EP4220056A1 - Transport system for charging a metallurgical melting vessel - Google Patents

Abstract

The present invention is in the field of metallurgical plants. The invention specifically relates to a transport system for loading a metallurgical melting vessel, preferably an electric arc furnace, which is moved from a receiving station to an unloading station. The object of the present invention is to create a transport system with an exchangeable container (2), the container not having an opening mechanism (6) required for a container flap (5) and the container (2) does not have to be connected to an energy supply. The object is achieved by the tilting frame (3) which has an opening unit (6). The container flap (5) has a driver nose (5b) which is threaded into the opening unit (6) when the exchangeable container (2) is placed on the tilting frame (3). The opening unit (6) moves the container nose (5) in such a way that the container flap (5) can be moved between the closed position and the open position.

Description

field of technology

• einen Fahrwerksrahmen, welcher auf einem Führungssystem bewegbar ist,
• einen Kipprahmen, wobei der Kipprahmen mit dem Fahrwerksrahmen verbunden ist und um eine Kippachse kippbar ist,
• einen wechselbaren Behälter, zur Aufnahme von Beschickungsmaterial, wobei der Behälter auf den Kipprahmen aufgesetzt wird,
• der Behälter umfasst zumindest eine, zwischen einer Schließposition und einer Öffnungsposition bewegbaren, Behälterklappe, welche beim oder unmittelbar vor dem Kippen des Kipprahmens den Behälter freigibt und somit ein Ausrutschen von Beschickungsmaterial ermöglicht.

The present invention is in the field of metallurgical plants. The invention specifically relates to a transport system for charging a metallurgical melting vessel, preferably an electric arc furnace, which is moved from a receiving station to an unloading station. The transport system comprises at least the following components:

• a chassis frame which can be moved on a guide system,
• a tilting frame, wherein the tilting frame is connected to the chassis frame and can be tilted about a tilting axis,
• an exchangeable container for receiving charging material, whereby the container is placed on the tipping frame,
• the container comprises at least one container flap, which can be moved between a closed position and an open position and which releases the container when the tilting frame is tilted or immediately before it, thus allowing loading material to slip out.

Furthermore, the invention includes an inclined elevator and a metallurgical plant.

State of the art

The invention relates to a transport system for loading a metallurgical melting vessel with charge material.

A transport system is required to achieve a short cycle time when filling a metallurgical melting vessel with charge material, preferably scrap. This transport system has a container which is detachably attached to a vehicle. With such a transport system, the container can be filled with charging material at another location and then fixed on the transport system. Discharging the feed material into a metallurgical melting vessel is accomplished by opening a vessel door through an opening mechanism associated with the vessel and then tilting the vessel. After being placed on the transport system, the opening mechanism must be connected to a power supply. The EP3027780B1 shows such a transport system.

Summary of the Invention

The object of the present invention is to create a transport system that does not require an opening mechanism on the container and the container does not have to be connected to a power supply.

The task is solved by the tilting frame, which has an opening unit. The container flap has a driver nose which is threaded into the opening unit when the exchangeable container is placed on the tilting frame. The opening unit moves the container nose such that the container flap can be moved between the closed position and the open position.

The container, such as a container, should be designed in such a way that it takes the required amounts of charge material for a metallurgical vessel.

The driver lug is designed similarly to a pin, for example, and the opening unit has a groove-like design which engages in one another when the container is placed on the tilting frame. Of course, the design can also have other configurations, the only important thing being that the driving lug and the counterpart on the opening unit mesh and that reliable and safe movement of the container flap between the closed position and the open position is made possible. It is thus also conceivable that the driver lug is designed similar to a groove and the opening unit has a counterpart similar to a pin.

A preferred embodiment provides that the tipping frame has a guide unit for more precise positioning of the container on the tipping frame, which also makes it easier to thread the driver lug into the opening unit. This guide unit is intended to pre-center the container when it is placed on the tilting frame. In a metallurgical plant, the container is often put on by means of a crane. A guide unit is used to make positioning easier and faster.

An advantageous embodiment provides that the opening unit performs a rotary movement. The container flap is preferably rotatably mounted and is opened by the opening unit in a rotary motion.

An expedient embodiment provides that the opening unit is driven via a hydraulic cylinder, hydraulic motor, electric motor and/or a servo-electric cylinder.

A further preferred embodiment provides that the tilting frame has a locking device for securing the container against slipping.

The object is also achieved by an inclined elevator which includes a guide system and the transport system described above, which can be moved along the guide system.

Furthermore, the object is achieved by a metallurgical plant which includes a metallurgical melting vessel and the inclined elevator described above.

Fig.1

schematische Darstellung einer metallurgischen Anlage

Fig.2, 3

schematische Darstellung eines Transportsystems

Fig. 4

schematische Darstellung eines Behälters

Fig. 5, 6

schematische Darstellung eines Kipprahmens

Brief description of the drawings

Fig.1

schematic representation of a metallurgical plant

Fig.2, 3

schematic representation of a transport system

4

schematic representation of a container

Figures 5, 6

schematic representation of a tilting frame

Description of the embodiments

In the figure 1 is a schematic metallurgical plant, with a retaining shaft 31 for retaining scrap, a metallurgical melting pot 30 and an inclined elevator 1 is shown.

