Intelligent monitoring systems for liquid electrolyte batteries
First Claim
1. A battery monitoring system for a battery having a plurality of cells, the system comprising:
- a plurality of refill control valves, one for each of the cells;
a feed tube for directing a fluid to the refill control valves;
a flow rate sensor operatively connected to the feed tube to detect the flow rate of the fluid moving through the feed tube, the flow rate sensor providing an output;
a pressure sensor operatively connected to the feed tube to detect the pressure of the fluid moving through the feed tube, the pressure sensor providing an output; and
a controller electrically coupled to the output of the flow rate sensor and to the output of the pressure sensor, wherein the controller is operable to;
determine the flow rate of the fluid moving through the feed tube as a function of the output of the flow rate sensor,determine the pressure of the fluid moving through the feed tube as a function of the output of the pressure sensor,determine a first calculation of an amount of fluid added to the battery through the feed tube and the refill control valves during a first period of time in which the determined flow rate exceeds a minimum flow rate, anddetermine a second calculation of the amount of fluid added to the battery through the feed tube and the refill control valves during a second period of time between when the determined pressure exceeds a minimum pressure and when the determined pressure stabilizes.
1 Assignment
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Accused Products
Abstract
An improved battery monitoring system for liquid electrolyte batteries is provided. The battery monitoring system includes a network of sensors for monitoring the condition or performance of a plurality of liquid electrolyte batteries, for example lead-acid batteries. The sensors are adapted to share data regarding battery condition or battery performance to a standalone device over a wireless local area network. A server in electrical communication with the standalone device receives some or all of the data for analysis, which can result in maintenance alerts and other alerts being sent to the standalone device. The improved battery monitoring system can reduce or eliminate the manual inspection of lead-acid batteries and can improve battery operation and longevity by ensuring an appropriate level of maintenance for each lead-acid battery.
13 Citations
12 Claims
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1. A battery monitoring system for a battery having a plurality of cells, the system comprising:
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a plurality of refill control valves, one for each of the cells; a feed tube for directing a fluid to the refill control valves; a flow rate sensor operatively connected to the feed tube to detect the flow rate of the fluid moving through the feed tube, the flow rate sensor providing an output; a pressure sensor operatively connected to the feed tube to detect the pressure of the fluid moving through the feed tube, the pressure sensor providing an output; and a controller electrically coupled to the output of the flow rate sensor and to the output of the pressure sensor, wherein the controller is operable to; determine the flow rate of the fluid moving through the feed tube as a function of the output of the flow rate sensor, determine the pressure of the fluid moving through the feed tube as a function of the output of the pressure sensor, determine a first calculation of an amount of fluid added to the battery through the feed tube and the refill control valves during a first period of time in which the determined flow rate exceeds a minimum flow rate, and determine a second calculation of the amount of fluid added to the battery through the feed tube and the refill control valves during a second period of time between when the determined pressure exceeds a minimum pressure and when the determined pressure stabilizes. - View Dependent Claims (2, 3, 4, 5)
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6. A battery monitoring system for a battery having a plurality of cells, the system comprising:
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a plurality of refill control valves, one for each of the cells; a feed tube for directing a fluid to the refill control valves; a flow rate sensor operatively connected to the feed tube to detect the flow rate of the fluid moving through the feed tube, the flow rate sensor providing an output; and a controller electrically coupled to the output of the flow rate sensor, wherein the controller is operable to; determine the flow rate of the fluid moving through the feed tube as a function of the output of the flow sensor; and determine a calculation of an amount of the fluid added to the battery through the feed tube and the refill control valves during a period of time in which the determined flow rate exceeds a minimum flow rate the flow rate. - View Dependent Claims (7, 8, 9)
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10. A battery monitoring system for a battery having a plurality of cells, the system comprising:
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a plurality of refill control valves, one of each of the cells; a feed tube for directing a fluid to the refill control valves; a pressure sensor operatively connected to the feed tube to detect the pressure of the fluid moving through the feed tube, the pressure sensor providing an output; and a controller electrically coupled to the output of the pressure sensor, wherein the controller is operable to; determine the pressure of the fluid moving through the feed tube as a function of the output of the pressure sensor, and determine a calculation of an amount of fluid added to the battery through the feed tube and the refill control valves during a period of time between when the determined pressure exceeds a minimum pressure and when the determined pressure stabilizes. - View Dependent Claims (11, 12)
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Specification