A non-interdependent displacement measuring device for converting a rotary motion to a linear motion is disclosed, which includes a driving unit, a detection unit, and a resistance device. The driving unit includes an adjustment section and a driving section. The detection unit is arranged in the adjustment section. The driving section is connected to the resistance device. The detection unit includes a sensing module and a transmission module, and the detection unit is arranged in the adjustment section, so that when the adjustment section rotates, the detection unit detects turns and an angle of rotation of the adjustment section to generate a detection signal, which, after being subjected to calculation, is transmitted through the transmission module to the electronic device to display the level of an resistance, so as to overcome the drawbacks of the prior art that accuracy is poor, calibration is difficult, and fabrication is difficult due to a magnet and a sensor being arranged as two separate parts.

A screw device is provided which can detect damage to a groove of a screw shaft, the damage being hidden by a nut, with a high probability. At least two circulation components are mounted on a nut in such a manner as to form at least two circulation circuits that circulate rolling elements. The nut is provided with a sensor that detects a displacement of a groove of a screw shaft between the adjacent circulation circuits.

A screw device is provided which can detect damage to a groove of a screw shaft, the damage being hidden by a nut, with a high probability. At least two circulation components are mounted on a nut in such a manner as to form at least two circulation circuits that circulate rolling elements. The nut is provided with a sensor that detects a displacement of a groove of a screw shaft between the adjacent circulation circuits.

A non-interdependent displacement measuring device for converting a rotary motion to a linear motion is disclosed, which includes a driving unit, a detection unit, and a resistance device. The driving unit includes an adjustment section and a driving section. The detection unit is arranged in the adjustment section. The driving section is connected to the resistance device. The detection unit includes a sensing module and a transmission module, and the detection unit is arranged in the adjustment section, so that when the adjustment section rotates, the detection unit detects turns and an angle of rotation of the adjustment section to generate a detection signal, which, after being subjected to calculation, is transmitted through the transmission module to the electronic device to display the level of an resistance, so as to overcome the drawbacks of the prior art that accuracy is poor, calibration is difficult, and fabrication is difficult due to a magnet and a sensor being arranged as two separate parts.

The present disclosure discloses a fastener assembly. The assembly comprises a stud having a head portion connectable to an actuator, and a shank extending from the head portion. At least a portion of the shank comprises threads, and an insulating material extends on the threads. A resistor module comprising one or more resistors is configured on the insulating material. One end of the one or more resistors is connectable to a power source, and other end of the one or more resistors is connectable to the power source through a nut engageable with the threads. A movement of the stud relative to the nut varies net resistance across the resistor module. The variation of net resistance across the resistor module may be used to determine position of the nut relative to the stud.

The present disclosure discloses a fastener assembly. The assembly comprises a stud having a head portion connectable to an actuator, and a shank extending from the head portion. At least a portion of the shank comprises threads, and an insulating material extends on the threads. A resistor module comprising one or more resistors is configured on the insulating material. One end of the one or more resistors is connectable to a power source, and other end of the one or more resistors is connectable to the power source through a nut engageable with the threads. A movement of the stud relative to the nut varies net resistance across the resistor module. The variation of net resistance across the resistor module may be used to determine position of the nut relative to the stud.