The inclined elevator consists of a guide system 9, for example rails, on which the transport system 1 can be moved. The transport system 1 for charging a metallurgical melting vessel 30 comprises a chassis frame 4, a tipping frame 3 and an exchangeable container 2. The container 2 is placed on the tipping frame 3. The tilting frame 3 can be tilted about a tilting axis 3a, with a tilting drive 7 between the tilting frame a home position and a tilt position can move. The container 2 has a container flap 5 which can be opened and closed with an opening unit 6 . The opening unit 6 is moved with a hydraulic cylinder 8 .

In the 2 the container 2 is shown schematically, which is placed on the tilting frame 3, the container 2 being fastened to the tilting frame 3 with appropriate fastening means (not shown). The container flap 5 can be moved in a rotatable manner about the axis 13 via an arm 5a. The arm 5a has a driver lug 5b, which is threaded into the opening unit 6. The opening unit 6 has a plate 14 which includes two guide rails 11a and 11b. The driver lug 5b is threaded between the two guide rails 11a and 11b. The container flap 5 is moved by the opening unit 6 using the hydraulic cylinder 8 . The container flap 5 is in the 2 shown in a closed position. In order to facilitate the threading of the driver lug 5b into the guide rails 11a and 11b, a guide unit 20 is additionally provided. The guide unit 20 consists of a guide nose 22 which is attached to the container 1 and two guide brackets 21a and 21b which are attached to the tilting frame 3. When placing the container 2 on the tilting frame 3, for example with a crane, the container 2 is first pre-centered by the guide lug 22 and the guide brackets 21a and 21b, so that the threading of the driver lug 5b into the guide rails 11a and 11b is facilitated.

In the 3 is schematic of the container 2 - off 2 - Shown, the container flap 5 is shown in the open state, ie in an open position. It is easy to see how the opening unit 6 moves the driver lug 5b with the guide rails 11a and 11b.

In the 4 the container 2 with the container flap 5 is shown.

In figure 5 the tilting frame 3 with the opening unit 6 is shown schematically.

In the 6 a plan view of the opening unit 6 is shown schematically. In this plan view it can be seen how the driving lug 14 is received in the threaded state between guide rails 11a and 11b.

Although the invention has been illustrated and described in detail by the preferred embodiments, the invention is not limited by the disclosed examples and other variations can be derived therefrom by those skilled in the art without departing from the scope of the invention.

Reference List

1

transport system

2

container

3

tilting frame

3a

tilt axis

4

chassis frame

5

container flap

5a

poor

5b

driving nose

6

opening unit

7

tilt drive

8th

hydraulic cylinder

9

guidance system

11a, 11b

guide rails

13

axis

14

plate

20

Guide unit

21a, 21b

guide console

22

guide nose

30

crucible

31

containment shaft

Claims (7)

Transport system (1) for loading a metallurgical melting vessel (30), preferably an electric arc furnace, which is moved from a receiving station to an unloading station, and comprises at least the following components: - a chassis frame (4) which can be moved on a guide system, - a tilting frame (3), the tilting frame (3) being connected to the chassis frame (4) and being tiltable about a tilting axis (3a), - an exchangeable container (2) for receiving charging material, the container (2) being placed on the tilting frame (3), - the container (2) comprises at least one container flap (5) which can be moved between a closed position and an open position and which releases the container (2) when or immediately before the tilting of the tilting frame (3) and thus allows loading material to slip out, characterized in that the tilting frame (3) has an opening unit (6), the container flap (5) having a driver lug (5b) which, when the exchangeable container (2) is placed on the tilting frame (3), moves into the opening unit (6) is threaded, the opening unit (6) moves the driving lug (5b) in such a way that the container flap (5) can be moved between the closed position and the open position. Transport system (1) for loading a metallurgical melting vessel according to Claim 1, characterized in that the tilting frame (3) has a guide unit (20) for more precise positioning of the container (2) on the tilting frame (3), which also allows the driver lug ( 5b) facilitated in the opening unit (6). Transport system (1) for loading a metallurgical melting vessel (30) according to Claim 1 or 2, characterized in that the opening unit (6) performs a rotary movement. Transport system (1) for charging a metallurgical melting vessel (30) according to one of Claims 1 - 3, characterized in that the opening unit (6) is driven via a hydraulic cylinder (8), a hydraulic motor, an electric motor or a servo-electric cylinder. Transport system (1) for loading a metallurgical melting vessel according to one of Claims 1 - 4, characterized in that the tilting frame (3) has a locking device for securing the container (2) against slipping. Inclined elevator comprising a guide system (9) and the transport system (1) according to claims 1-5, which can be moved along the guide system (9). Metallurgical plant comprising a metallurgical melting vessel (30) and the inclined elevator (1) according to claim 6.

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