RU80945U1 - TEMPERATURE SENSOR - Google Patents

Abstract

The utility model relates to thermometry, specifically to contact temperature sensors.

The objective of the utility model is to expand the range of use with high structural strength.

This object is achieved in that in the temperature sensor containing a metal sleeve connecting the two parts of the structure, the first of which is made in the form of a protective metal sleeve with a thermosensitive element located in it, a protective metal sleeve, on one side of which a plug is welded, the other side is connected to a piece of cable to which a metal sleeve is welded, while the second part of the sensor design is made in the form of a flexible wire with a bandage, and the heat-sensitive element Assumption in the protective metal sleeve next to the stub, heat-resistant pin coupled to the cable pin further inside the metal sleeve of the cable terminals are soldered to the terminals of the flexible wires, wherein the space inside the protective metal sleeve is filled with alumina, while the space inside the metal sleeve sealed filled adhesive.

Description

The utility model relates to thermometry, specifically to contact temperature sensors.

Known resistance thermometer containing a frame in which a heat-sensitive wire with leads [1] is laid.

The disadvantages of the known device is that the thermometer is not designed to measure the temperature of liquid and gaseous media under pressure, and, therefore, has a low reliability and structural strength.

Closest to the proposed technical solution is a temperature sensor containing a heat-sensitive element fixed in a metal sleeve and a tooth-shaped carrier tube connected by a sleeve, while the teeth on the carrier tube and sleeve are made in the form of an internal triangular thread, and the connecting sleeve is made of metal, on the outer surface of which is made of longitudinal protrusions of a triangular shape, the bases of which are in contact, and the cavity of the thread and between the protrusions are filled with heat-insulating fasteners material, such as epoxy resin, and the thread and the projections are mutually perpendicular to each other [2].

The prototype device has structural strength, but its disadvantage is the inability to access the necessary places for measurements, a narrow range of use.

The objective of the utility model is to expand the range of use with high structural strength.

This object is achieved in that in the temperature sensor containing a metal sleeve connecting the two parts of the structure, the first of which is made in the form of a protective metal sleeve with a thermosensitive element located in it, a protective metal sleeve, on one side of which a plug is welded, the other side is connected to a piece of cable to which a metal sleeve is welded, while the second part of the sensor design is made in the form of a flexible wire with a bandage, and the heat-sensitive element Assumption in the protective metal sleeve next to the stub, heat-resistant pin coupled to the cable pin further inside the metal sleeve of the cable terminals are soldered to the terminals of the flexible wires, wherein the space inside the protective metal sleeve is filled with alumina, while the space inside the metal sleeve sealed filled adhesive.

The figure shows the design of the proposed temperature sensor containing a metal sleeve 1 connecting

two parts of the structure, the first of which is made in the form of a protective metal sleeve 2 with a heat-sensitive element 3 located in it. A protective metal sleeve 2, on one side of which a plug 4 is welded, the other side is connected to a length of cable 5 to which the metal sleeve 1 is welded, the second part of the sensor design is made in the form of a flexible wire 6 with a bandage, moreover, the heat-sensitive element 3 located in the protective metal sleeve 2 next to the plug 4 is connected by heat-resistant terminals with odes cable 1 further conclusions cable 6 are soldered inside a metallic sleeve to the terminals of the flexible wires, wherein the space inside the protective metal sleeve is filled with alumina, while the space inside the metal sleeve sealed filled adhesive.

The proposed device operates as follows. The thermosensitive element 3, made either by spraying or with a thermally sensitive wire wound, is placed in a protective metal sleeve 2 next to the plug 4. When the temperature sensor is placed in the measured medium, the resistance of the thermosensitive element 3 changes under the influence of temperature.

The proposed temperature sensor is used to measure the temperature of the air at atmospheric pressure in deep mines, pockets, wells, in particular in autoclaves

crystal growing, and can also be used to calibrate the transducers by direct comparison in areas of operating temperatures.

The thermowells of the temperature sensor are made on the basis of the KTMC-M flexible cable (cable with copper conductors in a steel sheath with mineral insulation). When installed on technological equipment of complex geometry and in inaccessible places, it is allowed to bend the temperature sensors along the length to place the sensitive element in the required measurement zone. The sensor can withstand one bend cycle at an angle of 180 ° around the cylinder with a diameter equal to five times the diameter of the cable. The first bend should be located at a distance of at least 135 mm from the working end of the thermowell.

Information sources

1. A.S. No. 1167449, G01K 7/06, “Resistance Thermometer”, publ. 07/15/1985

2. Application No. 94011985, G01K 7/16, “Temperature sensor”, publ. 12/10/1995

Claims (1)

A temperature sensor containing a metal sleeve connecting two parts of the structure, the first of which is made in the form of a protective metal sleeve with a thermosensitive element located in it, characterized in that the protective metal sleeve, on which one end is a plug, is connected to a cable segment on the other side, to which a metal sleeve is welded, while the second part of the sensor design is made in the form of a flexible wire with a bandage, and the heat-sensitive element located in the protective the metal sleeve next to the plug is connected by heat-resistant leads to the cable leads, then inside the metal sleeve the cable leads are soldered to the leads of the flexible wire, while the space inside the protective metal sleeve is filled with aluminum oxide, and the space inside the metal sleeve is filled with hermetic glue.