SU723383A1 - Meter of metal level in electromagnetic open-ended mold - Google Patents

Description

one

The invention relates to a measurement technique, in particular, to devices for controlling the level of liquid metals.

Inductive liquid metal level meters are known that contain two inductive coils located on the inner side of the sprinkler 1. The power source of these coils is the power inductor of the crystallizer.

The disadvantage of this design is low reliability, due to the fact that the coil is located in the gap between the liquid metal and the sprinkler and, when deviating from the casting process from the normal one, can be filled with liquid metal and decommissioned.

The closest in technical dryness to the present invention is a level gauge of a liquid metal containing a sensor made in the form of a rectangular induction coil, a device for excitation and an indicator 2.

The coil is immersed in the metal when it is fed into the mold and is exposed to heat from his side, which reduces the reliability and performance of the entire device.

The purpose of the invention 1 and is to increase reliability.

This and zero is achieved by the fact that the coil CNiCueKa relative to the vertical axis of the mold and is installed above it under the coal to the metal surface.

FIG. Figure 1 shows schematically the proposed metal level grab in an electrically agglitic icpvi. ;; al.tizator, obp1II species; in fig. 2 - schemes ;; ) of the force of the elec- trode power lines; As a metal level, an induction rectangular coil 1 is used, which is mounted below the metal surface and offset from the vertical axis to the noKOBoii side of the ingot.

To reduce the heating of the induction coil from the side of the liquid metal, it is closed by a heat insulating screen 2.

The coil 1, together with the heat insulating screen 2, is mounted at a certain height with the help of the bracket 3.

When disconnecting the power inductor 4, which at one time is the excitation device for the induction coil I, an alternating current T) i circulates through the source of the transmitted current through it, creating an electromagnetic field.

The lines of force of this field can be represented in the form of concentric circles F 1 with the center located in the middle of the section of inductor 4. The angle of inclination cx, the coils are chosen so that the coil plane is perpendicular to the direction of propagation of electromagnetic waves generated by the current of the inductor 3. Line F 1 in this case does not penetrate the area bounded by the frame of the coil, do not create a flow of adhesion with it (see Fig. 2)

When a liquid metal is fed into an electromagnetic crystallizer, the inductor current 3b forms an ingot, induces a secondary current Jg in the liquid metal, which creates its own electromagnetic field that distorts the primary field, and the direction of propagation of the power lines is no longer perpendicular to the plane of the coil frame. The power lines f a create a flow of coupling with the coil frame and in it will be induced emf Uc.

The magnitude of this EMF will depend on the level of the metal in the mold, since the higher the level, the closer coil 1 is to current 3 g and the stronger will be the electromagnetic field penetrating the frame and, therefore, the more EMF will be induced in coil 1.

The DC signal is fed further to a measuring device or to a regulator which regulates the level of the melt in the mold.

Claims (2)

1. USSR author's certificate number 368492, cl. G 01 F 23/26. 1970. 2. The patent of Germany No. 1210998, cl. 42 e-34, 1966 (prototype). 2