A method for operating a textile machine producing cross-wound packages has a multiplicity of autonomous work stations that each have a spinning apparatus and a winding apparatus and are equipped with a suction nozzle, connected to the vacuum network of the textile machine, for receiving a thread from the surface of a cross-wound package, and also a storage nozzle, likewise connected to the vacuum network, for temporarily storing excess thread length, and which is operated at least by one service unit that exchanges full cross-wound packages for empty tubes as required. The invention provides for the actuation of a cross-wound package/empty tube exchange by one of the service units to be prevented during the operations of restarting of the work stations, thereby ensuring that, during the restarting of the autonomous work stations, the maximum number of work stations always starts up again at the same time.

An apparatus and method of automatically moving yarn packages between yarn processing stations in a textile environment that includes the steps of providing a yarn package elevator, transporting a yarn package on the yarn package elevator from a textile machine position to a common transfer location, and holding the package in a stationary position on an elevator tray. A label is applied to a surface of the package and the elevator tray and package is moved to a knot-tying location, the package is removed from the elevator tray to a knotting head apparatus at the knot-tying location and a knot is tied in a package yarn tail of the package to secure the package tail from unraveling in subsequent package handling steps. Correct application of the knot to the yarn tail is either validated, or in the alternative, if the knot is not validated, the package is forwarded to a location for manual reworking to apply a correct knot to the yarn tail.

A winding device for winding a material to be wound includes a winding mandrel provided for carrying a carrier of material to be wound in a winding process, with a transporting unit on which at least a component of the winding mandrel is arranged, and with a positioning unit provided for changing a spatial position of the transporting unit. The positioning unit is provided for at least substantially adjusting a spatial end position according to requirement. The transporting unit is embodied as a pivot arm, the transporting unit is in at least one operating state provided for receiving a carrier of material to be wound, wherein the material to be wound is wound onto the carrier of material to be wound and/or is wound off the carrier of material to be wound, and the transporting unit is in the winding operative position during the winding process.

A bobbin changing device for feeding bobbins to and/or removing bobbins from a processing device which can wind a strand-form material onto a bobbin and/or from a bobbin, wherein the bobbin changing device has at least one conveyor device, wherein the bobbin changing device has a swivel fork which is suited for feeding bobbins to and/or removing bobbins from such a processing device and for feeding bobbins to and/or removing bobbins from the conveyor device.

A robotic spooler may be provided. First, a first take-up section of a Capture, Cut, and Transfer (CCT) device may receive a longitudinally continuous material. Then, the CCT device may cause the longitudinally continuous material to be captured by a first spool adjacent to the CCT device, cause the longitudinally continuous material to be taken up onto the first spool, and to provide a first cut to the longitudinally continuous material. Next, the CCT device may transfer the longitudinally continuous material from the first take-up section of the CCT device to a second take-up section of the CCT device. Then the CCT device may cause the longitudinally continuous material to be captured by a second spool adjacent to the CCT device, cause the longitudinally continuous material be taken up onto the second spool, and to provide a second cut to the longitudinally continuous material.

A textile machine producing cross-wound packages with a plurality of identical workstations which are arranged in the area of the longitudinal sides of the textile machine and each of which has a winding device, and equipped with a tube supply device which includes a central tube magazine and at least one tube conveyor belt installed in the area of the longitudinal sides of the machine, in which case a cross-wound package can be removed, if necessary, from the winding device of the relevant workstation on the textile machine producing cross-wound packages and can be transferred to a cross-wound package transport device running the length of the machine, and an empty tube provided on the tube conveyor belt of the tube supply device can be inserted by means of a tube gripper into the winding device of the relevant workstation. The tube supply device is designed in such a way that the tube conveyor belt can be used as a tube accumulator for empty tubes during the operation of the textile machine producing cross-wound packages. In order to improve the efficiency of such a textile machine producing cross-wound packages, in particular to minimize significantly the tube delivery times arising in the event of yarn lot changes at a textile machine producing cross-wound packages, a drive is connected to the at least one tube conveyor belt, which drive enables reversible operation of the tube conveyor belt.

Techniques involve extruding, orienting and winding up a skein of film tapes or monofilaments. In particular, an apparatus has an extrusion installation, a plurality of drawing-off rollers and orienting rollers and a multiplicity of winding positions which are held alongside one another and one above another on an operating side of a frame wall. The winding positions are configured such that the wound packages are kept ready for removal at the frame wall on a doffing side on the opposite side from the operating side. Such an apparatus is able to achieve a material flow that is as continuous as possible during the production of the film strips and monofilaments.

A textile machine producing cross-wound packages with a plurality of identical workstations which are arranged in the area of the longitudinal sides of the textile machine and each of which has a winding device, and equipped with a tube supply device which includes a central tube magazine and at least one tube conveyor belt installed in the area of the longitudinal sides of the machine, in which case a cross-wound package can be removed, if necessary, from the winding device of the relevant workstation on the textile machine producing cross-wound packages and can be transferred to a cross-wound package transport device running the length of the machine, and an empty tube provided on the tube conveyor belt of the tube supply device can be inserted by means of a tube gripper into the winding device of the relevant workstation. The tube supply device is designed in such a way that the tube conveyor belt can be used as a tube accumulator for empty tubes during the operation of the textile machine producing cross-wound packages. In order to improve the efficiency of such a textile machine producing cross-wound packages, in particular to minimize significantly the tube delivery times arising in the event of yarn lot changes at a textile machine producing cross-wound packages, a drive is connected to the at least one tube conveyor belt, which drive enables reversible operation of the tube conveyor belt.

A cooling system (100) for cooling a cable (10). The system (100) comprises: at least one fixed cooling channel (20), which is arranged downstream of an extrusion head (EH); and at least one multi-pass apparatus (30), which in turn comprises a set of fixed pulleys (32, 33, 34), and a fixed, motor-driven capstan (35) designed to wind the cable (10). The system (100) is characterized in that the multi-pass apparatus (30) comprises a movable pulley (36) designed to translate along vertical guides (39A, 39B). The movable pulley (36) and the vertical guides (39A, 39B) are contained in a cooling device (56) for cooling the cable (10).

A method for operating a textile machine producing cross-wound packages has a multiplicity of autonomous work stations that each have a spinning apparatus and a winding apparatus and are equipped with a suction nozzle, connected to the vacuum network of the textile machine, for receiving a thread from the surface of a cross-wound package, and also a storage nozzle, likewise connected to the vacuum network, for temporarily storing excess thread length, and which is operated at least by one service unit that exchanges full cross-wound packages for empty tubes as required. The invention provides for the actuation of a cross-wound package/empty tube exchange by one of the service units to be prevented during the operations of restarting of the work stations, thereby ensuring that, during the restarting of the autonomous work stations, the maximum number of work stations always starts up again at the same time.