SU1157370A1 - Device for measuring heating and heat carry-over of heat-insulating material - Google Patents

Abstract

A DEVICE FOR MEASURING A WARMING-UP AND A DRAIN OF A HEAT-INSULATING MATERIAL containing a body made in the form of a zipindra from the material under study and thermocouples with isothermal sections located at different levels inside the body, characterized in that, in order to improve the accuracy of the measurement, while increasing the accuracy of the measurement, while increasing the accuracy of the measurement, while increasing the accuracy of the measurement, while increasing the accuracy reliability, the body is made stepwise with annular grooves adjacent to the side surfaces of the steps with the formation of an axial longitudinal settlement in the form of a comb, and is isothermal ue portions of thermocouples are arranged at an average arc. the circumference of the end of each degree. Fig. /

Description

H3o6peteHHe is related to thermometry and can be used in a device for measuring the warming up and the strain of insulating material. A device for measuring heating and entrainment of a heat insulating material is known, comprising a housing made of a test material, in which a temperature-sensitive element is located, one of whose electrodes is stepped and contains areas capable of restoring this device’s Cone-restraint because of the low accuracy of measurement, that during measurements it is not possible to ensure reliable sealing of the location zone of the thermosensitive element and gases, arresting into the measurement zone, cause a disturbance emperaturnogo floor of the test section. The closest in technical essence and the achieved result to the proposed is a device for measuring the heating and entrainment of heat insulating material containing a body made in the form of a cylinder of the material under study: and thermocouples with isothermal sections located at different levels inside the body 2 j. A disadvantage of the known device is the low measurement accuracy due to the fact that when exposed to a high-temperature gas flow, the sealing of the adhesive bond and the temperature field under investigation are destroyed. In addition, the known device has a low operational reliability, since the sealing of the heat-sensitive elements is made in the form of a simple planar seam, which is destroyed much faster than the test material. The purpose of the invention is to improve the measurement accuracy while increasing operational reliability. The goal is achieved by the fact that, in a device for measuring the heating and deun- sion of thermal insulation material, comprising a housing made in the form of a cylinder from the material under study and a thermocouple with isothermal sections located at different levels inside the housing, the latter is made stepwise with core holes. grooves adjacent to the side surfaces of the degrees with the formation of an axial longitudinal settlement in the form of a comb, and the isothermal sections of thermocouples are located along the arc of the average circumference of the end of each step. Due to the presence of a labyrinth adhesive seal in the form of stepped protrusions with grooves in the proposed device, it is possible to ensure the spread of the ablation front of the material under investigation without distorting the temperature field, which leads to an increase in measurement accuracy. The same purpose is served by the location of the isothermal sections of thermocouples along the arc of the average circumference of the end face of the step, since this eliminates the distortion of the temperature field in the direction perpendicular to the axis of the device. At the same time, the operational reliability of the device is increased, since the labyrinth seal of the adhesive joint prevents the penetration of hot gases into the side surface area of the device. Figure 1 shows the device installed in the test material; in fig. 2 - the device case, end view. The device comprises a housing 1 made of the material under study, annular steps 2 of the housing with grooves 3, in which thermocouples 4 are located, electrodes 5 of the thermocouple in isolation, and the housing 1 is located in the test material 6 from which the ends of the thermocouples 7 come out. , the flat ends of the annular stages 8, the flat end of the central degree 9, the outer surface of the material under investigation tO, the lateral surface of the sensor 11. The isothermal sections of thermocouples 4 you-. They are filled in the form of bent niobium plates located along the arc of the average circumference of the end of each step 8. To ensure tightness, the entire surface of the contact of the housing 1 with the material 6 to be tested, except for the contact zones of the isothermal sections of the thermocouples 4, is installed with an adhesive material. The device works as follows. The housing of the device 1 is introduced into the study - “ni material 6 without gaps along i

The BOLOVO surface 11, the surfaces of the central stage 9 and the peripheral stages 8, with all these surfaces previously covered with adhesive material. When exposed to high-temperature gases, the material under study is heated 6. The signals from the hot junctions of thermocouples 4 along thermoelectrodes 5 s it. endings 7 are received on the recording equipment (not shown). By knowing the levels of the thermocouple bedding 4, the entrainment of the heat insulating material 6 is determined at the moments of the destruction of the thermocouple and the corresponding opening of the thermocouple electrical circuit. The arrangement of thermocouples 4 in the peripheral annular steps x 2 allows, along with the registration of the warm-up and entrainment of material 6, to confirm the stability of this in 1573704

laziness in space during the entire operation of the device.

I

The proposed device has a high measurement accuracy, since its introduction into the heat insulating material under study does not violate the homogeneity of this material in the direction of the temperature fields propagation from the external surface of the material to the zone of location of isothermal sections of thermocouples. At the same time, it is possible to increase the operational reliability of the device,

5 since the ring labyrinth seal of the glue joint of the device case with the heat insulating material under study provides a greater resistance to gas penetration by compaction.

Claims (1)

DEVICE FOR MEASURING HEATING AND WEAR OF HEAT-INSULATING MATERIAL, comprising a housing made in the form of a cylinder of the studied material and thermocouples with isothermal sections located at different levels inside the housing, characterized in that, in order to increase the measurement accuracy while increasing operational reliability, the housing is stepped with annular grooves adjacent to the side surfaces of the steps with the formation of an axial longitudinal section in the form of a comb, and isothermal ki thermocouples arranged along the arc of the circumference of the end face of each secondary level. _Λ