EP2291596A1 - Pivot portal for a furnace - Google Patents

Abstract

The invention relates to a device for pivoting the cover and/or electrodes of a melt furnace by means of a cantilever arm (2) that is mounted on a support cylinder (5), wherein the support cylinder (5) is supported in a sliding manner on a support pipe (4) attached to a base (3) by way of an upper and a lower bearing (6, 7), wherein the bearings (6, 7) are formed by means of at least one ring sector-shaped bearing element, the friction surface thereof able to be fed with a lubricant in a pressurized manner.

Description

 Rotary portal for a stove

The invention relates to a device for pivoting the lid and / or electrodes of a furnace by means of a cantilever.

By EP-Al-O 056 224 or EP-Al-O 077 319 a device of this type has become known. This document describes an electric furnace with a furnace lid actuated hoist, which has a rigidly connected to a foundation hollow support pin which surrounds a hollow lifting column peripherally. By means arranged in the support pin lifting device, preferably a double-acting hydraulic cylinder which is articulated on one hand hingedly connected to the lifting column at its upper end face plate and on the other hand with the foundation, the supporting means of a cantilever cantilever carrying lifting column can be raised and lowered , Further, it can be rotated for pivoting the cover structure relative to the support pin. The lifting column is guided by means of an upper and a lower bearing on the support pin. The bearings are designed as annular bearing bushes, preferably as bronze plain bearing bushes and fastened to the lifting column. For proper recording of the cover forces and caused by these forces moments, the two, the lifting column bearing should be as far away from each other. The upper ring bearing is based on the causes caused by the lid suspension moments on the side opposite to the cantilever and the lower ring bearing on the side where the cantilever is located on sliding surfaces on the support column from. The applied compressive forces and thus the stress on the bearing can be reduced by increasing the distance between the bearings. The hollow support column, which is fastened to the foundation below the two bearings, is to be dimensioned with regard to the supporting forces acting above its clamping point via the two bearings.

The object of the invention is to simplify the storage of the cantilever-bearing support cylinder in a device of the aforementioned type and to reduce the stress on the bearing surfaces.

The invention is characterized by the features of claim 1. Advantageous embodiments of the invention can be found in the dependent claims. Since ring-sector-shaped bearing elements are used for the upper and for the lower bearing instead of a ring bearing, which are each arranged symmetrically to the support forces on the support tube, a defined initiation of the supporting forces is formed in the camps with a simplified design of the bearing by easily replaceable bearing elements. The sliding surfaces of these bearing elements, a lubricant is supplied under pressure through at least one bore. This is in the order of 50 to 90% of the pressure caused by the male support force, whereby the friction of the provided on the sliding surfaces with a plastic layer bearing elements can be kept very low.

The clamping of the support tube on the foundation, which may be the platform of a furnace cradle, is not outside as in the prior art, but between the upper and the lower bearing, preferably in the middle between the two, whereby the load on the support tube and thus its diameter or Wall thickness can be reduced.

The erfϊndungsgemäße device can be used instead of known turntables of electric arc furnaces for pivoting an electrode framework.

Preferably, a lifting device is fixed in the support tube, through which the support cylinder can be raised and lowered relative to the support tube. As a result, a lifting and pivoting device is created, which can be used instead of known lifting and pivoting devices in the steelworks sector, for example as a lifting and pivoting device for a cover portal or an electrode portal.

The invention will be explained by an embodiment with reference to seven figures. Show it:

Fig. 1 is a lifting and pivoting device for a carrying a Elektrodentraggerüstenden

Cantilever in perspective, partially cut,

2 shows a substantial part of the lifting and pivoting device of Fig. 1 in a side view,

3 shows the section III-III of Fig. 2,

4 shows the section IV-IV of Fig. 2,

5 shows the section V-V of Fig. 2,

Fig. 6 shows the detail VI of Fig. 3 without bearing elements, and Fig. 7 shows a detail with an inserted bearing element.

