CN201211558Y - Electromagnetic braking device for controlling molten metal flow in continuous casting crystallizer - Google Patents

Abstract

The utility model relates to an electromagnetic braking device for controlling the flow of metal liquid in a continuous casting crystallizer. The device consists of a magnetic core, an excitation coil and magnetic poles winding around the side wall of the crystallizer in half, wherein the magnetic poles are arranged towards the narrow plane area of the crystallizer and cover a metal liquid surface area of metal liquid close to the narrow plane and a water outlet shock point area in height. Current is applied on the excitation coil so as to produce a static magnetic field between the two pairs of magnetic poles and simultaneously control the flow of the metal liquid in the crystallizer on the surface of the metal liquid close to the narrow plane of the crystallizer and in the water outlet shock point area through the static magnetic field. The device has the advantages that the device can effectively control slag entrapment on the metal liquid surface close to the narrow plane of the crystallizer and the shock depth of the water outlet metal liquid, facilitates the floatation and removal of out phase substances such as inclusions and bubbles at the front edge of a metal solidified shell, lowers the influence degree on the electromagnetic braking effect when the water outlet immergence depth and the water outlet angle change, is simple in shape and small in structure and volume, greatly reduces volume and weight compared with one-zone and two-zone electromagnetic braking devices, saves energy and reduces consumption.

Description

A kind of mobile electro-magnetic braking device of continuous cast crystallizer inner metal liquid of controlling

Technical field

The utility model belongs to the continuous casting technology field, particularly a kind of mobile electro-magnetic braking device of continuous cast crystallizer inner metal liquid of controlling.

Background technology

In common molten metal continuous casting process, molten metal enters in the crystallizer by the mouth of a river, the molten metal that is flowed out by the mouth of a river has certain impact velocity, cause the disturbance on crystallizer inner metal liquid surface on the one hand, be easy to bring the slag liquid on molten metal surface into molten metal internal contamination molten steel, particularly at the leptoprosopy near zone of crystallizer.Cause impact on the other hand to the crystallizer leptoprosopy, make the metal freezing shell attenuate at this place, also make simultaneously out-phase materials such as field trash in the molten metal, bubble be immersed in the darker position of crystallizer, be difficult for come-up, and caught by metal freezing shell forward position, influence the cleanliness factor of metal strand, cause defective.In order to solve this type of problem, normally apply the electromagnetic brake of forming by iron core, magnetic pole and magnet exciting coil at crystallizer, in crystallizer, to form magnetostatic field, make the molten metal that flows by this magnetostatic field the time, be subjected to and the mobile opposite electromagnetic force of direction of molten metal, suppress flowing of crystallizer inner metal liquid with this electromagnetic force.

In the prior art, the electromagnetic brake of magnetostatic field form mainly contains domain type electro-magnetic braking device, one section electro-magnetic braking device of full width and two sections electromagnetic brakes of full width and (is also referred to as FC-Mold).The design feature of domain type electro-magnetic braking device is, two pairs of independently block magnetic poles, and according to the opposite direction of magnetic pole, the mouth of a river that is arranged in crystallizer submersed nozzle both sides goes out the stream zone.On two magnetic poles of wide one side of crystallizer, be wound with magnet exciting coil respectively, and two magnetic poles linked together by magnetic core.This electro-magnetic braking device, by the domain type steady magnetic field that produces, the molten metal that the inhibition submersed nozzle goes out stream flows.But, because the zone of action is limited, can not effectively control the flow regime of whole crystallizer, braking effect is low, easily brings other defects such as raceway groove.One section electro-magnetic braking device of full width by a closure around the magnetic core around the crystallizer and a pair ofly be wound with stripe shape magnetic pole magnet exciting coil, that be covered in the whole width of crystallizer and formed, magnetic pole is arranged in the bottom of submersed nozzle, is characterized in that the size of magnetic core and magnetic pole and weight are all bigger.This electro-magnetic braking device can flow to the molten metal of whole width in the crystallizer and brake, and suppresses the impact depth that the mouth of a river goes out to flow molten metal effectively.But the backflow that it easily causes molten metal to make progress when particularly going out to flow angle at the distance at the position of magnetic pole and the mouth of a river and the mouth of a river and not matching, easily causes the fluctuation on crystallizer inner metal liquid surface, the volume slag in aggravation crystallizer leptoprosopy zone.One section electro-magnetic braking device of full width is mainly used in the bar strip continuous casting casting at present, because the sheet blank continuous casting pulling rate is higher, the molten metal surface wave aggravation in crystallizer leptoprosopy zone influences braking effect, easily causes surface volume slag phenomenon.And, for the casting of sheet slab continuous casting steel machine, because the strand width is bigger, the corresponding increase of the magnetic core of electromagnetic brake, coil and magnetic pole, the volume of device is bigger.Two sections electro-magnetic braking devices of full width are made up of two pairs of stripe shape magnetic poles that are covered in the whole width of crystallizer, and a magnetic pole is positioned at the bottom of submersed nozzle, and another is positioned at crystallizer molten metal surf zone, produce the opposite steady magnetic field of magnetic flux.In wide one side of crystallizer, two full width magnetic poles link to each other up and down, constitute semi-enclosed magnetic core loop.This electro-magnetic braking device can reduce the crystallizer inner nozzle simultaneously and go out to flow the impact depth of molten metal and flowing of molten metal surface, has braking effect preferably.This device is mainly used in the sheet slab continuous casting, suppresses the molten steel flow velocity on molten metal surface and the downward flow velocity of the interior sinking thigh of crystallizer.Owing to applied two magnetic fields, flow controlled and reverse flow that cause is suppressed by the bottom, have more effective and reasonable molten steel flow regime than the electromagnetic braking of one section wall scroll shape of full width.But this electro-magnetic braking device is owing to increased by one section magnetic pole and coil, and the volume and weight of device is bigger.

