KR200268609Y1 - Device for separated extraction of slag and metal melt - Google Patents

Abstract

The present invention relates to a device for separating out the slag melt and the metal melt, and in particular, a waste inlet is formed at one side of the upper side, and an outlet for separating and discharging the metal melt and the slag melt is formed at the lower side, respectively. Melting furnace body; A pair of electrode support slides mounted opposite to the upper surface of the melting furnace body at a predetermined distance; A clamp mounted inside the electrode support slide to move up and down along the slide surface of the electrode support slide; A pair of electrode rods detachably mounted to the clamp to melt the mixed waste accommodated in the melting furnace body, and measure resistance values due to the difference in the media of the separated melts; A power supply unit supplying power to a pair of electrodes; And a drive control unit configured to measure resistance values of the melts in the position where the pair of electrodes are submerged, detect the boundary and the position of the separated melts, and inform the operator and perform a corresponding control operation. In addition, the present invention improves the purity of the melts separated and drawn, thereby increasing the recycling value of the melts, and has the effect of realizing the automation of the separate drawing out of the slag melt and the metal melt.

Description

Separation extraction device of slag melt and metal melt {DEVICE FOR SEPARATED EXTRACTION OF SLAG AND METAL MELT}

The present invention relates to a device for separating out a slag melt and a metal melt, and more particularly, to measure the resistance value of each melt using a pair of electrodes to separate and withdraw the slag melt and the metal melt melted in the furnace body. In addition, the present invention relates to an apparatus for separating and extracting a slag melt and a metal melt, which detects an interface and a position of the melt using the measured resistance value, and then enables the separate withdrawal of each melt through the corresponding outlet.

Conventional melt taking out device can form a withdrawal hole at the bottom of the melting furnace body and withdraw the melt contained in the melting furnace body through the withdrawal hole or withdraw the molten melt in the melting furnace body simply by tilting the melting furnace body. It was configured to. Such a conventional melt take-out apparatus is to collect the melt melted in the melting furnace body as a whole, it is not possible to carry out the separate take-out of the melt, and also to separate the slag and the metal when the separation operation is required before the input of the waste or melt the mixed waste There is a problem of low recycling value of the melt.

In addition, another method for solving the above problems is a method for discharging the melt that is separated into two or more states by two or more different outlets due to the difference in specific gravity during melting treatment of at least one mixed waste that is introduced into the method; Although molten metal is discharged to the lower part by molten melting and slag is retained by the molten block and then discharged by overflow, this melt separation method separates and draws out the slag melt and the metal melt due to the specific gravity difference. It is difficult to control the separation drawout accurately, and also, when there are many or few metal melts, the melt may flow into an undesired outlet and it is impossible to know whether the correct drawout is occurring at each outlet, leading to accurate separation withdrawal. There was no problem.

Therefore, the present invention has been made to solve the conventional problems as described above, by using a pair of electrodes to grasp the interface and location of the melt contained in the furnace body to separate the metal melt and slag melt through the corresponding outlet It is to provide a separate extraction apparatus of slag melt and metal melt, which is implemented to increase the recycling value of the melt to be separated and drawn out, and to enable automated separation and extraction of the melt.

In order to achieve the above object, the device for separating and extracting the slag melt and the metal melt according to the present invention has a waste inlet formed on one side of the upper side, and an outlet for separating and discharging the metal melt and slag melt formed on the lower side thereof. A melting furnace body in which a fireproof material is mounted on an inner surface and a bottom of which is received and melted;

A pair of electrode support slides mounted opposite to the upper surface of the melting furnace body at a predetermined distance;

A clamp mounted inside the pair of electrode support slides to move up and down along a slide surface of the electrode support slides;

A pair of electrode rods detachably mounted to the clamp to melt mixed waste contained in the melting furnace body, and measure resistance values due to the difference in the media of the separated melts;

A power supply unit for supplying power to the pair of electrodes so that the mixed waste contained in the melting furnace body can be melted; And

Characterized in that it comprises a drive control unit for measuring the resistance value of the melt in the position where the pair of electrodes is submerged to detect the boundary and position of the separated melt and inform the operator and at the same time perform the corresponding control operation do.

