CS270473B1 - Apparatus for winding conical coils, in particular for unorthodox spinning machines - Google Patents

Abstract

The device for winding conical bobbins, especially for unorthodox spinning machines, consists of a driving cone (1) formed of at least three conical elements (2, 3, 4), of which the middle conical element (3) is firmly connected to the drive shaft (5) and the left conical element (2) and the right conical element (4) are connected by a kinematic connection (6). The conicity of all conical elements (2, 3, 4) forming the driving cone (1) is in the range from 30 minutes to 5 degrees. The device for winding conical bobbins, especially for unorthodox spinning machines is usable in the textile industry, especially on rotor spinning machines.

Description

The invention relates to a device for winding conical bobbins, in particular for unorthodox spinning machines.

A number of devices for winding conical coils are known. It is, for example, a device where the drive of the coil is provided by a drive roller, in the part of which a friction element is located. Or a device where the drive roller is composed of several parts. Some parts are firmly connected to the drive shaft and some are rotatably mounted on the drive shaft. The cylindrical ends can also be bound by a kinematic bond so as to form a differential. In all these devices, some compensating device is used to compensate for the instantaneous tensile force in the wound yarn or other wound material. If the drive roller is not a differential coupling, the main disadvantage of all the above solutions is that the solutions do not guarantee the correct drive of the spool and undesired changes in the tension of the yarn or other wound material occur during the winding process. As far as the drive cylinder with differential coupling is concerned, its disadvantage is that when the spool is raised, for example during spinning, all the elements rotate at the same speed. When the spool hits the drive roller, the element at the small spool face must slow down and the element at the large spool face must accelerate. Because the speed of both end elements is painted for a certain time when the spool hits the drive roller, the yarn is undesirably loosened. This disadvantage increases with increasing winding speeds, where changes in yarn tension lead to yarn breaks. As a result of the described disadvantage, yarn breaks and charges on the take-up rollers occur, especially when the empty tube or spool is started with a small amount of winding. Another disadvantage of this solution is that if the spool frame is not rigid enough or if the spool is thrown due to the geometry of the sleeve or the carrier plates, the spool is driven alternately by the left and right cylindrical elements and the differential is therefore constantly detuned and must be constantly tuned. This, in turn, leads either to loosening of the yarn and to the yarns on the take-up rollers or other rotating parts, or to an increase in the tensile force in the yarn and thus to the yarn breakage.

These disadvantages are eliminated by a device for winding conical bobbins, especially for unorthodox spinning machines, consisting of a drive cone formed of at least three conical elements of which the central conical element is firmly connected to the drive shaft and the left conical element and right conical element are bound by a kinematic bond. according to the invention. Its essence lies in the fact that the conicity of all conical elements forming the drive cone is in the range from 30 minutes to 5 degrees.

The advantages of the device for winding conical bobbins, especially for the unorthodox spinning machines according to the invention, are that when the break is eliminated or spinning, the circumferential speeds of the left conical element and right conical element are pre-tuned so that only slight retuning occurs circumferential velocities of both extreme conical elements. This prevents undesired phenomena during the start-up of the bobbin and thus the yarn breaks or does not come loose. Another higher effect of the conical bobbin winding device, especially for the unorthodox spinning machines according to the invention, is also manifested during the spinning and winding process by the fact that the speed difference between the left conical element and the right conical element is smaller than when using cylindrical drive elements. This makes the rotation of the spool more even and thus a stable winding process and a higher quality of the winding and the yarn itself is achieved.

The invention and its effects are explained in more detail in the description of an exemplary embodiment, in which FIG. 1 shows a schematic front view of a device for winding conical bobbins, in particular for unorthodox spinning machines according to the invention; , in particular for the unorthodox spinning machines according to the invention, and FIG. 3 shows a section at the BB point of the device

CS 270473 B1 for winding conical bobbins, in particular for the unorthodox spinning machines according to the invention. Referring to Fig. 1, the coil 7 is driven by a drive cone 1, which ee consists of a central conical element Jh which is firmly connected to the drive shaft J1. and from the left conical element 2 and the right conical element 6, the left conical element 6 and the right conical element 6 are kinematically bonded to each other by a kinematic bond 6 so as to form a differential. The left conical element 2, the middle conical element 3 and the right conical element 6 have a conical range in the range of 30 minutes to 5 degrees. Gear ratio between the speed of the right conical element 4 and the left conical element .2. is the same as the ratio of the diameter of the left conical element 2 to the diameter of the right conical element £. These diameters are considered on the conical elements 2 and 4 at the point where the non-slip rolling takes place. According to Figs. 2, 3, the kinematic coupling 6 is formed by gears 8, 9, 10, 11, 12, the wheel 10 being a wheel inserted and changing the direction of rotation. The wheels 9 and 11 are mounted on a common shaft 14 and create the required gear ratio.

During the liquidation of the break or during the spinning, when the spool 7 is raised, all three elements 22, 3, 4 rotate at the same speed, but due to the conicity of the drive unit the circumferential speeds of the left conical element 2 and right conical element 4 are already tuned so that the impact of the coil 7 on the drive cone 1 results in only a slight retuning of the two end elements. As a result, the above-mentioned undesired phenomena do not occur during the start-up of the spool 7, the yarn is not loose during winding on the spool 7, nor is it unbearably loaded by the tensile force, and thus the yarn breaks do not occur. This, of course, also reduces the demands on the adjustment and accuracy of the production of the coil frames. As the coil increases, the speed of the left conical element gradually changes .2. and the right conical element 4, so that there is no slippage between the coil and these elements. This ensures a constant average winding speed.

The device for winding conical bobbins, in particular for unorthodox spinning machines according to the invention, can be used in the textile industry, in particular on spinning rotor machines.

Claims (1)

Device for winding conical bobbins, in particular for unorthodox spinning machines, consisting of a drive cone formed of at least three conical elements, of which the central conical element is firmly connected to the drive shaft and the left conical element and right conical element are bound by a kinematic bond. in that the conicity of all the conical elements (2, 3, 4) forming the drive cone (1) is in the range from 30 minutes to 5 degrees. ,