SU1635095A1 - Device for differential thermal analysis - Google Patents

Abstract

The invention relates to thermal analysis, in particular to devices for thermal analysis, and can be used to conduct research at low temperatures. The purpose of the invention is to reduce the power consumption of the device by eliminating and reducing refrigerant consumption. The casing of the heater is made in the form of three coaxial cylinders, which are formed by means of two partitions located inside the casing of the heater. The height of the partitions decreases from the outer wall of the housing to the heater, the middle cylinder being separated from the upper part of the housing and the heater by a partition that does not reach the lower part of the heater. The vaporized refrigerant is located in the middle of the casing cylinder, and the opening for discharge of the evaporated refrigerant is located in the lower part of the outer cylinder of the heater casing. 1 il cl

Description

The invention relates to thermal analysis and can be used to conduct research at low temperatures.

The purpose of the invention is to reduce the analysis time.

The drawing shows a schematic diagram of the proposed device.

The device for differential thermal analysis contains a heater 1, a heater temperature control system according to a predetermined program consisting of a power supply 2 and a regulator 3, a heater casing 4, which is divided internally by two partitions 5 and 6 into three coaxial cylinders, the middle cylinder being separated from the upper part of the casing and heater partition 7, installed with a gap relative to the bottom

the outer cylinder of the casing 4, in the lower part of which there is a hole for the output of the evaporated refrigerant. Inside the heater there are sample holders 8 and reference 9 with temperature-sensitive elements, the signal from which goes to the recorder 10.

The device works as follows.

Before the start of the experiment, an evaporating coolant is placed inside the casing 4 of the middle cylinder. The last one is vaporized. cools the heater 1. Evaporated refrigerant, peO

from the next

The heat of heater 1 to the liquid refrigerant causes the latter to evaporate. When the temperature of the heater 1 decreases, the temperature of the evaporated refrigerant decreases and, therefore, less intensive evaporation of the liquid refrigerant occurs, automating the adjustment of the amount of refrigerant necessary to cool the heater. Thus, in cooling mode, the heater acts as both a heater and an evaporator, and in heating mode only as a heater.

The vaporized refrigerant layer, located between the heater and the evaporating refrigerant, reduces heat loss to the environment.

Claims (1)

An apparatus for differential thermal analysis, comprising holders for a sample and a reference with temperature-sensitive elements, a heater placed in a housing and connected in series with a power source and a heating regulator, as well as a recorder, characterized in that , the heater casing is made in the form of three coaxial cylinders, the middle cylinder being separated from the upper part of the casing and the heater by a partition mounted with a gap relative to the lower part and a casing, and a hole is made in the lower part of the outer cylinder of the casing. Refrigerant selection Login | refrigerant 1