JP2927476B2 - Flux supply device - Google Patents

Description

Description: FIELD OF THE INVENTION The present invention relates to a flux supply apparatus for treating molten aluminum or aluminum alloy.

(Prior art) Flux is introduced into the molten metal as a treatment of molten aluminum or aluminum alloy to remove gases and oxides contained in the molten metal, or the surface of the molten metal is covered with flux to absorb and oxidize gas. Try to prevent progress.

As a flux supply device for feeding such a flux into the molten metal, for example, a screw that is rotated by a motor is disposed in a hopper that stores the flux inside, and the flux is sent out to a transfer pipe by this screw and blown out from a nozzle. There is one in which a flux is blown out to a lance tube by nitrogen gas and sent into a molten metal.

(Problems to be Solved by the Invention) However, in the above-described flux supply device, since the flux is sent out to the transfer pipe by the screw, the flux is caught in the bearing portion of the screw and the like, and the device is easily broken down. The equipment increases in size and costs increase.

(Means for Solving the Problems) In order to solve the above problems, according to the present invention, in a flux supply device for treating molten metal of aluminum or an aluminum alloy, one end is provided in a hopper for storing flux therein. While connected to a gas supply source, the other end is opened to the lance tube, the inside of the hopper passes through the pipe through which the gas blown into the molten metal passes, the lower part of the pipe passed through the hopper, An opening facing the flux stored in the hopper is formed, and an opening is formed above the surface of the flux stored in the hopper at an upper part of a pipe passing through the hopper. It is characterized by.

According to a second aspect of the present invention, in the flux supply apparatus for treating molten aluminum or aluminum alloy, one end is connected to a gas supply source and the other end is opened to a lance tube in a hopper for storing a flux therein, and the inside is opened. A pipe through which the gas blown into the molten metal passes passes through the inside of the hopper, and an opening facing the flux stored in the hopper is formed at a lower portion of the pipe passed through the hopper. A flux supply device having an opening formed above the surface of the flux stored in the hopper, and the opening of the pipe of the flux supply device was connected to an upper portion of a lance tube. It is characterized by the following.

(Action) By passing gas through the pipe, the gas is sent from the opening at the top of the pipe to above the flux in the hopper, and the flux receives its own weight and the pressure of the gas, and the gas passes through this pressure and the inside of the pipe. As a result, the flux facing the opening at the bottom of the pipe is smoothly sucked into the pipe and sent out by the Venturi effect.

(Example) Hereinafter, an example of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is an explanatory view of a use state of a flux supply device according to the present invention, and FIG. 2 is a sectional view of the flux supply device.

The flux supply device 1 passes a pipe 4 through which gas blown into the molten metal passes through a hopper 3 for storing the flux 2 therein so as to penetrate vertically through the hopper 3. Is fixed to a joint 9 connected via a tube to a high-pressure nitrogen gas cylinder described later, and is opened on the hopper 3, and the lower end of the pipe 4 is opened outward from the lower end of the hopper 3. The opening is connected to the upper end of a lance tube 15 described later via a joint 13. A plurality of (or only one) openings 5 are formed in the lower part of the pipe 4 facing the hopper 3 and the flux 2 faces the hopper 3, and the surface of the flux 2 is formed in the upper part of the pipe 4 facing the hopper 3 of the pipe 4. A plurality of (single) openings 6 are formed above the hopper 3, and a flux supply port 7 for introducing the flux 2 is formed in the upper part of the hopper 3, which is closed with a cap 8. Part is hopper 3
On the joint 9 which is screwed to the joint. In addition, pipe 4
Although the area and number of the lower holes 5 are appropriately determined according to the particle size of the flux 2, for example, four holes of 4.5φ are provided in this embodiment.

When this flux supply device 1 is used, the first
As shown in the figure, the joint 9 of the flux supply device 1
To a high pressure nitrogen gas cylinder 11 via a tube 12,
Further, a joint 13 having a cock 14 is connected to the lower end of the hopper 3 of the flux supply device 1.
Lance tube 15 is connected.

