Abstract: The fork is cut into two pieces by abrasive waterjet. The toe-piece is formed with sidebars which, when the toe-piece is welded into the cover, greatly enhance rigidity of the cover-assembly. The heel-piece carries the load cells. In an option, a peninsula is cut in the heel-piece by waterjet, and the peninsula serves as the flexure-member of the loadcell.
Abstract: For adding a retro-fit load-measuring system to a walkie-type pallet truck etc, the low-profile load cell is formed with a chunky inner-boss and outer-ring. A thin annular disc, to which strain-gauges are cemented, extends between the two. The load-cell is installed in a fork of the truck, the outer-ring engaging a hole in the fork. The fork-cover engages the inner-boss of the load-cell, and is attached thereto with some free play.
Abstract: For minimizing the height of the load-measuring attachment for a lift-truck, the cover is made of thin sheet metal. The side-walls of the channel-section of the cover are folded into double thickness, to stabilize the side-walls of the cover.
Abstract: For use with cranes or hoists, the traditional shackle-bolt through-hole in the shackle-bar is elongated into a slot. A sub-unit comprising a cell-block, a load-cell, a load-block, and one of the shackle-bolts, is placed in the slot. The load-cell, of suitable size, is housed in a very robust manner, and yet the load capacity of the shackle-bar is unaffected by being so modified.
Abstract: For adding a retro-fit load-measuring system to a walkie-type pallet truck etc, the low-profile load cell is formed with a chunky inner-boss and outer-ring. A thin annular disc, to which strain-gauges are cemented, extends between the two. The load-cell is installed in a fork of the truck, the outer-ring engaging a hole in the fork. The fork-cover engages the inner-boss of the load-cell, and is attached thereto with some free play.
Abstract: A device having integrally formed channels that prevent forces on a sensor cable from damaging a load cell such that if the cable is overloaded it will break but the strain gauge within the load cell will be protected.
Abstract: Weigh sensed lift truck forks in which each standard fork is modified to accept an assembly including load sensing cells, spacers and a fork cover. Each cover provides protection for load cells affixed through spacers between the fork and fork cover, standard fork tip functionality and a load bearing surface and structure that interfaces through the spacers with the load cells and fork subassembly to provide accurate load weight data. The design of the components and method of their assembly result in improved manufacturing efficiency and cost effectiveness, easier installation, improved load weighing functionality, improved structural robustness, easier servicing and improved safety.