JPH08143985A - Device for introducing protective gas for preventing combustion of molten magnesium - Google Patents

Abstract

PURPOSE: To prevent the combustion of molten magnesium and to obviate the corrosion of a melting furnace. CONSTITUTION: The device 16 to introduce a protective gas for preventing the combustion of molten magnesium connected to the melting furnace 12 of a hot chamber-type die-casting machine 10 with a hose is provided with a gas mixer 60 and a constant flow rate device 62. A gaseous sulfur hexafluoride cylinder 64 and a gaseous carbon dioxide cylinder 66 are connected to the mixer 60 through hoses 68 and 70. An air suction hose 72 is connected to the mixer 60, air, gaseous sulfur hexafluoride and carbon dioxide are mixed in the mixer 60 to synthesize a protective gas for preventing the combustion of molten magnesium, and the concn. of sulfur hexafluoride in the protective gas is controlled to 0.3-0.6%.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for introducing a protective gas for preventing the burning of molten magnesium for introducing a protective gas for preventing the burning of magnesium onto the liquid surface of the molten magnesium in a melting furnace.

[0002]

2. Description of the Related Art Conventionally, in the case of melting magnesium in a melting furnace, a combustion preventing protective gas composed of sulfur hexafluoride (SF ₆ ) and air or sulfur hexafluoride and carbon dioxide (CO ₂ ) and air. Is filled on the liquid surface of the molten magnesium in the melting furnace. This is because magnesium burns when magnesium and its alloys are dissolved in air, so a film is formed on the liquid surface of the magnesium melt with sulfur hexafluoride gas,
This is to prevent the molten magnesium from coming into contact with oxygen and prevent combustion.

[0003]

However, in the conventional apparatus for introducing the protective gas for preventing the combustion of the molten magnesium having the above-mentioned structure, the so-called sulfur hexafluoride direct introduction for directly introducing sulfur hexafluoride into the melting furnace is used. Method, or a so-called collision mixed gas direct introduction method in which sulfur hexafluoride and air (in some cases, carbon dioxide may be added) are collided in the injection path to form a mixed gas, and then directly introduced into the melting furnace, Alternatively, so-called collision mixed gas tank storage introduction method in which sulfur hexafluoride and air are made to collide in an injection path to form a mixed gas, and then this mixed gas is once stored in a storage tank and then introduced into a melting furnace However, there is a problem in that the concentration of sulfur hexafluoride in the protective gas for preventing magnesium combustion is difficult to be accurately controlled. For this reason, the concentration of sulfur hexafluoride in the protective gas for preventing magnesium combustion deviates, and when the concentration is high, the sulfur hexafluoride is decomposed to generate hydrofluoric acid (HF) and the melting furnace is May corrode. On the other hand, when the concentration of sulfur hexafluoride in the protective gas for preventing magnesium combustion is low, a film on the liquid surface of the magnesium melt is unlikely to be formed and the magnesium melt may burn.

In view of the above facts, it is an object of the present invention to obtain a protective gas introducing device for preventing the burning of molten magnesium in the melting furnace which prevents the burning of the molten magnesium and corrosion of the melting furnace.

[0005]

A protective gas introduction device for preventing combustion of magnesium melt according to the present invention according to claim 1 introduces a protective gas for preventing magnesium combustion on the liquid surface of the molten magnesium in the melting furnace. A protective gas introduction device for preventing combustion of molten magnesium, wherein the concentration of sulfur hexafluoride in the protective gas for preventing magnesium combustion is 0.3 to
It is characterized by having a gas concentration control means for adjusting the concentration to 0.6%.

According to a second aspect of the present invention, in the apparatus for introducing a protective gas for preventing combustion of magnesium melt according to the first aspect, at least one of the vicinity of the material charging part and the vicinity of the piston mounting part of the melting furnace is provided with It is characterized in that an inlet for the protective gas for combustion prevention is provided.

