KR20060028800A - The mixing-device for molten-metal of thermostat-solution system it uses the electromagnetic pump, and the mixing-system - Google Patents

Abstract

The present invention relates to a molten metal stirring apparatus and a stirring method using a thermal melting furnace using an electronic pump, by installing an electronic pump in a common thermal melting furnace without the need for a separate stirring device and the temperature deviation of the melt generated during the melting and warming process and the molten alloy The present invention relates to an apparatus for stirring molten metal into a thermal melting furnace for improving mechanical strength of a product generated after molding and a defective rate of a product due to a difference in ratio.

Briefly describing the present invention, the nonmagnetic liner is provided symmetrically in the form of a constant slope on both sides of the electromagnetic pump 20 on the side of the heat insulating melting furnace 10 of a predetermined shape. 30 is connected to the inside of the thermal melting furnace 10, which is largely divided into an inlet port 31 and an outlet port 32, the upper one side of the temperature sensor for measuring the temperature of the molten molten inside ( 11) and a molten metal injection hole 12 into which molten molten metal is injected is formed at one end.

The molten metal stored therein is introduced into the electronic pump 20 through the inlet port 31 and the introduced molten metal exits to the outlet port 32 again by the force of the electromagnetic pump 20 and the inside of the molten metal is stirred up and down. It operates in principle, which minimizes the internal melt temperature deviation, prevents heavy metals from depositing to the bottom according to the aluminum alloy ratio, and maintains the alloy ratio uniformly through such agitation, There is an effect that the material is always implemented constantly.

Electric pump, molten metal, stirring device, inlet port, outlet port, nonmagnetic liner

Description

Melting apparatus and stirring method for thermal melting using an electromagnetic pump {The mixing-device for molten-metal of thermostat-solution system it uses the electromagnetic pump, and The mixing-system}

1 is a vertical cross-sectional view of the stirring apparatus according to the present invention.

2 is a horizontal cross-sectional view of the stirring apparatus according to the present invention.

Figure 3 is a side cross-sectional view of the stirring apparatus according to the present invention.

Figure 4 is an enlarged cross-sectional view of the electronic pump according to the present invention.

[Description of symbols on the main parts of the drawings]

10: thermal melting furnace 11: temperature sensor 12: molten metal inlet

13: insulation furnace 15, 16: flange 20: electronic pump

30: nonmagnetic liner 31: inlet port 32: outlet port

The present invention relates to a molten metal stirring apparatus and a stirring method using a thermal melting furnace using an electronic pump, the electronic pump is installed on the side of a predetermined shape of the thermal melting furnace, and is symmetrically configured in the form of a constant slope on both sides around the electronic pump. The nonmagnetic liner is connected to the inside of the thermal melting furnace, which is divided into the inlet port and the outlet port, and is introduced through the inlet port of the molten metal stored inside the thermal melting furnace, which is passed through the electronic pump to the thermal melting furnace through the outlet port. The process proceeds back to the inside of the circulation process, which is characterized in that the molten metal is stirred up and down by the injection force of the electron pump, so that the temperature and material can be constantly maintained without the need for a separate stirring device.

In addition to aluminum, the molten metal contains various alloying components, and in the solidification of the molten metal, sometimes segregation components such as carbon, phosphorus, and sulfur are segregated to a degree corresponding to the final solidified portion of the tough goth or the cast slab and the bloom. It is important to reduce segregation because products made of material having segregation parts are inferior in product characteristics due to the nonuniformity of their mechanical properties and also difficult to weld.

In continuous casting, significant segregation proceeds in the direction perpendicular to the drawing direction of the cast slab and the bloom.

Therefore, to solve this problem, a method of electrostirring a molten metal has been proposed, which is a principle that a force is generated by using a core that generates a magnetic field and a current flowing coil, and the liquid metal, that is, the molten metal, is stirred.

A molten metal injection portion and a supply portion are formed in the upper and lower portions, respectively, and a cylindrical chamber in which a ceramic network is formed, and a plurality of steel sheets forming a plurality of core portions protruding into the circumferential portion having a predetermined width are stacked. A core is formed, and an electron stirrer is formed by winding a coil a predetermined number of times in the layered core. The chamber is placed inside the stirrer, and the pipe connected to the distributor and the receiver is prevented from overheating and the temperature in the chamber. It forms a cooling device piped to lower the, and consists of the chamber, the electronic stirrer, the frame for supporting the cooling device and the control unit for controlling them, in the case of the electronic stirrer as described above easily stirring the electromagnetic force without a separate power source There are features that can be done.

