KR20110046686A - Apparatus and method for controlling temperature of heat treatment furnace - Google Patents

Abstract

PURPOSE: A device and a method for controlling the temperature of a thermal process furnace are provided to minimize surface defect of a thick plate and reduce maintenance costs for the formation of inert gas atmosphere. CONSTITUTION: A device for controlling the temperature of a thermal process furnace comprises a first sensor(200), a second sensor(210), a flow controller(400), and a controller(300). The first sensor is installed inside a thermal process furnace which transfers and thermally processes a thick plate. The first sensor detects the surface temperature of the thick plate. The second sensor is installed inside the thermal process and detects the surface temperature of a roller table. The roller table comprises a roll shaft and a roller. The flow controller is connected to the burner and controls the flow rate of the gas supplied to the burner. The controller connects to the first and second sensors and the flow controller. The controller controls the opening degree of the flow controller according to the temperature difference and setup value.

Description

Apparatus and method for controlling temperature in heat treatment furnace {APPARATUS AND METHOD FOR CONTROLLING TEMPERATURE OF HEAT TREATMENT FURNACE}

The present invention relates to a temperature control apparatus and a method of a heat treatment furnace, and more particularly, to a temperature control apparatus and a method of a heat treatment furnace to prevent the plate surface defects caused by the scale generated during the heat treatment process of the thick plate.

In general, the thick plate of steel products is charged into a heat treatment furnace heated at high temperature during the plate manufacturing process to improve the quality, heat treatment for a predetermined time while controlling the speed in the furnace according to the plate thickness, and then extract the heat treated plate Air-cooled or water-cooled.

The heat treatment furnace used in such a thick plate manufacturing process includes a burner for controlling the internal temperature, a roller table for transferring the plate, a temperature sensor for measuring the temperature of the thick plate, and the like.

However, during the heat treatment of the thick plate as described above, the scale of the surface of the plate is attached to the roller table, which is the plate conveying means inside the heat treatment furnace, and the attached scale causes scratches on the surface of the plate to be conveyed. Frequent repairs and replacement costs have led to higher heat treatment loads.

Conventionally, in order to minimize such problems, the internal atmosphere of the furnace during the heat treatment process is maintained in an inert gas nitrogen atmosphere to reduce the scale formation of the plate itself, but it is not a fundamental solution, and a maintenance cost for inert gas atmosphere is required separately. The disadvantage is that it is derived.

The present invention has been made to solve the above problems in consideration of the above-described problems, while reducing the maintenance cost through the temperature control inside the heat treatment furnace at the same time to minimize the adhesion of the scale and minimize the contact area between the roller table and the back plate Its main purpose is to provide a temperature control device of a heat treatment furnace to reduce the occurrence of surface defects.

In addition, another object of the present invention is to control the temperature inside the heat treatment furnace to optimally prevent the combination of the roller table and the scale, through which the scale is not easily attached to the roller table heat treatment to contribute to the improvement of the characteristics of the thick plate It is to provide a temperature control method of the furnace.

The temperature control apparatus of the heat treatment furnace according to an embodiment of the present invention for achieving the above object, the first sensor is installed inside the heat treatment furnace to be heat-treated while the plate is transported, and detects the surface temperature of the thick plate; A second sensor installed inside the heat treatment furnace and detecting a surface temperature of a roller table for conveying the thick plate; A flow controller connected to a burner for heating the inside of the heat treatment furnace and controlling a flow rate of the gas supplied to the burner; And a control unit connected to the first and second sensors and the flow controller to adjust the opening degree of the flow controller according to the difference between the temperature difference and the set value according to the measured value of the first and second sensors.

At this time, the roller table has a plurality of roll shafts provided with a predetermined interval in the longitudinal direction inside the heat treatment furnace; The roller shaft is fixed to the outer circumferential surface of the roll shaft and is provided with a plurality of rollers spaced in the longitudinal direction of the roll shaft to reduce the contact area with the thick plate.

In addition, the first and second sensors are characterized in that the non-contact laser sensor.

In addition, the controller may further include a memory unit for storing a set value or a measured value detected by the first and second sensors.

In addition, the control unit is characterized in that the input and output unit which is a means for changing the set value or output the calculated value is further provided.

On the other hand, the temperature control method of the heat treatment furnace according to an embodiment of the present invention for achieving the above another object, the first and second sensors according to the control signal of the control unit respectively the surface temperature of the back plate and the roller table inside the heat treatment furnace Detecting a temperature measuring step; A temperature difference comparing step of calculating, by the controller, two measured temperature differences after the temperature measuring step, and comparing the calculated temperature difference with a set value; After the temperature difference comparison step, the control unit maintains the flow controller connected to the burner as it is, and if it is larger than the set value, reduces the flow rate of the flow controller, and if it is smaller than the set value, the control unit increases the flow rate of the flow controller. Characterized in that comprises a temperature control step of controlling the opening degree of.

In this case, in the temperature difference comparison step, the set value is preferably 3 ~ 5 ℃.

