RU58703U1 - RESISTANCE THERMAL TRANSDUCER - Google Patents

Abstract

The utility model is aimed at reducing self-heating of the sensing element and reducing overall dimensions. The specified technical result is achieved by the resistance thermoconverter, it contains a tube-shaped body, a sensitive element in the form of a wire coil with a frame, an insulator and electrical terminals of the thermoconverter placed in it. In addition, a heat-conducting housing tip is introduced that is in thermal contact with the frame, while the coil is wound on the frame in several layers, the insulator is connected to the frame through a transition cylinder and is made in the form of a plate with contact pads on which the terminals of the coil of the wire of the sensing element are electrically connected to the terminals resistance thermoconverter. The tip of the body is made as a unit with the frame. The insulator is made in the form of a strip. 1 n.p. f-ly, 1 ill.

Description

The utility model relates to the field of measurement technology and can be used to measure the temperature of gaseous, liquid and granular media by immersion.

Known resistance thermometer (SU, copyright certificate No. 861977, publ. 07.09.81, bull. No. 33) containing a frameless thermosensitive wire element in the form of a coil, placed in a rigid hermetic shell with a filler, and non-conductive powder is used as a filler, wetted by a liquid dielectric.

The disadvantage of the thermometer is self-heating of the inner layers of the coil of the thermosensitive element under the influence of the measuring current due to the large thermal resistance between these layers and the medium.

A device of a platinum resistance thermometer (SU, copyright certificate No. 161540, publ. March 19, 64, bull. No. 7) is known, comprising a copper frame placed in the housing with a double thread along the entire length, in the hollows of which an enameled platinum wire of the sensing element is laid, the ends of which are soldered to the electrical terminals of the thermometer in the grooves of the insulating sleeve located in the housing.

The disadvantage of the thermometer is the large size due to the large overall dimensions of the sensitive element during sparse laying of wires in the troughs of the thread on the surface of the frame and self-heating of the sensitive element under the influence of the measuring current due to the large thermal resistance between the frame and the medium.

The objective of the utility model is to reduce the self-heating of the sensitive element under the influence of the measuring current and to reduce the size of the thermometer.

The problem is solved in that the resistance thermoconverter contains a housing in the form of a tube, a sensing element placed in it in the form of a wire coil with a frame, an insulator and electrical terminals of the thermoconverter. In addition, a heat-conducting housing tip is introduced that is in thermal contact with the frame, while the coil is wound on the frame in several layers, the insulator is connected to the frame through a transition cylinder and is made in the form of a plate with contact pads on which the terminals of the coil of the wire of the sensing element are electrically connected to the terminals resistance thermoconverter. The tip of the body is made as a unit with the frame. The insulator is made in the form of a strip.

The figure shows a thermal resistance transducer in section.

The resistance thermoconverter consists of a tip 1 of a conical-shaped frame made of copper or a copper alloy, a frame 2 of a sensitive element adjacent to the base of the cone of the tip 1 and made as a unit with it, a sensitive element 3 in the form of a multilayer coil of copper wire wound on a frame 2. The thermoconverter contains a protective metal tube 4, tightly attached to the tip 1, for example, with glue, a transition cylinder 5 of dielectric material, attached to the end of the frame 2, an insulator 6 with contact pads 7 attached to the transition cylinder 5, leads 8 of the coil of the sensing element 3, passed through holes or cuts in the transition cylinder 5 and soldered to the contact pads 7 of the insulator 6; electrical leads 9 of the resistance thermoconductor soldered to the contact pads 7 of the insulator 6.

The resistance transducer operates as follows

Before measuring the temperature, the thermocouple is immersed in the test medium to a depth exceeding the total length of the tip 1 and frame 2, and maintained until thermal equilibrium is established with the medium. When measuring temperature, a measuring electric current is passed through the coil of the sensing element 3. Due to the current power, heat is generated in the coil. From the outer layers of the coil of the sensing element 3, heat is removed through the gap between the element 3 and the tube 4 and through the tube 4 to the medium, from the inner layers of the coil of the sensing element 3 heat is removed through the heat-conducting frame 2 and tip 1 to the medium. As a result, a minimal self-heating of the sensitive element by measuring current is achieved and the error in measuring the temperature of the medium is reduced. Moreover, due to the implementation of the sensitive element in the form of a multilayer coil, its overall dimensions and dimensions of the resistance thermoconverter are reduced.

Claims (3)

1. Thermal resistance transducer, comprising a housing in the form of a tube, a sensing element in the form of a coil of wire with a frame placed in it, an insulator and electrical leads of a thermal transducer, characterized in that a heat-conducting housing tip is added that is in thermal contact with the frame, while the coil is wound on the frame in several layers, the insulator is connected to the frame through the transition cylinder and is made in the form of a plate with contact pads on which the conclusions of the coil of the wire sensitive lementa electrically connected to the resistance terminals thermocouple. 2. The resistance thermoconverter according to claim 1, characterized in that the housing tip is made as a unit with the frame. 3. The resistance thermoconverter according to claim 1, characterized in that the insulator is made in the form of a strip.