DE102008028752A1 - Apparatus and method for detecting the risk of breakage of a steel strand in the continuous casting of steel - Google Patents

Abstract

A device for detecting the risk of breakdown by finning a steel strand (6) in the continuous casting of steel in a broad side plates (2, 3) and narrow side plates (4, 5) having casting mold (1) with measuring sensors (8), the measurement signals to an evaluation supply, is characterized in that first measuring sensors (11, 12) in the immediate edge region of the narrow side plates (4, 5) in the adjoining region to the broad side plates (2, 3) of the casting mold (1) are arranged.

Description

The The invention relates to a device for detecting the risk of Breakthrough by finning of a steel strand during continuous casting of Steel in a wide side plates and narrow side plates Casting mold with measuring sensors that deliver measuring signals to an evaluation device.

Around Strand breaks by finning in a casting mold to avoid the continuous casting of steel are currently being used Thermocouples used that are not in the immediate edge area the narrow side plates of the mold are arranged. Also to the Wide side plates of the mold are thermocouples attached. With Help of these thermocouples can only be achieved with inadequate Accuracy recognize the formation of Finns early enough. at Successful application becomes a countermeasure premature Casting carried out to a threatening strand break submissions. Here, the effect of a strand plug on the temperature measurements evaluated. The detected result corresponds not the Finn himself, but rather the resulting one Effect that the cast strand is not further promoted becomes.

Breakthroughs due to finning, are due to the leakage of liquid Steel and are avoided with this strategy. As a disadvantage, however, can be seen that this premature casting crash associated with the laborious feeding out of the residual strand.

From the DE 101 08 730 A1 a device for detecting the risk of breakage of a steel strand in the continuous casting of steel in a casting mold with their measurement signals to an evaluation delivering measuring sensors is known, distributed in at least two, preferably four, spaced from each other and normal to the conveying direction temperature measurement planes around the circumference of the casting mold are arranged.

At least one of the temperature measurement levels is in the direction of conveyance first passed upper half of the casting mold arranged, and at least one of the temperature measurement levels is in the traversed in the conveying direction lower half arranged. The first temperature level is near the in the casting mold during stationary casting expected maximum temperature of the mold hot side or arranged below this level.

Likewise in the DE 101 08 730 A1 specified a method by which the continuous casting of steel is to be monitored in a casting mold, wherein in at least two spaced apart in the conveying direction temperature measuring planes of the course of the existing temperature level in the respective temperature detected by means arranged in the respective temperature measuring plane in the casting mold measuring sensors and in which, given the presence of various criteria, a distress signal indicative of the risk of breakage of the steel strand is issued. These accidents include the formation of the Finns. Here, it is assumed that due to an increased gap in the area between the side shell plates of the mold forming side plates of the narrow side and the broad side of the still liquid steel penetrates into this area. The subsequently solidified steel forms a so-called fin or steel tongue, by the mechanical friction during the further conveying of the strand additional forces are transmitted to the formed strand shell box. Here, the wedged strand shell can rupture (bleeding) or be carried along by the adjacent areas. While the strand shell grows above the crack seam, it comes in the latter area to lift the strand shell of the mold plates. In this case, the temperature profile in the mold differs from that of the trouble-free casting operation. If liquid steel reaches the copper plates of the walls when the hot melt flows in during trouble-free casting, the local temperature values increase. After the start of the actual casting process, the temperature increase, starting from an upper temperature measuring plane in the mold facing the filling region, continues continuously to a process-dependent temperature level.

flows However, when filling the mold due to an existing Gap between the walls forming the narrow sides and the sides forming the walls more fluid Steel, so is due to the resulting there finely discharging the Steel cord locally disabled or blocked. In the Temperatures detected at the upper temperature measurement levels fall because of even the anomalously strong growth of the steel strand.

It The object of the invention is the known device for detecting the risk of a breakthrough by finning of a steel strand so to improve that optimal and early detection is possible before the emergence of Finns.

According to the invention this object is achieved in a device of the type mentioned by that first measuring sensors in the immediate edge region of the narrow side plates in the adjoining area to the broad side plates of the casting mold are arranged.

By the introduction of additional thermocouples in the edge area of Schmalsei te of the mold, the prediction accuracy of the fin formation is significantly increased and additionally the defect is recognized at a much earlier stage. The additional thermocouple is mounted at a very small distance to the edge of the narrow-side plate in the abutting portion of the broadside plate and therefore allows a location-accurate temperature measurement.

advantageous Further developments emerge from the dependent claims, the Description and the drawings.

