CH615647A5 - Thread-tension compensator - Google Patents

Description

The present invention relates to a thread tension compensator on a winding device of a winding device, which is arranged between a take-off roller and a winding spool with an associated traversing device and has a deflection roller connected to an arm to compensate for the thread tension changes occurring during traversing.

In the case of winding devices, the thread is swung back and forth as it winds onto a spool. In such a traversing process, there is inevitably a periodic change in the length of the path to be traversed by the thread, since the distance from the take-off roller or from the last guide roller to the side end of the bobbin is greater than to the center of the bobbin. This change in length and the resulting change in thread tension are usually compensated for in that the thread between the take-off roller and the winding bobbin is guided over a thread tension compensator. Known thread tension compensators have a deflection roller connected to a swivel arm, which can be freely displaced along the swivel path. Depending on the current thread tension, i.e. Depending on the current position of the traversing device, the deflection roller is deflected to a greater or lesser extent from its rest position, to which it is bound by a restoring force in the form of a counterweight or a spring. Such known thread tension compensation have the disadvantage that at higher winding speeds and thus inevitably a higher number of strokes of the traversing, the deflection roller tends to cause uncontrollable vibrations due to inertial forces ta.

To avoid this disadvantage is from the Japanese

Utility model 47-19552 a thread tension compensator with a pivotable double arm has become known, which is pivotable about a pivot point fixed in space, one lever arm carrying the deflection roller and the other lever arm carrying the counterweight. On the side with the weight, the arm is also attached to two opposite springs connected to the machine frame. In this way, any deflection of the deflection roller is damped by the corresponding counteracting spring. Nevertheless, the guide roller still comes into uncontrollable vibrations at high winding speeds.

The aim of the invention is now to create a thread tension compensator in which the deflection roller does not get into uncontrollable vibrations, even at today's high winding speeds, which reliably compensates for periodic changes in length or thread tensions. This goal is achieved in that the arm has a leaf spring embedded in the middle part in a rubber-elastic element, which is clamped at one end to a roller carrier and at the other end in a holder fastened to the device frame.

The rubber-elastic elements can preferably be adhesively connected to the leaf spring. It can also prove to be advantageous if the leaf spring consists of spring steel and the rubber-elastic elements consist of chloroprene polymers. A further advantage can be achieved if the leaf spring is clamped in such a way that the rubber-elastic elements are already compressed in the arm direction when the thread tension compensator is at rest.

An embodiment of the invention is explained in more detail with reference to the drawing. In the single figure, a winding device of a draw-winder with the thread tension compensator according to the invention is shown schematically.

In it, a thread 1 is guided by a drawing roller 2, which also serves as a take-off roller, with a laying roller 3, a drawing device, not shown, over a deflection roller 4 of an arm-shaped thread tension compensator 5 before it is wound onto the bobbin 6. The coil 6 is seated on a sleeve 7, which is mounted on a rotatable shaft 8, the coil 6 being driven by a friction roller, not shown in the drawing. Before winding, the thread 1 is moved back and forth in a known manner by a thread guide 9 in a slot 10 of a traversing device 11.

The thread tension compensator 5 comprises a roller carrier 12 on which the deflection roller 4 is rotatably mounted. The end of a leaf spring 13 made of spring steel projecting into a slot 20 is screwed to the roller carrier 12 by means of a screw 18 and clamped therein. The other end of the leaf spring 13 is screwed with a screw 16 to a bracket 14 consisting of two steel blocks and clamped between the blocks. The screw 16 also serves to fasten the arm-shaped thread tension compensator 5 to a plate 17 of the machine frame (not shown further). Between the bracket 14 and the roller carrier 12, two halves of a rubber-elastic element 15 are glued to the leaf spring 13.

During winding, the thread spacing changes periodically from the deflection roller to the winding point on the spool, as is schematically indicated in the figure by the thread runs 1, 1 ', 1 ". This change in length and the change in thread tension caused thereby is now changed by the thread Thread tension compensator 5 compensated by periodically moving its deflection roller 4 up and down about the axis of rotation A *, which is indicated by the double arrow 19. During a movement of the thread from position 1 'to position 1 ", the Um5 rises and falls

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Steering roller 4 with the roller carrier 12 once between a weaker and a more strongly deflected downward position from the horizontal, the rubber-elastic element 15 causing a damping counter to the movement of the deflection roller 4. 5

It has now been shown that the thread tension compensator described works extremely reliably and periodically compensates for the thread tension changes without the deflection roller coming into uncontrollable vibrations. If the leaf spring is clamped in such a way that the rubber-elastic element is compressed by the holder and the roller carrier by a certain amount already in the idle state of the thread tension compensator, a particularly good damping effect of the rubber-elastic element can be obtained. The rubber-elastic element which counteracts the movement of the deflection roller preferably consists of chloroprene polymers, but a body made of any other rubber-elastic material can also be used. In the example shown, the leaf spring, holder, rubber element and swivel arm have the same width and, apart from the leaf spring, also approximately the same height. Instead of gluing the two parts of the rubber-elastic element to the leaf spring, they can also be vulcanized onto the spring. The use of the thread tension compensator according to the invention is not limited to a draw winder, but can be used on the winder of any winder. As a further advantage, the simple clamping of the leaf spring with the connected rubber element in the holder and in the roller carrier makes it easy to replace this part, so that, depending on the titer of the thread to be wound, parts with different thicknesses of the leaf spring can be kept in stock.

1 sheet of drawings

Claims (7)

615647 1. Thread tension compensator on a winding device of a winding device, which is arranged between a take-off roller and a winding spool with an associated traversing device and has a deflection roller connected to an arm for compensating for the thread tension changes occurring during traversing, characterized in that the arm (12, 13 , 15) has a leaf spring (13) embedded in a rubber-elastic element (15) in the middle part, which is clamped at one end to a roller carrier (12) and at the other end in a holder (14) fastened to the device frame (17) . 2. Thread tension compensator according to claim 1, characterized in that the rubber-elastic element contains two parts which are bonded to the leaf spring surface. 2nd PATENT CLAIMS 3. Thread tension compensator according to claim 1, characterized in that the leaf spring (13) consists of spring steel. 4. Thread tension compensator according to claim 1, characterized in that the rubber-elastic element (15) consists of chloroprene polymers. 5. Thread tension compensator according to claim 1, characterized in that the leaf spring (13) is clamped in the holder (14) and in the roller carrier (12) that the rubber-elastic element (15) already in the idle state of the thread tension compensator (5) in the arm direction is compressed. 6. Thread tension compensator according to claim 2, characterized in that the two rubber-elastic parts are glued to the leaf spring (13). 7. Thread tension compensator according to claim 2, characterized in that the two rubber-elastic parts on the leaf spring (13) are vulcanized.