The present invention includes methods and apparatuses for operating and controlling AOD pumps.
대표청구항▼
The invention claimed is: 1. A pump including first and second diaphragm chambers, each diaphragm chamber including a diaphragm having a driven side, the diaphragms being coupled together, a pressure sensor positioned to detect a pressure associated with the driven side of at least one of the diaph
The invention claimed is: 1. A pump including first and second diaphragm chambers, each diaphragm chamber including a diaphragm having a driven side, the diaphragms being coupled together, a pressure sensor positioned to detect a pressure associated with the driven side of at least one of the diaphragms and to output a signal indicative thereof, a controller configured to receive the signal from the pressure sensor and monitor a pressure to detect the position of at least one of the diaphragms, an air supply valve positioned to supply a flow of pressurized air for the first and second diaphragm chambers, the controller communicates with the air supply valve to control the flow of pressurized air based on the signal received from the pressure sensor, and a main valve in fluid communication with the air supply valve, wherein the main valve alternates between a first position supplying air to the first diaphragm chamber and a second position supplying air to the second diaphragm chamber. 2. The pump of claim 1, wherein the air supply valve supplies pressurized air to the main valve for a predetermined amount a time and blocks pressurized air from flowing to the main valve for another amount of time. 3. A pump including first and second diaphragm chambers, each diaphragm chamber including a diaphragm having a driven side, the diaphragms being coupled together by a connector for unitary movement in a cycle having a plurality of stages, each cycle including a designated stage, a pressure sensor positioned to detect a pressure associated with the driven side of at least one of the diaphragms and to output a signal indicative thereof, and a controller configured to receive the signal from the pressure sensor to detect when the cycle reaches the designated stage. 4. The pump of claim 3, further comprising an air supply valve positioned to control the supply of pressurized air from an air supply to the first and second diaphragm chambers. 5. The pump of claim 4, wherein the controller communicates with the air supply valve and provides pressurized air to the first and second diaphragm chambers for a predetermined time based on the controller detecting the designated stage and restricts pressurized air at other times. 6. The pump of claim 5, wherein the designated stage substantially corresponds to an end-of-stroke position of the first and second diaphragms. 7. The pump of claim 5, wherein the controller adjusts the length of the predetermined time based on a pressure sensed when the controller detects the designated stage. 8. The pump of claim 3, wherein the controller determines a cycle time of the cycle based on repetition of the designated stage. 9. The pump of claim 8, wherein the controller determines an air flow rate based on the cycle time. 10. The pump of claim 8, wherein the first and second diaphragms pump a fluid and the controller determines flow rate of the pumped fluid based on the cycle time. 11. The pump of claim 3, wherein the pressure sensor detects pressure in the first and second diaphragm chambers. 12. The pump of claim 3, further comprising an interface, wherein the controller provides a signal to the interface indicating an operating parameter of the pump based on the signal provided by the pressure sensor and the interface displays the operating parameter. 13. A pump including a housing, a pair of pump members coupled together by a connector and positioned to move in the housing in a cycle to pump material, a pressure sensor positioned to detect a pressure associated with a driven side of at least one of the pump members and to output a signal indicative thereof, a controller that receives the output signal and detects at least one parameter of the cycle, and an air supply valve providing air to the housing that is controlled by the controller based on detection of the at least one parameter. 14. The pump of claim 13, wherein the parameter detected by the controller is the cycle time of the cycle. 15. The pump of claim 13, wherein the parameter detected by the controller is a rate of pressure change in the interior region of the housing. 16. The pump of claim 13, wherein the detected parameter is a rate of pressure change in the interior region and the controller provides a control signal to open the air supply valve when the controller detects the rate of pressure change corresponds to a predetermined value. 17. The pump of claim 13, wherein the air supply valve is open for a predetermined time after receiving a control signal from the controller and then closes after the predetermined time. 18. The pump of claim 13, further comprising an interface, wherein the controller provides a signal to the interface indicating an operating parameter of the pump based on the signal provided by the pressure sensor and the interface displays the operating parameter. 19. A pump including first and second diaphragm chambers, each diaphragm chamber including a diaphragm, the diaphragms being coupled together, a main valve that alternates between a first position supplying air to the first diaphragm chamber and a second position supplying air to the second diaphragm chamber, a pressure sensor positioned to detect a pressure corresponding to movement of the main valve from at least the first position to the second position and to output a signal indicative thereof, and a controller configured to monitor the signal from the pressure sensor to detect a position of at least one of the diaphragms. 