Then, after inserting the lance tube 15 into a molten metal 17 such as aluminum or an aluminum alloy in the crucible 16,
High-pressure nitrogen gas is sent from the high-pressure nitrogen gas cylinder 11 into the flux supply device 1.

When the high-pressure nitrogen gas passes through the pipe 4 of the flux supply device 1, the flux 2 facing the lower opening 5 of the pipe 4 is sucked into the pipe 4 by its own weight and the Venturi effect caused by the flow of the nitrogen gas. . At this time, a negative pressure is applied to the lower layer of the flux 2, and a positive pressure of the pressurized gas acts on the upper surface of the flux 2 by the high-pressure nitrogen gas flowing out of the upper opening 6 of the pipe 4. Is smoothly fed into the pipe 4 from the opening 5 by this pressure difference.

As a result, the lance tube 15
The flux 2 and nitrogen gas are fed into the molten metal 17 via the, and the molten metal processing such as degassing can be performed.

When the molten metal treatment for a predetermined time is completed,
After closing 14 to prevent the flux 2 in the hopper 3 from spilling, the flux supply device 1 can be taken out of the crucible 1 together with the lance tube 15 and leaned against a floor or the like.

(Effect of the Invention) As described above, according to the present invention, according to the first aspect, in the flux supply device for treating molten metal of aluminum or aluminum alloy, one end is supplied with gas into a hopper for storing flux therein. Connected to the source, the other end is opened to the lance tube, the inside of which passes a pipe through which gas blown into the molten metal passes through the hopper, and the lower part of the pipe passed through the hopper is stored in the hopper. An opening facing the flux was formed, and an opening was formed above the surface of the flux stored in the hopper at the upper part of the pipe passing through the hopper.

According to a second aspect of the present invention, in the flux supply device for treating molten aluminum or aluminum alloy, one end is connected to a gas supply source and the other end is opened to a lance tube in a hopper for storing a flux therein. Pass a pipe through which gas blown into the molten metal passes through the hopper, and form an opening facing the flux stored in the hopper at a lower portion of the pipe passed through the hopper,
An opening is formed in the upper part of the pipe above the surface of the flux stored in the hopper to constitute a flux supply device, and the opening of the pipe of the flux supply device is connected to the upper part of the lance tube. did.

Therefore, according to the present invention, the structure is simple and the cost is low, and since there is no bearing or the like, the number of failures is reduced.

[Brief description of the drawings]

FIG. 1 is an explanatory view of a use state of a flux supply device according to the present invention, and FIG. 2 is a sectional view of the flux supply device. In the drawings, 1 is a flux supply device, 2 is a flux, 3 is a hopper, 4 is a pipe, 5 and 6 are open holes, 11 is a high-pressure nitrogen gas cylinder, 15 is a lance tube, 16 is a crucible, and 17 is a molten metal. .

Claims (2)

(57) [Claims] 1. A flux supply apparatus for treating molten metal of aluminum or aluminum alloy, wherein one end is connected to a gas supply source and the other end is opened to a lance tube in a hopper for storing flux therein.
A pipe through which gas blown into the molten metal passes through the inside of the hopper, and an opening facing a flux stored in the hopper is formed at a lower portion of the pipe passed through the hopper, A flux supply device, characterized in that an opening is formed above the surface of the flux stored in the hopper at an upper part of the pipe passed through the hopper. 2. A flux supply device for processing molten aluminum or aluminum alloy, wherein one end is connected to a gas supply source and the other end is opened to a lance tube in a hopper for storing flux therein.
A pipe through which gas blown into the molten metal passes through the inside of the hopper, and an opening facing a flux stored in the hopper is formed at a lower portion of the pipe passed through the hopper, In the upper part of the pipe, an opening is formed above the surface of the flux stored in the hopper to constitute a flux supply device, and the opening of the pipe of the flux supply device is connected to an upper part of a lance tube. A flux supply device connected to the flux supply device.