SU564546A1 - Coaxial type thermocouple - Google Patents

Description

(54) THERMOPHYPE COAXIAL TYPE

one

The invention relates to the field of thermoelectric converters and can be used to control the temperatures of technological processes occurring over a wide range of temperatures.

Thermocouples of coaxial type are known, containing an external thermoelectro made of siliconized graphite, and an internal thermoelectro made of dense non-siliconized graphite 13.

Thermocouples of coaxial type are also known, whose thermoelectrodes are made of refractory metal oxides 2. The disadvantage of these thermopairs is a narrow range of temperature measures. -. ;

Also known is a medium-temperature coaxial thermocouple containing an external negative thermoelectrode made of Ken-type carborundum, and an internal metallic positive thermoelectric electrode made of chromel or alumel. The thermocouple operates in the range of temperatures up to 0 up to 1000 ° C and during short-term operation up to.

The purpose of the invention is to expand the temperature range of measurements. This is achieved by the fact that the internal positive thermocouple of the EU thermocouple is made of molybdenum.

The drawing shows a thermocouple diagram

A thermocouple consists of a tube 1, which is an external protective 1. Thermoelectrode made of KEN type carborundum (GOST 6139-70), inside of which is a molybdenum positive thermoelectrode 2 placed in an electrically insulating alumina tube (or beads) 3.

The free ends of the electrodes are fixed in contact clamps with screws 4-6, Nat g and molybdenum thermoelectrode, ensuring the density of the connection in the hot junction, is carried out with the help of a steel coil spring 7, which is between the supporting textolite strips 8.

In order to create a reliable contact in the hot end of the thermocouple 9, the end of the molybdenum electrode is twisted in 3-4 turns or precipitated to tripled thickness. The density of the hot spas is provided by putty with carborundum paste 10 (with prepared coal tar — 15-17% resin) and additional hot end by coating with carborundum-alumina paste — 11 (12-15% alumina). After making a thermocouple of sushi at 100-300 ° C for 2-3 hours, then it is gradually heated to 1000 1200 ° C. Carborundum tubular electrode for its hardening is made with a gentle free (end). This carborundum is made by recrystallization process from fine silicon carbide (green) Nos. 4, 10 with silicon carbide content not less than 97% with an open porosity of not more than 24%, with a volume weight of 2.0-2.5 g / cm electrically insulating at a temperature of 1.6 ohm. Each batch of carborundum thermo electrodes should have an identical density, electrical resistance state, with o6ecnf and ideal values of 1i - thermo EMF. Positive thermoelectron made of molybdenum 1 and a diameter of 0.35-0.5 mm. The outer diameter of a carborundum tube is from 8 to 16 mm, the length of the terRouples is from 50 to 800 frets. The carborundum tube has sufficient strength to ensure the operation of the thermocouple throughout the whole range from absolute zero up to 2200 ° C, especially when operating in neutral, reducing and vacuum environments.When operating in oxidizing environments under temperature conditions for 500 ° C, additional protection is needed against oxidation of the molybdenum thermoelectrode, When operating under conditions of molten salts, etc. In extreme aggressive environments, additional ceramic and metal fittings are required to ensure the thermocouple tightness of the thermocouple. Thermocouple at both negative and positive temperatures. The linear calibration curve at the temperature of the thermal emf is 39.44 mV, and at a temperature of -270 C - 55.0 mv At a polling temperature, the tercural EDR is 309.10 mV, at 431.41 MS, at 530 (/ 0 ton. Sensitive) Q PMonaiter 270 lzhv / g. - -, Formula: inventions Thermocouple of a coaxial Fipa containing external carborundum ter Myelectrode, characterized in that, in order to expand the temperature range, the internal thermoelectrode is made of molybdenum. Sources {data, taken into account during the examination) USSR author's certificate 220563, CL.O-01 K 7/06, 1966. 2. Samsonov G.V., Kisly PS High-temperature non-metallic thermocouples and tips, Kiev, Naukova Dumka, 1965, p. 9-15, 3. Author's certificate of the USSR No. 416317, cl. ia-01 K 7/06, 1973,