FR2557600A1 - Zone weaving loom - Google Patents

Abstract

The loom contains at least 2 separate shaft systems and harnesses, for zone weaving. The shaft systems (10.11-10.41) are connected to the dobby (2) through a lever (11) and draw cords (4) with suspensions (3) on a single dobby (2). Pref. the suspensions (3) to anchor the draw cords (4) are each fitted to the dobby output lever (11) with two main eyelets. This allows the simultaneous suspension of shafts (10) with the same count in the weaving zones at the dobby (2) lever (11). An auxiliary eyelet allows the suspension of neighbouring shafts with the same count on the dobby (2) lever (11) with a different count. The cords (4) for the auxiliary eyelets on the suspension (3) are guided by discs at an angle to the plane of the shafts (10). Shafts (10) with the same count in both weaving zones are connected to different levers (11) on the dobby (2), through the cords (4) and suspensions (3).

Description

Loom with multiple weaving zones ll
The invention relates to a weaving loom with multiple weaving zones comprising a harness divided into at least two heald blade systems, working in parallel in at least two weaving zones with separate hedge systems for each of the weaving zones.

The problem thus posed has not been resolved in the looms known so far. The idea of the invention resides in that different heald systems are connected to a single jacquart by means of pulling cables and suspension articulations, articulated on the output levers of the jacquart. The arrangement according to the invention makes it possible to control several heald systems by means of a single jacquart. With heavy types of fabric, with a small number of heddles in operation, it is now possible to distribute the loads on a majority of jacquart mechanisms. The same observation applies to light fabrics, woven with the loom turning high speed, too, when the dynamic loads approach the limit of the resistance of the sacquait. It is also possible to weave independently of the different weaving variants in the adjacent weaving areas of the loom. Due to the embodiment according to the invention3 a simplification of the mechanisms is obtained, and a reduction in the masses in motion.
Other advantages and characteristics of the invention will emerge from the description of an embodiment, given by way of example with reference to the drawings in which:
FIG. 1 is a schematic front view of a loom with a movement distribution super structure,
FIG. 2 is a view of an embodiment according to FIG. 1, supplemented with the series of pulleys,
FIG. 3 is a plan view of the sets of pulleys in FIG. 2,
FIG. 4 is a view showing the mounting of the guide pulleys,
FIG. 5 is a view showing an arrangement in space of the sets of pulleys, of the suspension joints and of the heald cables,
FIG. 6 is a view showing the fixing of the cables to the levers of the jacquart, and
- Figure 7 is a view showing a variant of the attachment of the cables to the levers of the jacquart.

 Figure 1 shows schematically a movement distribution superstructure, consists of a frame 1, on which is fixed a negative jacquart superstructure 2. The jacquart 2 comprises a series of output levers 11, to which are suspended, on common articulations 3 suspension, the ends of the cables 4 (Figures 6, 7). The cables 4 are guided by pulleys 5, which are supported, rotary, by fixed axes 6, and drive levers 7, also mounted, rotary on fixed axes 6a; the oscillating movements of the levers 7, induced by the movements of the cables 4, fixed on these levers and rolling in their guide grooves, are transmitted by means of pull rods 9, articulated on these levers 7, to the heddles 10. 11 and 10.12, these being the healds which have the same positioning rank in the adjacent weaving zones. The healds are raised by pulling the cables 4, and return to their lower position by the opposite action of the springs 12 provided on the extended ends of cables 4.

 In FIGS. 2 and 5, we again show schematically the movement distribution superstructure according to FIG. 1, supplemented by two sets of pulleys 13 and 14 placed obliquely to the planes of the heddles, and supported so as to be able to rotate freely by fixed axes. The oblique mounting of the pulleys 14 can be seen in FIG. 4, according to which a fixed axis 18, forcibly mounted on a console 19, supports the pulleys 14, mounted on hubs 16, drilled in the desired direction, and mounted in rotation on bearings 15. This position is locked axially by end supports 17. The cable 4 guided in the groove of the pulley 5, is at the same time unwound from its rectilinear direction.

The plan view of FIG. 3 schematically shows the movement distribution superstructure with a jacquart equipped with eight lifting mechanisms, controlling two adjacent systems of four beams each. Eight exit levers 11 from jacquart 2 are divided into two groups, 11.11 to 11.41 and 11.12 to 11.42 of four levers each. We see attached to the levers 11.12 to 11.42 by means of the suspension joints 3.12 to 3.42, the cables 4.12 to 4.42 which are then passed over the sets of pulleys 14 and 13, on the pulleys 5.12 to 5.42, which are in the planes corresponding to those of the pulleys 5.11 to 5.41 and which are flush with the planes in which the beams 10.11 to 10.41 and 10.12 to 10.42 respectively move. The spatial arrangement can be seen in Figure 5.

 Figure 7 shows the suspension of cables 4, with the arrangement of the movement distribution superstructure according to Figure 1. The two cables 4 are suspended in the eyelets 20 which are at the same distance from a junction 22, provided on the exit lever li of the jacquart. The suspension articulation 3 is provided with an auxiliary eyelet 21 placed at a certain distance from the eyelets 20. The length a corresponds to the shortening of a cable caused by its deviation from the axial direction, as in the case of cables 4.12 in 4.42 of figure 3. The suspension of the cables on the levers 11.12 to 11.42 can be seen in figure 6.

Claims (4)

CLAIMS 1) Weaving machine with multiple weaving zones, comprising a harness divided into at least two heald blade systems, characterized in that the heald blade systems (10.11 to 10.41; 10.12 to 10.42) are connected to a jacquart single (2) by means of pulling cables (4.11 to 4.41; 4.12 to 4.42) and suspension joints (3.11 to 3.41; 3.12 to 3.42) articulated respectively on the output levers (11.11 to 11.41; 11.12 to 11.42) from the jacquart.  20) Loom according to claim 1, characterized in that the suspension joints (3) intended for fixing the cables (4) on the output levers (11) of the jacquart (2) are provided with two main eyelets (20) , for the simultaneous suspension of the heddles (10), having the same positioning row in the weaving zones, on an output lever (11) of the jacquard (10), having the same positioning row, and an auxiliary eyelet (21) for the suspension of the adjoining heddles (10), having the same positioning row in the weaving zones, on the output levers (11) of the jacquard (2) having a different positioning row.  30) Weaving loom according to one of claims 1 and 2, characterized in that the adjacent healds (10), having the same positioning row in the two weaving zones, are connected, by means of cables (4) and suspension joints (3), to different levers (it) from the jacquard (2).  40) A weaving machine according to claim 3, characterized in that the cables (4), suspended in the auxiliary eyelets (21) of the suspension suspension (3), are passed over a series of pulleys (13 , 14), mounted obliquely to the plane of the heddle (10).  50) Trade according to 3 1 any of claims 1 to 4, characterized in that there is provided a difference (a) between the distances of the main eyelet (20) and the auxiliary eyelet (21) to a junction (22) provided on the output lever (11) of the jacquart (2) difference which corresponds to a change in the length of the cable (4), when the latter is transferred from a common output lever (11) to a output lever different from the jacquart (2), and when the cable (4) passes over a series of pulleys (13, 14) mounted obliquely.