A fluid flow monitoring and evaluation system providing high accuracy for fluid flow systems having low volumes and high pressure includes fluid flow sensors mounted on positive displacement dispensing valves and a fluid flow monitor that received cycle signals from the fluid flow sensors and proces
A fluid flow monitoring and evaluation system providing high accuracy for fluid flow systems having low volumes and high pressure includes fluid flow sensors mounted on positive displacement dispensing valves and a fluid flow monitor that received cycle signals from the fluid flow sensors and processes the cycle signals to determine fluid flow information. Information can be downloaded in from the monitor, even in an explosion rated environment, using infra-red link or data can be transmitted, for example via satellite, for posting on the Internet. The system can include dispensing valves having single inputs and single outputs for measuring fluid dispensed at a point of use, which measurement can be compared to measurements taken at a divider block earlier in the hydraulic path to verify that fluid sent into the path was actually dispensed. A novel fluid flow sensor prevents loss of internal components, yet allows internal components to be removed for repair.
대표청구항▼
I claim: 1. A fluid flow monitoring and evaluation system suitable for measuring low volume, high pressure fluid flow, comprising: one or more fluid flow dispensing valves operated by the pressure of the fluid being dispensed, the one or more fluid flow dispensing valves being at a first site; one
I claim: 1. A fluid flow monitoring and evaluation system suitable for measuring low volume, high pressure fluid flow, comprising: one or more fluid flow dispensing valves operated by the pressure of the fluid being dispensed, the one or more fluid flow dispensing valves being at a first site; one or more fluid flow sensors, each associated with one oft, he one or more fluid flow dispensing valves for measuring the fluid flow through the corresponding dispensing valve; and one or more fluid flow monitors, each including a microprocessor programmed to accept cycle signals from one or more of the fluid flow sensors, one or more of the fluid flow monitors including a communications link for sending fluid flow information corresponding to the fluid flow through the one or more dispensing valves to a computer at a second site, remote from the first site, the computer programmed to provide the fluid flow information over the Internet to a user at a third site, the communications link including a radio transmitter for transmitting to an earth-orbiting satellite. 2. A fluid flow monitoring and evaluation system suitable for measuring low volume, high pressure fluid flow, comprising: one or more fluid flow dispensing valves operated by the pressure of the fluid being dispensed, the one or more fluid flow dispensing valves being, at a first site; one or more fluid flow sensors, each associated with one of the one or more fluid flow dispensing valves for measuring the fluid flow through the corresponding dispensing valve; and one or more fluid flow monitors, each including a microprocessor programmed to accept cycle signals from one or more of the fluid flow sensors, one or more of the fluid flow monitors including a communications link for sending fluid flow information corresponding to the fluid flow through the corresponding dispensing valve to a computer at a second site, remote from the first site, the computer programmed to provide the fluid flow information over the Internet to a user at a third site; and a global positioning system receiver for providing geographical site information about the first site as part of the fluid flow information. 3. A fluid flow monitoring and evaluation system suitable for measuring low volume, high pressure fluid flow, comprising: one or more fluid flow dispensing valves operated by the pressure of the fluid being dispensed, the one or more fluid flow dispensing valves being at a first site; one or more fluid flow sensors, each associated with one of the one or more fluid flow dispensing valves for measuring the fluid flow through the corresponding dispensing valve, the one or more fluid flow sensors including at least one positive displacement dispensing valve having a single inlet and a single outlet: and one or more fluid flow monitors, each including a microprocessor programmed to accept cycle signals from one or more of the fluid flow sensors, one or more of the fluid flow monitors including a communications link for sending fluid flow information corresponding to the fluid flow through the one or more dispensing valves to a computer at a second site, remote from the first site, the computer programmed to provide the fluid flow information over the Internet to a user at a third site. 4. A method of monitoring and evaluating a system suitable for measuring low volume, high pressure fluid flow, comprising: providing one or more fluid flow dispensing valves operated by the pressure of the fluid being dispensed, the one or more fluid flow dispensing valves being at a first site; providing one or more fluid flow sensors, each associated with one of the one or more fluid flow dispensing valves for measuring the fluid flow through the corresponding dispensing valve; and providing one or more fluid flow monitors, each including a microprocessor programmed to accept cycle signals from one or more of the fluid flow sensors, one or more of the fluid flow monitors including a communications link including a radio transmitter for sending fluid flow information corresponding to the fluid flow through the corresponding dispensing valve to a computer at a second site, remote from the first site, the computer programmed to provide the fluid flow information over the Internet to a third site. 5. The method of claim 4 in which the radio transmitter comprises a radio transmitter for transmitting information to an earth-orbiting satellite. 6. The method of claim 4 in which the fluid flow information includes at least one of cycle information, alarm information, or trend information. 