Patent Application
20180135210
The invention relates to a method for depositing a yarn end on a bobbin in a defined manner during winding yarn on a bobbin at a workstation of a textile machine, in which the yarn end is deposited on a tube on which prior to being deposited in a defined manner outside the profile of a standard yarn package, the yarn end is detected by the means of an attending device.
Depositing a yarn end on a bobbin in a defined manner after terminating the winding process is one of the conditions for the subsequent processing of the yarn wound on the bobbin, especially from the point of view of finding the yarn end easily on the bobbin for further yarn processing. As a matter of fact, when winding is being terminated on the respective bobbin, several last windings of the yarn are wound on the tube of the bobbin being wound immediately next to the standard package at the end of the bobbin, the end portion of the yarn and the yarn end is deposited from the edge of the standard yarn package by winding obliquely towards the other end of the standard package directly across the surface of the standard package.
A number of methods and devices are known to perform this. However, their common disadvantage is the complexity of the design and the need for special embodiments of elements, e. g., by means of an attending device which is movable along a row of workstations.
The aim of the invention is to eliminate or at least minimize the disavantages of the background art, especially to allow depositing the yarn end on a bobbin in a defined manner by using simple means, and preferably, by using the means of a workstation of a textile machine or by using the existing means of a workstation to the maximum possible extent.
The aim of the invention is achieved by a method for depositing a yarn end on a bobbin in a defined manner, whose principle consists in that after detecting the yarn end on the bobbin, the yarn is passed to the means of a workstation with the aid of which the yarn is subsequently deposited on a tube outside the profile of a standard yarn package.
The advantage of this solution is to maximize the use of the existing means of a workstation of a textile machine and to simplify the design of an attending device.
The invention is schematically represented in a drawing, where
The invention will be described with reference to an exemplary embodiment of a workstation of an air-jet spinning machine, which comprises at least one row of identical workstations arranged next to each other. In the illustrated embodiment, pairs of workstations arranged next to each other are shown, whereby the workstations in the specific embodiment share some of the elements, in particular the elements which are used for resuming spinning at the workstation and which will be briefly described in the following. Along a row of workstations is moveably mounted an attending device, which is provided with a system of working means for carrying out the working operations at the workstations being attended.
The workstation comprises a drafting mechanism 1 of sliver 0, whose inlet opening 10 is aligned with an unillustrated source of sliver and whose outlet opening 11 is aligned with the inlet opening 30 of a fiber feeding device 3.
The fiber feeding device 3 is coupled to a drive 32 and its outlet opening 31 is aligned with the inlet opening 40 of fibers to a spinning nozzle 4. In the spinning nozzle 4 the entering sliver 0 is transformed into the yarn 5, which is drawn off from the nozzle 4 by a drawing-off mechanism 6 arranged downstream the outlet opening 41 of yarn 5 from the spinning nozzle 4.
The drawing-off mechanism 6 comprises a pair of rollers 60, 61, which are pressed to each other, one of which being coupled to a rotary drive 62 and the other being rotatably mounted on an unillustrated pressure arm, which is swingingly mounted in the structure of the workstation.
Between the outlet opening 41 of the spinning nozzle 4 and the drawing-off mechanism 6 of yarn 5 a suction opening 70 of a suction tube 7 is assigned to the working path of yarn 5, the suction tube 7 being connected in a controllable manner to a source X of vacuum. In the suction tube 7 are arranged a device 71 for interrupting the yarn 5 and a device 72 for passing the yarn 5 is end to the nozzle 4.
Between the suction tube 7 and the drawing-off mechanism 6 of yarn 5 is arranged a sensor 8 of the quality of yarn 5, which is connected to the control systems of the workstation and/or to the control systems of a section of workstations and/or of the machine.
A winding device 9 of yarn 5 on the bobbin 90 is arranged in the path of yarn 5 downstream the drawing-off mechanism 6 of yarn 5. During winding, the bobbin 90 lies on a drive cylinder 91 which drives the bobbin 90 by rolling, the yarn 5 being traversed across the width of the bobbin 90 by a guide 92 of a traversing device of yarn 5. In the illustrated example of embodiment before passing through the traverse guide 92, the yarn passes through a waxing device 93. In the case of conical bobbins being wound, before the waxing device is in the yarn 5 path arranged a compensator 94 of yarn loops which arise periodically during winding the yarn on the conical bobbins 90. In the path of yarn 5 before the compensator 94 is arranged a sensor 95 of the yarn 5 presence, which during the yarn production operates in the mode of a yarn break detector.
