SU909579A1 - Device for regulating metal level in closed crystallizer - Google Patents

Description

The invention relates to devices for adjusting the level of a metal in a closed crystal lysator during continuous casting of ingots. A device for adjusting the level of a metal in a closed mold is known, which consists of a pneumatic pulse generator, a pressure sensor and electromechanical blocks of 1 J. A large number of different complex blocks reduce the reliability of the device and complicate its maintenance. The closest in technical essence and the achieved result to the proposed is a device for adjusting the level of metal in a closed mold, containing a source of compressed gas, switching equipment installed on the gas pipeline, which is connected to the gas space of the crystallizer, a bubbling metal level sensor, a secondary device as a differential meter 2. The complexity of setting up the switching elements, the difficulty of reconfiguring with fluctuations in the modes of the metal casting process are the disadvantages of the known device, which also leads to a decrease in the control accuracy. The purpose of the invention is to increase the reliability and languor of the adjustment. The goal is achieved by the fact that two pneumatic channels installed in the mold cover are inserted into the device, one of which is connected to the atmosphere and the other, made adjustable, is connected to the gas pipeline. An adjustable air throttle is formed by a flap connected to the metal level sensor. 390 The drawing shows the proposed device. The mold 1 is hermetically sealed with a lid 2 through which the lined metal pipe 3 passes. Through which the liquid metal enters the mold from the intermediate tank A. In the mold lid, there are two pneumatic channels, one 5 of which are fixed cross section and the other 6 are adjustable. The regulation (change of the pneumatic resistance) of the throttles 6 is carried out by the flap 7 which is connected via the lever 8 by the float 9. The lever 8 rotates the axis of the axis 10, which is suspended by means of brackets 11 to the crystallizer cover 2. The throttle 5 connects the cavity of the crystallizer with the atmosphere, and the throttle 6 through the hose 12, the flow meter 13 commuting valve 14 connects the cavity of the crystallizer x by line 15 of compressed air. The device works as follows. Before starting, open the valve 1. Compressed gas does not flow into the installer, since the throttle 6 is closed with a damper 7 that closes it under the weight of the float 9. After that, the stopper 16 is lifted and the liquid metal starts to flow into the crystallizer 1. Gas pressure inside the crystallizer it is equally atmospheric, since its cavity communicates with the atmosphere through a constantly open air throttle 5 The metal level begins to rise, reaches the float 9 and then rises along with it. The float through the lever 8 moves the valve, opening the air throttle 6, and gas begins to flow into the cavity of the mold. The pressure inside starts to grow. Partially, the gas has time to exit through the throttle 5, but only slightly, since the throttle 5 has a certain pneumatic resistance. The metal level is still rising and the choke 6 opens more and more. As more gas enters than it leaves, the gas pressure in the crystallizer rises until it is balanced by the pressure of the metal column in the intermediate tank. After this receipt

Claims (2)

1. A device for adjusting the metal level in a closed mold, containing a source of compressed gas, switching equipment installed on a gas pipeline that is connected to the gas space of the mold, and a metal level sensor, characterized in that, in order to increase the reliability and accuracy of regulation, Two pneumodrossels installed in the mold cover are inserted into it, one of which is connected to the atmosphere, and the other, made adjustable, is connected to the gas pipeline. 2. Device PB l. 1, characterized in that the controllable metal in the crystallizer is stopped and a constant level is established therein. This moment is determined by the indications of the gas flow meter 13, which at this moment shows a constant flow rate, which corresponds to the steady-state value of the pneumatic resistance 6. After that, a command is given to actuate the casting machine. If, for any reason, the metal level in the crystallizer falls, the float 9 will lower and, through the lever 8, will bring the damper closer to the throttle 6, resulting in an increase in the throttle resistance and less gas will flow out of the throttle 5. At the same time the pressure inside the crystallizer begins to fall, which again causes the metal to flow into the crystallizer and the filling cycle is repeated. Thus, in the proposed device, the level stabilization is achieved by simple and reliable means that are easy to manufacture and require maintenance. The accuracy of maintaining the level also increases due to the fact that the throttles operate under the same conditions, and if one of them corrodes, the regulated choke automatically compensates for the change in the hydraulic resistance of the other.