SU1035072A1 - Device for batch vacuum treatment of metal - Google Patents

Abstract

1. A DEVICE FOR YETALL PORTIONAL VACUUMING, CONTAINING A DUCK, A VACUUM CAMERA WITH AT LEAST ONE TUBE AND A VACUUM CAMERA OR A BUCKET MOVING MACHINE, O TL AND eff (efficacy of metal degassing, the nozzle of the vacuum chamber is located at an acute angle in the plane, perpendicular to the cool of diametrical planes vacuum: chambers. 2. The device according to claim 1, which is eccentrically mounted. ko Kyoukoun - pump th / city /

Description

The invention relates to metallurgy, in particular, to installations for the extrahepatic vacuum treatment of a liquid metal.

A known device for circulating vacuum evacuation of a metal in which the vacuum chamber tubes are made diverging in different directions, while the suction tube is inclined by 10 ° to the vertical til. However, in this plant the movement of the liquid metal is carried out in a continuous flow and without the aid of an inert gas . Therefore, each metal particle moving along an inclined nozzle will acquire a horizontal component of velocity, the value of which will depend on the angle of inclination of the nozzle relative to the vertical, which leads to a decrease in the efficiency of degassing.

The closest to the proposed technical essence and the achieved result is a device for batch evacuation of liquid metal, containing a ladle, a vacuum chamber with at least one nozzle, and a mechanism for moving the vacuum chamber or the ladle 2. The disadvantages of this device are the difficulty of manufacturing the nozzle, its low resistance, low throughput and insufficiently effective mixing of liquid steel in the bulk of the vacuum chamber and in the | Bucket.

The purpose of the invention is to increase the efficiency of degassing a liquid metal.

The goal is achieved by the fact that in the device for batch evacuation of metal containing a bucket, a vacuum chamber with at least one nozzle, and a mechanism for moving the vacuum chamber or. the bucket the nozzle of the vacuum chamber is located at an acute angle in a plane perpendicular to one of the diametrical planes — the vacuum chamber.

Branch pipes can be installed eccentrically.

Figure 1 is given the proposed device, offend the view; figure 2 - section aa in Fig, 1.

The device contains a bucket 1 with liquid metal, a vacuum chamber 2 connected to the vacuum wire 3. ® In the bottom of the vacuum chamber 2 a suction nozzle 4 is installed, located at an acute angle in a plane perpendicular to one of the diametral planes of the vacuum chamber. With

This outlet 5 of the nozzle is offset from the center.

The mechanism for moving the vacuum chamber or the ladle is conventionally not shown.

The device works as follows

I When lowering the vacuum chamber 2, the inclined suction of the nozzle 4 is immersed in the liquid metal, and after creating a vacuum, the vacuum chamber is filled with the metal rising under the action of atmospheric pressure along the inclined nozzle 4. In this case

the liquid metal, flowing from the outlet .5, moves mainly in the direction indicated by the arrows in FIG. The direction of movement of the metal is determined by the direction of inclination of the nozzle. Thus, the flow of metal entering the chamber is twisted in a spiral from the periphery to the center, spreads along the bottom and mixes, thereby achieving a more efficient removal of gases and non-metallic inclusions, and the conditions for the introduction of alloying elements are improved.

After the degassing process is completed, the vacuum chamber 2 rises, and the portion of metal through the inclined nozzle 4 returns to the bucket 1, maintaining the direction of movement specified by the inclined nozzle, thereby achieving the best movement of the metal in the bucket and averaging the alloying additives.

By changing the angle of inclination of the suction inlet, it is possible to adjust the speed and intensity of mixing, and hence the productivity of the degassing process. In addition, the number of inclined nozzles and their B3aHNSHoe location also has an effect on the technological parameters of metal degassing and on the productivity of the plant within fairly wide limits.

As the calculations show, the horizontal flow rate only increases noticeably when the angle of inclination of the nozzle is larger than Y. For structural considerations, it does not make sense to increase the angle of inclination by more than 50, since the transverse dimensions of the installation increase. -.

Thus, this unit for portioning the evacuation of the liquid metal significantly improves the mixing, increases the efficiency of degassing and increases the performance of the vacuum.

Claims (2)

1. DEVICE FOR PORTION- | METAL VACUUMING FOOT, containing a bucket, a vacuum chamber with at least one nozzle and a mechanism for moving a vacuum chamber or bucket, with the stipulation that, in order to increase the efficiency of metal degassing, the nozzle of the vacuum chamber is located at an acute angle in a plane perpendicular to one of the diametrical planes of the vacuum chamber. 2. The device is according to π »1, which is πηη due to the fact that the nozzles are mounted eccentrically.