DE3444181A1 - Feed device for a smelting furnace - Google Patents

Abstract

A feed device (3) for scrap is arranged directly in front of a smelting furnace (2). It has an integrated preheating chamber (5) in which is arranged a charging container (6) that can be moved right into the smelting space (15) of the furnace (2). The scrap fed directly into the charging container (6) through a chute (9) of the feed device (3) is distributed uniformly by means of a shaking device (10) and subjected to rapid preheating using the hot exhaust gases from the furnace (2). Hot gases from the preheating chamber (5) and, if required, fresh air are added to these exhaust gases in a recirculation system. <IMAGE>

Description

GAUTSCHI ELECTRO-FOURS SA / TÄGERWILEN (SWITZERLAND) "LOADING DEVICE FOR A MELTING FURNACE"

G14-P17-CH
8.2.1984

"loading device for a melting furnace"

The invention relates to a charging device for a melting furnace for melting down non-ferrous metal scrap, especially of aluminum scrap, with a charging container.

It is known to use aluminum scrap batches in preheating systems, which are heated with exhaust gases from the melting furnace, to preheat. Flammable impurities adhering to the scrap are removed by degreasing. Thereafter the preheated scrap is transported to the melting furnace in charging containers, e.g. by means of a crane and there by tilting the container or by pushing it into the melting chamber by means of a hydraulic ram brought in.

It is also known to bring in scrap by means of so-called vibration channels, with which the melted material is transferred the stove surface is distributed. Because the fouling away of the impurities and the preheating in the melting furnace If lying chambers happens, the often relatively long transport routes because of the time required have an effect 0 and the resulting temperature losses are disadvantageous.

It is the object of the invention to provide a device of the type mentioned, which while avoiding the mentioned Disadvantages an energy saving of the metal smelting through an improved utilization of the heat allows the furnace exhaust gases, in particular the heat transfer from the hot gases to the Scrap to be improved.

According to the invention, this object is achieved by that the charging device has an integrated preheating chamber in which the charging container is arranged is, which takes up the scrap brought in through a shaft as a collecting container, in the preheating chamber Nozzles are provided which direct the scrap with hot gas at high speed via a mixer system acted upon from an exhaust pipe of the melting furnace and the charging container into the melting chamber of the, the charging device can be moved directly downstream of the melting furnace.

Because the charging container is arranged in the preheating chamber of the charging device, this is the case is filled with scrap directly from above through a chute and immediately after it has been preheated furnace downstream of the loading device

is movable, there are significant savings in time and only low temperature losses. Through the direct loading of the scrap in the charging container with hot gas at high speed, this rapid preheating saves energy and the Improves heat transfer, which also shortens the preheating time.

The displaceability of the charging container is brought about by a carriage provided with a drive, which with Advantage is outside of the isolated preheating chamber. This avoids harmful effects of heat.

A vibrating device mounted on the carriage, which can be an eccentric, is particularly advantageous. Through the, The shaking movement transmitted via the charging container ensures a good distribution of the scrap on the charging container achieved, which significantly improves the heat transfer from the impacting gases to the scrap is, as the heat-absorbing surface of the metal exposed to the hot gas is increased overall will. As a result of the shaking movement, the applied scrap also has a uniform layer thickness in the charging container is achieved, this is faster and more fully

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constantly warmed up. The shaking movement and a simultaneous backward movement of the charging container also improve the distribution of the scrap on the hearth of the melting furnace or in the weld pool located therein. Because of the shorter melting time, both the burn-off loss and the energy consumption are lower.

In a particularly advantageous embodiment of the invention, the exhaust gas line of the melting furnace, the Hot gas discharge line of the preheating chamber, as well as, if applicable a fresh air supply line in a mixing system in which these gases are used to achieve a certain hot gas temperature be mixed. In order not to melt the scrap in the preheating chamber, the temperature must of the mixed hot gas, which is fed into the preheating chamber by a subsequent hot gas circulation fan The conveyance is below the melting point of the scrap, which for aluminum and its alloys is approx. 600 - 620 C. To protect against too high a temperature of the hot gas, an additional Fresh air supply line with control flap provided to the mixing system.

The invention is explained below with reference to the accompanying drawing, for example. It shows:

1 shows the charging device, partially in section, with an associated melting furnace, and

Fig. 2 schematically, the ring circulation system of the gases.

In Fig. 1 is on the hut floor 1 immediately in front of a furnace 2 of the type tank furnace for melting down A loading device 3 is arranged for clean aluminum scrap, e.g. scrap from rolling mills. This owns an integrated preheating chamber 5 in which, on RoI-len 7 movable, a charging container 6 is located.

