1. Technical Field
Aspects of the present document relate generally to ice bagging apparatuses, and more particularly to ice bagging apparatuses configured to select and fill empty ice bags from a horizontal ice bag cassette.
2. Background Art
Ice bagging apparatuses are commonly used to fill a plurality of bags with ice for retail sales, commercial sales, and/or other uses by other consumers. Ice bagging apparatuses are useful in that, among other things, they may produce and store bags of ice in a manner that is conveniently accessible to users.
Aspects of this document relate to ice bagging assemblies.
In one aspect, an ice bagging assembly having a support frame, a horizontal ice bag cassette coupled to the support frame and configured to store a plurality of empty ice bags, a bag selector coupled to the support frame and configured to select a first empty ice bag of the plurality of empty ice bags and to move the first empty ice bag from a horizontal position to an open vertical position below an ice chute, the ice chute configured to drop a plurality of ice cubes into the first open ice bag, an ice bag support below an end of the ice chute and positioned to support the first ice bag as the plurality of ice cubes drop into the first ice bag, and a sealing mechanism configured to seal an open end of the first ice bag.
Particular implementations may include one or more of the following: The assembly may further comprise an ice bag merchandiser in mechanical cooperation with the ice bagging assembly, the ice bag merchandiser configured to receive a plurality of filled, sealed ice bags from the ice bagging assembly and maintain the ice within the filled ice bags in a frozen state. The assembly may further comprise an ice cube maker in mechanical cooperation with the ice bagging assembly. The horizontal cassette may be slidably and tiltably coupled to the support frame for replacement of the plurality of empty ice bags. The assembly may further comprise an ice cube hopper in mechanical cooperation with the ice chute, the assembly further comprising at least one load sensor interposed between the ice cube hopper and the support frame. The frame may comprise a pair of angled guides on opposing inside sides of the support frame, the pair of angled guides positioned to guide the hopper into the support frame with the pair of angled guides each being lower toward a first end of the support frame and higher toward a second end of the support frame so that the ice cube hopper slides into the support frame toward a top of the support frame near the second end.
In another aspect, an ice bagging assembly may comprise a support frame, an ice bag cassette coupled to the support frame and configured to store a plurality of empty ice bags each with a first ply and a second ply defining an inside of each ice bag between the first and second plys, a bag selector coupled to the support frame and comprising a pair of opposed grasping elements configured to grasp the first ply of a first empty ice bag from the plurality of empty ice bags, wherein the bag selector is configured to move the first empty ice bag from a first position within the ice bag cassette to a second position outside the cassette such that an open end of the first empty ice bag is positioned below an ice chute, the ice chute configured to drop a plurality of ice cubes into the first open ice bag, an ice bag support below an end of the ice chute and positioned to support the ice bag as the plurality of ice cubes drop into the ice bag, and a sealing mechanism configured to seal an open end of the ice bag.
Particular implementations may include one or more of the following: The assembly may further comprise an ice bag merchandiser in mechanical cooperation with the ice bagging assembly, the ice bag merchandiser configured to receive a plurality of filled, sealed ice bags from the ice bagging assembly and maintain the ice within the filled ice bags in a frozen state. The horizontal cassette may be slidably and tiltably coupled to the support frame for replacement of the plurality of empty ice bags. The at least one pair of opposed grasping elements may comprise at least one wheel configured to rotate about an axis. The at least one pair of opposed grasping elements may comprise at least two opposed wheels, each configured to rotate about its respective axis in a direction opposite the other opposed wheel. The at least one pair of opposed grasping elements comprises at least two pairs of opposed grasping elements, each pair grasping a different one of the first and second plys. The at least two pairs of opposing grasping elements may each comprise at least one wheel configured to rotate about an axis. The at least at least one pair of grasping elements may be configured to move away from the second ply of the ice bag after grasping the first ply of the ice bag to open the ice bag. The first position may be a horizontal position and the second position may be a vertical position.
In another aspect, a method of selecting and filling each of a plurality of empty ice bags from a horizontal ice bag cassette may comprise: moving a bag selector to a first bag selector position above a horizontal ice bag cassette, grasping a first ply of one of the plurality of empty ice bags in a horizontal position in the horizontal ice bag cassette, restraining a second ply of the empty ice bag, increasing an open dimension of the open end of the empty ice bag, moving the bag selector away from the horizontal ice bag cassette after grasping the first ply of the empty ice bag, the bag selector moving to position an open end of the empty ice bag facing upward below an ice bag chute, dropping a plurality of ice cubes from the ice chute into the empty ice bag, and sealing the open end of the empty ice bag after dropping the plurality of ice cubes into the empty ice bag.
