Chemical dispensing system
DCFirst Claim
1. A chemical dispensing system for dispensing a preselected quantity of liquid chemical drawn from one of a plurality of storage vessels and dispensing that quantity of liquid chemical to one of a plurality of receptacles using a single operating pump, the dispensing system comprising:
- (a) a remote controllable operating pump having a suction side and a discharge side;
(b) a suction conduit having an upstream end, a midsection and a downstream end, the downstream end being in fluid tight communication with the suction side of the operating pump;
(c) a plurality of inlet conduits, each inlet conduit being adapted to receive a quantity of liquid chemical from one of the plurality of storage vessels and to discharge such quantity of liquid chemical to the midsection of the suction conduit;
(d) a plurality of remote controllable inlet valves, one inlet valve being operatively disposed within each inlet conduit for controlling liquid flow therein;
(e) a discharge conduit having an upstream end, a midsection and a downstream end, the upstream end being in fluid tight communication with the discharge side of the operating pump;
(f) a plurality of dispensing conduits, each dispensing conduit being adapted to receive a quantity of liquid chemical from the downstream end of the discharge conduit and to discharge such quantity of liquid chemical to one of the plurality of receptacles;
(g) a plurality of remote controllable dispensing valves, one dispensing valve being operatively disposed within each dispensing conduit for controlling liquid flow therein;
(h) a flow indicator operatively disposed within the upstream end of the discharge conduit for monitoring liquid flow therein, and generating a primary flow signal corresponding thereto;
(i) a liquid flush conduit having an upstream end and a downstream end, the upstream end being connected in fluid tight communication with a source of pressurized liquid and the downstream end being connected in fluid tight communication with the upstream end of the suction conduit;
(j) a remote controllable liquid flush valve operatively disposed within the liquid flush conduit for controlling liquid flow therein;
(k) a computerized controller programmed to (i) receive operating instructions regarding the transferring of a quantity of chemical from one of the storage vessels to one of the receptacles and to (ii) control the dispensing system in accordance with the operating instructions by operating the inlet valves, the operating pump, the dispensing valves and the liquid flush valve while receiving and using the primary flow signal as flow information feedback.
1 Assignment
Litigations
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Accused Products
Abstract
An automatic chemical dispensing system is provided wherein a preselected quantity of liquid chemical drawn from one of several storage vessels is dispensed to one of several different receptacles using a single operating pump. The system includes a single remote controllable operating pump, remote controllable inlet and discharge valves, a single flow indicator and a liquid flush system. The system is controlled by a computerized controller. Piping linking the storage vessels, the pump and the receiving vessels is configured so that the operating pump draws a requested chemical from the appropriate storage vessel and pumps that chemical into a discharge header located between the pump and the receiving vessel. As the operating pump pumps the chemical into the discharge header, flow through the header is noted on the single flow indicator. When the requested amount of chemical is noted by the controller to have flowed through the flow indicator, a liquid flush header is opened and the discharge header is flushed into the receiving vessel with a flushing liquid, such as water. In a preferred embodiment, a gas flush system is connected to the discharge header downstream of the flow controller for more rapid injection of chemicals. The system uses no dilution manifold or flow orifices. Chemical and flushing liquid are rapidly and accurately delivered in essentially "plug flow" form directly into the receiving vessel.
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Citations
20 Claims
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1. A chemical dispensing system for dispensing a preselected quantity of liquid chemical drawn from one of a plurality of storage vessels and dispensing that quantity of liquid chemical to one of a plurality of receptacles using a single operating pump, the dispensing system comprising:
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(a) a remote controllable operating pump having a suction side and a discharge side; (b) a suction conduit having an upstream end, a midsection and a downstream end, the downstream end being in fluid tight communication with the suction side of the operating pump; (c) a plurality of inlet conduits, each inlet conduit being adapted to receive a quantity of liquid chemical from one of the plurality of storage vessels and to discharge such quantity of liquid chemical to the midsection of the suction conduit; (d) a plurality of remote controllable inlet valves, one inlet valve being operatively disposed within each inlet conduit for controlling liquid flow therein; (e) a discharge conduit having an upstream end, a midsection and a downstream end, the upstream end being in fluid tight communication with the discharge side of the operating pump; (f) a plurality of dispensing conduits, each dispensing conduit being adapted to receive a quantity of liquid chemical from the downstream end of the discharge conduit and to discharge such quantity of liquid chemical to one of the plurality of receptacles; (g) a plurality of remote controllable dispensing valves, one dispensing valve being operatively disposed within each dispensing conduit for controlling liquid flow therein; (h) a flow indicator operatively disposed within the upstream end of the discharge conduit for monitoring liquid flow therein, and generating a primary flow signal corresponding thereto; (i) a liquid flush conduit having an upstream end and a downstream end, the upstream end being connected in fluid tight communication with a source of pressurized liquid and the downstream end being connected in fluid tight communication with the upstream end of the suction conduit; (j) a remote controllable liquid flush valve operatively disposed within the liquid flush conduit for controlling liquid flow therein; (k) a computerized controller programmed to (i) receive operating instructions regarding the transferring of a quantity of chemical from one of the storage vessels to one of the receptacles and to (ii) control the dispensing system in accordance with the operating instructions by operating the inlet valves, the operating pump, the dispensing valves and the liquid flush valve while receiving and using the primary flow signal as flow information feedback. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. A chemical dispensing system for dispensing a preselected quantity of liquid chemical drawn from one of a plurality of storage vessels and dispensing that quantity of liquid chemical to one of a plurality of receptacles using a single operating pump, the dispensing system comprising:
