This application claims the benefit of foreign priority under 35 U.S.C. §119 based on European Patent application No. 08 163 424.8, filed Sep. 1, 2008, the entire disclosure of which application is hereby incorporated by reference.
The invention relates to a knitting machine needle for loop-forming and knitting machines and, in particular, to a hook needle for circular knitting machines.
Hook needles for circular knitting machines have basically been known. They have a longitudinal shank that has a hook at one end. The hook is disposed to pick up a thread and, while forming a stitch, pull said thread through a stitch that is already seated on the shank. In order to enclose the picked-up thread in the hook, it is possible to provide additional means such as, for example, latches that are pivotally supported on the shank, sliders or the like.
If the knitting operation occurs serially in a row of stitches, a so-called robbing-back effect can be observed during the stitch-forming process. The knitting needle that is knitting pulls the picked-up thread through the older stitch seated on the shank and thus pulls along the thread. A half-stitch is formed, whereby both its tuck loops are located on both sides of the hook. One tuck loop transfers to the guided threads, whereas the other tuck loop transfers to the neighboring, just previously formed, half-stitch. Referring to this knitting operation, it may be observed that, during the formation of the new half-stitch, the thread tends to be pulled over from the just previously formed half stitch, which leads to a reduction in size of the older half-stitch. This effect is referred to as the “robbing-back effect” and may be undesirable.
Considering this, it is the object of the invention to provide a knitting machine needle with which the robbing-back effect can be influenced.
In accordance with the invention, the above object generally is achieved by a knitting machine needle that has a hook that is configured asymmetrically relative to a center axis. To accomplish this, the hook may have an oval cross-section in at least one region, said cross-section being oriented so as to be inclined relative to a transverse direction of the needle. As a result of this inclination of the inherently symmetrical cross-section relative to the longitudinal center plane containing the hook tip, it becomes possible to achieve the mentioned asymmetry of the hook cross-section.
This asymmetry has the effect that the curvature of the thread grasped by the hook—when a half stitch has formed—is different on both sides of the hook. At the start of the stitch formation, the oval and inclined hook cross-section at first results in a less pronounced looping and thus in a lower frictional force between the hook and the thread. Consequently, the stitch-forming operation is initially particularly gentle and easy on the thread. Additional following thread can very easily be pulled by the hook. If the long axis of the oval cross-section of the thread is aligned approximately parallel to the thread to be fed, i.e., if the angle subtended by the long axis of the oval cross-section and the transverse direction of movement of the needle opens toward the thread that is being fed, the stitch-forming operation is aided and the robbing-back effect is diminished.
However, the asymmetry of the hook cross-section can also be used, if desired, to increase the robbing-back effect, for example, if specifically very dense knit fabrics are to be manufactured.
Preferably, the needle in accordance with the invention is used in knitting machines with asymmetrically constructed cam assemblies as are mostly found in circular knitting machines. Such a circular knitting machine with asymmetrical cam assemblies is designed only for operation in one direction of rotation. The needles held by the needle cylinder or the dial always move in a prespecified transverse direction of the needle through the control cams of the cam assemblies. The stitch formation always occurs in the same direction. The thread is always supplied from the same side. For example, if the knitting cylinder—viewed from the top—rotates in counterclockwise direction, the oval cross-sections of the hooks—viewed in vertical section—are rotated by their large axes out of the horizontal in clockwise direction, i.e., their large axes drop down toward the right.
The inclined arrangement of the elongated oval hook cross-section in accordance with the invention leads to a desired distribution of the looping friction between the thread and the hook surface along the thread. The farther the knitting needles are retracted into their needle channel, the greater is the total looping, and thus the looping friction increases. In so doing, the inclined arrangement of the oval hook cross-section causes the thread end that is already being held by the produced knit fabric to be subjected to a greater looping friction than the free thread end that is connected to the thread supply. In order to achieve this, the long axis of the oval cross-section is arranged as ascending—viewed from the previously formed knit fabric. Due to the lower looping friction toward the thread supply and the greater looping friction toward the already formed knit fabric, the needle pulls the preferably set-up thread into the stitch to be formed and continues to pull less of the thread of the older adjacent stitch. Thus, the robbing-back effect has been diminished.
As mentioned, the opposing inclined arrangement of the oval cross-section can also be used to achieve an increased robbing-back effect, should this be desired.
The oval cross-section can be characterized by two axes, one of said axes having the largest diameter of the cross section and the other having the smallest diameter of the cross-section. The first axis marking the largest diameter is aligned so as to be inclined with respect to the transverse direction of the needle. The transverse direction of the needle is a direction that is perpendicular to the shanks of the knitting machine needle and thus perpendicular to the longitudinal direction of the needle. The longitudinal direction of the needle corresponds to the longitudinal direction of the shank of the knitting machine needle. Preferably, the shank is configured so as to be straight, i.e., in particular, the hook is neither bent laterally nor offset, or laterally bent out of the longitudinal direction of the needle in any other manner. In other words: there exists a longitudinal center plane on which is located a center line extending from the tip of the needle through the hook and the shank.
