KR101264258B1 - Leakage Detector in Channel Induction Furnace - Google Patents

Abstract

The present invention relates to a channel-type induction furnace, in particular to detect the occurrence of cracks in the channel wall of the zinc induction furnace, causing leakage of the inductor coin due to leakage caused and prevents and stably induce the operation of the induction heating system A leak detection apparatus for a channel-type induction furnace for driving a heating system. The present invention includes a power detector and a current detector for converting a high voltage power supplied to an inductor provided in a channel induction furnace, and scale values received from a power transformer and a current transducer. / D (Analog-to-Digital) conversion unit, an impedance calculation unit for receiving the voltage and current values from the converter to calculate the phase difference and impedance, a reference impedance storage unit for recording and providing a reference impedance value, The impedance judging unit includes an impedance judging unit comparing the phase difference, the impedance value, and the stored reference impedance value in real time from the impedance calculating unit, and an alarm unit which operates an alarm when an abnormality is detected in the channel-type induction furnace by the impedance judging unit. It is a leak detection device for channel type induction furnace that detects the occurrence of crack in the channel wall of the channel and prevents it in advance.

Inductor, power detector, current detector, crack detector, alarm.

Description

Leakage detection device of channel induction furnace {Apparatus of zinc fulid leakage for zinc pot}

1 is a conceptual diagram of a channel induction furnace,

2 is a conceptual diagram of a channel-type induction furnace of the present invention,

Figure 3 is a block diagram of a leak detection device of the channel-type induction furnace of the present invention.

<Description of Major Symbols in Drawing>

20: channel induction furnace 22: channel

26: inductor 50: power detector

52: current detector 60: crack detector

62: conversion unit 64: impedance calculation unit

66: reference impedance storage unit 68: impedance determination unit

70: judgment unit

The present invention relates to a channel-type induction furnace, in particular to detect the occurrence of cracks in the channel wall of the zinc induction furnace by preventing leakage of the inductor coin due to leakage caused and prevent the operation of the induction heating system stably The present invention relates to a leak detector for channel type induction furnace for driving an induction heating system.

In general, the channel induction furnace is a furnace used to insulate zinc, copper, tin and the like at the same time. Typically, the power supply performs a constant temperature control of the molten metal and molten metal through high power and low power control using a 60 Hz commercial frequency.

Hereinafter, a conventional channel-type induction furnace will be described in detail with reference to the drawings.

1 shows a conceptual diagram of a conventional channel-type induction furnace.

1 shows a channel-type induction furnace 20, a channel 22, an inductor 26, and a power supply 28, and the crack 24 shows a gap in which an abnormality is found in the wall of the channel.

The core of the channel-type induction furnace 20 is the channel 22 which the inductor 26 surrounds, through which the molten metal is stirred.

When the channel-type induction furnace 20 is used for a long time, a crack 24 is generated on the wall of the channel 22, and a gap is gradually opened. There is a problem that human accidents can occur. Therefore, in case of detecting cracks in the wall of the channel in advance, it can be repaired and repaired.However, in case of leaking because the crack is not found, the induction heating system does not operate smoothly. There is a need for a technique for detecting the occurrence of.

As mentioned, cracks 24 generated in the wall of the channel 22 of the channel-type induction furnace 20 should be recognized in advance to prevent accidents through repair, but check the state of the channel-type induction furnace during operation. Also, since the channel 22 is usually narrow, it is impossible to visually check whether the crack has occurred.

The present invention is to solve the above-mentioned problems, the single phase voltage and current signal input to the inductor provided in the channel in the channel induction path to detect the difference between the operation pattern during normal operation and the operation pattern during crack occurrence The present invention provides a device for detecting leaky water in a channel-type induction furnace that can stably detect the occurrence of cracks, detect the leaky water in advance, and keep the operation of the induction heating system smooth and stable.

The present invention includes a power detector and a current detector for converting a high voltage power supplied to an inductor provided in a channel induction furnace, and scale values received from a power transformer and a current transducer. / D (Analog-to-Digital) conversion unit, an impedance calculation unit for receiving the voltage and current values from the converter to calculate the phase difference and impedance, a reference impedance storage unit for recording and providing a reference impedance value, The impedance judging unit includes an impedance judging unit comparing the phase difference, the impedance value, and the stored reference impedance value in real time from the impedance calculating unit, and an alarm unit which operates an alarm when an abnormality of the channel-type induction line is detected by the impedance judging unit. It is to provide a leak detection device of a channel-type induction furnace to detect the occurrence of cracks in the channel wall of the The purpose.

