Apparatus for loading molten metal bath with pipes

专利摘要:
Concave rails 17, upon which a pipe which is to be treated by at least partial immersion can be placed, are fixed in the bottom of a furnace 1 which contains a treatment bath M. In order to guarantee that the pipe is immersed over the whole of its cross section and in order to eliminate the risk of it becoming oval, the furnace is subjected to alternating rotation about its axis XX, which compels the pipe to turn on itself by rolling on the rails 17. The handling of the pipe is achieved by arms 12 which are assembled in a pivoting manner on the external wall of the furance and controlled by an actuator 15.
公开号:SU1097202A3
申请号:SU802953013
申请日:1980-08-01
公开日:1984-06-07
发明作者:Пьеррель Мишель；Мертцвейллер Ги
申请人:Понт-А-Муссон С.А. (Фирма)；
IPC主号:

专利说明:

The invention relates to devices for loading and unloading tubular products during heat treatment of cast iron pipes with spherical or plate graphite and steel pipes, specifically during annealing in metal baths, for example aluminum or aluminum alloys from melts. A known loading mechanism is made in the form of a jack with a rod connected to a lever made in the form of a straight line section and a loop with a cradle Cl 3. The disadvantage of this device is the absence of bath rotation and product rotation at the moment of loading, which leads to a decrease in quality. The closest to the invention to the technical essence is a device for loading pipes into a bath with molten metal in a rotating cylindrical annealing furnace, containing S-shaped levers with an eye and a cradle and transverse rolling directions made on the inner wall of the furnace 2 . A disadvantage of the known device is the complexity of the device and its maintenance. The purpose of the invention is to simplify the device. This goal is achieved by the fact that a device for loading a pipe into a bath with a molten metal in a rotating cylindrical annealing furnace, containing S-shaped levers with an ear and a cradle and transverse rolling rails made on the inner wall of the furnace, S-shaped levers hinged on the inner wall of the furnace near the loading window, while in the extreme upper position, the cradle is located above the loading window, and at the lowermost position, between the rolling rails. The proposed construction hardening of the pipe in the bath throughout its cross section is provided by very simple means without the risk of ovalization, since the pipe is rotated around its axis by rolling inside the furnace. Moreover, the pipe annealing furnace contains external means for gripping and transporting the pipe, which are hinged on the outer wall of the furnace, and when the furnace is rotated, they also move with it and can open out the furnace to introduce the pipe to be processed inside the furnace , laying it on the guide rolls and removing the pipe after processing. FIG. Figure 1 shows schematically a device with a furnace for annealing pipes during the insertion into it of a pipe to be processed, a vertical section; in fig. 2 - furnace for annealing pipes, a partial section; in fig. 3 is a partial view of the means for gripping and transferring the pipe hinged on the outer wall of the furnace for annealing the pipes; FIG. 4-8 are successive phases of loading and processing the pipe inside and outside the furnace with varying rotational movements or oscillations of the furnace for annealing the pipes; in fig. 9 and the two phases of moving the tube in the annealing furnace, equipped with one option of rolling guides, located inside the furnace; in fig. 1113 — Construction options for means for gripping and transferring pipes; in fig. 14 shows the proposed design of a furnace for annealing pipes. The annealing cylindrical furnace 1 has, at the respective ends, two external rolling rings 2, which rest on two rotating rollers 3. The rollers 3 rest on the infrastructure 4, fixed with anchor bolts on the ground. The sheet wall of the furnace, lined inside by refractory masonry 5, has a longitudinal opening 6 for insertion and withdrawal of a pipe 7, which can be closed by a sliding cover 8. Two burners 9, the nozzles of which are directed along the longitudinal axis, are fixed by flanges on the end surfaces of the furnace 1 and give a long flame above the level of the metal bath. Burners 9 can be replaced by any other equivalent heating means, such as inducers. To drive the furnace into rotation, the drive gear 10, whose axis is parallel to the longitudinal axis of the furnace and rests on infrastructure 4, engages with the toothed sector 11 supported on the outer surface of the sheet wall of the annealing furnace, for example, to the middle of the furnace, possibly near the roller crown 2. Toothed sector 11 arcs larger than the maximum rotational amplitude of the furnace, which is calculated to correspond at least to the half rotation of the pipe 7 in the bath 12. This amplitude is, for example, 90 °. The gear 10 is set in motion by transmission by a gear motor 13 fixed in infrastructure 4, for example, on two ditches. It is able to rotate the furnace 1 in two opposite directions of rotation and, in particular, to inform it of alternating rotation, generating angular beats of equal amplitude, on both sides of the vertical plane. To move the tube 7, two levers 14 are used to grip and transfer, identical and parallel hinged each at the end using an axis 15 parallel to the longitudinal axis of the furnace, on a hole or holder 16 attached to the outer surface of the furnace wall near the bottom edge the holes, the levers are rigidly connected while rotating around an axis 15, defined by the hinges by a stiffening element 17, which may be, for example, coaxial with the two axes of the hinge. Each lever has a twisting shape of double curvature or in the form of an elephant trunk, defined on the inner surface of the leverage in a position adjacent to the axis 15 by a deep concave loop 18, and on the extension of the branch 19 opposite to the hinge of this loop, there is a shallow outer concavity forming an endless cradle 20 in which a pipe can be held and which can penetrate into the interior of the furnace through the opening 6 when the levers 14 rotate c in the counterclockwise direction, and the hinges 18 cover a portion of the walls of the furnace adjacent to the lower edge of the opening minute .. 