DE2338376A1 - CONNECTION OF A TILTABLE METALLURGICAL VESSEL WITH A CARRYING BODY - Google Patents

Description

FRIED. KRUPP GESELLSCHAFT LIMITED LIABILITY

in food

Connection of a tiltable metallurgical vessel with a support body

The invention relates to the connection of a tiltable metallurgical vessel, in particular a converter, with a support body arranged at a distance from the vessel, which by means of pivot pins in a Stutζeinrichtung is stored.

A support ring bearing for a metallurgical melting vessel is already known, in which the tiltable one Support ring surrounds the vessel at a distance. As power transmission elements are used in the support ring fastened rods, which in radially running guides above the Engage the support ring located claws and the support ring base plate (German Auslegeschrift 1 433 501). The rods forming the connection between the support ring and the claws are preferably threaded pieces screwed in the upper area of the support ring and nuts on the one below the support ring Claws held.

In another support ring bearing, also known from the cited interpretation, the axial and radially movable connection between the support ring and the claws of the melting vessel through into the support ring

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409886/0831

screw-in rods and the axially immovable and

Radially limited movable connection formed by rods arranged below the support ring, which are attached to the support ring and the claws by means of ball joints.

The radial guides in the claws and in the support ring consist of elongated holes.

From the German Auslegeschrift 1 903 797 a metallurgical vessel is known which is attached to a The end face of the associated support ring is provided with a ring running around the vessel, which supports the vessel wall and the support ring frictionally connects. On the opposite end of the support ring brackets are attached, of which stretchable tension members run to further brackets attached to the vessel wall.

The axes of the tension members, which are arranged in pairs, preferably run obliquely to the tilting plane of the vessel.

Finally, it is in the German interpretative document 1 930 791 describes an attachment for hot vessels, which is centrically spaced from the Support ring by means of flexible tension elements, which are in two mutually perpendicular projection planes run away, are tense. The tension elements connected to the vessel run in the process

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BATH ORIGINAL

oblique cure tilt axis and oblique to the longitudinal axis of the vessel from the vessel to the support ring

The invention is based on the object of creating a connection for tiltable metallurgical vessels, which is also suitable for large converters and has no play and is statically determined. The connection should in addition, be such that the cooling effect of the natural air flow between the outer wall of the vessel and the associated supporting body is fully utilized.

The connection should continue to use the smallest possible number of connection units between the vessel and the support body put as little stress on the support body as possible and be able to to compensate for the different thermal expansions between the two parts to be connected to one another. Despite the consideration of the thermal movements between the vessel and the support body, the disadvantage is said to be Too great elasticity of the tension elements, known converter fastenings can be avoided.

According to the invention, the object is achieved in that in the area of the axis of the pivot pin and the plane defined by the vessel axis, two groups of connection units each consisting of several individual connection points are provided between the vessel and the support body, the one group of connection units-their Individual connection points connect the vessel to the supporting body via hinge points - only the load component of the vessel transmits in the direction of the vessel axis, while the second group of connection units Via contact surfaces next to the axis of the vessel

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A09886 / 0831

vertical load component that exerted by the vessel Transmits tilting moment.

Depending on the tilted position of the vessel, one or the other of the two intended groups is used to transfer the load pulled from the vessel to the support body. The connection units provided with hinge points are mainly effective in the blowing position, i.e. in the actual operating position of the vessel; she lose more and more of their effectiveness with increasing inclination of the vessel about its tilting axis to in the horizontal position of the vessel finally to be almost unencumbered.

In a preferred embodiment of the subject matter of the invention, the components of the first group are the consists of two connecting units opposite each other with respect to the vessel - via a pivot point or Attached to each other via two pivot points.

The one connection unit preferably consists of a cam attached to the support body, which is arranged between two cantilever arms attached to the vessel is; the other connecting unit of the first Group consists of a cam attached to the vessel and a cam attached to the support body, which are interposed a pendulum support are connected to each other.

In an embodiment of the subject matter of the invention, the Components of the second group have three power transmission points, each consisting of two claws which are laterally, i.e. perpendicular to the one through the

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iCipp spigot and vessel axis defined level, one each Supports cams. The claws are preferably attached to the vessel, while the cams are part of the Are supporting body.

Two of the power transmission points - the one above and

lie below the level of the supporting body - and the

Pendulum support connections are preferably arranged on different sides of the vessel.

The second group of connection units takes the The tilting moments exerted by the vessel in general, as well as to an increasing extent with increasing vessel inclination the loads from the vessel on j with the vessel axis in a horizontal position is the maximum of this load share achieved.

