JPH05115959A - Casting apparatus - Google Patents

Abstract

PURPOSE:To prevent he pouring of oxidized molten metal into a cavity by supplying inert gas from an inlet of the molten metal after the molten metal in the cavity solidifies and dropping the molten metal in a conduit. CONSTITUTION:In a low pressure casting apparatus, the inert gas supplying tube 6 opened to the inlet 5a of the molten metal in the guide tube 5 is arranged, and after the molten metal (a) poured into the cavity C solidifies, the inert gas is supplied from this gas supplying tube 6 to drop the molten metal in the conduit 5. In this way, the molten metal surface in the conduit tube 5 can covered with the insert gas and the oxidized molten metal is not included in the molten metal for pouring into the cavity at the next time and the yield of a product can be improved.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a casting apparatus, and more particularly to a casting apparatus suitable for low pressure casting.

[0002]

2. Description of the Related Art Conventionally, a low-pressure casting apparatus connects a molten metal such as aluminum in a crucible and a cavity of a mold located above the crucible with a conduit (stoke) to form a molten metal on the surface of the molten metal. The pressure is applied to pour the molten metal into the cavity through the conduit, and after the molten metal in the cavity is solidified, the pressure on the molten metal surface is released.

In the casting by this low-pressure casting apparatus, since the molten metal surface can be covered with an inert gas such as N ₂ gas, the molten metal can be prevented from being oxidized and the yield is higher than that of gravity type pouring. have.

[0004]

However, in the conventional low-pressure casting apparatus described above, the molten metal surface can be covered with an inert gas and poured into the cavity. However, after the molten metal in the cavity is solidified, the mold is unframed. At this time, the molten metal in the conduit may be exposed to the atmosphere to be oxidized, and the oxidized molten metal may be mixed in the next time of pouring into the cavity, thereby lowering the product yield.

Therefore, the present invention has been made to solve the above-mentioned drawbacks, and an object thereof is to provide a casting apparatus in which the molten metal in the conduit is not oxidized.

[0006]

In order to achieve the above-mentioned object, the apparatus of the present invention connects the molten metal of the crucible with the cavity of the mold provided above the crucible by a conduit, and A pressure difference is provided between the pressure applied to the molten metal surface and the pressure in the cavity thereof, and in the casting apparatus for pouring the molten metal into the cavity, an inert gas supply pipe opened at the molten metal inlet of the conduit is provided, After the molten metal poured into the cavity is solidified, an inert gas is supplied from the inert gas supply pipe to drop the molten metal in the conduit.

[0007]

In the above structure, the molten metal in the crucible is poured into the cavity through the conduit, and when the molten metal in the cavity is solidified, the inert gas is supplied from the inert gas supply pipe into the conduit. .. As a result, the molten metal in the conduit is replaced with the inert gas and falls, and the surface of the molten metal in the conduit is covered with the inert gas and is not oxidized.

[0008]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a vertical sectional view of an apparatus according to an embodiment of the present invention, in which a crucible 1 filled with a molten metal a such as aluminum is
A heater (not shown) is provided and is provided in a recess 3 of a heat retaining container (holding furnace) 2 for maintaining the crucible 1 at a predetermined temperature.

The upper portion of the heat insulating container 2 is covered with a triple-structured lid 4 to be shielded from the atmosphere, and a conduit 5 is provided so as to be suspended from the central portion of the lid 4 into the crucible 1. .. An inert gas supply pipe 6 that communicates with the molten metal intake port 5a at the bottom of the conduit 5 is provided around the conduit 5. That is, the conduit 5 and the inert gas supply pipe 6 are
It has a double pipe structure with the lower end communicating.

In the figure, 7 and 8 are N ₂ gas supply pipes, of which the supply pipe 7 is connected to the recess 3.
The other supply pipe 8 is connected to the inert gas supply pipe 6.

The mold 10 has a cavity C formed by a sand mold in an upper frame 11a and a lower frame 11b, and is placed on the upper lid 4. The cavity C communicates with the conduit 5 via the strainer 12. The mold 10 is kept airtight by a seal box 13 placed on the lid 4 so as to be openable and closable. In the figure, 5b is
The heat insulating member provided inside the upper portion of the conduit 5 acts so that the molten metal in the conduit 5 does not solidify.

Next, the operation of the apparatus of this embodiment will be described with reference to the enlarged view of the conduit 5 portion in FIG.

First, in order to pour molten metal into the cavity C, the valve V ₁ is opened, V ₂ is closed and V ₃ is opened. Then, the gas in the seal box 13 is sucked by a vacuum pump (not shown) through the valve V ₃ . This causes a difference between the pressure in the recess 3 (the pressure on the surface of the molten metal a) and the pressure in the cavity C, and the molten metal a in the crucible 1 rises in the conduit 5 and is poured into the cavity C. (See FIG. 2A).

When the pouring into the cavity C is completed, the valve V ₃ is closed, and when the molten metal in the cavity C is solidified, the valve V ₂ is opened (the valve V ₁ is opened) and the valve V ₂ is opened. N ₂ gas is injected under pressure. By this, N
₂ Gas is the inert gas supply pipe 6 and the melt inlet 5 of the conduit 5.
The molten metal a in the conduit 5 is injected into the conduit 5 via N
₂ Replace with gas and let it fall (see FIG. 2 (b)). Therefore, the molten metal surface in the conduit 5 is covered with N ₂ gas.

Next, the seal box 13 is opened, the mold 10 is taken out, a new mold 10 is placed on the lid 4, the seal box 13 is closed, and the molten metal is poured into the cavity C again. .. At this time, since the molten metal poured into the cavity C does not come into contact with air (atmosphere) at all, the molten metal supplied into the cavity C does not contain the oxidized molten metal, and there is no possibility of lowering the product yield.

In the above-described embodiment, pouring into the cavity C is performed with the inside of the seal box 13 having a negative pressure. However, the pouring may be performed by increasing the N ₂ gas pressure in the recess 3. Good. Although N ₂ gas is used as the inert gas, an inert gas such as argon gas may be used.

[0017]

The apparatus of the present invention is provided with an inert gas supply pipe opened at the molten metal inlet of the conduit, and after the molten metal poured into the cavity is solidified, an inert gas is supplied from the gas supply pipe to Since I tried to drop the molten metal in the conduit,
The surface of the molten metal in the conduit can be covered with an inert gas, and the molten metal to be poured into the next cavity does not contain the oxidized molten metal. Therefore, the product yield can be improved.

[Brief description of drawings]

FIG. 1 is a vertical sectional view of an apparatus according to an embodiment of the present invention.

FIG. 2 is an enlarged view of a conduit portion.

[Explanation of symbols]

 1 crucible 5 conduit 5a molten metal intake 6 inert gas supply pipe 10 mold a molten metal C cavity

Claims (1)

[Claims] 1. A molten metal of a crucible and a cavity of a mold provided above the crucible are connected by a conduit, and a pressure difference is provided between a pressure applied to the molten metal surface and a pressure in the cavity. In the casting apparatus for pouring the molten metal into the cavity, an inert gas supply pipe opened at the molten metal inlet of the conduit is provided, and the inert gas supply pipe is provided after the molten metal poured into the cavity is solidified. A casting apparatus, characterized in that an inert gas is supplied from the pipe to drop the molten metal in the conduit.