device on a shuttle of a loom

Similar Documents

Publication Publication Date Title
US3638686A (en) Carriers for filling insertion in a weaving machine
US2138221A (en) Shuttle for automatic looms
US2207107A (en) Resilient mounting for binders
US2329999A (en) Thread cutter and clamp for weft replenishing looms
US2693829A (en) Gripper shuttle
US1906957A (en) Picker control for looms
US2140893A (en) Automatic loom
US2250866A (en) Weft end control means
US2103837A (en) Weft carrier for automatic looms
US1812079A (en) Replenishing shuttle boxes
US1953640A (en) Shuttle check
US1239086A (en) Weft-replenishing mechanism for looms.
US3838714A (en) Device for the positioning of the shuttle of a loom for weaving fabric
US2082678A (en) Automatic-loom shuttle
US2045967A (en) Shuttle check and release
US1826298A (en) Bobbin support for weft replenishing looms
US1521182A (en) Weft-replenishing mechanism
US1692967A (en) Resilient support for bobbins
US896015A (en) Weft-replenishing loom.
US1760969A (en) Thread clearer for looms
US1873108A (en) Weft detecting mechanism for drop box looms
US2381790A (en) Bobbin magazine for weft replenishing looms
US1856177A (en) Auxiliary shuttle box for shuttle changing looms
US1171766A (en) Loom-shuttle.
US1516790A (en) Weft-carrier magazine