Particular implementations may include one or more of the following: Grasping a first ply may comprise moving at least one pair of grasping elements into contact with the first ply of the empty ice bag and rotating at least one grasping element of the at least one pair with respect to the other grasping element of the at least one pair to grasp the first ply. Rotating at least one grasping element may comprise rotating both grasping elements of the at least one pair of grasping elements in opposite directions to grasp the first ply. Restraining a second ply of the empty ice bag may comprise passing one or more suspension elements through the second ply of the empty ice bag in the horizontal position. The method may further comprise measuring a quantity of ice in the ice cube hopper by sensing the weight of the ice cube hopper through a sensor interposed between the ice cube hopper and a support frame for the ice cube hopper. The method may further comprise measuring a quantity of ice dropped into the empty ice bag by sensing the weight of the ice cube hopper through a sensor interposed between the ice cube hopper and a support frame for the ice cube hopper.
In still yet another aspect, a method of selecting and filling each of a plurality of empty ice bags may comprise: Moving a bag selector to a first position adjacent to an ice bag cassette, grasping a first ply of one of the plurality of empty ice bags in the ice bag cassette by moving at least one pair of grasping elements into contact with the first ply of the empty ice bag and rotating at least one grasping element of the at least one pair with respect to the other grasping element of the at least one pair to grasp the first ply, restraining a second ply of the empty ice bag, increasing an open dimension of the open end of the empty ice bag, moving the bag selector away from the ice bag cassette after grasping the first ply of the empty ice bag, the bag selector moving to position an open end of the empty ice bag facing upward below an ice bag chute, dropping a plurality of ice cubes from the ice chute into the empty ice bag, and sealing the open end of the empty ice bag after dropping the plurality of ice cubes into the empty ice bag.
Particular implementations may comprise one or more of the following: Rotating at least one grasping element may comprise rotating both grasping elements of the at least one pair of grasping elements in opposite directions to grasp the first ply. Restraining a second ply of the empty ice bag may comprise passing one or more suspension elements through the second ply of the empty ice bag in the horizontal position.
The foregoing and other aspects, features, and advantages will be apparent to those having ordinary skill in the art from the DESCRIPTION and DRAWINGS, and from the CLAIMS.
An ice bagging assembly and associated methods of use will hereinafter be described in conjunction with the appended drawings, where like designations denote like elements, and:
This disclosure, its aspects and implementations, are not limited to the specific components or assembly procedures disclosed herein. Many additional components and assembly procedures known in the art consistent with the intended operation of an ice bagging assembly and/or assembly procedures for an ice bagging assembly will become apparent from this disclosure. Accordingly, for example, although particular support frames, horizontal ice bag cassettes, bag selectors, plurality of ice bags, first bags, ice chutes, ice bag supports, sealing mechanisms, open ends, ice bag merchandisers, ice cube hoppers, load sensors, angled guides, ice bag cassettes, first plys, second plys, insides of ice bags, opposed grasping elements, first positions, second positions, wheels, horizontal positions, vertical positions, open dimensions, suspension elements, and implementing components are disclosed, such may comprise any shape, size, style, type, model, version, measurement, concentration, material, quantity, and/or the like as is known in the art for such ice bagging assemblies, consistent with the intended operation of an ice bagging assembly.
There are a variety of ice bagging assembly implementations disclosed herein.
