JPH08157979A - Treatment of magnesium molten slag and device therefor - Google Patents

Abstract

PURPOSE: To obtain magnesium molten slag which hardly induces a chemical reaction with air by removing the air contained in the magnesium molten slag by pressurizing the molten slag while vibrating the molten slag. CONSTITUTION: The magnesium molten slag M is packed into a molding flask 40 and a vibration motor 301 is driven to vibrate this molding flask 40 in a horizontal direction. A piston cylinder mechanism 51 is actuated to lower a cap 50 and to press the molten slag M. The air of the molten slag M is, therefore, discharged through the holes 441 of a perforated plate 42 in the bottom part and the liquid magnesium falls through these holes 441 and is recovered into a lower magnesium receiving tray 21. At this time, the molten slag M is heated by a heating means 62 in such a manner that the air is easily removed. The cooling water from a cooling pipe 63 is circulated and the molten slag M is solidified after the removal of the air ends and then the solidified molten slag M is taken out. As a result, the air of the molten slag M is efficiently removed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and apparatus for treating magnesium slag.

[0002]

2. Description of the Related Art Sludge generated when magnesium is dissolved contains magnesium, so that it chemically reacts with the atmosphere to generate white smoke or ultra high temperature.
Conventionally, it was disposed as industrial waste after adding flux to prevent contact with the atmosphere.

[0003]

However, in such a conventional sludge treatment method, the discarded sludge generates dust containing a large amount of flux or chemically reacts with the atmosphere to generate an extremely high temperature. Therefore, there is a disadvantage that environmental damage may occur.

An object of the present invention is to provide a processing method and an apparatus thereof for solving such inconvenience and for effectively utilizing magnesium.

[0005]

In order to achieve the above objects, in the method for treating magnesium slag according to the present invention, the magnesium slag is oscillated by pressurizing to remove air contained therein.

It is also possible to remove the contained air by pressurizing the magnesium slag while vibrating it in an inert gas atmosphere.

Further, in the apparatus for treating magnesium slag according to the present invention, a perforated plate is installed at the bottom of the mold, and the mold can be appropriately vibrated by vibrating means, and a lid is attached to the mold. The lid is fitted so that it can move forward and backward, and the lid can be moved forward and backward by an appropriate pressing pressure step.

Note that at least the inside of the mold can be filled with the inert gas by the inert gas filling means.

A heating means may be installed on the mold.

Further, in the method for treating magnesium slag according to the present invention, the magnesium slag is pressurized while being cooled to form a lump and the air contained in the magnesium slag is expelled. .

It is also possible to pressurize the magnesium slag in an inert gas atmosphere to form a lump and to expel the air contained in the magnesium slag.

Further, in the apparatus for treating magnesium slag according to the present invention, a sealing plate is installed at the bottom of the mold, and the mold can be cooled by appropriate cooling means, and the mold is covered. The body is fitted in such a manner that it can be moved forward and backward, and the lid can be moved forward and backward by an appropriate pressing pressure step.

[0013]

According to the method for treating magnesium slag according to the present invention, the air contained in the magnesium slag can be easily expelled because the magnesium slag is pressurized while vibrating the magnesium slag to remove the contained air.

If the magnesium dissolved slag is vibrated and pressurized to remove the contained air in an inert gas atmosphere,
It is possible to prevent a chemical reaction between magnesium and air during the deaeration process.

Further, in the apparatus for treating magnesium slag according to the present invention, a perforated plate is installed at the bottom of the mold, and the mold can be vibrated by appropriate vibrating means.
Since the lid is fitted in the mold so that the lid can be moved forward and backward and the lid can be moved forward and backward by an appropriate pressing pressure step, the magnesium is filled by pushing down the lid while vibrating the magnesium molten slag filled in the mold. The air contained in the molten slag can be removed.

If a heating means is installed on the mold,
Since the magnesium molten slag can be deaerated while being heated, the efficiency of deaeration is improved.

Furthermore, in the method for treating magnesium slag according to the present invention, the magnesium slag is cooled while being pressed to form a lump and the air contained in the magnesium slag is expelled. Therefore, it is possible to obtain a magnesium dissolved slag that is unlikely to cause a chemical reaction with air.

If the magnesium slag is pressurized in an inert gas atmosphere to form a lump and the air contained in the magnesium slag is expelled, a chemical reaction between magnesium and air during the air expelling step is performed. Can be prevented.

