1. Technical Field
The present disclosure relates to product dispensing and, more particularly, to a product dispensing system for dispensing a homogenous fluid-particulate mixture.
2. Background of Related Art
With respect to products containing a fluid-particulate mixture, it is often necessary to continuously agitate or mix such products prior to and during dispensing of the product into a packaging container to ensure the product mixture dispensed into the packaging container is homogenous. A typical product dispensing system for such purpose includes a hopper configured to retain the product mixture prior to dispensing, an agitator disposed within the hopper and configured to agitate and/or mix the product to help ensure homogeneity, and an outlet coupled between the hopper and a nozzle or other suitable dispenser for dispensing the product into the packaging container. However, although the agitator is sufficient to maintain the homogeneity of the mixture within the hopper during use, the outlet may collect sediment or particulate when the system is not in use, thus resulting in a non-homogenous mixture.
In accordance with embodiments of the present disclosure, a product dispensing system configured to dispense a product mixture is provided. The system includes a hopper, a housing coupled to the hopper and defining an outlet lumen in communication with the hopper, an exit port extending from the housing, a valve disposed within the outlet lumen, and a piston disposed within the outlet lumen. The valve is selectively transitionable between a closed position, wherein the exit port is closed off from the outlet lumen, and an open position, wherein communication between the outlet lumen and the exit port is established. The piston is disposed within the outlet lumen and is movable relative to the housing between a first use position, wherein the piston partially occupies the outlet lumen, and a storage position, wherein the piston fully occupies the outlet lumen. The piston is movable from the first use position to the storage position to urge any product mixture in the outlet lumen back into the hopper.
In embodiments, the system further includes an agitator disposed within the hopper and configured to facilitate mixing of a product mixture disposed within the hopper. The agitator, in embodiments, may include a plurality of blades disposed within the hopper and rotatable relative to the hopper.
In embodiments, the piston is movable between the first use position and the storage position only when the valve is disposed in the closed position.
In embodiments, the piston is further movable to a second use position wherein the piston occupies a smaller portion of the outlet lumen as compared to the first use position. More specifically, the piston is movable from the first use position to the second use position with the valve disposed in the closed position to draw the product mixture from the hopper into the outlet lumen. The piston is movable from the second use position back to the first use position with the valve disposed in the open position to urge the product mixture out of the exit port.
In embodiments, the valve is rotatable between the open and closed positions.
In embodiments, the piston is slidably and sealingly disposed within the outlet lumen of the housing.
In embodiments, the valve is configured such that, in the closed position, the valve seals off the exit opening.
Various embodiments of the present disclosure are described hereinbelow with references to the drawings, wherein:
Turning to
Agitator 120 is disposed within and coupled to hopper 110 for agitating and/or mixing the product to maintain homogeneity of the product mixture within hopper 110. More specifically, agitator 120 may include a plurality of blades 122 rotatable about common or different shafts and relative to hopper 110 to facilitate mixing of the product disposed within hopper 110. Agitator 120 may be oriented in any suitable fashion, e.g., depending upon the particular product to be dispensed from product dispensing system 100. Other suitable automatic agitators are also contemplated, as are manual agitators.
Housing 130 defines an outlet lumen 132 in communication with a bottom portion of hopper 110 and enables the product mixture to flow from hopper 110 to exit port 140. Exit port 140 is coupled to outlet lumen 132 of housing 130 and is configured to couple to a nozzle or other dispensing member (not shown) for dispensing the product mixture into a packaging container. As can be appreciated, housing 130 extends between exit port 140 and hopper 110 and serves to interconnect exit port 140 and the interior chamber of hopper 110. However, a portion of outlet lumen 132 of housing 130 extends beyond exit port 140, e.g., on the opposite side of exit port 140 as compared to hopper 110.
Valve 150 is operably coupled to housing 130 and is disposed within outlet lumen 132 of housing 130 between hopper 110 and exit port 140 for selectively permitting and inhibiting the product mixture to flow through outlet lumen 132, e.g., from hopper 110, through outlet lumen 132, and out exit port 140. Valve 150 is rotatable between a closed position, as shown in
Piston 160 is slidably and sealingly disposed within outlet lumen 132 of housing 130. Piston 160 is slidable through and relative to outlet lumen 132 between at least a first position (
The use and operation of product dispensing system 100 is now detailed with reference to
When it is desired to dispense the product mixture, initially, piston 160 is moved from the up position “U” to the down position “D,” as shown in
Once the product mixture has been drawn from hopper 110 into outlet lumen 132 via the partial withdrawal of piston 160 from outlet lumen 132, valve 150 is transitioned to the open position, as shown in
However, when the above-noted process is stopped for a period of time, even where agitator 120 continues to run, sedimentation or particulate may collect in outlet lumen 132. Accordingly, when product dispensing system 100 is shut down or idle for a period of time (which may ultimately depend on the particular product mixture used), piston 160 may be moved to the stop position “S,” as shown in
From the foregoing and with reference to the various figure drawings, those skilled in the art will appreciate that certain modifications can also be made to the present disclosure without departing from the scope of the same. While several embodiments of the disclosure have been shown in the drawings, it is not intended that the disclosure be limited thereto, as it is intended that the disclosure be as broad in scope as the art will allow and that the specification be read likewise. Therefore, the above description should not be construed as limiting, but merely as exemplifications of particular embodiments.
This application claims the benefit of and priority to U.S. Provisional Patent Application No. 61/857,540, filed on Jul. 23, 2013, the entire contents of which are hereby incorporated herein by reference.
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Number | Date | Country | |
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20150028060 A1 | Jan 2015 | US |
Number | Date | Country | |
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61857540 | Jul 2013 | US |