According to the present invention, it is possible to minimize the adhesion of the scale of the roller table and the thick plate by optimally controlling the temperature inside the heat treatment furnace.

In addition, the present invention can minimize the surface defects of the thick plate by minimizing scale adhesion and reducing the contact area between the roller table and the thick plate, and can also reduce the maintenance cost for the formation of an inert gas atmosphere.

Hereinafter, the most preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the technical idea of the present invention. First, in adding reference numerals to the components of each drawing, the same components have the same reference numerals as much as possible even though they are displayed on different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a view schematically showing the configuration of a heat treatment furnace according to the present invention, Figure 2 is an exemplary configuration block diagram of a temperature control apparatus of a heat treatment furnace according to the present invention, Figure 3 is a heat treatment furnace of the present invention A flowchart showing a temperature control method.

First, in the present invention, the scale formed on the surface of the plate during the heat treatment process of the thick plate is the difference between the surface temperature of the plate and the surface temperature of the roller table is about 3 ~ 5 ℃, that is, the surface temperature of the roller table compared to the surface temperature of the thick plate is 3 ~ When the temperature is about 5 ° C., the scale formed on the surface of the plate is not easily attached (bonded) to the surface of the roller table, and thus the temperature difference between the two is maintained by controlling the temperature inside the heat treatment furnace.

In this case, the greater the temperature difference between the thick plate and the roller table, the poorer the adhesion is, but the larger the temperature is out of the above range, the greater the temperature outside the management temperature of the thick plate during heat treatment. Ideally.

Referring to Figure 1, the temperature control apparatus of the heat treatment furnace according to the present invention is installed in the heat treatment furnace 110 for heating and heat treating the thick plate 100.

At this time, a plurality of roller tables 120 for transporting the thick plate 100 is provided in the heat treatment furnace 110.

The roller table 120 has a roll shaft 122 rotatably installed in the width direction of the heat treatment furnace 110 and a plurality of plates having a predetermined radius and spaced along the longitudinal direction of the roll shaft 122. It consists of the roller 124 which contacts the lower surface of 100.

In this case, the roller 124 is fixed in the form of being keyed to the roll shaft 122 is preferably formed integrally with the roll shaft 122, the interval, that is, the distance between the roller 124 and the roller 124 It is more desirable to be able to adjust the distance.

To this end, the outer circumferential surface of the roll shaft 122 may be formed in a plurality of length-dependent key grooves along the radial direction.

Therefore, in the past, the roller table 120 and the rear plate 100 are in overall contact, but in the present invention, only the roller 124 constituting the roller table 120 partially contacts, so that the contact area with the rear plate 100 is small. Surface defects such as scratches are reduced dramatically.

In addition, the roller table 120 is preferably configured such that the power source can be driven simultaneously by a motor and a power transmission means connected to the motor, such as a chain and a sprocket.

And, although not shown in detail in the upper and lower portion of the heat treatment furnace 110 is provided with an internal heating burner (upper burner, lower burner), each burner as shown in Figure 2 to adjust the heat capacity according to the combustion As the flow controller 400 is provided, the flow controller 400 is configured to be connected to the control unit 300 so that the opening degree can be adjusted according to the signal of the control unit 300.

In addition, the first sensor 200 for detecting the surface temperature of the thick plate 100 and the roller table 120 more preferably detects the surface temperature of the roller 124 in the heat treatment furnace 110. The second sensor 210 is further installed.

In this case, the first and second sensors 200 and 210 are laser sensors capable of accurately measuring the surface temperature instead of the conventional simple thermometer concept, and are electrically connected to the control unit 300 to transmit measured values. It is configured as shown in FIG.

In addition, the controller 300 is installed on a control panel (not shown) provided outside the heat treatment furnace 110, and may be a means such as a microprocessor or a programmable logic controller (PLC).

In addition, the control unit 300 is further preferably connected to the memory unit 310 to have a function of storing the set value or the detected measured value for the temperature difference, and further by the first, second sensors (200, 210) The comparison operation unit 320 is further connected to the control unit 300 so as to calculate a deviation by comparing the measured temperature value.

In this case, the function of the comparison operation unit 320 may be implemented as an internal processing function in the controller 300 itself without separately configuring as in the embodiment of the present invention.

In addition, the control unit 300 is connected to the input and output unit 500 as an input tool for displaying the control or setting the control, the input unit may be a keypad, keyboard, mouse, touch pen, touch screen, etc. The output unit may be a screen such as a monitor or an alarm that may give alarm, and may be configured to auxiliaryly output a specific type of data to a memory such as a removable disk.

Hereinafter, a method of controlling a temperature of a heat treatment furnace according to the present invention will be described with reference to the accompanying drawings. In the description, the same reference numerals shown in Figs. 1 to 3 are assumed to perform the same function.

Referring to Figure 3, the temperature control method of the heat treatment furnace according to the present invention, when the heat treatment furnace 110 is operated first, the temperature measuring step (S100) is performed.

The temperature measuring step (S100) consists of measuring the surface temperature of the rear plate 100 through the first sensor 200 and measuring the surface temperature of the roller 124 through the second sensor 210.