A vacuum reservoir of yarn 73 is aligned by its suction inlet opening 730 with the yarn 5 path between the sensor 95 of the yarn 5 presence and the drawing-off mechanism 6 of yarn. The vacuum reservoir of yarn 73 is connected to a vacuum source X.
To resume spinning at the wokstation, the mouth 22 of a guide channel 2 of yarn 5 is arrangeable in the space between the outlet opening 11 of the drafting mechanism 1 of sliver 0 and the inlet opening 30 of the feeding device 3 of sliver 0, whereby the mouth 22 is during the normal spinning operation either completely moved outside the space between the outlet opening 11 of the drafting device 1 of sliver 0 and the inlet opening 30 of the feeding device 3 of sliver 0, or it is rigid and is situated outside the path of the sliver 0. The guide channel 2 is with its other end connected to the vacuum source X. The guide channel 2 is at a distance from its mouth 22 provided with a device 20 for the preparation of the spinning-in end of yarn. The guide channel 2 is provided with a sensor 21 of the yarn 5 presence in the guide channel 2 in the direction away from the mouth 22 of the auxiliary guide tube 2 downstream the device 20 for the preparation of the spinning-in end of yarn.
In the illustrated example of embodiment, a securing element 23 (keeper) of the free yarn 5 end is arranged in the space between the inlet opening 30 of the feeding device 3 of sliver 0 and the device 20 for the preparation of the spinning-in end of yarn 5 in the guide channel 2, or it is arranged between the inlet opening 40 of the spinning nozzle 4 and the device 20 for the preparation of the spinning-in end of yarn 5 in the guide channel 2. In the illustrated embodiment, the securing element 23 (keeper) of the free yarn 5 end is part of the mouth 22 of the guide channel 2.
The yarn 5 being produced is wound on the bobbin 90, whereupon after the complete winding of the required length of the yarn 5 on the bobbin 904 the bobbin 90 is removed from the machine and sent off for further processing.
Since it is essential for the yarn 5 end to be detected relatively easily on this wound bobbin 90 when starting further processing, a defined reserve of yarn 5 is formed before the complete termination of winding the yarn 5 being produced on the bobbin 90, the yarn 5 reserve being deposited on the tube of the bobbin 90 outside the profile P of the standard (main) package. This is always performed on the same side of the tube of the bobbin 90, when the yarn end is deposited at the defined position for further processing.
This process of depositing the yarn 5 end on the bobbin 90 (a tube with a package) in a defined manner is performed according to the invention in such a manner that spinning is terminated and the yarn 5 end is wound on the bobbin 90, and so at first it is necessary to detect the yarn 5 end on the bobbin 90. The attending device appproaches the respective workstation and detects by its means the end 50 of yarn on the bobbin 5. The respective means of the attending device include, e.g., a suction nozzle, which is displaceably arranged on the attending device and connected in a controlled manner to the vacuum source. After the end 50 of yarn 5 is detected on the bobbin 90 by the means of the attending device, the yarn is passed by the attending device to the means of the respective workstation, whereby the yarn 5 is guided to the working path of yarn 5 between the drawing-off mechanism 6 of yarn from the spinning nozzle 4 and the winding device 9 of yarn 5 and, at the same time, the yarn 5 is inserted between the drawing-off rollers 60, 61 of the winding device 6. As a result, the yarn 5 at the workstation is prepared for the subsequent steps of depositing the yarn 5 end on the tube of the bobbin 90 in a defined manner outside the profile P of the standard (main) package.
Subsequently, a sufficiently long yarn 5 reserve is formed for depositing the yarn 5 end 50 on the bobbin 90 in a defined manner outside the profile P of the standard package, namely by depositing the yarn 5 reserve to a suitable reservoir of yarn 5 or simultaneously to several reservoirs of yarn 5 at the workstation and/or in the means of the attending device.
