Textiles: weaving – Warp manipulation – Shedding
Reexamination Certificate
1999-12-10
2001-11-20
Calvert, John J. (Department: 3741)
Textiles: weaving
Warp manipulation
Shedding
C139S059000, C139S085000
Reexamination Certificate
active
06318415
ABSTRACT:
TECHNICAL FIELD
The present invention relates generally to weaving devices and more particularly to quick release couplings therein.
BACKGROUND OF THE INVENTION
Weaving devices, commonly called looms, are known in the art and have been in existence in one or another form for thousands of years. Weaving devices are generally used for producing woven fabric. Generally speaking, weaving devices consist of a frame, a substantially horizontal array of eyelets movably supported by the frame between an upper position and a lower position, and a mechanism for moving the eyelets between the two positions.
To set up a typical weaving device for operation, a thread, or any type of weavable strand, is drawn off a spool and passed through an eyelet of the weaving device, then passed through a guide which is on the opposite side of the eyelet from the spool. The guide may be in the form of a long horizontal slot, or a gap between two horizontal, vertically opposed rollers for example. Each eyelet is threaded in this manner with an individual thread.
Selected eyelets are oriented in the upper position and slightly above the guide, while the remaining eyelets are oriented in the lower position and slightly below the guide. This difference in the relative positions of the eyelets with respect to each other and to the guide, causes the threads to form an upper and lower row of parallel threads. The upper row passes from the upper eyelets to the guide, and the lower row passes from the lower eyelets to the guide. The two rows intersect, or meet, at the guide to form an acute interior corner or angle. This formation of two rows of threads is generally called a shed. Thus, a shed can basically be described as two flat planes, each formed by a row of parallel threads, which meet to form a trough, or corner.
To begin the weaving process a cross-thread, called a weft thread, is placed into the corner of the shed where the threads meet at the guide, and perpendicular to the warp threads. After placement of the weft thread, the position of each eyelet is reversed, that is, the upper eyelets move to the lower position, and the lower eyelets move to the upper position. This change in position of the eyelets not only forms another shed, but also causes the warp threads to partially wrap around the weft thread. A second weft thread is then inserted into the corner of the new shed, and the position of each eyelet is again reversed. This process is continually repeated to form a fabric created from interlacing, or weaving, the warp and weft threads.
Basic woven fabric is produced on weaving devices which move the respective eyelets in a continuously repeating sequence of shed changes to produce a substantially homogeneous fabric pattern. However, a special type of weaving device, called a Jacquard device, may be used, for among other purposes, to weave intricate or varying patterns in to the fabric, or to perform seaming operations in which the opposite edges of a piece of fabric are woven together to form an endless ribbon or belt of fabric. Jacquard devices are well known in the art and have been in existence for hundreds of years in various forms. In a Jacquard device, each eyelet is individually selectively movable with respect to each of the shed changes. In other words, the sequence of movements of the eyelets is not merely uniformly repetitive, but may be selectively variable with each shed change. In this manner, varying and stylistically appealing patterns may be woven into the fabric by the weaving device.
Generally speaking, a Jacquard weaving device consists of an array of sprines mounted on the top of the frame of the weaving device. An eyelet is attached to each of the springs and depends from the lower end of the spring. The respective springs bias the eyelets toward an upper position. A pulley block is attached to the lower side of each eyelet and depends below the eyelet. A cord is fed or otherwise received through the pulley block and engages the sheave, or pulley wheel of same. The opposite ends of the cord depend from the pulley block. The cord has two hooks attached to it, one on each end.
Attached to the frame, are griff bars which reciprocally move up and down below the pulley block. The griff bars are mechanically linked together so that, as one griff bar moves up, the other correspondingly moves down, and vice versa. An actuator such as an electrical motor is coupled to one of the griff bars to reciprocally move the griff bars at continuously selective and repeating intervals.
The hooks slidably engage guides which are mounted on the frame. The respective guides restrict and direct the path of movement of the hooks such that the path of movement of one of the hooks substantially coincides with one of the griff bars, and the path of movement of the other hook substantially coincides with the other griff bar. Each hook has a slot formed therein which is engaged by the respective griff bar as it moves downwardly. If the hook is held in its lowermost position, the slot formed on the hook allows the griff bar to disengage from the hook and move upwardly while leaving the hook in its lower position.
The cord which extends between the respective hooks is of such a length that the individual springs, located above each of the eyelets, keeps the cord taut at all times. When both hooks are engaged by the respective griff bars, the hooks and cord travel in a seemingly see-saw like motion along with the griff bars. During this motion the cord is pulled back and forth through the pulley block and rollingly engages the sheave. Also during this pattern of motion, the pulley block and eyelet remain substantially stationary (in the upper position) being held in the same position by the tension of the spring.
In these weaving devices the lower end of each hook is engageable by means of a latch which is mounted on the frame and which is located near the bottom of the path of travel of each of the hooks. Each latch selectively captures and retains the respective hook in the lower position. If one of the hooks is held in its lower position by the respective latch, the associated griff bar disengages from the hook as it travels upwardly, leaving the hook retained by the latch in the lower position. As the griff bar moves upwardly, leaving the associated hook retained by the latch, the other hook (attached to the opposite end of the cord) is simultaneously pulled downwardly toward another latch by the other griff bar. Because the first hook is latched in the lower position, and is not allowed to travel upwardly while the other hook is being pulled downwardly, the pulley block is simultaneously pulled downwardly by the cord attached between the hooks. This action, of course, pulls the eyelet downwardly against the upwardly biasing, force of the spring attached to same. This results in the eyelet reaching a lowermost position as both hooks reach their as respective lowermost positions.
For the eyelet to remain in the lower position, both the first and second hooks must be retained in their respective lowermost positions by their respective latches. In this manner, the individual griff bars continue to reciprocally move in a see-saw like motion above both hooks, but do not cause movement of the hooks, cord, pulley block, or eyelet. Conversely, for the eyelet to move to its upper position once again, one of the latches must disengage from one of the hooks as the associated griff bar is located in the lowermost position. In this manner, one of the hooks is released by the latch and allowed to travel upwardly with the griff bar to its upper position under the influence of the spring. This action results in the respective pulley block and eyelet moving upwardly to the original upper position. For the eyelet to remain in the upper position, the other latch must also release its respective hook, allowing the see-saw like motion of the hooks and cord to resume as initially described.
Many Jacquard weaving devices utilize electric solenoids to effect the selective retention of the hooks by the latches. In this type
Bostrom Anders
Kellogg Robert
King Roger
Kutzleb Chester F.
Calvert John J.
Muromoto Jr. Robert H.
WIS Seaming Equipment Inc.
LandOfFree
Quick release coupling/pulley assembly for improved weaving... does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Quick release coupling/pulley assembly for improved weaving..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Quick release coupling/pulley assembly for improved weaving... will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-2593985