Abstract: A mobile weighing apparatus includes a base tubing, a column extending from the base tubing, a handle extending from the column, a plurality of wheels, a weighing platform, and a plurality of load cells coupled to or between the base tubing and the weighing platform. The weighting platform may be suspended from the load cells, such as with wire rope bolts, such that a force applied to the column does not affect weighment of an object on the weighing platform. The apparatus may include a kingpin-less swivel rear wheel, a rear wheel brake to preclude rotation of the rear wheel about an axle of the rear wheel, and an actuator to actuate the rear brake when the rear wheel is in any position over a 360-degree range. The wheels may be positioned adjacent respective corners of a triangularly shaped base tubing, and the apparatus may further include a clinometer.
Abstract: A mobile weighing scale is disclosed. The mobile weighing scale comprises a column; a weighing platform for supporting an object to be weighed; and a plurality of load cells for computing weighment of the object are connected to the weighing platform, wherein the plurality of load cells are mounted internal to the top of a base tubing, wherein the base tubing is attached to the weighing platform. Further, the mobile weighing scale may comprise a vibrator, removably attached at a proximal end of the weighing platform, for producing vibratory forces on the weighing platform to densify a material within the object to be weighed. The mobile weighing scale may further comprise an electronic indicator, attached to the column, for displaying the computed weighment of the object.