In Advantageously, it is provided that the first measuring sensors at a distance of 15 mm or less from the edges of the narrow side panels in the Adjacent area to the broadside panels in the outer surfaces the narrow side plates are introduced.

From Another advantage is an embodiment according to the the first measuring sensors in the area adjacent to the wide side plates inclined in from the outer surfaces of the narrow side plates outgoing holes are introduced. By this arrangement leaves additional space for the detection of the thermocouples created and at the same time a very small distance between the Realize measuring sensor and the edge of the plate. The hole will be for example, realized by a previous reduction at the same angle the surface of the plate for prepared the introduction of the bore and the mounting thread of the thermocouple.

These Form of the arrangement of measuring sensors opens up the possibility the casting process through the early detection to sustain the Finn with appropriate countermeasures. The fin is unlike those known from the prior art Solutions already in progress, detected before cooling down.

It proves to be advantageous if the first measuring sensors, for example at an angle of at least 15 ° towards the Broad side plates are inserted inclined in the holes. Preferably the first measuring sensors are designed as thermocouples.

additionally can be provided that further measuring sensors on the narrow side plate the casting mold in a horizontal row with the first measuring sensors are attached. This makes it possible to temperature differences between the first measuring sensors on the one hand and adjacent measuring sensors on the other hand.

Further Measurement possibilities are created, if in addition the measuring sensors in at least two horizontally one above the other extending rows arranged on the narrow side plates of the casting mold are.

Preferably is also provided that the device is an evaluation includes the temperature differences between the first and the recorded further measuring sensors.

Around a good comparability of the delivered by the measuring sensors To allow readings, it is envisaged that the first and the other measuring sensors introduced into holes of the same depth are. As a result, an optimal comparability of the measuring sensors measured tendencies in the temperature development.

The temperature difference between the adjacent thermocouple and the thermocouple located on the edge is to be evaluated for the fin detection. The range of temperature differences in the state without fin formation characterizes the normal state. With the help of the confidence interval (confidence interval), a threshold range for a still permissible temperature difference can be determined. Thus, by the Finnentektion premature casting breaks can be avoided by finned. This is done by initiating corrective actions analogously 3 ,

The The invention also relates to a method for detecting the danger a breakthrough by finning a steel strand during continuous casting of steel in a wide side plates and narrow side plates Casting mold with measuring sensors, the measuring signals to an evaluation device deliver.

According to the invention the method characterized in that first measuring sensors in immediate edge area of the narrow side plates in the adjoining area to the wide side plates of the casting mold temperature signals generate in the evaluation device with regard to the emergence of Finns are evaluated. Because of the measuring sensors for Signals made available can be strategies such as the process of plates on the narrow sides of the mold or an increase in the broadside contact pressure.

To an embodiment of the method is provided that due the evaluated by the evaluation temperature signals at the risk of the emergence of Finns measures to influence the casting process are initiated.

By the measures according to the invention, the formation of fins is suppressed and made possible a scheduled completion of the casting without premature casting.

below the invention is based in one embodiment explained in more detail in the drawings.

It demonstrate:

1 a schematic perspective view of a continuous casting mold in the broken state with measuring sensors for temperature detection in their side walls;

2 an enlarged plan view of a sectional plane of a narrow-side plate of the continuous casting mold according to a section line II-II 1 ; and

3 Control circuit for maintaining the casting process in Finn formation.

A casting mold 1 ( 1 ) for continuous casting of steel comprises copper plates on its broad sides 2 . 3 and on their narrow sides copper plates 4 . 5 for casting a steel strip 6 as a liquid metal via a feeder 7 is supplied.

The plates 4 . 5 are adjustable in their spacing, so that the width of the steel strip 6 is variable while the thickness is fixed. The thickness is for example between 40 and 100 mm. The width varies between 1000 and 1600 mm.

In the broadside plates 4 . 5 are designed as thermocouples and each arranged in three rows measuring sensors 8th intended. Each of the thermocouples 8th supplies at certain time intervals temperature signals to an evaluation device, not shown here.

In the narrow-sided plates 2 . 3 are also arranged in three rows of thermocouples. In addition to those already available in the prior art and in the central region of the plates 2 . 3 arranged thermocouples 9 . 10 are according to the invention edge near thermocouples 11 . 12 intended.