The yarn 5 reserve formation is carried out, e.g., by sucking the yarn 5 into the suction tube 7, which is situated in the direction away from the winding device 9 below the drawing-off mechanism 6 of yarn 5, whereby the yarn 5 reserve formation itself is performed by unwinding the yarn 5 from the bobbin 90 by means of reverse rotation of the bobbin 90 in the winding device 9 and by means of reverse rotation of the drawing-off mechanism 6, through which the yarn 5 constantly passes and by which the yarn 5 is drawn off in the reverse manner from the bobbin 90, i.e., the yarn 5 reserve formation is carried out while the winding device 9 and the drawing-off mechanism 6 rotate against the direction in which they rotate during continuous spinning, i.e. during the normal production of yarn 5. During this process of unwinding the yarn 5 from the bobbin 90 the yarn is according to the requirements acted upon by the compensator 94 of yarn loops 5, which in case of need regulates possible yarn 5 tension fluctuations, thereby improving unwinding the yarn 5 for the purpose of forming the yarn 5 reserve for depositing the yarn 5 end on the bobbin 90 in a defined manner. In the case of the yarn reserve formation in the means of the attending device, this process is similar, the only difference being that the yarn 5 reservoir is located on the attending device. Optionally, the yarn 5 reserve for depositing the yarn 5 end on the bobbin in a defined manner after the controlled stopping of the workstation is formed in the vacuum reservoir 73 analogically to the process described above.
After forming the yarn 5 reserve, the yarn 5 is prepared for depositing the yarn 5 end on the bobbin 90 in a defined manner outside the profile P of the standard package. This takes place according to the invention in such a manner that the yarn 5 on the working path at the respective workstation passes through the guide 92 of yarn 5 of the traversing device of yarn 5 across the width of the bobbin 90, or, if necessary, the yarn 5 is situated on the path which intersects the working path of the guide 92 of yarn 5 of the traversing device of yarn 5 across the width of the bobbin 90. Owing to the fact that the place where the yarn 5 is deposited on the bobbin 90 outside the profile P of the standard package has a considerably smaller diameter than is the diameter of the standard package on the bobbin 90, it may happen due to the geometry of the winding device that the yarn 5 does not intersect the path of the guide 92 of yarn 5 of the traversing device of yarn 5 across the width of the bobbin 90, and, consequently, the guide 92 of yarn 5 of the traversing device of yarn 5 cannot capture the yarn 5 for depositing the end 50 of yarn 5 on the bobbin 90 in a defined manner outside the profile P of the standard package. To solve this situation, a rectifying means of the yarn path is mounted at the workstation or on the attending device. The rectifying means of the yarn path makes it possible for the yarn 5 to intersect the path of the guide 92 of yarn 5 of the traversing device of yarn 5 across the width of the bobbin 90 and the guide 92 of yarn 5 deposits the yarn 5 end 50 on the bobbin 90 in a defined manner outside the profile P of the standard package. In another unillustrated example of embodiment, the above-mentioned rectifying means is such that it enables to keep/lock the yarn 5 in the guide 92 of yarn 5 of the traversing device during depositing the yarn 5 end on the bobbin 90 in a defined manner outside the profile P of the standard package.
Subsequently, the actual process of depositing the yarn 5 end 50 in a defined manner on the bobbin 90 outside the profile P of the standard package is started, which consists in that the winding device starts to rotate in the same direction as during winding in the standard production of yarn 5 and the guide 92 of yarn 5 of the traversing device of yarn 5 moves aside across the width of the bobbin 90 outside the profile P of the standard package of yarn 5 on the bobbin 90, as is indicated in
Furthermore, it is advantageous if during depositing the yarn 5 on the tube of the bobbin 90 outside the profile P of the standard package of yarn 5 the yarn 5 is acted upon by the compensator of yarn 5 loops and/or by air suction and/or by the drawing-off mechanism of yarn 5 from the spinning unit and/or by a yarn braking device, by which means it is possible to maintain the tension of the yarn 5 when being deposited on the tube (on the bobbin 90) outside the profile P of the standard package of yarn 5.
Apparently, the invention can be accordingly used also in spinning machines with spinning rotors.
| Number | Date | Country | Kind |
|---|---|---|---|
| PV 2016-708 | Nov 2016 | CZ | national |