1 and 2 in a perspective view and in a side view shown lifting and pivoting device 1 for pivoting electrodes of an electric arc furnace by means of a cantilever 2 includes a fixed to a foundation 3 support tube 4 and a cantilever 2 supporting support cylinder 5, which is guided by means of an upper bearing 6 and a lower bearing 7 on the support tube 4 slidably. In the embodiment, the foundation 3 is the platform of the oven cradle 8 of a tiltable arc furnace. The support for the furnace vessel is designated 9. On the cantilever 2, a support frame 10 is attached, which is in the embodiment, a Elektrodentraggerüst of three juxtaposed support columns 11, 12, 13, in which in known manner lifting columns 14 (there is only one lifting column shown) for electrode support arms 15 are guided by roller bearings 16 ,

In the embodiment, the leadership of the support cylinder 5 on the support tube 4 through the upper bearing 6 directly and indirectly through the lower bearing 7 via the support frame 10, which forms a frictional unit with the cantilever 2 and the support cylinder 5.

For pivoting the cantilever 2, a pivoting device 17 is provided and for raising and lowering the cantilever in the support tube 4 accommodated lifting device 18 through which the support arm 5 fixedly connected to the cantilever 2 can be raised and lowered.

The pivoting device 17 is shown in more detail in Fig. 4, which illustrates the support frame 10 once in the position shown in FIGS. 1 and 2 in solid lines and once in the pivoted by means of the pivoting device 17 to the side position in dashed lines. The pivoting of the support frame 10 and the fixed thereto cantilever 2, which in turn is attached to the support cylinder 5, by means of a pivot lever 19 which is rotatably mounted at one end on a pivot pin 20 and at the other end on a rod 21. The pivot pin 20 is coaxially mounted in the support tube 4 and the rod 21 axially parallel thereto by means of tabs 22 on the support frame 10. For pivoting the pivot lever 19, this is connected via a joint 23 and a double-acting hydraulic cylinder 29 with an abutment 24 attached to the platform 3.

The illustrated in Fig. 1 lifting device 18 for the cantilever 2 is also formed as a hydraulic cylinder 25, which is mounted between a lower pivot bearing 26 and the support tube 4 a top joint bearing 28 fastened to an upper end plate 27 of the support cylinder 5 is clamped in the form of a canopy.

By actuating the lifting device 18, the cantilever 2 can be raised and lowered and by operating the pivoting device 17, the cantilever arm can be pivoted between two positions, which are shown in FIG. 4 for the support frame 10 firmly connected to the cantilever arm.

As already mentioned, in the known lifting and pivoting device, the support cylinder carrying the cantilever arm is called on the support tube, there called the support column, by an upper and a lower one

Slidably guided ring bearing. Because of the cantilever load acting on the cantilever, the upper ring bearing is supported on the opposite side of the cantilever arm on the circumference of the support tube and the lower bearing on the side of the cantilever. In the present invention, the ring bearings are replaced by ring sector bearing members which are mounted on the stressed sides of the bearings, i. the upper bearing 6 opposite to the cantilever 2 and the lower bearing 7 in the direction of the cantilever 2 are arranged on the circumference of the support tube 4. The bearing elements are provided as a plastic bearing with at least one channel through which the sliding surfaces, a lubricant under pressure can be supplied. In addition, the bearing elements are easily replaceable held in brackets.

FIG. 3 shows the section HI-III in the upper bearing plane (bearing 6) and FIG. 5 the section VV in the lower bearing plane (bearing 7). According to FIG. 3, three ring sector-shaped bearing elements 30, 31 are for the upper bearing 6 32 provided on the side opposite to the cantilever 2 and the support frame 10 on the circumference of the support tube 4 and shown in FIG. 5 for the lower bearing three ring sector bearing elements 33, 34, 35 on the same side on the circumference of the support tube as the cantilever. 2 Since the exemplary embodiment is a tiltable furnace (opening cradle 8 in FIG. 1), in addition to the respective three bearing elements 30, 31, 32 and 33, 34, 35 further bearing elements 36, 37 and 38 are provided , 39, which, since they are loaded only when tilting, can be formed more easily and without pressure medium supply. For non-tiltable furnaces, it is sufficient if at least one bearing element of the construction described with reference to FIGS. 6 and 7 is provided at the locations at which the lifting cylinder 5 is supported on the support tube 6 respectively at the location of the acting support force. FIG. 6 shows the detail VI of FIG. 3 without the bearing elements and FIG. 7 a detail with a bearing element. The ring-sector-shaped bearing element 31 shown in FIG. 7 contains a cuboid 40 made of steel, which is fastened to a closure plate 42 by means of a threaded bolt 41 is attached. On the opposite side to the closure plate 42, a bearing plate 43 is mounted, which has a plastic layer as a sliding layer on the side facing the support cylinder 4 side 44. In the bearing plate 43, a bore 45 is provided, through which the sliding surface via a line connected to this line a lubricant, preferably oil, can be supplied under pressure.

