This invention relates generally to container spouts and, in particular, to a reusable system adapted for attachment to bags and other containers for granular and other flowable materials.
There are various resealing devices on the market today for liquids, but in the case of bags containing perishable foods such as cereal, rice, beans, seeds, pet food, as well as non-edible materials such as fertilizer, dog/cat litter, and so forth, the options are severely limited. When containers for such materials are opened in the traditional manner—usually cutting or ripping open the top—the problems associated with resealing become evident.
A few devices exist, such as clothes pegs and clamps, and in the case of plastic bags there exist portable heat-sealers and also bag ‘neck’ sealing devices. However, these latter devices technically reseal the bag permanently and the former devices do not guarantee an airtight seal. Air-tightness becomes important when considering the condition of the material inside. Organic material such as pet-food begins to lose its nutritional value when exposed to air, including the issue of fungus development.
Food may be decanted into containers but in the case of plastic, unless the plastic is FDA approved, issues exist wherein inferior plastics leech into the food. Even with FDA approved plastics there is a need to thoroughly wash the container between refilling as decaying food adheres in microscopic form to the sides of the container, which may accelerate the degradation of the materials. Metal bins may not be any better, as some may contain heavy metals such as lead which can lead to heavy metal poisoning.
Research from pet-food companies and elsewhere shows that the original container (i.e., the case, bag or sack as purchased) remains the most effective place to leave pet food. This is probably the case with a number of other organic and possibly non-organic materials that can be decanted through the device.
Despite existing closure mechanisms, however, there remains a lack of a reusable device that can open and reseal a container in the least intrusive way. Furthermore, there is a lack of devices with the ability to make an airtight and in some cases watertight seal, so that the contents of the container retain their ‘freshness’ for the longest period of time.
This invention improves upon the existing art by providing a pour spout system that may be attached to many different container types to dispense many different substances, including course and fine granular materials and liquids. The system may be attached in virtually any convenient location on bags and other flexible packaging, as well as semi-rigid or rigid containers depending upon wall material, thickness or other factors. In all embodiments, the pour spout system may be removed and reused.
A pour spout system constructed in accordance with the invention includes a port component having a proximal tubular end, a distal end with a flange, and a through bore. The proximal tubular end and bore may be cylindrical, and the flange may be circular or cylindrical as well. The flange of the port component includes a proximal surface that is larger than the diameter of the proximal tubular end of the port component. The flange further includes a hole-cutting structure adapted to pierce the wall of a container, with a cutting edge adapted to form a hole in the container when the port component is rotated by a user after piercing. The flange may include a gap with a ramp through which container material advances as the port component is rotated until the flange is fully within the container. The cutting edge may be integrally formed with the port component or may form part of a separate blade.
Following the formation of the hole in the container, the flange is within the container, and the hole cut in the container is aligned with the through bore. The proximal end of the port component is configured to receive a nut that traps the wall of the container between the nut and the flange when tightened by a user, and a cap is provided to seal off the through bore. In a preferred embodiment, the proximal tubular end of the port component, the nut, and the cap are all threaded, though bayonet, magnetic and other coupling mechanisms may be used.
The cap may include a proximal end with a user-operated aperture through which the contents of the container are poured. The aperture may be adjustable, from an open condition to a closed, sealed condition, and may include a pouring trough in communication with the aperture. The proximal end of the cap, with or without that aperture, may include an inner surface with an axial protrusion that pierces the container to assist with centering the cut in the container. The system may further include one or more compressible, resilient seals, and the cap may be sized or marked for use as a measuring cup.
A method of attaching a pour spout to a container having a wall with inner and outer surfaces, comprising the steps of:
choosing a location on the container to attach a pour spout;
providing the pour spout system of claim 1;
piercing the container with the hole-cutting structure of the port component at the chosen location;
rotating the port component until the flange of the port component faces the inner surface of the container wall;
installing the nut onto the port component so that the container wall is trapped between the nut and the flange of the port component; and
installing the nut onto the port component to seal off the pour spout.
The method may further include the steps of removing the cap, nut and port component for reuse.
Now making reference to the accompanying drawings,
The invention comprises three primary components; namely, a port component 102, a nut 104, and a cap 106. Some embodiments may include additional components, but all embodiments at least include components 102, 104, 106. Components 102, 104, 106 may be constructed of any durable, rigid or semi-rigid materials, though in the preferred embodiments all are made from injected molded plastic such as polypropylene, polyethylene, polystyrene, nylon, vinyl, or the like. Food-grade materials are preferred for food-contact applications. The components may be any color.
Port component 102 includes a proximal, tubular end having an inside diameter (I.D.) 110, an outside diameter (O.D.) 108, and threads 112. The invention may cover a range of diameters depending upon the material(s) to be dispensed. The invention is not limited to solid materials, and may be used with liquids, particularly if appropriate seals are used (i.e., O-rings). For example, I.D.s of less than an inch are possible for readily flowable or fine-grained materials, whereas, for larger granular solids, the I.D. may be in the range of 3″-6″. For most applications, the I.D. is in the range of 1″-3″, more preferably about 2-2.5″. The 0.D would of course vary with the I.D. to maintain a reasonable wall thickness “W” and ease of fabrication.
The port component 102 further includes an integrally molded flange 114 with any appropriate thickness. The flange is preferably generally round, with a diameter greater than O.D. 108, and is more closely matched to the diameter of nut 104. In the preferred embodiments, the flange 114 includes a proximal surface with a flat land 113 to better trap container material as explained with reference to
The flange of the port component 102 further includes a distally extending structure 116 with a cutting edge 117. As explained with reference to installation steps described herein, this structure is used to penetrate the container and form a hole in the wall of the container as the flange component 102 is rotated. As such, the structure 116 preferably includes a pointed distal end 118 to penetrate the container wall to initiate the cutting process.
