SU1695148A1 - Temperature transducer - Google Patents

Abstract

The invention relates to a measurement technique and is intended for use as a temperature measuring transducer. The purpose of the invention is to reduce inertia. The device contains a sensing element 1 attached by an adhesive 2 to an insert 3, the conical part entering the cartridge 4. The latter is placed in the sensor housing 5. The pressing of the insert to the side walls of the housing made through the washer 6 by means of the spring 7 by tightening the nut 8; the taper of the cavity of the cartridge is 20-60 ° C, the length of the longitudinal slits in the tapered part - 1.5-2 0 diameters of the cartridge 2 silt

Description

The invention relates to measuring equipment and is intended for use as a temperature measuring transducer.

The purpose of the invention is the reduction of inertia.

Figure 1 shows the device, a General view; figure 2 is a conical split cartridge, a view from the side of the placer.

The device contains a sensing element 1, attached by glue 2 to the conical-shaped insert 3 installed inside the cartridge 4. The cartridge 4 with longitudinal sections in the conical part is placed in the sensor housing 5. The length of the cuts of the cartridge 4 exceeds its outer diameter by 1.5 = 2 times. The clamp of the insert 3 to the side walls of the cartridge 4 is carried out through the washer 6 by means of a spring 7 by screwing the nut 8. The cartridge 4 and the insert 3 have a taper angle of 20-60 °.

During the operation of the sensor, the temperature difference between the environment and the sensor element 1 leads to the appearance of heat flow through the sensor housing 5 and the contact of the inner surface of the housing 5 with the outer surface of the cartridge 4. This contact has a significant area due to the wedging of the cartridge 4 perpendicular to the conical surface of the junction of the cartridge - insert components of the axial compression force of the spring 7. which provides good heat transfer. Further, the heat flow passes through the cartridge 4 and the contact of the inner surface of the cartridge 4 with the liner 3. Since the junction of the inner surface of the cartridge and the liner has a large area, good heat transfer to the adhesive 2 and further to the sensitive element 1 is ensured.

Thermal contact between the inner surface of the sensor housing 5 and the sensing element 1 attached to the liner is ensured by small angles between the surface of the sensor housing 5 and the cylindrical outer surface of the cartridge 4, the conical inner surface of the cartridge and the surface of the liner 3 due to the selection of small gaps in the structure when preloading the liner 3.

The length of the cuts of the cartridge 4 should provide the maximum contact area of the surfaces of the cartridge 4 and the housing 5 of the sensor; with a short cut length, the thermal contact will be carried out in the immediate vicinity of the end face of the cartridge 4, hence the length of the cuts should be quite large.

With a greater length of cuts of the cartridge 4, the uniformity of its fit to the housing 5 of the sensor will be less and with an increase in the length of the cuts, a significant improvement in thermal contact will not occur.

Thus, the length of the cuts of the cartridge 4 should be (1.5 ~ 2) d.

The taper of the cavity of the cartridge 4 ensures collapsibility of the structure, despite the fact that jamming and complication of disassembly of the sensor is inevitable at small angles, the radial component decreases at large angles, expanding the cartridge 4 when the liner 3 is pressed by the spring 7. To prevent these complications, the taper value from 20 to 60 °.

When replacing the sensor 1, disconnect the sensor connector, remove the insert 3 with the sensor 1 and replace it with a new one.

Claims (1)

Claim A device for measuring temperature, comprising a cylindrical body with a spring-loaded sensing element, characterized in that. that, in order to reduce inertia, a cartridge is inserted into the housing, one end of which is equipped with an axial conical blind hole and longitudinal diametrically arranged cuts with a length of 1.5-2 times the larger diameter of the cartridge, and a conical insert with a taper angle of 20-60 ° installed in the hole, while the other end of the cartridge abuts against the wall of the enveloping body with the gap of the housing, and the sensing element is rigidly attached to the outer end of the liner. Fz.2 • Compiled by L. Balyanin