A sensing apparatus for yarn feeder may comprise a yarn feeder and a tension controller. The tension controller has an elongated sensing block installed therein, and a horizontal extending board is connected to the sensing block. An operating rod is mounted on a middle upper surface of the extending board at one end and upwardly sticks out of the tension controller to pivotally connect to a tension pulley at the other end. A yarn wound on a winding wheel of the yarn feeder is configured to couple with the tension pulley. At least an impedance sensing piece is attached on a surface of the sensing block, and a deformable hole horizontally penetrates through the sensing block. When the sensing block is pressed or pulled, the tension controller can obtain the tension value of the yarn and further calculate the torsion value of the yarn feeder.

A sensing apparatus for yarn feeder may comprise a yarn feeder and a tension controller. The tension controller has an elongated sensing block installed therein, and a horizontal extending board is connected to the sensing block. An operating rod is mounted on a middle upper surface of the extending board at one end and upwardly sticks out of the tension controller to pivotally connect to a tension pulley at the other end. A yarn wound on a winding wheel of the yarn feeder is configured to couple with the tension pulley. At least an impedance sensing piece is attached on a surface of the sensing block, and a deformable hole horizontally penetrates through the sensing block. When the sensing block is pressed or pulled, the tension controller can obtain the tension value of the yarn and further calculate the torsion value of the yarn feeder.

An automatic tension sensing and control system for cargo restraints comprises a load binder, a tension sensor, an actuator coupled to the load binder, and a control module. The control module receives signals from the sensor and can command the actuator to tighten or slacken the load binder. The system can also include an annunciator and an information storage and retrieval system.

An automatic tension sensing and control system for cargo restraints comprises a load binder, a tension sensor, an actuator coupled to the load binder, and a control module. The control module receives signals from the sensor and can command the actuator to tighten or slacken the load binder. The system can also include an annunciator and an information storage and retrieval system.

An improved system for handling delicate linear media and in particular to a method and apparatus for winding delicate linear media such as superconducting wire or tape or optical fibers onto a spool. A combination of direct closed loop control and media routing design facilitates the handling of the delicate media without causing damage. The axial tension in the linear media may be closely controlled during winding by means of feedback control loop using tension measurements to control the rotation speeds of the wind-from and wind-to spools. Further, during winding, the delicate linear media is only exposed to large radius bends with no reverse bending. Finally, output devices and features, commercial or otherwise, made possible by delicate linear media handling are revealed. This includes advanced SC devices and features.

A deliver device (1) with actuators (3) for delivering yarns (2) in a textile machine, control means (4) for controlling the actuators (3) which comprise measuring means with measurement signals as a measure of the drive torque of the actuators (3) and monitoring means (5) for monitoring the tension of the yarns (2) using said measurement signals, a method for monitoring the tension of yarns (2) which are delivered in a textile machine by means of actuators (3), comprising producing measurement signals as a measure of the drive torque of the actuators (3) as a measure of the tension, the use of control means (4) for controlling actuators (3) for delivering yarns (2) in a textile machine in order to monitor the tension of the yarns (2).

A deliver device (1) with actuators (3) for delivering yarns (2) in a textile machine, control means (4) for controlling the actuators (3) which comprise measuring means with measurement signals as a measure of the drive torque of the actuators (3) and monitoring means (5) for monitoring the tension of the yarns (2) using said measurement signals, a method for monitoring the tension of yarns (2) which are delivered in a textile machine by means of actuators (3), comprising producing measurement signals as a measure of the drive torque of the actuators (3) as a measure of the tension, the use of control means (4) for controlling actuators (3) for delivering yarns (2) in a textile machine in order to monitor the tension of the yarns (2).

A self-synchronizing yarn tension control system is provided. Self-synchronizing yarn tension control includes a yarn tension sensor, a yarn brake, and a controller configured to control the system. The controller includes one or more processors and one or more memory devices. The memory devices configured to store the more memory devices configured to store one or more tension pulses, store one or more tension thresholds, and store instructions that when executed by the processors cause the processors to perform operations. The operations include obtaining a first yarn tension value and selectively operating the yarn brake based on the tension pulses. Obtaining a second yarn tension value by operating the yarn brake based on the tension pulses. Determining whether the first tension value exceeds the second tension value. Obtaining a yarn tension signal from the yarn tension sensor, comparing the yarn tension signal to the one or more tension thresholds, generating one or more brake control signals based on said comparison and operating the yarn brake based upon each of the one or more brake signals.

A self-synchronizing yarn tension control system is provided. Self-synchronizing yarn tension control includes a yarn brake, a yarn movement sensor, a yarn tension sensor, a yarn brake, and a controller configured to control the system. The controller is configured to store one or more tension thresholds and store instructions that when executed cause one or more processors to perform operations. The operations include obtaining a yarn movement signal from the yarn movement sensor, determining whether a textile machine is operational based, at least in part on the yarn movement signal, obtaining a yarn tension signal from the yarn tension sensor, comparing the yarn tension signal to the one or more tension thresholds, generating one or more brake control signals based on said comparison, and operating the yarn brake based upon each of the one or more brake signals.

A self-synchronizing yarn tension control system is provided. Self-synchronizing yarn tension control includes a yarn brake, a yarn movement sensor, a yarn tension sensor, a yarn brake, and a controller configured to control the system. The controller is configured to store one or more tension thresholds and store instructions that when executed cause one or more processors to perform operations. The operations include obtaining a yarn movement signal from the yarn movement sensor, determining whether a textile machine is operational based, at least in part on the yarn movement signal, obtaining a yarn tension signal from the yarn tension sensor, comparing the yarn tension signal to the one or more tension thresholds, generating one or more brake control signals based on said comparison, and operating the yarn brake based upon each of the one or more brake signals.