[0007]

In the apparatus for introducing protective gas for preventing combustion of magnesium melt according to claim 1, hexafluoride in the protective gas for preventing combustion of magnesium introduced onto the liquid surface of the molten magnesium in the melting furnace by the gas concentration control means. Adjust the sulfur concentration to 0.
Since it is 3 to 0.6%, the concentration of sulfur hexafluoride in the protective gas for preventing magnesium combustion is less likely to be less than 0.3, and when the coating film on the liquid surface of the molten magnesium tears, magnesium is generated immediately. Can be prevented from burning. In addition, the concentration of sulfur hexafluoride in the magnesium combustion prevention protective gas does not exceed 0.6, and it is possible to prevent sulfur hexafluoride from decomposing to generate hydrofluoric acid and corroding the melting furnace. .

According to another aspect of the present invention, there is provided a protective gas introducing device for preventing combustion of magnesium melt, wherein when the protective gas for preventing magnesium combustion is introduced into the melting furnace, the protective gas for preventing magnesium combustion is introduced into the melting furnace by the introduction part. It is introduced near the material feeding part or the piston mounting part. These parts of the melting furnace are usually parts where air easily enters from the outside of the melting furnace and the coating film on the liquid surface of the magnesium melt is easy to tear.
By providing the protective gas introduction portion for preventing magnesium combustion at this portion, when the coating film on the liquid surface of the molten magnesium is torn, it is generated immediately and the combustion of the molten magnesium can be prevented.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A protective gas introduction apparatus for preventing combustion of molten magnesium according to an embodiment of the present invention will be described with reference to FIGS.

As shown in FIG. 1, the hot chamber type die casting machine 10 of this embodiment comprises a melting furnace 12 and a molding section 14, and a combustion preventing protective gas introducing device 16 is connected to the melting furnace 12. Has been done.

As shown in FIG. 2, the lid portion 1 of the melting furnace 12 is shown.
A material charging section 20 is formed at 8. A door 22 is movably attached to the material feeding unit 20 between an open position shown by an imaginary line in FIG. 2 and a closed position shown by a solid line in FIG. Therefore, a magnesium ingot is put into the melting furnace 12.

A combustion preventing protective gas introducing portion 24 is formed near the material charging portion 20 of the lid portion 18. The inside of the melting furnace 12 of the introducing portion 24 is the back surface 18 of the lid portion 18.
It is divided into two forks along A. Therefore, the combustion preventing protective gas introduced into the melting furnace 12 from the introducing portion 24 flows along the back surface 18A of the lid portion 18 and gradually falls. Further, the combustion preventing protective gas introducing portion 24 is provided in the melting furnace 1.
It is arranged at a position distant from the inner wall of No. 2 so as not to corrode the inner wall of the melting furnace 12 when sulfur hexafluoride in the combustion preventing protective gas decomposes to generate hydrofluoric acid. ing.

An injection mechanism 26 is arranged in the melting furnace 12, and the injection mechanism 26 is provided with a lid portion 18 of the melting furnace 12.
And a cylinder 32 buried in a magnesium melt 30 in the melting furnace 12. The intake port 3 is provided on the side wall of the cylinder 32.
4, the molten magnesium 30 flows into the cylinder 32 from the intake port 34 when the piston 28 is in the raised position (the position shown in FIG. 2).

At the bottom of the cylinder 32, the gooseneck 3
The lower end 36A of 6 is connected to the gooseneck 36
The upper end 36 </ b> B of the is penetrating the lid 18. An upper end portion 36B of the gooseneck 36 extends toward the molding portion 14 and serves as an injection path 38. Therefore, when the piston 28 moves downward (in the direction of arrow A in FIG. 2) from the raised position, the molten magnesium 30 in the cylinder 32 moves to the gooseneck 3.
It is designed to move to the injection path 38 through 6.

A combustion preventing protective gas introducing portion 40 is formed in the vicinity of the piston mounting portion 18B of the lid portion 18, and the inside of the melting furnace 12 of the introducing portion 40 is provided on the back surface 18A of the lid portion 18. It is divided into two forks. Therefore, the combustion-preventing protective gas introduced into the melting furnace 12 from the introducing portion 24 flows along the back surface of the lid portion 18 and gradually falls. Further, the combustion preventing protective gas introducing portion 40 is provided in the melting furnace 1.
It is arranged at a position distant from the inner wall of No. 2 so as not to corrode the inner wall of the melting furnace 12 when sulfur hexafluoride in the combustion preventing protective gas decomposes to generate hydrofluoric acid. ing.