1 is a schematic view illustrating a separate drawing apparatus for slag melt and metal melt according to an embodiment of the present invention;

2 is a configuration diagram showing in detail the configuration of the apparatus for separating out the slag melt and the metal melt according to an embodiment of the present invention;

3 is a schematic view for explaining the separation withdrawal of the melt by the specific gravity difference by using a separate take-out apparatus of slag melt and metal melt according to the present invention,

4 is a schematic view illustrating a case where the electrode tip is immersed in the slag melt of the slag melt and withdrawal device of the metal melt according to the present invention,

5 is a schematic view illustrating a case in which the electrode tip is submerged in the metal melt in the apparatus for separating and extracting the slag melt and the metal melt according to the present invention;

6 is a schematic view illustrating a case where the interface between the slag and the metal melt is located at the position of the first outlet of the separate take-out apparatus of the slag melt and the metal melt according to the present invention,

7 is a schematic view illustrating a case where the interface between the slag and the metal melt is located at the position of the second outlet of the separate take-out apparatus of the slag melt and the metal melt according to the present invention.

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

100: melting furnace body 110: waste inlet

120: outlet 121: first outlet

122: second outlet 130: fireproof material

140: port 200: electrode support slide

300: clamp 400: electrode

500: power supply unit 600: drive control unit

Hereinafter, with reference to the accompanying drawings, the apparatus for separating out the slag melt and the metal melt according to an embodiment of the present invention will be described in detail.

1 is a schematic view illustrating a separate drawing apparatus for slag melt and metal melt according to an embodiment of the present invention, Figure 2 is a configuration of a separate drawing apparatus for slag melt and metal melt according to an embodiment of the present invention As a detailed configuration diagram, the apparatus for separating and drawing the slag melt and the metal melt according to an embodiment of the present invention includes a melting furnace body 100, a pair of electrode support slides 200, a clamp 300, and a pair of electrode rods. 400, the power supply unit 500, and the drive control unit 600.

The melting furnace body 100 has a waste inlet 110 is formed in which at least one of the mixed waste is injected at one side of the upper end, the outlet 120 for separating and discharging the metal melt and the slag melt is formed at the lower end, respectively, the mixed waste Refractory material 130 is mounted on the inner surface and the bottom to be received and melted.

In addition, the upper surface of the melting furnace body 100 when the pair of electrodes 400 mounted on the clamp 300 is moved up and down along the slide surface of the electrode support slide 200, the interior of the melting furnace body 100 A pair of hole-shaped port 140 is further configured to enable drawing out of the furnace.

Further, the outlet 120 formed at the lower end of the melting furnace body 100 is formed at the lower left side of the melting furnace body 100 so that the first outlet 121 and the melting furnace body 100 for drawing out a metal melt having a large specific gravity. It is formed at a position higher than the first outlet (121) formed on the lower right of the bottom) is composed of a second outlet (122) for taking out the slag melt with a small specific gravity.

In addition, the pair of electrode support slides 200 are mounted to face each other at a position at a position of the pair of ports 140 formed on the upper surface of the melting furnace body 100, and the clamp 300 is vertically mounted. It serves to move to.

The clamp 300 is mounted inside the pair of electrode support slides 200 to move up and down along the slide surface of the electrode support slides 200. It is opened or closed manually or remotely by a pneumatic or electric motor, and serves to detachably mount the pair of electrodes 400.

In addition, the pair of electrode rods 400 are detachably mounted to the clamp 300 to melt the mixed waste contained in the melting furnace body 100, and the resistance value due to the difference in the medium of each melt is separated. It serves to measure.

In addition, the power supply unit 500 serves to supply power to the pair of electrodes 400 so that the mixed waste contained in the melting furnace body 100 can be melted by electric arc heat.

In addition, the driving control unit 600 is connected to the pair of electrodes 400, by measuring the resistance value of the melt in the position where the electrode 400 is submerged to detect the boundary and position of the separated melts Afterwards, it informs the operator through a display and at the same time performs a control operation for separating out the corresponding melts.

Next, an operation process of the apparatus for separating and extracting the slag melt and the metal melt having the above configuration will be described with reference to the accompanying drawings.

First, at least one or more mixed wastes are introduced into the melting furnace body 100 through the waste inlet 110.

Subsequently, the pair of electrode rods 400 mounted on the clamp 300 receives power from the power supply unit 500 at the position where the mixed waste is accommodated, and simultaneously generates electric arc heat corresponding to the melting furnace. The mixed waste contained in the main body 100 is melted.