Fig. 6 shows the brackets 46 in the support cylinder 5 (upper bearing 6) and on the support frame 10 (lower bearing 7), in the bearing of FIG. 7 are inserted. At the edge of the mounting plate 42 holes 47 are provided for screw connections through which the mounting plates 42 are fastened to the edge of the associated brackets 46.

Claims

claims

1. A device for pivoting the lid and / or electrodes of a furnace by means of a cantilever arm (2), containing a on a foundation (3) fixed support tube (4) and a cantilever (2) bearing

A supporting cylinder (5) which is slidably guided by means of an upper and a lower bearing (6, 7) on the support tube (4), further comprising a pivoting device (17) through which the support cylinder is rotatable relative to the support tube (4), characterized in that the upper bearing (6) is formed by at least one annular sector-shaped bearing element (30, 31, 32) which rests on the circumference of the support tube (4) on the side opposite the cantilever (2), the lower bearing (7). is formed by at least one annular sector-shaped bearing element (33, 34, 35), which is supported on the side of the cantilever (2) on the circumference of the support tube (4), and in that the sliding surfaces (44) of said annular sector-shaped bearing elements (30, 31, 32 and 33, 34, 35), a lubricant can be supplied under pressure.

2. Device according to claim I ₅ characterized in that the foundation (3) is the platform of the oven cradle (8) of a tiltable furnace.

3. Apparatus according to claim 1 or 2, characterized in that the point at which the support tube (4) is fixed to the foundation (3), located between the upper and the lower bearing (6, 7).

4. Device according to one of claims 1 to 3, characterized in that the

Place where the support tube (4) is fixed to the foundation (3), located in the middle between the upper and the lower bearing (6, 7).

5. Device according to one of claims 1 to 4, characterized in that in the support tube (4) a lifting device (18) is fixed, through which the support cylinder (5) relative to the support tube (4) can be raised and lowered.

6. The device according to claim 5, characterized in that the lifting device (18) includes a hydraulic cylinder which is arranged between a support tube (4) fixed lower and a support cylinder mounted on the upper pivot bearing (26, 27).

7. Device according to one of claims 1 to 6, characterized in that the cantilever arm (2) carries a support frame (10).

8. Apparatus according to claim 7, characterized in that the support frame (10) carries at least one electrode of an arc furnace.

9. Device according to one of claims 1 to 8, characterized in that the supporting frame (10) carries a furnace lid.

10. Device according to one of claims 1 to 9, characterized in that on the support tube (4) supporting annular sector-shaped bearing elements (30, 31, 32) at least the upper

Bearing (6) are attached to the support cylinder (5) mounted brackets (46).

1 1. Device according to one of claims 1 to 10, characterized in that on the support tube (4) supporting annular sector-shaped bearing elements (33, 34, 35) of the lower bearing (7) in the support frame (10) mounted brackets (46) are attached.

12. The apparatus of claim 10 or 1 1, characterized in that the annular sector-shaped bearing elements (30, 31, 32 and 33, 34, 35) are secured by releasable connections in their holders (46).

13. Device according to one of claims 1 to 12, characterized in that the upper bearing (6) comprises three annular sector-shaped bearing elements (30, 31, 32), which on the cantilever arm (2) opposite side on the circumference of the support tube ( 4) and that the lower bearing (7) comprises three annular sector-shaped bearing elements (33, 34, 35), which are supported on the side of the cantilever arm (2) on the circumference of the support tube (4).