This application claims the priority of European Patent Application No. 07 008 923.0, filed on May 3, 2007, the subject matter of which, in its entirety, is incorporated herein by reference.
The invention relates to a tool, in particular to a knitting tool, for loading bars in textile machines, in particular of knitting machines. Hereinafter, a knitting tool is understood to mean a tool for the production of knit goods, in particular a knitting needle.
Textile machines, e.g., tufting machines, stitch-bonding machines or knitting machines comprise bars with tools for the production of flat textile structures. A tool in accordance with the invention may be held by a bar of such a machine or of a similar textile machine.
As a rule, textile machines comprise at least one bar that holds many knitting tools, e.g., needles, in parallel alignment with respect to each other. In so doing, the bar is an oblong carrier which extends in a direction transverse to the knitting tools and performs a pre-specified movement. In so doing, all of the knitting tools seated on the carrier perform the same movement.
The knitting tools are held on the bar at specific distances with respect to each other. These distances determine the division. A measurement for the division is the so-called fineness which is expressed in terms of the number of knitting tools per English inch. The fineness (gauge) E40 denotes 40 needles per English inch.
Usually, the bar has a slit for each knitting tool, whereby the knitting tool is held and clamped in place in said slit. Using this concept, a fineness or gauge of E40 to E44 can be achieved. Considering higher degrees of fineness, this concept has its limits. The strip walls and/or tool shafts present between the slits become so thin that they can no longer withstand the mechanical demands.
Considering this, it is the object of the invention to state an improved concept for knitting tools of knitting machines. Another object is to state a concept with which particularly high degrees of fineness can be achieved.
This object is achieved with the knitting tool in accordance with claim 1, as well as with the knitting machine in accordance with claim 2:
The knitting tool in accordance with the invention has, on its body, a positioning means with which said knitting tool can be positioned so as to be consistent with a pre-specified division. The positioning means makes unnecessary the strip walls to be provided between the knitting tools until now. Said positioning means positions the knitting tool on the bar, independent of strip walls or channels as were earlier required for the accommodation of tool shafts. As a result of this, the space used earlier for the strip walls is now available for the thickness of the knitting tool bodies or their tool shafts that create bearing sections. Extremely high degrees of fineness of, for example, E50 can be achieved, without any occurrence of the problems related to stiffness or strength of the knitting tools.
The positioning means provided on the knitting tool is disposed to bring the knitting tool into a specific position relative to said tool's transverse direction and to fix said tool in this position. The positioning means can be implemented as a suitable cutout, for example, a slit extending in longitudinal direction of the body. Then, this slit extends preferably around a strip or projection provided on the bar. This projection may be configured in one piece with the bar or it may, alternatively, be represented by a strip that is set into the bar. Viewed in cross-section, the knitting tool in this case has a U-profile in the region of the positioning means, said U-profile being disposed to seat the knitting tool on the projection. In so doing, the upper narrow side of the projection may be in contact with the slit bottom. Alternatively, the faces of the legs of the knitting tool may be seated on the bar on both sides next to the projection. The upper narrow side of the projection is then located at a distance from the base or bottom of the positioning means.
Referring to an alternative embodiment, the positioning means may be at least one projection provided on the body. For example, this projection may be represented by a rib extending in longitudinal direction on the body. Preferably, this rib is located on a narrow side of the body. The bar has a groove for the rib, said rib fitting into said groove. Preferably, several grooves are provided on the bar, said grooves being aligned parallel to each other and defining the division of the needles. The grooves are narrower than the tool shafts or support sections. Said grooves are used only for the accommodation of the ribs.
If the positioning means of the knitting tool is represented by a slit on the body, the strips provided on the bar determine the division of the knitting tools.
In neither of the two cases are there any spacers, slit walls or other elements provided between the knitting tools. Rather, the flat sides of adjacent knitting tools face each other. They limit narrow slits or abut against each other without appreciable pressure. Consequently, the entire distance of division between the tool shafts or support sections may be filled, whereby said tool shafts or support sections display a high degree of stiffness, even in instances of very fine divisions. In addition, the bodies may support each other in transverse direction, thus additionally contributing to the stiffness.
