CS236410B1 - Electromagnetic drive for shaft furnace's throat and for similar aggregates - Google Patents

Abstract

It is an object of the invention to simplify the design electromagnetic drive typesetting shaft furnaces, consisting of at least one linear electric motor, especially high furnace, reduce its weight and thereby i price. For this purpose, the reaction portion of each is of a linear electric motor consisting of a circular motor the ring rotating parts of the planter equipment.

Description

BACKGROUND OF THE INVENTION The present invention relates to an electromagnetic drive of a furnace of a shaft furnace and the like, for example a blast furnace comprising at least one flat linear electric motor, optionally with a centering electromagnet, and connected to a moving apparatus of a furnace located inside the shaft furnace.

In furnaces of shaft furnaces and similar units, for example blast furnaces, it is known to rotate or to achieve pivotal rotary movements of its movable components located inside the aggregate, its storage troughs, rectifier troughs with or without hoppers, circular troughs, feeders, converters flow of loose materials, sliding slides and the like, use electromagnetic drives, its flat linear electric motors with possible centering electromagnets.

A drawback of this prior art is that the connection of the reaction portion of the flat linear electric motor to the movement apparatus of the shaft furnace station located within the shaft furnace requires coupling spacers which considerably complicate the drive, increase its weight and cost, and require maintenance.

. These shortcomings of the prior art are eliminated by electromagnetic means. propelling a shaft furnace and the like thereof, comprising at least one flat linear electric motor according to the invention, characterized in that the reaction part of each flat linear electric motor is formed by a ring ring; J or hoops rotating part of the planter.

-2 238 410

An advantage of the electromagnetic drive of the shaft furnace and the like according to the invention is that the coupling piece of the linear flat electric motor with the movement mechanism of the shaft furnace is formed directly by the reaction part / flat linear electric motor, which simplifies the construction of the drive. increases its lifetime.

The electromagnetic drive of the shaft furnace of the shaft furnace according to the invention is illustrated by way of example in the accompanying drawings, in which Fig. 1 shows a vertical section through the furnace with the reaction part of its linear flat electric motor. Fig. 3 shows a vertical cross-section of the tariff and the arrangement of two flat linear electric motors of the same principle in Figs. 1 and 2, where one serves for rotating movement of the storage trough and the other for tilting the storage trough. 4 shows a vertical section through the tariff and alternative arrangement of two flat linear electric motors according to FIG. 3, and FIG. 5 shows a vertical section through the tariff and alternative arrangement of two flat linear electric motors according to FIG. ponytail storage trough is. two-sided flat linear electro-. motor with centering electromagnets.

According to an exemplary embodiment of the electromagnetic drive of the furnace of the shaft furnace and the like, which is used to move the bulk material storage trough in rotation and shown in FIG. 1 of the accompanying drawings, the reaction part a support part of the storage trough 2, wherein the annular ring 2 is supported by its circumferential groove on the support rollers 6 which are part of the blast furnace shell 2. The receiving trough 2, 3 ^is pivotally connected to its supporting part. The actuator part 6 of the linear electric motor is part of the furnace lid 2 of the furnace. The hopper 8 of the bulk furnace is connected to the hopper 8 of the bulk material, which flows into the receiving trough. According to FIG. 2, supported by its circumferential groove, on the support rollers 6 which are part of the furnace shell 2. As shown in FIG. 3 of the accompanying drawings, FIG. electromagnetic drive of the shaft

3 236 410 of a furnace and its similar units consisting of two flat linear electric motors, one of which serves to rotate the storage chute χ of loose materials around the blast furnace axis and the other to tilt the storage chute χ.

The reaction portion 1 of the flat linear electric motor for rotating the storage chute χ about the blast furnace axis is. formed by a circular ring 2 releasably connected to the support part of the storage trough 2t, which is circumferentially mounted on the support rollers 4, which are part of the casing 4 of the blast furnace. The actuator part 6 of this flat linear electric motor is part of the shell 2 of the blast furnace room.

The reaction part 2 of the flat linear electric motor for tilting of the storage troughMx 3 is formed by a circular rim 10, which is circumferentially provided with a groove, which is supported by rollers 11, which are part of the furnace shell 2. The actuating portion 12 of this flat linear electric motor is part of the wolf X of the blast furnace room.

The reaction portion 2 of the flat linear electric motor for tilting the storage trough 2, as shown in Figure 4, which is an alternative embodiment of Figure 3, consists of a flat circular hoop 10, mounted on a circular ring χ, releasably connected to the support trough 2. ·

Referring to Fig. 5, which is an alternative embodiment of Fig. 4, the reaction portion 1 of the flat linear electric motor for rotating the storage chute - χ about the blast furnace axis is formed by a flat circular ring 2, electromagnets. The flat ring 10 of the reaction part 2 of the flat linear electric motor for tilting the storage trough. 2 ^e 3 rollably mounted on the supporting part of the storage trough 3 which is detachably connected to a flat circular rim 10.

Claims (1)

Object, invention 236 410 Electromagnetic drive of a shaft furnace and the like, comprising at least one flat linear electric motor, characterized in that the reaction part (1, 1) of each flat linear electric motor is formed by a ring (2) or a hooping part of the planter.