초록 ▼

A liquid pump mechanism in a cooler to create a fountain type dispenser from the cooler and a liquid pump mechanism for a container that includes a viscous liquid such as detergent and/or fabric softener. The liquid pump mechanism includes a top portion and a bottom portion. The liquid pump mechanis

A liquid pump mechanism in a cooler to create a fountain type dispenser from the cooler and a liquid pump mechanism for a container that includes a viscous liquid such as detergent and/or fabric softener. The liquid pump mechanism includes a top portion and a bottom portion. The liquid pump mechanism includes an electric pump that is designed to cause fluid to flow into the bottom portion when the electric pump is activated. The bottom portion is fluidly connected or interconnected to the top portion such that fluid that flows into the bottom portion is designed to flow out of the bottom portion and to the top portion.

대표청구항 ▼

1. A liquid pump mechanism configured to dispense a viscous liquid from a container, said liquid pump mechanism including a top portion and a bottom portion that is positioned along a longitudinal axis of said liquid pump mechanism, an electric pump, a pressure relief valve, a flow control valve in

1. A liquid pump mechanism configured to dispense a viscous liquid from a container, said liquid pump mechanism including a top portion and a bottom portion that is positioned along a longitudinal axis of said liquid pump mechanism, an electric pump, a pressure relief valve, a flow control valve in a dispenser head, and a power supply configured to power said electric pump; said electric pump configured to cause air to flow into the container when said liquid pump mechanism is activated and is connected to the container, said air flow into said container causing an increase in pressure in the container to cause liquid in the container to flow into an opening in said bottom portion and to said top portion when said electric pump is activated, said bottom portion fluidly connected or interconnected to said top portion, said top portion including a dispenser activator and the dispenser head, said dispenser activator configured to activate and deactivate said electric pump, said dispenser head configured to enable fluid that flows to said top portion to exit said top portion through a dispenser opening in said dispenser head, said pressure relief valve configured to release pressure from the container when a predetermined pressure level exists in the container, said dispenser activator configured to cause both said control valve to move to an open position to allow fluid to pass through an opening in said dispenser and to cause said electric pump to be activated when said dispenser activator is in activated mode, and said dispenser activator configured to cause both said control valve to move to a closed position to inhibit fluid to pass through said opening in said dispenser head and to cause said electric pump to be deactivated when said dispenser activator is in a deactivated mode. 2. The liquid pump mechanism as defined in claim 1, wherein said top portion fully contains said electric pump and said top portion fully contains said power supply. 3. The liquid pump mechanism as defined in claim 1, wherein only a portion of said top portion includes a movable or removable power supply cover to enable a user to access said power supply located in said top portion, said power supply cover located on a back side of said top portion. 4. The liquid pump mechanism as defined in claim 3, wherein said movable or removable power supply cover including a plurality of ribs to facilitate in the movement of said movable or removable power supply cover. 5. The liquid pump mechanism as defined in claim 3, wherein said movable or removable power supply cover is movable in a direction that is parallel to said longitudinal axis of said liquid pump mechanism. 6. The liquid pump mechanism as defined in 1, wherein said dispenser activator includes a depressible button, said depressible button biased in a non-activation position, depression of said depressible button configured to cause said dispenser activator to be in said activated mode, non-depression of said depressible button configured to cause said dispenser activator to be in said deactivated mode. 7. The liquid pump mechanism as defined in claim 6, wherein said dispenser activator is positioned on a top side of said top portion. 8. The liquid pump mechanism as defined in claim 1, wherein said dispensing opening directs liquid downward from said dispensing opening that is generally parallel to said longitudinal axis of said liquid pump mechanism. 9. The liquid pump mechanism as defined in claim 1, wherein said flow control valve is connected to said dispenser activator, said flow control valve positioned in said disperser opening. 10. The liquid pump mechanism as defined in claim 1, wherein said top portion includes a container connector having an inner wall surface that includes a connector arrangement configured to connect to an opening of the container. 11. The liquid pump mechanism as defined in claim 10, including a connector adapter, a top portion of said connector adapter configured to be removably connectable to said connector of said container connector, a bottom portion of said connector adaptor configured to connect to the opening of the container, said top portion of the connector adapter having a different cross-section area than said bottom portion. 