There is provided a method for measuring a contact force applied to each tube constituting a tube bundle disposed in a fluid from a vibration damping member by using a probe inserted into each tube. Characteristic data defining a relationship between a value measured by the probe and the contact force is previously prepared. Then, the probe is inserted into the tube, and the contact force is calculated using the measurement value of the probe, based on the characteristic data.

A multi-link device includes a load tension pin including a sensor configured to measure tension applied to the load tension pin, network interface hardware, one or more processors, and one or more memory modules storing computer readable and executable instructions which, when executed by the one or more processors, cause the multi-link device to: determine whether the tension measured by the load tension pin exceeds a threshold value; and transmit, by the network interface hardware, load event data to a receiver in response to determination that the tension exceeds the threshold value.

A force sensor for a tendon-actuated mechanism, the force sensor comprising: a body having a through hole for passage of a tendon of the tendon-actuated mechanism therethrough, the body configured to be connected to a part of the tendon-actuated mechanism through which the tendon passes; and a sensor provided on the body to obtain a compression force on the body from the part of the tendon-actuated mechanism through which the tendon passes.

A vehicle wiper linkage installation verification tool that includes a stabilizing bar, a first connector at a first end of the stabilizing bar, and a second connector at a second end of the stabilizing bar. The first connector and the second connector are engageable with wiper posts of a wiper assembly. A pulling tool is coupled to the stabilizing bar, wherein the pulling tool is engageable with a linkage arm of the wiper assembly, and is configured to pull the linkage arm toward the stabilizing bar.

An Ocular Force Measuring Apparatus (OFMA) is provided. The OFMA can include a lens manipulator arranged on a carrier operably connected to a strain gauge load cell. The OFMA can be manipulated by hand or with an actuator mechanism. When the lens manipulator is engaged with a contact lens attached to an eye, the strain gauge load cell can measure the force required to remove the contact lens from the eye. Conversely, if a contact lens is arranged on the lens manipulator, the force required to deposit the contact lens on the eye is measureable by the strain gauge load cell.

A data display method of a test instrument for a rivet nut setting tool is disclosed. When the rivet nut setting tool is operated, a value of a pull force detected by the pull-force detector is transmitted to the first display area through a circuit module, and a first display area displays variation of the value of the detected pull force in waveform, and the first display area also displays an upper-limit waveform value, a waveform data unit, a current value and a historical maximum value; when the rivet nut setting tool is operated continuously, the first display area displays a continuous waveform, and the second display area displays historical data and average values of maximum pull force values.

A portable test instrument for a rivet nut setting tool is disclosed, and the portable test instrument includes a shell body, a circuit module disposed in the shell body, and a strain gauge having a part located in the shell body and electrically connected to the circuit module, and a display device. An end of the strain gauge is exposed to the shell body and used to mount with the rivet nut setting tool. The strain gauge can change a value of a signal transmitted to the circuit module when being forced to deform. The display device is disposed on the shell body and electrically connected to the circuit module, and configured to display data measured by the strain gauge.

A vehicle securing apparatus is provided for pulling and securing a test vehicle provided to a vehicle testing device. The column stands on the pedestal. The vehicle securing apparatus includes a column, a traveling and rotating part, and a pedestal. The traveling and rotating part is structured to be coupled with a chain for pulling the test vehicle, and arranged coaxially with the column, and structured to travel vertically and rotate horizontally. The pedestal is structured to be attached to an arbitrary portion of a slide rail of the vehicle testing device.

First and second operations are executed under control of a peeling inspection control apparatus functioning as a peeling and grasping control unit. In the first operation, a processed surface contact state in which a processed outer peripheral surface of a contact roller and a surface of a lead wire are in contact with each other is maintained, and contact roller rotation operation is executed in which the contact roller is moved on the surface of the lead wire while the contact roller is being rotated. During execution of the first operation, a tip portion of the lead wire is peeled from a glass substrate. Thereafter, in the second operation, grasping operation is executed in which the tip portion of the lead wire peeled from the glass substrate is grasped by a grasping mechanism.

A mobile apparatus that is automated to measure controlled and applied forces to sport surfaces allowing for safety assessment of athletic apparel and athletic surfaces, such as natural or artificial turf. The apparatus is capable of using not only horizontal and vertical forces, but also rotational moments, and all prescribed forces and moments in combination at the same or different times. The apparatus and related system can apply horizontal and vertical forces, and rotational moments, and link these forces and moments together and combine them to more closely mimic behavior of human foot during an athletic movement, thereby applying and measuring interactions between all forces and moments at the same or different times.