The utility model content

At above existing electro-magnetic braking device characteristics, particularly sheet blank continuous casting is with full width one section electro-magnetic braking device, the molten metal surface wave that can not effectively suppress crystallizer leptoprosopy near zone, easily cause surface volume slag phenomenon, and two sections bigger characteristics of electro-magnetic braking device volume and weight of sheet slab continuous casting full width, the utility model provides a kind of electro-magnetic braking device that the continuous cast crystallizer inner metal liquid flows of controlling.

Go out to flow main influence area that molten metal flows based on the mouth of a river and be positioned at these characteristics of crystallizer leptoprosopy shock zone that near the crystallizer leptoprosopy molten metal surf zone and the mouth of a river go out stream, the utility model is by being partial to magnetic pole crystallizer leptoprosopy area arrangements, cover the shock zone that near the crystallizer leptoprosopy molten metal surf zone and the mouth of a river go out stream simultaneously with a pair of magnetic pole, and two pairs of relative magnetic poles of wide both sides of crystallizer link together by the magnetic core that semi-ring is around in the crystallizer leptoprosopy.The technical scheme that adopts is as follows:

Electro-magnetic braking device of the present utility model is made up of magnetic core, magnet exciting coil and magnetic pole that two semi-rings are around in the crystallizer sidewall.Magnetic pole is arranged in the leptoprosopy near zone of deflection crystallizer.On short transverse, the magnetic pole top is positioned at from the crystallizer molten steel surface upwards 50mm, to the scope of downward 800mm; Magnetic pole is positioned at the scope from the inside 60mm to 400mm of crystallizer sidewall on width, makes magnetic pole in height cover the shock point zone that near the crystallizer leptoprosopy molten metal surf zone and the mouth of a river go out stream simultaneously.By magnet exciting coil is applied electric current, between two pairs of magnetic poles, produce magnetostatic field.By the magnetostatic field that produces between this a pair of magnetic pole, near the surface of the crystallization control device inner metal liquid molten metal crystallizer leptoprosopy is mobile simultaneously goes out to flow flowing of shock point zone with the mouth of a river.

The magnet exciting coil of electro-magnetic braking device can adopt two kinds of arrangements: a kind of mode is two groups of magnet exciting coils centre of being arranged in magnetic core respectively, leptoprosopy one side that is positioned at crystallizer.Another kind of mode is the pole regions that four groups of magnet exciting coils are arranged in magnetic core respectively, lays respectively at wide one side of crystallizer.

Can adopt two kinds of connected modes between the magnetic core of electro-magnetic braking device and the magnetic pole.A kind of mode is that clearance-type flexibly connects.This mode makes magnetic pole to move horizontally in wide direction of crystallizer, freely adjusts the distance between itself and the mouth of a river, makes crystallizer magnetic pole when carrying out width adjustment still can be arranged near the leptoprosopy of crystallizer.Another kind of mode is whole connected mode, be that magnetic core and magnetic pole are as a whole, this mode moves by the integral level in wide direction of crystallizer, adjusts the distance between itself and the mouth of a river, makes crystallizer magnetic pole when carrying out width adjustment still can be arranged near the leptoprosopy of crystallizer.

