Abstract: The present invention relates to a flexible connector for attaching electrical accessories to an industrial battery electrical cable. The connector includes a housing and an electrically conductive pin that is positioned within the housing and protrudes through a cable mating surface of the housing. The connector also includes a fuse positioned within the housing and electrically connected to the portion of the pin within the housing, and a conductive wire, wherein at least a portion of the wire is positioned within the housing and electrically connected to the fuse. At least the cable mating surface of the housing is suitably flexible to conform to the contours of an electrical cable insulation surface when the pin pierces through the insulation surface of the electrical cable to which the connector is attached.

Abstract: A system for the management of a fleet of battery powered vehicles using a paradigm of a reserve pool of vehicles as opposed to a reserve fleet of batteries. In this system, a reserve pool of vehicles is always maintained in a ready state such that vehicles being returned with depleted batteries may be replaced with a vehicle having a fully-charged battery. The system maintains a balance between reserve fleet size and charging time (and therefore the life of the batteries) to provide optimal performance and cost savings. The system has the added advantages of capital efficiency in that that the time and labor required to change batteries, and the need to maintain extra batteries is eliminated.

Abstract: A measuring device is used in conjunction with a programmable controller for monitoring electrolyte levels in the battery. According to one implementation, the measuring device is located in a battery and is configured to detect when the electrolyte level in the battery falls below a particular level. The controller is in electrical communication with the electrolyte detection device. The controller is configured to: (i) receive a signal from the electrolyte level detection device indicating when the electrolyte level in the battery has fallen below the particular level; (ii) introduce a wait-period after the signal is received; and (iii) enable an indicator to indicate that the electrolyte level in the battery should be refilled when the wait-period expires.

Abstract: The present invention relates to a flexible connector for attaching electrical accessories to an industrial battery electrical cable. The connector includes a housing and an electrically conductive pin that is positioned within the housing and protrudes through a cable mating surface of the housing. The connector also includes a fuse positioned within the housing and electrically connected to the portion of the pin within the housing, and a conductive wire, wherein at least a portion of the wire is positioned within the housing and electrically connected to the fuse. At least the cable mating surface of the housing is suitably flexible to conform to the contours of an electrical cable insulation surface when the pin pierces through the insulation surface of the electrical cable to which the connector is attached.

Abstract: A measuring device is used in conjunction with a programmable controller for monitoring electrolyte levels in the battery. According to one implementation, the measuring device is located in a battery and is configured to detect when the electrolyte level in the battery falls below a particular level. The controller is in electrical communication with the electrolyte detection device. The controller is configured to: (i) receive a signal from the electrolyte level detection device indicating when the electrolyte level in the battery has fallen below the particular level; (ii) introduce a wait-period after the signal is received; and (iii) enable an indicator to indicate that the electrolyte level in the battery should be refilled when the wait-period expires.

Abstract: Improvements to industrial battery monitoring devices include improved circuitry to make the device polarity insensitive and to allow it to operate over a wide range of battery voltages.

Abstract: A system for the management of a fleet of battery powered vehicles using a paradigm of a reserve pool of vehicles as opposed to a reserve fleet of batteries. In this system, a reserve pool of vehicles is always maintained in a ready state such that vehicles being returned with depleted batteries may be replaced with a vehicle having a fully-charged battery. The system maintains a balance between reserve fleet size and charging time (and therefore the life of the batteries) to provide optimal performance and cost savings. The system has the added advantages of capital efficiency in that that the time and labor required to change batteries, and the need to maintain extra batteries is eliminated.

Abstract: A measuring device is used in conjunction with a programmable controller for monitoring electrolyte levels in the battery. According to one implementation, the measuring device is located in a battery and is configured to detect when the electrolyte level in the battery falls below a particular level. The controller is in electrical communication with the electrolyte detection device. The controller is configured to: (i) receive a signal from the electrolyte level detection device indicating when the electrolyte level in the battery has fallen below the particular level; (ii) introduce a wait-period after the signal is received; and (iii) enable an indicator to indicate that the electrolyte level in the battery should be refilled when the wait-period expires.

