CS213828B1 - Air duct lamella - Google Patents

Description

The subject of the invention is an air duct lamella with a modified picking hole geometry for improving picking conditions when the weft thread is introduced by a pressurized air stream into an open port on the air weaving machines.

The producers of weaving machines are trying to produce these machines for the maximum beam width of the fabric. This trend is understandable since this increases the productivity of the weaving machine, measured by the length of the clogged weft thread and the time unit. In air weaving machines, where the weft thread is introduced into the duct through a compressed air stream directed by an air duct, also called a confuser, this possibility of increasing the beam width of the fabric is largely limited by the physical properties of the compressed air as the carrier medium. Therefore, air duct manufacturers try to increase their efficiency by using state-of-the-art manufacturing technology, which guarantees high surface quality of the functional parts of the individual weft lamellae and maximum alignment of the geometry of the functional parts of the lamellae. For this purpose, various design modifications of the lamella shape are also carried out.

One of the known embodiments is a plastic molded air duct, wherein the threading slot is closed by a flexible tongue, which prevents air escaping through the threading slot, while allowing its shape and elasticity to allow the weft thread to escape after the picking, before stroke. An air duct made up of such lamellas has a higher efficiency in weft thread picking than air ducts of the prior art without a tongue.

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The disadvantage, however, is that fatigue of the material occurs relatively soon and the tongue ceases to perform the function of the die gap closure due to loss of elasticity. In addition, the slack tongue during the operation of the weaving machine is further oscillated, thereby further deteriorating the conditions for a perfect and error-free weft threading.

These drawbacks are eliminated in the air duct according to the invention, whose intersecting opening is formed by a conical portion and the transition of this conical portion of the picking opening into the discharge slot is rounded below a radius less than twice the width of the discharge slot. At the same time, the side walls of the die slot are convergent to their mouth.

It is advantageous to select the rounding of the picking apertures into the discharge slot as small as possible in order to achieve a discontinuous flow at the point of transition to the discharge slot, whereby due to the throttling effect a sort of sealing of the discharge slot occurs.

When selecting the radius of curvature of the edges at the transition point, the type and nature of the weft yarn material for which the air duct is intended must also be taken into account. The wedge-shaped narrowing of the threading slot is advantageous for improving the weft threading conditions. This treatment also facilitates the removal of the slats from the mold when molded from the plastic

Based on the tests and measurements carried out, it has been shown that the modification of the opening of the air duct lamella according to the invention has a higher effect than all air duct lamellas used hitherto. Modifying the shape of the picking opening on the slats is not labor intensive, since the overall shape is simpler than the slats produced so far.

An exemplary embodiment of an air duct lamella according to the invention is shown in the drawing, wherein Fig. 1 is a front view of the lamella and Fig. 2 is a side view of the lamella of Fig. 1.

The air duct lamella consists of a fastening foot 6 and a lamella body 1 in which a tap hole 2 is formed, which tapers in the direction of insertion of the weft thread into the open shed of the weaving machine. The picking opening 2 is connected by transition radii 5 '6 to a slitting slot of width 3. The sliding slot 8 tapers to its orifice 7.

Claims (2)

An air duct having a through-hole formed by a conical portion with a transition to a discharge slot, characterized in that the transitions between the orifices (2) and the wall of the discharge slot (8) are rounded below radii (5, 6) smaller than twice the maximum width (3) of the unloading slot (8). Air duct according to claim 1, characterized in that the side walls of the unloading slot (8) are convergent to their mouth (7).