KR101364064B1 - Burning temperature control apparatus and method using it - Google Patents

Abstract

Disclosed are a firing temperature control apparatus and a firing temperature control method using the same. The firing temperature control apparatus includes a main blower for supplying sintered wind for sintering, a wind volume control damper for adjusting the degree of air volume of the sintered wind supplied from the main blower, a wind flow supply line for conveying the sintered wind supplied from the main blower, A plurality of wind chambers installed on the upper side of the air volume supply line to guide air flow, a plurality of trucks moving along rails provided on the wind chamber, and a sintered air volume supplied in the wind chamber direction from the air volume supply line. A wind chamber control valve for selectively controlling the degree, a temperature measuring instrument for measuring the internal temperature of the wind chamber, and if it is determined that the measured temperature of the temperature measuring instrument is out of the set value, the angle of the air volume control damper and the wind chamber control valve By controlling the opening degree, it is possible to control Includes fisherman.

Description

Firing temperature control device and firing temperature control method using the same {BURNING TEMPERATURE CONTROL APPARATUS AND METHOD USING IT}

The present invention relates to a firing temperature control apparatus for preventing the sintering failure state of the blended raw material of the sintering machine bogie and to improve the productivity and quality of the sintered ore and a firing temperature control method using the same.

Generally, sintering ore is produced through a sintering plant in a sintering plant in steel mills. At this time, in order to produce the sintered ore, a trolley passing through a plurality of wind chambers is installed.

The trolley is loaded with the top light through the top light hopper, and the raw material is loaded through the surge hopper. This blended material is ignited through the ignition furnace. And when the trolley is moved, the blended raw material is sintered by the sintering wind supplied through the main blower.

However, according to the particle size of the blended raw material and the degree of moisture content, the blended raw material loaded on the trolley becomes poor in calcination temperature distribution when passing through a plurality of wind chambers. Therefore, if the blended raw material is fired prematurely according to the particle size or moisture content of the blended raw material, the recovery rate decreases due to severe cooling of the calcined ore, and if the firing of the blended raw material is delayed, the calcined light is not cooled and the adjacent light such as a belt conveyor is caused by red light. There is a problem that the equipment is damaged.

An embodiment of the present invention provides a firing temperature control device and a firing temperature control method using the same to smoothly proceed the firing operation of the blended raw material by properly maintaining the firing temperature of the blended raw material is moved to the bogie I would like to.

One embodiment of the present invention, the main blower for supplying the sintered wind for sintering, the air flow rate control damper for adjusting the degree of the amount of air flow of the sintered wind supplied from the main blower, and the air flow rate supply for conveying the sintered wind supplied from the main blower Lines, a plurality of wind chambers installed on the upper side of the air volume supply line to guide air flow, a plurality of bogies moving along rails provided on the wind chamber, and a sintered wind supplied in a wind chamber direction from the air volume supply line. A wind chamber control valve for selectively controlling the degree of air flow, a temperature measuring instrument for measuring the internal temperature of the wind chamber, and if it is determined that the measured temperature of the temperature measuring instrument is out of a set value, the angle of the wind volume control damper and the wind chamber control. By controlling the opening degree of the valve to control the temperature of the measuring instrument to be maintained within the set value And a fisherman.

The controller compares the standard temperature of the wind chamber stored in the wind chamber with the standard temperature value of the wind chamber stored in the database and the internal measured temperature value of the wind chamber measured by the temperature measuring instrument. Outside the set value includes a valve opening adjuster for adjusting the opening of the wind chamber control valve.

The valve opening adjustment unit compares the internal measurement temperature value of the wind chamber with a preset standard temperature value of the wind chamber, and reduces the opening degree of the wind chamber control valve if the difference in temperature value is greater than the set value, and measures the internal measurement of the wind chamber. The opening degree of the wind chamber control valve can be opened if the temperature value is compared with the preset standard temperature value of the wind chamber, and the difference in the temperature value shows an error below the set value.

The control unit compares the standard temperature value of the wind chamber stored in the database unit with the measured temperature value of the wind chamber measured by the temperature measuring instrument, and adjusts the opening degree of the air volume control damper when the difference between the temperature values is outside the set value. The control unit may further include.

