Apparatus and method for return of empty aluminum cans
First Claim
1. Apparatus for receiving aluminum and steel cans and dispensing compensation for at least the aluminum cans comprising:
- inlet hopper means for receiving a quantity of cans;
upwardly inclined conveyor means for receiving the quantity of cans and carrying the cans upwardly to a first discharge area;
air duct means mounted in an upwardly inclined position beneath and in juxtaposition to the upper portions of said conveyor means for receiving all cans from said conveyor means and having an inlet opening means located next adjacent said conveyor means and a first lowermost outlet opening means for receiving cans above a predetermined minimum weight and a second uppermost outlet opening means for receiving can below a predetermined minimum weight;
pressurized air means for creating a stream of high pressure air flowing upwardly through said air duct means for carrying the cans below the predetermined weight to said second uppermost outlet opening means while enabling passage of cans above the predetermined minimum weight to said first lowermost outlet opening means;
aluminum and steel can crusher means connected to said second outlet opening means for receiving aluminum and steel cans from said air duct means and for crushing aluminum and steel cans therein;
separating means located below said crusher means for receiving crushed aluminum and steel cans therefrom and for separating crushed aluminum cans from crushed steel cans;
weighing means located below said separating means for receiving crushed aluminum cans therefrom and for weighing the crushed aluminum cans received therefrom and for generating a signal indicative of the weight of the crushed aluminum cans received therein;
hopper means located below said separating means for receiving crushed aluminum cans from said separating means;
compensation dispensing means operable in response to generation of said signal for dispensing compensation for the total weight of crushed aluminum cans;
all of said aforementioned means being mounted in a relatively small process module;
a relatively large size storage module means being attached to one side of said process module for storage of crushed aluminum cans; and
transport means for transporting crushed aluminum cans from said hopper means to said storage module means.
3 Assignments
0 Petitions
Accused Products
Abstract
A method and apparatus for processing used empty aluminum and steel cans wherein groups of empty cans are carried upwardly on an inclined conveyor between spaced inclined ribs and separately sequentially discharged therefrom into an air duct wherein empty cans are blown to a crusher whereat the empty cans are sequentially crushed and fall onto a magnetic separator whereat crushed aluminum cans are separated from crushed steel cans and fall into a weigh hopper whereat the weight of crushed aluminum cans is determined whereupon compensation is dispensed for the value of the crushed aluminum cans. Thereafter, the crushed aluminum cans are sequentially dropped into an air duct and blown to a storage bin.
64 Citations
39 Claims
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1. Apparatus for receiving aluminum and steel cans and dispensing compensation for at least the aluminum cans comprising:
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inlet hopper means for receiving a quantity of cans; upwardly inclined conveyor means for receiving the quantity of cans and carrying the cans upwardly to a first discharge area; air duct means mounted in an upwardly inclined position beneath and in juxtaposition to the upper portions of said conveyor means for receiving all cans from said conveyor means and having an inlet opening means located next adjacent said conveyor means and a first lowermost outlet opening means for receiving cans above a predetermined minimum weight and a second uppermost outlet opening means for receiving can below a predetermined minimum weight; pressurized air means for creating a stream of high pressure air flowing upwardly through said air duct means for carrying the cans below the predetermined weight to said second uppermost outlet opening means while enabling passage of cans above the predetermined minimum weight to said first lowermost outlet opening means; aluminum and steel can crusher means connected to said second outlet opening means for receiving aluminum and steel cans from said air duct means and for crushing aluminum and steel cans therein; separating means located below said crusher means for receiving crushed aluminum and steel cans therefrom and for separating crushed aluminum cans from crushed steel cans; weighing means located below said separating means for receiving crushed aluminum cans therefrom and for weighing the crushed aluminum cans received therefrom and for generating a signal indicative of the weight of the crushed aluminum cans received therein; hopper means located below said separating means for receiving crushed aluminum cans from said separating means; compensation dispensing means operable in response to generation of said signal for dispensing compensation for the total weight of crushed aluminum cans; all of said aforementioned means being mounted in a relatively small process module; a relatively large size storage module means being attached to one side of said process module for storage of crushed aluminum cans; and transport means for transporting crushed aluminum cans from said hopper means to said storage module means. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. Apparatus for return and processing of used containers including aluminum and steel cans and bottles and the like and for dispensing compensation for at least empty aluminum cans suitable for recycling comprising:
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housing means for enclosing the apparatus; compensation dispensing means on said housing means for dispensing compensation for at least empty aluminum cans; inlet means on said housing means for receiving used containers; an upwardly inclined elongated continuous belt-type container conveyor means located in said housing means adjacent and being connected to said inlet means upwardly conveying used containers within said housing means; bin and chute means connected to said inlet means and operatively associated with said container conveyor means for continuously locating containers on said conveyor means; an air blower means mounted in said housing means for generating a flow of pressurized air for conveying empty aluminum and steel containers; an air duct means connected to said air blower means and mounted in said housing means adjacent said container conveyor means and extending upwardly in generally parallel relationship thereto for establishing an air stream therein causing upward movement of empty aluminum and steel containers therewithin; a container inlet opening means in said air duct means on one side of said air stream located therewithin and being located adjacent and below the upper end portion of said container conveyor means for receiving containers discharged therefrom by gravity and momentum forces; a heavy article outlet opening means in said air duct means located below said container inlet opening means on the opposite side of said air stream for receiving heavy articles such as bottles and filled aluminum and steel containers by gravity fall through said air stream from said container inlet opening means; an empty aluminum and steel can crusher means located in said housing means above and being connected to said air duct means for receiving and crushing empty aluminum and steel cans; an empty crushed aluminum and steel can separator means located in said housing means adjacent said crusher means for separating crushed aluminum cans from crushed steel cans; a crushed aluminum can weighing means located in said housing means adjacent said separator means for receiving and weighing crushed aluminum cans and for generating a signal to cause dispensation of compensation by said compensation dispensing means; a crushed aluminum can storage bin means located in said housing means adjacent said weighing means for receiving and storing crushed aluminum cans after weighing thereof; a crushed aluminum can discharge duct means located in said housing mean and being associated with said weighing means for receiving crushed aluminum cans therefrom and connected to said storage bin means for conveying crushed aluminum cans thereto; a second air blower means connected to said crushed aluminum can discharge duct means for generating a stream of pressurized air therewithin sufficient to blow crushed aluminum cans from a location adjacent said weighing means to said storage bin means; and wherein said crushed aluminum can discharge duct means comprises; a horizontally extending duct portion connected to said weighing means and said second air blower means; and a vertically extending portion located in said storage bin means and having a discharge opening means located above a bottom wall of said storage bin means for discharging crushed aluminum containers into said storage bin means by gravitational forces; and further comprising; a storage bin discharge opening connected to said storage bin means; an unloading duct means located below said bottom wall of said storage bin means and being connected to said storage bin discharge opening for conveying crushed aluminum cans from said storage bin means to an unloading discharge opening adjacent a side wall of said housing means; and said unloading duct means being selectively connectable to said second air blower means for generating a stream of pressurized air therewithin for blowing crushed aluminum cans from said storage bin means to said unloading discharge opening. - View Dependent Claims (12, 13, 14, 15, 16)
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17. Apparatus for processing and storing empty aluminum and steel cans and dispensing compensation for the value of processed empty aluminum cans comprising:
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(a) a process module of relatively small size and shape which contains; (1) an inlet means for receiving cans; (2) an upwardly inclined conveyor means for transporting cans from said inlet means to an elevated discharge position; (3) an upwardly inclined air duct means located adjacent said elevated discharge position for receiving empty aluminum and steel cans from said conveyor means at said elevated discharge position; (4) an air blower means mounted below and being connected to said upwardly inclined air duct means for separating empty aluminum and steel cans from other articles by creating a pressurized air stream in said duct means sufficient to transport said empty aluminum and steel cans upwardly in said duct means to a discharge opening in said air duct means located adjacent the upper wall of said process module; (5) a crusher means mounted directly below said discharge opening in said air duct means for receiving and crushing empty aluminum and steel cans; (6) separator means mounted directly below said crusher means for receiving crushed aluminum and steel cans from said crusher means and for separating crushed aluminum cans from crushed steel cans; (7) weighing means mounted directly below said separator means for receiving crushed aluminum cans from said separator means and for generating a signal indicative of the weight of aluminum cans received therein; (8) compensation means mounted on an exterior wall of said process module adjacent said inlet means for dispensing compensation in response to said signal; (9) an horizontally extending air duct means mounted on the floor of said process module directly below said weighing means for receiving crushed aluminum cans from said weighing means; and (10) a second air blower means mounted on the floor of said process module and being connected to said horizontally extending air duct means for transporting crushed aluminum cans away from said process module in said horizontally extending air duct means by creating a pressurized air stream therein; and (b) a storage module of relatively large size and shape attached to one side of said process module which contains; (1) a storage chamber means for receiving and storing crushed aluminum cans from said process module; (2) an horizontally extending air duct means located adjacent a bottom wall of said storage chamber means and connected to said horizontally extending air duct means in said process module for receiving and transporting crushed aluminum cans therefrom; (3) a vertically extending air duct means in said storage chamber means and being connected to said horizontally extending air duct means in said storage module for receiving and transporting crushed aluminum cans into an upper portion of said storage chamber means; and unloading means associated with said storage module for removing crushed aluminum cans from said storage chamber means. - View Dependent Claims (18, 19, 20, 21, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38)
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22. A method of processing empty aluminum and steel containers being returned for compensation comprising:
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placing the aluminum and steel containers in an inlet opening in a housing containing container processing apparatus; transporting the aluminum and steel containers vertically downwardly in the housing by gravity to a first location adjacent the bottom of the housing; transporting the aluminum and steel containers vertically upwardly in the housing by a mechanically operable conveyor means from said first location to a second location intermediate the bottom of the housing and the top of the housing; discharging the aluminum and steel containers from the conveyor means at said second location by momentum and gravity forces along a lateral outward and downward path into a pressurized air stream in air duct means laterally spaced from said conveyor means; transporting only empty aluminum and steel containers upwardly laterally and outwardly in said air stream from said second intermediate location to a crusher means at a third location intermediate the bottom of the housing and the top of the housing; crushing both empty aluminum and steel cans in the crusher means; downwardly discharging crushed aluminum and steel cans from said crusher means by gravity force toward a separator means at a fourth location beneath the crusher means; catching crushed aluminum and steel cans on the separator means; separating crushed aluminum and steel cans on the separator means and laterally outwardly downwardly discharging the crushed aluminum cans by gravity and momentum forces in a first direction and laterally outwardly downwardly discharging the crushed steel cans in a second direction by gravity and momentum forces; catching crushed aluminum cans in a weigh hopper means at a fifth location beneath the separator means; weighing the crushed aluminum cans in the weigh hopper means; generating a signal representative of the weight of crushed aluminum cans in the weigh hopper means; dispensing compensation for the weight of aluminum cans; downwardly discharging the crushed aluminum cans from the weigh hopper means by gravity into a can discharge air duct means located along the bottom of the housing means at a sixth position beneath the weigh hopper means; and transporting crushed aluminum cans by a pressurized air stream in the can discharge air duct means along the bottom of the housing means to a can storage means located at an eighth position laterally to one side of the weigh hopper means. - View Dependent Claims (23, 24, 25, 26)
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27. The method of weighing crushed aluminum cans in a weigh hopper means supported by a load cell means connected to an analog to digital converter means and dispensing compensation to a customer in accordance with the weight of crushed aluminum cans in the weight hopper after a weigh cycle comprising the steps of:
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measuring the weight of the weigh hopper means in an empty condition by averaging a first group of discrete hopper weight output signals sequentially received from the load cell means over a predetermined period of time; comparing the discrete output signals and generating a proceed signal only if at least two consecutive ones of the discrete output signals are identical and generating a stop signal if at least two consecutive ones of the discrete output signals are non-identical; storing the tare weight signal until the compensation has been dispensed to the customer; reducing the average weight signal by a predetermined amount to negate any error in calculation of average weight and generating a tare weight signal representative of the average empty weight of the weigh hopper means less the predetermined amount; initiating discharge of a variable amount of crushed aluminum cans into the weigh hopper means; after initiation of discharge of crushed aluminum cans into the weigh hopper means periodically monitoring the can-hopper weight by sequentially generating second groups of discrete can-hopper weight output signals sequentially received from the load cell means by the converter means over a predetermined period of time and sequentially generating average can-hopper weight signals representative of the average of each of the second groups of discrete can-hopper weight signals; determining at predetermined intervals if there has been an increase of can-hopper weight or if the can weight exceeds a predetermined maximum can weight limit by storing each average can-hopper weight signal and comparing each average can-hopper weight signal with the preceding average can-hopper weight signal and the maximum weight limit until a subsequent can-hopper weight signal indicates no change in can-hopper weight or a can weight in excess of the predetermined maximum can weight limit and upon the occurrence of either of those events; generating a net can weight signal representative of the weight differential between the last average can-hopper weight signal and the tare weight signal to cause compensation to be dispensed to the customer; and generating a hopper dump signal to cause the crushed aluminum cans in the weigh hopper to be discharged therefrom.
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39. The method of weighing crushed aluminum cans in a weigh hopper means supported by a load cells means comprising the steps of:
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measuring the empty weight of the weigh hopper means by averaging groups of discrete hopper weight output signals generated by said load cell means to produce an average weigh hopper weight signal; comparing successive average weigh hopper weight signals; generating a proceed signal only if at least two consecutive average weigh hopper weight signals are identical; generating a stop signal if two identical average weigh hopper signals are not detected within a predetermined period; reducing said two identical and consecutive average weigh hopper signals by a predetermined amount to negate any error in calculation of said empty weight of said weigh hopper means; generating a tare weight signal from said two identical and consecutive average weigh hopper signals representative of the empty weight of the weigh hopper means less the predetermined amount; initiating discharge of a variable amount of crushed aluminum cans into the weigh hopper means; sequentially generating discrete can-hopper weight output signals received from the load cell means representative of said empty weight of said weigh hopper means plus the net weight of said crushed aluminum cans in said weigh hopper means; sequentially generating can-hopper weight signals representative of the average of a predetermined number of discrete can-hopper weight signals; generating a net can weight signal representative of the weight differential between said average can-hopper weight signal and said tare weight signal.
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Specification