Liquid purification or separation – With alarm – indicator – register – recorder – signal or... – Responsive to fluid flow
Reexamination Certificate
2001-08-06
2002-08-13
Drodge, Joseph W. (Department: 1723)
Liquid purification or separation
With alarm, indicator, register, recorder, signal or...
Responsive to fluid flow
C210S094000, C210S109000, C222S023000, C222S189060
Reexamination Certificate
active
06432300
ABSTRACT:
FIELD OF THE INVENTION
The present invention generally relates to water purification systems and methods and, more specifically, to control systems used to sense and control a volumetric amount of water dispensed from the system.
BACKGROUND OF THE INVENTION
Water purification systems are used to provide high quality reagent grade water for various applications, including the field of scientific testing and analysis. Many of these applications require that the total organic carbon content of the water be on the order of 10 parts per billion or less ASTM. Type I water is the highest purity and is used for high performance liquid chromography, atomic absorption spectrometry, tissue culture, etc. Type II water is less pure and may be used for hematological, serological, and microbiological procedures. Type III water is suitable for general laboratory qualitative analyses, such as urinalysis, parasitology and histological procedures. Two prior systems for purifying water are disclosed in U.S. Pat. Nos. 5,397,468 and 5,399,263, each assigned to the assignee of the present invention. The disclosure of each of these patents is hereby incorporated by reference herein.
Purified water dispensing systems that currently provide automatic controlled dispensing of water do so using a timed dispense technique. This is accomplished by electronically controlling a solenoid valve and holding the solenoid valve open for a user-programmed time period. The user sets this time based on the amount of water they wish to dispense from the system. The user determines a relationship between dispensing time and flow rate for their specific system and operating conditions. Another method of controlling the dispensed amount of purified water involves manually opening a valve with the system pump shut off. Actuation of a switch in the valve initiates the pump when the valve is open. The pump remains energized for a time programmed by the user. When the time has expired, the pump is turned off by the control system. The manual valve remains open until the user returns to the system to close this valve. One significant drawback to this method is that the manual valve may remain open for some time until the user returns to shut it off. The main reason for using this method is to provide a manner of dispensing water into a larger vessel without holding a remote operating valve open for a long period of time and without running the water out of the vessel. Another drawback to both of these prior methods relates to the accuracy of the volume dispensed when relying on a user-defined relationship between dispensing time and dispensed volume. If the time value entered by the user is too long, the vessel being filled may run over. Generally, if the time value is incorrect by being either too long or too short, the user must manually correct the dispensed amount of water by removing water from the vessel or manually filling the vessel to the required amount. This, of course, defeats the purpose of having an automatic dispense control. The relationship between dispensed volume and dispensing time will also vary for any given system, depending on the pressure at the inlet of the system, the voltage on any pump associated with the system, the condition of the filters and membranes, among other factors.
In light of these and other problems in the art, it would be desirable to provide a water purification system having an accurate and automatic manner of sensing and, preferably, controlling the volume of water discharged from the system.
SUMMARY OF THE INVENTION
The present invention, in one aspect, provides a water purification system for purifying water flowing through a water flow path, and having a sensing device coupled with an electronic control for accurately indicating the volume of water dispensed from an outlet of the system. More specifically, the system includes a water purification device having an inlet and an outlet in the water flow path and at least one interior volume communicating with the inlet and outlet. A purification medium is positioned within the interior volume of the water purification device. The sensing device operates to generate a signal that is used to determine a volume of water dispensed from the outlet. The electronic control is coupled with the sensing device and includes an output responsive to the signal generated by the sensing device for indicating the volume of water dispensed from the outlet. The sensing device may comprise a flow sensor or, for example, a timer. The flow sensor may be coupled upstream of the inlet or downstream of the inlet, or at any other suitable location in the water flow path. The upstream position is preferred so that any contaminates from the sensor will be filtered out or purified by the purification device. If the sensing device is a timer, the timer is associated with a look-up table in the electronic control having time values usable to determine an amount of time for dispensing a desired volume of purified water from the outlet. Alternatively, the control may include an algorithm which is used in conjunction with the timer for dispensing the desired volume of purified water from the outlet. The control may further include an alerting device configured to alert the user when the desired volume of purified water has been dispensed from the outlet.
In the preferred embodiment, the control system includes an input device configured to allow a user to input a desired volume of purified water to be dispensed from the outlet. A flow regulation device is coupled with the control system and operative to stop the discharge of purified water at the outlet upon reaching the desired volume of purified water.
Various objectives, advantages and features of the invention will become more readily apparent to those of ordinary skill in the art upon review of the following detailed description of the preferred embodiments, taken in conjunction with the accompanying drawings.
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European Search Report, dated Jun. 5, 2001.
Chomka Chester E.
Larkner Thomas J.
Leppert Kerry W.
Peake Steven C.
Tilp Joseph F.
Barnstead Thermolyn Corporation
Drodge Joseph W.
Wood Herron & Evans LLP
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