DE29915597U1 - Device for measuring residual steel in a container - Google Patents

Description

Patent attorneys ' J·./ t j ...j . ·..··..:

VlEL&VlEL \. ^! \.' -a·..* ..'■··' 12898i.P716.09.1999

European Patent Attorneys

DESCRIPTION Device for measuring steel residue in a container

The invention relates to a device for measuring steel residue in a container.

Devices for measuring steel residue in containers, particularly in the continuous casting distributor of a continuous casting plant, are known. In continuous casting and other applications, it is of great importance for reasons of economy that as little residual steel as possible remains in the container, since the remaining residual steel has to be remelted at great expense. On the other hand, since the emptying of the steel from the container must be completed before the slag escapes, there is a great need for measuring devices for measuring residual steel.

In one type of device, the amount of residual steel is determined by weighing, but this is complex and relatively imprecise. Another type of residual steel measurement is based on the principle of optical measurement, but this is also imprecise due to the slag and covering mass floating on the steel. Both methods have the disadvantage that they also require a relatively high level of maintenance.

The object of the invention is therefore to provide a device for precise residual steel measurement which can be produced economically and operated with low maintenance requirements.

This object is achieved according to the invention in that a tube is arranged in a vertical direction on the bottom of the container, which tube has at least one opening in the region of its side wall and into whose free upper opening a measuring rod can be inserted.

Since only liquid steel, but not slag, can penetrate into the interior of the pipe through the opening, it is possible to measure the amount of residual steel by inserting the measuring rod into the pipe without the measurement result being affected by the often thick layer of steel on the liquid steel.

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European Patent Attorneys

floating layer of slag and covering material. The simple device is practically maintenance-free even over long periods of downtime.

One embodiment of the invention is that the pipe has a diameter of up to 130 mm.

It is advisable for the opening to have a diameter of up to 80 mm.

It is advantageous that the opening is located a maximum of 200 mm above the bottom of the container.

The opening should neither be positioned directly above the bottom of the container, as there is a risk of "freezing" in this case, nor should it be positioned too high, as there is then a risk of slag or covering compound penetrating the pipe and thus distorting the measured value.

According to the invention, the tube is made of refractory material.

Furthermore, it is advisable for the measuring rod to be made of metal or ceramic.

A further development of the invention consists in that the measuring rod has a graduation.

It is also advantageous that the graduation corresponds to the remaining pouring time of the container.

In this way, the remaining casting time can be read directly from the measuring rod.

Finally, a further development of the invention consists in the wall of the tube having a bore for a temperature measuring probe running parallel to the longitudinal axis of the tube.

In the following, an embodiment of the invention is explained with reference to drawings.

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European Patent Attorneys

It shows

Fig. 1 is a sectional view of a device according to the invention for

Steel residue measurement.

As shown in Fig. 1, the device according to the invention consists of a pipe 2 arranged vertically on the bottom 1 of a continuous casting distributor, which has an opening 3 of up to 80 mm diameter at a maximum of 200 mm above the bottom 1. The pipe 2 has a length of approx. 1500 mm and a diameter of up to approx. 130 mm. It is made of refractory material. Because the opening is arranged relatively close to the bottom of the continuous casting distributor, the actual level of residual steel in the continuous casting distributor can be determined inside the pipe 2 without being influenced by the thickness of the slag and covering mass layer.

A measuring rod 5, which preferably consists of metal or another heat-resistant material, can be inserted into the free upper opening 4 of the tube 2, on which the amount of residual steel in the continuous casting distributor can be read. The measuring rod 5 is expediently provided with a graduation for this purpose. The measuring rod 5 is preferably not graduated in mm or cm of steel height in the continuous casting distributor, but directly in the remaining casting time corresponding to this value, so that conversion is not necessary.

A temperature measuring probe can be inserted into the hole 6 in the wall of the pipe 2, which is arranged parallel to the longitudinal axis of the pipe 2. The lower end of the hole 6 can be closed to prevent steel from penetrating. Since the hole 6 is only separated from the inside or outside of the pipe 2 by the relatively small thickness of the wall of the pipe 2, the temperature of the liquid steel in the hole can be protected from its direct influence and yet still be determined precisely. With this design, both the level and the temperature of the liquid steel can be determined.

Claims (9)

1. Device for measuring steel residue in a container, characterized in that a tube ( 2 ) is arranged vertically on the bottom ( 1 ) of the container, which tube has at least one opening ( 3 ) in the region of its side wall and into whose free upper opening ( 4 ) a measuring rod ( 5 ) can be inserted. 2. Device according to claim 1, characterized in that the tube ( 2 ) has a diameter of up to 130 mm. 3. Device according to claim 1, characterized in that the opening ( 3 ) has a diameter of up to 80 mm. 4. Device according to claim 1, characterized in that the opening ( 3 ) is arranged a maximum of 200 mm above the bottom ( 1 ) of the container. 5. Device according to claim 1, characterized in that the tube ( 2 ) consists of refractory material. 6. Device according to claim 1, characterized in that the measuring rod ( 5 ) consists of metal or ceramic. 7. Device according to claim 1, characterized in that the measuring rod ( 5 ) has a graduation. 8. Device according to claim 7, characterized in that the graduation corresponds to the remaining pouring time of the container. 9. Device according to claim 1, characterized in that the wall of the tube ( 2 ) has a bore ( 6 ) running parallel to the longitudinal axis of the tube for a temperature measuring probe.