Abstract: A method of operating a textile machine for producing cheeses, at whose workstations (1) yarn (2) is unwound from supply bobbins (3), checked, cleaned of yarn defects and wound onto larger-volume cheeses (4) during which the yarn defects occurring the winding process in a given yarn length are registered. When a predetermined number of yarn joinders is exceeded within a predetermined reference yarn length, the winding process is stopped and the yarn length with the excessive number of joinders, already wound onto the cheese, is removed from the cheese (4).

Abstract: A method of operating a textile machine for producing cheeses, at whose workstations (1) yarn (2) is unwound from supply bobbins (3), checked, cleaned of yarn defects and wound onto larger-volume cheeses (4) during which the yarn defects occurring the winding process in a given yarn length are registered. When a predetermined number of yarn joinders is exceeded within a predetermined reference yarn length, the winding process is stopped and the yarn length with the excessive number of joinders, already wound onto the cheese, is removed from the cheese (4).

Abstract: A method for removing both long and short yarn defects at the winding heads of a bobbin winding machine. Following the appearance of a yarn defect, the length of the defective yarn between the time of the appearance of the defect and the time of a subsequent yarn cut is determined. A suction tube is positioned in front of the winding bobbin to aspirate the defective yarn therefrom. The yarn is unwound, the entry of the yarn into the suction tube is determined by means of a sensor disposed therein, and the yarn length unwound from the winding bobbin and entering the suction tube is determined.

Abstract: A method for monitoring a traveling yarn at a winding station of an automatic winding machine having an electronic slub catcher which produces an AC voltage signal proportional to a dynamic yarn signal responsive to yarn movement and a yarn cutting signal responsive to a fluctuation in yarn dimension outside a predetermined tolerance range includes the steps of producing a static yarn signal responsive to the presence of yarn in the electronic slub catcher, monitoring and evaluating the static yarn signal, producing a separating signal responsive to the absence of static yarn signal due to the absence of yarn from the slub catcher and monitoring and evaluating the separating signal.

Abstract: The present invention provides a method and apparatus for operating a textile winding machine to wind yarn packages with the capability to verify a reported yarn break situation and to respond accordingly in the event that a yarn break has not, in fact, occurred. A sensing device at a textile winding station senses the travel of a yarn therepast as the yarn is wound from a supply package onto a take-up package. In the event of a yarn break or movement of the yarn beyond the sensing range of the sensing device, the sensor reports the absence of yarn to a control unit. The control unit responds to the signal from the sensing device by stopping the yarn winding operation and implementing a yarn re-establishment operation.

Abstract: The method and apparatus optically scan the size of a yarn package of a spinning bobbin with a plurality of light transmitters and light receivers and derive defined control processes in accordance with the ascertained size. Bobbins with yarn packages are moved in a given direction of motion at a predetermined speed between a plurality of paired and mutually opposite light transmitters and light receivers disposed one above the other with respect to the given direction of motion for placing at least some of the light receivers into a shadow. At least one of the light transmitters and light receivers are switched on and off in cycles at a predetermined rhythm, order and duration. A signal is delivered to a computer from each of the light receivers placed into a shadow in each cycle by the bobbin. The volume of the applicable bobbin is calculated with the computer from a given time required for scanning one bobbin and from the signals from the shadowed light receivers delivered during the given time.

Abstract: Method of avoiding a formation of ribbon windings when winding a frictionally driven crosswound coil with a wild winding, which includes braking an element rotatingly connected with the crosswound coil with a varying braking force.