Method and apparatus for detecting the internal liquid level in a vessel
First Claim
1. A system for detecting the level of a liquid in a vessel, comprising:
- a detector assembly including a thermally conductive substrate;
means for supporting said substrate within the vessel, a heater mounted on said substrate within the vessel such that said heater is thermally coupled to the interior of the vessel, said heater being able to be actuated to add heat to the surface of the substrate thermally coupled to the interior of the vessel, and a sensor mounted on said substrate within the vessel in proximity to said heater, said sensor being thermally coupled to the interior of the vessel to detect the temperature therein in proximity to said sensor, said sensor being able to be actuated to generate an electrical signal defining a temperature signal indicative of said detected temperature;
a processor electrically connected to said sensor for receiving said temperature signal after actuation of said heater, said processor being programmed to calculate a temperature index proportional to said temperature signal, said processor being further programmed to compare said temperature index to a reference thereby to generate an electrical signal defining an elevation signal indicative of the elevation of the upper surface of the liquid being either above or below said sensor;
an interface electrically connected to said processor for receiving said elevation signal for use as the basis for communicating to the user the relative elevation of the liquid upper surface as either above or below said sensor;
a power supply electrically connected to said heater, sensor, processor, and interface;
a fixture for supporting said substrate in depending relation relative to the upper inner surface of the vessel, said fixture being constructed for connection to the upper portion of the vessel, said fixture being constructed for receiving said substrate for said depending relation support; and
wherein said fixture comprises an elongated well having a longitudinal interior chamber, said chamber being accessible through a port which extends through a proximal end of said well, said well having a distal end at which said chamber is closed, said well being constructed for anchoring to the inner surface of the top of the vessel in depending relation thereto, said well being further constructed such that said anchoring provides access to said chamber via said port from outside of the vessel and obstructs access to said chamber from inside of the vessel, said chamber being sized to receive said substrate to provide said depending relation support to said substrate, said substrate being thermally coupled to said well.
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Abstract
A system for detecting the level of a liquid in a vessel, comprises a detector assembly including a thermally conductive substrate supported within the vessel. One or more heaters are mounted on the substrate within the vessel. One or more temperature sensors, each associated with a respective heater, are mounted on the substrate. The sensor(s) may be actuated to generate an electrical signal defining a temperature signal indicative of the detected temperature. A processor is electrically connected to the sensor(s) for receiving the temperature signal(s) after actuation of the associated heater(s). The processor is programmed to calculate a “temperature index” proportional to the temperature signal(s). The temperature index(s) indicates the temperature increase detected by the sensor(s) resulting from actuation of the heater(s). This, in turn, indicates the presence of liquid or vapor adjacent to the sensor(s). The processor is programmed further to compare the temperature index(s) to a “reference” and to generate an electrical signal(s) defining an elevation signal indicative of the presence of liquid or vapor. The processor is electrically connected to an interface for communicating to a user the elevation of the upper surface of the liquid in the vessel. The aforementioned system is operated according to a method for detecting the level of liquid in the vessel.
112 Citations
12 Claims
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1. A system for detecting the level of a liquid in a vessel, comprising:
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a detector assembly including a thermally conductive substrate;
means for supporting said substrate within the vessel, a heater mounted on said substrate within the vessel such that said heater is thermally coupled to the interior of the vessel, said heater being able to be actuated to add heat to the surface of the substrate thermally coupled to the interior of the vessel, and a sensor mounted on said substrate within the vessel in proximity to said heater, said sensor being thermally coupled to the interior of the vessel to detect the temperature therein in proximity to said sensor, said sensor being able to be actuated to generate an electrical signal defining a temperature signal indicative of said detected temperature;
a processor electrically connected to said sensor for receiving said temperature signal after actuation of said heater, said processor being programmed to calculate a temperature index proportional to said temperature signal, said processor being further programmed to compare said temperature index to a reference thereby to generate an electrical signal defining an elevation signal indicative of the elevation of the upper surface of the liquid being either above or below said sensor;
an interface electrically connected to said processor for receiving said elevation signal for use as the basis for communicating to the user the relative elevation of the liquid upper surface as either above or below said sensor;
a power supply electrically connected to said heater, sensor, processor, and interface;
a fixture for supporting said substrate in depending relation relative to the upper inner surface of the vessel, said fixture being constructed for connection to the upper portion of the vessel, said fixture being constructed for receiving said substrate for said depending relation support; and