The reference impedance storage unit of the present invention stores the impedance value when a crack occurs in the channel wall, the impedance value when operating stably, and the reference impedance to store the reference impedance and the channel of the channel induction furnace from the measured phase difference and impedance value. It is an object of the present invention to provide a leak detection device of a channel-type induction furnace that enables an administrator to cope with such a problem since the crack can be identified immediately.

The leak detection apparatus of a channel induction furnace of the present invention is a channel induction furnace including an inductor surrounding a channel, a power supply unit, and the like, comprising: a power detector for detecting and providing power to the inductor; The current detector and the power detector and the current detector to calculate the phase difference and the impedance using the voltage and current value, and compares the calculated impedance and the reference impedance to determine whether a crack has occurred in the channel Characterized in that it comprises a.

In addition, the crack detection unit of the present invention calculates the phase difference and the impedance using the voltage and current value converted from the power detection unit and the current detection unit to scale conversion and converting the values provided by the current detection unit to a digital value; A crack is generated in the current channel by comparing an impedance calculator, a reference impedance storage unit storing and providing a reference impedance value, and an impedance and phase difference calculated by the impedance calculator and the reference impedance value provided by the reference impedance storage unit. Characterized in that it comprises an impedance determination unit for determining whether or not.

The crack detection unit may include an alarm unit that activates an alarm when the measured impedance is a value indicating that there is an abnormality in the channel compared to the reference impedance, and the crack detection unit is provided as a microprocessor. It is done.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a conceptual diagram of a channel-type induction furnace of the present invention, Figure 3 is a block diagram of a leak detection device of the channel-type induction furnace of the present invention.

The present invention detects a single phase voltage and current signal input to an inductor provided in a channel in a channel-type induction furnace, and detects the difference between the operation pattern during normal operation and the operation pattern during crack generation by changing the impedance to detect the presence of cracks. Since it can grasp | ascertain, it can detect a leak beforehand and cope with it, and can drive an induction heating system stably.

In the channel type induction furnace shown in FIG. 2, the inductor surrounds the channel as in FIG. 1, and a power source of about several hundred volts to 1,000 volts is supplied to the inductor 26 to heat the channel induction furnace 20. It melts, coats steel plate, and so on to process the operation.

The present invention includes a power detector 52 and a current detector 50 to identify the power supplied, and to determine the current flowing through the inductor 26 to determine whether a current crack 24 is generated in the wall of the channel 22. It can be seen from such a change value.

The power supplied to the inductor 26 of the channel induction furnace 20 is supplied to the primary side of the inductor, and the inductor 26 has a structure surrounding the channel 22. Channel 22 acts as a secondary winding.

In order for the channel 22 to serve as the secondary winding, the channel must always be filled with molten metal.

Therefore, in the initial operation of the channel induction furnace using a gas torch to dissolve a metal such as zinc to form a molten metal in the channel 22, and then power is applied.

Once the channel is formed and the power is applied, the metal mass is continuously added by adjusting the power of the input power. If a predetermined level of molten metal is formed through this process, the molten metal is now kept at a predetermined temperature through power control.

If the melt level is changed by using the molten metal, the ingot is added again to perform power control. This process maintains a constant level of melt and temperature at all times.

When the final steady state is reached, the state of constant input voltage and current depending on the temperature and level of the melt can be known. Accurately measuring the input voltage and current at high speed allows the equivalent impedance of the inductor to be determined during operation.

Therefore, by continuously monitoring the transition of these equivalent impedance values early in the operation, it is possible to clearly detect the tendency of the impedance in the steady state of the induction furnace.

Therefore, data such as reference impedance and phase difference at the beginning of the operation are stored in the internal memory to be used as a reference value.

When the channel-type induction furnace is operated for a long time, cracks are generated in the channel wall, and the generated cracks penetrate into the crack portion of a solution such as highly permeable zinc, resulting in a change in impedance of the secondary side of the inductor.

The change in the secondary impedance is connected to the change in the power supply input, that is, the primary impedance, and the on-line continuous monitoring of the voltage current at the primary input terminal can be used to find the changing impedance value.

Figure 3 is a block diagram of a leak detection device of the channel-type induction furnace of the present invention.

