A winding system contains a let off stand, a winding coordinator, and a wind-up stand. The left off stand contains a tape holder and a generally planar base which rotates in a first direction. The winding coordinator contains a generally planar section having an opening for an elongated element and rotates in a second direction opposite to the first direction.

A textile machine for producing cross-wound packages, which has a plurality of workstations on the two longitudinal sides of the machine and is equipped with a tube magazine arranged at an end of the machine, the tube magazine having a plurality of empty-tube transport rows, driven by electric motor and loaded with empty tubes of different yarn lots. In order to avoid the fixed division of the empty-tube transport rows that hitherto was defined by the construction of the tube magazine and thus to avoid limited variations in the yarn lot management, the invention provides for the empty-tube transport rows to be equipped with electric drives, which are connected to a control unit of the textile machine, the machine control system being designed in such a way that different lot management programs are set by software.

A spinning-mill machine and associated operational method includes a plurality of cross-winding devices arranged next to each other in a longitudinal direction along each machine side of the spinning-mill machine, wherein each cross-winding device is configured to wind yarn onto a sleeve. The cross-winding devices are arranged into a multiple number of sections along each of the machine sides. A sleeve transport device is arranged along the cross-winding devices on each machine side to supply empty sleeves to cross-winding devices. A plurality of sleeve stacks are configured to stockpile the empty sleeves. A plurality of sleeve storage devices are arranged along each machine side for distributed intermediate storage of the empty sleeves, wherein each cross-winding device is allocated with a single sleeve storage device, or the plurality of the cross-winding devices in each of the sections are allocated to a single one of the sleeve storage devices.

A spinning-mill machine and associated operational method includes a plurality of cross-winding devices arranged next to each other in a longitudinal direction along each machine side of the spinning-mill machine, wherein each cross-winding device is configured to wind yarn onto a sleeve. The cross-winding devices are arranged into a multiple number of sections along each of the machine sides. A sleeve transport device is arranged along the cross-winding devices on each machine side to supply empty sleeves to cross-winding devices. A plurality of sleeve stacks are configured to stockpile the empty sleeves. A plurality of sleeve storage devices are arranged along each machine side for distributed intermediate storage of the empty sleeves, wherein each cross-winding device is allocated with a single sleeve storage device, or the plurality of the cross-winding devices in each of the sections are allocated to a single one of the sleeve storage devices.

A textile machine for producing cross-wound packages, comprising a plurality of workstations, each of which has at least one pneumatic consumer, and comprising a suction system which has at least one vacuum source to which the pneumatic consumers of the workstations are connected via a machine-length vacuum duct arranged in the region of the central axis between two rows of workstations. In order to modify such a textile machine producing cross-wound packages in such a way that it is ensured that the required minimum spinning vacuum is always available at all workstations of the textile machine during spinning operation, according to the invention the textile machine producing cross-wound packages has, in addition to the vacuum duct, a machine-length bypass duct which is also installed in the region of the central axis and is arranged above chain ducts for service units.

A textile machine for producing cross-wound packages, comprising a plurality of workstations, each of which has at least one pneumatic consumer, and comprising a suction system which has at least one vacuum source to which the pneumatic consumers of the workstations are connected via a machine-length vacuum duct arranged in the region of the central axis between two rows of workstations. In order to modify such a textile machine producing cross-wound packages in such a way that it is ensured that the required minimum spinning vacuum is always available at all workstations of the textile machine during spinning operation, according to the invention the textile machine producing cross-wound packages has, in addition to the vacuum duct, a machine-length bypass duct which is also installed in the region of the central axis and is arranged above chain ducts for service units.

A filament winding device includes a controller configured to control a rotating unit, a first moving unit, a second moving unit, and a swing unit based on command values of a rotation angle of a liner, and a first position, a second position, and a swing angle of a guide roller. The controller includes an associating unit configured to associate measured values of the first position, the second position, and the swing angle of the guide roller, corresponding to each rotation angle of the liner, with a measured value of the rotation angle of the liner, a difference calculating unit configured to calculate differences between the command values and the measured values, and a speed lowering unit configured to, when any one of the differences exceeds a predetermined threshold, lower a winding speed of the fiber bundle on the liner.

A filament winding device includes a controller configured to control a rotating unit, a first moving unit, a second moving unit, and a swing unit based on command values of a rotation angle of a liner, and a first position, a second position, and a swing angle of a guide roller. The controller includes an associating unit configured to associate measured values of the first position, the second position, and the swing angle of the guide roller, corresponding to each rotation angle of the liner, with a measured value of the rotation angle of the liner, a difference calculating unit configured to calculate differences between the command values and the measured values, and a speed lowering unit configured to, when any one of the differences exceeds a predetermined threshold, lower a winding speed of the fiber bundle on the liner.

A dispenser system containing a container and a single elongated element. The single elongated element is rotationally wound in a first direction into a hollow cylinder having a central axis. The hollow cylinder is located within the volume of the container and the single elongated element is unwound from the hollow cylinder from one of the annular bases. The single elongated element has a twist in a second direction opposite to the first direction such that when the single elongated element is unwound it has essentially no twist.

A winding system containing a let off stand, a winding coordinator, and a wind-up stand. The left off stand contains a tape holder and a generally planar base which rotates in a first direction. The winding coordinator contains a generally planar section having an opening for an elongated element and rotates in a second direction opposite to the first direction.

A dispenser system containing a container and a single elongated element. The single elongated element is rotationally wound in a first direction into a hollow cylinder having a central axis. The hollow cylinder is located within the volume of the container and the single elongated element is unwound from the hollow cylinder from one of the annular bases. The single elongated element has a twist in a second direction opposite to the first direction such that when the single elongated element is unwound it has essentially no twist.

A winding system containing a let off stand, a winding coordinator, and a wind-up stand. The left off stand contains a tape holder and a generally planar base which rotates in a first direction. The winding coordinator contains a generally planar section having an opening for an elongated element and rotates in a second direction opposite to the first direction.