Method for starting continuous metal casting operation

Metal founding – Process – With measuring – testing – inspecting – or condition determination

Reexamination Certificate

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Details

C164S483000, C164S449100, C164S154500

Reexamination Certificate

active

06374902

ABSTRACT:

BACKGROUND OF THE INVENTION
This invention concerns the continuous casting of metals, especially steel, and more particularly a process for starting casting from a situation where the casting installation is ready to receive the molten metal contained in a transport receptacle such as a casting ladle.
Such an installation conventionally includes a tundish equipped with a nozzle and an ingot mould. The tundish also includes blocking means, called a stopper rod, to block the nozzle and adjust the flow rate of the molten metal during casting.
Before starting casting, a dummy bar is placed in the installation; this dummy bar includes a dummy bar head which is inserted into the ingot mould to temporarily close the mould at the start of casting, and the stopper rod is placed in a closed position.
To start casting, the metal in the ladle is poured into the tundish.
Then, the stopper rod is opened so that the metal can fill the ingot mould by flowing through the nozzle. When the metal reaches a predetermined level in the ingot mould, the dummy bar is driven downwards to start the extraction of the cast product at least partially solidified as it comes into contact with the cooled walls of the ingot mould.
One of the problems is to define the time when extraction will be started especially on account of the level required in the ingot mould and the time required to obtain a sufficiently solidified product before starting extraction. Now, the arrival of the metal at a required level in the ingot mould depends on the flow rate of the metal in the nozzle and therefore especially on the stopper rod opening position.
Consequently, to automate startup, it is already known to use a level detector to detect the arrival of the metal at the required level in the ingot mould and to control the start of the extraction by this detector.
In addition, it is also known to use a level detector placed on the ingot mould to control the flow rate or the extraction speed during casting so as to conserve metal level more or less constant in the ingot mould throughout the casting process.
However, these detectors can only be placed at the top of the ingot mould. Also, their detection distance is conventionally low and they are positioned so as to measure the variations in level in the vicinity of the reference level during casting. Therefore, they only detect the metal in the ingot mould when the metal is approaching the reference level. Thus, during almost the complete ingot mould filling time, the level of the metal cannot be controlled. In addition, when the detector can finally detect the presence of the metal, and therefore command startup of extraction, a certain time is required before extraction is stabilized and level of metal may pass well beyond the reference level. This can be avoided in part by simultaneously commanding the closing of the stopper rod to reduce the supply rate. However, the stopper rod reaction time, positioning of which is ensured by an actuator, cannot be sufficiently reduced to totally avoid the above mentioned problem. Also, the inertia of the flowing metal and that of the stopper rod control means leads to fluctuations in the level which may last for a certain time before regulation, and therefore the level, are stabilized and casting becomes uniform.
Another problem which arises is the ability to determine the effective casting start time, that is, the time when the metal contained in the tundish starts to flow when the opening of the stopper rod is commanded. This problem is also related to that of being able to control the rise in level in the ingot mould, this level being undetectable during a major part of the filling operation as we saw previously. The only means for controlling this rise in level is therefore to act on the flow rate of the metal flowing from the tundish which depends on the exact position of the stopper rod. However, the position of the stopper rod is conventionally determined by a measuring device located on the stopper rod control means and not on the stopper rod itself. The result is that the indication given by these measuring means is not exactly representative of the position of the stopper rod itself this being due mainly to the inevitable plays in the mechanical means connecting the stopper rod to its control means. Therefore, not only is there a time lag between the stopper rod opening command and the start of real opening and therefore start of metal flow but also consequently indication of stopper rod position does not exactly reflect its effective position which determines the metal flow rate. However, it is only by knowledge of the exact casting start time, and of the flow rate, that the level in the ingot mould during filling can be accurately determined.
This problem is especially troublesome for the continuous casting process between rolls as determining the exact time of start of extraction is of prime importance for this technique. It is therefore necessary to accurately know the exact time of start of flow and the filling flow rate especially as, in this technique, the filling time between start of flow and start of extraction is very short.
SUMMARY OF THE INVENTION
The purpose of this invention is to solve the various above mentioned problems and in particular to allow effective casting start time and casting flow rate during the ingot mould filling phase to be accurately determined.
With these targets in mind, the subject of the invention is a starting process for a continuous metal casting operation in a casting installation including a tundish which includes an outlet hole which can be blocked by a stopper rod bearing on a stopper rod seat, mechanical connecting means between the stopper rod and a stopper rod control actuator, and an ingot mould receiving the metal flowing through the said hole.
According to the invention, this process is characterized in that, before starting casting:
a) the stopper rod is placed on its seat under the effect of its weight alone, the control cylinder being inactive and in an initialization position defined by the position of the stopper rod,
b) the said initialization position of the control actuator is determined,
c) the control actuator is driven in closing direction to push the stopper rod onto its seat,
d) the tundish is filled with liquid metal,
e) the control actuator is operated to place it in a controlled superclosed position defined by a predetermined distance of the position of control actuator in relation to initialization position,
and, to start casting:
f) the control actuator is driven in opening direction according to an imposed and predefined control actuator movement versus time law, casting start time being determined from this law, by calculating, with this law, the time taken by the control actuator to move from superclosed position to the initialization position,
g) and operation of the control actuator is continued in the opening direction to allow the metal to flow into the ingot mould.
As will be better understood later, the process according to the invention enables the time when the molten metal will start to flow between the stopper rod and its seat to be accurately determined.
This time is therefore exactly the moment when the stopper rod leaves its seat.
Theoretically, it would be sufficient to hold the stopper rod exactly in this position and to start to move it upwards to move it away from its seat, the exact time of start of movement defining casting start time.
However, in practice, this is impossible. Indeed, because of the inevitable plays existing in the mechanical connecting means between the stopper rod and the control actuator, and because of the thrust exerted on the stopper rod by the liquid metal contained in the tundish, it is clear that, even if the control actuator was held in a fixed so-called initialization position where the stopper rod just rests on its seat, the exact position of the stopper rod will vary when the tundish is filled with molten metal, especially due to the taking up of the mechanical plays and to the expansion phenomena.
The resu

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