KR20130002481A - Controlling apparatus for cleaning gas inlet and method for controlling thereof - Google Patents

Abstract

PURPOSE: A tool control device and method for cleaning a gas inlet of a ladle are provided to prevent safety accidents by automatically controlling the oxygen injection of a tool. CONSTITUTION: A tool control device for cleaning a gas inlet of a ladle is composed of a detection sensor(20), a valve(30), and a controller(10). The detection sensor senses a tool by injecting oxygen to a gas inlet of a ladle. The valve is installed in the tool and opens and closes the oxygen flowing into the tool through a control signal. The controller operates the valve after the delay time set through the control signal. The set delay time is 5-25 seconds. [Reference numerals] (10) Controller; (20) Detection sensor; (30) Valve; (31) Opening and closing switch; (40) Input unit

Description

Jig control device and method for cleaning gas inlet of ladle {CONTROLLING APPARATUS FOR CLEANING GAS INLET AND METHOD FOR CONTROLLING THEREOF}

The present invention relates to a gas inlet cleaning jig control device for controlling the operation time and injection time of the jig for cleaning the gas inlet of the ladle.

The steelmaking process that uses iron ore as a raw material to produce steel as final product starts with a steelmaking process that dissolves iron ore in the blast furnace. A molten steel is prepared by performing preliminary treatment such as talline on a molten iron which is an iron ore-dissolved form. Molten steel is subjected to a primary refining process to remove impurities and then to a secondary refining process to finely adjust the components in the molten steel. When the secondary refining is completed, the components in the molten steel are adjusted. After the secondary refining is completed, the molten steel is moved to the continuous casting process, and a semi-finished product such as slab, bloom, billet and the like is formed through the continuous casting process. The semi-finished product thus formed is manufactured into a desired final product such as a rolling coil and a heavy plate through a final molding process such as rolling.

The charcoal is subjected to a preliminary treatment before the primary refining, ie, decarburization and deoxidation, and the preliminary treatment of the charcoal refers to desulfurization and talline processes to remove sulfur and phosphorus components of the charcoal as needed. The preliminary treatment of the molten iron may be performed in a mechanical stirrer, or may be performed in a Tallinn converter in the manufacture of cryogenic steel. After the pretreatment is completed, the molten iron is transferred to a decarburization and deoxidation process for subsequent refining.

After the decarburization and dephosphorization process, the gas inlet through which the stirring gas of the ladle is injected is washed with oxygen, and oxygen is injected into the gas inlet using the jig.

An object of the present invention is to control the operation time and injection time of the jig for washing the gas inlet of the ladle to automatically clean the gas inlet through the jig without pressing the switch located in the far, jig control device for gas inlet cleaning To provide.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the particular embodiments that are described. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not restrictive of the invention, There will be.

Gas inlet cleaning jig control device according to the present invention for achieving the above object, a sensor for detecting the jig to spray cleaning by injecting oxygen to the molten steel stirring gas inlet for steel ladle, and installed in the jig A valve for opening and closing the oxygen flowing into the jig through a control signal, and a control unit for operating the valve after a delay time set by the control signal received by the detection signal of the sensor.

The set delay time is 5 to 25 seconds.

The detection sensor is installed on the wall surface of the jig insertion hole formed in the blocking wall for blocking the cleaning water separated from the ladle to detect the presence of the jig.

The valve is provided with an opening and closing switch to manually block the injection of oxygen into the jig.

The control unit flows oxygen from the fixture to open the valve for a set time to clean the gas inlet of the ladle.

The set time is made of 30 seconds to 150 seconds.

In the jig control method for cleaning the gas inlet port according to the present invention for achieving the above object, the jig is injected into the jig insertion hole formed in the blocking wall, and aiming the end of the jig to the gas inlet of the ladle And detecting whether or not the jig is inserted through a detection sensor installed in the jig insertion hole, through which the control unit opens the valve installed in the jig after a delay time set as a control signal, and during the set time stored in the control unit. Opening the valve of the jig to inject oxygen into the gas inlet of the ladle and closing the jig of the jig when the injection of oxygen is completed for the set time, and closing the jig into the jig insertion hole. And removing the step.

