1. Technical Field
Embodiments of the invention relate to the field of warping looms in textile weaving and manufacturing.
2. Description of the Related Art
Since before the industrial revolution, the heddles used on handlooms have been similar in design. Heddles generally have a closed loop in the center through which the ends of warp threads are threaded. The top and bottom of the heddles have loops through which the heddles are attached to the harness or shaft frame. Heddles are typically made of polyester, twisted wire, or are pressed from sheet metal. Warp threads extend from a beam on one end of the loom, through a heddle, and attach to another beam at the other end of the loom.
One disadvantage of a closed loop heddle is that, once it is attached to the frame, it cannot be removed from the frame. Nor can the warp threads be removed from the heddles, once warping begins, since the warp threads are threaded through the heddle's center. Advanced weavers create complex weaving patterns using shaft switching. Shaft switching is the changing of the harness on which a single warp thread is moved. When switched to another harness, those warp threads can then change the pattern being woven. Shaft switching is not easily accomplished with conventional closed loop heddles. If a mistake is made during the warping process, all of the ends of the warp threads must be unthreaded back to the point at which the mistake was made to correct the problem. While some complex assemblies have been designed that open and close the eyelet of the heddle, the complex assemblies consist of several moving parts and are not readily adaptable to existing looms.
The warp beams or tie rods used on most handlooms are similar in design. The beams consist of a metal rod or wooden stick onto which the ends of the warp threads are tied. The traditional warp beams, and looms, do not provide any means to measure out the length of the warp threads. The warp beams are not meant to be used when removed from the loom. They also do not have means for maintaining a fixed distance between warp threads. The warp beams are seldom, if ever, removed from the loom. Clamps have been developed to attach warp thread to a beam without tying knots. However, the clamps have several disadvantages including multiple warp threads bunched together without separation, requiring drilling many holes into existing warp beams, having multiple parts, and using a series of springs with inconsistent tension on the warp threads across the beam.
Groups of 8 or more warp threads are typically tied to a warp beam in a single knot, which causes the threads to fan out from the knot to the heddles. The fan-out of the warp threads causes a scalloped edge at the beginning portion of a warp, and is referred to as the draw-in effect. For this reason, several inches of cloth must be woven before the scallops even out and the actual project may be started. This consumes time, adds to the amount of wasted material, and increases the overall length of the required warp.
An alternate means of attaching warp threads to a loom is to wind individual warp threads over a strip of adhesive on the beam and around the circumference of the beam. The disadvantages of this method include the potential for adhesive residue on the warp threads, potential release of the adhesive on one or more warp threads and attendant variations of tension, and a lack of positive and consistent control of the separation between warp threads. In addition, the method is not conducive to removal and replacement of the entire warp due to an inability to replicate the initial tension. This method also does not allow loading or removing the warp without removing all heddles from their frame.
Attaching the warp threads to the warp beams, also referred to as warping, in the traditional manner is very tedious. Traditional weavers usually install yards and yards of warp thread at one time. This permits the weaver to weave many projects before re-warping the loom. Unfortunately this means waiting until the entire warp is used before the individual projects can be removed from the loom. This can be especially frustrating for beginning weavers.
It is therefore desirable to provide quick threading, openable heddles and a warp beam that provides even spacing of warp thread, even tension on the warp thread, and rapid set-up.
In some embodiments, a heddle for a weaving loom includes an eyelet with a break in the circumference of the eyelet. The break allows insertion and removal of a warp thread in the eyelet while both ends of the warp thread are attached to the weaving loom.
In other embodiments, a method of warping a loom includes positioning the warp thread against the periphery of an eyelet in the heddle; and moving the warp thread through a break in the periphery of the eyelet.
In still other embodiments, a warp beam includes a deck and a plurality of retaining members configured in spaced relationship to one another on the deck. Each retaining member retains a strand of warp thread that is substantially parallel to lines of warp thread retained by the other retaining members.
In further embodiments, a kit for retrofitting a loom includes a first warp beam and a second warp beam. The first and second warp beams include retaining members for retaining portions of warp thread in spaced apart substantially parallel relation, and the first and second warp beams are attachable to existing warp beams on the loom.
The foregoing has outlined rather broadly the features and technical advantages of embodiments of the present invention so that those skilled in the art may better understand the detailed description of embodiments of the invention that follows.
Embodiments of the present invention may be better understood, and their numerous objects, features, and advantages made apparent to those skilled in the art by referencing the accompanying drawings. The use of the same reference symbols in different drawings indicates similar or identical items.
Embodiments of heddles and warp beams are disclosed that facilitate warping a loom by allowing the beams to be warped before being attached to the loom. Additionally, the warp threads can be threaded through an opening in the eyelets of the heddles while both ends of the warp thread remain attached to the warp beams.