As shown in FIG. 1, a pair of combustion preventing protective gas introducing portions 42 and 44 are formed at a substantially intermediate portion between the material charging portion 20 of the lid portion 18 and the piston mounting portion 18B. Introducing part 4 of these protective gas for combustion prevention
The internal structure of the melting furnaces 2 and 44 includes the introduction parts 24 and 4,
It has the same configuration as 0.

As shown in FIG. 2, the molding section 14 is provided with a pair of die plates 46 and 48, and these die plates 46 and 48 are relatively movable in the contact and separation directions. Each die plate 46, 48 has a die 5
Nos. 0 and 52 are attached, and the tip portion 38A of the nozzle 38 reaches the magnesium molten metal inlet 54 provided in the one die 50. A molded product take-out device 56 is attached to the other die 52.

As shown in FIG. 3, the combustion preventing protective gas introducing device 16 is provided with a gas mixing device 60 as a gas concentration control means and a constant flow device 62. Gas mixing device 6
At 0, a sulfur hexafluoride gas cylinder 64 and a carbon dioxide cylinder 66 are connected by hoses 68 and 70. Further, a hose 72 for sucking air is connected to the gas mixing device 60, and in the gas mixing device 60, a protective gas for preventing combustion of molten magnesium by mixing air, sulfur hexafluoride gas and carbon dioxide. And the concentration of sulfur hexafluoride in the protective gas for preventing magnesium combustion is 0.3.
It is controlled to be ~ 0.6%.

The gas mixing device 60 is connected to a constant flow rate device 62 by a hose 74. The magnesium combustion preventing protective gas sent to the constant flow rate device 62 via the hose 74 is adjusted to a predetermined flow rate. Each introduction part 4 via each hose 76, 78, 80, 82 connected to the constant flow rate device 62.
0, 42, 44, 24.

Next, the operation of this embodiment will be described. In the present embodiment configured as described above, the gas mixing device 60 of the protective gas introducing device 16 for preventing the combustion of the magnesium melt mixes air, sulfur hexafluoride gas and carbon dioxide to prevent the combustion of the magnesium melt. The protective gas for combustion is synthesized, and the concentration of sulfur hexafluoride in the protective gas for preventing magnesium combustion is 0.3 to 0.6%.

Therefore, the concentration of sulfur hexafluoride in the magnesium combustion preventing protective gas introduced into the melting furnace 12 from the respective introducing portions 40, 42, 44 and 24 by the constant flow rate device 62 is less than 0.3. It is difficult to form a small size, and it is possible to prevent the magnesium melt 30 from burning due to tearing of the coating film on the liquid surface of the magnesium melt 30.

Further, the concentration of sulfur hexafluoride in the magnesium combustion preventing protective gas introduced into the melting furnace 12 from the respective introducing portions 40, 42, 44 and 24 by the constant flow rate device 62 is larger than 0.6. Therefore, it is possible to prevent sulfur hexafluoride from being decomposed to generate hydrofluoric acid and corroding the melting furnace 12.

Further, in this embodiment, when the magnesium combustion preventing protective gas is introduced into the melting furnace 12, the magnesium combustion preventing protective gas is introduced by the introduction section 20 and the introduction section 40 into the material charging section of the melting furnace 12. 20 and the piston mounting portion 18B. These sites are usually
It is easy for air to enter from the outside of the melting furnace.
Since the coating film on the liquid surface of No. 0 is easily ruptured, the introduction of the magnesium combustion preventing protective gas introduction portions 20, 40 is provided at this portion, so that when the coating film on the liquid surface of the molten magnesium 30 tears, it is generated immediately. Then, molten magnesium 30
Can be prevented from burning.