The near-edge thermocouples 11 . 12 are each in holes 13 . 14 placed in the direction of the broadside plates 4 . 5 are arranged inclined to allow temperature detection in close proximity to the broadsides.

3 shows a control circuit for maintaining the casting process in Finn formation. Fin formation is detected by evaluating the measuring signals of the thermocouples 8th - 12 in the copper plate 2 . 3 the mold in an evaluation 20 , If the risk of the formation of fins is detected, this risk is counteracted by a change in the casting speed Vc, a change in the narrow side inclination or the position of the narrow sides and / or by a change in the clamping force of the broad sides, that is, the mold walls. In this way, attempts are also made or avoided to avoid casting demolition and to maintain the casting process.

1

Gießkokille

2

copperplate

3

copperplate

4

copperplate

5

copperplate

6

steel strip

7

feed

8th

thermocouples

9

thermocouple

10

thermocouple

11

thermocouple

12

thermocouple

13

drilling

14

drilling

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 10108730 A1 [0004, 0006]

Claims (12)

Device for detecting the risk of breakage of a steel strand ( 6 ) by finning during continuous casting of steel in a wide side plate ( 2 . 3 ) and narrow side plates ( 4 . 5 ) having casting mold ( 1 ) with measuring sensors ( 8th ), which supply measurement signals to an evaluation device, characterized in that first of the measurement sensors ( 11 . 12 ) in the immediate edge region of the narrow side plates ( 4 . 5 ) in the adjoining area to the broadside plates ( 2 . 3 ) of the casting mold ( 1 ) are arranged. Apparatus according to claim 1, characterized in that the first measuring sensors ( 11 . 12 ) at a distance of 15 mm or less from the edges of the narrow side panels ( 4 . 5 ) in the adjoining area to the broadside plates ( 2 . 3 ) in the outer surfaces of the narrow side plates ( 4 . 5 ) are introduced. Apparatus according to claim 1 or 2, characterized in that the first measuring sensors ( 11 . 12 ) towards the broadside plates ( 2 . 3 ) inclined in from the outer surfaces of the narrow side plates ( 4 . 5 ) outgoing bores ( 13 . 14 ) are introduced. Apparatus according to claim 3, characterized in that the first measuring sensors ( 11 . 12 ) at an angle of at least 15 ° in the direction of the broad side plates ( 2 . 3 ) in the holes ( 13 . 14 ) are inclined. Apparatus according to claim 4, characterized in that the first measuring sensors ( 11 . 12 ) are formed as thermocouples. Device according to one of claims 1 to 5, characterized in that further of the measuring sensors ( 9 . 10 ) on the narrow side plate ( 4 . 5 ) of the casting mold ( 1 ) in a horizontal row with the first measuring sensors ( 11 . 12 ) are mounted. Device according to one of claims 1 to 6, characterized in that the measuring sensors ( 8th . 9 . 10 . 11 . 12 ) in at least two horizontal superimposed rows on the narrow side plates ( 4 . 5 ) of the casting mold ( 1 ) are arranged. Apparatus according to claim 6 or 7, characterized in that the device comprises an evaluation device, the temperature differences between the first ( 11 . 12 ) and the other measuring sensors ( 8th . 9 . 10 ) detected. Device according to one of claims 6 to 8, characterized in that the first ( 11 . 12 ) and the other measuring sensors ( 8th . 9 . 10 ) in holes ( 13 . 14 ) of the same depth are introduced. Method for detecting the risk of breakage of a steel strand ( 6 ) by finning during continuous casting of steel in a wide side plate ( 2 . 3 ) and narrow side plates ( 4 . 5 ) having casting mold ( 1 ) with measuring sensors ( 8th . 9 . 10 ), which supply measurement signals to an evaluation device, characterized in that first measurement sensors ( 11 . 12 ) in the immediate edge region of the narrow side plates ( 4 . 5 ) towards the broadside plates ( 2 . 3 ) of the casting mold ( 1 ) Generate temperature signals that are evaluated in the evaluation device with regard to the formation of fins. Method according to claim 10, characterized in that that due to the evaluated by the evaluation temperature signals at the risk of the emergence of Finns measures to Influencing the casting process to be initiated so to avoid the casting demolition and the casting process to maintain. Method according to claim 11, characterized in that the narrow side plates ( 4 . 5 ) and / or that the contact pressure on the wide side plates ( 2 . 3 ) is increased.