US2755823A - Warp let-off for looms - Google Patents

Description

July 24, 1956 J. o. HUNT WARP LET-OFF FOR LOOMS 3 Sheets-Sheet 1 Filed May 22, 1953 July 24, 1956 J. o. HUNT WAR? LET-OFF FOR LOOMS 3 Sheets-Sheet 2 Filed May 22, 1953 INVENToR ./0/7/7 0. Hanf MMU Afforr/eys July 24, 1956 J. o. HUNT wARP LET-OFFFOR LooMs 3 Sheets-Sheet 3 Filed May 22, 1953 INVENToR Jo/m 0. Hunt WARE LET-OFF FOR LOOMS .lohn 0. Hunt, Greenville, S. C.

Application May 22, 1953, Serial No. 356,834

1 Claim.. (Cl. 139-110) This invention relates to warp left-olf mechanisms for use in looms and is concerned more particularly with a novel let-oit of the positive type, which maintains more nearly uniform tension on the warp sheet than has heretofore been attained and functions in such a way as to avoid the creation of set marks in the fabric as a result of damage to the warp yarns.

Positive let-011s are now in common use and one form of such mechanism comprises a let-off shaft connected through gearing to the warp beam and driven through worm gearing by a worm shaft. The worm shaft is rotated stepwise by pawl and ratchet means, including a pawl carrier actuated by a rod acted on by a reciprocating link. The rate of let-oilc is determined by the throw of the rod and is controlled by mechanism actuated by the whip roll, as it moves in response to variations in the tension on the warp threads, and other mechanism responding to the decreasing size of the warp supply on the beam. The whip roll mechanism includes a spring resisting the movement of the roll by the warp sheet as the shed is opened and, since such a spring offers increasing resistance as it is compressed, it will be apparent that the spring-pressed whip roll applies a tension to the warp, which varies with the position of the roll. The mechanism for controlling the let-off, which responds to the size of the warp supply on the beam, includes a roller pressed by a spring against the warp. The pressure of such a roller on the warp yarns is likely to do damage to yarns of certain kinds, such as those of lamentary synthetic fibers, and the use of the roller is objectionable for that reason. Another disadvantage of the let-o described is that, when the loom is stopped for any reason, the pressure of the whip roll on the warp is maintained and, in the case of rilamentary synthetic fiber yarns, the roll produces effects on the yarns, which appear in the fabric as set marks.

The let-01T of the invention operates to vary the rate at which the yarn is let off the warp beam in response both to the tension on the warp threads and to the size of the warp supply on the beam, but it achieves the desired results without the disadvantages above set forth, to which conventional let-offs are subject. Thus, in the new letoif, the whip roll is held against the warp sheet under constant pressure, and, for this purpose, pneumatic means are employed including a cylinder containing a piston subjected to air pressure supplied from a source, such as a tank of substantial size. With this arrangement, the pressure applied through the piston to the whip roll does not vary, as the roll changes its position and, as a result, movement of the roll by the warp threads does not subject the threads to a rapidly increasing tension as in the case of a roll acted on by a spring. The control of the rate of let-off in response to the size of the warp supply on the beam is effected by supporting the beam journal on at least one bearing, which is held in place pneumatically and assumes different positions according to the weight of the beam. The pneumatic pressure developed by the weight of the beam actuates mechanism, which tates Patent O F increases the rate of let-off as the weight of the beam decreases.

A further feature of the new let-oit is the provision of means, by which stopping of the loom is accompanied by a release of the pressure of the whip roll against the warp sheet. For this purpose, the control element, such as a shipper handle, by which the loom is started and stopped, operates to release the pneumatic pressure from the whip roll, when the loom is stopped. This prevents distortion of the warp threads as a result of prolonged pressure exerted thereon by the whip roll and avoids the formation of set marks in the fabric.

Forl a better understanding of the invention, reference may be made to the accompanying drawings, in which Fig. 1 is a view in side elevation with parts removed of a loom equipped with the new let-0E;

Fig. 2 is a rear elevational view with parts cut away of the loom shown in Fig. 1;

Fig. 3 is a view similar to Fig. 2 showing a modified construction; and

Fig. 4 is a fragmentary elevational View of a modified feature of the new let-oif.

