This application claims the benefit of foreign priority under 35 U.S.C. §119 based on European 08 157 584.7, filed Jun. 4, 2008, the entire disclosure of which application is hereby incorporated by reference.
The invention relates to a holding-down and knock-over sinker, a knitting system comprising such a holding-down and knock-over sinker, as well as to a knitting machine comprising such a knitting system.
Knitting systems frequently comprise at least one knitting needle, for example, in the form of a latch needle, as well as a sinker that participates in the knitting process and, for example, is intended to hold the knit fabric in place or in a specific position during stitch formation. To do so, the needle and the sinker perform a relative movement in the course of which the needle, as well as the sinker, are being moved. This has been known from prior art.
DE 31 08 041 C2 discloses a circular knitting machine with knitting systems that comprise a holding-down and knock-over sinker and a knitting needle. The knitting systems are arranged in a needle bed that is designed as a knitting cylinder. The knitting needles, as well as the holding-down and knock-over sinkers are subject to movement. In order to generate this movement, the knitting needle and the holding-down sinker each have a foot that communicates with its own box channel. Consequently, the holding-down and knock-over sinker, as well as the knitting needles, are primarily driven so as to move back and forth, i.e., they are driven in longitudinal direction. The holding-down and knock-over sinker has a projection that is supported on an inclined surface of its sinker channel, as a result of which its longitudinal movement is partially converted into an up-and-down directed transverse movement.
The desired relative movement between the sinker and the needle is defined by the shape of the needle bed, in particular by the inclined surface provided there. In addition, a cam having at least two box cams is necessary—one for the knitting needle and one for the holding-down and knock-over sinker.
Considering this, it is the object of the invention to provide a knitting system and its associate components, said knitting system being improved at least in view of one of the mentioned aspects.
The above object generally is achieved with the holding-down and knock-over sinker in accordance with the invention. The advantages connected with the holding-down and knock-over sinker are particularly obvious with the use of the holding-down and knock-over sinker in the system in accordance with the invention and with the use of this knitting system in a knitting machine:
The holding-down and knock-over sinker in accordance with the invention is provided with a device that establishes a driven connection between said sinker and the knitting needle. This device effects a transmission of motion and force between the movement of the knitting needle and the movement of the holding holding-down sinker. The device couples the movement of the holding-down and knock-over sinker to the movement of the knitting needle and thus uses the knitting needle as the drive for the holding-down and knock-over sinker. In the broadest terms, the device that establishes the driven connection between the knitting needle and the holding-down and knock-over sinker represents a transmission. For example, the components of the holding-down and knock-over sinker or sections thereof, and parts or sections of the knitting needle act as transmission elements that are in direct contact with each other or are in motion-transmitting contact with each other due to the interposition of additional elements.
As a result of this measure, a separate drive for the holding-down and knock-over sinker can be omitted. The knitting system composed with this holding-down and knock-over sinker requires only one exterior drive that interacts with the knitting needle. This drive may be a cam path of a knitting cam assembly associated with the knitting needle. The movement of the holding-down and knock-over sinker results from the movement of the knitting needle. Consequently, owing to the invention, it is possible to substantially simplify the design of the knitting cam assembly of the knitting machine.
Also, the movement of the holding-down and knock-over sinker is not dependent on the design of the bottom of the sinker channel. A change of the path of movement or the curvature of the holding-down and knock-over sinker relative to the path of movement of the curvature of the knitting needle does not require a change on the needle and sinker bed. For example, it is sufficient to change the holding-down and knock-over sinkers and/or the knitting needles or the boxcar.
Preferably, the holding-down and knock-over sinker is supported on the needle bed, for example, in that said holding-down and knock-over sinker is fixed in position relative to the longitudinal or output movement of the needle and does not also perform this movement. The resultant relative movement between the needle and the holding-down and knock-over sinker can be utilized to generate a transverse movement of the holding-down and knock-over sinker relative to the needle. In principle, this transverse movement may be a linear movement; however, in the simplest case said movement is the component of a pivoting movement, thus substantially simplifying the support and guiding of the holding-down and knock-over sinker. Consequently, the holding-down and knock-over sinker is preferably supported so as to be pivotable. The pivotable support is implemented, for example, by a pivot bearing that defines a pivot axis extending transversely to the knitting needle. Preferably, the pivot axis is aligned approximately at a right angle relative to the flat sides of the holding-down and knock-over sinker as well as to the flat sides of the knitting needle.
