SU1171674A1 - Heat flow transducer - Google Patents

Abstract

THERMAL FLOW SENSOR, mainly for biological research, includes a housing with a supporting plane, made of thermal insulation material, inside which a battery of differential thermocouples is located, a heat pipe and a thermal stabilization system, characterized in that in order to reduce the error and increase the sensitivity of local heat flux density measurement , the hot junctions of the battery of differential thermocouples are located on the side surface of the heat conductor, and the cold junctions are brought into the system mostabilizatsii, wherein the heat-end of the heat conductor protrudes beyond the supporting plane of the housing to a height where ST - teplovosprinimayuschogo end area $ heat conductor at the reference plane of the housing, K 2 mm - coefficient obtained: (A ny empirically O). 4

Description

The invention relates to the field of thermometry.

The purpose of the invention is to reduce the error and increase the sensitivity of measuring the density of local heat fluxes.

The drawing shows the proposed sensor, general view.

The heat flux sensor contains a housing 1 with a battery of differential thermocouples 2. It is equipped with a battery of differential thermocouples 2 in the form of a cylinder so that the hot junctions are on its inner surface and the cold ones are on the outside. The heat pipe 3 (made, for example, from -media) is located in the inner part of the cylinder and contacts the hot junctions of the battery of thermocouples 2, and the thermal stabilization system 4 is connected with the cold junctions of the thermocouple batteries. The heat-receiving end of the heat pipe 5 is made protruding beyond the reference plane A of the sensor housing

to

h heat flux to a height of ii -r№.-, where ST is the area of heat-receiving end 5, and K 2 mm (coefficient obtained experimentally). Opposite non-working end 6 heat conductor

insulated. It is in contact with housing 1, which is made of thermal insulating material. The surface of the conical part of the heat pipe is also insulated to prevent lateral heat leaks.

The heat flux sensor works as follows.

The sensor is attached to the object to be examined. The heat flux through the heat-absorbing end 5 of the heat pipe 3 along the axis of the latter propagates towards the end 6. Since this end is thermally insulated, further propagation along the axis of the heat conductor is excluded and the heat flux flows only through the side surface of the cylindrical part of the heat conduit 3 thermocouple battery 2. A temperature difference arises between the hot and cold junctions of the thermocouple battery 2.

Sensor readings are taken at steady thermal conditions. The part of the side surface of the heat pipe 3, on which there are no hot thermopile junctions, which is thermally insulated using the housing 1, is made conical to improve the manufacturability of the sensor.

Claims (1)

HEAT FLOW SENSOR, mainly for biological research, containing a housing with a supporting plane made of heat-insulating material, inside of which there is a battery of differential thermocouples, a heat conduit and a thermal stabilization system, characterized in that, in order to reduce the error and increase the sensitivity of local heat density measurement flows, hot junctions of batteries of differential thermocouples are located on the lateral surface of the heat conduit, and cold junctions are output to the thermostat system ilizatsii, wherein the heat-end of the heat conductor protrudes beyond the supporting plane of the housing at height h = - ^ | ^, where S _T - area heat conductor in heat-end support plane of the housing, K = 2 mm ² - coefficient obtained empirically.