Further, in the apparatus for treating magnesium slag according to the present invention, a sealing plate is installed at the bottom of the mold and the mold can be cooled by a suitable cooling means, and the mold is covered. Since the body is fitted so that it can move forward and backward, and this lid can be moved forward and backward by the appropriate pressing pressure step, the magnesium molten slag filled in the mold is cooled, and the lid is pushed down to fill the mold. The air contained in the magnesium molten slag can be expelled from the gap between the lid and the mold.

[0020]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In FIG. 1, A is a magnesium slag treating apparatus, which is mainly used for treating a magnesium slag having a relatively high magnesium content. 10 is the base of the device A. Reference numerals 20 and 20 denote columns, which are erected on the base 10 via elastic bodies (springs) 201. Further, 30 is a die receiving jig, which is fixed in a state of being placed on the tops of the columns 20,20.
The die receiving jig 30 can vibrate horizontally and / or vertically together with the columns 20 and 20. 301 and 301 are vibration motors, which are installed on the side surface of the die receiving jig 30. By driving the vibration motors 301, 301, the die receiving jig 30 vibrates in an appropriate direction.

Next, reference numeral 40 denotes a mold, which is the mold receiving jig 30.
It is placed on. The bottom of the mold 40 is composed of a perforated plate 42. An appropriate amount of magnesium molten slag M is accommodated in the mold 40. 50 is a lid, the form 40
It is fitted in the state of being able to move forward and backward. This lid 50 is moved back and forth by a piston / cylinder mechanism 51 by hydraulic pressure.
Reference numerals 61, 61, ... Are inert gas filling ports formed in the mold 40 and are used when the mold 40 is filled with an inert gas. 62 are heat generating means installed in the mold 40, and heat the mold 40 to make it easier for air to escape from the magnesium slag M. , 63 are cooling pipes (corresponding to “cooling means” of the present invention) installed in the mold 40, and are used to cool the mold 40.

Reference numeral 21 is a magnesium receiving tray placed on the base 10 for receiving and containing liquid magnesium falling from the holes 441 of the perforated plate 44.

Next, the processing apparatus A for this magnesium slag
The operation of will be described.

10 kg of the molten slag scraped up from the magnesium melting furnace is filled in the mold 40. And vibration motor
By driving 301, the form 40, and thus the molten slag, is vibrated horizontally. In this state,
By operating the cylinder mechanism 51, the lid 50 is lowered to press the molten slag. Then, the air of the molten slag is discharged through the holes 441 of the perforated plate 44 which is the bottom. Liquid magnesium also passes through this hole 441 and falls, and is collected in the magnesium tray 21 below. By carrying out this vibration compression step for 60 seconds, the volume of the molten slag was reduced by 50% compared with the time of charging by scraping, and 10% of magnesium was recovered. Next, the vibration compression process is performed for 60 seconds while circulating the cooling water in the cooling pipe 63, and after the vibration is stopped and only the cooling water is circulated (hereinafter referred to as the “cooling process”), the solidified dissolution in the mold is performed. The slag was taken out and it was confirmed that no oxidation reaction occurred.
This treatment method is based on the use of magnesium slag as a desulfurizing agent raw material, which is a subsidiary material for steel.

On the other hand, as another treatment method, when the vibration compression step was adopted while heating the mold 40 by the heat generating means 62, the recovered magnesium was 25%. Furthermore, it was confirmed that the oxidation reaction of the molten slag did not occur by taking the cooling step. This processing method is based on the recovery of magnesium.

Next, when mainly treating a magnesium slag having a low magnesium content, it is preferable to form the bottom of the mold 40 with a sealing plate (without holes). in this case,
The cooling pipe 63 cools the mold 40 and expels only air from the gap between the lid 50 and the mold 40. The die receiving jig 30 does not necessarily need to be installed in a vibrating state.

Next, the processing apparatus B for this magnesium slag
The operation of will be described.

The mold 40 is filled with 10 Kg of the molten slag scraped up from the magnesium melting furnace. Then, the molten slag is cooled by circulating the cooling water through the cooling pipe 63. In this state, by operating the piston / cylinder mechanism 51, the lid body 50 is lowered, the molten slag is pressed to be formed into a lump, and the air contained in the magnesium molten slag is enclosed.

[0029]

EFFECT OF THE INVENTION In the method for treating magnesium slag according to the present invention, the air contained in the magnesium slag can be easily expelled because the magnesium slag is pressurized while the magnesium slag is vibrated to remove the air contained therein. .

