The present application claims the priority of European Patent Application No. 07 024 749.9, filed Dec. 20, 2007, the subject matter of which, in its entirety, is incorporated herein by reference.
The invention relates to a take-off element for a take-off comb for a knitting machine or loop-forming machine.
In a knitting machine or loop-forming machine the stitches must be pulled off the needles after the stitch-forming operation. Frequently, a take-off comb is used for the start of the knit fabric. This comb is disposed to grasp the first row of stitches and pull them away from the knitting site in a controlled manner.
Such a take-off comb has been known, for example, from DE 10 2006 005 384 A. This comb comprises take-off elements that are held in a base body and are oriented parallel to each other, whereby said elements are provided with a head at their ends. This head acts as a hook. A slider is accommodated in the take-off element so as to be movable in longitudinal direction. This slider has a sharp end pointing at the head, which end can be pushed toward the head and away therefrom in order to close or open a thread-enclosing space.
A similar take-off element is known from EP 0 477 484 B1. In this case the take-off element provided with a head accommodates a slider that has a finger-like extension. The take-off element is provided with an opening that is diagonally oriented to the longitudinal direction and is delimited on parallel flanks, whereby the finger-like extension may extend through said opening in order to close or clear a thread-enclosing space.
The same literature reference also discloses a thread-take-off element that uses a hook supported in the thread take-off element for thread enclosure. This hook is provided on a slider. The hook tip may be pushed in or out of the thread-receiving space.
Furthermore, such an arrangement has been known from DE 40 03 667 C2. Again, a slider supported in the take-off element and being provided on the end side with a hook is used for grasping and releasing the thread.
When such take-off combs and take-off elements are used, neither the threads nor the take-off elements are to be subjected to excessive stress or even damage.
Therefore, it is the object of the invention to provide take-off elements that are robust and are gentle on the thread. This object generally is achieved with the take-off element in accordance with the invention that comprises a first part that has a thread-receiving opening. In addition, the take-off element comprises a second part with a head that is disposed to close the thread-receiving opening of the first part when both parts are moved relative to each other. The thread-receiving opening extends away from the head, and the head has an oblique surface facing the thread-receiving opening.
If the thread-receiving opening is open, i.e., for receiving or also for releasing a thread, the head is located at a distance from and in front of the thread-receiving opening. Considering the longitudinal direction of the parts, the head is moved away from the thread-receiving opening in longitudinal direction and is thus positioned longitudinally in front of the opening. When the thread-receiving opening is closed, the head is immersed at least a minimal distance into the thread opening in order to block said opening.
The oblique surface provided on the head acts as a sliding surface. It is oriented obliquely relative to the longitudinal direction of the individual parts of the take-off element. Preferably, said surface forms an acute angle with the slide-out direction of the second part that bears the head.
The first part and the second part are arranged so that they can be shifted relative to each other. In so doing, the term “longitudinal” refers to the longitudinal direction of the elongated parts and, at the same time, to the shifting direction of the two parts relative toward each other. Preferably, the two parts are supported against each other, for example, in that a first part of the two parts is supported in a longitudinally extending hollow space or channel of the second part of the two parts. In so doing, the second part may be fully or partially U-shaped, L-shaped or even be designed so as to be closed in cross-section all around along its entire longitudinal extension or a part thereof. In other words, the channel for the accommodation of the first part may be open at one or more points or also be closed across its longitudinal direction.
The thread-receiving opening of the second part preferably extends toward said part's free end and thus terminates at the face of the second part. Preferably, the thread-receiving opening comprises a section extending in longitudinal direction of the second part. This section is oriented parallel to, or at an acute angle, relative to the longitudinal direction. Preferably, the thread-receiving opening widens toward the face end of the second part. This can be achieved in that the thread-receiving opening of the second part has a funnel-shaped edge. Such an edge can be formed in that the flank of the thread-receiving opening that is initially oriented parallel to the longitudinal direction is provided in the end region—located in the region of the opening—at an acute angle relative to the longitudinal direction. It is sufficient if this is applicable to that flank of the thread-receiving opening that is located opposite the second part or a thin rod section thereof. In so doing, the thread can be guided between the respective flank and the first part or its head into and out of the thread-receiving opening.
Preferably, the head of the first part has an oblique surface that is adapted to the flank or to the edge of the thread-receiving opening. This adaptation may comprise, e.g., the feature that the oblique surface of the first part is oriented essentially parallel to the edge of the second part.
On the opposite side the head may be provided with a top surface that is inclined in the inverse direction relative to the oblique surface. In other words, the oblique surface and the top surface subtend an acute angle together with the longitudinal direction, whereby the vertices of these two acute angles face away from each other.