At this time, since the first and second sensors 200 and 210 detect the surface temperature in a non-contact manner through a laser sensor, it is accurate and rapid.

In addition, the detected temperature value, that is, the measured value is transmitted to the controller 300, and the controller 300 stores the received measured value in the memory 310.

Subsequently, a temperature difference comparison step S110 is performed.

The temperature difference comparison step (S110) is performed by comparing and calculating the temperature values measured by each sensor to determine how much the temperature difference is, and for subsequent control accordingly.

To this end, the control unit 300 draws out the measured value stored in the memory unit 310 and inputs it to the comparison operation unit 320, and the comparison operation unit 320 is detected by the first and second sensors 200 and 210 by internal logic. The difference between the two, that is, the temperature difference is calculated based on the temperature value, and then output to the controller 300.

In this case, the control unit 300 may display the calculated value through the output unit of the input and output unit 500 and display the temperature state of the current heat treatment furnace 110 so that a manager may know.

In addition, the control unit 300 may build a management history database for management by storing the data calculated through the comparison operation unit 320 in the memory unit 310.

Thereafter, temperature control steps S120 and S130 are performed.

In the temperature adjusting step (S120, S130), if the temperature difference calculated through the comparison operation unit 320 is a set value, that is, in the range of 3 to 5 ° C, the controller 300 maintains the opening degree of the flow controller 400 as it is. If it is larger than the set value, the temperature of the heat treatment furnace 110 is lowered by reducing the flow rate by adjusting the opening degree of the flow controller 400 by the control of the controller 300. If it is smaller than the set value to increase the flow rate by adjusting the opening degree of the flow controller 400 by the control of the control unit 300 to increase the temperature inside the heat treatment furnace 110, this process is the temperature measurement step (S100) By feeding back), the temperature difference between the surface temperature of the thick plate 100 and the surface temperature of the roller 124 of the roller table 120 is always maintained in the range of the set value, thereby significantly reducing the scale attachment.

As such, the present invention adjusts the temperature inside the heat treatment furnace 110 to generate a scale by maintaining a temperature difference between the thick plate 100 through which the heat treatment furnace 110 flows and the roller table 120 which transfers it to always be in a specific range. In addition, the generated scale is attached to the roller table 120 and it is possible to minimize the surface defects that cause scratches are conducted or contacted back to the surface of the thick plate 100.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but many variations and modifications may be made without departing from the scope of the present invention. It will be understood that the invention may be practiced.

1 is a view schematically showing the configuration of a heat treatment furnace according to the present invention.

2 is an exemplary configuration block diagram of a temperature control device of a heat treatment furnace according to the present invention.

Figure 3 is a flow chart showing a temperature control method of the heat treatment furnace according to the present invention.

* Description of the symbols for the main parts of the drawings *

100: thick plate 110: heat treatment furnace

120: roller table 122: roll shaft

124: roller 200: first sensor

210: second sensor 300: control unit

310: memory unit 320: comparison operation unit

400: flow controller 500: input and output

Claims (7)

A first sensor installed inside the heat treatment furnace in which the thick plate is transferred and heat-treated, and detecting a surface temperature of the thick plate; A second sensor installed inside the heat treatment furnace and detecting a surface temperature of a roller table for transporting the thick plate; A flow controller connected to a burner for heating the inside of the heat treatment furnace and controlling a flow rate of the gas supplied to the burner; And a control unit connected to the first and second sensors and the flow controller to adjust the opening degree of the flow controller according to the difference between the temperature difference and the set value according to the measured value of the first and second sensors. Temperature control device in the furnace. The method according to claim 1; The roller table has a plurality of roll shafts are provided at a predetermined interval in the longitudinal direction inside the heat treatment furnace; And a roller fixed to the outer circumferential surface of the roll shaft and provided with a plurality of intervals in the longitudinal direction of the roll shaft to reduce the contact area with the thick plate. The method according to claim 1; And the first and second sensors are non-contact laser sensors. The method according to claim 1, The control unit further comprises a memory unit for storing a set value or a measured value detected by the first and second sensors. The method according to claim 1, The control unit is a temperature control device of the heat treatment furnace, characterized in that the input and output unit which is a means for changing the set value or output the calculated value is further provided. A temperature measuring step of detecting, by the first and second sensors, the surface temperatures of the thick plate and the roller table in the heat treatment furnace, respectively, according to a control signal of the controller; A temperature difference comparing step of calculating, by the controller, two measured temperature differences after the temperature measuring step, and comparing the calculated temperature difference with a set value; After the temperature difference comparison step, the controller maintains the flow controller connected to the burner as it is, and if the value is larger than the set value, the flow controller decreases the flow rate, and when smaller than the set value, the controller controls the flow rate of the flow controller to increase the flow rate of the flow controller. Temperature control method of the heat treatment furnace, characterized in that comprising a temperature control step of controlling. The method according to claim 6; In the temperature difference comparison step, the set value is a temperature control method of the heat treatment furnace, characterized in that 3 ~ 5 ℃.

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