A creel system includes a plurality of tension controller apparatuses that hold spools of wire. The tension controller apparatuses apply tension to the wire and may be manipulated to fine-tune or control the tension applied to the wire. The creel system may further include a plurality of sensors that measure operation of the creel system as well as the condition of the wire. In such embodiments, the creel system may include a user-interface that provides data to the operator in real time and with which the operator may interact to control operation of the creel system.

A creel system includes a plurality of tension controller apparatuses that hold spools of wire. The tension controller apparatuses apply tension to the wire and may be manipulated to fine-tune or control the tension applied to the wire. The creel system may further include a plurality of sensors that measure operation of the creel system as well as the condition of the wire. In such embodiments, the creel system may include a user-interface that provides data to the operator in real time and with which the operator may interact to control operation of the creel system.

A fish tape tool may include a housing including a handle. A fish tape tool may include a drum configured to be removably coupled to the housing, the drum containing a fish tape, the drum including a frame and a drum portion that is rotatable relative to the frame, wherein at least a portion of the frame and at least a portion of the drum portion each remain exposed when the drum is coupled to the housing.

A creel system includes a plurality of tension controller apparatuses supporting wire spools, an air pressure control system operatively connected to the tension controller apparatuses, a loose wire detection system configured to detect a loose wire condition upon contact between a sensor bar and one or more wires, and a central control system in communication with the air pressure control system and the loose wire detection system. The central control system ascertains a wire tension of one or more wires based on data from an apparatus sensor and the air pressure control system, and the central control system is configured to actuate the air pressure control system in response to the wire tension to maintain air pressure between upper and lower pressure thresholds. The central control system is configured to generate a loose wire alarm when the loose wire detection system detects the loose wire condition.

A creel system includes a plurality of tension controller apparatuses supporting wire spools, an air pressure control system operatively connected to the tension controller apparatuses, a loose wire detection system configured to detect a loose wire condition upon contact between a sensor bar and one or more wires, and a central control system in communication with the air pressure control system and the loose wire detection system. The central control system ascertains a wire tension of one or more wires based on data from an apparatus sensor and the air pressure control system, and the central control system is configured to actuate the air pressure control system in response to the wire tension to maintain air pressure between upper and lower pressure thresholds. The central control system is configured to generate a loose wire alarm when the loose wire detection system detects the loose wire condition.

A guiding chain carrier system (1) is configured for an installation (2), for deploying and for storing without folding said guiding chain and flexible supply cables and/or pipelines. Said guiding chain carrier system comprises a mobile workstation (6) movable over a work surface (3) and connected to the said cables and/or pipelines, at least one guiding chain (20), connected to a static connection area (7) on one end and to the mobile workstation (6) on the other end thereof, for supporting said cables and/or pipelines; characterized by at least one compensation trolley (8), comprising a compensation system. Said compensation trolley (8) is movable and the compensation system is able to generate a resistance force in order to maintain the guiding chain (20) straight while the mobile workstation (6) moves from an operation location nearest the static connection area (7) until an operation location furthest from the static connection area (7).

A guiding chain carrier system (1) is configured for an installation (2), for deploying and for storing without folding said guiding chain and flexible supply cables and/or pipelines. Said guiding chain carrier system comprises a mobile workstation (6) movable over a work surface (3) and connected to the said cables and/or pipelines, at least one guiding chain (20), connected to a static connection area (7) on one end and to the mobile workstation (6) on the other end thereof, for supporting said cables and/or pipelines; characterized by at least one compensation trolley (8), comprising a compensation system. Said compensation trolley (8) is movable and the compensation system is able to generate a resistance force in order to maintain the guiding chain (20) straight while the mobile workstation (6) moves from an operation location nearest the static connection area (7) until an operation location furthest from the static connection area (7).

Disclosed herein is a method and associated adjusting system for adjusting the sensor sensitivity of a motion sensor for detecting movement of a pile yarn in a tufting machine, provided with several tufting needles, where this pile yarn is incorporated into a fabric. The method includes determining current process data, providing reference data for the sensor sensitivity of the motion sensor, including one or more sets, where each includes a value of a reference sensor sensitivity and corresponding process data, determining a connection between the current process data and the process data of the provided reference data, determining a value for the sensor sensitivity to be adjusted on the basis of this connection and the one or more values of the reference sensor sensitivity of the provided reference data, and adjusting the value for the sensor sensitivity to be adjusted in the motion sensor.

Disclosed herein is a method and associated adjusting system for adjusting the sensor sensitivity of a motion sensor for detecting movement of a pile yarn in a tufting machine, provided with several tufting needles, where this pile yarn is incorporated into a fabric. The method includes determining current process data, providing reference data for the sensor sensitivity of the motion sensor, including one or more sets, where each includes a value of a reference sensor sensitivity and corresponding process data, determining a connection between the current process data and the process data of the provided reference data, determining a value for the sensor sensitivity to be adjusted on the basis of this connection and the one or more values of the reference sensor sensitivity of the provided reference data, and adjusting the value for the sensor sensitivity to be adjusted in the motion sensor.

It is possible to suppress damage to a yarn path guide mechanism and a textile machine. There is a first supporter which makes contact with a supporting shaft supporting a roller, a second supporter which is capable of making contact with the supporting shaft, and a biasing member which biases the second supporter in a direction in which the supporting shaft is sandwiched between the second supporter and the first supporter. When a virtual straight line which passes through a winding center and a rotation center is a first virtual straight line whereas a virtual straight line which extends in a direction orthogonal to the first virtual straight line and passes through the rotation center is a second virtual straight line, the second supporter makes contact with a part of the supporting shaft, which is positionally opposite to the winding center over the second virtual straight line.