20. The pump of claim 19, further comprising an air supply valve positioned to provide air to the main valve, the controller communicates with the air supply valve to control the flow of air based on the signal received from the pressure sensor. 21. The pump of claim 20, wherein the air supply valve provides air to the main valve for a predetermined amount of time and restricts air from flowing to the main valve for another amount of time. 22. The pump of claim 21, wherein the controller adjusts the length of the predetermined time based on a pressure sensed when the controller detects the position of the at least one of the diaphragms. 23. The pump of claim 19, wherein the detected position of the at least one of the diaphragms is an end of stroke position. 24. The pump of claim 19, wherein the signal from the pressure sensor is a substantially cyclical pressure profile corresponding to movement of the diaphragms while pumping material. 25. The pump of claim 22, wherein the pressure profile includes a portion corresponding to an end of stroke position of the at least one of the diaphragms and the controller detects the portion to determine when the at least one of the diaphragms has reached the end of stroke position. 26. The pump of claim 19, wherein the controller monitors the signal from the pressure sensor to identify a rate of pressure change that indicates the position of the at least one of the diaphragms. 27. A pump including first and second diaphragm chambers, each diaphragm chamber including a diaphragm, the diaphragms being coupled together and operating in a cycle having a plurality of stages including a designated stage, a pilot valve positioned to alternate between a first position and a second position in response to the cyclical operation of the diaphragms, a pressure sensor positioned to detect a pressure corresponding to movement of the pilot valve from at least the first position to the second position and to output a signal indicative thereof, and a controller configured to receive the signal from the pressure sensor to detect when the cycle reaches the designated stage. 28. A pump including first and second diaphragm chambers, each diaphragm chamber including a diaphragm, the diaphragms being coupled together, a pressure sensor positioned to detect a pressure in at least one of the first and second diaphragm chambers and to output a signal indicative thereof, a controller configured to receive the signal from the pressure sensor and monitor a pressure to detect the position of at least one of the diaphragms, an air supply valve positioned to supply a flow of pressurized air for the first and second diaphragm chambers, the controller communicating with the air supply valve to control the flow of pressurized air based on the signal received from the pressure sensor, and a main valve in fluid communication with the air supply valve, wherein the main valve alternates between a first position supplying air to the first diaphragm chamber and a second position supplying air to the second diaphragm chamber. 29. A pump including first and second diaphragm chambers, each diaphragm chamber including a diaphragm, the diaphragms being coupled together, a pressure sensor positioned to detect a pressure in at least one of the first and second diaphragm chambers and to output a signal indicative thereof, a controller configured to receive the signal from the pressure sensor and monitor a pressure to detect the position of at least one of the diaphragms, an air supply valve positioned to control the flow of pressurized air to the first and second diaphragm chambers, the controller communicating with the air supply valve to control the flow of pressurized air based on the signal received from the pressure sensor, and a main valve in fluid communication with the air supply valve, the main valve alternating between a first position supplying air to the first diaphragm chamber and a second position supplying air to the second diaphragm chamber, wherein the air supply valve supplies pressurized air to the main valve for a predetermined amount of time and blocks pressurized air from flowing to the main valve for another amount of time. 30. A pump including first and second diaphragm chambers, each diaphragm chamber including a diaphragm, the diaphragms being coupled together by a connector for movement through a cycle of operation including a designated stage, a pressure sensor positioned to output a signal indicative of a pressure in at least one of the chambers, an air supply valve coupled to an air supply, and a controller configured to receive the signal from the pressure sensor to detect when the cycle reaches the designated stage, the controller causing the air supply valve to provide air to the chambers for a predetermined time upon detecting the designated stage and to restrict the supply of air at other times. 31. A pump including first and second diaphragm chambers, each diaphragm chamber including a diaphragm, the diaphragms being coupled together by a connector for movement through a cycle of operation including a designated stage, a pressure sensor positioned to output a signal indicative of a pressure in at least one of the chambers, and a controller configured to receive the signal from the pressure sensor to determine a cycle time of the cycle of operation based upon repetition of the designated stage.
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