JPS6078284A - Metal melting furnace device - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a furnace apparatus for melting metals or alloys such as aluminum, scrap or alloys containing aluminum, iron, steel, copper, etc. and alloys thereof. Such a furnace arrangement comprises an inductor fixed to the furnace vessel, having a secondary winding and a secondary circuit surrounding one leg of the iron core and comprising at least one channel filled with molten metal.
It is already known, for example, from Swedish patent application no. 8205898-3, which describes a furnace device for melting and holding metals, such as aluminum. Furthermore, a heating source, for example containing electrical resistance elements, is mounted above the molten metal, for example in the cover of the furnace vessel.

The problem associated with furnace installations of the type mentioned above is to make it easy to charge the furnace installation with metal, in particular with so-called shredded scrap, and with aluminum scrap, such as beer cans, for example. The objective is to allow addition of solvent and chlorine to be carried out within the furnace equipment. It is also desirable that such a furnace device be constructed to allow continuous operation.

An object of the present invention is to solve the above-mentioned problems and other problems related thereto. The furnace arrangement according to the invention therefore comprises two chambers communicating through at least two channel inductors, one of the chambers is equipped with a charging device which is operated from above, and the molten metal is transferred to the other chamber. It is characterized by being taken out from the chamber.

By providing such a charging device, for example a stoker charging device, the finely chopped scrap can be forced downward into the molten metal at the highest rate corresponding to the maximum melting capacity of the inductor. Therefore, the maximum capacity of the furnace equipment can be utilized to 100%.

In one preferred embodiment, aluminum-containing scrap, such as shredded beer cans, is charged downwards. A solvent supply device can be coupled to the charging device. This makes the furnace installation as a whole suitable for scrap of the type mentioned above.

Preferably, chlorine can be supplied from the second chamber of the furnace arrangement to the molten metal just before it is removed to the holding furnace through an injection tube.

The invention will be explained in more detail with reference to the accompanying drawings. The drawing shows two furnace vessels 1 and 2 which are identical to each other. The first of these furnace vessels 1 is equipped with a cover 3, which can be of the electrical resistance type, built-in or It has a heat source 4 that can be coupled. By lifting the cover 3, slag and the like can be removed from the molten metal in the first furnace tank or chamber 1 and dropped into the vessel or car 5.

The chamber 1 is coupled to the bath or chamber 2 by one or more channel inductors 6 with one or more primary coils 7 and an iron core 8 supplied with single-phase or polyphase current. The metal charged into the chamber 1 is melted and thermally maintained by the channel-type inductor 6. In addition, the second chamber (molten metal extraction chamber) 2 also has a cover 9 and an electric resistance heater 1.
0, and the molten metal is taken out from the chamber 2 through the outlet 11.
through which it is taken out to a ladle or holding furnace.

According to the invention, a charging part 12 , for example a charging stoker, extends through or adjacent to the cover 3 into the first chamber 1 . The stoker 12 has a casing 14 equipped with an exhaust port 15.
It is driven by a suitable motor 13 mounted inside.

The scrap 16 is preferably aluminum, such as finely chopped aluminum beer cans, and is charged downwardly into the chamber 1 by the stoker 12.

Solvent is supplied from 17 points. of scrap.

5- Charging is carried out at the maximum speed corresponding to the maximum melting capacity (100%) of the inductor. The scrap may be referred to as shredded scrap.

The solvent is suitably mixed with the scrap by controlling the stoker, and the ratio of this scrap to solvent mixing can be easily adjusted.

The molten aluminum is chlorinated by feeding chlorine gas through an injection pipe 18 provided just before the outlet 11 from the second chamber 2.

It should be understood that this melting furnace apparatus can also be used for scrap containing copper, steel, iron, etc.

The inductor or inductors 6 can be installed and removed for replacement using known methods.

The furnace apparatus described above is capable of many variations within the scope of the claims. For example, it is also possible to install the charging device at a location other than the first chamber 1.

[Brief explanation of the drawing]

6- The drawing is a sectional view of a metal melting furnace apparatus according to the invention. 1...Metal melting furnace first chamber, 2...Metal melting furnace second chamber, 3.9
...Cover, 4, 10... Heater, 5... Slag container, 6... Inductor, 7... Secondary coil, 8...
...Iron core, 11... Molten metal outlet, 12... Scrap charging stoker, 13... Motor, 14... Casing, 15...
Exhaust port, 16... Scrap, 17... Solvent supply port, 18... Chlorine gas injection pipe. Agent: Akira Asamura 7- Procedural amendment (method) Date of April, 1929 Mr. Commissioner of the Japan Patent Office 1. Indication of the case: Showa Z7 Patent Application No. 729728 2. Title of invention: A derogatory name. 3. Relationship with the case of the person making the amendment Patent applicant's address 4. Agent's engraving of the drawing dated July 1, 1949 (no changes to the content)

Claims (1)

[Claims] (1) In a furnace apparatus for melting metals or alloys such as aluminum, scrap or alloys containing aluminum, iron, steel, copper, etc. and their alloys, through at least one channel-type inductor (6). It has two communicating chambers (1, 2), the first of these chambers (1) is equipped with a charging device (12) that is operated from above,
A melting furnace apparatus characterized in that the molten metal is taken out from the second chamber (2). (2. In the melting furnace apparatus according to claim 1, shredded scrap (16) containing aluminum, such as beer cans, is fed into the first chamber (1) by the charging device (12). (3) In the melting furnace apparatus according to claim 2, the charging device is composed of a stoker (12) including a charging control device or other device. (4) The melting furnace apparatus according to claims 2 and 3, characterized in that a solvent supply device (17) is coupled to the melting furnace apparatus. Furnace apparatus. (5) In the melting furnace apparatus according to claims 2 to 4, it is provided that chlorine gas is supplied to the molten metal in the second chamber (molten metal extraction chamber) (2). Characteristic melting furnace equipment.