Resistance thermometer probe
First Claim
1. A resistance thermometer probe comprisinga temperature sensor;
- a housing around said temperature sensor;
said housing having
1) a temperature sensing tip for placement of said temperature sensor and
2) a stem to enable said temperature sensing tip to be maintained at a predetermined position for making temperature measurements;
said stem being generally cylindrical in shape and said temperature sensing tip being an extension of the stem but is reduced in both diameter and wall thickness to minimize thermal capacity and to maximize heat conduction;
electrically conductive wire-leads for connecting said temperature sensor to an ohmmeter;
granular particles in said housing to provide mechanical support to said temperature sensor and to reduce heat loss by convection;
absorption means inside said housing to capture gases, moisture and volatile organic materials; and
sealing means for sealing said housing thereby assuring that said temperature sensor is protected from contimination.
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Accused Products
Abstract
A resistance thermometer probe comprising a temperature sensor and a housing around the temperature sensor. The housing having a temperature sensing tip for placement of the temperature sensor and a stem to enable the temperature sensing tip to reach into otherwise inaccessable positions. The stem being generally cylindrical in shape and the temperature sensing tip being an integral extension of the stem but is reduced in both diameter and wall thickness to minimize thermal capacity and to maximize heat conduction. The probe also has electrically conductive wire leads to connect the temperature sensor to an ohmmeter. Fine granular glass particles and molecular sieve are placed in the empty space left after the temperature sensor and conductive wires have been inserted into the housing. The particles provide mechanical support to the temperature sensor, and reduces convection. The use of molecular sieve enables the temperature sensor to be cleared of contaminants and have a partial vacuum generated within the probe without having to use an external pump; this is accomplished by heating the probe (before it has been sealed) to a high temperature, then part of the probe is allowed to cooled to an intermediate temperature while the probe is sealed; When the molecular sieve is finally allowed to cool to room temperature, it becomes activated to absorb substantially all the gases, moisture and organic contaminants inside the probe leaving the temperature sensor in a partial vacuum.
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Citations
11 Claims
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1. A resistance thermometer probe comprising
a temperature sensor; -
a housing around said temperature sensor;
said housing having
1) a temperature sensing tip for placement of said temperature sensor and
2) a stem to enable said temperature sensing tip to be maintained at a predetermined position for making temperature measurements;
said stem being generally cylindrical in shape and said temperature sensing tip being an extension of the stem but is reduced in both diameter and wall thickness to minimize thermal capacity and to maximize heat conduction;
electrically conductive wire-leads for connecting said temperature sensor to an ohmmeter;
granular particles in said housing to provide mechanical support to said temperature sensor and to reduce heat loss by convection;
absorption means inside said housing to capture gases, moisture and volatile organic materials; and
sealing means for sealing said housing thereby assuring that said temperature sensor is protected from contimination.
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2. A resistance thermometer probe comprising:
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a temperature sensor;
a housing around said temperature sensor;
sealing means for sealing said housing to protect said temperature sensor against contamination;
absorption means inside said sealed housing to capture gases, moisture and volatile organic materials thereby providing additional protection for said temperature sensor. - View Dependent Claims (3, 4, 5)
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6. A method for constructing a resistance thermometer probe comprising the steps of:
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1) placing a resistance temperature sensor inside a housing;
2) filling some of the space inside said housing with absorption means;
said absorption means having an activation range of temperatures such that said absorption means becomes activated to absorb when it is cooled from a temperature above said activation range to a temperature below said activation range;
3) heating said housing to a high temperature, said high temperature being in a range above said activation range of temperatures but not exceeding the maximum safe temperature above which some part of the probe may be subjected to damaged;
4) applying an adhesive sealant to seal said housing, and providing sufficient time for the adhesive sealant to set thoroughly before;
5) allowing said absorption means to cool to a temperature below said activation range of temperatures thereby activating the absorption means to absorb gases inside the housing, thus generating a partial vacuum. - View Dependent Claims (7, 8, 9, 10, 11)
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Specification