The loomillustrated in Figs. 1 and 2 is provided withsides 10, 11, and theside 10 has abracket 12 providing a bearing for thejournal 13 at one end of thebeam 14. Thejournal 15 at the other end of the beam is supported in abearing 16 attached to a rod connected to a piston within acylinder 18 mounted on the loom side 11. The lower end of the cylinder is connected by aline 19 to the bottom of acontrol cylinder 20 of substantially smaller diameter than the cylinder 1S and mounted on the loom side it).Cylinder 20 contains a piston and a piston rod extending out of the top of the cylinder and having apin 21 projecting laterally therefrom. The cylinder contains a quantity of air trapped above the piston and apressure gauge 22 is connected to the cylinder above the piston to indicate the pressure of the trapped air. Theline 20 includes aT 23, to one branch of which is connected anair supply line 24 containing acontrol valve 25.

Avertical worm shaft 26 is mounted in vertically spaced bearings in abracket 27 attached to theloom side 10 and the shaft is provided with a worm 28 meshing with aworm wheel 29 on ashaft 30, which carries a pinion 31 meshing with agear 32 attached to the warp beam. Aratchet wheel 33 is fast on the worm shaft and operable bypawls 34 on apawl carrier 35 loosely mounted onshaft 26. A rod 36 is pivotally attached to the pawl carrier and has one end extending through a sleeve 37 forming part of a bracket 38 attached to theloom side 10. The rod 36 carries acollar 39 and is encircled by a spring 4i) acting 011 the collar and seated against the end of sleeve 37, the spring tending to urge the rod 36 to the left, as seen in Fig. 1. Thecollar 39 on rod 36 is engageable by the end of alink 41 reciprocated by a suitable part of the loom, and, when rod 36 is pulled bylink 41, thepawl carrier 35 is given a rotary movement effecting a movement of the ratchet wheel, which in turn causes let-oit of yarn from the beam. The amount of yarn let off by a rotary movement of the pawl carrier depends upon the length of the stroke of rod 36 and this in turn depends on the position of the rod and the point during the stroke oflink 41, at which the link engages thecollar 39 on the rod. The position of rod 36 thus determines the length of the steps in the movement of the warp beam.

The rod 36 is provided with acollar 41, which is engageable by the lower end of alever 42. The lever has a fulcrum on apin 43 carried by one arm of'lever 44 pivotally mounted on apin 45 carried by theloom side 10. The other arm oflever 44 is engageable by thepin 21 connected to the piston rod of the piston within thecontrol cylinder 20. Thefulcrum 43fof lever 42 is up- Patented July Z4, 1956 wardly offset from thepivot pin 45 oflever 44 and, when thelever 44 moves counterclockwise, as seen in Fig. l, thefulcrum 43 is shifted to move the lower end oflever 42 in a direction away fromcollar 41. However, thespring 40 acts to move rod 36 to maintaincollar 41 in Contact with the lower end oflever 42 at all times and the shifting oflever 42, as described, causes an increase in the stroke of rod 36 bylink 41 and a corresponding increase in the amount of yarn let off for each stroke of rod 36.

The loom sides and 11 are provided withbrackets 46, which serve as bearings for a shaft 47, to which is rigidly attached a pair of arms 48 providingbearings 49 for awhip roll 50. An arm 51 is rigidly attached to shaft 47 and the lower end of the arm is connected by alink 52 to the upper end oflever 42. Arm 51 is also connected to arod 53 attached to a piston within acylinder 54 pivotally mounted at 55 on theloom side 10. Air under pressure can be supplied tocylinder 54 at the endadjacent pivot 55 through aline 56 containing a valve 57 having anoperating handle 58. The handle is connected by alink 59 to theshipper handle 60, by which the loom can be started and stopped. The whip roll engages the warp sheet formed of thewarp yarns 61 leaving the warp supply onbeam 14 and is caused to move up and down about the axis of shaft 47, as the tension on the warp yarns varies.

