DE1131575B - Thread guide drive on disc winding machines - Google Patents

Description

The invention relates to a thread guide drive on disk winding machines with a slotted thread guide swinging at a fixed point.

In order to wind a thread onto disc bobbins with conical side discs, there is already a thread guide device has been proposed in which the thread guide oscillates with constant amplitude around a fixed point and has a guide channel, in which the thread moves automatically, depending on the increase in the winding diameter. In this case, the thread can become demolished in the guide channel due to the increase in the diameter of the bobbin Approach the point of oscillation of the thread guide. As a result, the coil length decreases with increasing Diameter. In the opposite case, the winding length increases.

If you use a thread guiding device of the type described, then occur in the vicinity of the Side windows often have beads of thread. When the coils produced in this way are ab- ao numerous Thread breaks which often accumulate in such a way that the bobbin can practically no longer be unwound.

This disadvantage is eliminated according to the invention in that the lengthened beyond the pivot point Drive end of the thread guide with a slot comprises a pin of a double lever which rotatably mounted on the traversing rod, which is evenly moved back and forth in a known manner, and of Tension springs perpendicular to the direction of movement is held on it, and the other, with a roller provided lever end near the turning point of the traversing rod with fixed stop blocks cooperates in such a way that the thread guide movement accelerates in the vicinity of the reversal points will.

Another form of this device is characterized in that the stop blocks are parallel to the Traversing rod on a rod with a weaker oscillation range movable in a dependent rhythm are.

There are already other solutions known for this. This is how we know slotted or grooved drums, which are used for winding threads to a constant length. However, these are suitable not for winding disc reels with conical side discs.

It has also already been proposed to swing a thread guide back and forth as a fork using a heart-shaped lifting screw. This device gives a winding with thread guide drive on bobbins with vertical side discs
on disc winding machines

Applicant:
Societe "Rhodiaceta", Paris

Representative: Dr. M. Plum, Dr. K. Fettweis

and Dr. T. Huber-Simons, lawyers,

Freiburg (Breisgau), Schreiberstr. 10

Claimed priority:
France of June 8, 1955 (No. 693 318)

Andre Clerc, Geneva (Switzerland),
has been named as the inventor

conical ends, but does not deliver any over its entire length on spools with conical side washers Length of cylindrical winding.

Furthermore, a device was developed for the production of reels on spools with conical side discs proposed to prevent the thread windings from rising up along the side windows. This device rubs on the roll and as a result can damage the thread; she prevents also not that at the reversal points of the thread guide direction an excess of thread on the Coil is wound; this phenomenon leads to breaks when the thread is pulled off later.

Finally, one was driven back and forth parallel to the axis of the reel by a carriage Thread guides proposed to avoid the annoying noises when the package winding machines are in operation turn off. This device has no swinging back and forth about a fixed point Thread guide is cumbersome due to its design and shows the same errors that have already been mentioned.

In contrast, the device according to the invention allows to regulate the amount of thread that on the bobbin is wound up at the turning points in the direction of movement of the thread guide, and so on in the case of coils with conical side disks, coils are required which are cylindrical over their entire length

209 609/160

Claims (2)

