Abstract: A portable weighing hopper assembly for use in precisely loading bulk material or commodities in a shipping container or vessel which includes a wheeled frame having first and second metered hoppers mounted thereon. A primary hopper is mounted on the wheeled frame for supplying material to either the first and second metered hoppers. A transfer valve is positioned between the discharge end of the primary hopper and the first and second metered hoppers for directing material from the primary hopper to either the first and second metered hoppers. A slide gate is positioned between the lower outlet end of the primary hopper and the transfer valve. Load cells are associated with the first and second metered hoppers which supplies the weight information to a CPU. The CPU controls the flow of material from the metered hoppers to a conveyor which discharges the material into a shipping container or the like.

Abstract: A product supply apparatus for a weighing system (3) for supplying a weighed product quantity (4, 5) to a product receiving device (7) of a packaging machine (8) is formed to prevent spreading of the supplied product quantity when discharging from a collecting receptacle (11, 12) and falling through the product receiving device (7).

Abstract: A device for weighing free-flowing or strewable solid material, in particular granular or powdered material, during throughflow, includes an enclosed housing a rotor which is essentially freely rotatable about an essentially horizontal axis of rotation and has at least two adjacent compartments viewed in the direction of rotation, an inlet in the housing for feeding material to be weighed to one of the compartments of the rotor an outlet in the housing for discharging weighed material from the compartments of the rotor, and retaining devices acting on the rotor. The retaining devices includes a magnetic system which is designed to exert on the rotor a retaining force of a predetermined maximum magnitude acting in the opposite direction to the direction of rotation of the rotor.

Abstract: A combination weighing machine of the type comprising a plurality of weighing units for weighing product fed thereto and providing weight signals indicative of the weights thereof, respectively, means for selecting an optimum combination of these weight signals which satisfies a predetermined condition, and means for discharging the product from those weighing units corresponding to the selected combination for deliver a batch of product satisfying the prescribed condition; in which, as the feature of invention, each weighing unit is provided with a plurality of weighing chambers and a single weigher or weight sensor for providing a weight signal indicative of the total weight of all weighing chambers and associated with loading means for selectively loading the weight chambers with product and means for detecting the weight of product in each weighing chamber and storing it, and the combination selecting means and the discharging means are arranged to select the optimum combination from all weighing chambers

Abstract: A combination weighing machine produces a weight of product closely approximating a target weight by selecting a combination of lesser weights from a plurality of weigh scales and discharging the selected combination into a container or packaging machine. Each weigh scale has multiple bins for weighing and discharging multiple quantities of product respectively, and a single weight sensor. The weight of product in each bin is determined separately by delivering product to one bin at a time and measuring the change in the aggregate weight of product on the scale after each delivery. The weights determined for each bin are stored and are used in searching for and selecting an acceptable combination for discharge.

Abstract: A continuous flow weighing apparatus including a support frame, a weighing drum rotatably mounted to an axle and having a plurality of weighing compartments each having an eccentric center of gravity. A balance beam is rotatably mounted on each side of the weighing drum to the support frame. One end of the balance beam is fixedly mounted to the drum axle while the other end is adapted to receive a counterweight. A releasable stop means is provided comprising a drum stop mounted to the exterior side of each weighing compartment. A fixed latch bar and a pivotal latch bar are attached to the support frame and are so configured as to form a notch for receiving the drum stops. The drum stops and the sides of the fixed and pivotal latch bars have inclined mating surfaces which form an angle from the horizontal to give a horizontal resultant force. A horizontal resultant force reduces weighing errors by stabilizing the center of gravity.

Abstract: The machine comprises one or more weighers for producing electrical output signals dependent on the weights of samples weighed thereby, and a plurality of sample holders, greater in number than the weighers, for holding respective samples. The sample holders may include a respective weigher holder associated with each weigher, and two or more storage holders associated with each weigher for holding samples discharged from the associated weigher holder. The machine further comprises memories for storing signals indicative of the weights of the samples in the storage holders as determined by the weighers, and selection circuitry for making a selection from amongst the samples in all the storage holders in dependence on the weights of the samples as indicated by the memories and for discharging the selected samples from the storage holders to form a batch of an appropriate weight.

Abstract: This invention pertains to a method to batch-weigh a continuous flow of material. The material flows into a holding container which cyclically drops a load into a weighing container and then continues to receive the flow of material. Before the holding container is again filled, the load in the weighing container is weighed, emptied and, if necessary, again weighed to measure tare weight. The weighing container is then ready to receive another load from the holding container. The material emptied from the weighing container drops into a hopper from whence it continues to flow, as upon a conveyor belt.

Abstract: Apparatus for weighing a continuous flow of powder material, including two separate weighing hoppers, a diverting valve for switching the flow from one hopper to the other and a closure valve for emptying each hopper. Each hopper is supported for small vertical movements by a suspension system including two pairs of crossed flexible wires at upper and lower levels, with the intersections of the wires lying on a vertical axis through a load cell which thus senses the gross weight of the hopper and its load. An automatic controller with a register totals the successive recorded gross or live weights of the hoppers and subtracts successive readings of the tare weights.