Additional details of advantageous embodiments of the invention are the subject matter of the drawing, the description and the claims. The description is restricted to essential aspects of the invention and miscellaneous situations. The drawings disclose additional details and are to be referred to as being supplementary.
One take-off element 10 is illustrated as being representative of all those illustrated in
The thread-receiving opening 26 has a slit-like section 27 that is delimited by two preferably straight flanks 28, 29. The closed end of the section 27 is preferably formed by a rounded arch that connects the flanks 28, 29 to each other. Toward its open end 24, the thread-receiving opening 26 widens. Whereas the flank 29 is straight up to the end 24, the flank 28 preferably terminates in a slightly curved manner in an inlet section 30 that diverges away from the flank 28. The inlet section 30 ends at the wall 21. Below this end point 31, the flank 29 may start diverging toward the wall 22. This may be achieved in a curved, oblique or otherwise expedient form. In contrast, the inlet section 30 is preferably essentially straight. In so doing, a funnel-shaped mouth is formed between the flank 29 and the inlet section 30.
The first part 12 is supported so as to be shiftable in channel 18. The end 32 of the first part in engagement with the rail 15 is shown by
At least adjoining the head 34, the shaft 35 has—at its site next to the thread-receiving opening 26—a straight front 36 that is arranged parallel to the flank 29 or is in alignment or congruent therewith. Adjoining this front, the head 34 has an oblique surface 37 which, preferably, essentially follows a straight line. In contrast, the oblique surface 37 may terminate in the front 36 by way of a curvature. The oblique surface 37 is inclined at an acute angle α against the longitudinal direction 13. This angle opens away from the end 24 of the second part 11 and thus its vertex faces the thread-receiving opening 26, i.e., the first part 12.
The oblique surface 37 of the first part 12 is preferably oriented approximately parallel to the inlet section 30 of the second part 11. This need not be perfectly parallel. A few degrees of angular deviation are acceptable and useful in some cases.
The head 34 has a height which is preferably less than the distance between the walls 21, 22. The oblique surface 37 terminates in a plateau 38 that is preferably arranged approximately parallel to the back 39 of the first part 12. In so doing, the head 34 may move into the channel 18—partially or fully—if needed.
With a rounded section, the plateau surface 30 terminates in a top surface 40 that extends up to the extreme tip 41 of the head 34. The top surface 40 may be rounded or, as shown, consist of straight sections, or overall, of a single straight surface. Together with the longitudinal direction 13, said surface subtends an acute angle β whose vertex faces away from the second part 12. Consequently, the angles α and β face in different directions. In other words, the oblique surface 37 and the top surface 40 are inclined in different directions, i.e., independent of whether they have a straight or curved configuration.
The width of the first part 12 is smaller than the internal distance of the lateral walls 19, 20 from each other, so that a certain play exists, as is obvious from
The take-off element 10 described so far is disposed to work during take-up, enclosure and release of the thread 25 as is obvious from
In order to take up the thread the first part 12 is shifted relative to the second part 11, in accordance with
When the thread 25 has been received by the thread-receiving opening 26, the parts 11, 12—as indicated by the arrow in FIG. 8—are moved relative to each other, so that the head 34—as indicated in FIG. 8—penetrates into the end 24 of the second part 11. In so doing, the oblique surface 37 enters the channel 18 and arrives behind the inlet section 30. In so doing, the thread-receiving opening 26 is closed and the thread 25 is trapped therein. In this condition, the knit fabric comprising the thread 25 can be taken off as indicated in
The thread 25 may be released as shown by
Neither on its path into the thread-receiving opening 26 (
The described embodiment may be modified. For example,
A take-off element 10 for the gentle treatment of the thread and for simple handling comprises two parts 11, 12, whereby at least one of said parts is arranged so as to be adjustable in longitudinal direction relative to the other. Whereas one of the parts 11 has a longitudinal slit 27 for receiving a thread 25, the other part 12 is provided with a head 34 extending on one side away from the shaft 35, said head being movable from the outside to the thread-receiving opening 26 in order to close said opening and away therefrom in order to clear said opening. The head 34 has an oblique surface 37 which is disposed to close the thread-receiving opening 26. The new take-off element 10 does not have a hook and thus does not exhibit any problem regarding process reliability. Its part 12 has a robust slider head, thus avoiding potential deformations on the head. Considering process reliability, the take-off element 10 permits a perfect insertion and release of the thread 25 of a knit fabric.
It will be appreciated that the above description of the present invention is susceptible to various modifications, changes and modifications, 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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07 024 749 | Dec 2007 | EP | regional |
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Number | Date | Country | |
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20090158780 A1 | Jun 2009 | US |