Preferably, the holding-down and knock-over sinker has a curved knock-over edge. The latter may be or may have a curvature profile for controlling the position of a half-stitch picked up by the knitting needle. This profile may have—in sections—a constant radius and thus a constant curvature relative to the pivot axis of the holding-down and knock-over sinker. It is also possible to provide changing curvatures in order to impart the knit fabric with an additional motion component (contrary movement) directed against the movement of the knitting needle, for example. As a result of this opposing or contrary movement, the needle stroke may be abbreviated, which has far-reaching effects on the knitting system and the knitting machine. An abbreviation of the needle movement may provide the basis for an increase of the knitting speed, for the size reduction of the knitting machine and for the simplification of the design.
Preferably, the holding-down and knock-over sinker has a slit-like recess forming a holding-down space for the half-stitches and/or the knit fabric. This holding-down space is formed between a holding-down edge and a section of the knock-over edge. Above the slit, the sinker has a bill. The shape of the bill is adapted to the rotary movement of the holding-down and knock-over sinker in such a manner that half-stitches are safely speared by the needle shaft, without the risk of said half-stitches potentially sliding into this knock-over space. To achieve this, the bill of the holding-down and knock-over sinker may have a chamfered section in its front region of the holding-down edge. With the use of this inclined inlet region, a half-stitch located on the needle shaft can be safely grasped by the holding-down and knock-over sinker and received by the holding-down space.
In the simplest case, the power-transmitting device between the holding-down and knock-over sinker and the needle may be designed as a cam guide that comprises at least one guide cam on the holding-down and knock-over sinker and that comprises a guide element connected to the knitting needle. When the knitting needle is being moved, this element moves along the guide can and, in so doing, adjusts the pivot position of the holding-down and knock-over sinker. The holding-down and knock-over sinker can be biased in a pivoting direction by means of a suitable biasing means such as, for example, a spring, so that the guide cam and the guide element remain in engagement with each other.
Referring to a preferred embodiment, the guide cam, however, is part of a rocker guide that may be formed by a longitudinal slit-like recess in the holding-down and knock-over sinker. This slit-like recess is preferably arranged in such a manner that it has—along its length—different radii relative to the pivot axis of the holding-down and knock-over sinker. In the simplest case the rocker guide is formed by a curved slit that is provided in the holding-down and knock-over sinker. Then the knitting needle features as the guide element, for example, a pin that extends laterally from the knitting needle, said pin coming into engagement with this rocker. A forward or reverse movement of the knitting needle thus effects a back or forth pivoting of the holding-down and knock-over sinker. The pin of the knitting needle may then be the slide block that comes directly into engagement with the flanks of the rocker. Alternatively, shock-reducing or wear-minimizing intermediate elements may also be provided such as, for example, sliding shoes or the like seated on the pin.
The knitting system that comprises at least one holding-down and knock-over sinker and at least one knitting needle may be arranged in a common channel of a needle and sinker bed. In so doing, the holding-down and knock-over sinker and the knitting needle may be flat side against flat side. The pivot bearing for the holding-down and knock-over sinker may be provided on the strip walls of the needle and sinker bed. In order to achieve the greatest possible play considering the pivoting of the holding-down and knock-over sinkers the needle and sinker slits may be provided on their sinker-side end with the perforated bottom.
Considering a preferred embodiment of the holding-down and knock-over sinker, said holding-down and knock-over sinker is provided—adjoining its knock-over edge—with a section in which its body displays reduced thickness. Preferably, its flat side abutting against the needle during operation is provided with a step. The section of the lateral surface facing the knitting needle and adjoining the knock-over edge thus no longer directly abuts against the lateral surface of the knitting needle. Rather, it includes a distance therewith. If the distance is big enough, this leads to an considerable symmetrization of the knitting system. If two adjacent knitting systems and their knitting needles are viewed, the knock-over edge of the holding-down and knock-over sinker located between the knitting needles are centered or largely centered between the knitting needles. Therefore, varying tensile stresses on the legs of a machine and miscellaneous disadvantageous effects are avoided. Instead of a one-sided offset in the form of a step on the holding-down and knock-over sinker it is also possible to provide the holding-down and knock-over sinker with an appropriate offset, whereby the thickness of the holding-down and knock-over sinker is then uniform. However, it is also possible to combine the thickness reduction in the region of the knock-over edge with a lateral offset of the holding-down and knock-over sinker.