Abstract: A measuring device is used in conjunction with a programmable controller for monitoring electrolyte levels in the battery. According to one implementation, the measuring device is located in a battery and is configured to detect when the electrolyte level in the battery falls below a particular level. The controller is in electrical communication with the electrolyte detection device. The controller is configured to: (i) receive a signal from the electrolyte level detection device indicating when the electrolyte level in the battery has fallen below the particular level; (ii) introduce a wait-period after the signal is received; and (iii) enable an indicator to indicate that the electrolyte level in the battery should be refilled when the wait-period expires.

Abstract: This invention is a method and device for monitoring and storing data regarding the “life history” of a battery with which it is associated and interpreting the data to create an accurate record of use and abuse patterns. A manufacturer's specified life expectancy, measured in battery cycles, is established for the battery under normal use, and then the actual use of the battery is monitored and stored. Complete cycles, partial cycles, and operation of the battery outside of acceptable specifications are automatically derived into a value in units equivalent to a number of battery cycles, and this derivation is compared with the manufacturers life expectancy, and adjustments to the manufacturers life expectancy are made so that a more accurate and up-to-date estimation of battery life can be evolved over the life of the battery.

Abstract: A measuring device is used in conjunction with a programmable controller for monitoring electrolyte levels in the battery. According to one implementation, the measuring device is located in a battery and is configured to detect when the electrolyte level in the battery falls below a particular level. The controller is in electrical communication with the electrolyte detection device. The controller is configured to: (i) receive a signal from the electrolyte level detection device indicating when the electrolyte level in the battery has fallen below the particular level; (ii) introduce a wait-period after the signal is received; and (iii) enable an indicator to indicate that the electrolyte level in the battery should be refilled when the wait-period expires.

Abstract: A measuring device is used in conjunction with a programmable controller for monitoring electrolyte levels in the battery. According to one implementation, the measuring device is located in a battery and is configured to detect when the electrolyte level in the battery falls below a particular level. The controller is in electrical communication with the electrolyte detection device. The controller is configured to: (i) receive a signal from the electrolyte level detection device indicating when the electrolyte level in the battery has fallen below the particular level; (ii) introduce a wait-period after the signal is received; and (iii) enable an indicator to indicate that the electrolyte level in the battery should be refilled when the wait-period expires.

Abstract: A measuring device is used in conjunction with a programmable controller for monitoring electrolyte levels in the battery. According to one implementation, the measuring device is located in a battery and is configured to detect when the electrolyte level in the battery falls below a particular level. The controller is in electrical communication with the electrolyte detection device. The controller is configured to: (i) receive a signal from the electrolyte level detection device indicating when the electrolyte level in the battery has fallen below the particular level; (ii) introduce a wait-period after the signal is received; and (iii) enable an indicator to indicate that the electrolyte level in the battery should be refilled when the wait-period expires.

Abstract: This invention is a method and device for monitoring and storing data regarding the “life history” of a battery with which it is associated and interpreting the data to create an accurate record of use and abuse patterns. A manufacturer's specified life expectancy, measured in battery cycles, is established for the battery under normal use, and then the actual use of the battery is monitored and stored. Complete cycles, partial cycles, and operation of the battery outside of acceptable specifications are automatically derived into a value in units equivalent to a number of battery cycles, and this derivation is compared with the manufacturers life expectancy, and adjustments to the manufacturers life expectancy are made so that a more accurate and up-to-date estimation of battery life can be evolved over the life of the battery.

Abstract: A measuring device is used in conjunction with a programmable controller for monitoring electrolyte levels in the battery. According to one implementation, the measuring device is located in a battery and is configured to detect when the electrolyte level in the battery falls below a particular level. The controller is in electrical communication with the electrolyte detection device. The controller is configured to: (i) receive a signal from the electrolyte level detection device indicating when the electrolyte level in the battery has fallen below the particular level; (ii) introduce a wait-period after the signal is received; and (iii) enable an indicator to indicate that the electrolyte level in the battery should be refilled when the wait-period expires.