The invention relates to a heald shaft for weaving machines.
So-called heald shafts are arrangements in the form of a frame comprising a long, horizontal upper shaft rod and, located beneath the latter, a long, horizontal lower shaft rod. The ends of the two shaft rods are connected to each other by lateral supports. The shaft rods support heald-bearing rails on which the healds a seated. For mounting and removing the healds, the heald shaft must be designed so as to be demountable. To accomplish this, the lateral supports are removable. Releasable corner connectors are used for connecting the shaft rods with the lateral supports. Relevant examples have been known, for example, from publication DE 10 2005 029 701 B3 or also from DE 103 49 381 B4.
Publications CH 427688 A, as well as DE 101 16 813 B4 disclose the principle of a corner connector having two clamping legs machined out of the shaft rod, whereby an extension of the lateral support is clamped in place between said clamping legs.
The object of the invention is to minimize risks posed to the operator, said risks being caused by the heald shafts.
In particular when a weaving machine is being set up in the case of interruptions of operation due to operational troubles or on account of other situations, operators must have access to the heald shafts, in which case at least a slow movement of the heald shafts must also be possible. In those cases, there must be effective measures to prevent the operators from being injured or from being otherwise harmed.
It is the object of the invention to provide a heald shaft exhibiting improved safety.
The heald shaft in accordance with the invention comprises at least one corner connector that includes a hollow space that is open toward one of the flat sides of the shaft rod. The hollow space is delimited by two legs that preferably are part of the shaft rod and preferably have a length that is clearly greater than the length of the extension of the lateral support, said extension being accommodated between said legs. In so far, there remains a considerable opening that extends through the lateral surface. The guard element arranged on or in the opening blocks the access to the opening so that tools or clothing or the fingers of an operator cannot enter this opening. Consequently, the risk of injury when manipulating the heald shaft is considerably reduced.
Preferably, the legs have clamping jaws that can be tension-clamped relative to each other via a tensioning means in order to clamp the extension of the lateral support in place between said clamping jaws. These clamping jaws may consist of a solid material, in particular metal, e.g., steel. Independent thereof, the heald shafts may consists of another material, preferably aluminum. The clamping jaws may be connected to the legs in a stationary or movable manner. Between the clamping jaws there is a distance that, preferably, is several centimeters but, at any rate, large enough to prevent the average operator from reaching with the thumb or finger between the clamping jaws if there were no guard element.
Preferably, the extension takes up less than half the volume of the opening. In the preferred embodiment, the extension takes up less than one third of the volume. Consequently, the extension is only clamped between the ends of the legs, while the largest part of the opening remains unblocked. The thusly relatively long legs pivot only very minimally when tensioned so that the extension clamped between them is subject to a uniform pressure per unit area and thus there is a transmission of force over a large area.
At least the larger part of the opening is covered by the guard element. Preferably, the coverage is complete. Alternatively, it is possible that smaller areas or openings also remain unblocked, these areas and openings being so small that an operator cannot reach inside of them with his finger. To this extent, the guard element can be configured as a cohesive, planar element, as well as—alternatively—as an element with one or more smaller openings.
Preferably, the guard element is held on the heald shaft by means of at least one fastening element. The fastening element may be, for example, a detent finger extending transversely through the opening. Whereas the guard element preferably abuts around the rim of the opening against one of the flat sides, the detent finger preferably extends behind the other flat side. It has been demonstrated that this type of fastening allows a simple attachment of the guard element to the shaft rod and also ensures that the guard element does not loosen by itself, even in instances of high accelerations of the shaft rod.
Alternatively, other means may be used to fasten the guard element to the shaft rod. For example, said guard element may be fastened to the shaft rod with glue or an adhesive. However, in doing so, said guard element extends at least along part of the rim belonging to the flat side and enclosing the opening and is glued to the flat side at that site.
However, the guard element may also be a body that is arranged and held in the opening. Fastening may again be made possible by clamping or gluing, or also by engagement.
Independent of its design, the guard element is preferably made of a plastic material, e.g., or a transparent or an opaque plastic material. Preferably, the guard element is resilient to the extent that it does not hinder the minimal relative movement of the legs that delimit the opening, said movement occurring when the extension of the lateral support is being clamped in place or released.