7. A method of monitoring mid evaluating a system suitable for measuring low volume, high pressure fluid flow, comprising: providing one or more fluid flow dispensing valves operated by the pressure of the fluid being dispensed, the one or more fluid flow dispensing valves being at a first site; providing one or more fluid flow sensors, each associated with one of the one or more fluid flow dispensing valves for measuring the fluid flow through the corresponding dispensing valve; providing one or more fluid flow monitors, each including a microprocessor programmed to accept cycle signals from one or more of the fluid flow sensors, one or more of the fluid flow monitors including a communications link for sending fluid flow information corresponding to the fluid flow through the corresponding dispensing valve to a computer at a second site, remote from the first site, the computer programmed to provide the fluid flow information over the Internet to a third site; and providing a global positioning system receiver for providing geographical site information as part of the fluid flow information. 8. A method of monitoring and evaluating a system suitable for measuring low volume, high pressure fluid flow in an explosive environment, comprising: generating at a first site signals corresponding to cycles of a low volume, high pressure fluid flow dispensing valve operated by the pressure of the fluid being dispensed; detecting the signals to characterize fluid flow through the dispensing valve; and transmitting fluid flow information corresponding to the fluid flow through the dispensing valve by radio to an earth-orbiting satellite to a second site for providing fluid flow information over the Internet to remotely monitor the dispensing valve. 9. A method of monitoring and evaluating a system suitable for measuring low volume, high pressure fluid flow in an explosive environment, comprising: generating at a first site signals corresponding to cycles of a low volume, high pressure fluid flow dispensing valve operated by the pressure of the fluid being dispensed; detecting the signals to characterize fluid flow through the dispensing valve; and transmitting fluid flow information corresponding to the fluid flow through the dispensing valve and site information indicating the site of the dispensing valve to a computer at a second site for providing fluid flow information and site information over the Internet to remotely monitor the dispensing valve. 10. The method of claim 9 in which transmitting fluid flow information to a second site includes transmitting information to a computer at the second site for providing fluid flow information over the Internet to a third site. 11. The method of claim 9 in which transmitting fluid flow information includes transmitting an alarm signal. 12. The method of claim 9 in which transmitting fluid flow information includes transmitting indicators of dispenser valve cycles. 13. The method of claim 9 in which transmitting fluid flow information includes transmitting includes fluid flow trend information. 14. The fluid flow monitoring and evaluation system of claim 9 in which the transmitter includes a transmitter for transmitting through a wire. 15. A fluid flow monitoring and evaluation system suitable for measuring low volume, high pressure fluid flow, comprising: one or more fluid flow dispensing valves operated by the pressure of the fluid being dispensed; one or more fluid flow sensors, each associated with one of the one or more fluid flow dispensing valves for measuring the fluid flow through the corresponding dispensing valve; one or more fluid flow monitors, each including a microprocessor programmed to accept cycle signals from one or more of the fluid flow sensors; a transmitter for transmitting to an earth orbiting satellite for making fluid flow information corresponding to the fluid flow through the corresponding dispensing valve available to a remote site; and a computer at the remote site for receiving the fluid flow information and having an Internet connection for providing the fluid flow information over the Internet. 16. A fluid flow monitoring and evaluation system suitable for measuring low volume, high pressure fluid flow, comprising: one or more fluid flow dispensing valves operated by the pressure of the fluid being dispensed, the one or more fluid flow dispensing valves being at a first site; one or more fluid flow sensors, each associated with one of the one or more fluid flow dispensing valves for measuring the fluid flow through the corresponding dispensing valve; and one or more fluid flow monitors, each including a microprocessor programmed to accept cycle signals from one or more of the fluid flow sensors, one or more of the fluid flow monitors including a communications link for sending fluid flow information corresponding to the fluid flow through the corresponding dispensing valve to a computer at a second site, remote from the first site, the computer programmed to provide the fluid flow information over the Internet to a user at a third site, the communications link comprising a radio transmitter. 17. The fluid flow monitoring and evaluation of claim 16 further comprising a computer executing software for receiving fluid flow information and transmitting related information over the Internet. 18. The fluid flow monitoring and evaluation system of claim 16 in which the one or more fluid flow sensors includes a dispensing valve having multiple outlets for dividing incoming fluid between multiple paths. 19. The fluid flow monitoring and evaluation system of claim 16 in which the fluid flow information includes fluid flow trend information. 20. The fluid flow monitoring and evaluation system of claim 16 in which the fluid flow information includes dispensing valve cycle indications. 21. The fluid flow monitoring and evaluation system of claim 16 in which the fluid flow information includes alarm information.
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