DE829718C - Winding machine with automatically adjustable friction disc drive for the winding spindle - Google Patents

Description

Spooling machine with automatically adjustable friction disc drive of the Spool spindle In winding machines, z. B. Cross-winding machines, it is known to use the friction disk drive set up the winding spindle so controllable that the thread speed despite increasing diameter of the coil remains the same. Such facilities work with a sensing element that senses the bobbin and as the bobbin diameter increases is pivoted. This pivoting motion locks the friction disk drive temporarily unlocked so that the drive pulley is under the influence of centrifugal force shifts automatically on the body plate that works with her, whereby the number of revolutions of the winding spindle according to the growing bobbin diameter is reduced. l) he known devices of this type have the disadvantage that the coil scanning sensing member a relatively strong pressure on the Bobbin exerts so that problems occur with fine yarns. If you hold on the other hand If the contact pressure is lower, there is a risk that the locking mechanism will hit the ground solves itself.

This overhang is eliminated by the present invention. It essentially consists in this; that that of the drive pulley as an abutment serving pressure lever is supported against a pawl articulated on an intermediate lever, which latter engages in a fixed saw toothing and of which by the Sensing element influenced shift lever by mediating one also on the intermediate lever rotatably mounted angle lever is lifted. The pressure lever presses advantageously while on the pawl with a small torque near the pivot point the Angle lever with arms of different lengths acting on him The lifting force of the shift lever is transferred to the pawl with a large gear ratio.

On the one hand, this ensures that the pawl is securely seated in the locking teeth causes and on the other hand the contact pressure to be overcome by the sensing element as possible kept low. A stop screw attached to the shift lever and acting on the angle lever is expediently adjustable in a slot of the shift lever, so that the transmission ratio of the Wi nkelhehel changes the pressure of the feeler on the coil even further can be reduced.

In the drawing, the invention is in one embodiment of a Cross-winding machine illustrated for example. It shows Fig. I a front view, FIG. 2 shows an end view and FIG. 3 shows a detail on an enlarged scale.

1 is the winding spindle on which the friction disc 2 sits, which is connected to the Drive pulley 3 cooperates. The thread is through the thread guide 4, the is moved hi and dher by means of the cam 5 and the thread guide rod 6, wound crosswise onto the spool 7 in a manner known per se. The one as a feeler auisgebilden thread guide 4 penetrates a rotatably mounted on the shaft 8 Frame 9. which the latter is fixed by a link 10 with the in the machine frame mounted shaft 1 1 is connected.

At the other end, the shaft 11 carries a pressure lever 12 which is loose rotatably seated on the shaft 11. on the pressure lever 12 is a roller running in balls 13 arranged against which the anti-friction friction wheel 3 rests. Between two transverse lobes 14 of the pressure lever 12 is the shift lever firmly seated on the shaft 11 with a little play 15. It is comprised of a U-shaped intermediate lever 16, which is also is arranged with Speil between the lobes 14 of the pressure lever 12.Der Zwsichenbebel 16 is loosely rotatable on the shaft 11.

On the Zwsichenebel 16 a pawl 17 is hinged around the bolt 18 is rotatable. The pawl 17 has an abutment 19 against which the pressure lever 12 attached stop screw 20 presses. The longer arm of the pawl 17 runs in a cutting edge 21, which is provided with a sawtooth-like barricade 22 Stationary detent 23 engages. A weak feather 24 is constantly striving to force the cutting edge 21 of the pawl I7 into the toothing 22 with light pressure.

An angle lever 25, 26 is also rotatably attached to the intermediate lever 16, which has its pivot point at 27. The free end of the arm 26 carries a roller 28, which lies against the underside of the pawl 17. In the shift lever 15 is a stop screw 29 arranged. It is adjustable in a slot 30 of the shift lever 15 and pushes against the longer arm 25 of the angle lever 25, 26.

During operation, the drive pulley 3 lies under the Influence of the centrifugal force acting in the direction of arrow P (Fig. 2) against the roller I3 of the pressure lever 12. The pressure lever I2 is supported against the abutment 19 of the Pawl I7, which prevents the locking teeth 22 from being displaced will. in which the ratchet cutting edge 21 engages. The friction wheel drive 2, 3 is thus fixed and secured against change. As the diameter of the coil increases 7, the feeler 4 is pushed aside.

