This application claims the benefit of German patent application 10 2005 048 041.1, filed Oct. 7, 2005, herein incorporated by reference.
The invention relates to a yarn draw-off device for a textile machine producing cross-wound bobbins and, more particularly, to a yarn draw-off device having a yarn draw-off roller that can be driven by a single motor and an associated pressure roller which is driven via frictional engagement.
Textile machines producing cross-wound bobbins, in particular open-end spinning machines, have, in the region of their workstations, a yarn draw-off device in each case, which during spinning operation, draws the yarn produced in a spinning mechanism out of the spinning mechanism and conveys it onward at a constant delivery speed in the direction of a winding device, where the yarn is wound to form a cross-wound bobbin.
The yarn draw-off devices consist here either, as described, for example, in German Patent Publication DE 44 32 240 A1 or in German Patent Publication DE 39 17 047 A1, of a drive shaft along the length of the machine, on which a pivotably mounted pressure roller rests in each case in the region of the workstations, or the yarn draw-off devices in each case have a single motor drive. Such yarn draw-off devices driven by a single motor are shown and described, for example, in German Patent Publication DE 101 39 075 A1. These yarn draw-off devices in each case have a relatively large yarn draw-off roller which can be driven by a single motor and a significantly smaller, pivotably mounted pressure roller, which is entrained via frictional engagement by the yarn draw-off roller during spinning operation.
The yarn draw-off roller, which can preferably be reversibly driven by a stepping motor, generally consists here of a rotationally symmetrical diecast or injection-moulded member, in other words consists of a one-pieced cast member, which has an inner fastening hub, an annular outer periphery and a closed connecting disc located in between.
The frequently poor cooling of the yarn draw-off roller drives is disadvantageous in these yarn draw-off devices which have proven successful per se. In other words, overheating of the yarn draw-off roller drives may occur during the spinning process in these known yarn draw-off devices, in particular in the case of unfavourable climatic conditions.
Proceeding from the aforementioned prior art, the invention is based on the object of developing a yarn draw-off device, in which adequate cooling of the yarn draw-off roller drive is constantly ensured during spinning operation.
This object is achieved according to the invention by providing an improved yarn draw-off device for a textile machine producing cross-wound bobbins with a yarn draw-off roller that can be driven by a single motor and an associated pressure roller which is driven via frictional engagement. According to the invention, the yarn draw-off roller has a rotationally symmetrical basic member with devices, which, during the rotation of the yarn draw-off roller, produce an air flow which cools the yarn draw-off roller drive.
Advantageous further configurations, features, advantages and embodiments of the yarn draw-off device of the invention are described hereinafter.
According to the invention, the yarn draw-off roller has a rotationally symmetric basic member which is configured in such a way that, during rotation of the yarn draw-off roller, an air flow is produced which cools the yarn draw-off roller drive.
In other words, the yarn draw-off roller operates in the manner of a fan. In this manner, the yarn draw-off roller drive is reliably prevented from being able to overheat.
The air flow produced during rotation of the yarn draw-off roller, even in difficult climatic conditions, always ensures adequate cooling of the drive.
It is provided in an advantageous embodiment that the basic member of the yarn draw-off roller is configured in one piece, but very substantially open. This means that, during the rotation of the yarn draw-off roller, an air flow is produced, which, flowing through the basic member, impinges on the housing of the yarn draw-off roller drive. The heat dissipation thus taking place leads to a significant cooling of the corresponding drive.
According to another feature of the invention, the basic member of the yarn draw-off roller has an outer bearing receiver for securing a thin-walled profiled metal ring, an inner hub for fastening the yarn draw-off roller to the motor shaft of the yarn draw-off roller drive and air blades arranged in between. The air blades, during the rotation of the yarn draw-off roller, initiate a clear, very substantially uniform air flow in the direction of the associated drive.
As further shown herein, the air blades are curved in the direction of rotation. In other words, the air blades have concavely curved faces which, when the regular yarn draw-off takes place, are located at the front in the direction of rotation of the yarn draw-off roller.
These concavely curved faces of the air blades ensure that the air is continuously pressed in the direction of the drive, with the result that good cooling of the yarn draw-off roller drive is ensured.
As described herein, the basic member of the yarn draw-off roller is manufactured as an injection-moulded or diecast part. Such injection-moulded or diecast parts can be produced relatively economically and to fit very precisely, in particular when larger piece numbers are produced.
The invention will be described in more detail below with the aid of an embodiment shown in the drawings, in which:
Furthermore, a yarn stop motion 56, yarn storage devices 7 or 12 and a waxing device 5 are arranged downstream from the yarn draw-off device 27 in the yarn running direction. The yarn storage device 12 is configured, in this case, as a negative pressure-loadable storage nozzle, while the storage device 7 is configured as a mechanical yarn store. In other words, arranged between two stationary yarn guide members is an adjustable yarn guide member which, acted upon by a stepping motor 28, is movably arranged with respect to the yarn running path.
The winding device 3, as usual, consists of a creel 22 for the rotatable holding of a cross-wound bobbin 8, a bobbin drive drum 23 which can preferably be driven by a reversible single drive 19 and a yarn traversing device 24, which is driven, for example, by a stepping motor 20. Upstream of the yarn traversing device 24, a yarn centring device in the form of a pivotably mounted centring plate 17 may also be arranged, which, if necessary, can be folded by a drive 18 in a defined manner into the regular yarn running path.
Furthermore, workstations 1 of this type, as already indicated above, have a suction nozzle 4, which can be adjusted in a defined manner by means of a stepping motor 6 between a yarn receiving position located in the region of the winding device 3 and a yarn transfer position located in the region of the spinning mechanism 2.
The individual stepping motors of the workstation 1 are, as indicated in
The yarn draw-off device 27 consists, as already indicated above, substantially of a drivable yarn draw-off roller 10, a pressure roller 14 which can be pivoted onto the yarn draw-off roller 10 and is entrained thereby via frictional engagement and a yarn draw-off roller drive 13. The yarn draw-off roller drive 13 configured as a stepping motor is in turn connected via a control line 35 to a workstation computer 25. The yarn draw-off device 27 ensures during regular spinning operation, the drawing-off of the spinning yarn 9 from the open-end spinning mechanism 2 and also when spinning is restarted after a spinning operation, ensures the return of a prepared yarn 9 into the open end spinning mechanism 2.
As in particular shown in
The thin-walled profiled metal ring 11, during the winding operation, is in contact with the yarn 9 and in conjunction with the abutting pressure roller 14 ensures that the yarn 9 is drawn off continuously from the open-end spinning device 2. The basic member 15 furthermore has an inner hub 31, via which the yarn draw-off roller 10 can be secured to the motor shaft 32 of the yarn draw-off roller drive 13.
Air blades 33, which operate in the manner of a fan 30 during the rotation of the yarn draw-off roller 10, extend between the hub 31 and the bearing receiver 29. In other words, the air blades 33 initiate an air flow which cools the yarn draw-off roller drive 13. As can also be seen from
Number | Date | Country | Kind |
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102005048041.1 | Oct 2005 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2006/006792 | 7/12/2006 | WO | 00 | 3/27/2008 |