This application claims the priority of European Patent Application No. 04 016 579.7, filed on Jul. 14, 2004, the subject matter of which, in its entirety, is incorporated herein by reference.
1. Field of the Invention
The invention relates to a loop-forming system, to be used for instance as a knitting system, which includes at least one but preferably many compound needles. The invention furthermore relates to at least one sinker for integration into such a knitting system.
2. Background of the Invemtion
In principle, loop-forming systems with compound needles must be distinguished from loop-forming systems with latch needles. Both are used in corresponding knitting machines for producing so-called goods (knitted goods), and each have their own specific advantages and disadvantages. In principle, compound needles have an externally controlled closing element, which serves to open and close the hook. The closing element is actuated by the cam of the knitting system, so that in this respect, completely controlled work can be expected. Latch needles, conversely, use a pivotably supported latch for opening and closing the hook. The latch motion is as a rule not externally controlled, or in other words not controlled directly by the cam of the knitting machine. Instead, as a rule, the motion is due to an interplay of the forces acting on the latch, which originate in the acceleration of the needle, if applicable from brushes provided for needle actuation, and the yarn loops passing over the needle.
Particularly for producing so-called plated knitted goods, latch needles have become established. In plated goods, the knitted goods are made from two yarns, for instance an elastic monofilament yarn and a plating yarn, such as a wool yarn or the like, and these two yarns are knitted jointly. Plating flaws must be avoided. Plating flaws arise for instance if the ground yarn and the plating yarn, which are taken up jointly by the hook of a knitting needle, exchange places or positions in the knitting process. To avoid these plating flaws, the yarns used for plating are delivered separately as long as possible, that is, to just before the hook. In that case, latch needles have the advantage. Closing the hook is done by a pivoting position of the latch, and the yarns (ground yarn and plating yarn) caught in the hook already come into contact as the latch pivots inward and are thus supported and held.
In compound needles, this process is more critical. In them, the compound needle does not support the feeding of the yarn, as is done in a latch needle by the rotary motion of the latch. For this reason, the yarns to be plated cannot be delivered optimally in the case of a compound needle, and hence secure plating is no longer assured.
Because of the intrinsically completely controlled motion of the compound needle, particularly in opening and closing the hook, the compound needle has inherent advantages. However, specific attention must be paid to the above-described disadvantages in the example of plating, when yarns are being caught.
With this as the point of departure, it is the object of the invention to show a way of expanding the possibilities of using compound needles and optionally also latch needles. The expansion of the possibilities for use can be oriented to increasing the knitting speed, stabilizing the knitting operation, broadening the spectrum of use, reducing knitting flaws, lessening the dependency of proper knitting operation on external parameters, and the like.
This object is attained with the loop-forming system described below and in particular with the use of a novel sinker.
The loop-forming system of the invention includes at least one but preferably many compound needles, or also latch needles, which are movable both in the longitudinal direction of the needle and in one additional direction. The hook of such a compound needle that is movable in two directions may, unlike in a previous kind of loop-forming system, be moved to reciprocate along not only a linear path but many other kinds of paths as well. For instance, in the simplest case, it can be moved back and forth along a curved or intermittently curvilinear path. It is furthermore possible for the hook to be guided along a looplike path, that is, a path that surrounds a two-dimensional area. Hence the hook can execute proper yarn catching motions, which can lead to increasing the knitting speed, improving the plating security in the case of two-yarn goods, reducing the required hook size, and other advantages.
In the use of the second motion component according to the invention in latch needles as well, advantages can be attained, for instance in terms of the security of catching and the association (maintenance of the same order) of yarns.
In the simplest case, the compound needle of the novel loop-forming system has two motion components, namely a linear motion in a first direction and a motion, attained by a pivoting motion, of at least the hook of the compound needle in a second direction. In simple terms, the compound needle can be both longitudinally displaced and pivoted. In the process, the compound needle may be supported in a needle track of a needle bed of a knitting machine, the pivot axis in the needle bed preferably being defined in a stationary way. For instance, it extends transversely through all the needle tracks. The pivoting motion may be limited to only a few degrees, such as 5° or less. Because of the normally relatively great length in the case of a compound needle, the pivoting stroke can cause motions of the hook that are on the order of magnitude of its own dimensions. It becomes clear from this that even a relatively slight pivoting motion can have considerable influence on the loop-forming operation.
The additional motion of the compound needle in its second direction, as a pivoting or linear motion, is preferably oriented perpendicular to the needle back of the compound needle. The improvement in catching the yarn is obtained for instance when the hook moves to the yarn in the process of catching the yarn. The improvement to the loop-forming system with a compound needle in terms of the more-secure catching of the yarn eliminates many disadvantages previously associated with the compound needle. For instance, depending on the particular use, it becomes possible to increase the operating speed of the compound needle, to create plated goods with greater security, and otherwise also to expand to applications in which it was difficult to catch yarns. The more-secure catching of yarns, combined with the controlled motion of the closing element of the compound needle and thus with the controlled opening and closing of the hook, can now lead to high-speed and hence highly productive loop-forming systems, even under difficult conditions.
