A cargo restraint system includes a body, a first connecting end and a second connecting end on opposing sides of the body, wherein the first and second connecting ends are coupled to a securing member which is used to restrain the cargo. One or more load sensors are coupled to the first connecting end and/or the second connecting end. A controller is coupled to the one or more load sensors. The controller is configured to receive tension information from the one or more load sensors. The controller includes a transmitter capable of transmitting the tension information to a remote device. The controller may include a database to store the information.

An integrated intelligent cable module for use in a tensile fiber strength member. The module preferably includes an integral instrument package. The instrument package may assume many forms and may serve many purposes. The module preferably includes load-monitoring, recording features, and display features. These features act as a “black box” for the tensile fiber strength member, monitoring its performance and reporting (in real-time or at a later time) any exceedances or any deterioration in performance or structural integrity. These features allow an operator to easily monitor the condition of a tensile fiber strength member—preferably while the tensile fiber strength member remains in service.

An integrated intelligent cable module for use in a tensile fiber strength member. The module preferably includes an integral instrument package. The instrument package may assume many forms and may serve many purposes. The module preferably includes load-monitoring, recording features, and display features. These features act as a “black box” for the tensile fiber strength member, monitoring its performance and reporting (in real-time or at a later time) any exceedances or any deterioration in performance or structural integrity. These features allow an operator to easily monitor the condition of a tensile fiber strength member—preferably while the tensile fiber strength member remains in service.

A height adjustable hitch receiver is disclosed and described.

A height adjustable hitch receiver is disclosed and described.

A device for attachment to a linear force transmission medium such as a wire or rod includes a flexure body having axially aligned tubular extensions on opposite ends that can receive and be crimped to the medium to create a continuous path for tensile force transmission. The flexure carries strain gages on top and bottom planar surface portions that are connected into a bridge circuit that responds to stress in the flexure body. Leads are protected against disconnection from solder pads by wrapping the leads and a carrier for them around the exterior circumferential surface of a jacket that fits on and around the flexure body. An FPC plug embodiment is disclosed.

The present invention relates to a force measurement device that includes mechanical amplification of linear elastic deformation along the axis of loading by estimating the quasi-linear incremental displacement between two points on arcs inscribed due to angular movements of a pair of cantilever arms located on opposite quadrants on a closed contour load sensing element to improve the sensitivity, and hence the resolution, of the force measurement device.

A height adjustable hitch receiver is disclosed and described.

A height adjustable hitch receiver is disclosed and described.

A resistance-band exercise monitoring device includes a first force sensor that senses a first force applied to a first resistance band, a second force sensor that senses a second force applied to a second resistance band, a single electronics module with a single transceiver for wirelessly communicating with a remote device, and a flexible strap physically coupling with the first and second resistance bands. The flexible strap has conductive pathways electrically coupling the force sensors to the single electronics module. The single electronics module communicates values indicative of the first and second forces to the remote device via the single transceiver. The flexible strap does not stretch and protects the conductive pathways from excessive stress. The resistance-band exercise monitoring device may be configured in multiple ways to perform a wide variety of exercises.