KR19990010484A - System and method for conveying molten aluminum - Google Patents

Abstract

The present invention relates to a system for transporting aluminum in a molten state and a method thereof, and more particularly to a system for transporting molten aluminum that can improve productivity by supplying molten state when supplying aluminum to an aluminum alloy factory. It relates to a melting furnace 10 for melting aluminum; A plurality of thermal furnaces 30 for maintaining the molten state of aluminum so that the molten aluminum can be supplied to the recipient in the molten state by the melting furnace 10; A runner 20 which moves to the thermal furnace 30 while preventing the temperature of the molten aluminum discharged from the melting furnace 10 from decreasing; It is comprised by the meter 11 which is attached to the said melting furnace 10 and measures the mass of molten aluminum discharged | emitted.

Description

System and method for conveying molten aluminum

The present invention relates to a system for transporting aluminum in a molten state and a method thereof, and more particularly to a system for transporting molten aluminum that can improve productivity by supplying molten state when supplying aluminum to an aluminum alloy factory. It is about.

In general, a method of obtaining aluminum as a raw material in a manufacturing plant that processes parts such as a cylinder head of an automobile engine with an aluminum alloy mainly composed of aluminum is a large quantity of aluminum ingots manufactured to a predetermined size in a factory that smelts aluminum. Purchasing and re-melting them to produce a mixture of predetermined additives (silicon, copper, etc.) according to the characteristics of the parts to be manufactured, or by adding a predetermined additive as required by the factory to be delivered from an aluminum smelting plant It provides a delivery method.

However, in the conventional method, since the aluminum ingots are to be melted and processed again in a parts factory that receives aluminum ingots, productivity is reduced because a separate furnace facility must be installed, which causes pollution to the surrounding environment. There was a problem.

The present invention is to solve the above problems, by supplying aluminum in a molten state to a parts factory for manufacturing automobile parts using aluminum alloy in a smelting factory to smelt aluminum to improve productivity and reduce environmental pollution It is an object of the present invention to provide a system and method for transporting aluminum in a molten state.

The present invention provides a transport system capable of receiving and moving aluminum in a molten state in a melting furnace for melting aluminum in order to achieve the above object, the molten aluminum in the molten state to the recipient in the molten state An insulated furnace for maintaining the molten state of aluminum to be supplied; Moving means for moving to the thermal insulation furnace while preventing the temperature of the molten aluminum discharged from the melting furnace from decreasing; Provided is a system for transporting aluminum in a molten state, characterized in that it is mounted to the melting furnace, consisting of a measuring means for measuring the mass of the molten aluminum discharged.

In order to achieve the above object, the present invention provides a method of supplying smelted aluminum to an aluminum receiver for manufacturing various kinds of mechanical parts using an aluminum alloy, the molten state of the molten aluminum in the melting furnace It also provides an aluminum supply method characterized in that the productivity is improved by supplying the aluminum supplied while maintaining the molten state.

In addition, the present invention is a means for preventing the cooling of the aluminum in the molten state discharged from the melting furnace for melting aluminum, the inner shell made of a refractory material that can withstand the high temperature of the aluminum in the molten state, the endothelial Is attached to the inner side, the upper surface of which is open and maintains the pipe shape, the middle layer portion, which is coated between the outer layer of the middle layer to insulate the heat, and inserted between the middle layer and the endothelial A flow tube comprising a plurality of anchors to prevent the endothelial from being destroyed by high heat; It is attached to the upper surface of the flow pipe to serve as a cover, the heat insulating material is attached to the lower surface, the handle is formed to facilitate the movement, consisting of a plurality of covers made of a suitable length for easy handling. Also provided is a molten aluminum transport means characterized in that.

1 is a block diagram showing a system for transporting aluminum in a molten state according to the present invention;

2 is a perspective view showing the structure of a runner for transferring molten aluminum to a conveying apparatus in a system for conveying molten aluminum according to the present invention;

3 is a cross-sectional view showing a cross section of the runner shown in FIG.

Explanation of symbols for main parts of the drawings

10 melting furnace 11: meter

20: Runner 21: Endothelial

22: middle layer 23: heat insulating material

24: Anchor 25: Cover

30: heating furnace

The construction and operation of a system and method for transporting molten aluminum in accordance with the present invention will be described in detail through one embodiment of the present invention.

1 is a configuration diagram showing a system for transporting molten aluminum in accordance with the present invention, Figure 2 is transferred to the conveying device in the molten aluminum in the system for transporting the molten aluminum in accordance with the present invention Note is a perspective view showing the structure of a runner, and FIG. 3 is a cross-sectional view showing a cross section of the runner shown in FIG.

First, the configuration of a system for transporting aluminum in the molten state according to the present invention, as shown in Figure 1, the melting furnace 10 for melting aluminum; A plurality of thermal furnaces 30 for maintaining the molten state of aluminum so that the molten aluminum can be supplied to the recipient in the molten state by the melting furnace 10; A runner 20 which moves to the thermal furnace 30 while preventing the temperature of the molten aluminum discharged from the melting furnace 10 from decreasing; It is equipped with the above-mentioned melting furnace 10 and consists of the meter 11 which measures the mass of molten aluminum discharged | emitted.

