SU991340A2 - Thermomagnetometer - Google Patents

Description

(5) THERMOMAGNITONETER

one

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

According to the main author. St. No. 922670 is known for a thermo magnetometer containing a vibrator, a sample holder connected to it, a magnetizing unit, magnetic field sensors, a heating element, a QT element, a reflector formed by rotating an ellipse around one of its foci, in which the sample holder is located The second focus of the reflector is the heating element. The disadvantage of this magnetometer is the complexity of its design.

The purpose of the invention is to simplify the design of the magnetometer.

The goal is achieved by the introduction of a ring gasket in the thermomagnetic tape, with the reflector

an ellipse is divided in half by a plane perpendicular to the axis; the divided parts of the reflector are interconnected through an annular gasket equipped with holders of a heating element made, for example, of a quartz rod.

In addition, the parts of the reflector are connected to the annular gasket using flat flanges.

FIG. 1 shows the scheme of the proposed thermo magnetometer; on . FIG. 2 is a top view with the upper part of the reflector removed; in fig. 3 installation of the heating element with the holder; in fig. k-- reflector assembly diagram using a technological element.

The thermo magnetometer contains a vibrator 1, a sample holder 2, a magnetizing unit 3, sensors of a nitrous floor, upper and lower parts 5 and 6 of a reflector, an annular projection 7, quartz holders 8,

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heating element 9, auxiliary element 10,

The thermo magnetometer works as follows.

When power is applied to the heating element 9, which can be made in the form of an electric heating coil, it is heated and becomes a source of infrared radiation. The heat rays reflected from the walls of the parts 5 and 6 of the reflector, in accordance with the law of the ellipse, are collected at the focus coinciding with the sample holder 2, and the rock sample is heated to the desired temperature. The measurement of the magnetic characteristics in this case is carried out according to a known method.

The thermo magnetometer is made as follows.

An identical top and bottom parts 5 and 6 of the reflector with flat flanges are stamped from the aluminum alloy. Grind and polish their reflective internal surfaces. From the PCB cut out the ring gasket 7 in the form of a part of the ring of sufficient thickness. In the end inner part of the annular gasket 7, holes for the installation are drilled to the required depth; quartz holders 8 (Fig. C), when installed, check that their working sections coincide with the geometrical position of the reflector points. The heating element 9 is mounted on the working areas of the quartz holders 8 and checks that the focus coincides with the holder 2 of the sample.

Before testing, the reflector is assembled in the following sequence.

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Instead of the holders 8, auxiliary elements 10 (FIG. 3), which are a disc with a shank, are installed in the annular gasket 7. Baziru camping on the roundabout

the gasket 7 and the disks of the auxiliary elements 10, the reflector is assembled, after which the edges of both parts 5 and 6 of the reflector are drilled

together with the ring gasket and rivet. The auxiliary elements 10 are removed, the holders 8 and the heating element 9 are set in place and the focus is checked.

Such a rectification of the magnetometer simplifies its design by making the reflector composite with the introduction of an annular gasket.

Claims (2)

1. Thermo magnetometer on the author. St. No. 922670, characterized in that, in order to simplify the construction, an annular gasket is inserted into it, the reflector being divided. in half by a plane perpendicular to the axis of rotation of the ellipse, the divided parts of the reflector are connected between by itself through the ring gasket, equipped with holders of a heating element made, for example, of a quartz rod. 2. A thermo magnetometer according to claim 1, differing in that parts the reflector is connected to the annular gasket using flat flanges. Sources of information taken into account in the examination 1. USSR author's certificate No. 922670, cl. G 01 R 33/12, 07.23.80. fig f