When the vessel is in a vertical position, the second group of connection units only has stabilizing units Effect; it only occurs during the acceleration phase of the tilting movement to transfer the acceleration moments in appearance.

The two-point connection of the vessel, which is clear in the blow position, occurs with increasing vessel inclination into a multi-point connection, which always has clearly statically determined individual forces.

In another preferred embodiment of the subject matter of the invention the second group of connection units consists of pre-tensioned ropes or band-like retaining elements, which half of the vessel on the opposite of the first group Wrap around the side of the support body and over its ends

♦ at least

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adjustable G-wind & bolts on the guide bushes of the Support body are attached.

The subject matter of the invention is explained in detail below with reference to two exemplary embodiments shown in the drawing. Show it:

Fig. 1 is a view of a converter looking in the direction on the side surfaces of the tilting pin of the associated support ring,

Fig. 2 the view of the converter with viewing direction on the left-hand pivot pin,

Pig. 3 is a plan view of the converter according to FIG. 2,

4 shows a view of the converter looking towards the right-hand pivot pin (without drive gear)

FIG. 5 shows a view of the converter and the support ring according to FIG. 2 (without connecting units) at a tilt angle of about 30,

6 shows a plan view of the converter with a rope or band-like arrangement above the support ring Retaining elements and

7 shows as a detail a device for guiding the holding elements,

The converter vessel 1 is via two groups of connection units with the designed as a support ring

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Support body 2 connected, held in bearings 4 via pivot pins 3 and shared with the converter vessel 1 is tiltable by means of a gear 5.

The first group of connection units, which when the converter vessel 1 is in a vertical position alone is effective, consists of an articulated connection established by means of a bolt 6 between the vessel 1 and the support ring 2. The bolt is on the one hand in a cam 7 attached to the support ring and on the other hand mounted free of play in two cantilever arms of the vessel arranged to the side of the cam 7.

The first group of connection units still consists of one on the opposite side of the vessel arranged pendulum support connection. The pendulum support 9 is in this case via a bolt 10 with a fork-shaped cam 11 of the support ring 2 articulated without play. The opposite of the support ring The movable end of the pendulum support 9 stands on a bolt 12 with two fastened to the vessel 1 Squat 13 in conjunction.

The articulated fastening of the vessel 1 on the support ring 2 enables the highly heated vessel to expand freely compared to the support ring, which is less heated. The bearing of the bolts 6, 10 and 12 in the cam 7 or in the pendulum support 9 takes place via spherically movable, commercially available spherical bearings, which are not specifically shown are. This causes jamming and the effect of additional moments the fastening points and thus the occurrence of deformations avoided both on the vessel and on the support ring.

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The second group of connection units, to which the task is assigned, the respective overturning moment of the vessel as well as transferring a portion of the vessel load to the support ring, exists in each case from two claws attached to the vessel, which are laterally attached to the associated cams of the support ring rest and slide free of play. On the side of the vessel 1 opposite the drive side are arranged below the support ring 2 claws 14, 15 and above the support ring claws 16, 17, cams 7 and 18 which are attached to the support ring engage in the space between them.

On the drive side claws 19, 20 are attached to the vessel below the support ring, between which the cam 11 is arranged.

In Fig. 5, the forces and moments exerted by the vessel 1 on the support ring 2 at a tilt angle ßC of about 30 ° between the tilt axis 21 and the vessel axis 22 shown.

Here, Q is the vessel load acting at a distance a off-center from the tilting axis 21 and Q ^{1 is} the vessel load acting on the tilting axis.

The force Q * must be transmitted through the connection units from the vessel 1 to the support ring 2, namely 30, so that the component L = Q «cos C is evenly divided. The transmission takes place on one side of the vessel via the cantilever arms 8, the bolt 6 and the cam 7, on the other side

409886/0831 ^ original

Via the cams 13, the bolt 12, the pendulum support ¹ ^ the bolt 10 and the cam 11 from the vessel 1 to the support ring 2.

In Fig. 1 - as a view of the converter in tilted Conceived location - is the contact point between the claws 16, 17 with the cams 18 with A and those Designated with B between the claws 14, 15 with the cam 7. The contact point between the claws 19, 20 with the cam 11 is denoted by ö.

The component N = Q * 'sino £ is - evenly divided over the contact points A and C - transferred from the vessel 1 to the support ring 2. The connecting line 23 between A and C touches the point of application of the force Q ¹ .

The overturning moment Q * a is at the contact points A and B. transferred from vessel 1 to support ring 2.

