BACKGROUND
The Field of the Invention
This invention relates to liquid containment, dispensing, and more particularly, to novel systems and methods of draining the last dregs of liquid from the container.
Background Art
Portable liquid containers allow for the economical refreshment of guests in areas that were not built with expensive, inflexible liquid containers. These portable liquid containers allow for a large variety of both cold and hot drinks to be served, and increase capacity and flexibility for change in liquid need.
Spouts and Spigots are used to control the flow of the liquid out of the liquid container. Depending on the size of the spout or spigot determines the placement location on or in the liquid container. The majority of spouts and spigots are placed within 1½ inches of the bottom of the container. When sitting level on a table approximately 6 cups of liquid remain in a 5-gallon container below the drain opening for the spout or spigot.
SUMMARY OF THE INVENTION
In view of the foregoing, in accordance with the invention as embodied and broadly described herein, the liquid container tilting apparatus uses the laws of physics and potential energy stored in the folded resilient lever that forms the platform and base to tip the liquid container up and forward allowing gravity to pull the liquid inside to a level puddle or pool above the spout and spigot drain hole within the liquid container.
The combined weight of the container and the liquid stored inside is sufficient to overcome the potential energy stored in the folded lever and base. As the container is drained, the weight sitting on the lever decreases. At a point in time as the liquid is drained, the potential stored energy is sufficient to start lifting the lever and tilting the liquid container up and forward. The flow of the liquid out of the spout or spigot remains constant until the container is empty as defined as less than 1 cup of liquid.
The maximum (optimum) angle of the lever platform and the container is controlled by bolt anchors, lever range guide and the platform lever stop. The movement of the platform lever is gradual from the level position to approximately 30 degrees of tilting. The center of gravity for the container and the liquid inside remain to the rear of the tipping point of the container as the platform rises. In the case of a 5-gallon liquid container, all but 5-7 ounces of liquid can be drained and served from the liquid container.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a side view of one embodiment of a liquid container tilting apparatus including the base, guard rail, lever range stop, bolt anchors, platform lever, side stops, front stops, anti-skid buttons on the bottom of the base to keep the liquid container tilting apparatus from moving while in use. The lever platform is represented as if it was in the full down or level position.
FIG. 2 is a side view of one embodiment of a liquid container tilting apparatus including the base, guard rail, lever range stop, platform lever, side stops, front stops, anti-skid buttons on the bottom of the base to keep the liquid container tilting apparatus from moving while in use. The lever platform is represented as if it was in the full up position.
FIG. 3 is a side view of one embodiment of a system including the base, guard rail, lever range stop, bolt anchors, platform lever, side stops, front stops, anti-skid buttons on the bottom of the base to keep the liquid container tilting apparatus from moving while in use. The lever platform is represented as if it was in the full down or level position. The liquid container with spout or spigot is represented in the level or static position with the dregs of the liquid below the spout or spigot drain hole.
FIG. 4 is a side view of one embodiment of a system including the base, guard rail, lever range stop, platform lever, side stops, front stops, anti-skid buttons on the bottom of the base to keep the liquid container tilting apparatus from moving while in use. The lever platform is represented as if it was in the full up position. The liquid container with spout or spigot is represented in the tilted position with the dregs of the liquid pooling above the spout or spigot drain hole.
FIG. 5 is a flat plate top down view of the liquid container tilting apparatus after it is folded and assembled. Focusing on the top half of the liquid container tilting apparatus, it includes the platform lever, side stops, front stops, bolt anchors, and platform lever stops.
FIG. 6 is a rear-side elevation view including the base, platform lever, lever range stop, with travel limit opening, rear and side stabilizers, acute angle fold, opening used to attach the basket to the platform lever, hang hole, bolt anchors; nut, bolt, and washer lever stop bolt, basket with side arms, and front fences.
FIG. 7 represents a schematic block diagram of the procedural steps for using the liquid container tilting apparatus, whereby one embodiment of the system may be implemented and maintained.
FIG. 8, represents the liquid container tilting apparatus disassembled and stored in a 5-gallon liquid dispensing jug. The liquid container tilting apparatus includes the base, the lever range guide, travel limit opening, platform lever, side arms, front fence, anti-skid buttons, liquid container, spigot/spout drain opening, nut and washer on the platform lever stop bolt, hinge fold, positioning pegs, basket, supporting surface, liquid container lid. The platform is represented in the full up position.
FIG. 9 represents the liquid container tilting apparatus including the base, the lever range guide, travel limit opening, platform lever, side arms, front fence, anti-skid button, nut and washer on the platform lever stop bolt, storage hang hole w/nail, hinge fold, vertical supporting surface (post or wall). The platform is represented in the full down position.