The set delay time of the step of opening the valve is 5 to 25 seconds.

The set time of the step of closing the valve is made of 30 seconds to 150 seconds.

In the opening of the valve, the valve may be blocked during opening through a valve switch installed in the valve of the jig.

The present invention is to detect the jig through the sensor to automatically operate the valve of the jig in the control unit, and automatically controls the oxygen injection of the jig there is no need to stop the valve manually because the inconvenience of switch operation is eliminated And, there is an advantage that can prevent the safety accident that can occur when the switch operation.

1 is a block diagram of a jig control device for cleaning gas inlet in accordance with the present invention.
Figure 2 is an overall configuration of the jig control device for cleaning gas inlet in accordance with the present invention.
Figure 3 is a flow chart illustrating a jig control method for cleaning gas inlet in accordance with the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like elements in the figures are denoted by the same reference numerals wherever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

1 is a block diagram of a jig control device for cleaning gas inlet in accordance with the present invention, Figure 2 is an overall configuration diagram.

Referring to Figure 1 and 2 for the jig control device for cleaning the gas inlet port of the present invention, a detection sensor 20 for detecting the jig (1), the valve 30 is installed on the jig (1), the detection It includes a control unit 10 for controlling the valve 30 through the detection signal of the sensor 20, and the opening and closing switch 31 is installed in the valve 30 to open and close the valve.

The detection sensor 20 is installed in a plurality of jig insertion hole wall surface formed in the blocking wall (3) installed between the steelmaking ladle (2) and the operator. When the jig 1 is inserted into the jig insertion hole, the sensing sensor 20 installed in the jig insertion hole detects the jig 1 and transmits a detection signal to the control unit 10.

The valve 30 is installed in the jig 1 to open and close oxygen introduced into the jig 1 through a control signal. Such a valve may be provided with a separate open / close switch 31 to block the valve 30 by pressing the open / close switch 31 in the middle of operating the valve 30 through a control signal.

The control unit 10 receives the detection signal of the detection sensor 20 to operate the valve 30 of the jig 1 after a set delay time so that oxygen is injected through the jig 1. In this case, the set delay time may be 5 to 25 seconds.

The controller 10 opens the valve 30 for a set time so that the jig 1 injects oxygen. The set time may be 30 seconds to 150 seconds.

An input device 40 is connected to the controller 10 to arbitrarily set a delay time and a valve 30 opening time.

That is, a blocking wall 3 having a jig insertion hole is formed between the ladle 2 and an operator so that the jig 1 for inserting the jig 1 for cleaning the gas injection hole of the ladle 2 by the injection of oxygen is provided between the ladle 2 and the worker. A plurality of sensor 20 is installed on the jig insertion hole wall surface of the jig to detect that the jig (1) is inserted.

When the jig 1 is detected by the sensor 20, the controller 10 operates the valve 30 installed in the jig 1 after a set delay time.

At this time, the operator can selectively close the valve 30 through the opening and closing switch 31 installed in the valve 30 to block the injection of oxygen.

The control unit 10 opens the valve 30 for a predetermined time to continuously inject oxygen, and when the set time ends, shuts off the valve 30 to block the injection of oxygen.

3 is a flow chart showing a method for controlling the gas inlet cleaning jig 1 according to the present invention.

Referring to Figure 3 control method of the gas inlet cleaning jig 1 of the present invention, aiming the jig 1 to the gas inlet of the ladle 2 (S10), and through the sensor 20 Detecting the jig 1, opening the valve 30 with a control signal (S20), injecting oxygen and closing the valve 30 for a set time (S30), and jig 1 It includes a step (S40) to remove from the insertion hole.

After the jig 1 is inserted into the jig insertion hole of the barrier wall 3 installed between the worker and the ladle 2, the end of the jig 1 is aimed at the gas injection hole of the ladle 2 (S10).

When the jig 1 aimed at the gas injection hole of the ladle 2 is inserted into the jig insertion hole, the jig 1 is sensed by the detection sensor 20 installed on the jig insertion hole wall and transmitted to the controller 10. Then, the control unit 10 opens the valve 30 installed in the jig 1 through a control signal to inject oxygen into the gas inlet of the ladle 2 at the end of the jig 1 (S20).