The damper opening adjustment unit derives an average temperature value obtained by summing the internal measurement temperatures of the plurality of wind chambers, and reduces the opening degree of the air volume control damper when the average temperature value indicates an error of more than a predetermined set value, and sets the preset average temperature value. If the error is less than the value, the opening degree of the air volume control damper can be opened.

One embodiment of the present invention, (a) supplying the sintered wind generated by the operation of the main blower to the blended raw material of the bogie installed in the sintering machine by the air volume guide action of the plurality of wind chambers via the air volume supply line, b) measuring the internal temperature of each of the plurality of wind chambers of step (a); and (c) the sum of the temperature measurements of each of the plurality of wind chambers measured in step (b). (D) reducing the amount of air of the sintered wind supplied from the main blower to the air flow rate supply line if the combined temperature measurement value of step (c) is greater than the standard temperature value; And (e) increasing the air flow rate of the sintered wind supplied from the main blower to the air flow rate supply line if the total temperature measurement value of step (c) is smaller than a standard temperature value, and (f) the (c) ) If the temperature measurement value of each of the wind chambers of the step is larger than a predetermined standard temperature value, reducing the amount of air flow of the sintered wind supplied from the air flow rate supply line to the wind chamber having a larger value than the predetermined standard temperature value; (h) if the temperature measurement value of each of the wind chambers of step (c) is smaller than a predetermined standard temperature value, the temperature measurement value is supplied from the air flow supply line to a wind chamber smaller than a predetermined standard temperature value. It may include the step of increasing the air volume of the sintered wind.

Step (b) may be installed in each of the plurality of wind chambers to measure the internal temperature of the wind chamber.

In the increase or decrease operation of the sintered wind generated by the main blower, the air volume control damper may be installed on the moving duct through which the sintered wind is moved, and the air volume control of the sintered wind may be controlled through the opening degree control of the air volume control damper.

In the increase or decrease operation of the sintered wind supplied to the wind chamber, a wind chamber control valve may be installed between the wind chamber and the air volume supply line to control the air volume of the sintered wind through the opening degree control of the wind chamber control valve.

According to one embodiment of the present invention, it is possible to appropriately maintain the firing temperature of the blended raw material in which the firing operation is carried out while moving to the bogie, thereby improving productivity and quality of the sintered ore.

1 is a view schematically showing a firing temperature control apparatus according to an embodiment of the present invention.
2 is a flow chart schematically showing a firing temperature control method according to an embodiment of the present invention.

Hereinafter, a firing temperature control apparatus according to embodiments of the present invention will be described in detail with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. It is provided to let you know.

As shown in Figure 1, the firing temperature control apparatus 100 according to an embodiment of the present invention, the main blower 10 for supplying the sintering wind for sintering, and the sintering wind supplied to the main blower 10 The air volume control damper 20 for adjusting the degree of air volume, the air volume supply line 30 for transferring the sintered wind supplied to the main blower 10, and the air volume supply line 30 are installed above the air volume supply line 30 to guide the sintered wind. A plurality of wind chambers 40 to supply, a wind chamber control valve 50 for selectively controlling the degree of air volume of the sintered wind supplied from the air volume supply line 30 toward the wind chamber 40, and the wind chamber 40 A plurality of trolleys 60 moving along the rails installed on the), the temperature measuring device 70 for measuring the internal temperature of the wind chamber 40, and the measured temperature of the temperature measuring device 70 is out of the set value. If judged by the angle of the wind volume control damper 20 and the wind chamber control A controller 80 for controlling the opening degree of the valve 50. Reference numeral 82 denotes a crasher for crushing the sintered ore, and 84 denotes a cooler for cooling the sintered ore.

The main blower 10 supplies a high temperature main sintered wind in the direction in which the trolley 60 moves for a predetermined operation of the blended raw material. The airflow control damper 20 is installed in front of the main blower 10.

The air volume control damper 20 controls the degree of air volume of the sintered wind supplied to the air volume supply line 30 by the control operation of the controller 80 in front of the main blower 10. The control operation of the air volume control damper 20 will be described in more detail with reference to the controller 80 described later.

The sintered wind passing through the air volume control damper 20 passes through the dust collector 21.

The dust collector 21 removes foreign substances such as dust included in the sintered wind generated by the main blower 10. The sintered wind passing through the dust collector 21 is supplied to the air volume supply line 30.

