JPH0649108Y2 - Duct part of molten metal electromagnetic pump - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention relates to an improvement of a duct portion of an electromagnetic pump that applies a thrust to a molten metal held therein by the action of a moving magnetic field.

[Prior Art] An example of a conventional molten metal electromagnetic pump of this kind is shown in FIG.
Shown in. In the induction type electromagnetic pump in which the part surrounded by the broken line is arranged vertically, the stator 5 is arranged on the outer circumference of the cylindrical duct 2 made of ceramic, and the core 4 made of a magnetic material is provided in the duct 2 by the protection tube 3. It is covered and inserted. The stator 5 is actually formed of a stator iron core laminated circumferentially around the duct 2 and a plurality of annular stator coils, but details thereof will be omitted here. Reference numeral 1 denotes a molten metal tank, which is connected to a duct 2 of an electromagnetic pump by a connection duct 21. 11 is a molten metal such as aluminum or zinc.

In the electromagnetic pump, when a linear moving magnetic field is generated by exciting the stator with a multi-phase alternating current according to the same principle as that of a linear motor, the molten metal to be moved that interlinks with the moving magnetic field 11
An induced voltage is generated in the current and a current flows, and a thrust is generated by the interaction between the current and the moving magnetic field, and the molten metal 11 is transferred in one direction. That is, the molten metal 11 in the molten metal tank 1 is the duct 2
Sent in the direction of the arrow. Therefore, when the molten metal electromagnetic pump is stopped, in other words, when the molten metal is not energized, the molten metal in the duct 2 of the electromagnetic pump is stopped at the same level as the molten metal surface 15 of the molten metal tank 1. Become.

[Problems to be Solved by the Invention] In the above conventional technique, as shown in FIG. 5 (a), when the molten metal electromagnetic pump is stopped, the molten metal 11 in the duct 2 is melted.
However, it is stopped at the same level as the molten metal surface 15 of the molten metal tank 1. In this case, the molten metal surface 15 in the duct 2 of the electromagnetic pump is
It is exposed to the open air while it is stopped. Further, since the molten metal surface of the molten metal tank 1 is supplied with hot water, when the molten metal surface is lowered as shown by the chain double-dashed line, the molten metal surface in the duct 2 of the electromagnetic pump is also lowered to the same level. This is not only the molten metal surface,
The inner surface of the duct 2 itself is also exposed to the outside air.

Further, in FIG. 5 (b), the upper part of the duct 2 of the conventional molten metal electromagnetic pump is shown enlarged, but the molten metal flowing through the duct 2 even when hot water is supplied by operating the electromagnetic pump. 11
When the amount is small, the exposed surface of the molten metal in the duct 2 and the inner surface of the duct 2 are exposed to the outside air entering from the tap hole.

As described above, the molten metal exposed surface in the duct 2 of the electromagnetic pump and the residual molten metal attached to the exposed inner surface of the duct are exposed to the outside air and the molten metal surface is oxidized. Oxidation of the molten metal not only causes a problem in hot water supply control such as changing the inner wall of the duct 2 and increasing flow passage resistance, but also has a problem that the flow passage is closed at the end.

An object of the present invention is to solve the above problems in the conventional electromagnetic pump and to provide a duct part of a molten metal electromagnetic pump in which the molten metal surface is hard to be oxidized.

[Means for Solving the Problem] That is, the object of the present invention is to insert the core 4 covered with the protective tube 3 into the inside of the duct 2 connected to the molten metal tank 1 and to the outside of the duct 2. In a molten metal electromagnetic pump in which a stator 5 that generates a moving magnetic field by being urged is arranged, the duct 2 is arranged vertically or inclined, and a gas inlet 6 is provided at the upper end of the duct 2. This is achieved by a duct part of molten metal, characterized in that an inert gas supply source 7 for introducing gas into the duct 2 is connected to the introduction port 6.

Further, it is effective to cover the inert gas inlet port 6 with a porous ceramic fiber having heat resistance.

[Operation] According to the molten metal electromagnetic pump having the duct structure as described above, the inert gas can be introduced into the duct 2 from the introduction port 6 provided at the upper end of the duct 2. The atmosphere in the duct 2 is kept inactive, and the molten metal surface in the duct 2 does not come into contact with oxidizing outside air, so that the molten metal surface is not oxidized.

[Embodiment] An embodiment of the present invention will be described below with reference to the accompanying drawings. FIG. 1 (a) shows an embodiment in which the duct 2 of the molten metal electromagnetic pump is connected to the molten metal tank 1 via the connection duct 21, and the electromagnetic pump is a portion surrounded by a broken line. The duct 2 of the electromagnetic pump has a tap for the molten metal 11.
A discharge duct 22 having 12 is connected. For the series of ducts 21, 2 and 22, if the molten metal is highly corrosive such as aluminum or zinc, a duct formed of ceramic such as silicon nitride is used.

The duct 2 of the electromagnetic pump is placed so as to be almost vertical, and a plurality of protrusions 17 are projected from the inner peripheral surface of the lower portion thereof. A stator 5 is arranged on the outer circumference of the duct 2. A core 4 covered with a cylindrical protection tube 3 made of ceramic is inserted into the duct 2. The core 4 is inserted into the duct 2 of the electromagnetic pump up to a position corresponding to the stator 5, and stops at a position where the tip of the protection tube 3 hits the protrusion 17 on the lower inner surface of the duct 2. Molten metal 11
Is formed between the inner peripheral surface of the duct 2 and the outer peripheral surface of the protective tube 3.