However, such electronic stirring requires not only a separate device capable of doing this. The construction was also very complicated, and due to the process characteristics, it was placed between the thermal melting furnace and the casting apparatus capable of forming aluminum directly, and went through a separate process, which was very negative in time and efficiency.

The present invention is to solve the above problems, without the need for a separate stirring device having an electromagnetic pump on one side of the thermal melting furnace to form a constant slope around the nonmagnetic liner divided into the inlet and outlet ports symmetrically configured After the installation, the inner melt is introduced into the inlet port by the thermal melting, which proceeds to the circulation process to enter the outlet port again by the injection force of the electron pump, that is, the purpose is to be stirred up and down inside the thermal melting furnace.

By stirring inside the thermal melting without the need for a separate stirring device, the purpose is to constantly implement the temperature and material of the aluminum molten metal.

The present invention relates to a melt stirring apparatus and a stirring method for a thermal melting furnace using an electronic pump, by installing an electronic pump in a common thermal melting furnace without the need for a separate stirring device and the temperature deviation of the melt generated during the melting and warming process The present invention relates to a molten metal stirring apparatus for thermal melting for improving the mechanical failure rate of a product generated after molding and a defective rate of a product due to a difference in alloy ratio.

Briefly describing the present invention, the nonmagnetic liner is provided symmetrically in the form of a constant slope on both sides of the electromagnetic pump 20 on the side of the heat insulating melting furnace 10 of a predetermined shape. 30 is connected to the inside of the thermal melting furnace 10, which is largely divided into an inlet port 31 and an outlet port 32, the upper one side of the temperature sensor for measuring the temperature of the molten molten inside ( 11) and a molten metal injection hole 12 into which molten molten metal is injected is formed at one end.

The molten metal stored therein is introduced into the electronic pump 20 through the inlet port 31 and the introduced molten metal exits to the outlet port 32 again by the force of the electromagnetic pump 20 and the inside of the molten metal is stirred up and down. It operates in principle, which minimizes the internal melt temperature deviation, prevents heavy metals from depositing to the bottom according to the aluminum alloy ratio, and maintains the alloy ratio uniformly through such agitation, There is an effect that the material is always implemented constantly.

The thermal melting furnace 10 applied to the present invention will be described in detail with reference to FIGS. 1 to 3, which is configured in a shape of a certain shape, and the temperature at which the thermal insulation and the temperature of the molten metal stored therein can be measured. The sensor 11 is formed, the heater 14 is formed on one side to maintain the internal temperature by generating heat, the molten metal inlet 12 through which the molten metal can be introduced is formed on one side, The cross section is composed of a pair of flanges (15, 16) consisting of a structure that can be connected to the non-magnetic liner 30, which is connected to the inner heat insulating furnace 13 of the thermal melting furnace 10 through a tube of a predetermined length The inside of the thermal melting furnace 10 is formed with an insulating furnace 13 for directly insulating and storing the molten metal.

Referring to FIG. 1 to FIG. 4 in detail with respect to the electromagnetic pump 20 applied to the present invention, in the case of the electromagnetic pump 20, the core 21, 22, 23 that generates a magnetic field and the current flows When a coil is used, a force is generated and liquid metal is transported, and as shown in FIG. 4, three cores 21, 22, and 23 are composed of the outer circumference of a tube located at the center, and a plurality of cores are provided. A plurality of coils are wound around one of the cores (21), (22) and (23), and the cores 23 are perpendicular to the cores 23, and the cores 23 are formed to cross each other in a right angle direction. It is operated by applying power to the cores 21, 22, 23 and coils, and there is no rotating part and there is no packing device requiring airtightness compared to the conventional mechanical type, so that maintenance is not necessary and the induction voltage regulator during operation There are many advantages such as easy flow control.

Therefore, it is a very important device for transporting molten metal, which is widely used in the industry such as aluminum, lead, mercury, as well as pumps of systems that use liquid metal as a coolant such as satellites.

In addition, in the case of the non-magnetic liner 30, the tubular shape as a whole, divided into the inlet port 31 and the outlet port 32, the temperature of the molten metal without being affected by the magnetic field or electric force of the electromagnetic pump 20 It is preferably composed of a sus alloy (Sus Alloy) that can withstand the temperature of (650 ~ 700 ℃), forms a constant slope around the electronic pump 20, which is stirred up and down the molten metal in the thermal furnace (13) It is possible to, and is connected to the flange 15, 16 formed on one side of the thermal melting furnace 10, which is a structure that is easy to attach and detach with the non-magnetic liner 30, the original of the thermal melting furnace 10 When used only for thermal insulation purposes can be used by removing the non-magnetic liner (30) connected by the flange (15, 16).