In the operation of the let-ofIr described, air under pressure is introduced from thesupply line 24 into theline 19 connecting thecylinders 18 and 20, until the cylinders contain air at a suitable pressure, after whichvalve 25 is closed. When a full warp beam is put into position with one journal received in the bearing inbracket 12 and the other inbearing 16 are connected to the piston withincylinder 18, the weight of the beam causes the piston withincylinder 18 to move down and the piston within thecontrol cylinder 20 to move up. The air conned incylinder 20 above the piston is then subjected to increased compression and the pressure is shown on thegauge 22. The upward movement of the piston in the control cylinder by the weight of the beam causes thelever 44 to swing clockwise, as seen in Fig. 3 and thefulcrum 43 oflever 42 is swung clockwise about thepivot 45 oflever 44. The shifting of thefulcrum 43 oflever 42 causes the lower end of lever to engage thecollar 41 on rod 36 and to move the rod against the compression ofspring 40 and in a .direction to decrease the letol. Thecontrol cylinder 20 is of much less diameter thancylinder 18, as, for example, cylinder 18 -rnay have a diameter five times that kofcylinder 20. As a result, a small movement of the piston incylinder 18 produces a large movement incylinder 20 and a corresponding movement oflever 44.

During the operation of the loom, the tension on the warp threads l61 is increased, whenever the shed is opened, and this causes thewhip roll 50 to move shaft 47 counterclockwse, as seen in Fig. l. The movement of the whip roll causes arm 51 to swing with shaft 47 and the movement of the arm is resisted -by the air pressure withincylinder 54. The interior of the cylinder is connected through valve 57 Ytoythe supply line 56 and the pressure behind the piston incylinder 54 maintains a continuous force upon arm 51 resisting the movement of the whip roll. As the whip roll is moved by the pull of the Warp threads and swings arm 51, the arm operates throughlink 52 toVrock lever 42 to move its lower end in a direction away fromcollar 41 and thus Vincrease the let-oit. As the weight of the warp supply on the beam decreases, the pressure within thecontrol cylinder 20 above the piston therein decreases and, asthe `piston withincylinder 20 moves down,lever 44 is rocked on itspivot 45 to shift-the fu1crum43 oflever 42 and move the lower end of that lever in a direction away from collar 41' on rod 36 to Vincreasethelet-off.

During the operationof .the loom, the interior ofcylinder 54 is connected throughline 56 to a source of air under pressure, such as a tank supplied by a pump under automatic control. As a result, a constant force is applied to the whip roll through arm 51 on shaft 47 and the Warp yarns move the Whip roll against constant resistance oiered by the pressure behind the piston incylinder 54. In prior let-offs, in which the movement of the whip roll is resisted by a spring, the force exerted by the spring increases as the Spring is compressed, so that the movement of the whip roll is against an increasing force, which imposes an increasing tension on the warp yarns. Also, in former let-offs, the rate of let-ott is controlled in part by a roller bearing against the warp supply on the beam and the rubbing of the roller on the yarn is likely to do damage thereto. In the present apparatus, the rate of let-off is controlled in part by the weight of the yarn on the beam, so that the let-olf can be increased as the supply of warp on the beam diminishes, and the desired control is exercised without the use of a member contacting with the yarn and liable to do damage thereto.

The valve 57 in the new let-oit is of the three-way type and, when the shipper handle 60 is moved to stop the loom, the handle operates the valve to shut off theline 56 and open the interior ofcylinder 54 to the atmosphere. As a result, the whip roll no longer applies tension to the warp threads and the light contact of the whip roll with the threads avoids the distortion of the threads, which result in set marks in the fabric. When the loom is again started by operation of the shipper handle, valve 57 is rotated to shutoi cylinder 54 from the atmosphere and connect the cylinder to thesupply line 56, s o that the whip roll is forced against the warp tlreads by pressure applied to the piston within cylinder 5 The let-cfr of modified construction shown in Fig. 3 is similar in many respects to that above described and corresponding parts are designated by the same reference characters with prime marks added. In the Fig. 3 construction, the bearing 12' for thejournal 13 at one end of thewarp beam 14 is mountedl on a rod 62 connected to a piston within acylinder 63. Thejournal 15 at the other yend of the beam is supported, as in the Fig. l construction, in abearing 16 mounted on the rod 17' connected to a piston within -a cylinder 18'. The lo-wer ends of .cylinders 18 and 63 are connected by aline 19 containing a four-way fitting 64 having a branch, to which anair supply line 24 containing a valve 25' is connected. Another branch of the fitting is connected by aline 65 to the lower end of acontrol cylinder 20. In all other respects, the let-oils of Figs. l and 3 are the same and their operation is -the same.

