The spinning-mill machine features a multiple number of cross-winding devices (4) arranged next to each other and on two machine sides located in the longitudinal direction of the spinning-mill machine (1), each of which is provided for winding yarn on sleeves, whereas the cross-winding devices (4) are collected into a multiple number of sections (5.1 to 5.5). Multiple sleeve stacks (7.1 to 7.4) are used for the stockpiling of empty sleeves. A sleeve transport device (6.1 to 6.4) arranged along the cross-winding devices (4) is used to supply the cross-winding devices (4) with empty sleeves from the sleeve stack (7.1 to 7.4), Multiple sleeve stacks (7.1 to 7.4) are arranged on each machine side, and each sleeve stack (7.1 to 7.4) is allocated with its own stationary sleeve transport device (6.1 to 6.4).

The spinning-mill machine features a multiple number of cross-winding devices (4) arranged next to each other and on two machine sides located in the longitudinal direction of the spinning-mill machine (1), each of which is provided for winding yarn on sleeves, whereas the cross-winding devices (4) are collected into a multiple number of sections (5.1 to 5.5). Multiple sleeve stacks (7.1 to 7.4) are used for the stockpiling of empty sleeves. A sleeve transport device (6.1 to 6.4) arranged along the cross-winding devices (4) is used to supply the cross-winding devices (4) with empty sleeves from the sleeve stack (7.1 to 7.4), Multiple sleeve stacks (7.1 to 7.4) are arranged on each machine side, and each sleeve stack (7.1 to 7.4) is allocated with its own stationary sleeve transport device (6.1 to 6.4).

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 lifting system for inner yarn rails is provided. The system includes an in-air conveying rail, and a carrier unit, wherein the in-air conveying rail is configured to convey the carrier unit, and the carrier unit is configured to carry a winding package; an inner yarn-carrier-lifting section is arranged on the in-air conveying rail, the inner yarn-carrier-lifting section is positioned on both sides of a twisting machine; when the inner yarn-carrier-lifting section rises, it communicates with the in-air conveying rail; when the inner yarn-carrier-lifting section descends, it approaches the position of a spindle bucket of the twisting machine.

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.

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.

An apparatus for servicing a twisting machine. The apparatus includes an automated guided vehicle (AGV), a robotic arm having an end effector coupled to the AGV, and a rack carried by the AGV. The rack is configured to hold a plurality of empty tubes and a plurality of yarn packages. A controller that is configured to cause the robotic arm to grip, by the end effector, a handle of a row of the twisting machine, lower a receptacle of the twisting machine to a loading position, remove an empty tube from a first receptacle of the at least one receptacle, place the empty tube on the rack, lift a yarn package from the rack, place the yarn package on the first receptacle, grip the handle of the row of the plurality of rows of the twisting machine, and raise the at least one receptacle to the operational position.

A tube magazine for a textile machine, in particular a spinning machine. This can have a plurality of holding devices for bobbin tubes. The textile machine can have at least one marking device. In order to reduce costs, to save resources and to improve the spinning process flow, it is provided that the at least one marking device is designed and arranged to be assigned to a plane between at least two holding devices in such a way that the at least two holding devices are each assigned to a region.

A tube magazine for a textile machine, in particular a spinning machine. This can have a plurality of holding devices for bobbin tubes. The textile machine can have at least one marking device. In order to reduce costs, to save resources and to improve the spinning process flow, it is provided that the at least one marking device is designed and arranged to be assigned to a plane between at least two holding devices in such a way that the at least two holding devices are each assigned to a region.