RU57515U1 - THERMOELECTRIC CONVERTER - Google Patents

Abstract

The utility model relates to measuring equipment, in particular, to means for measuring temperature and can be used to protect thermocouples when measuring the temperature of glass melt.

The thermoelectric converter includes platinum-containing thermoelectrodes isolated from each other by ceramic straws and placed in protective fittings consisting of internal and external ceramic covers. The end of the outer surface of the inner ceramic cover is reinforced with a platinum tip. Ceramic straw is made of two channels.

Effect: increase the reliability of the thermoelectric converter by increasing the reliability of the protective structures of the thermocouple from chemical and abrasive effects of the environment.

Description

The utility model relates to measuring equipment, in particular, to means for measuring temperature and can be used to protect thermocouples when measuring the temperature of glass melt.

Known thermoelectric converters, including a thermocouple placed in a protective cover, the thermoelectrodes of which are isolated from each other by a short ceramic straw ("Thermoelectric converters of the type TPP-1788, TPR-1788, TPR-1988 according to the technical specifications TU 25-5Ts2.822.041-89") .

A disadvantage of the known converters is their low reliability due to the fact that the thermoelectrodes are insulated with short straws, which does not prevent the diffusion of rhodium from platinum rhodium thermoelectrode to platinum.

The prototype closest to the claimed utility model in terms of the essential features is a thermoelectric converter (RU 11392U1, class 6 H 01 L 35/00, publ. 1999.09.16), including platinum-containing thermoelectrodes isolated from each other with ceramic straws and placed in protective fittings consisting of internal and external ceramic covers,

the space between which is filled with mineral insulation. The straw is made single-channel and strung on each thermoelectrode so that the joints of the straw strung on one thermoelectrode coincide with the body of the straw strung on another thermoelectrode.

A disadvantage of the known thermoelectric converter is the low reliability of the thermocouple when measuring the temperature of the molten glass due to the chemical and abrasive effects of the medium on the outer ceramic cover.

The proposed utility model solves the problem of increasing the reliability of the thermoelectric converter when measuring the temperature of the glass melt by protecting the outer surface of the inner ceramic cover from chemical and mechanical effects.

To achieve the specified technical result in a thermoelectric converter, including platinum-containing thermoelectrodes isolated from each other by ceramic straws and placed in protective fittings consisting of internal and external ceramic covers, the end of the outer surface of the internal ceramic cover is reinforced with a platinum tip.

Distinctive features of the proposed thermoelectric converter from the above known, closest to it in the totality of essential features, is that the end of the outer surface of the inner ceramic cover

reinforced with a platinum tip, and the ceramic straw is made of at least two channels.

Due to the presence of these signs, the problem of improving the reliability of the device when measuring the temperature of the glass melt is solved due to the fact that the platinum tip is resistant to abrasive and chemical influences of the environment and, in addition, the outer cover partially protects the inner one.

The essence of the utility model is illustrated in the drawing, which schematically shows a General view of the thermoelectric transducer in section.

The thermoelectric converter contains a thermocouple 1, consisting of platinum rhodium and platinum thermoelectrodes, isolated from each other by two-channel ceramic straws 2 and enclosed in an internal ceramic cover 3 and an outer ceramic cover 4, designed to protect the thermocouple 1 from the aggressive effects of high-temperature environment. The end of the outer surface of the inner ceramic cover 3 is reinforced with a platinum tip 5 to protect the thermocouple from chemical and abrasive effects of the environment. A ceramic metal tube 6 is attached to the outer ceramic case 4, which serves to connect the outer ceramic case 4 to the head 7, designed to accommodate contact terminals, which are used to connect the thermocouples of the thermocouple 1 to the measuring circuit of the electronic device.

When measuring the temperature of the molten glass, the end of the protective reinforcement with a thermocouple 1 reinforced with a platinum tip 5 is gradually lowered into the molten glass. The magnitude of the thermoelectromotive force arising between the free ends of the thermoelectrodes in the head 7 is converted into a readout convenient for reading or recording the readings of an electronic measuring device connected to the terminal contacts in the head 7. The temperature of the glass melt is determined from the readings of the electronic measuring device.

Claims (1)

A thermoelectric converter, including platinum-containing thermoelectrodes, isolated from each other by ceramic straws and placed in protective fittings consisting of internal and external ceramic covers, characterized in that the end of the outer surface of the internal ceramic cover is reinforced with a platinum tip.