Additional details of advantageous embodiments of the invention are the subject matter of subclaims, the description and/or the drawings. 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.
The holding-down and knock-over sinker 5 is a flat, preferably almost planar component of sheet metal that is supported on a support device 15 so as to be pivotable about a pivot axis 16 that is aligned transversely to the knitting needle. The support devices 15 of the various knitting systems 6 consist, for example, of pins that are seated in bores or recesses of the strip walls that delimit the channels 3. Preferably, the pivot axes 16 of the individual support devices 5 correspond to each other with at most a minimal angular deviation (considering round needle beds such as knitting cylinders or rib dials). While the knitting needle 4 may carry out a linear movement in the direction of the arrow 7, the holding-down and knock-over sinker 5 may carry out a pivoting movement in the direction of the arrow 17.
A device 18 is used for driving the holding-down and knock-over sinker, which device can also be viewed as a transmission. The device comprises at least one, preferably however two cam paths 19, 20 that may be formed by the flanks of a slit 21 provided in the holding-down and knock-over sinker 5. Preferably the cam paths 19, 20, i.e., the slit flanks are aligned—irrespective of a potential curvature of the slit 21—approximately parallel with respect to each around the axis of rotation 16, i.e., the slit width has preferably the same dimensions at each point of the slit.
The knitting needle 4 has a lateral projection, for example, configured as a pin 22 that is affixed or molded to the knitting needle 4. The pin 22 extends through the slit 21 or, at least, extends into said slit. The size of the diameter of the pin is slightly smaller than the distance between the cam paths 19, 20. In so doing, the pins 22 and the cam paths 19, 20 and the slit 21, respectively, form a rocker guide 23 that is disposed to convert the linear movement of the knitting needle 4 into a pivoting movement of the holding-down and knock-over sinker 5. This is achieved in that the distance of the cam path 19 from the pivot axis 16 varies over the length of the cam path 19.
The holding-down and knock-over sinker 5 has a knock-over or couliering edge 24 that curves around the pivot axis 16. The couliering edge 24 may have straight and curved sections. In the simplest case, the couliering edge has the contour of a circular arc with the pivot axis 16 being said couliering edge's center. This couliering edge 24 represents the knock-over edge for the stitch formation. In addition, a receiving space 25 is provided on this couliering edge 24, said space also being referred to as the holding-down space. The receiving space 25 is delimited by the knock-over edge 24, on the one side, and by the downholder edge 26, on the other side, said downholder edge extending on the side of the bill facing the couliering edge 24 at a distance from said edge.
As already mentioned, the knock-over edge 24 may be configured as a circular arc and thus display a constant curvature. Alternatively, as shown by
The shape of the bill is adapted to the rotary movement of the holding-down and knock-over sinker 5 in such a manner that half-stitches can securely slide into this receiving space, without being speared. To accomplish this, the bill of the sinker may have a slanted section in its wider front region 27 of the downholder edge 26. With the use of this slanted inlet section, a half-stitch located on the needle shank can be safely grasped by the sinker and guided into the receiving space 25. The slanted section 27 forms a funnel-shaped expansion of the receiving space 25 on one side.
As is obvious from Figure, in particular, the holding-down and knock-over sinker 5 may have a reduced thickness in the region 28 adjoining the couliering edge 24. While the flat, preferably planar lateral surface 29 of the holding-down and knock-over sinker 5 otherwise abuts against the essentially planar lateral surface 30 of the knitting needle 4 (see
The holding-down and knock-over sinker 5 is supported in corresponding recesses of the strip walls 33, 34. As is shown by
In accordance with
In accordance with
In accordance with the invention, a knitting system 6 is being suggested, said system causing a rocker guide 23 to move the holding-down and knock-over sinker 5 as a function of the longitudinal position of the knitting needle 4. Consequently, the pivoting movement of the holding-down and knock-over sinker 5 is forced to follow the back-and-forth linear movement of the knitting needle 4. A single box cam is sufficient for controlling this knitting system 6. In any event, it is only necessary to allocate box cams to the knitting needles 4. The holding-down and knock-over sinkers 5 do not require dedicated drives and box cams.
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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08 157 584.7 | Jun 2008 | EP | regional |