FIG. 10, is a top down view of the basket identifying the basket base, fences, arms, alignment pegs, support structure, and opening used to attach the liquid container tilting apparatus lever platform and base.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
It will be readily understood that the components of the present invention, as generally described and illustrated in the drawings herein, could be made from a wide variety of different resilient materials, arranged and redesigned in a wide variety of different configurations. Thus, the following more detailed description of the embodiments of the system and method of the present invention, as represented in the drawings, is not intended to limit the scope of the invention, but is merely representative of the liquid container tilting apparatus and methods in accordance with the invention. The illustrated embodiments will be best understood by reference to the drawings, wherein like parts are designated by like numerals throughout.
Referring to FIG. 1, the liquid container tilting apparatus includes a base 1, lever range guide 2 with travel limit opening 3, platform lever 4, side stabilizers 14, anti-skid buttons 7, acute angle fold 13, bolt anchors 21, and the nut and washer on the platform lever stop bolt 11. The lever platform is represented as if it is in the full down or level position.
Referring to FIG. 2, the liquid container tilting apparatus includes a base 1, lever range guide 2 with travel limit opening 3, platform lever 4, side stabilizers 14, anti-skid buttons 7, acute angle fold 13, and the nut and washer on the platform lever stop bolt 11. The lever platform is represented as if it is in the full up or tilting position.
Referring to FIG. 3, the liquid container tilting apparatus includes the base 1, lever range stop 2 with travel limit opening 3, platform lever 4, side stabilizers 14, anti-skid buttons 7, acute angle fold 13, bolt anchors 21, and the nut and washer on the platform lever stop bolt 11. It includes the basket with side arms 5 and front fence 6, including the representation of a liquid container 9, with the top level of the liquid 8, depicted at or above the bottom of the spigot/spout and interior drain opening 10. The lever platform is represented as if it is in the full down or level position.
Referring to FIG. 4, is a side view of one embodiment of the liquid container tilting apparatus including the base 1, lever range stop 2 with travel limit opening 3, platform lever 4, side stabilizers 14, anti-skid buttons 7, acute angle fold 13, and the nut and washer on the platform lever stop bolt 11. It includes the basket with side arms 5 and front fence 6, including the representation of a liquid container 9, with the top level of the liquid 8, depicted at or above the bottom of the spigot/spout and interior drain opening 10. The lever platform is represented as if it is in the full up or tilting position.
Referring to FIG. 5, a top-down flat elevation view of the assembled liquid container tilting apparatus after it is folded and the basket is attached to the platform lever, including the base 1, platform lever 4, lever range stop 2, side stabilizers 14, acute angle fold 13, positioning pegs 15, opening used to attach the basket to the platform lever 20, bolt anchors 21, nut and washer on the platform lever stop bolt 11, basket 16 with side arms 5, front fence 6.
Referring to FIG. 6, a rear-side elevation view including the base 1, platform lever 4, lever range stop 2 with travel limit opening 3, rear and side stabilizers 14, acute angle fold 13, opening used to attach the basket to the platform lever 20, bolt anchors 21, hang hole 12, nut, bolt, and washer lever stop bolt 11, basket 16 with side arms 5, and front fence 6.
Referring to FIG. 7, a schematic block diagram of the procedural steps for using the liquid container tilting apparatus, whereby one embodiment of the system may be implemented and maintained.
Referring to FIG. 8, represents the liquid container tilting apparatus stored in a 5-gallon liquid dispensing container. The liquid container tilting apparatus includes the base 1, the lever range guide 2, travel limit opening 3, platform lever 4, side arms 5, front fences 6, anti-skid buttons 7, liquid container 9, nut and washer on the platform lever stop bolt 11, hinge fold 13, positioning pegs 15, supporting surface 17, liquid container lid 19. The platform is represented in the full down position.
Referring to FIG. 9, represents the liquid container tilting apparatus including the base 1, the lever range guide 2, travel limit opening 3, platform lever 4, side arms 5, front fences 6, nut and washer on the platform lever stop bolt 11, storage hang hole 12, w/nail 18, hinge fold 13, vertical supporting surface (post or wall) 17. The platform is represented in the full up position.
Referring to FIG. 10, is a top down view of the basket identifying the basket base 16, fences 6, arms 5, alignment pegs 15, support structure 17, and opening 20 used to attach the liquid container tilting apparatus lever platform and base.
Patent Grant
11524887