In this case, when the detection signal of the jig 1 detected by the detection sensor 20 is transmitted, the control unit 10 operates the valve 30 as a control signal after the set delay time. In this case, the delay time set in the controller 10 may be 5 to 25 seconds.

When the valve 30 is operated according to the control signal of the control unit 10 and oxygen is injected through the jig 1, the control unit 10 opens the valve 30 for a set time so that oxygen is injected, and the set time When this is completed, the controller 10 closes the valve 30 through a control signal to block the injection of oxygen (S30). Then, the valve 30 is blocked to remove the jig 1 from which oxygen injection is stopped from the jig insertion hole (S40).

In this case, the time set in the controller 10 may be 30 to 150 seconds.

And while the oxygen is injected for the time set in the control unit 10, the operator can arbitrarily press the opening and closing switch 31 installed in the valve 30 of the jig (1) can shut off the valve (30). The open / close switch 31 is used for the operator to stop the work arbitrarily if the work is finished quickly or a safety accident may occur.

If the jig 1 is removed from the jig insertion hole while injecting oxygen into the jig 1, the sensor 10 does not detect the jig 1, so that the controller 10 controls the valve 30 through a control signal. To shut off the injection of oxygen, thereby preventing safety accidents.

An input device 40 is connected to the controller 10 to arbitrarily set a delay time and a valve 30 opening time.

The present invention configured as described above detects the jig through a sensor to automatically operate the valve of the jig in the control unit, and automatically controls the oxygen injection of the jig, so there is no need to manually stop the valve, so the inconvenience of switch operation. There is an advantage that disappears, there is an advantage that can prevent the safety accident that can occur when the switch operation.

The present invention has been described with reference to the preferred embodiments, and those skilled in the art to which the present invention pertains to the detailed description of the present invention and other forms of embodiments within the essential technical scope of the present invention. Could be. Here, the essential technical scope of the present invention is shown in the claims, and all differences within the similar scope should be interpreted as being included in the present invention.

1: jig 2: ladle
3: blocking wall 10: control unit
20: sensor 30: valve
31: open / close switch 40: input unit

Claims (10)

Detection sensor for detecting the jig to be injected by spraying oxygen in the molten steel ladle gas inlet for stirring;
A valve installed at the jig to open and close oxygen introduced into the jig through a control signal; And
And a controller configured to operate the valve after a delay time set through a control signal by receiving the detection signal of the detection sensor.
The method of claim 1,
The set delay time is 5 to 25 seconds, gas inlet cleaning jig control device.
The method of claim 1,
The detection sensor is installed on the wall surface of the jig insertion hole formed in the blocking wall for blocking the cleaning water separated from the ladle to detect the presence of the jig, jig control device for gas injection.
The method of claim 1,
The valve is provided with an opening and closing switch to manually block the injection of oxygen to the jig, gas inlet cleaning jig control device.
The method of claim 1,
And the controller opens the valve for a predetermined time to flow oxygen from the jig to clean the gas inlet of the ladle.
6. The method of claim 5,
The set time is 30 seconds to 150 seconds, gas inlet cleaning jig control device.
Inserting a jig into which oxygen is injected into a jig insertion hole formed in a barrier wall and aiming the end of the jig at a ladle gas inlet;
Detecting whether the jig is inserted through a detection sensor installed in the jig insertion hole, through which the controller opens the valve installed in the jig after a delay time set as a control signal;
Opening the valve of the jig for a set time stored in the controller to inject oxygen to the ladle gas inlet, and closing the jig of the jig when the injection of oxygen is completed for the set time;
And removing the jig with the valve closed from the jig insertion hole.
8. The method of claim 7,
The set delay time of the step of opening the valve is 5 to 25 seconds, gas inlet cleaning jig control method.
8. The method of claim 7,
The set time of the step of closing the valve is 30 seconds to 150 seconds, gas inlet cleaning jig control method.
The method of claim 7, wherein
In the step of opening the valve can be shut off the valve during opening through a valve switch installed in the valve of the jig, gas inlet cleaning jig control method.

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