SU857735A1 - Thermoelectric thermometer - Google Patents

Description

(54) THERMOELECTRIC THERMOMETER

Claims (2)

The exhaustion refers to the measuring technique and can be used when measuring temperatures in liquid electrically conductive media, in particular, to check the tightness of the thermoelectric thermometer's cover when conducting measurements in the sodium circuits of nuclear power plants. A device for temperature measurement is known, which contains a thermocouple with an unprotected junction. It consists of a cover, two different conductors, which are interconnected, while the junction is not protected by cover 1. The disadvantage of this device is that it is impossible to measure in liquid electrically conductive media because of the closure of thermocouple wires. The closest to the technical essence of the invention is a thermoelectric thermometer consisting of two thermoelectrodes interconnected in a junction and placed in a protective case 2. However, the indicated thermometer, protecting the thermoelectrodes from the effects of an electrically conductive liquid cover. The purpose of the invention is to ensure the tightness of the cover. This goal is achieved by the fact that the thermometer is equipped with a conductor made of a material different from the material of thermoelectrodes, one end of which is connected to one of the thermoelectrodes and forms an additional junction, and the other end of the conductor is located inside the case in the area of the hot thermometer. In addition, the conductor is made of the material of the second thermoelectrode, and an additional junction is formed at the point of connection of the extension wire. The drawing shows schematically a thermoelectric thermometer. The thermometer contains thermoelectrodes I and 2, made of dissimilar materials, connected to the working junction 3, conductor 4, forming junction 5 with the thermoelectrode 1, while the conductor is made of a thermometer. different from the material of thermoelectrodes. Those 38 moelectrodes 1 and 2, connected to junction 3, and the free end of conductor 4 are placed in a protective cover 6. When the cover 6 is healthy, the circuit of conductor 4 is open and it has no effect on the readings of the thermometer. When the seal 6 is depressurized, the electrically conductive liquid 7 goes inside -. cover, closes the thermoelectrodes and the conductor between them at the bottom. As a result of this, a closed circuit is formed — a thermal electrode 1 — a conductor 4, that. entails a characteristic change in the thermometer, for example, spasmodic. The nature of this change will depend on the choice of the material of the conductor 4 and the dissipation of the spa 5. The conductor 4 can be made of the material of the thermoelectrode 2, and an additional junction is formed at the attachment point of the extension wire. If conductor 4 is made of the same material as thermoelectrode 2, and junction 5 is chosen to the point of connection of the extension wire, tsmm, the thermoelectric electrode and the conductor in the lower part of the thermopower case in the circuit, thermoelectric electrode 1 - junction 5 liquid 7, and thermoelectrode 2 will be. equals zero. The use of the invention allows to provide information reliability of temperature measurements of electrically conductive liquids with the help of a well-defined thermoelectric thermometer. 1. Thermoelectric thermometer for measuring the temperature of electrically conductive media, consisting of two thermoelectrodes interconnected in a junction and placed in a protective sheath, characterized in that, in order to monitor the leak tightness of the sheath, thermoelectrodes other than material, one horse of which is connected to one of the thermoelectrodes and forms an additional junction, and the other end of the conductor is placed inside the cover in the area of hot spa thermome tra. 2. Thermometer according to claim., It is different from that with the fact that the conductor is made of the material of the second thermal electrode. 3. A thermometer according to claim 1, wherein a further junction is formed at the connection point of the extension wire. Sources of information taken into account in the examination 1. A. N. Gordov and others. Methods for measuring temperatures in industry. State Scientific and Technical Publishing House of Ferrous and Non-ferrous Metallurgy Literature. M., 1952, p. 198-199. 2. Gordov, A.N., et al. Methods for measuring temperatures in industry. State scientific and technical publishing house of literature on ferrous and non-ferrous metallurgy. M.,} 952, p. 198 (prototype).