SU592855A1 - Device for cooling long articles - Google Patents

Description

one

The invention relates to the heat treatment of long products and can be applied in the plants of ferrous and non-ferrous metallurgy.

A device for cooling long products is known, comprising a cooling chamber with fine particles, inside of which rotors with blades are installed, having individual drives.

1 A disadvantage of the known device is the uneven cooling of products over the cross section, since the rates of incidence of particles from different sides are different.

Closest to the present invention is a device for cooling long products, comprising a cooling chamber with ferromagnetic particles, a source of magnetic field made of linear magnetic cores with a common winding in the form of separate diametrical sections.

A disadvantage of this device is the uneven cooling of lengthy products along the length in the downstream cooling chambers, since they are cooled more slowly between the electromagnets than under them.

In order to uniformly cool the stationary product along the length by moving ferromagnetic particles along a sawtooth path in the proposed device, diametrically opposed winding sections are interconnected: into groups such

Thus, the end of the previous group of one of the magnetic cores is connected with the beginning of the next group of the other magnetic circuit. FIG. 1 shows the proposed device, a general view; in fig. 2 - section aa

in fig. one; in fig. 3 is a diagram of the connection of the winding sections of the magnetic circuit.

The device contains a vacuum water-cooled chamber 1, end caps 2, 3,

ferromagnetic particles 4, the cooled product 5, the source of the reversing traveling magnetic field, made in the form of parallel-placed magnetic circuits 6 and 7 with a common partitioned winding. The anti-field sections of the winding are interconnected as follows: section 8 of the magnetic circuit 6 is connected to section 9 of the magnetic circuit 7, forming the first group of sections, the second group includes sections 10 and 11 of the magnetic circuit 6 and 7. The first and second groups of sections (like the subsequent ones) consistently, with the end of the first group connected with the beginning of the second, the end of the second with the beginning of the third, etc.

The device works as follows.

After installing the cooled product, a voltage is applied to the chamber in the winding of the magnetic cores, which creates a traveling magnetic field. Under the action of this field, ferromagnetic particles move from the section of one magnetic circuit to the opposite section of another and at the same time along the cooled product along a saw-tooth path. The particles, in their movement, periodically contact with the hot surface of the product and the cooled walls of the chamber. After the ferromagnetic particles are moved to one of the ends of the chamber, the phases of the winding are switched, for example, in the function of time, changing the direction of the magnetic field and, consequently, the direction of movement of these particles. This operation can be carried out in an automatic mode by a known control gear (magnetic starters, contactors, etc.).

Claims (2)

1. The copyright certificate number 392113, cl. From 21D to 9/08, 1970. 2. The copyright certificate number 379652, cl. From 21D to 9/00, 1970.  ; W o /;, --iJ 1