SU998987A1 - Thermomagnetometer - Google Patents

Description

(5) THERMOMAGNETOMETER

Claims (2)

The invention relates to magnetic measurements, in particular to devices for studying the magnetic properties of rocks in a wide range of temperatures. A thermomagnetic device containing a vibrator, a sample holder associated with a vibrator, a magnetizing unit, magnetic field sensors, a measuring unit and an elliptical heater are known. which is made in the form of a truncated ellipse and forms at least a part of the torus, the heat source is located in the focus of the reflecting cavity, the second focus of which coincides with the working part of the holder ca ft. A disadvantage of a thermo magnetometer is design complexity. Also known is a thermo-magnetometer containing a vibrator, a sample holder associated with a vibrator, a magnetizing unit, magnetic field sensors, a temperature sensor, a heater 2 The disadvantage of this thermomagnetic device is a narrow dynamic range. The purpose of the invention is to expand the dynamic range; The goal is achieved by the fact that in a thermomagnetic device containing a vibrator, a sample holder associated with it, a magnetizing unit, magnetic field sensors, a temperature sensor and a heater, the heater is made in the form of two flat bases with grooves into which the reflector is mounted, and with holes There is a temperature sensor installed in it. In addition, the reflector is made in the form of a cylinder with a generator in the form of ellipses, in which one focus is common; And the holes in the flat bases of the heater coincide with other foci of the ellipses forming the reflector. FIG. Figure 1 shows a thermo magnetometer with the upper base removed. view from above; in fig. 2 - front view thermo-magnetometer; Fig. 3 shows a thermo-magnetometer with the upper base removed, the heater of which is made in the form of a cylinder with a generator in the form of two ellipses, in which one focus is common, a top view; in fig. thermo-magnetometer with the upper base removed, heater and temperature sensor, top view. The thermo magnetometer contains a vibrator 1 connected to the sample holder 2, a magnetizing unit 3, magnetic field sensors, a heater in the form of two flat bases 5 and 6 with a reflector 7 installed between them. Each of the bases has grooves 8 and holes 9 with holders installed in them (not shown) of the heating element 10, in the hole 9, which coincides with the focus of one of the ellipses forming the reflector 7, a sensor 11 of the temperature of the rock sample 12 is installed. The device is made as follows. Upper and lower bases 5 and 6 are cut out of fiberglass. The grooves 8, 3-5 mm deep, are installed on each base, in which the reflector 7 is made of silver. brass or polished aluminum. The bases are fastened together with racks (not shown). In the bases, in the area of foci, holes 9 are made into which heating elements 10, for example, a nichrome spiral, are mounted in the holders. In one of the focuses set the sensor 11 temperature, for example a thermistor. In a magnetometer with a heater made in the form of two flat bases with grooves in which a reflector is installed, and openings in one of which a temperature sensor is installed, the separation between the poles of the magnetic system is significantly reduced, thereby maximizing the maximum magnetic field strength. between the poles of the magnet, and therefore in the sample. Thus, it became possible to expand the dynamic range of the magnetic field intensity in the sample. Claim 1. Thermo-magnetometer containing a vibrator, associated sample holder, magnetizing unit, magnetic field sensors, temperature sensor and heater, characterized in that, in order to expand the dynamic range, the heater is made in the form of two flat bases with grooves a reflector, and holes, in one of 25 of which a temperature sensor is installed, 2. A thermal magnetometer according to claim 1, characterized in that the reflector is made in the form of a cylinder with a generator in the form of ellipses, which have yn is a common focus. 3. The thermo magnetometer according to claim 1, arising from the fact that the holes in the flat bases of the heater coincide with other foci of the ellipses forming the reflector. Sources of information taken into account in the examination 1. USSR author's certificate for application No. 292 697 / 18-21, cl. G 01 R 33/02, 19 VO. 2. USSR author's certificate as per Vf 29b5b72, c. 01 R 33/02, 1980.