SU972424A1 - Thermomagnetometer - Google Patents

Description

(54) THERMOMAGNETOMETER

one

The invention relates to the field of magnetic measurements, in particular to devices for studying the magnetic properties of rocks in a wide range of temperatures.

A vibrating sample magnetometer is known, comprising a vibrator, a sample holder associated with the vibrator, a magnetizing device, magnetic field sensors, a measuring circuit, a Heater, and a temperature meter. The heater is wound on a special sample holder of monocrystalline quartz, the temperature meter is made in the form of a thermocouple glued to the holder, and the sample is glued to the pestle installed in the sample holder 1.

The disadvantage of this magnetometer is the low accuracy of measuring the temperature of the sample under investigation, due to the fact that the thermocouple measures the temperature of the holder of monocrystalline quartz, on which the heater is bifilically wound, and not of the sample glued to the pestle.

The closest technical solution to the invention is a vibrating sample magnetometer comprising a vibrator, a sample holder associated with the vibrator, a magnetizing device, magnetic field sensors, a measuring circuit, a heater, and a temperature meter. The heater is made in the form of a plasma torch, and the temperature meter is in the form of a thermocouple welded to sample 2. A disadvantage of the known magnetometer is the low accuracy of measuring the temperature of the sample of porous carbon due to the impossibility of welding the thermocouple to the rock sample and the instability of the mechanical contact under conditions x vibration effect. The aim of the invention is to improve the measurement accuracy.

15 The goal is achieved by the fact that in a thermomagnetic containing a vibrator, a sample holder associated with a vibrator, a magnetizing unit, magnetic field sensors, a heater and a temperature meter 20, the latter is made as part of an elliptical reflective surface with a temperature sensor located in the focus of the reflective surface, the second focus of which is combined with the working part of the sample holder. The essence of the invention is that part of the heat rays coming out of the heated sample located in one focus of the elliptical reflector, in accordance with the property of the ellipse, is collected on a temperature sensor located in the second focus, which allows non-contact to accurately measure the temperature of the vibrating sample. Making the sample temperature meter as part of an elliptical reflecting surface, placing the temperature sensor in one focus, and holding the sample holder in another focus is necessary and sufficient to transmit the infrared radiation of the rock sample to the temperature sensor and, as a result, non-contact temperature measurement and, therefore, increase accuracy measuring the temperature of the vibrating sample. FIG. 1 shows a thermo magnetometer, a cut; in fig. 2 - thermo-magnetometer without top magnet, top view. The thermo magnetometer contains a vibrator 1 connected to a holder 2 of sample 3, a magnetic system 4, sensors 5 magnetic field, reflecting heater cavity 6, heat source 7, elliptical reflecting surface 8 temperature meter 9 and temperature sensor 10, made for example in the form of a thermistor . The measuring circuit is not shown in the drawing. The working part of the holder 2 of the sample 3 is located in the nozzle of the elliptical reflective surface at the temperature meter 9.

Claims (2)

FIG. 1 The device operates as follows. Rock sample 3, mounted in holder 2, heated to operating temperature, becomes a source of infrared radiation. The heat rays, reflected from the walls of the elliptical reflective surface 8 of the temperature meter 9 in accordance with the property of the ellipse, are sibling in a second focus coinciding with the temperature meter 9. Such an embodiment of the device eliminates the error in the contact measurement of the temperature of the vibrating sample and thereby allows an increase in the accuracy of the measurement of the temperature of the sample. An inventive thermo magnetometer containing a vibrator, a sample holder associated with a vibrator, a magnetizing unit, magnetic field sensors, a heater, and a temperature meter, characterized in that, in order to improve the measurement accuracy, the temperature meter is made as part of an elliptical reflective surface with a temperature sensor located in the nozzle of the reflective surface, the second focus of which is combined with the working part of the sample holder. Sources of information taken into account during the examination 1. USSR author's certificate No. 361452, cl. G 01 R 33/04, 1972. 2. USSR author's certificate number 473971, cl. G 01 R 33/14, 1975. eight FIG. 2