3 4 are. These laps can later be pulled off without any difficulty. The thread guide 1 can each be set to the desired following embodiments of the invented value, namely when the development is described with reference to the drawing: distances from the pin 5 and from the bolt 9 to the 1. With the aid of the device according to the invention 5 pin 7 selects accordingly. becomes the winding speed of the yarn guide in 2. The device in this example gives the this example just before the points at which the thread guide just before the change in direction of the his movement changes direction, suddenly a strong movement suddenly a considerably enlarged one increases and shortly after the change of direction again angular velocity, which then shortly after lowered to their initial value. The increased area suddenly changes direction back to its original speed is lower before and after the value jumped in the direction. But this increased change immediately. speed has before and after the directional The device shown in Fig. 1 consists of alternating different values. The thread guide drive is shown in Fig. 2, point 2 can swing and at one end with 15 It is equipped with the same devices 1 to 15 from a thread guide groove 3 and at the other end as in Example 1 but the device 13 is provided with a slot 4. In this slot 4 is not fixed, but a pin 5 can be guided on two of the traversing bars, which is carried by a rhombus rod 8 parallel rails 16 and 17-shaped double lever 6 which slide around one. A shaft 18, which is equivalent by any suitable pivot 7 fixed on a traversing rod 8, 20 not specifically shown device. The traversing rod 8 can be obtained by a non-shaped rotary movement, a device shown carries a uniform reciprocating screw-shaped grooved disk 19, which gives the traversing backward movement. The pin 5 is attached to one end of the rod 8 by means of a rotating on the axis 21 of the major axis of the double lever 6; Roller 20 carries the uniform reciprocating motion at the other end of the major axis of the 25 granted. The grooved washer 19 moves a second double lever 6 a bolt 9 on which a roller 22, which is offset with respect to the roller 20, roller 10 can rotate. Two tension springs 11 and 12 and which rotate around one of a guide rod 24 are at the two ends of the minor axis of the axis 23 carried. The guide rod 24 of the double lever 6 and also attached to the traversing slide between two guide devices 25 and rod 8. These springs serve the purpose of the 30 26 and carries a pin 27 which can be held in its position in a double double lever 6 and can slide this fork 28, which rotates around a fixed axis 29 with respect to the axis of the traversing rod 8 in . At its opposite end, this engages back this position. A fixed double fork 28 around the pin 30 which is carried by the device 13 with two stop blocks 14 and 15, device 13. The distance of the pivot point 2 35 pin 27 to the axis of rotation 29 on the plane of symmetry is greater than that of the is located under the traversing rod 8, namely pin 30 to the same axis 29. So the Vorin receives such a distance that at the outward - And direction 13 a reciprocating movement parallel to the reciprocating movement of the traversing rod that of that of the rod 8, but with a smaller amplitude. If double lever 6 carried roller 10 alternately on the size of the individual parts and the position of the abutments 14 and 15 abuts, the double lever 40 selects rollers 20 and 22 accordingly, the device 13 moves against the force of the springs 11 and 12 from its linear speed, brought the position and thus the thread guide 1 is less than that of the guide rod 8, and additional acceleration is given. during this time regarding the movement of the leadership To explain the mode of operation of the rod 8 above, phase-shifted. written thread guide drive should the thread 45 If, as shown in Fig. 2, this phase guide 1 in the position shown in Fig. 1 are displacement is a delay, then has to and the traversing rod 8 move directly from right to left the thread guide 1 transferred movement. The traversing rod 8 moves the yarn guide 1 greater angular velocity than immediately before with the aid of the pin 5, which slides in the slot 4, the change of direction. If the roller 10 touched the stop block 14, the opposite result would of course be obtained, the double lever 6 rotates around the pin 7. when the movement of the device 13 is opposite As a result, the speed of movement of the traversing rod 8 would have a head start. Pin 5 greatly increased, although the speed the traversing rod has remained constant. As a result of 55 PATENT CLAIMS whose becomes the angular velocity of the dem Yarn guide 1 transferred movement also 1. Yarn guide drive on the disc reel suddenly increased. machines with a fixed about a point when the traversing rod their direction of movement, oscillating, slotted yarn guide, has been changed thereby and moves from left to right, in 60 that the 11 and 12 run over the rotating point (2), the clamping springs the double addition extended drive end of the thread lever 6 back to its normal position. Here, the guide (1) with a slot (4) a pin (5) angular velocity which includes the thread guide 1 via a double lever (6), which rotates suddenly reduced to bear movement and back and forth evenly in a known manner the size that it stored before touching the traversing rod (8) moved back 65 and that the stop block 14 had through the roller 10. The effect of tension springs (11, 12) perpendicular to the same effect occurs at the other reversal point of the direction of movement on it, and the direction of movement of the traversing rod 8 occurs. another lever with a roller (10) end near the reversal points of the traversing rod with fixed stop blocks (14 and 15) cooperates in such a way that the thread guide movement accelerates in the vicinity of the reversal points will. 2. Device according to claim 1, characterized in that the stop blocks (14, 15) parallel to the traversing rod (8) on a rod (16, 17) with a weaker oscillation range are movable in a dependent rhythm. Documents considered: German Patent No. 922 146; Swiss Patent No. 153 167; French Patent No. 1026 184; U.S. Patent No. 1,928,365. 1 sheet of drawings