In this case, as shown in FIG. 3, the molten melted in the melting furnace body 100 has a heavy metal melt positioned downward by a specific gravity difference, and a slag molten metal having a relatively light specific gravity placed above the metal melt. There is an interface between them.

Then, the pair of electrodes 400 mounted on the clamp 300 has the electrode 400 as the clamp 300 is moved up and down along the slide surface of the electrode support slide 200, the melting furnace body While moving up and down through a pair of ports 140 formed on the upper surface of the 100 is precipitated in the melt.

Subsequently, the driving control unit 600 has a case where the ends of the pair of electrodes 400 are submerged in the slag melt as shown in FIG. 4 and the pair of electrodes 400 as shown in FIG. 5. When the tip of the immersion is immersed in the metal melt, the resistance values of the melts generated differently due to the difference in density are measured to detect the boundary and position of the separated melts, and then display the corresponding position information to the operator. At the same time, the drive control operation for separating out the melts is performed.

Then, only the corresponding slag or metal melt is separated out through the first outlet 121 and the second outlet 122 formed in the melting furnace body, respectively.

6 shows a case where the interface between the slag melt and the metal melt is located at the position of the first outlet 121 in the apparatus for separating and extracting the slag melt and the metal melt according to the present invention, in this case, the second outlet. The drive control unit 600 is controlled to draw only the slag melt through the 122.

On the other hand, Figure 7 is shown to explain the case where the interface between the slag and the metal melt is located at the position of the second outlet 122 in the separate take-out device of the slag melt and the metal melt according to the present invention, in this case The drive control unit 600 is controlled such that only the metal melt is drawn out through the one outlet 121.

Such a device for separating and extracting the slag melt and the metal melt according to the present invention can be widely applied to a system for melt-processing mixed waste, and when the waste is injected into the furnace body or the melt is to be taken out, the melt timing is measured. , The amount of input and withdrawal time can be accurately identified.

As described above, according to the separate drawing-out apparatus of the slag melt and the metal melt according to the present invention, the resistance value of each melt is measured by using a pair of electrodes at the time of separating and drawing the slag melt and the metal melt melted in the furnace body. By using the measured resistance value, the interface and location of the melts are detected, and the respective outlets enable separate extraction of the melts, thereby improving the purity of the separated and extracted melts, thereby increasing the recycling value of the melts. In addition, there is an effect of implementing the automation of the separate draw out of the slag melt and the metal melt.

Claims (4)

A melting furnace body having a waste inlet formed on one side of the upper side thereof, and an outlet for separating and discharging the metal melt and the slag melt formed on the lower side thereof, and having a refractory material mounted on an inner surface and a bottom on which the mixed waste is accommodated and melted; A pair of electrode support slides mounted opposite to the upper surface of the melting furnace body at a predetermined distance; A clamp mounted inside the pair of electrode support slides to move up and down along a slide surface of the electrode support slides; A pair of electrode rods detachably mounted to the clamp to melt mixed waste contained in the melting furnace body, and measure resistance values due to the difference in the media of the separated melts; A power supply unit for supplying power to the pair of electrodes so that the mixed waste contained in the melting furnace body can be melted; And Characterized in that it comprises a drive control unit for measuring the resistance value of the melt in the position where the pair of electrodes is submerged to detect the boundary and position of the separated melt and inform the operator and at the same time perform the corresponding control operation Separation extraction device for slag melt and metal melt. The method of claim 1, And a pair of ports formed on the upper surface of the melting furnace main body to allow the pair of electrodes mounted on the clamp to be pulled out into the melting furnace main body when the pair of electrodes are moved up and down along the slide surface of the electrode supporting slide. Separation extraction device for slag melt and metal melt. The method of claim 1, The outlet may include a first outlet formed at one side of the lower end of the melting furnace body to draw out a metal melt having a specific gravity; And Separation extraction apparatus of a slag melt and a metal melt formed in a position higher than the first outlet formed on one side of the lower end of the melting furnace body to draw a slag melt having a small specific gravity. The method of claim 1, The clamp is separated or taken out of the slag melt and the metal melt, characterized in that the opening and closing manually or remotely by a hydraulic, pneumatic or electric motor to detachably mount the pair of electrodes.