Fixed-volumes of liquid are measured and dispensed from a container by empirically determining the liquid surface height and opening a dispensing valve for a time period that is calculated using a volume of liquid specified to be dispensed and the empirically-determined liquid surface height. The li
Fixed-volumes of liquid are measured and dispensed from a container by empirically determining the liquid surface height and opening a dispensing valve for a time period that is calculated using a volume of liquid specified to be dispensed and the empirically-determined liquid surface height. The liquid surface height in the container is determined empirically for initial and subsequent volumes of liquid that are dispensed. Dispensing accuracy is maintained whether the container is full or nearly empty.
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1. A pinch valve comprising: a valve surface comprising a heat sink; anda pinch bar having a first leg and a second leg substantially orthogonal to the first leg, the first leg having a length and an axis of rotation substantially parallel to the length of the first leg;wherein the pinch bar is mova
1. A pinch valve comprising: a valve surface comprising a heat sink; anda pinch bar having a first leg and a second leg substantially orthogonal to the first leg, the first leg having a length and an axis of rotation substantially parallel to the length of the first leg;wherein the pinch bar is movable between a first position and a second position by rotation of the pinch bar about the axis of rotation, wherein in the first position the pinch valve is configured to collapse a flexible tube between the second leg and the valve surface, and in the second position, the pinch valve is configured such that the flexible tube is free of the second leg. 2. The pinch valve of claim 1, wherein the heat sink comprises a u-shaped channel configured to receive the flexible tube. 3. The pinch valve of claim 1, further comprising a dispensing tube alignment block, the heat sink disposed within the dispensing tube alignment block. 4. The pinch valve of claim 1 wherein rotation of the pinch bar from the first position to the second position moves the second leg away from the valve surface. 5. The pinch valve of claim 4 wherein rotation of the pinch bar from the second position to the first position rotates the pinch bar at least partially across the heat sink. 6. The pinch valve of claim 1, wherein when the pinch bar is in the second position, the second leg is generally vertical. 7. The pinch valve of claim 6, wherein when the pinch bar is in the first position, the second leg is generally horizontal. 8. The pinch valve of claim 1, further comprising a handle substantially orthogonal to the first leg, wherein the handle is configured to receive a user actuation to manually move the second leg from the first position to the second position. 9. The pinch valve of claim 8, wherein the pinch valve releasably retains the second leg in the second position, once manually moved into the second position. 10. The pinch valve of claim 8, further comprising a solenoid operably connected to the first leg of the pinch bar at an end of the first leg opposite the handle, the solenoid capable of moving the pinch bar. 11. A liquid dispenser comprising: a refrigerated cabinet;a container configured to hold a liquid to be dispensed, the refrigerated cabinet configured to receive the container therein;a flexible tube extending from the container; anda pinch valve comprising: a heat sink configured to engage the flexible tube;a valve surface configured to engage the flexible tube; anda pinch bar having a first leg and a second leg substantially orthogonal to the first leg, the first leg having a length and an axis of rotation substantially parallel to the length of the first leg;wherein the pinch bar is movable between a first position and a second position by rotation of the pinch bar about the axis of rotation, wherein in the first position the pinch valve is configured to collapse the flexible tube between the second leg and the valve surface, and in the second position, the second leg is configured to be positioned free from obstruction of the flexible tube. 12. The liquid dispenser of claim 11, wherein when the pinch bar is in the first position, the pinch bar occludes the flexible tube and when the pinch bar is in the second position, the flexible tube is open. 13. The liquid dispenser of claim 11, wherein the heat sink comprises the valve surface. 14. The liquid dispenser of clam 11, wherein the heat sink comprises a U-shaped channel that receives the flexible tube. 15. The liquid dispenser of claim 11, wherein when the pinch bar is in the first position, the flexible tube is resiliently secured in engagement with the valve surface and when the pinch bar is in the second position, the flexible tube is removable from engagement with the valve surface. 16. The liquid dispenser of claim 15, wherein the pinch bar in the second position facilitates placement or replacement of the container and flexible tube in the liquid dispenser. 17. The liquid dispenser of claim 11, further comprising: at least one control switch, configured to be operable to receive a user selection of a requested volume to dispense;at least one load sensor operatively connected to the container, the load sensor producing a signal indicative of a weight impressed upon the load sensor;a computer operably connected to the at least one load sensor, the at least one control switch, and the pinch valve, the computer receives the signal indicative of the weight impressed upon the load sensor and the requested volume to dispense. 18. The liquid dispenser of claim 17, wherein the computer operates the pinch valve to dispense the requested volume to dispense based upon the signal indicative of the weight impressed upon the load sensor. 19. The liquid dispenser of claim 18, further comprising a solenoid operably connected to the first leg and the computer operates the solenoid to operate the pinch valve to dispense the requested volume to dispense.
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