Via a shaft 9, scrap 8 is not turned into a scrap The elevator trough shown is introduced from above into the charging container designed as a collecting container. After the container 6 has been charged, which takes about 2 to 3 minutes, it is by means of a vibrating device 10, designed as an eccentric in the exemplary embodiment, vibrated. Here is this one Eccentric mounted on a mobile carriage 11 which is located outside the isolated preheating chamber 5.

In a gas or oil burner heated melting furnace 2, which is designed as a hearth furnace, and usually operated continuously in such a way that there is always a residual metal bath in the furnace chamber

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the melting process produced hot exhaust gases. These are via the exhaust pipe 20 in a ring circulation system, shown schematically in FIG.

In the wall of the insulated preheating chamber 5 there are nozzles 21 in the form of slots through a constriction the hot gas supply line is formed, which the hot gas at high speed directly against the preheated Align aluminum scrap 8, as indicated by the arrows. The outlet nozzles 21 in the preheating chamber 5 can also be designed as round or oval nozzles.

The jolting movement emanating from the eccentric 10 distributes the scrap evenly and finds it therefore, there is an improved heat transfer between this and the hot gas impinging on it. To a time of approx. 30 minutes, depending on many parameters, such as batch size, hot gas temperature etc., the scrap is preheated to around 400 - 450 C.

The carriage 11 is provided with a drive 14, which is connected to the charging container via the vibrating device 10 6 is connected. After opening the door 16

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the charging device and the melting furnace door 17, the charging container 6 with the carriage 11 is in move the melting furnace 2 so that its front area, as indicated by dashed lines, enters the melting chamber 15 of the furnace 2 protrudes. The shaking movement of the charging container 6 with a simultaneous withdrawal movement of the slightly inclined container, the preheated scrap 8 on the stove 28 or in the weld pool of the oven evenly distributed. The two opening slots, which are caused by the process of the charging container 6 with the carriage 11 are created by two sealing strips each when driving back and forth of the container 6 is automatically closed.

It is essential that the scrap 8 does not melt before it is loaded into the melting chamber 15. Therefore the temperature of the hot gases fed into the preheating chamber 5 by the circulation fan 26 must be precise can be set. For optimal use of the heat and heat regulation, hot gas is also turned off the upper area of the preheating chamber 5, as indicated by arrows 13, deducted and, according to FIG. 2, a mixing system 23 provided in a ring circulation system via the hot gas discharge line 24. With this gas, which is colder after the heat is given off to the scrap, a temperature of the hot-

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gases of approx. 600 - 620 C set. If necessary, fresh air can be supplied through a flap is regulated, are supplied via the supply line 30. If the exhaust gases from the melting furnace 2 are mixed with the hot gases withdrawn from the preheating chamber 5 takes place in this circulation system as a function of the Hot gas temperature as measured on the inlet side of the preheating chamber. The excess hot gases from the preheating chamber are derived via the chimney 29, which has a pressure control device 31 with an adjustable flap 3 2 has.

Rapid preheating according to the invention not only saves energy through more economical ones Utilization of the exhaust gases of a melting furnace is achieved, but it is also its real task, namely to melt down as large amounts of metal as possible in a short time, decisively improved.

The loading device according to the invention is not limited to the melting of scrap made of aluminum and its alloys. It can also e.g. Waste copper or zinc alloys with a such device are treated.

Claims (7)

_x_ 3U4181 PATENT CLAIMS 1. Loading device for a melting furnace for melting down non-ferrous metal scrap, in particular Aluminum scrap, with a charging container, characterized in that the charging device (3) has an integrated preheating chamber (5) in which the charging container (6) is arranged is, which as a collecting container receives the scrap (8) brought in through a shaft (9), in the preheating chamber (5) nozzles (21) are provided, which the scrap (8) directly with hot gas at high speed act on from an exhaust pipe (20) of the melting furnace (2), and that the charging container (6) into the melting chamber (15) of the charging device (3) immediately downstream Melting furnace (2) is movable. 2. Device according to claim 1, characterized in that the charging container (6) by means of a, with Drive (14) provided carriage (11) can be moved. 3. Apparatus according to claim 2, characterized in that the carriage (11) outside the preheating chamber (5) lies. G14-P17-CH
8.2.1984 4. Apparatus according to claim 3, characterized in that a vibrating device (10) is mounted on the carriage (11) which is connected to the charging container (6). 5. Apparatus according to claim 4, characterized in that the vibrating device (10) is designed as an eccentric is. 6. Device according to one of claims 1 to 5, characterized in that the exhaust pipe (20) of the Melting furnace (2), a hot gas discharge line (24) of the preheating chamber (5), and optionally one Fresh air supply line (30) open into a mixing system (23) and a hot gas circulation fan (26) is subordinate. 7. Apparatus according to claim 6, characterized in that the mixing system has a temperature control device (33) which actuates an adjustable flap (27) in the line (30).