The acute angle α that is subtended by the first axis and the transverse direction of the needle preferably is in the range between 20° and 40°, and is preferably 30°. Consequently, considering most applications of the knitting machine needle, the first axis is essentially aligned parallel to the thread, thus creating the desired friction conditions. The acute angle α may also vary along the hook or be constant. If the acute angle α is constant along the hook cross-section, this is adequate in many applications to bring about the desired effect. However, it may also be practical to fix the acute angle in regions of the hook close to the tip, these potentially being viewed as the hook head, at a different value than the regions of the hook remote from the tip, these being located closer to the needle breast incline. For example, it may be practical to fix the acute angle α on the needle head at approximately 30°, whereas said angle may be smaller or, optionally, even larger in other regions.
Preferably the cross-sectional area of the asymmetrical hook cross-section decreases toward the hook tip. Optionally, the cross-sectional area may also be configured so as to match that of the hook at several points.
The asymmetrical cross-section may be configured as an elliptical cross-section. As explained above, it is asymmetrical due to its inclined position of the first axis (large axis) of the ellipse with respect to the transverse direction of the needle relative to the center plane. However, the elliptical cross-section in itself displays a symmetrical form. The elliptical form is symmetrical with respect to the first axis as well as with respect to the second axis. In addition, it is point-symmetric with respect to its center.
However, the oval cross-section may also display a lesser degree of symmetry. For example, said cross-section may be inherently asymmetrical in that it is egg-shaped, for example.
Additional advantageous details of the invention or other situations are the subject matter of the subclaims, the description or the drawings. In so doing, the drawings and the description are restricted to the illustration of essential elements of the invention, as well as miscellaneous situations. The drawings supplement the description of the exemplary embodiments.
The needle cylinder 2 of the circular knitting machine 1 comprises needle channels 4a through 4e, which channels are arranged vertically along the barrel surface of the knitting cylinder and in which the knitting machine needles 3 can be slid in their respective longitudinal direction of the needles. The longitudinal direction of the needle corresponds to the vertical direction in
On its end, the shank 12 has a hook 17 that ends in a tip 18. The hook 17 is associated with a latch 19 that is pivotally supported in the latch slit 20 and is disposed to open or close the hook 17. In so doing, one end 21 of the latch can abut against the end of the hook or pivot away from the hook 17.
As is obvious from
A particular feature of the knitting machine needle 3 in accordance with the invention is the configuration of its hook 17. Preferably, this hook has at least at one point, e.g., at its head 17a, an oval cross-section 23 that is inclined with respect to the transverse direction Q of the needle, as is obvious from
For further explanation, reference is first made to
As is obvious, the first axis A1 is inclined at an angle α with respect to the transverse direction Q of the needle, said direction being perpendicular to the longitudinal center plane M. Preferably, the acute angle α is 30°. However, said angle may also deviate therefrom; however, it is preferably at least within the range of 20° to 40°. The first axis A1 is preferably aligned so as to be parallel to the thread 11 when the knitting machine needle 3 is in driven-out position in accordance with the positions of the needles 3c, 3d in
The described conditions apply to the hook 17 on the hook head 17a, i.e., at the point of the intersection line S4 that extends essentially parallel to the needle back 15 and thus extends approximately parallel to the longitudinal direction L. Preferably, the explanations also apply, accordingly, to the cross-section of the hook 17 at the points of the intersection lines S2, S3, S5 in the vicinity of the intersection line S4. In so doing, the hook has, on the side facing the incoming thread 11, a more widely opened edge R1 (in
The knitting machine needle 3 described so far works as follows:
With the knitting cylinder 2 rotating, the knitting machine needles 3 are carried along in a circle with the knitting cylinder 2. Their feet 8 move along the curved path 7 of the control cam 6, whereby the knitting machine needles 3 are driven out, one after the other, at the stationary thread-feeding location. In
The effect can also be generated with oval cross-sections or other asymmetrical cross-sections that deviate from the elliptical form.
In accordance with the invention, a knitting machine needle is being suggested, said needle having at least at one point S2, S3, S4 or S5 of its hook a cross-section that is asymmetrical with respect to a longitudinal center plane M. Preferably, this cross-section is an oval cross-section and, more preferably, an elliptical cross-section. Using this measure, the robbing-back effect can be affected in a targeted manner during the knitting operation.
It will be appreciated that the above description of the present invention is susceptible to various modifications and changes, 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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08 163 424.8 | Sep 2008 | EP | regional |