In some particular implementations, such as that shown with respect to
As best illustrated in
A bag selector 10 operationally coupled to the support frame 4 is configured to select one or more empty ice bags from the plurality of empty ice bags 8. As illustrated by
In any event, as shown specifically in
In some particular implementations, at least one load sensor 33 may be interposed between the ice cube hopper 24 and the support frame 4 at one or both ends of the ice cube hopper 24. A load sensor 33 (also called a load cell) may be used in conjunction with an ice bagging assembly and/or a hopper 24 in various ways and for various purposes such as, by way of non-limiting example, to assist in determining when an ice cube hopper 24 and/or one or more of the plurality of empty ice bags 8 is full of ice and/or still empty. Specifically, by measuring the amount of load on the load cell 33 when an ice cube hopper 24 is full (thereby establishing a “full-load” measurement), an ice cube maker 52 can be programmed to begin ice production when the load on the load cell 33 corresponds to a less than full load (and/or to stop ice production when the load cell indicates a full ice hopper 24). Similarly, the weight of ice cubes introduced into an ice bag can be determined by measuring a decreasing load on the load cell 33, such that ice cubes are no longer introduced into an ice bag when a load on the load cell 33 has decreased to a pre-determined range. It will be understood that the quantity of ice to be placed in a hopper and/or an ice bag may be measured in other ways such as, by way of non-limiting example, weighing an ice bag and/or using a camera, laser-level, or other optical device to measure the amount of ice in the bag. For example, as illustrated in
Referring specifically to
An ice bag merchandiser 22 (
Referring specifically to
In those particular implementations comprising at least one pair of opposed grasping elements 36, the pair of grasping elements 36 may include at least one first wheel 40 configured to rotate about an axis (the other element of the pair of grasping elements 36 may be movable or stationary, depending upon the particular implementation). In some particular implementations, the at least one pair of grasping elements 36 may include at least two opposed wheels (e.g., at least one first wheel 40 and at least one second wheel 42, as shown in
In yet other particular implementations, the at least one pair of opposed grasping elements 36 may comprise at least two pairs of opposed grasping elements 36, with each pair grasping a different ply of the first ply 30 and the second ply 32 of a first empty ice bag 12. In such particular implementations, the at least one pair of opposed grasping elements 36 each comprise at least one first wheel 40 configured to rotate about an axis. In any event, at least one pair of opposed grasping elements 36 is configured to move away from the second ply 32 of an empty ice bag 12 after grasping the first ply 30, such that the open end 20 of the empty ice bag 12 opens (it will be understood that the second ply 32 may be restrained by a second pair of opposed grasping elements 36, or in another way, such as via one or more suspension elements 50). It will be understood that one or more of the wheels 40 and 42 (and or other portions defining a pair of opposed grasping elements 36) may be formed with, or from, materials having a high co-efficient of friction such as, by way of non-limiting example, textured plastic or metal, or textured or untextured rubber, silicone, or knurled stainless steel. In addition, while the wheels shown and described herein are shown as being round, it will be understand that, in some particular implementations, one or more wheels 40 or 42 may comprise a perimeter or other shape other than round.
Referring to
Depending upon the particular implementation being used, a method of selecting and filling a plurality of empty ice bags 8 from a horizontal ice bag cassette 6 may comprise moving at least one pair of grasping elements 36 into contact with the first ply 30 of the empty ice bag 12 and rotating at least one grasping element (of the at least one pair of grasping elements 36) with respect to the other grasping element of the at least one pair, in order to grasp the first ply 30. In some particular implementations, both grasping elements of the at least one pair of grasping elements 36 may be rotated in opposite directions to grasp the first ply 30.
While some particular implementation of bag selectors 10 may comprise at least two pairs of opposed grasping elements 36, with each pair grasping a different one of the first and second plys, other particular implementations of a bag selector 10 may include one or more suspension elements 50 opposed to at least one pair of opposed grasping elements 36. In those particular implementations of a bag selector 10 having one or more suspension elements 50 opposed to at least one pair of opposed grasping elements 36, a second ply 32 of the empty ice bag 12 may be restrained by passing one or more suspension elements 50 through the second ply 32 of the empty ice bag 12 in the horizontal position. It will be understood that the second ply 32 may include one or more holes or perforations to assist in the passage therethrough of one or more suspension elements 50.
A method of selecting and filling a plurality of empty ice bags 8 from a horizontal ice bag cassette 6 may further include measuring a quantity of ice dropped into the empty ice bag 12 by sensing the weight of the ice cube hopper 24 through a sensor (such as a load sensor) interposed between the ice cube hopper 24 and a support frame 4 for the ice cube hopper, or by other methods described more fully above.
In those particular implementations of a bag selector 10 having a ice bag cassette 6 that is not horizontally-oriented, a method of selecting and filling a plurality of empty ice bags 8 may comprise moving a bag selector 10 from a rest position 43 to a first bag selector position 45 adjacent to an ice bag cassette 6 by moving at least one pair of opposed grasping elements 36 into contact with the first ply 30 of the empty ice bag 12 and rotating at least one grasping element of the at least one pair of opposed grasping elements 36 with respect to the other grasping element of the at least one pair of opposed grasping elements 36 in order to grasp the first ply 30. As with those particular implementations having a horizontally-oriented ice bag cassette, the second ply 32 of the empty ice bag 12 may be restrained such that an open dimension 48 of the open end 20 of the empty ice bag 12 is increased as the one or more opposed grasping elements 36 of the bag selector 10 (that have grasped the first ply 30) move away from the restrained second ply 32. The bag selector 10 is further configured to move away from the horizontal ice bag cassette 6 after grasping the first ply 30 of the empty ice bag 12, such that the bag selector 10 positions the open end 20 of the empty ice bag 12 facing upwardly below an ice chute 14. The method further includes dropping a plurality of ice cubes from the ice chute 14 into the empty ice bag 12, and then sealing the open end 20 of the empty ice bag 12 after dropping the ice cubes into the bag.
