KR200448583Y1 - Apparatus for alarm end signal in electric furnace - Google Patents

Abstract

The present invention relates to a device for notifying the appearance of an electric furnace, and more particularly, to an apparatus for reporting the appearance of an electric furnace for informing a signal about the appearance of the electric furnace. Apparatus for leaving the electric furnace according to the present invention, the tapping detection sensor for detecting the molten steel exited from the electric furnace; A transmitter for wirelessly transmitting a detection signal of the tapping detection sensor; A receiver for receiving a detection signal from a transmitter; A controller for determining whether to go to the electric furnace based on the detection signal received through the receiver and generating an alarm signal according to the determination result; And an alarm unit for notifying whether the electric furnace is driven or not, based on the alarm signal from the controller. Characterized in that it comprises a.

Electric furnace, charging, tapping, alarm

Description

Dispatch device for electric furnace {APPARATUS FOR ALARM END SIGNAL IN ELECTRIC FURNACE}

The present invention relates to a device for notifying the appearance of an electric furnace, and more particularly, to an apparatus for reporting the appearance of an electric furnace for informing a signal about the appearance of the electric furnace.

In general, an electric furnace is a facility for manufacturing steel by dissolving and refining scrap metal by arc (ARC) heat generated between an electrode and an iron scrap by passing an electric current through an electrode, which is an electric conductor.

In the current furnace, scrap metal is charged through a crane about two times with the ceiling covering the top before melting the scrap iron. And the electric furnace is applied to a high voltage through a plurality of electrode rods vertically connected to the ceiling covering the top to melt the scrap iron by high heat of arc heat. In addition, molten steel in which the scrap metal is melted is discharged through the tap formed in the lower part of the electric furnace and moved to fill the ladles, and the molten steel filled ladles are placed on a transport trolley provided to be moved to another process. Thereafter, the electric furnace is repeated every predetermined time.

As such, the process of charging the scrap into a conventional electric furnace has a waiting time of about 20 minutes after the scrap is charged into a crane and before the next scrap is charged. That is, the crane driver has about 20 minutes of waiting time after charging through the crane before charging the next scrap metal into the electric furnace.

However, when charging the scrap metal after the end of the tapping in the conventional electric furnace, there was a lot of problems such as delayed scrap loading time because the crane driver does not know the tapping state.

Therefore, the crane driver checks the state of the electric furnace with the naked eye every certain time, and then loads the scrap metal into the electric furnace. Therefore, the crane driver does not know the exact time. There was a lot of hassle.

The present invention has been proposed in view of the above-described conventional problems, and an object thereof is to provide a device for notifying an electric furnace to notify an electric furnace of the electric furnace with a crane for charging scrap metal located at a long distance.

In order to achieve the above object, the tapping notification device of the electric furnace according to the present invention, a tapping detection sensor for detecting the molten steel exited from the electric furnace; A transmitter for wirelessly transmitting a detection signal of the tapping detection sensor; A receiver for receiving a detection signal from a transmitter; A controller for determining whether to go to the electric furnace based on the detection signal received through the receiver and generating an alarm signal according to the determination result; And an alarm unit for notifying whether the electric furnace is driven or not, based on the alarm signal from the controller. Characterized in that it comprises a.

The control unit preferably generates an alarm signal for a set time from the time when the detection signal is received through the receiver.

The alarm unit preferably includes at least one of a light emitting element, a liquid crystal display, and a buzzer.

According to the present invention, it is possible to minimize the operating loss by saving time by informing the cab of the crane loading the scrap into the distant electric furnace so that the loading of the scrap into the electric furnace at an appropriate time.

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

1 is a block diagram showing an example of applying the device for notifying the exit of the electric furnace according to an embodiment of the present invention, Figure 2 is a block diagram showing a device for notifying the exit of the electric furnace according to an embodiment of the present invention. In the following description, the process of charging the scrap metal 4 in the electric furnace 1 is based on having a waiting time before charging the next scrap metal 4 after the scrap metal 4 is charged into the crane 5. The detailed description of the configuration of other general electric furnaces will be omitted.

As shown in Fig. 1 and 2, the tapping notification device of the electric furnace according to the present invention includes a tapping detection sensor 10, the transmitter 20, the receiver 30, the control unit 40, the alarm unit 50. It is configured by.

The tapping detection sensor 10 detects the molten steel 2 discharged through the tap hole of the electric furnace 1. That is, the tapping detection sensor 10 is provided at the exit side of the electric furnace 1 to detect the molten steel 2 to which the tapping detection sensor 10 taps. Thus, the tapping detection sensor 10 transmits the detected detection signal to the transmitter 20. The tapping detection sensor 10 may be a sensor that detects the molten steel 2 tapping out of the electric furnace 1 as heat, but the tapping tap sensor 10 is a sensor capable of sensing tapping taps 2. Ramen can be any way.

For example, referring to FIG. 1, the electric furnace 1 generates molten steel 2 by discharging the scrap iron 4 through a high heat arc heat after the scrap iron 4 is charged by the crane 5. In addition, the electric furnace 1 taps the molten steel 2 through a tap formed in the lower portion thereof. Then, the tapping detection sensor 10 detects the molten steel 2 is tapping to generate a detection signal.