6. It is possible to have three, four levers 14 or more, depending on the length of the portable pipe 7. One of the levers 14 to the right of the axis is rigidly connected to one of the ends of the driving lever 21, short and straight, located on the other side of the axis with respect to the shoulder, the other end of which is hinged at the end of the stem of the jack 2, the casing of which is hinged at the holder or support eye 23 attached to the outer surface of the wall of the furnace 1. To receive the pipes 7 inside the furnace and inside the bath 12 are two transverse rails with a circular surface Chenic -, concentric with the furnace wall, embedded in the refractory lining of the furnace. The rails 24, which are located symmetrically on both sides of the vertical plane, are raised at the ends to form stops for the pipe 7, which runs along the rails 24. The arc of the rails 24 corresponds to the maximum amplitude of rotation of the annealing furnace and depends on the diameter of the pipe that can be processed inside the furnace. For larger diameters, the arc amplitude must be increased to allow the pipe to at least half turn in each direction of rotation of the furnace. For a small-diameter pipe, the amplitude of the rail arc 24 may, on the contrary, be reduced. To allow the cradles 20 loaded with the pipe to step aside above the level of the rails 24 at the end of the back run of the levers 14 so as to LESS the pipe on the rails 24, a recess 25 in the refractory lining between rails 24 for receiving the end zone of the levers 14. With this installation, annealing of a cast-iron pipe 7 with spherical or lamellar graphite or a steel pipe 7 in various phases is scarce. blowing way. Oven 1 stopped. Since its cover is 8 sn, the hole 6 is at the top point. The outer straightline edge 26 of the leg 19 of the arms 14 is in a position in which the end cradles 20 form the stops for the tube 7. The jack 22 sets them fixedly in this position for receiving the tube 7. The furnace t contains a metal bath 12 maintained in a molten state by the burners 9 The level of which is considerably lower than the level of the lower edge of the opening 6, which must be further reduced during the subsequent rotation of the furnace. The tube 7 rolls along the directions and passes along the levers 14 all the way from the cradle 20 to the levers 14, which hold it. The jack 22 overturns the levers 14 so as to bring the pipe 7 closer to the opening 6 of the furnace and introduce it there. To facilitate this introduction, the gear motor 13, 10 is launched so that, simultaneously with the levers 14, the furnace 15 mounted with its rollers 2 on the rollers 3, rotates in one direction. The end of the inner rails 24, adjacent to the lower edge of the hole 6, is reduced in this way. Moreover, the purpose of rotation of the furnace, according to the overturning of the levers 14, is mainly to maintain at each moment the well balanced position of the tube 7 on the lever gas {14, to prevent the tube from rolling down the levers 19 too largely tin over the end of -1 and cradles 20 and abruptly plunge into the annealing furnace. The tube 7 thus approaches the rails 23 along an inclined path. Before the furnace reaches the limit of rotation in the indicated direction and the lower edge of the hole 6 reaches its lowest position, the arms 14 take a more inclined position by rolling, which retains the tube on the balanced support. 7 5 firmly held due to the concave shape of the cradles. The tube 7 begins its immersion into the bath 12. At the end of the angular path of the furnace 1, when the notch 25 is approximately centered with respect to the vertical plane, the levers 14 reach their maximum rolling position around the rail 15, At this moment the cradles 20 are removed above the rails 24 in the outer rail 25 Because the pipe is gently laid on the rails 24 in the equilibrium position, with its axis in a vertical plane. In this example, the pipe 7 is not completely wetted or immersed, as part of its section remains outside the bath 12, but if its diameter were small enough, it would be completely immersed. After laying the pipe 7 on the rails 24, the direction of rotation of the gearbox motor 13 and, consequently, the furnace 1, which rotates together with the levers 14, completely re-emerged in the corresponding direction, changes so that the pipe 7, which remains almost centered in the vertical plane, rolls along the rails 24 and is out of reach of the cradles 20 levers 14. It is thus possible to remove the levers 14 from the furnace, cooperating in a clockwise motion with the power of the jack 22, which saves them from prolonged thermal stresses and allows the cover to close the pipe 8. The heat treatment is carried out at 7, the cover 8 is closed under the action of the alternating rotary movement of the oven, i.e. angular oscillations in two opposite directions, with the levers 14 being located outside the furnace. During each run of a particular direction, the pipe 7 remains practically centered in the vertical plane, rotates around its own axis, rolling on rails 24 in the bath 12, in which it is annealed. At each end of the furnace run, the pipe abuts on the raised end portions of the rails 24 During the oscillations, the tube 7 rolls, gradually submerging into the bath 12 with its entire cross section. If, as in this case, it is not completely immersed in connection with its diameter above the deepest depth of the bath, the circular arc formed e rails 24 