In some cases, it may be desirable to construct the device, so that Vincreasing lresistance is oered to the movement of the whip Vroll by the warp threads and, for this purpose, the construction shown in Fig. 4 can be employed. As illustrated, the arm 51', which corresponds to rarm 51 and is connected to the whip roll so as to be moved thereby, is lalso connected by arod 53 to a piston `within a cylinder S4. The cylinder has a head 66, on which is mounted a second cylinder 57, which is preferably of somewhat smaller capacity than cylinder 54'.Cylinder 67 contains a piston mounted on arod 68 threaded through the end plate 69 ofcylinder 67. The interiors ofcylinders 54 and 67 at the same side of the piston are connected by a passage through the head 66 and Aan air supply line 70 is connected to the inlet of the passage. rThe line `contains a valve 71 having an operating arm 72,-which is connected Vby alink 59 to a shipper handle, notshown.

In the operation of the apparatus sho-wn in Fig. 4, starting of the loom by :the operation of the shipper handle causesamovement of the handle 72 of vvalve 71, so that the valve momentarily connects the air supply line 70 to the .passage in the head 66 of thecylinders 54 and 67 and then shuts off the line from the passage. There is, accordingly, a volume of trapped air in the two cylinders between their pistons and head 66 and the size of the volume of air trapped depends on the setting of the piston withincylinder 67. When the whip roll is moved by the tension on the warp yarns and swings arm 51', the piston withincylinder 54 is moved to reduce the volume of the trapped air and the pressure of such air increases, so that the movement of the whip roll is against increasing resistance. The rate, at which such resistance increases, depends on the setting of the piston withincylinder 67 and this setting can be adjusted by the threadedrod 68. Whenever the loom is stopped by the shipper handle, the valve 71 is operated by its handle 72 to connect the passage within head 66 to the atmosphere, so that the trapped air within the two cylinders can escape. The whip roll then engages the warp threads so lightly that, if the loom stands at rest for any length of time, the warp yarns are not distorted by whip roll pressure and set marks in the fabric are avoided.

In both forms of the new let-ot, the warp beam is rotated step by step and the length of the steps is varied in accordance with the tension on the warp yarns and the size of the available warp supply. The whip roll is held against the warp sheet under constant pressure or under a pressure increasing at a controlled rate as the roll is moved and the pressure exerted by the whip roll on the warp sheet is cut olf whenever the loom is stopped. By controlling the let-off by means responsive to the weight of the warp beam, rather than by a roller engaging the warp supply, damage to the yarns is avoided. The reading of thegauge 22 on the control cylinder is an indication of the size of the warp supply present on the beam, so that an inventory of the amount of the warp supplies on a number of looms equipped with the new let-offs can be easily taken.

Iclaim:

A warp let-off for use in looms, which comprises a Warp beam supplying warp yarns in the form of a sheet, means for positively rotating the beam stepwise, said means being regulable to vary the length of the steps in the beam movement, a whip roll in contact with the warp sheet being let oi, the roll being movable by the warp sheet as the tension thereon varies, means holding the whip roll against the warp sheet under pressure, means controlled by the whip roll for regulating the beam rotating means, and means responsive to the weight of the warp beam for regulating the beam rotating means and including at least one bearing for the beam, a pair of cylinders connected together and containing a tluid under pressure, a piston in each cylinder, a connection between one piston and the bearing, and a connection between the other piston and the beam rotating means.

References Cited in the tile of this patent UNITED STATES PATENTS 1,062,443 Coulombe May 20, 1913 1,103,661 Coulombe July 14, 1914 2,350,954 Brown June 6, 1944 2,551,920 Willis May 8, 1951 2,571,509 Willis Oct. 16, 1951 2,661,774 Kretzschmar Dec. 8, 1953

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