Depending upon the particular implementation being used, a method of selecting and filling a plurality of empty ice bags 8 may comprise rotating both grasping elements of the at least one pair of grasping elements 36 in opposite directions to grasp the first ply 30. One or more suspension elements 50 opposed to at least one pair of opposed grasping elements 36 may be passed through the second ply 32 of the empty ice bag 12 such that the second ply 32 is restrained.
Turning now to
It will be understood by those of ordinary skill in the art that the concepts of providing a plurality of sealed ice bags to consumers, as disclosed herein, is not limited to the specific implementations shown and described herein. For example, it is specifically contemplated that the components included in any particular implementation of an ice bagging assembly may be formed of many different types of materials and/or combinations of materials that can readily be formed into shaped objects and that are consistent with the intended operation of an ice bagging assembly. For example, it is specifically contemplated that the components included in a particular implementation of an ice bagging assembly may be formed of any of many different types of materials or combinations that can readily be formed into shaped objects and that are consistent with the intended operation of an ice bagging assembly. For example, the components may be formed of: metals and/or other like materials; alloys and/or other like materials; polymers and/or other like materials; plastics, and/or other like materials; composites and/or other like materials; rubbers (synthetic and/or natural) and/or other like materials; and/or any combination of the foregoing.
Furthermore, the particular support frames, horizontal ice bag cassettes, bag selectors, plurality of ice bags, first bags, ice chutes, ice bag supports, sealing mechanisms, open ends, ice bag merchandisers, ice cube hoppers, load sensors, angled guides, ice bag cassettes, first plys, second plys, insides of ice bags, opposed grasping elements, first positions, second positions, wheels, horizontal positions, vertical positions, open dimensions, suspension elements, along with any other components forming a particular implementation of an ice bagging assembly, may be manufactured separately and then assembled together, or any or all of the components may be manufactured simultaneously and integrally joined with one another. Manufacture of these components separately or simultaneously may involve extrusion, pultrusion, vacuum forming, injection molding, blow molding, resin transfer molding, casting, forging, cold rolling, milling, drilling, reaming, turning, grinding, stamping, cutting, bending, welding, soldering, hardening, riveting, punching, plating, and/or the like. If any of the components are manufactured separately, they may then be coupled or removably coupled with one another in any manner, such as with adhesive, a weld, a fastener, any combination thereof, and/or the like for example, depending on, among other considerations, the particular material(s) forming the components.
It will be understood that particular implementations of ice bagging assemblies are not limited to the specific components disclosed herein, as virtually any components consistent with the intended operation of a method and/or system implementation for an ice bagging assembly may be utilized. Accordingly, for example, although particular support frames, horizontal ice bag cassettes, bag selectors, plurality of ice bags, first bags, ice chutes, ice bag supports, sealing mechanisms, open ends, ice bag merchandisers, ice cube hoppers, load sensors, angled guides, ice bag cassettes, first plys, second plys, insides of ice bags, opposed grasping elements, first positions, second positions, wheels, horizontal positions, vertical positions, open dimensions, suspension elements, and other components may be disclosed, such components may comprise any shape, size, style, type, model, version, class, grade, measurement, concentration, material, weight, quantity, and/or the like, consistent with the intended operation of a method and/or system implementation for an ice bagging assembly, may be used.
In places where the description above refers to particular implementations of an ice bagging assembly, it should be readily apparent that a number of modifications may be made without departing from the spirit thereof and that these implementations may be applied to other ice bagging assemblies. The accompanying claims are intended to cover such modifications as would fall within the true spirit and scope of the disclosure set forth in this document. The presently disclosed implementations are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the disclosure being indicated by the appended claims rather than the foregoing description. All changes that come within the meaning of and range of equivalency of the claims are intended to be embraced therein.
This Application claims the benefit of the filing date of U.S. Provisional Patent Application 61/168,312 to Shaker, et al., entitled “Ice Bagging Apparatus,” which was filed on Apr. 10, 2009, the disclosure of which is hereby incorporated entirely herein by reference.
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