Preferably, in at least their region of the stitch-forming section, the knitting tools have a width that is smaller than the width of the support sections which are held on the bar. Here, width is understood to be the distance of the lateral surfaces of the respective support section or of the stitch-forming section in a direction transverse to the longitudinal direction relative to the knitting tool. The transverse direction extends parallel to the longitudinal direction of the bar. However, it is also possible to provide knitting tools having a stitch-forming section that has the same width as the support section or that is even slightly larger. This is possible when the bar is alternately loaded with knitting tools having stitch-forming sections of different spatial orientations, e.g., in that they alternately point diagonally upward and diagonally downward.
If the knitting tool is a needle, the stitch-forming section may have a shaft, for example, said shaft terminating in a hook at the end. The shaft may also have a uniform height or have different heights. In so doing, the height is measured perpendicular to the longitudinal direction of each needle. A slit, for example for a slider, may be provided in the shaft. Said slider may be held on another bar, whereby said slider may be configured in accordance with the same principle as the needle and may be held in the bar. The slider, the needles and any other elements used for forming stitches are thus knitting tools as defined by the patent claims.
Additional details of embodiments of the invention are the subject matter of the drawings, the description and the claims. The description is restricted to essential aspects of the invention and miscellaneous details. The drawings disclose additional details and are to be used as a supplementary reference.
As is indicated by
For positioning of the knitting tools 2, the bar 1 has preferably a flat support surface 16 against which abuts the narrow side 13 of the support section 5. A projection 17 extends vertically from the support surface 16, said projection being represented by a strip 18 in the present exemplary embodiment. As is obvious from
As is additionally obvious from
In addition, a foot 27 may be provided on the support section 5, said foot preferably extending away from the narrow side 13 of the support section 12 that has the slit 12. The foot 27 fits in an axial positioning groove 28 which extends in transverse direction Q along the bar 1.
The positioning means 11 in the form of the groove 12 extends over a large part of the support section 5. Instead of the single parallel-flanked slit 12, it is also possible to provide two short sequential slits that are associated with correspondingly smaller projections 17 (not illustrated). In addition, the slit 12 need not necessarily have parallel flanks. Instead of the rectangular cross-section, the slit 12 and the strip 18 may also have deviating cross-sections, e.g., trapezoidal cross-sections. Their dimensions relative to each other may be determined in such a manner that the flanks of the slit 12 are slightly elastically deformed by the strip 18, e.g., they are bent away from each other. In this way, the support section is positioned entirely without play. As a result of the elasticity of the slit walls, a compensation of manufacturing tolerances is possible.
Furthermore, as shown by
The adjustment of the appropriate division thus is achieved by the interplay between the positioning means 11 and the fixing means 29. A series of additional modifications—a few of them being mentioned as examples hereinafter—may be taken into consideration for said means.
As is shown by
The dimensions of the strip 18 in accordance with
In accordance with
In the case of each of the above-described examples the working section 4 and the support section 5 are in alignment; however, it is pointed out that the sections are offset parallel with respect to each other not only in accordance with
In order to achieve a defined and improved positioning of the stitch-forming sections 4 of the knitting tools 2, this positioning may be uncoupled from the support surface 16 as well as from the strips 18. To achieve this, the knitting tool 2 may preferably be provided with feet 37, 38 only on its support section 5, said feet being used for the adjustment of a desired needle height. Said feet are preferably not used for axial positioning because this is done by foot 27. The feet 37, 38 extend into the grooves 39, 40 that are provided in the surface 16 of the bar 1 and that extend in said surface's longitudinal direction. The advantage of this embodiment is its high fabrication precision that can be achieved here with minimally complex fabrication. The metal cutting volume is minimal in the fabrication of the two grooves 39, 40. The wear of tools used in the fabrication of the grooves and hence the dimensional inaccuracy of the groove bottom are correspondingly low.
A knitting needle designed specifically for achieving particularly fine divisions, or another knitting tool 2, has a narrower working section 4 and a wider support section 5, whereby the support section 5 is provided with a positioning means 11, for example, having the form of a slit 12 or having the form of a rib 32. The knitting tool 2 is associated with a fixing means 29 in the form of a projection 17 or a groove 33 on the side of the bar 1. Due to this measure, the support sections 5 of the knitting tools 2 may be arranged—in close proximity to each other, in contact with or at a minimal distance from each other—on the bar 1, so that a maximum cross-section is available for configuring the support section 5. This provides strong stability for the knitting tools 2—even in cases of extremely fine divisions—and, at the same time, provides precise alignment and avoids division errors.
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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07008923 | May 2007 | EP | regional |
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Number | Date | Country | |
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20080271497 A1 | Nov 2008 | US |