Abstract: Apparatus and methods are shown for controlling a weighing machine in which product is fed into one end a vibratable pan of a vibratory feeder and is discharged from the other end, for example into a weigh bucket. In a first embodiment, the amplitude of vibration of a pan is measured and is compared to a desired amplitude. The measured amplitude is compared to a desired amplitude, and the amplitude of vibration is adjusted by modifying an input signal to a vibrator attached to the pan until the measured amplitude equals the desired amplitude. In a second embodiment, a mechanism is included to stop the loading of product into a pan when a predetermined amount of product has been discharged from a pan into a weigh bucket, and the weight of product in the pan is monitored as additional product is discharged into the weigh bucket Only a preselected additional weight of product is subsequently discharged into the weigh bucket.
Abstract: The vibratory feeder utilizes a releasable attachment mechanism for connecting a feed tray to a vibrator for ease of removal and installation. The attachment mechanism has a first coupling in the form of z-blocks which when pressed together align the feed tray with the vibrator and firmly affix the tray against motion toward and away from the vibrator at the coupling. A second coupling displaced from the first coupling utilizes two pin blocks which are locked together by two press-fit pins. The pin blocks, when locked together, firmly fix the feed tray to the vibrator at the second coupling and simultaneously press the Z-blocks together at the first coupling.
Abstract: Apparatus and methods are shown for controlling a weighing machine in which product is fed into one end a vibratable pan of a vibratory feeder and is discharged from the other end, for example into a weigh bucket. In a first embodiment, the amplitude of vibration of a pan is measured and is compared to a desired amplitude. The measured amplitude is compared to a desired amplitude, and the amplitude of vibration is adjusted by modifying an input signal to a vibrator attached to the pan until the measured amplitude equals the desired amplitude. In a second embodiment, a mechanism is included to stop the loading of product into a pan when a predetermined amount of product has been discharged from a pan into a weigh bucket, and the weight of product in the pan is monitored as additional product is discharged into the weigh bucket. Only a preselected additional weight of product is subsequently discharged into the weigh bucket.