The air volume supply line 30 is installed to supply sintered wind to each of the plurality of wind chambers 40. That is, the air volume supply line 30 has a shape of a supply line having a space therein, and each of the wind chambers 40 communicates with the air volume supply line 30 to receive sintered wind.

The wind chamber 40 guides and supplies the sintered wind supplied through the air volume supply line 30 in the direction of the bogie 60. The wind chamber control valve 50 is installed between the wind chamber 40 and the air volume supply line 30.

The wind chamber control valve 50 is installed in a number corresponding to the number of the wind chambers 40, and controls the degree of the air volume guided to the wind chamber 40 by the sintered wind supplied through the air volume supply line 30. . Opening / closing control of the wind chamber control valve 50 is controlled by the control operation of the controller 80 described later, and will be described in detail with reference to the controller 80. The sintered wind supplied through the wind chamber control valve 50 is guided by the wind chamber 40 in the direction of the bogie 60.

The trolley 60 is installed in plural along the rails installed above the wind chambers 40. Above the trolley 60, an upper light hopper 61 for storing the upper light, a surge hopper 63 for storing the compounding material, and a drum feeder 65 for cutting out a predetermined amount of the compounding material are provided. Here, the upper light refers to a sintered ore having a diameter of 10 mm or less, and the compounding material refers to a raw material in which powdered iron ore and powdered coke are mixed with water.

The bogie 60 stores the top light by the top light hopper 61, and stores the blended raw material by the surge hopper 63. The blended raw materials stored in the trolley 60 are attached while passing through the ignition furnace 67. The trolley 60 receives the sintered wind while passing through the plurality of wind chambers 40 described above, and the sintering operation is performed.

On the other hand, the wind chamber 40 is provided with a temperature measuring device 70 for measuring the internal temperature of the wind chamber 40, respectively.

The temperature measuring device 70 measures the internal temperature of the wind chamber 40, and transmits a signal indicating whether the temperature of the wind chamber 40 is abnormal to the controller 80.

If it is determined that the measured temperature of the temperature measuring device 70 is out of the set value, the controller 80 controls the angle of the air volume control damper 20 and the opening degree of the wind chamber control valve 50. That is, the controller 80 measures the temperature of the exhaust gas generated when the blended raw material is fired by using the temperature measuring device 70 installed in the wind chamber 40, and compares the measured temperature value with a preset temperature value to set a value. Judge whether or not.

To this end, the control unit 80 includes a database unit 81 for storing the standard temperature of the wind chamber 40, a valve opening control unit 83 for adjusting the opening degree of the wind chamber control valve 50, and air volume control. It includes a damper opening degree adjustment unit 85 for adjusting the opening degree of the damper 20.

The database unit 81 stores the set standard temperature of each of the wind chambers 40.

In addition, the valve opening adjustment unit 83 compares the standard temperature of the wind chamber 40 stored in the database unit 81 with the internal measurement temperature of the wind chamber 40 measured by the temperature measuring device 70, thereby providing an error. If the setting value is out of the range, the opening degree of the wind chamber control valve 50 is adjusted.

That is, when the temperature value measured by the temperature measuring device 70 is larger than a set value, the valve opening adjustment part 83 judges that the baking state of the blended raw material on the trolley | bogie 60 advances earlier than a standard state. Therefore, the valve opening adjustment unit 83 closes the opening degree of the wind chamber control valve 50 to reduce the intake air flow rate, thereby delaying the preliminary firing state of the blended raw material and proceeding to the normal firing state. Here, the set value refers to experimental data that can be set arbitrarily by the operator.

In addition, when the temperature value measured by the temperature measuring device 70 is smaller than a set value, the valve opening degree adjusting part 83 judges that the baking state of the blended raw material on the trolley | bogie 60 is delayed rather than a standard state. Therefore, the valve opening adjustment unit 83 further opens the opening degree of the wind chamber control valve 50 to increase the amount of suction air, thereby promoting a predetermined state of the blended raw material so as to proceed to a normal firing state.