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(a) a remote controllable operating pump having a suction side and a discharge side; (b) a suction conduit having an upstream end, a midsection and a downstream end, the downstream end being in fluid tight communication with the suction side of the operating pump; (c) a plurality of inlet conduits, each inlet conduit being adapted to receive a quantity of liquid chemical from one of the plurality of storage vessels and discharge such quantity of liquid chemical to the midsection of the suction conduit; (d) a plurality of remote controllable inlet valves, one inlet valve being operatively disposed within each inlet conduit for controlling liquid flow therein; (e) a discharge conduit having an upstream end, a midsection and a downstream end, the upstream end being in fluid tight communication with the discharge side of the operating pump; (f) a plurality of dispensing conduits, each dispensing conduit being adapted to receive a quantity of liquid chemical from the downstream end of the discharge conduit and discharge such quantity of liquid chemical to one of the plurality of receptacles; (g) a plurality of remote controllable dispensing valves, one dispensing valve being operatively disposed within each dispensing conduit for controlling liquid flow therein; (h) a flow indicator operatively disposed within the upstream end of the discharge conduit for monitoring liquid flow therein, and generating a flow signal corresponding thereto; (i) a liquid flush conduit having an upstream end and a downstream end, the upstream end being connected in fluid tight communication with a source of pressurized liquid and the downstream end being connected in fluid tight communication with the upstream end of the suction conduit; (j) a remote controllable liquid flush valve operatively disposed within the liquid flush conduit for controlling liquid flow therein; (k) a computerized controller programmed to (i) receive operating instructions regarding the transferring of a quantity of chemical from one of the storage vessels to one of the receptacles and to (ii) control the dispensing system in accordance with the operating instructions by operating the inlet valves, the pump, the dispensing valves and the liquid flush valve while receiving and using the flow signal as flow information feedback; (l) a gas flush conduit having an upstream end and a downstream end, the upstream end being connected in fluid tight communication with a source of pressurized gas and the downstream end being connected in fluid tight communication with the midsection of the dispensing conduit at a connection location upstream of the dispensing conduits and downstream of the flow indicator; and (m) a remote controllable gas flush valve operatively disposed within the gas flush conduit for controlling gaseous flow therein. - View Dependent Claims (17)
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18. A chemical dispensing system for dispensing a preselected quantity of liquid chemical drawn from one of a plurality of storage vessels and dispensing that quantity of liquid chemical to one of a plurality of receptacles using a single operating pump, the dispensing system comprising:
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(a) a remote controllable primary pump having a suction side and a discharge side; (b) a suction conduit having an upstream end, a midsection and a downstream end, the downstream end being in fluid tight communication with the suction side of the pump; (c) a plurality of inlet conduits, each inlet conduit being adapted to receive a quantity of liquid chemical from one of the plurality of storage vessels and discharge such quantity of liquid chemical to the midsection of the suction conduit; (d) a plurality of remote controllable inlet valves, one inlet valve being operatively disposed within each inlet conduit for controlling liquid flow therein; (e) a discharge conduit having an upstream end, a midsection and a downstream end, the upstream end being in fluid tight communication with the discharge side of the pump; (f) a plurality of dispensing conduits, each dispensing conduit being adapted to receive a quantity of liquid chemical from the downstream end of the discharge conduit and discharge such quantity of liquid chemical to one of the plurality of receptacles; (g) a plurality of remote controllable dispensing valves, one dispensing valve being operatively disposed within each dispensing conduit for controlling liquid flow therein; (h) a flow indicator operatively disposed within the upstream end of the discharge conduit for monitoring liquid flow therein, and generating a primary flow signal corresponding thereto; (i) a liquid flush conduit having an upstream end and a downstream end, the upstream end being connected in fluid tight communication with a source of pressurized liquid and the downstream end being connected in fluid tight communication with the upstream end of the suction conduit; (j) a remote controllable liquid flush valve operatively disposed within the liquid flush conduit for controlling liquid flow therein; (k) a computerized controller programmed to (i) receive operating instructions regarding the transferring of a quantity of chemical from one of the storage vessels to one of the receptacles and to (ii) control the dispensing system in accordance with the operating instructions by operating the inlet valves, the pump, the dispensing valves and the liquid flush valve while receiving and using the primary flow signal as flow information feedback; (l) a gas flush conduit