Details and modifications, as well as advantageous specific features of the embodiments of the present invention are obvious from the description, the subordinate claims, as well as from the drawings. They show in:
During use, the lateral support 13 extends in vertical direction and is guided in the weaving machine so as to be vertically movable. Said lateral support has an essentially straight shaft 20 from the top of which extends a horizontal extension 21, e.g., at a right angle relative to the shaft 20. The extension 21 has a rectangular cross-section, for example. Preferably said extension has a horizontal thickness that is not greater than the low thickness of the upper shaft rod 11.
The end 22 of the shaft rod 11 is provided with an opening 23 that extends from the face-end side into the shaft rod 11 and also through its two flat sides 24, 25. In so far, a mouth-like opening is formed, said opening being delimited by its upper leg 26 and by a lower leg 27. Preferably, the two legs 25, 27 are provided with clamping pieces 28, 29 that, e.g., may consist of steel or solid aluminum or of another material. While the shaft rod 11 can be configured as a light-weight hollow profile, the clamping pieces 28, 29 are preferably solid. The latter can be riveted or screwed together, or otherwise connected together. The distance between the clamping surfaces of the clamping legs 28, 29, said surfaces facing each other and being preferably planar, preferably essentially matches the distance between the upper and lower surfaces of the extension 21. Consequently, the extension 21 can easily be inserted between the legs 26, 27.
Whereas the upper clamping piece 28 has a passage opening, the lower clamping piece 29 has a threaded bore in alignment with said passage opening. The extension 21 has a passage bore in alignment with these bores. Consequently, a tensioning means, e.g., in the form of a pulling bolt 30 or another element, can be passed through the bores and screwed into the threaded bore of the lower clamping piece 29. When the pulling bolt 30 is tightened, the legs 26, 27 move minimally in a resilient manner, and the extension 21 is clamped in place between the two clamping pieces 28, 29.
Ideally, this function is achieved when the opening 23 has a depth measured in horizontal direction away from the face-side end of the shaft rod 11, said depth being substantially greater than the length of the extension 21 measured in the same direction. In so far, the large part of the opening 23 remains open toward the flat sides 24, 25, respectively. A guard element 31 is provided for covering the remaining opening 23 at least toward one of the flat sides 24, 25, said guard element covering the opening 23 toward the flat side 24 in the present exemplary embodiment.
Preferably, the opening 23 is delimited by legs that are parallel with respect to each other and have straight edges. These two straight edges terminate in each other in an arcuate end section. Accordingly, the plate-shaped base body of the guard element 31 is provided with two straight edges 38, 39 that are parallel to each other and are connected to each other by an arcuate edge section 40, said section preferably being shaped like a circular arc. Adjacent to the straight edges 38, 39, the thickness of the plate-shaped base body of the guard element 31 may be reduced. In doing so, grooves 41, 42 having open edges are formed, said grooves being disposed to accommodate laterally projecting parts of the clamping pieces 28, 29.
As is particularly obvious from
It is also possible to design the guard element 31 in a different way.
When in use, the filler body 43 fills the opening 23 to such an extent that the extension 21 will still just fit between the clamping pieces 28, 29. The face-side narrow surface 51 of the filler body 43 abuts against the front of the extension 21 or is held at a minimal distance therefrom.
The filler body 43 may consist of a solid plastic material, a foamed material or the like. It is—at least minimally—flexibly resilient in order to not hinder a slight, springy movement of the legs 26, 27. The filler body 43 may be secured in the opening 23 in a form-fitting manner and may optionally also be supporting by material bonding, e.g., with a glue or adhesive material. In addition, it is possible to provide other fastening means such as, e.g., fastening clips, projections, dogs or the like.
The adhesive elements 52 may be secured by means of an adhesive on one of the flat sides 24, 25 or also on both flat sides 32 on the rim 32 of the opening 23 and may remain permanently on the shaft rod 11. As needed, it is possible to provide one or more heald shafts of a shedding unit with guard elements having one or more of the aforementioned designs. In particular, it is recommendable that the outward-facing flat sides of the heald shafts located on the outside of a shedding arrangement be provided with guard elements of the mentioned type. In doing so, an effective grip protection is accomplished. An adequate grip protection may already exist when only the shaft rods at the top during use are equipped with guard elements.
Guard elements 31 are provided for the corner connectors 16 through 19 of a heald shaft 10 of a shedding unit, said guard elements covering the open space formed between the two legs 26, 27 and thus providing a grip protection.
Number | Date | Country | Kind |
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11182032 | Sep 2011 | EP | regional |
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