Referring to
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In the embodiment shown, break 402 includes two overlapping portions 404, 406 formed or cut in the sidewall of the circumference of the eyelet. Overlapping portions 404, 406 are fabricated from rigid material with flexible properties that allows overlapping portions 404, 406 to be separated to insert and remove warp thread 124 from the eyelet, and return to their original position when released. In some embodiments, overlapping portions 404, 406 can include a fastener to retain overlapping portions 404, 406 in a closed position to retain warp thread 124 in the eyelet. The fastener can be disengaged to move overlapping portions 404, 406 apart to remove warp thread 124 from the eyelet. An example of a fastener than can be used on overlapping portions 404, 406 includes one or more protuberances 408 that are sized and shaped to snap into and out of corresponding indentation(s) (not shown) in overlapping portion 404. Other suitable fasteners for opening and closing overlapping portions 404, 406 can be utilized, in addition to, or instead of, protuberances 408 and corresponding indentations.
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Warp beams 800 can include warp thread attachment points to retain the ends of warp thread 124. The ends of warp thread 124 can be tied or otherwise fastened to retaining members 802, or other suitable structure. In one embodiment, a knot is tied in warp thread 124 to fasten the end of warp thread 124 to one of retaining members 802, or other suitable structural component on warp beam 800 or loom 700. In alternate embodiments, the ends of warp thread 124 can be adhesively attached, positioned in a notch, or clamped to warp beam 800. In some situations, for example in the production of multi-colored or striped material, more than two attachments for the ends of warp threads 124 may be required. In such embodiments, different warp threads 124 can be wound on warp beam 800, with each end of warp thread 124 being attached to an intermediate retaining member 802, or other suitable structural component, on warp beam 800.
A single length of warp thread 124 can be used to warp loom 700 by winding warp thread 124 in consecutive parallel lines between two spaced apart warp beams 800. Accordingly, parallel lines of warp thread 124 are evenly spaced over their entire length between warp beams 800, and very few knots or other means for attaching warp threads 124 are required. The even spacing between parallel lines of warp thread 124 over their entire length eliminates the “draw-in effect” found on conventional looms, which is caused by attaching multiple warp threads 124 to one location on a warp beam.
In some embodiments, warp thread 124 is attached to warp beam 800 by inserting a portion of warp thread 124 between retaining members 802 and retention strip 808. Retention strip 808 can be fabricated with elastic material capable of deflecting when warp threads 124 are inserted around portions of the retaining members 802. Retention strip 808 substantially maintains to its original shape to provide compressive force on warp thread 124 against retaining members 802. Retention strip 808 can be positioned adjacent retaining members 802 to keep warp thread 124 in place by providing compression against the portion of warp thread 124 positioned between retaining members 802 and retention strip 808.
Sufficient tightness of retention strip 808 is typically developed to hold the warp thread in place if warp thread 124 breaks. Alternatively, a strip of adhesive tape or other retention mechanism placed under and over the ends of warp thread 124, adjacent to retention strip 808, can retain warp thread 124 in the event of a break.
In some embodiments of warp beam 800, retaining members 802 comprise snap hooks or other suitable fasteners that grasp a portion of warp thread 124. Such embodiments may not require retention strip 808. Retaining members 802 can be spring-mounted to create consistent tension between parallel lines of warp thread 124. Further, certain types of fasteners such as snap hooks can be used as retaining members 802 to reduce or even eliminate the need to tie knots in warp thread 124 to attach the ends of warp threads 124 to retaining members 802. The snap hooks, or other fasteners, can be installed at any desired spacing along warp beam 800.
Warp beams 800 can be attached to loom 700 (
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A loom assembly that includes warp beams 800 and heddles 600 can be warped in much less time than conventional looms. The various alternate embodiments of heddles 600 described herein enable warp threads 124 to be threaded through heddles 100 after the entire warp 900 is attached to loom 700. Additionally, warp beams 800 and heddles 600 enable different warps 900 to be easily interchanged to switch weaving projects before the projects are finished. The various embodiments of heddles 600 also allow warp thread 124 to be removed without removing either end of warp thread 124 from loom 700. Once unthreaded, individual heddles 600 can be removed from frame 602 while the rest of warp 900 remains intact on loom 700. Heddles 600 also allow shaft switches to be easily made to create complex weaving patterns.
Unlike conventional closed loop heddles, embodiments of heddles 600 can easily be inserted or removed from frame 602. Instead of threading ends of warp thread 124 through eyelets with closed circumferences, the weaver can lift warp thread 124 that has already been warped on the loom, and insert it through an opening in heddle 600. Warp threads 124 can be reinserted in heddles 600 while warp thread 124 remains attached to front and back warp beams 800 (or 702, 704) on loom 700.
While the invention has been described with respect to the embodiments and variations set forth above, these embodiments and variations are illustrative and the invention is not to be considered limited in scope to these embodiments and variations. Accordingly, various other embodiments and modifications and improvements not described herein may be within the scope of the present invention, as defined by the following claims.
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Number | Date | Country | |
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20050061384 A1 | Mar 2005 | US |