The magnet exciting coil of electro-magnetic braking device can adopt water-cooled copper coil or superconductor coil, when adopting the water-cooled copper coil, can produce the magnetostatic field that magnetic induction intensity is 0.1T～1.2T; When adopting the superconductor coil, can produce the magnetostatic field that magnetic induction intensity is 0.1T～5.0T.

Electro-magnetic braking device of the present utility model, cover the shock zone that near the crystallizer leptoprosopy molten metal surf zone and the mouth of a river go out stream simultaneously by a pair of magnetic pole, overcome the molten metal surface wave that full width one section electro-magnetic braking device can not effectively suppress crystallizer leptoprosopy zone, easily cause the drawback of surface volume slag, also weakened simultaneously the mouth of a river immersion depth and the mouth of a river influence degree to the electromagnetic braking effect when going out to flow angle and changing, can suppress the molten metal surface volume slag of crystallizer leptoprosopy and the impact depth that the mouth of a river goes out to flow molten metal simultaneously effectively, promote metal freezing shell forward position field trash, the come-up and the removal of out-phase materials such as bubble.Owing to adopt two semiorbicular magnet structures, form is simple, structural volume is little simultaneously, and volume and weight alleviates significantly than one section of full width and two sections electro-magnetic braking devices of full width, can save energy and reduce the cost.

Description of drawings:

Fig. 1 is the structural representation of the utility model electro-magnetic braking device, and wherein magnet exciting coil is arranged in the centre of magnetic core respectively, is positioned at leptoprosopy one side of crystallizer;

The structural representation that Fig. 2 arranges for the another kind of mode of the magnet exciting coil of the utility model electro-magnetic braking device, promptly four groups of magnet exciting coils are arranged in the pole regions of magnetic core respectively, lay respectively at wide one side of crystallizer.Wherein magnetic pole is that monoblock type is connected with the magnetic core connected mode;

Fig. 3 is connected another kind of mode schematic diagram for the magnetic pole of the utility model electro-magnetic braking device with magnetic core, promptly magnetic pole and magnetic core connected mode are that clearance-type flexibly connects;

The implementation result schematic diagram of Fig. 4 the utility model electro-magnetic braking device;

Among the figure: 1 crystallizer, 2 magnetic cores, 3 magnet exciting coils, near molten metal 4 magnetic poles, 5 crystallizer leptoprosopy, 6 mouths of a river.

The specific embodiment

Example 1:

As shown in Figure 1, electro-magnetic braking device of the present utility model is made up of magnetic core 2, magnet exciting coil 3 and magnetic pole 4 that semi-ring is around in crystallizer 1 sidewall, magnetic pole 4 is arranged in the leptoprosopy zone of deflection crystallizer 1, magnetic pole 4 in height covers the shock point zone that near crystallizer 1 leptoprosopy molten metal 5 surf zones and the mouth of a river 6 go out stream simultaneously, by magnet exciting coil 3 is applied electric current, between two pairs of magnetic poles 4, produce magnetostatic field, two groups of magnet exciting coils 3 of this embodiment are arranged in the centre of magnetic core 2 respectively, are positioned at leptoprosopy one side of crystallizer.

For sectional dimension 1400 * 230mm, mouth of a river immersion depth 150mm, the crystallizer of side opening inclination angle-15, mouth of a river degree is placed in this electromagnetic brake magnetic pole near the continuous cast mold leptoprosopy.On short transverse, the magnetic pole top is positioned at from the crystallizer molten steel surface upwards 50mm, to the scope of downward 300mm; Magnetic pole is positioned at the scope from the inside 150mm of crystallizer sidewall on width.Be that magnetic pole section is of a size of 150 * 300mm, make magnetic pole cover the shock point zone that near the crystallizer leptoprosopy molten metal surf zone and the mouth of a river go out stream simultaneously.Be connected for whole between magnetic core and magnetic pole.When magnet exciting coil adopts the water-cooled copper coil, after applying electric current and producing the 0.3T magnetostatic field, be the continuous-casting conditions of 2.0m/min for casting speed, can significantly reduce the flow velocity of molten steel surf zone and the flow velocity that the mouth of a river goes out to flow shock zone, as shown in Figure 4.

