SU176184A1 - induction pump - Google Patents

Description

Electromagnetic induction pumps for liquid metals with rectilinear metal-conduction are known, in which the metal is set in motion by the begush, it has a magnetic field created by a three-phase open-ended magnetic system.

In the proposed pump, there are two independent single phase systems for inducing current in the metal and creating a magnetic field. The current induction system has closed magnetic conductors, and the metal conduit has two n-ring channels covering these metal conduits, which can increase the current stratum in the metal and the metal wire height, to obtain the optimum phase shift between the current in the metal and the magnetic flux and the optimum ratio between the current and magnetic flow, and also to heat up the metal in the pump channel during transportation and at stops.

Pa figs. 1 shows an isometric image of the pump; in fig. 2 - current distribution in the pump channel in the mode of transportation; in fig. 3 - the same, in the nodogrev mode at stops.

Pazos has a linear metal pipeline 1, which is adjoined by two semi-circular channels 2 and 3, covering the rods of closed magical conduits 4 and 5. On them

primary windings 6 and 7 are located, fed by a non-recurring single-phase current.

Open magnetic pump system consists of two open magnetic cores S

and 9 with power windings 10-13 on their pole pieces adjacent to the metal conduit on both sides at the points of its connection with the semiring channels. The windings 10-13 are powered by single phase alternating current.

The metal that fills the channels 2 and, in conjunction with the metal in the channel Y, forms closed turns, which are the secondary windings of closed magnetic systems.

Primary shrouds 6 and 7 are turned on so that the currents induced by them flow along a ring formed by channels 2 3 perpendicular to channel 1 (Fig. 2). When these currents interact with the magnetic flux created by the open-ended magnetic system, electromagnetic forces are created at each of the two sections of the interaction, which, summing, cause the meta.tl to move.

Pump performance is controlled by varying the primary voltage in either of the two pump systems or by changing the phase shift of these primary voltages.