12. A method for converting a container into a container having an electric dispenser comprising: a. providing a liquid pump mechanism adapted to dispense a viscous liquid from the container, said liquid pump mechanism including a top portion and a bottom portion that is positioned along a longitudinal axis of said liquid pump mechanism, an electric pump, a pressure relief valve, a flow control valve in a dispenser head, and a power supply configured to power said electric pump; said electric pump configured to cause air to flow into the container when said liquid pump mechanism is connected to the container, said air flow into said container configured to cause an increase in pressure in the container to cause liquid in the container to flow into an opening in said bottom portion and to said top portion when said electric pump, said bottom portion fluidly connected or interconnected to said top portion, said top portion including a dispenser activator and the dispenser head, said dispenser activator configured to activate and deactivate said electric pump, said dispenser head configured to enable fluid that flows to said top portion to exit said top portion through a dispenser opening in said dispenser head, said pressure relief valve configured to release pressure from the container when a predetermined pressure level exists in the container, said dispenser activator configured to cause both said control valve to move to an open position to allow fluid to pass through an opening in said dispenser and to cause said electric pump to be activated when said dispenser activator is in activated mode, and said dispenser activator configured to cause both said control valve to move to a closed position to inhibit fluid to pass through said opening in said dispenser head and to cause said electric pump to be deactivated when said dispenser activator is in a deactivated mode;b. placing said bottom portion of said liquid pump mechanism into said container; and,c. actuating said dispenser activator to cause said dispenser activator to be in said activated mode so that said dispenser activator causes said control valve to move to said open position and to also cause power from said power supply to energizes said electric pump to cause air to flow into a top of the container to thereby cause a pressure increase in said container, which pressure increase causes fluid in the container to flow into said bottom portion through one or more openings in said bottom portion, to said top portion, and out through said dispenser head. 13. The method as defined in claim 12, wherein said dispenser activator includes a depressible button, said depressible button biased in said deactivated mode. 14. The liquid pump mechanism as defined in claim 12, wherein said flow control valve is connected to said dispenser activator, said flow control valve positioned in said disperser opening. 15. The method as defined in claim 12, wherein said top portion includes a container connector having an inner wall surface that includes a connector arrangement configured to connect to an opening of the container. 16. The method as defined in claim 15, including a connector adapter, a top portion of said connector adapter configured to be removably connectable to said connector of said container connector, a bottom portion of said connector adaptor configured to connect to the opening of the container, said top portion of the connector adapter having a different cross-section area than said bottom portion. 17. The liquid pump mechanism as defined in claim 1, wherein said bottom portion of said disperser head includes an air supply opening that allows air to enter into said container from said pump when said pump is activated and said liquid pump mechanism is connected to the container, said pressure relief valve is in fluid communication with both said electric pump and said air supply opening and is positioned between said pump and said air supply opening. 18. The liquid pump mechanism as defined in claim 6, wherein said flow control valve is connected to said dispenser activator, said flow control valve positioned in said disperser opening. 19. The liquid pump mechanism as defined in claim 18, wherein said control valve is biased in a closed position to inhibit fluid passing through said opening in said dispenser head. 20. The liquid pump mechanism as defined in claim 1, wherein said top portion includes a fluid opening that allows the air to be inserted into the container above a liquid level in the container when said liquid pump mechanism is connected to the container, said fluid opening is in fluid communication with said electric pump. 21. The liquid pump mechanism as defined in claim 10, wherein said top portion includes a container connector having an inner wall surface that includes a connector arrangement configured to connect to an opening of the container. 22. The method as defined in claim 12, wherein said bottom portion of said disperser head includes an air supply opening that allows air to enter into said container from said pump when said pump is activated and said liquid pump mechanism is connected to the container, said pressure relief valve is in fluid communication with both said electric pump and said air supply opening and is positioned between said pump and said air supply opening. 23. The method as defined in claim 13, wherein said flow control valve is connected to said dispenser activator, said flow control valve positioned in said disperser opening. 24. The method as defined in claim 23, wherein said control valve is biased in a closed position to inhibit fluid passing through said opening in said dispenser head. 25. The method as defined in claim 12, wherein said top portion includes a fluid opening that allows the air to be inserted into the container above a liquid level in the container when said liquid pump mechanism is connected to the container, said fluid opening is in fluid communication with said electric pump. 26. The method as defined in claim 15, including a connector adapter, a top portion of said connector adapter configured to be removably connectable to said connector of said container connector, a bottom portion of said connector adaptor configured to connect to the opening of the container, said top portion having a different cross-section area than said bottom portion.