It swivels the frame 9, whereby the shaft 11 is also somewhat This turning movement is made by the shift lever, which is firmly seated on the shaft 11 15 with, the counterclockwise movement according to FIG. 2 of the drawing somewhat is swung out. The stop screw 29 of the shift lever 12 pushes open the arm of the angle lever 25, 26 so that it pivots about its pivot pin 27 and thus the cutting edge 21 of the hook 17 is lifted out of the locking toothing 22 This gives the abutment 19 the pressure of the stop screw 20 of the pressure lever 12 after. The locking of the drive friction disk 3 against displacement is thus canceled, so that the disc 3 is now under the influence of centrifugal force in the direction of the arrow P (Fig. 2) on the surface of the friction disc 2 migrates to the outside. This will make 11 As is well known, the number of revolutions of the coil 7 decreases and increases Adjusted diameter so that the thread speed remains the same. By the shift the drive friction disk 3, the latter immediately exerts pressure on the pressure lever again 12, which is pressed against the abutment 19 of the pawl 17 again. the latter is pivoted about the bolt 18 and the cutting edge 21 into the next tooth gap the locking teeth 22 press in. This is the blocking of the friction wheel drive 2, 3 restored. Repeatedly with a further increase in the diameter of the coil 7 this process, so that from time to time according to the growing diameter the number of revolutions of the winding spindle 1 changes.

When the coil is finished, the frame 9 with the sensing element 4 is through a light movement set back. This makes the one that is firmly seated on the shaft 11 Switch lever 15 also moved back.

He takes it by means of two tabs 14 of the pressure lever I2 entire locking mechanism in its original position with back, so that the working cycle ovn can begin again.

The pressure lever 12 acts on the pawl 17 in the vicinity of the pivot point 18, so that as a result of the short lever arm 1 (Fig. 3) a very small torque arises, which, however, is sufficient for the pawl 17 to pop out of its own accord from the locking teeth22. On the other hand, however, the pawl 17 can very little pressure can be released from the toothing 22. This is still supported by the considerable length l 'of the lever arm 26, which the roller 28 with a large Torque can act on the pawl 17.

In addition, the arms of the angle lever 25, 26 are different are long and the stop screw 29 acts on the longer lever arm 25.

By adjusting the screw 29 in the slot 30 of the gear lever 15 the transmission ratio can be changed and regulated.

The construction described creates the pawl 17 for lifting from the locking teeth 22 a large gear ratio, so that the gear lever 15 effective release pressure only needs to be small. As a result, he can use the Feeler element 4. that is only pressed lightly, no interfering influences on the coil 7 exercise.

Claims (3)

PATENT CLAIMS: 1, winding machine. especially package winder, With automatically adjustable row pulley drive <l winding spindle. in which by a sensing element that scans the bobbin as the bobbin diameter increases The lock of the pulley drive is temporarily unlocked. characterized, that the drive pulley (3) as an abutment dienelode l) ruckhelel (12) itself against a pawl (17) hinged to an intermediate lever (16). what the latter engages in a fixed saw toothing (22) and from that through the sensing element (4) influenced shift lever (15) by arranging one also at the intermediate lift (I6) rotatably mounted Winkelhehels (25, 26) is excavated. 2. Winding machine according to claim I, characterized in that the Press the lever (12) on the pawl (17) with a small torque in the vicinity of the The pivot point (18) presses and the angle lever (25, 26) with arms of different lengths the lifting force of the shift lever (15) acting on it with a large translation the pawl (17) transfers, so that on the one hand a secure fit of the pawl (17) in the toothing (22) is effected and on the other hand that of the sensing element (4) to be overcome Contact pressure is as low as possible. 3. Winding machine according to claim I and 2, characterized in that a stop screw arranged on the switching lever (15) and acting on the angle lever (25, 26) (29) to change the transmission ratio in a slot (30) of the handle (15) is adjustable.