The transmitter 20 transmits the detection signal from the tapping detection sensor 10 to the receiver 30 connected in a wired or wireless manner. In the wireless method, the transmitter 20 transmits a detection signal together with a wireless signal, and the receiver 30 detects the detection signal transmitted together with the wireless signal and inputs the detected signal to the controller 40. In addition, the transmitter 20 and the receiver 30 may be configured to transmit and receive a detection signal in an on / off manner. Here, the method of transmitting and receiving the detection signal through the transmitter and the receiver is easily understood by those skilled in the same industry, and thus detailed description thereof will be omitted.

The controller 40 determines whether the electric furnace 1 is out of the ground based on the detection signal from the tapping detection sensor 10 received by the receiver 30, and generates an alarm signal according to the determination result.

That is, when the control unit 40 receives the detection signal in the standby state before charging the scrap metal 4 into the electric furnace 1, the controller 40 determines whether to go out and generates an alarm signal.

The alarm unit 50 informs the operator who operates the crane 5 whether or not to go to the electric furnace based on the alarm signal from the control unit 40 to recognize. Here, the alarm unit 50 may include a light emitting element, a liquid crystal display, a buzzer, or the like, which is separately installed in the vicinity of the crane 5, or installed in the cab of the crane 5. For example, in the alarm unit 50 in which the light emitting device is installed, when the control unit 40 receives the alarm signal, the light emitting device is turned on (or flashes) to inform the operator (or the driver) of the electric furnace 1 exiting state.

In addition, the controller 40 may generate an alarm signal for a predetermined time from the time when the detection signal is received through the receiver 30. For example, the controller 40 may further include a relay or a timer (not shown) to transmit an alarm signal generated by the alarm unit 50 only up to a set time (for example, about 5 to 10 minutes). . Thus, the present invention can provide convenience to the user because it does not need to end the alarm generated by the alarm unit 50 separately.

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Hereinafter, with reference to the drawings the operation of the tapping notification device for electric furnace according to the present invention in detail as follows.

3 is a flowchart illustrating an operation procedure of the apparatus for notifying going to the electric furnace according to the present invention.

As described above, the electric furnace 1 is supplied with electric power to the electrode of the electric furnace in accordance with the operation of the electric furnace operating room for controlling the electric furnace to melt and refine the internal scrap metal 4 and the like, which is generated, and then produced molten steel. (2) will be discharged through this exit. At this time, the tapping detection sensor 10 detects the molten steel tapping (S10). Then, the transmitter 20 transmits the detection signal of the tapping detection sensor 10 together with the radio signal (S20). Then, the receiver 30 detects the detection signal of the tapping detection sensor 10 from the wireless signal transmitted from the transmitter 20 and sends it to the control unit 40 (S30).

Subsequently, the controller 40 determines whether the electric furnace 1 is moved out based on the detection signal of the tapping detection sensor 10 received through the receiver 30. Subsequently, the controller 40 generates an alarm signal to notify the electric furnace 1 when the electric furnace 1 is in the tapping state. Here, the control unit 40 determines that the electric furnace 1 is currently in the outgoing state when the detection signal is input when the crane 5 waits for charging the scrap metal into the electric furnace 1. Alternatively, the controller 40 may determine that the crane 5 is in the idle state as the standby state.

Next, the alarm unit 50 generates an alarm when receiving the alarm signal from the control unit 40 to notify the crane operator (or driver) whether the electric furnace 1 is out of the electric furnace 1 at an appropriate time. In order to charge the scrap metal (4) (S40). For example, when the alarm unit 50 receives an alarm signal from the control unit 40, the alarm unit 50 turns on (or flashes) the light emitting device installed in the crane cab, or generates a warning signal to provide the scrap iron 4 to the operator (or the driver). It tells you when it's time to buy it.

On the other hand, the control unit 40 may send an alarm signal for notifying whether or not to leave the crane operator until the predetermined time so that the alarm of the alarm unit 50 may be stopped.

In this way, the present invention is to inform the operator of the crane of charging the scrap metal in the electric furnace in the distance, whether to go to the electric furnace so that it is possible to save the time by minimizing the operating loss by making time to load the scrap metal into the electric furnace.

In the above, the preferred embodiment according to the present invention, but can be modified and modified in various forms without departing from the gist of the present invention, those of ordinary skill in the art It is understood that various modifications and variations can be made without departing from the scope of the claims.

1 is a configuration diagram showing an example in which the device for notifying going to the electric furnace according to an embodiment of the present invention is applied.

Figure 2 is a block diagram showing a device for notifying attendance of the electric furnace according to an embodiment of the present invention.

3 is a flowchart illustrating an operation procedure of a device for notifying attendance of an electric furnace according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: tap detection sensor 20: transmitter

30: receiver 40: control unit

50: alarm unit

Claims (3)

Tapping detection sensor for detecting the molten steel outgoing from the electric furnace; A transmitter for wirelessly transmitting a detection signal of the tapping detection sensor; A receiver for receiving a detection signal from the transmitter; A controller for determining whether to go to the electric furnace based on the detection signal received through the receiver and generating an alarm signal according to the determination result; And An alarm unit including at least one of a light emitting device, a liquid crystal display, and a buzzer for notifying whether the electric furnace is driven out based on an alarm signal from the controller; Including, The control unit, Apparatus for leaving the electric furnace characterized in that for generating the alarm signal through the alarm for a set time from the time when the detection signal is received through the receiver. delete delete

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