In addition, the damper opening degree adjusting unit 85 compares the standard temperature value of the wind chamber stored in the database unit 81 with the measured temperature of each of the wind chambers 40 measured by the temperature measuring device 70 to set an error. Determine whether it is out of value. Here, when it is determined that the sum of the temperature measurement values of the plurality of wind chambers 40 measured by the temperature measuring device 70 is equal to or more than the standard temperature value, it is determined that the blended raw material on the balance 60 is fired early. . Therefore, the damper opening degree adjusting unit 85 further closes the opening degree of the air volume control damper 20 to reduce the suction air volume, thereby delaying the firing state of the blended raw material and leading to the long-firing state. Here, the reference deviation between the standard temperature value and the measured temperature value can be set to 5%.

When the damper opening degree adjusting unit 85 determines that the sum of the temperature measurement values of the plurality of wind chambers 40 measured by the temperature measuring device 70 is equal to or less than the standard temperature value, the damper opening degree adjusting unit 85 is combined on the balance 60 as a whole. It is determined that the raw material is in the firing delay state. Accordingly, the damper opening degree adjusting unit 85 further opens the opening amount of the air volume control damper 20 to increase the suction air volume, thereby promoting the firing state of the blended raw material and leading to a normal firing state.

With this configuration, it is possible to supply the sintered wind supplied to the trolley 60 properly during the baking process of the blended raw material according to the firing state of the blended raw material, so that the firing state and the constant temperature of the blended raw material can be maintained. Thus, productivity and quality of the sintered ore can be improved.

2 is a flow chart schematically showing a firing temperature control method according to an embodiment of the present invention. The same reference numerals as in FIG. 1 denote the same members of the same function. Hereinafter, detailed description of the same reference numerals will be omitted. Hereinafter, the firing temperature control method will be described in detail with reference to FIG. 2.

First, the sintered wind generated by the operation of the main blower 10 is supplied to the blended raw material of the bogie 60 via the air volume supply line 30 and the wind chamber 40. (S10)

Next, the internal temperature of each of the plurality of wind chambers 40 is measured. (S20) The temperature change is generated in the wind chamber 40 by the sintered flue gas generated from the blended raw material. The internal temperature of the wind chamber 40 is installed in the wind chamber 40, the temperature measuring device 70 such as a thermometer to measure the temperature.

Subsequently, the combined temperature measured value obtained by summing the temperature measured values of each of the plurality of wind chambers 40 measured in step S20 is compared with a preset standard temperature value.

In addition, if the total temperature measured value is greater than the standard temperature value in step S20, the amount of sintered air supplied from the main blower 10 to the air flow rate supply line 30 is reduced (S40). If the combined temperature measured value is larger than the standard temperature value, it is determined that the blended raw material on the balance 60 as a whole is fired early. Therefore, the opening degree of the air volume control damper 20 installed in front of the main blower 10 is reduced to reduce the sintered wind supplied to the air volume supply line 30.

Subsequently, when the total temperature measured value of the step S20 is smaller than the standard temperature value, the air volume of the sintered wind supplied from the main blower 10 to the air flow rate supply line 30 is increased (S50). When the total temperature measured value is smaller than the standard temperature value, it is judged that the blended raw material on the balance 60 as a whole is delayed in firing. Therefore, the opening degree of the air volume control damper 20 is further opened to increase the sintered wind supplied to the air volume supply line 30.

Next, it is determined whether the temperature measurement value of each of the wind chambers 40 in step S20 is greater than the preset standard temperature value (S60), and when the temperature measurement value is larger than the standard temperature value, the wind chamber 40 is supplied to the wind chamber 40. Reduce the air volume of the sintered wind. (S70)

Finally, when the temperature measurement value of each of the wind chambers 40 in step S20 is smaller than the preset standard temperature value, the air volume of the sintered wind supplied to the wind chamber 40 is increased.

Here, the control of reducing or increasing the sintered wind supplied to the wind chamber 40 in the step (S70) (S80) of the wind chamber control valve 50 installed between the air volume supply line 30 and the wind chamber 40. Opening is also possible through control.

The present invention has been described above with reference to the embodiments shown in the drawings. However, the present invention is not limited thereto, and various modifications or other embodiments falling within the scope of the present invention are possible by those skilled in the art.