Example 2:

By magnetic pole, magnetic core and the magnet exciting coil arrangement of electromagnetic brake shown in Figure 3, the connected mode that magnetic pole is connected with magnetic core.For sectional dimension 1400 * 230mm, mouth of a river immersion depth 150mm, the crystallizer of side opening inclination angle-15, mouth of a river degree is placed in the electromagnetic brake magnetic pole near the continuous cast mold leptoprosopy.On short transverse, the magnetic pole top is positioned at from the crystallizer molten steel surface upwards 50mm, to the scope of downward 500mm; Magnetic pole is positioned at the scope from the inside 180mm of crystallizer sidewall on width.Be that magnetic pole section is of a size of 180 * 500mm, make magnetic pole cover the shock point zone that near the crystallizer leptoprosopy molten metal surf zone and the mouth of a river go out stream simultaneously.The crystallizer leptoprosopy is adjusted width in casting process, when the width of strand is reduced to 1100mm by 1400mm, the magnetic pole of electromagnetic brake can move 150mm to the crystallizer center, and still near near the surface of the molten steel the crystallization control device leptoprosopy and the mouth of a river molten steel that goes out to flow the shock point is mobile to make magnetic pole.When magnet exciting coil adopts the superconductor coil, after applying electric current and producing the 1.5T magnetostatic field, be the continuous-casting conditions of 5.0m/min for casting speed, also can significantly reduce the flow velocity of molten steel surf zone and the flow velocity that the mouth of a river goes out to flow shock zone.

Example 3:

The structure of device is with example 1, and difference is for sectional dimension 1400 * 230mm, mouth of a river immersion depth 150mm, and the crystallizer of side opening inclination angle-15, mouth of a river degree is placed in this electromagnetic brake magnetic pole near the continuous cast mold leptoprosopy.On short transverse, the magnetic pole top is positioned at from the crystallizer molten steel surface upwards 50mm, to the scope of downward 800mm; Magnetic pole is positioned at the scope from the inside 400mm of crystallizer sidewall on width.Be that magnetic pole section is of a size of 400 * 800mm, make magnetic pole cover the shock point zone that near the crystallizer leptoprosopy molten metal surf zone and the mouth of a river go out stream simultaneously.Be connected for whole between magnetic core and magnetic pole.

Claims (4)

1, a kind of mobile electro-magnetic braking device of continuous cast crystallizer inner metal liquid of controlling, it is characterized in that this device is around in the magnetic core of crystallizer sidewall by semi-ring, magnet exciting coil and magnetic pole are formed, magnetic pole is arranged in the leptoprosopy zone of deflection crystallizer, magnetic pole in height covers the shock point zone that near the crystallizer leptoprosopy molten metal surf zone and the mouth of a river go out stream simultaneously, by magnet exciting coil is applied electric current, between two pairs of magnetic poles, produce magnetostatic field, go out to flow flowing of shock point zone with the mouth of a river by near the surface of this magnetostatic field while crystallization control device inner metal liquid molten metal crystallizer leptoprosopy is mobile.

2, the mobile electro-magnetic braking device of control continuous cast crystallizer inner metal liquid as claimed in claim 1, it is characterized in that described magnet exciting coil be arranged as two groups of magnet exciting coils be arranged in respectively magnetic core the centre, be positioned at leptoprosopy one side of crystallizer, or be the pole regions that four groups of magnet exciting coils are arranged in magnetic core respectively, lay respectively at wide one side of crystallizer.

3, the mobile electro-magnetic braking device of control continuous cast crystallizer inner metal liquid as claimed in claim 1, the clearance-type that is connected to that it is characterized in that described magnetic core and magnetic pole flexibly connects, and magnetic pole moves in magnetic core, regulates position of magnetic pole, or be whole the connection, magnetic core and magnetic pole are as a whole.

4, the mobile electro-magnetic braking device of control continuous cast crystallizer inner metal liquid as claimed in claim 1, it is characterized in that described magnet exciting coil is the water-cooled copper coil, producing magnetic induction intensity is the magnetostatic field of 0.1T～1.2T, or be the superconductor coil, producing magnetic induction intensity is the magnetostatic field of 0.1T～5.0T.

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