Here, the meter 11 is made of a load cell (load cell) and measures the mass of aluminum discharged from the melting furnace (10).

In addition, the heating furnace 30 may store aluminum in a molten state therein and move the molten state to a molten state, and is provided with a thermal insulation treatment and a heating means to prevent the internal temperature from falling. It is provided with a tilting means so that it can be easily discharged when discharging for casting, that is, the inlet can be tilted.

On the other hand, the above-described runner 20 is another invention of the present invention, as shown in Figures 2 and 3, the inner shell 21 made of a refractory material that can withstand the high temperature of the aluminum in the molten state, and The inner shell 21 is attached to the inner portion of the inner layer 21, the upper surface of which is open and maintains the tube shape, and the heat insulating material which is coated on the outer portion of the middle layer portion 22 to insulate A runner 20 made up of a plurality of anchors 24 inserted between the middle layer part 22 and the endothelial 21 to prevent the endothelial 21 from being destroyed by high heat; It is mounted on the upper surface of the runner 20 to serve as a cover, and the heat insulating material 25 to insulate the lower surface is attached, the handle 26 is formed to facilitate the movement, so as to facilitate handling It consists of a plurality of covers 25 of suitable length.

The present invention as described above is a method of improving productivity by supplying aluminum to the recipient in a molten state, the function of which is as follows.

First, aluminum is melted in the melting furnace. Then, the molten aluminum is transferred to the heat retention path 30 through the runner 20 to supply the recipient. Here, the melting point of aluminum is 660 ° C, and the temperature of aluminum flowing through the runner 20 is about 680-720 ° C.

The aluminum transferred to the heating furnace 30 is supplied to the receiver while maintaining the molten state, and is used as it is to cast the parts.

On the other hand, the runner 20 is to prevent the temperature is reduced when the aluminum discharged from the melting furnace 10 is transferred to the thermal furnace 30, the inner shell 21 uses a refractory such as castable (castable) It is attached to the inside of the middle layer part 22 made of cast iron which comprises the basic template of the runner 20. As shown in FIG. At this time, a plurality of anchors are provided in the interface between the endothelial 21 and the middle layer 22 and inside the endothelial 21 to prevent cracking of the endothelial 21.

And, the cover 25 is to cover the upper portion of the runner 20 described above to serve as a cover, so that the aluminum flowing in the runner 20 does not cool.

The system and method for transporting aluminum in a molten state according to the present invention made as described above provide an effect of improving productivity by supplying in molten state when aluminum is supplied to an aluminum alloy factory.

While the present invention has been illustrated and described with reference to preferred embodiments, the present invention is not limited to the above-described embodiments, and the present invention is not limited to the above-described embodiments, and has a general knowledge in the technical field to which the present invention belongs. Various changes and modifications may be made by the user.

Claims (6)

A conveying system capable of receiving and moving aluminum in a molten state in a melting furnace for melting aluminum, wherein the thermal insulation is maintained to maintain the molten state of aluminum so that the molten aluminum can be supplied to the recipient in a molten state. Rowa; Moving means for moving to the thermal insulation furnace while preventing the temperature of the molten aluminum discharged from the melting furnace from decreasing; A system for transporting aluminum in a molten state, characterized in that it is mounted to the melting furnace and consists of metering means for measuring the mass of molten aluminum being discharged. In the method of supplying smelted aluminum to an aluminum receiver for manufacturing various kinds of mechanical parts by using aluminum alloy, the molten aluminum is supplied in a molten furnace that melts aluminum and the productivity is maintained while maintaining the molten state. Aluminum supply method characterized by improving the. Means for preventing the cooling of the molten aluminum discharged from the melting furnace for melting aluminum during cooling, the inner shell of the refractory to withstand the high temperature of the aluminum in the molten state, and the inner skin is attached to the inner The upper surface is an open form and maintains the tubular shape, the middle layer to cover the outer layer of the middle layer and the heat insulating portion is inserted between the middle layer and the endothelial is inserted between the inner layer and the endothelial by high temperature A flow tube comprising a plurality of anchors to prevent breakage; It is attached to the upper surface of the flow pipe to serve as a cover, the heat insulating material is attached to the lower surface, the handle is formed to facilitate the movement, consisting of a plurality of covers made of a suitable length for easy handling. An aluminum transport means in a molten state, characterized in that the. 2. The system of claim 1, wherein the metering means is for weighing the mass of aluminum discharged from the furnace and is comprised of a load cell. The system of claim 1, wherein the thermal insulation furnace further comprises heating means for applying heat to maintain a high temperature. The system of claim 1, wherein the thermal insulation furnace further comprises a tilting means to enable a tilting action to discharge the molten aluminum.