10 ... main blower 20 ... airflow control damper
30 ... wind supply line 40 ... wind chamber
50 ... wind chamber control valve 60 ... bogie
70 ... temperature meter 80 ... control unit
81.Database section 83 ... Valve opening position
85.Damper opening adjustment

Claims (9)

A main blower for supplying a sintering wind for sintering;
An air volume control damper for adjusting a degree of air volume of the sintered wind supplied from the main blower;
An air volume supply line for transferring the sintered wind supplied from the main blower;
A plurality of wind chambers installed on an upper side of the air volume supply line to guide air supply;
A plurality of trucks moving along rails installed on the wind chamber;
A wind chamber control valve for selectively controlling a degree of air volume of the sintered wind supplied from the air volume supply line toward the wind chamber;
A temperature meter for measuring an internal temperature of the wind chamber; And
If it is determined that the measured temperature of the temperature measuring instrument is out of the set value, the control unit for controlling the angle of the air volume control damper and the opening degree of the wind chamber control valve to control the measured temperature of the temperature measuring instrument to be within the set value
Lt; / RTI >
The control unit,
A database unit for storing a standard temperature inside the wind chamber; And
Compare the standard temperature value of the wind chamber stored in the database unit with the internal measured temperature value of the wind chamber measured by the temperature measuring instrument, and if the difference between the temperature values is out of the set value, open the wind chamber control valve. A valve opening adjustment unit for adjusting;
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The control unit,
Comparing the measured temperature value of the wind chamber measured by the temperature measuring unit with the standard temperature value of the wind chamber stored in the database unit, and adjusting the opening degree of the air volume control damper when the difference of the temperature value is out of the set value. Further comprising a damper opening degree adjustment unit,
The damper opening degree adjusting unit,
An average temperature value obtained by summing internal measured temperatures of the plurality of wind chambers is derived.
Firing temperature control device for reducing the opening degree of the air volume control damper when the average temperature value shows an error of more than the predetermined set value, and opening the opening degree of the air volume control damper if the average temperature value shows an error of less than the predetermined set value. .
delete The method of claim 1,
The valve opening adjustment unit,
Compared with the internal measured temperature value of the wind chamber and a predetermined standard temperature value of the wind chamber, if the difference in temperature value indicates an error of a set value or more, the opening degree of the wind chamber control valve is reduced,
And the opening degree of the wind chamber control valve is opened if the internal measured temperature value of the wind chamber is compared with a preset standard temperature value of the wind chamber, and the difference in temperature value indicates an error of less than or equal to a set value. delete delete (a) supplying the sintered wind generated by the operation of the main blower to the blended raw material of the bogie installed in the sintering machine by the air volume guide action of the plurality of wind chambers via the air volume supply line;
(b) measuring the internal temperature of each of the plurality of wind chambers of step (a);
(c) comparing the combined temperature measurement value obtained by summing the temperature measurement values of each of the plurality of wind chambers measured in step (b) with a preset standard temperature value;
(d) reducing the air flow rate of the sintered wind supplied from the main blower to the air flow rate supply line if the combined temperature measurement value of step (c) is greater than a standard temperature value;
(e) increasing the air flow rate of the sintered wind supplied from the main blower to the air flow rate supply line if the combined temperature measurement value of step (c) is smaller than a standard temperature value;
(f) if the temperature measurement value of each of the wind chambers of step (c) is larger than a predetermined standard temperature value, the sintering is supplied from the air volume supply line to the wind chamber having a temperature value larger than a predetermined standard temperature value. Reducing the air volume of the wind; And
(h) when the temperature measurement value of each of the wind chambers of step (c) is smaller than a predetermined standard temperature value, the temperature measurement value is supplied from the air volume supply line to the wind chamber smaller than a predetermined standard temperature value. Increasing the air volume of the sintered wind;
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Step (b) is to install a temperature measuring device in each of the plurality of wind chamber to measure the internal temperature of the wind chamber,
The increase or decrease operation of the sintered wind generated by the main blower,
And a flow rate control damper is provided on the moving duct through which the sintered wind is moved to control the flow rate of the sintered wind through the opening degree control of the flow rate control damper. delete delete The method according to claim 6,
The increase or decrease operation of the sintered wind supplied to the wind chamber,
A wind chamber control valve is installed between the wind chamber and the air flow rate supply line to control the air flow rate of the sintered wind through the opening degree control of the wind chamber control valve.

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