are sufficient to allow the tube to make 7, cat to, full turn to wet the entire circular section. Regardless of the diameter of the tube 7, its rolling on the rails 24 eliminates its ovalization. After the end of the annealing time without stopping the oscillatory movements of the furnace, the cover 8 opens to completely release the opening after the moment opposite to the opening 6 of the rail 24 is under the pipe 7, the jack 22 is re-activated so that inside the furnace overturn the levers 14, which are directed along the direction k to the window, with the cradle 20 once again occupying its removable position in the recess 25 under the rails 24 (Fig. 7). At the end of the next oscillation of the furnace, the cradle 20 comes under the pipe 7 and stops the furnace, the position of which in this case is such that the lower edge of the hole 6 is close to the lower point. The levers 14 are raised with a jack 22 along an inclined path and lift the pipe. At the same time, the swinging movement of the levers 14 can be stopped at the moment when the straight edge 26 of the branch 19 of the levers 14, located on the continuation of the lower point, is tilted enough to the tube 7 could roll along this edge and thus reach the discharge point with the help of an effort from the side of the concavity formed by the cradles 20.
The levers 14 may have a shape slightly different from that shown in FIG. 1 and 9, if only they had a loop 18 in order to avoid stopping the furnace and end cradle.
FIG. 11 the lever 14 is bent at obtuse angles instead of having a continuous curvature. The end of the cradle forms an obtuse angle or an expanding Y-shape.
In the embodiment of the lever 14 (Fig. 12), the end cradle is formed by a simple knee of about 90 with a small protrusion relative to the linear branch 19. This form of implementation is suitable for pipes of small diameter.
FIG. The 13th version of the lever 14 includes a reverse end knee.
It is possible to provide several jacks, naturally synchronized, to control the levers 14, the number of which, as mentioned, may be more than two.
According to the embodiment of FIG. 9 and 10, the recess 25 is removed and the rails 24 have a height of convexity of the upper wall 5, which is thicker than the end in the cradle 20 of the arms 14 for gripping and supporting the pipe.
Coordinating, by known means, the simultaneous rotational movements of the furnace 1 and the oscillations of the levers 14 and the inclination of the path, the tube 7 is supported by the cradles 20 of the levers 14 in a stable equilibrium position during its insertion (Fig. 4) and during its withdrawal (Fig. 8) without risk fall out of the levers 14 and fall suddenly into the bath 12. This coordination of two rotational movements allows the pipe 7 to be carefully laid on the rails 24 inside the furnace in a stable, well-balanced position (Fig. 4 and 10).
The presence of the notch 25, located coaxially to the right of one of the ends of the rails 24, ensures that the ends in the cradle of the arms 14 can stack the pipe 7 on the rails 24 and draw it from there. The recess 25 allows you to limit the convexity of the rails 24 over the wall of the refractory masonry 5 and, therefore, take advantage of the large effective volume in the furnace 1.
On the contrary, if ejection 25 is installed and replaced with a greater height of the rails 24, it is easier to perform the wall of the refractory masonry 5, and also the capacity of the furnace 1 decreases (Figures 9 and 10)
Using rails 24 and rotations of the furnace 1 in opposite directions, the tube 7, rolling along the rails 24, rotates around its own axis by 180 ° in two directions, thus making a complete turn, and eliminates ovalization, wetting the entire cross section during rotation, in the case when its diameter is above the depth of the bath. Due to the shape with curvature or several legs of the levers 14 and their hinge fixing on the furnace 1 itself and rotatably installing, each pipe 7 is easily transferred in opposite directions between the loading and unloading ramps and the furnace rails 24 In a stable and balanced position, without danger of slipping or therefore, along the shortest path and with the highest reliability.
The rolling of the levers 14 around the axes 15 resting on the lugs 16 secured in the furnace makes it possible to maintain the levers 14 outside the furnace during the heat treatment and thus reduce their lAaoc and close the furnace root, improving the heat insulation.
According to FIG. 14, it is also possible to separate the external means for gripping and supporting each pipe 7 with the furnace. In this embodiment, the furnace 1 remains rotatable and oscillating and has inside the rail 24 rolling for the pipe 7. Each pipe 7 is simply placed on the rails 24 and taken from these the rails 7 after heat treatment with hooks passing under the lower forming tubes, these hooks with bent ends hanging from a lifting system, for example, symmetrically vertical plane passing through the longitudinal axis of rotation of the furnace 1.
The use of the invention greatly simplifies the loading and unloading of products and provides an increase in the quality of processing by eliminating the curvature of the pipes.
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权利要求:
Claims (1)
[1]
DEVICE FOR DOWNLOADING PIPES INTO A TUB WITH A MELT OF METAL in a rotating cylindrical annealing furnace, containing S-shaped arms with an eye and a cradle and transverse rolling guides made on the inner wall of the furnace, characterized in that, in order to simplify the device, S-shaped levers are hinged fixed on the inner wall of the furnace near the loading window, while in the extreme upper position the cradle

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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FR7919940A|FR2462480B1|1979-08-03|1979-08-03|

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