| CPC B65B 1/32 (2013.01) [A23P 20/10 (2016.08); G01G 11/12 (2013.01); G01G 13/08 (2013.01); G01G 15/001 (2013.01); G01G 19/32 (2013.01); G01G 19/387 (2013.01)] | 6 Claims |
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1. A method of correcting the measurement of the mass flow rate at which a conveyed stream of first component material portions is moved to a mixing station in which a second component material is added to the stream of first component material portions, the method comprising:
providing a conveyor having an upstream end to receive a stream of the first component material portions and a downstream end at which the stream of the first component material portions is discharged;
providing an upstream weigher intermediate the upstream end and the downstream end of the conveyor for measuring a mass of first component material portions residing on the upstream weigher, the upstream weigher having a signal generator for generating a signal corresponding to each measurement of the mass of first component material portions residing on the upstream weigher;
providing a processor for receiving the signal generated by the signal generator of the upstream weigher;
providing a targeted percentage at which the second component material is to be mixed with the first component material to provide a targeted blend;
generating a signal to the processor corresponding to the targeted percentage;
providing a mixing station at which a stream of second component material portions is to be dispensed using a dispenser onto the stream of first component material portions received into the mixing station from the downstream end of the conveyor for mixing therewith to form a stream of blended product;
providing a high-fidelity weighing machine to receive the stream of blended product from the mixing station and to deposit a predetermined mass amount of the blended product into each of a plurality of packages in which the blended product is packaged, the high-fidelity weighing machine having a signal generator for generating signals to the processor corresponding to the number of packages of blended product packaged by the high-fidelity weighing machine in a given time interval;
providing a variable rate dispenser in the mixing station to controllably dispense the stream of second component material portions onto the stream of first component material portions at a rate that obtains the targeted percentage to enable the mixing of the first component material portions and the second component material portions into a stream of flavored food portions, the rate at which the second component material portions are dispensed being controlled using a signal from the processor;
determining the time required for first component material portions to move on the conveyor from the upstream weigher to the mixing station using one of a speed sensor and human observation;
generating a signal to the processor corresponding to the speed at which the first component material portions move from the upstream weigher to the mixing station;
determining a residence time during which first component material portions remain within the mixing station while being mixed with the second component material portions;
generating a signal to the processor corresponding to the residence time during which first component material portions remain within the mixing station while being mixed with the second component material portions;
determining the time required for blended product to move from the mixing station to the high-fidelity weighing machine using one of a speed sensor and human observation;
generating a signal to the processor corresponding to the time required for blended product to move from the mixing station to the high-fidelity weighing machine;
determining a time shift between the moment that a first component material portion resided on the upstream weigher and the time that the first component material portion entered the mixing station;
generating a signal to the processor corresponding to the time shift between the moment that a first component material portion resided on the upstream weigher and the time that the first component material portion entered the mixing station;
determining a time shift between the moment that a blended first component material portion with second component material portion blended therewith exited the mixing station and the time that the first component material portion entered the mixing station;
generating a signal to the processor corresponding to the time shift between the moment that a blended first component material portion with second component material portion blended therewith exited the mixing station and the time that it reaches the high-fidelity weighing machine;
assuming an initial correction factor for being applied to the measurements made using the upstream weigher as being one of 1.0 or a previously determined correction factor stored in and retrieved by the processor from a database;
using the time shifts to identify and select one or more previous measurements of the mass of first component material portions residing on the upstream weigher that correspond to one or more measurements of mass of blended product produced by mixing those same first component material portions with dispensed second component material portions added in the mixing station; and
determining a new correction factor by comparing the measurements obtained using the high-fidelity weighing machine with the identified, selected and time-shifted measurements made using the upstream weigher, the correction factor being determined as a number that, when applied to correct the measurements made using the upstream weigher, brings the measurements into harmony with the measurements made using the high-fidelity weighing machine.
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