Thermocouple

Method and apparatus for forming thermocouple junctions

Welcome to Free Patent Search

Thermocouple Abstract:
A high quality, small-scale thermocouple is formed by the corona developed at the twisted ends of two wires connected to a high voltage, radio frequency source.

Thermocouple Claims:
I claim:

1. A method of making a thermocouple assembly from two metal wires comprising the steps of

(a) flowing a stable gas through a container;

(b) placing one end of each wire in proximity to one another in the container;

(c) attaching the remaining end of each wire to a high voltage, high frequency transformer;

(d) applying a voltage to the wires such that a corona forms at the unattached ends of the wire, thereby producing a high quality thermocouple.

2. A method as claimed in claim 1 wherein the voltage is set to about 675 volt amps and the oscillator is set to about 6 to 8 Mhz.

3. A method as claimed in claim 1 wherein the junction is heated to about 1575 degrees Centigrade.

Patent Information Search Body

Thermocouple Description:
BACKGROUND OF THE INVENTION

1. Field of the Invention

This invention relates to the manufacture of thermocouples, in particular, high quality, small-scale thermocouples.

2. Description of the Prior Art

The prior art discloses several techniques for forming thermocouples. For example, thermocouples have been formed using welding techniques including spot, carbon arc or heliarc welding or other techniques involving heating and mechanical bonding.

There are at several limitations with these techniques. One problem is that wire breakages are common. A recent mechanical solution to this problem is discussed in an article entitled, "Method and Apparatus for Making Fine Wire Thermocouples", J. Phys. E. Sci. Instrum. 21, 52-54 (1988).

A second problem is the presence of impurities by which are created in the thermocouple by the particular process. These impurities detract from the performance and quality of the thermocouple.

A third problem is the difficulty and expense associated with mechanical bonding techniques.

At least one technique has been proposed to reduce the presence of impurities in a thermocouple. That technique uses electron beam welding. However, a high vacuum is required and the process is quite expensive. In addition, the electron beams may cause the thermocouple leads to outgas. Impurities produced during outgassing can then find their way into the thermocouple.

It is an object of this invention to produce a high quality, small-scale thermocouple that is relatively free of impurities.

A further object of this invention is to produce high quality, small-scale thermocouples using a relatively low cost process and materials.

SUMMARY OF THE INVENTION

A thermocouple is formed by applying a controlled, grounded, high frequency, high voltage source to one end of two leads which are located in a argon or helium gas atmosphere. The source causes a corona to form at the opposite end of the leads, creating a high quality thermocouple in an easily controlled process.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic of the apparatus of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Referring to FIG. 1, two leads of wires 2 and 4 are attached at one end to a high voltage radio frequency transformer 6. The bare leads run through a stopper 8 at one end of a glass "T" tube 10 to the opposite end of the "T" 12, where they are twisted together. Argon or helium gas is flowed through the third end of the "T" 14. When the transformer 6 applies a voltage to the wire 2 and 4, a corona 16 forms and propagates in the direction of the flow of the gas. The corona 16 also creates a junction 18 between the twisted leads. The size of the junction 18 is determined by the number of twists.

If the leads are insulated, they are wrapped to form a non-inductive coil. This prevents any electrical potential being developed along the length of the leads that might damage the insulation. Also, where long insulated leads (12" or more) are employed, the source is applied immediately below the junction through a metal clip. This clip serves both as an electrical connection and as a heat sink. Thus, it protects the lead insulation while it prevents the contamination of the junction by outgasing.

In one embodiment of the invention, the power level of the source was set to about 675 volt-amps, the oscillator frequency set to 6-8 Mhz and the junction was heated to about 1575 degrees Centigrade. The latter settings were chosen to provide a corona of sufficient size and temperature to fuse the junction in question. Under these conditions, it took about 5 seconds to form a thermocouple from chromel alumel wire 0.05 mm in diameter. The technique of the present invention has been successfully employed for thermocouple junctions as large as 1.5 mm in diameter.

The thermocouples formed using the technique described were then compared with commercial "Omega" junctions of the same type. The thermocouple junctions were immersed in a common heat source at various levels. The outputs were then observed on an "ANALOGIC Digi-Cal II" thermocouple digital readout. No significant discrepancies between the two sets of outputs were noted.

It will be obvious to one skilled in the application of high-frequency, high-voltage current that various modifications can be made to this invention without departing from the scope of the invention as defined in the following claims.

PAT. NO. Title
151 5,075,514 Insulated thermocouple
152 5,071,258 Thermocouple assembly
153 5,069,553 Protective sheath for a continuous measurement thermocouple
154 5,061,083 Temperature monitoring device and thermocouple assembly therefor
156 5,047,209 Control system for the quantification of the quality of fluidization using a thermocouple
157 5,043,023 Stable metal-sheathed thermocouple cable
158 5,038,303 Method and apparatus for measuring temperature using thermocouple
159 5,033,866 Multiple thermocouple sensor
160 5,021,098 High contact blind hole thermocouple plug
161 5,011,543 Thermocouple type temperature sensor
162 5,009,718 Thermocouple construction
163 5,005,986 Slag resistant thermocouple sheath
164 4,990,193 Method and apparatus for measuring temperature using thermocouple
165 4,969,956 Transparent thin film thermocouple
166 4,964,737 Removable thermocouple template for monitoring temperature of multichip modules
167 4,963,194 Adjustable depth thermocouple system and fitting
168 4,952,071 Thermocouple psychrometer
169 4,950,865 Method and apparatus for forming thermocouple junctions
170 4,936,690 Thermocouple transmitter with cold junction compensation
171 4,929,930 Liquid level controller utilizing the rate of change of a thermocouple
172 4,927,594 Thermocouple based control rod position indication system
173 4,915,508 Probe with integrated heater and thermocouple pack
174 4,909,855 Stable high-temperature thermocouple cable
175 4,904,091 Threaded average temperature thermocouple
Miniature connector with on-board electronics for a thermocouple
Sheathed thermocouple with internal coiled wires
Method of using an immersible air cooled thermocouple
Quantification of the quality of fluidization using a thermocouple
Isothermal panel assembly for terminating a plurality of thermocouple leads
Microprocessor controlled thermocouple simulator system
Multipoint thermocouple assembly using coil springs
Home About Us Contact Us Crazy Patents Thermocouple Patent
0-A B C D E F G H I J K L M N O P Q R S T U V W X-Y-Z
Copyright 2005-2025 Free-Patent-Search.net, Dental Loupes