Referring to the operation principle of the present invention configured as described above in detail, the molten metal stored in the thermal furnace 13 of the thermal melting furnace 10 is stored in the thermal furnace 13 while the electronic pump 20 operates. The molten metal flows into the inlet port 31 and proceeds to the circulation process of passing through the electron pump 20 and entering the heat-retaining furnace 13 through the outlet port 32 again, in which the injection force of the electron pump 20 As a result, the molten metal inside the thermal furnace 13 is circulated. In other words, the molten metal is stirred up and down about the inlet port 31 and the outlet port 32.

In another embodiment of the present invention, the nonmagnetic liner 30 formed on a side surface of the insulating melting furnace 10 at a predetermined angle with respect to the electron pump 20 has a thermal melting furnace 10 and a flange 15, 16. It is connected to) and easy to remove and attach, by using this to remove the electronic pump 20 and the non-magnetic liner (30) when performing the heat retaining, storage function of the original function of the thermal melting furnace (10) Can be used.

The present invention by installing the electronic pump 20 in the thermal melting furnace 10, which is a space for keeping and storing the molten metal without the need for a separate stirring device, to achieve internal agitation by the injection force and accordingly heavy metal inside the molten metal To prevent the precipitation of, and to maintain a constant temperature, there is always the effect of implementing a constant state of the melt.

In addition, in the case of the non-magnetic liner 30 around the electromagnetic pump 20 is connected to the thermal melting furnace 10 and the flange 15, 16, it is easy to attach and detach, as well as the stirring function of the molten metal ( It is easy to selectively use the thermal insulation, storage function, etc. of the molten metal which is the original function of

As described above, the present invention is provided with an electronic pump on one side of the thermal melting furnace without the need for a separate stirring device, forming a constant slope around the center, and installing a nonmagnetic liner divided into an inlet port and an outlet port symmetrically configured. , The inner melt is introduced into the inlet port by the thermal melting, which proceeds to the circulation process of entering the outlet port again by the injection force of the electron pump, that is, the warming up and down inside the furnace has the effect of stirring.

In addition, by stirring inside the thermal melting without the need for a separate stirring device, there is an effect that can always be carried out constant temperature and material of the aluminum molten metal.

Claims (4)

It is provided with an electronic pump 20 capable of transferring the molten molten metal, it is essentially formed in a certain shape, the upper one side of the temperature sensor 11 and one side end for measuring the temperature of the molten molten inside The electronic pump 20 is installed on the side of the thermal melting furnace 10 in which the molten molten metal is injected into the molten molten metal inlet 12. The inlet port 31 and the inlet port 31 are symmetrically in the form of a constant slope on both sides. Non-magnetic liner 30 consisting of the outlet port 32 is connected to the inside of the thermal melting furnace 10, characterized in that the molten metal stirring apparatus to the thermal melting furnace using an electronic pump. According to claim 1, wherein the molten metal stored in the thermal melting furnace 10 is introduced into the electromagnetic pump 20 through the inlet port 31 and the injected molten metal is again discharged by the force of the electron pump (20) 32) the inside of the molten metal is operated on the principle of stirring up and down, thereby minimizing the internal temperature difference of the molten metal, and using the electronic pump, which can constantly realize the temperature and material of the molten aluminum melted. Melting apparatus for thermal melting furnace. The nonmagnetic liner 30 of claim 1 or 2, wherein flanges 15 and 16 are connected to one side of the thermal melting furnace 10 so as to be symmetrically about the electron pump 20. Easily attached to each of the molten metal melting apparatus using an electronic pump, characterized in that it can be selectively used with the thermal insulation, storage function, which is the original function of the thermal melting furnace (10). An electronic pump 20 capable of transferring the molten molten metal, the upper one side of the temperature sensor 11 for measuring the temperature of the molten molten inside and the molten molten metal injection hole 12 is injected into one side end The non-magnetic liner is formed of the inlet port 31 and the outlet port symmetrically in the form of a constant slope on both sides of the electromagnetic pump 20 is installed on the side of the thermal melting furnace 10 is formed. 30 is configured to be connected to the inside of the thermal melting furnace 10, the molten metal stored in the thermal melting furnace 10 is introduced into the electron pump 20 through the inlet port 31 and the injected molten electrons It is characterized in that the molten metal inside the thermal melting furnace 10 around the non-magnetic liner 30 is agitated as it proceeds to the circulating process again exiting the outlet port 32 with the force of the pump 20 again. Thermal insulation using an electronic pump Molten stirring method of the year.

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