The cutting edge (and penetrating end) may be integrally formed with the port component, particularly if fabricated from a hard material such as polycarbonate. In the preferred embodiments, however, at least the cutting edge is made of a different material such as stainless steel or other metal and added to the port component as insert-molded, i.e., molded-over in injection molding or casting, or with one or more rivet fasteners or the like, or with melted posts, etc. As a further alternative, at least the cutting edge may be removable and replaceable using one or more threaded fasteners, for example.
Both the nut 104 and cap 106 preferably have threads that match the threads of the port component 102. In the preferred embodiment all threads are right-handed. The nut may be of any thickness to maintain desired rigidity, and one or both of the nut and cap may include outer surfaces with flutes 120, 122 or other structures to enhance gripping. As an alternative to the cap making a threaded connection, other closure mechanisms may be used such as bayonet fittings or the like. Further, magnets can be used for holding the cap onto port (with no thread or bayonet) as attracting pairs or with ferric material on one side and magnet opposite. The degree of hold can be dictated by magnet field strength and quantity used. Rotating to release and pull off a cap similar to the bayonet function would be a desirable yet simple functional alternative
The interior of the cap may also be of a predetermined size and/or include markings enabling the cap to be used as a measuring cup. For example, the cap may hold a half cup (or other amount) of material when fully filled, or markings within the cap may show volume (or approximate weight).
The invention may be installed in any convenient location on a bag or other container. Once a location in selected, a user pierces the container with the cutter structure on the distal end of the port component and turns the port component until a hole is cut into the container material. The port component is preferably turned in clockwise direction. Once the hole is cut, the cutout material may be removed from the port component. In the event that a portion of the cutout remains intact or falls into the container, the invention will operate successfully nevertheless.
Different devices and techniques may be used to rotate the port component and center the cut that will now be described. To rotate the port component, a user may simply grasp the threaded end of the component and rotate it. As a first alternative, the invention may include the multi-part thumb grip shown in
Regardless of the embodiment, the user first determines where on the container the reusable spout should be installed.
Making reference to
Having located the center of installation, the user would push the piercing/cut guide centering pin integral to either the cap or the aperture plate version through the bag/container. The entire assembly would then be rotated clockwise so the piercing point 616 in front of the blade 618 pierces and cut the material during rotation. The ramp 612 behind the piercing point 616 guides the container material up to the blade for cutting. The piercing pin 608 acts as the center for the “compass-action” cutting.
The process continues, pushing lightly while rotating clockwise until the blade cuts a complete circle from the bag/container and the flange 602 is entirely inside the container and bag/container material is sandwiched between the flange 602 and nut 604. The nut 604 is then tightened onto the bag/container material, enabling sealing and mechanical securement, The cap is then rotated counterclockwise to remove it, and the circular cutout of the bag/container will be stuck onto the piercing pin by way of a) the tapered shaft and or b) the barbed male or female ring or rings 609 that act as mechanical grips to hold the bag cutout until it is discarded. The cap may then be reinstalled and tightened securely to seal the container assembly. If the adjustable aperture is used it would be closed to seal the port.
When material is ready to be dispensed from the bag/container, the cap is removed (or the cap is loosened and the aperture plates are adjusted to the desired size and pour). The spout is closed by reinstalling the cap or closing aperture and tightening the cap. If the user wishes to expel air inside the bag, the cap or aperture plates may be left open and the bag/container may be squeezed or rolled, etc. to remove excess air, then resealed to keep contents fresher for pet food and other applications.
As a further option, the cap may incorporate a one-way valve (i.e., flap, bicuspid, tricuspid) such that air may be expelled without being sucked back in. If further air degradation mitigation is desired for particular applications, a vacuum supply may be connected to a port in the cap (not shown) to create vacuum pressure in the bag/container or positive pressure with a selective pressurized gas or liquid that can protect and or react with internal contents via the convenience of the spout system,
It should be apparent that a goal of the invention is to seal and reseal the bag/container as tightly as possible between uses.
As an alternative to sealing with O-rings, two opposing lobes on the nut may be used to facially seal and offer mechanical grip on the bag/container material pressed against the flat face of the flange. These lobes can either be over-molded rubber or rigid with the use of a rubber washer of sorts on the flat face flange. The inside or smallest diameter rib or lobe on the nut can ride and seal on the continuous surface 620. The seal between the cap and the flange end can be facial of the two flat surfaces coming together in the depth of the cap with a resilient rubber washer in the cap, alternatively, overmolded rubber in the cap or similar arrangements where rigid and soft materials make a seal depending on the degree of sealing or air-tightness desired.
To remove the spout system from a container for re-use, the installation sequences described above are essentially carried out in reverse order. That is, the cap is removed, the nut is removed, and the port component is pulled out of the container. In contrast to installation, the port component need not be “unscrewed” since, presumably the bag or other container is empty and need not be physically preserved.
The invention finds utility in a wide range of applications. Originally intended to seal a variety of flexible containers, if a hole is drilled or cut with saw or knife the invention may be of great value for a variety of rigid or semi-rigid containers. In some circumstances, the packaging informational hang tag for retail display or merchandising may be used as a hole template where it may be conveniently installed between the nut and port's flange. Candidate uses include at least the following:
Pet Foods,
Plastic pellets for injection molding (i.e., 50 pound bags),
Fertilizers,
Tile mortar, grout, concrete, etc.,
Flour,
Sugar,
Cereals and Grains,
Hops,
Pool chemicals,
Coffee beans ground or unground,
Liquids,
Others.