Further, in the present invention, the portion of the duct 2 of the electromagnetic pump above the connecting portion with the discharge duct 22 is made longer than the conventional one, and the hollow gas introduction portion 16 is provided. The upper end of the duct 2 of the electromagnetic pump and the upper end of the inserted protection tube 3 are
It is closed via packing 13. A gas inlet 6 is provided in the vicinity of the upper end of the duct 2, for example, in the gas inlet 16 at the upper end of the protective tube 3 in the embodiment. In addition, the gas introduction portion 16 of the protective tube 3 is connected to the N ₂ through the upper end closed portion of the duct _2.
An inert gas container 7 such as gas, Ar gas or SF ₆ is connected. Reference numeral 9 is a conduit for an inert gas, and the inert gas can be introduced or stopped from the gas inlet 6 by operating an opening / closing valve 10 attached to the inert gas container 7.

The upper end of the duct 2 of the electromagnetic pump according to this embodiment is enlarged and shown in FIG. The gas conduit 9 is sealed by the packing 14 and adhered to the upper end of the protective tube 3, and the gas sent from the inert gas container 7 through the conduit 9 fills the gas introduction part 16 and this is introduced as indicated by the arrow. It is introduced into the duct 2 through the mouth 6 and covers the exposed surface of the molten metal 11 and the exposed surface of the duct 2. In this embodiment, the gas inlet 6 is connected to the protective tube 3
Although a plurality of them are provided at the upper end of the duct 2, the position of the introduction port 6 may be any as long as the gas can be introduced into the duct 2 at the upper end of the duct 2. It is not limited to.

According to the above-mentioned embodiment, when the molten metal 11 is not filled and flowing in the duct 2, since the inert gas is released, the outside air cannot enter from the tap hole 12, and the duct surface as well as the duct The two parts are not exposed to the outside air, and the atmosphere inside the duct is inactive. Therefore, neither an oxide film is generated on the surface of the molten metal, nor is the phenomenon that the molten metal attached to the inner wall of the duct is oxidized and the flow path is reduced. When the molten metal 11 is filled in the duct 2 and is flowing, the gas inlet 6 is closed by the molten metal surface.

The above effect is the same when the electromagnetic pump is stopped and the molten metal surface in the duct 2 is lowered to the same level as the free molten metal surface of the molten metal tank 1 at rest.

FIG. 2 shows another embodiment of the present invention. The difference from the above-mentioned first embodiment is that the protective tube 3 and the gas conduit 9 are screwed. Threads on the end of the gas conduit
14 is provided and a screw groove is formed in the end portion of the protective tube 3 for screwing, and such a configuration may be adopted. The effects and the like are similar to those of the first embodiment.

FIG. 3 shows still another embodiment of the present invention. When the electromagnetic pump is controlled rapidly or at high output, the molten metal 11 in the duct 2 of the electromagnetic pump is greatly urged, and the duct 2
May rise rapidly to the upper end of the gas inlet and block the gas inlet 6. In order to prevent this, the gas inlet 6 has a structure with high heat resistance and is covered with a porous ceramic fiber filter 8. Other configurations are similar to those of the first or second embodiment.

FIG. 4 shows another example of the embodiment of the present invention,
This is an example in which the duct 2 of the electromagnetic pump is arranged so as to be inclined.
Even with this structure, the effect of preventing the outside air from entering the inside of the duct by introducing the inert gas is the same.

[Effects of the Invention] As can be seen from the above description, according to the present invention, an inert gas can be introduced into the duct of the molten metal electromagnetic pump to prevent outside air from entering and the atmosphere in the duct to be deactivated. Therefore, there is an effect that an oxide film is not generated on the molten metal surface and the inner wall surface of the duct in the duct, and the duct part of the molten metal electromagnetic pump can always provide good circulation of the molten metal.

[Brief description of drawings]

1 (a) is a longitudinal sectional view of a molten metal electromagnetic pump showing an embodiment of the present invention, and FIG. 1 (b) is an enlarged longitudinal sectional view showing the upper end portion of the duct, and FIGS. FIG. 3 is a vertical sectional view showing a duct portion of a molten metal electromagnetic pump showing another embodiment of the present invention, and FIG. 4 is a vertical sectional view showing a molten metal electromagnetic pump showing another embodiment of the present invention. 5 (a) is a longitudinal sectional view showing a conventional example of a molten metal electromagnetic pump, and FIG. 5 (b).
FIG. 4 is an enlarged vertical sectional view showing the upper end of the duct. 1 ... Molten metal tank, 2 ... Duct, 3 ... Protective tube, 4 ... Core,
5 ... Stator, 6 ... Gas inlet, 7 ... Inert gas supply source, 8 ... Ceramic fiber

Claims (2)

[Scope of utility model registration request] 1. A core 4 covered with a protective tube 3 is inserted inside a duct 2 connected to a molten metal tank 1 to form the same duct 2.
In a molten metal electromagnetic pump in which a stator 5 that generates a moving magnetic field by energizing is arranged outside the duct 2, the duct 2 is arranged vertically or inclined, and a gas is provided in the duct 2 at the upper end of the duct 2. A duct section of a molten metal electromagnetic pump, characterized in that a gas introduction port (6) for introducing a gas is provided, and an inert gas supply source (7) is connected to the gas introduction port (6). 2. The inert gas inlet 6 has heat resistance,
The duct part of the molten metal electromagnetic pump according to claim 1, which is covered with a porous ceramic fiber.