EP0181985B1 - Weft storing device for looms - Google Patents

Description

The invention relates to a weft thread storage device for a weaving machine, with a winding body for winding up the weft thread, which winding body consists of a drum-shaped part arranged eccentrically to the drive axis of the storage device and a plurality of brackets forming a radially adjustable winding part, which has a leg radially to the winding body the drum-shaped part are held, while the other leg, which runs essentially axially parallel to the storage axis, runs against a base disk of the winding body.

In a previous device of this type (CH-PS 639 711), each radial leg of the bracket is held in a bore in the drum-shaped part by means of a clamping screw. The axial leg runs directly against the base plate. He can touch it without being attached to it.

If the winding diameter of the winding body and thus the length of the storage winding corresponding to the weaving width of the associated weaving machine are to be changed, the clamping screw on each radial leg must be loosened and the bracket pushed in more or less by hand and clamped in a new position by means of the screw. This adjustment of the bracket requires relatively great skill from the operator of the weaving machine. As a rule, the new position of the hanger which corresponds to the desired weaving width must be found out by trying.

The invention has for its object to provide a particularly improved in this regard device.

The invention consists in that the base plate is designed to be rotatable and is provided with at least one spiral groove, into which the axial limbs of the bracket project.

As a result, it can be achieved that all of the brackets can be adjusted radially by an essentially the same amount by rotating the base plate. The axial limbs of the stirrups are moved further inwards or outwards in the radial direction, depending on how the spiral groove runs. At the same time, the radial legs of the brackets are moved further inwards or outwards in the associated bore of the winding drum. After this, the radial limbs of the brackets would normally have to be tightened again. This makes it easy to set a new storage length for the weft thread.

In particular, it becomes possible to use the adjustment of the stirrups as a fine adjustment for the weft insertion length; to which a corresponding rough setting belongs. The rough adjustment can be achieved, for example, by selecting an appropriate number of turns on the winding former that belong to the same weft insertion length. The associated fine adjustment can be achieved by adjusting the bracket as described.

• Fig. 1 ist die Seitenansicht eines Speichers, teilweise geschnitten,
• Fig. 3 ist ein Teilschnitt entsprechend Fig. 1,
• Fig. 4 veranschaulicht ein Detail entsprechend Kreis IV in Fig. 1, in grösserem Massstab,
• Fig. 5 zeigt ein Detail aus Fig. 1 in grösserem Massstab und
• Fig. 6 erläutert eine Ausführungsform in schematischer Darstellung.

Further features result from the following description of exemplary embodiments in conjunction with the claims and the drawing.

• 1 is a side view of a memory, partly in section,
• 3 is a partial section corresponding to FIG. 1,
• 4 illustrates a detail corresponding to circle IV in FIG. 1, on a larger scale,
• FIG. 5 shows a detail from FIG. 1 on a larger scale and
• Fig. 6 explains an embodiment in a schematic representation.

A schematically indicated drive shaft 2 of the storage device 3 is arranged in a cylindrical housing 1 and is driven via a toothed belt drive 4 according to arrow 5. On the shaft 2, a thread feed tube 6 is attached, which is driven according to arrow 7. The weft thread designated 8 is fed according to arrow 9 and wound in the form of windings 11 onto a winding body designated as a whole as 12. A rod 51 is provided for mass balance with respect to the tube 6.

During weaving operation, disk 13 rotates according to arrow 14 and allows a certain number of turns to the right in each tooth gap 15. The weft thread is drawn off over the end face 16 during the weaving according to arrow 17 and entered into the shed of an associated weaving machine, not shown.

The winding body 12 consists of a drum-shaped winding part 19 arranged with its axis 18 eccentrically with respect to the axis 2 of the store 3 and, for example, seven stirrups 21 attached in the lower region of the part 19. Each stirrup contains a leg 22 directed essentially radially to the part 19 and an axial leg 23 running essentially parallel to the axes 18, 2. Each leg 22 projects into a recess 24 in the winding part 19, each leg 23 extends up to a base plate 26. Disc 26 is rotatably supported on the winding part 19 with the interposition of a ball bearing 60. Disc 26 has a curved slot 62 through which a clamping screw 61 is screwed into the winding part 19. After loosening the screw 61 (Fig. 5), the disc 26 z. B. rotated by hand and clamped in a new position by means of the screw 61.

The disk 26 is shown, contains a continuous, spiral-shaped groove 28. The ends 29 of each axial leg 23 protrude into the spiral groove 28 and into an associated radial groove 27. The ends 29 are guided through their groove 27 during their radial movement. The ends 31 of the radial legs 22 are interposed Rubber ring 32 clamped by means of a front disc 33 using a clamping screw 34.

An angular guide part 41 is fastened to the housing 1 and has a slot 42 into which the teeth 40 of the separating disk 13 protrude. As a result, the winding body 3, which consists of the cylindrical winding part 19 and the brackets 23 and is rotatably mounted on the shaft 2, is secured against rotation.

During the weaving operation, the arrangement is made, for example, in such a way that five turns 11a each get into one and the same tooth gap 15a of the separating disk 13 and are pulled off to the right in FIG. 1 when the associated tooth 40a is immersed in the drum-shaped part 9. The five turns 11a contain, for example, a length of 1.40 m, which is equal to the desired weaving width.

If, for example, a weaving width of 2 m is to be stored on the winding body 3, the screw 34 is loosened so that the stirrups 21 are loosened in the slots 24. The screw 61 is then loosened and the disk 26 is rotated by hand in such a way that the brackets 21 are moved further outwards due to the spiral groove 28 in FIG. 2. The adjustment path can be read from the marks 44 of the legs 22. In a new position corresponding to the weaving width W = 2 m, the screws 61, 34 are tightened again, so that the washer 26 and the stirrups 21 are firmly seated again. Now the weaving operation can be continued with the new weaving width.

In a modified embodiment, instead of a single, continuous spiral groove 28, a number of partial grooves 28a, b, c each extending only over a fraction of the circumference is provided according to FIG. B. two brackets 21 are guided with their ends 29. Other partial grooves 28d, e are expediently provided in the disk 26a as blind grooves, so that the disk 26a can be easily used in any rotational position. In the example, no temple ends 29 are guided in the grooves 28d, e.

Claims (4)

1. A weft yarn storage device (3) for a loom, the device having a storage element (12) on which the weft yarn (6) can be wound and which comprises a drum-shaped part (19) disposed eccentrically of the drive shaft (2) of the storage device (3) and a number of brackets (21) forming a radially adjustable winding-receiving part, the brackets (21) being retained in the drum-shaped winding-receiving part (19) by way of an arm (22) disposed radially of the storage element (12), the other arm (23) of the bracket (21) extending substantially parallel to the axis of the drive shaft (2) towards a main disc or plate (26) of the storage element (12), characterised in that the main disc or plate (26) is adapted for rotation (at 60) and is formed with at least one spiral groove (28, 128a-c) into which axial arms (23) of the brackets (21) extend.

2. A device according to claim 1, characterised in that each radial arm (22) is retained in a recess (24) in the drum-shaped part (19) and is clamped fast by a disc (33) clampable in the direction of the shaft (2) of the storage element (12).

3. A device according to claims 1 and 2, characterised in that the clamping disc (33) has a resilient, e. g. rubber, pressing ring (32) which in the clamping position is pressed on to the radial arms (22) of the brackets (21).

4. A device according to any of claims 1-3, characterised in that each radial arm (22) has a number of marks (44) from which the radial position can be read off.

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