The invention relates to a method for operating a textile machine (1), in particular a textile machine (1) producing cross-wound bobbins, most particularly an open-end spinning machine, comprising a plurality of identical workstations (2), wherein, during a normal operation of the workstations (2), yarn is produced or rewound from a supply bobbin onto a receiving bobbin with the aid of the workstations (2), and wherein a plurality of workstations (2), after a stoppage of these workstations (2), is started and therefore, set into the normal operating mode. According to the invention, it is provided that the plurality of workstations (2) is divided into groups (7) of workstations (2) and the groups (7) of workstations (2) are started at different times. Moreover, the invention relates to a textile machine (1), in particular a textile machine (1) producing cross-wound bobbins, most particularly an open-end spinning machine, comprising a plurality of identical workstations (2) for producing yarn or for rewinding yarn from a supply bobbin onto a receiving bobbin, wherein the textile machine (1) comprises control means or is operatively connected to control means, which are designed for operating the textile machine (1) according to the preceding description.

An automatic cut and transfer coiler and spooler apparatus, system and method for use generally comprising a rotatable turret with two independently driven spindles thereon wherein the drives for the independent spindles are attached to the turret for selectively rotating the spindles about their own axis independently.

An automatic cut and transfer coiler and spooler apparatus, system and method for use generally comprising a rotatable turret with two independently driven spindles thereon wherein the drives for the independent spindles are attached to the turret for selectively rotating the spindles about their own axis independently.

A coiler bar assembly includes a coupler housing and a bearing housing used to suspend a reel shaft above a surface. The reel shaft is configured to include bearings to permit its rotation relative to the housings. The coupler housing includes a receiving plate coupled to an end of the reel shaft and a coupler that is engaged with a motor shaft. The motor shaft extends up to the receiving plate. A handle is included and is pivotally coupled to the coupler housing and the coupler about two separate axes. Pivoting the handle permits translation of the coupler along the motor shaft to selectively engage the receiving plate. When engaged, rotation of the motor shaft induces rotation of the reel shaft. The handle is operated externally from the coupler housing.

A coiler bar assembly includes a coupler housing and a bearing housing used to suspend a reel shaft above a surface. The reel shaft is configured to include bearings to permit its rotation relative to the housings. The coupler housing includes a receiving plate coupled to an end of the reel shaft and a coupler that is engaged with a motor shaft. The motor shaft extends up to the receiving plate. A handle is included and is pivotally coupled to the coupler housing and the coupler about two separate axes. Pivoting the handle permits translation of the coupler along the motor shaft to selectively engage the receiving plate. When engaged, rotation of the motor shaft induces rotation of the reel shaft. The handle is operated externally from the coupler housing.

A textile machine and associated method are provided for operating the textile machine that includes a plurality of workstations, wherein each workstation includes at least one stepper motor configured to drive an element at the workstation. The method includes measuring a load variable, for example a load angle, of the stepper motor and detecting an approach of the element to an end position based on changes to the load variable.

A yarn feeder may comprise a metric-sized motor and a winding wheel, and a drive shaft axially protruding from a first end of the motor is configured to connect to a rotating member. The winding wheel formed in a tube shape comprises a first end and a second end, and an interior channel is adapted to axially penetrate through the winding wheel from the first end to the second end thereof. The interior channel is configured to accommodate the motor, and the rotating member is coupled with the interior channel such that the motor is configured to drive the winding wheel through the rotating member. The motor in the present invention is a metric-sized motor which is not only easy to buy in the market but also reduces manufacturing cost and the volume of the yarn feeder.

A yarn feeder may comprise a metric-sized motor and a winding wheel, and a drive shaft axially protruding from a first end of the motor is configured to connect to a rotating member. The winding wheel formed in a tube shape comprises a first end and a second end, and an interior channel is adapted to axially penetrate through the winding wheel from the first end to the second end thereof. The interior channel is configured to accommodate the motor, and the rotating member is coupled with the interior channel such that the motor is configured to drive the winding wheel through the rotating member. The motor in the present invention is a metric-sized motor which is not only easy to buy in the market but also reduces manufacturing cost and the volume of the yarn feeder.

A yarn feeder may comprise a metric-sized motor and a winding wheel, and a drive shaft axially protruding from a first end of the motor is configured to connect to a rotating member. The winding wheel formed in a tube shape comprises a first end and a second end, and an interior channel is adapted to axially penetrate through the winding wheel from the first end to the second end thereof. The interior channel is configured to accommodate the motor, and the rotating member is coupled with the interior channel such that the motor is configured to drive the winding wheel through the rotating member. The motor in the present invention is a metric-sized motor which is not only easy to buy in the market but also reduces manufacturing cost and the volume of the yarn feeder.

A method is provided for operating a textile machine having a plurality of work stations wherein, during normal operation of the work stations, a yarn is produced or is rewound from a delivery coil onto a receiver coil. The normal operation is initiated at the individual work stations after a stop of the textile machine, or is interrupted at certain time intervals by a service operation in the form of a piecing process, a tube changing process, or a yarn joining process. The service operations are divided into several partial sequences. A pending partial sequence for one of the service operations is carried out so long as energy resources required for carrying out the pending partial sequence are available independent of whether the energy resources for carrying out the other partial sequences for the service operation are available.