Intrinsically safe fluid tank overfill protection system
First Claim
1. A storage tank level monitoring and alarm system adapted for use in an electrically hazardous environment, the system comprising:
- a. a level sensor adapted to be mounted on a tank to sense the level of liquid in the tank, the sensor sealed from volatile gases, the sensor sealing gases within the tank;
b. a switch mounted on a top surface of the tank, the switch coupled to the level sensor and adapted to change state at a predetermined level of liquid in the tank;
c. an intrinsically safe, monitored transmitter module activated by the switch and adapted to transmit, upon activation, an alarm signal which uniquely identifies the tank being monitored;
d. a receiver to monitor the transmitter module and to receive the alarm signal from the transmitter and to generate a response signal; and
e. a responsive unit to receive the response signal from the receiver and to develop an action as a result of the response signal.
3 Assignments
0 Petitions
Accused Products
Abstract
A tank level monitoring and alarm system comprises a passive level switch, a transmitter, a repeater, and a receiver. It provides easy installation, convenient calibration, and very low maintenance. A mechanical level switch for the specific vessel is installed. The contacts of the level switch are connected to the transmitter. When the switch is activated, the transmitter immediately broadcasts an alarm signal to the receiver. A relay output at the receiver is either opened or closed thus activating the alarm or other device attached to it. The relay output may also connect to a control apparatus, such as a signal transmitter to provide for remote operation of such devices as valves.
49 Citations
21 Claims
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1. A storage tank level monitoring and alarm system adapted for use in an electrically hazardous environment, the system comprising:
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a. a level sensor adapted to be mounted on a tank to sense the level of liquid in the tank, the sensor sealed from volatile gases, the sensor sealing gases within the tank;
b. a switch mounted on a top surface of the tank, the switch coupled to the level sensor and adapted to change state at a predetermined level of liquid in the tank;
c. an intrinsically safe, monitored transmitter module activated by the switch and adapted to transmit, upon activation, an alarm signal which uniquely identifies the tank being monitored;
d. a receiver to monitor the transmitter module and to receive the alarm signal from the transmitter and to generate a response signal; and
e. a responsive unit to receive the response signal from the receiver and to develop an action as a result of the response signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A method of monitoring the level in a storage tank adapted to hold flammable liquids and gases, comprising the steps of:
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a. mounting a switch on top of the storage tank;
b. coupling the switch to a passive level sensor within the tank, the sensor sealed from flammable gases, the sensor sealing gases within the tank;
c. coupling the switch to a battery powered transmitter mounted on the tank;
d. installing a receiver to receive signals from the transmitter;
e. upon sensing a predetermined liquid level by the sensor, sending an alarm signal from the transmitter to the receiver; and
f. periodically transmitting a status signal from the transmitter to the receiver, the status signal indicative of the status of the switch, the sensor, and the transmitter. - View Dependent Claims (14, 15, 16)
a. receiving by a repeater the signal transmitted by the transmitter; - and
b. retransmitting the signal to the receiver.
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15. The method of claim 13, further comprising the step of developing a response signal in response to receiving the alarm signal by the receiver.
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16. The method of claim 15, wherein the response signal comprises an alarm.
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17. A monitoring system comprising:
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a. a sensor to sense a time-varying parameter and to develop an analog signal representative of the parameter, the sensor sealed from flammable gases;
b. an analog to digital converter to receive the analog signal and convert the analog signal to a digital signal;
c. a microprocessor to receive the digital signal and to process the digital signal to a transmitter signal;
d. an intrinsically safe transmitter module activated by the microprocessor and adapted to transmit, upon activation, a monitored signal representative of the parameter or representative of the status of the system;
e. a receiver to receive the monitored signal from the transmitter. - View Dependent Claims (18, 19, 20, 21)
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Specification