3 shows an inductor 26, a power transformer 50, a current transducer 52, and a crack detector 60 surrounding the channel of the channel induction furnace, and shows a crack detector 60 includes a converter 62, an impedance calculator 64, a reference impedance storage 66, an impedance determiner 68, and an alarm 70.

The crack detection unit 60 of the present invention is provided with a microprocessor.

The power transformer 50 detects and supplies a power source of thousands of volts from the supplied hundreds of power transformers. The current transformer 52 detects current flowing through the inductor 26. To provide.

The converter 62 converts the scale of voltage and current values provided from the power transformer 50 and the current transducer 52, and converts analog data into digital and provides them. The impedance calculation unit 64 calculates data necessary for impedance and determination using information such as voltage, current, and phase difference provided from the conversion unit 62, and the reference impedance storage unit 66 calculates the reference impedance value. The impedance determiner 68 compares the determination data, such as the impedance calculated by the impedance calculator 64 and the phase difference, and the reference impedance value provided by the reference impedance storage 66, to the current channel 22. It is determined whether the crack 24 has occurred in the wall of the.

If the crack 24 is generated in the wall of the channel 22 of the channel-type induction furnace, the impedance determining unit 68 operates the alarm unit 70 as necessary to inform the operation site.

First, a power transformer 50 is installed at a power input terminal to read a current high voltage. In addition, a current transducer 52 is provided at the input terminal lead to read the current applied to the inductor 26.

The values input through the power transformer 50 and the current transducer 52 are rescaled to a level capable of A / D conversion and applied to the converter 62.

The crack detection unit 60, which may be provided as a microprocessor, receives the A / D converted voltage and current values, and the magnitude and impedance of the voltage and current. The final equivalent impedance is calculated by calculating the phase difference.

The calculated impedance and phase difference values are compared with reference impedance values input to the reference impedance storage 66 (memory) in real time, and the trend of the difference value can be detected in real time.

Therefore, when the trend of the final difference value is monitored, if a specific value is exceeded, the microprocessor unit controls to output an alarm signal to the alarm unit 70 so that the operator can grasp it.

The crack detector 60 includes a converter 62, an impedance calculator 64, a reference impedance storage 66, an impedance determiner 68, an alarm 70, and the like. Can be.

As mentioned above, the present invention detects leaks of zinc in advance while the channel type induction furnace is operated, and keeps the operation of the induction heating system smooth.

So far, the configuration and operation of the present invention have been described in detail. The present invention is not limited to the above-described embodiment, and various modifications can be made within the scope of the technical idea of the present invention.

As mentioned above, the present invention detects the single-phase voltage and current signals input to the inductor provided in the channel of the channel type induction furnace, and detects the difference between the operation pattern during normal operation and the operation pattern during crack occurrence, and provides information such as impedance. By using the detection, it is possible to grasp the presence or absence of crack generation, and it is possible to smoothly and stably operate the operation of the induction heating system by detecting leaking water in advance.

In addition, there is an additional effect of blocking in advance the loss of solids that may be caused by leakage of the channel-type induction furnace.

Claims (5)

In the channel type induction furnace provided with an inductor and a power supply surrounding the channel, A crack detector that periodically detects power information supplied to the inductor and compares it with a predetermined reference impedance value to generate an alarm when a crack occurs in the channel, The crack detection unit, A power detector detecting and supplying power supplied to the inductor; A current detector for grasping and providing a current of the inductor; The power detector and the current detector to calculate the phase difference and the impedance using the voltage and the current value, and compares the calculated impedance and the reference impedance, characterized in that it comprises a crack detector to determine whether the crack has occurred in the channel Crack detection device of channel induction furnace delete The method of claim 1, The crack detection unit A converter configured to scale-convert values provided by the power detector and the current detector to digital values; An impedance calculator which calculates a phase difference and an impedance using voltage and current values converted by the converter into digital values; A reference impedance storage unit for storing and providing a reference impedance value; And an impedance determiner configured to determine whether a crack has occurred in the current channel by comparing the impedance calculated by the impedance calculator and the phase difference with the reference impedance value provided by the reference impedance storage unit. Crack detection device in furnace. The method according to claim 1 or 3, The crack detection unit, If the measured impedance is a value indicating that there is an abnormality in the channel compared to the reference impedance, the crack detection device of the channel-type induction furnace characterized in that it comprises an alarm for operating an alarm. The method according to claim 1 or 3, The crack detection unit, Device for detecting cracks in channel-type induction furnace characterized in that it is provided with a microprocessor.

Images