wherein said fixture comprises an elongated well having a longitudinal interior chamber, said chamber being accessible through a port which extends through a proximal end of said well, said well having a distal end at which said chamber is closed, said well being constructed for anchoring to the inner surface of the top of the vessel in depending relation thereto, said well being further constructed such that said anchoring provides access to said chamber via said port from outside of the vessel and obstructs access to said chamber from inside of the vessel, said chamber being sized to receive said substrate to provide said depending relation support to said substrate, said substrate being thermally coupled to said well. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method for detecting the level of a liquid in a vessel, comprising the steps of:
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actuating a heater mounted on a thermally conductive substrate mounted within the vessel, said actuation adding heat to the surface of the substrate thermally coupled to the interior of the vessel;
detecting by a sensor the temperature in the vessel after said addition of heat, the sensor being mounted on the substrate within the vessel in proximity to the heater, the sensor generating an electrical signal indicative of the temperature, said electrical signal defining a temperature signal;
transmitting the temperature signal from the sensor to a processor wherein the temperature signal received by the processor after actuation of the heater is defined by a subsequent signal, detecting by the sensor the temperature in the vessel before said addition of heat, the sensor being in proximity to the heater, the sensor generating an electrical signal defined by an initial temperature signal indicative of the temperature before said addition of heat, and transmitting the initial temperature signal from the sensor to the processor, said reference temperature in said step of operating the processor being defined by the initial temperature signal; and
operating the processor to calculate the difference between the temperature signal and a reference temperature, generate an electrical signal defining a high signal indicating that the elevation of the upper surface of the liquid is above the sensor if the magnitude of the difference is less than a standard, and transmit the high signal to an interface electrically connected to the processor, generate an electrical signal defining a low signal indicating that the elevation of the liquid upper surface is below the sensor if the magnitude of the difference is greater than the standard, and transmit the low signal to the interface;
communicating by the interface to the user the relative elevation of the liquid upper surface as either above or below the sensor based on receipt of either the high or low signal. - View Dependent Claims (8)
said detecting step comprising the further step of detecting the temperature in the vessel by a lower sensor having an elevation below the elevation of the upper sensor, the lower sensor being mounted on the substrate within the vessel in proximity to the heater, the lower sensor generating an electrical temperature signal indicative of the temperature, said step of transmitting the upper temperature signal further comprising the step of transmitting from the lower sensor an electrical lower temperature signal indicating the temperature detected by the lower sensor, the lower temperature signal being received by the processor, said step of operating the processor comprising the further step of calculating the difference between the lower temperature signal and the reference energy thereby to define a lower difference, said step of operating the processor to generate the low signal being defined by generating an electrical signal defining an intermediate signal indicating that the elevation of the liquid upper surface is between the upper and lower sensors if the magnitude of the lower difference is less than the standard, and transmitting the intermediate signal to the interface, and generating an electrical low signal indicating that the elevation of the liquid upper surface is below the lower sensor if the magnitude of the lower difference is greater than the standard, and transmitting the low signal to the interface, said step of communicating to the user further comprising communicating by the interface the elevation of the liquid upper level as either between the upper and lower sensors or below the lower sensor based on receipt of either the intermediate or low signal.
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9. A system for detecting the level of a liquid in a vessel, comprising:
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a detector assembly including a thermally conductive substrate;
means for supporting said substrate within the vessel, a heater mounted on said substrate within the vessel such that said heater is thermally coupled to the interior of the vessel, said heater being able to be actuated to add heat to the surface of the substrate thermally coupled to the interior of the vessel, and a sensor mounted on said substrate within the vessel in proximity to said heater, said sensor being thermally coupled to the interior of the vessel to detect the temperature therein in proximity to said sensor, said sensor being able to be actuated to generate an electrical signal defining a temperature signal indicative of said detected temperature;
a processor electrically connected to said sensor for receiving said temperature signal after actuation of said heater, said processor being programmed to calculate a temperature index proportional to said temperature signal, said processor being further programmed to compare said temperature index to a reference thereby to generate an electrical signal defining an elevation signal indicative of the elevation of the upper surface of the liquid being either above or below said sensor;
an interface electrically connected to said processor for receiving said elevation signal for use as the basis for communicating to the user the relative elevation of the liquid upper surface as either above or below said sensor;
a power supply electrically connected to said heater, sensor, processor, and interface; and
wherein said processor also receives said temperature signal prior to the actuation of said heater, said processor being programmed to calculate a temperature index proportional to both said temperature signals prior to and after actuation of said heater. - View Dependent Claims (10, 11, 12)
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Specification