Further, in this embodiment, each of the introduction parts 40, 4
The tip end portions of 2, 44, 24 are bifurcated, and the combustion-preventing protective gas introduced into the melting furnace 12 from each of the introduction portions 40, 42, 44, 24 is along the back surface 18A of the lid portion 18. And then gradually descend. Therefore, it is possible to prevent the coating film on the liquid surface of the molten magnesium 30 from tearing due to the blowing pressure of the combustion-preventing protective gas, and to prevent the molten magnesium 30 from burning.

Further, in this embodiment, since the amount of dross generated is also reduced, the waste of magnesium is reduced and the cost can be reduced.

In this embodiment, the protective gas for preventing magnesium combustion is a mixed gas of sulfur hexafluoride, carbon dioxide and air. Instead of this, the protective gas for preventing magnesium combustion is sulfur hexafluoride and air. It may be a mixed gas.

Further, in the present embodiment, the magnesium combustion preventing protective gas introducing portions 20 and 40 are provided both in the vicinity of the material charging portion 20 of the melting furnace 12 and in the vicinity of the piston mounting portion 18B, but either one may be used. .

Further, in the present embodiment, each of the introduction parts 40, 4
Although the tip end portions of 2, 44, 24 are divided into two forks, the tip end portions of the introduction portions 40, 42, 44, 24 are not limited to two forks.
The blowing side may be L-shaped along the back surface 18A of the lid portion 18. Furthermore, the tip portion may be divided into three or more or may be a trumpet shape.

[0029]

As described above, the protective gas introducing apparatus for preventing the combustion of molten magnesium according to the present invention has the following effects.

The present invention according to claim 1 is a protective gas introduction device for preventing the combustion of magnesium melt for introducing a protective gas for preventing magnesium combustion onto the liquid surface of the magnesium melt in the melting furnace. Since it is configured to have a gas concentration control means for adjusting the concentration of sulfur hexafluoride in the protective gas for prevention to 0.3 to 0.6%, it is necessary to prevent combustion of the magnesium melt and corrosion of the melting furnace. It has an excellent effect that

According to a second aspect of the present invention, in the protective gas introducing device for preventing the combustion of the molten magnesium according to the first aspect, at least one of the vicinity of the material charging part and the vicinity of the piston mounting part of the melting furnace is used for preventing combustion. Since the protective gas introducing portion is provided, in addition to the effect of the first aspect, there is an excellent effect that combustion of the molten magnesium in the vicinity of the material charging portion of the melting furnace or near the piston mounting portion can be prevented.

[Brief description of drawings]

FIG. 1 is a perspective view showing a hot chamber type die casting machine to which a protective gas introduction device for preventing combustion of a molten magnesium according to an embodiment of the present invention is applied.

FIG. 2 is a cross-sectional view showing a hot chamber type die casting machine to which a protective gas introduction device for combustion prevention of molten magnesium according to an embodiment of the present invention is applied.

FIG. 3 is a schematic diagram showing a protective gas introduction device for preventing combustion of a molten magnesium according to an embodiment of the present invention.

[Explanation of symbols]

 10 Hot Chamber Type Die Casting Machine 12 Melting Furnace 14 Forming Part 16 Combustion Preventing Protective Gas Introducing Device 18 Lid 18B Piston Mounting Part 20 Material Injecting Part 24 Combustion Preventing Protective Gas Introducing Part 30 Magnesium Molten 40 Providing Combustion Preventing Protective Gas Introducing part 42 Introducing part for protective gas for combustion 44 Introducing part for protective gas for combustion 60 Gas mixing device (gas concentration control means)

Claims (2)

[Claims] 1. A protective gas introduction device for preventing combustion of magnesium melt for introducing a magnesium combustion protection gas onto the liquid surface of the molten magnesium in a melting furnace,
A protective gas introduction device for preventing combustion of magnesium melt, comprising gas concentration control means for adjusting the concentration of sulfur hexafluoride in the magnesium combustion prevention protective gas to 0.3 to 0.6%. 2. The molten magnesium according to claim 1, wherein an introduction portion for the combustion-preventing protective gas is provided in at least one of the vicinity of the material charging portion and the vicinity of the piston mounting portion of the melting furnace. Protective gas introduction device for combustion prevention.