having an upstream end and a downstream end, the upstream end being connected in fluid tight communication with a source of pressurized gas and the downstream end being connected in fluid tight communication with the midsection of the dispensing conduit at a connection location upstream of the dispensing conduits and downstream of the flow indicator; and (m) a remote controllable gas flush valve operatively disposed within the gas flush conduit for controlling gaseous flow therein; wherein the computerized controller is programmed to control the dispensing system in accordance with operating instructions to dispense a designated volume of a desired chemical stored in a designated chemical storage vessel to a designated receptacle by causing the following steps to occur; (n) opening the inlet valve on the inlet conduit attached in fluid tight communication with the designated chemical storage vessel and opening the dispensing valve on the dispensing conduit attached in fluid tight communication with the designated receptacle; (o) thereafter operating the operating pump to pump liquid into the designated receptacle while drawing the designated volume of the desired chemical from the designated storage vessel into the suction conduit; (p) thereafter, when a volume of liquid equal to the designated volume is indicated to have been pumped through the flow indicator, closing the inlet valve on the inlet conduit attached in fluid tight communication with the designated chemical storage vessel; (q) thereafter opening the liquid flush valve and allowing sufficient liquid from the source of pressurized liquid to flow into the suction and discharge conduits to flush all of the desired liquid chemical past the gas conduit connection location; (r) thereafter shutting down the operating pump and closing the liquid flush valve; (s) thereafter opening the gas flush valve and allowing sufficient from the source of pressurized gas to flow into the discharge conduit and the dispensing conduit attached in fluid tight communication with the designated receptacle to flush all of the liquid within the discharge conduit and the dispensing conduit attached in fluid tight communication with the designated receptacle into the designated receptacle dispensing; and (t) thereafter closing the gas flush valve and closing the dispensing valve on the dispensing conduit attached in fluid tight communication with the designated receptacle.
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19. A method for dispensing a preselected quantity of liquid chemical drawn from one of a plurality of storage vessels and dispensing that quantity of liquid chemical to one of a plurality of receptacles using a single operating pump, the method using a dispensing system comprising:
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(a) a remote controllable operating pump having a suction side and a discharge side; (b) a suction conduit having an upstream end, a midsection and a downstream end, the downstream end being in fluid tight communication with the suction side of the operating pump; (c) a plurality of inlet conduits, each inlet conduit being adapted to receive a quantity of liquid chemical from one of the plurality of storage vessels and to discharge such quantity of liquid chemical to the midsection of the suction conduit; (d) a plurality of remote controllable inlet valves, one inlet valve being operatively disposed within each inlet conduit for controlling liquid flow therein; (e) a discharge conduit having an upstream end, a midsection and a downstream end, the upstream end being in fluid tight communication with the discharge side of the operating pump; (f) a plurality of dispensing conduits, each dispensing conduit being adapted to receive a quantity of liquid chemical from the downstream end of the discharge conduit and to discharge such quantity of liquid chemical to one of the plurality of receptacles; (g) a plurality of remote controllable dispensing valves, one dispensing valve being operatively disposed within each dispensing conduit for controlling liquid flow therein; (h) a flow indicator operatively disposed within the upstream end of the discharge conduit for monitoring liquid flow therein, and generating a primary flow signal corresponding thereto; (i) a liquid flush conduit having an upstream end and a downstream end, the upstream end being connected in fluid tight communication with a source of pressurized liquid and the downstream end being connected in fluid tight communication with the upstream end of the suction conduit; (j) a remote controllable liquid flush valve operatively disposed within the liquid flush conduit for controlling liquid flow therein; (k) a computerized controller programmed to (i) receive operating instructions regarding the transferring of a quantity of chemical from one of the storage vessels to one of the receptacles and to (ii) control the dispensing system in accordance with the operating instructions by operating the inlet valves, the operating pump, the dispensing valves and the liquid flush valve while receiving and using the primary flow signal as flow information feedback; the method comprising the following steps; (i) opening the inlet valve on the inlet conduit attached in fluid tight communication with the designated chemical storage vessel and opening the dispensing valve on the dispensing conduit attached in fluid tight communication with the designated receptacle; (ii) thereafter engaging the operating pump to pump liquid into the designated receptacle while drawing the designated volume of the desired chemical from the designated storage vessel into the suction conduit; (iii) thereafter, when a volume of liquid equal to the designated volume is indicated to have been pumped through the flow indicator, closing the inlet valve on the inlet conduit attached in fluid tight communication with the designated chemical storage vessel; (iv) thereafter opening the liquid flush valve and allowing sufficient liquid from the source of pressurized liquid to flow into the suction and discharge conduits to flush all of the desired liquid chemical into the designated receptacle; and (v) thereafter shutting down the operating pump, closing the liquid flush valve and closing the dispensing valve on the dispensing conduit attached in fluid tight communication with the designated receptacle. - View Dependent Claims (20)
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Specification