The arrangement of the bearing of the pivot pin 6 and the pendulum support 9 is expediently chosen so that caused by different thermal expansion Deformations of the vessel relative to the support ring are compensated for so that the least possible change in position of the components mentioned is guaranteed.

By choosing the appropriate fits for the bolts 6, 10 and 12 and the associated mounting holes can be independent of different thermal expansions - a high degree of freedom of play can be achieved.

B ^l ig. 6 nteLLt. another version ;? form the Er ^ e ^ on ^ Lubiu ^ uur, through where Lohe daa Ln PoLge im t -.! t'iichi ^: J (ll Leihet ·

'' ^lJ ' ^{j:] ü B} ' ^{ll ϋ} ' ^j I BAD ORIGINAL

Thermal expansion at the contact points A, B and C occurring play is avoided.

The second group of connection units consists of ropes 24 and 25, which have a soft iron core are provided and at the respective end of a threaded bolt 26, 27 or 28, 29 is attached.

The ropes - which are arranged above and below the support ring 2 - span the cone in a circle. vertergefäß 1, wherein the threaded bolts in corresponding holes attached to the support ring Guide sleeves 30 are performed. The bias of the Ropes can be adjusted by means of nuts 31 resting on the guide bushes.

The ropes can preferably also have a flat cross-section exhibit. In Fig. 7 a device is shown schematically through which the lateral sliding of the ropes should be prevented by the vessel wall. The device consists of trough-shaped grooves 32 and 33, which at the Outer wall of the vessel 1 are welded. The outwardly directed section of the channels roughly corresponds the cross section / Öer in these inserted ropes 24 and

The advantages achieved by the invention are in particular that the thermally highly stressed Zones of the vessel (transition from the cylindrical casing part to the converter hat) are largely not used as connection points used for fasteners. By using spherical! Movable spherical bearings or rope-like ones Connections will be a clear power transmission without ICLemmung between the interconnected SHARING ACHIEVED. The need to edit the

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•H-

Large components of the vessel and the support ring are not required.

Another advantage of the cable-like connection of the converter to the associated support body is there in that the said holding elements have a hoop effect and thus thinner vessel wall thicknesses can be chosen. At the same time, the installation and removal of the vessel from the Support body facilitated.

In addition, the rope connection also enables readjustment of the preload during operation of the converter.

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Claims (6)

Expectations 1 connection of a tiltable metallurgical vessel, in particular converter, with a support body arranged at a distance from the vessel, welioher is mounted in a support device by means of tilting pins, characterized in that that in the area of the plane defined by the axis of the pivot pin (3) and the vessel axis (22) two groups of connection units each consisting of several individual connection points between the Vessel (1) and the support body (2) are provided, the one group of connection units being Individual connection points connect the vessel to the supporting body (2) via hinge points (6, 10, 12) - only the load component of the vessel (1) in The direction of the vessel axis (22) transmits, while the second group of connection units via contact surfaces next to that perpendicular to the vessel axis (22) load component is the overturning moment exerted by the vessel (1) transmits. 2. A compound according to claim 1, characterized in that the components of the first group - from there are two pre-binding units opposite each other in relation to the vessel (1) - via a pivot point (6) or attached to one another via two pivot points (1O, 12) r; ind. 3. A compound according to claim 2, characterized in that the one prebinding unit consists of one on the support body (2) bcfenU.gten cam (7) consists of which between cantilever arms (H) attached to the vessel 409886/0831 - 12 - BATH ORIGINAL is arranged, and the other connection unit consists of one on the vessel (1) and one on the support body (2) attached cams (13 or 11), which with the interposition of a strap support (9) with each other are connected. 4. Compound according to Claims 1 to 3, characterized in that that the components of the second group have three power transmission points (A, Bund 0) form, which each consist of two claws (16, 17j 14, 15-19.20) on which are located laterally, i.e. perpendicular to the axis of the pivot pin and the vessel defined level, each supported by a cam (18 or 7 or 11). 5. A connection according to claim 4, characterized in that two of the power transmission points (A ₁ B) - are above and below the plane of the support body (2) - and the pendulum connection is on different sides of the vessel (1) are arranged. 6. A compound according to one or more of claims to 3, characterized in that the second group made of pre-tensioned rope or band-like retaining elements (24,25), which the vessel (1) on one side (at least on that of the first group Wrap around the opposite side of the support body (2)) and its ends via adjustable threaded bolts (26,27,28,29) to! Clocking sockets (3) of the support body (2) are attached. 0 9886/0831