The motion of the compound needles in the first direction (longitudinal direction of the needle) is preferably brought about in the conventional way by means of a butt of the compound needle and a cam that is in engagement with the butt. The motion of the compound needle in the second direction, for instance in the form of a pivoting motion, is preferably effected by a sinker on which the compound needle rests, for instance with its needle back. The sinker is then disposed in the needle track of a needle bed. It presents a narrow sliding face to the compound needle on which the compound needle can rest with its needle back. The sliding face thus determines the longitudinal orientation of the compound needle. Shifting or pivoting of the sinker in the needle track thus also causes shifting or pivoting of the compound needle.
The sinker is preferably pivotably supported and provided with or connected to a pivot bearing. The pivoting positioning of the sinker can be effected by control means on the sinker, such as a control butt, and in conjunction with control means on the knitting machine, such as a cam. It is also possible to perform the positioning of the sinker by separate closing elements, which in turn are controlled by a control means of the knitting machine. The pivoting motion of the compound needle preferably amounts to only a few degrees. The butts of the compound needle and of its closing element also execute a slight pivoting motion. As a rule, this motion can be absorbed by the play within the needle cam. If needed, these butts may be embodied as somewhat spherical. It is furthermore possible to provide each of the corresponding curved faces of the cam with a slant that corresponds to the pivoted position of the needle. This is possible because an unambiguous, fixed relationship exists between the extended position and the slanted position of the compound needle.
Both the sinker and the compound needle may be assigned a prestressing device, which is formed for instance by suitable springs. They can prestress the compound needle and/or the sinker in a preselected direction, to make it easier to position the compound needle and the sinker.
Further details of advantageous embodiments of the invention will become apparent from the drawings, the description, or the claims.
Exemplary embodiments of the invention are shown in the drawings.
In
The closing element 8 is provided with or joined to a butt 11 of the closing element, which butt is in engagement with the cam, not further shown, of a knitting machine. The needle body 5 is also provided with a needle butt 12, which is likewise in engagement with the cam of the knitting machine. As a result of the motion of the butt 11 of the closing element and the needle butt 12, the compound needle 2 can be moved in the first direction L, which is marked in
The loop-forming system 1 furthermore includes a sinker 14, which is disposed jointly with the compound needle 2 in a needle track 15 of a needle bed 16. The needle track 15 has two flanks, not further shown, that are parallel to one another and forms a narrow groove. The compound needle 2 and the sinker 14 are held between the two flanks. The sinker 14 is disposed between the needle back 17 and the bottom 18 of the needle track 15. It has a narrow sliding face 19, oriented toward the needle back 17, that is embodied in striplike form and is straight at the top, especially in the longitudinal direction of the needle, and the needle back 17 rests on it. The sliding face 19 thus forms a positioning and bearing face for the compound needle 2. It may be embodied cohesively or with one or more interruptions.
The sinker 14 forms a rocker that is pivotably supported in the needle track 15. This purpose is served by a pivot bearing 21, which may for instance be formed by a spring 22 extending transversely through the needle track 15. The spring 22 may for instance be embodied as a resilient ring, a resilient tube, or a helical spring. It may be placed individually into each needle track 15, or it may be seated in a bore or groove with a rounded bottom that extends through all the needle tracks 15. The sinker 14 has a recess 23 with curved edges, and with this recess it sits on the spring 2 with little play. Narrow sides 24, 25 of the sinker 14 extend away from the recess 23 and form an obtuse angle differing only slightly from 180°. Otherwise, the sinker 14 is embodied as a flat sheet-metal part. Preferably on the lower end, located away from the hook 7, in
The loop-forming system 1 may further include a spring 27, which serves to keep the compound needle 2 in contact with the sinker 14. If the needle bed 16 is embodied as a needle cylinder, the spring 27 is also called a cylinder spring. It may also extend all the way around the entire cylinder and engage all the needles, or it may be in contact with only one or more of the compound needles.
The loop-forming system 1 described thus far functions as follows:
As shown in
As the embodiment of
Finally, in
In an improved loop-forming system 1, in particular for compound needles 2, the compound needle during the knitting operation is moved along a nonlinear path. Depending on the embodiment, this path may be a loop, may include a loop, or maybe embodied without a loop. This is achieved by superimposing a transverse motion on the reciprocating needle motion; the transverse motion may be controlled for instance by a pivotably supported sinker, which is disposed in the needle track and defines the pivoting orientation of the compound needle 2.
It will be appreciated that the above description of the present invention is susceptible to various modifications, changes and adaptations, and the same are intended to be comprehended within the meaning and range of equivalents of the appended claims.
Number | Date | Country | Kind |
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04016579 | Jul 2004 | EP | regional |
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Number | Date | Country | |
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20060010926 A1 | Jan 2006 | US |