Therefore, by using this magnesium slag treatment method, it is possible to obtain a magnesium slag that is unlikely to cause a chemical reaction with air. As a result, the magnesium slag can be effectively used, for example, as a steelmaking auxiliary material. acid,
It can be used as a desulfurizing and slag forming agent.

In an inert gas atmosphere, if the magnesium dissolved slag is vibrated and pressurized to remove the contained air,
It is possible to prevent a chemical reaction between magnesium and air during the deaeration process.

Further, in the apparatus for treating magnesium slag according to the present invention, a perforated plate is installed on the bottom of the mold and the mold can be vibrated by an appropriate vibrating means.
Since the lid is fitted in the mold so that the lid can be moved forward and backward and the lid can be moved forward and backward by an appropriate pressing pressure step, the magnesium is filled by pushing down the lid while vibrating the magnesium molten slag filled in the mold. The air contained in the molten slag can be removed.

Therefore, if the apparatus for treating magnesium slag is used, the air contained in the magnesium slag can be easily removed.

If a heating means is installed on the mold,
Since the magnesium molten slag can be deaerated while being heated, the efficiency of deaeration is improved.

Furthermore, the method for treating magnesium slag according to the present invention is to pressurize the magnesium slag while cooling to form a lump and to expel the air contained in the magnesium slag. As a result, it is possible to obtain a magnesium slag that is unlikely to cause a chemical reaction with air, and thus effective use of the magnesium slag,
For example, it can be used as a deoxidizing agent, a desulfurizing agent, and a slag forming agent as a steelmaking auxiliary material.

If the magnesium slag is pressurized in an inert gas atmosphere to form a lump and the air contained in the magnesium slag is expelled, the chemical reaction between magnesium and air during the air expelling step is performed. Can be prevented.

Further, in the apparatus for treating magnesium slag according to the present invention, a sealing plate is installed at the bottom of the mold and the mold can be cooled by a suitable cooling means, and the mold is covered with a lid. Since the lid can be moved forward and backward and the lid can be moved forward and backward by an appropriate pressing pressure step, the magnesium molten slag filled in the mold is cooled and the lid is pushed down to fill the mold. The air contained in the magnesium slag can be easily removed.

Therefore, by using this magnesium slag treatment apparatus, the magnesium slag can be discharged from the gap between the lid and the mold contained in the magnesium slag.

[Brief description of drawings]

FIG. 1 is a sectional view of an embodiment of an apparatus for treating magnesium slag according to the present invention.

[Explanation of symbols]

 A ... A processing device for magnesium slag. M… Magnesium molten slag 301… Vibration motor (appropriate vibration means) 40… Form 42… Perforated plate 50… Lid 51… Piston / cylinder mechanism (appropriate pressing pressure stage) 61… Inert gas filling port (Inert gas filling) Means) 62… Heating means 63… Cooling means as appropriate

Claims (8)

[Claims] 1. A method for treating a magnesium dissolution slag, which comprises pressurizing the magnesium dissolution slag while vibrating it to remove air contained therein. 2. A method for treating a magnesium dissolved slag, which comprises pressurizing the molten magnesium slag under vibration in an inert gas atmosphere to remove air contained therein. 3. A perforated plate is installed at the bottom of the mold, and the mold can be vibrated by an appropriate vibrating means, and
A treatment device for magnesium slag, wherein a lid is fitted in the mold so that the lid can be moved forward and backward, and the lid can be moved forward and backward by an appropriate pressing pressure step. 4. The apparatus for treating magnesium slag according to claim 3, wherein at least the inside of the mold can be filled with an inert gas by means of an inert gas filling means. 5. The apparatus for treating magnesium slag according to claim 3 or 4, wherein a heating means is installed on the mold. 6. A method for treating a magnesium dissolution slag, which comprises pressurizing the magnesium dissolution slag while cooling to form a lump and discharging the air contained in the magnesium dissolution slag. 7. A method for treating a magnesium slag, which comprises pressurizing the magnesium slag in an inert gas atmosphere to form a lump and discharging the air contained in the magnesium slag. 8. A mold is provided with a sealing plate at the bottom of the mold, and the mold can be cooled by appropriate cooling means, and
A treatment device for magnesium slag, wherein a lid is fitted in the mold so that the lid can be moved forward and backward, and the lid can be moved forward and backward by an appropriate pressing pressure step.