EP0178281B1 - Cooling apparatus for moving metallic products - Google Patents

Abstract

The device comprises a wall arranged opposite a plane surface of the product to be cooled and substantially parallel thereto, so as to form between this plane surface and the wall a space of substantially constant thickness; this wall is pierced with at least one orifice which opens into the said space and ensures the passage of an aqueous liquid. The device also comprises means for adjusting the flowrate of the aqueous liquid and the distance between the wall and the plane surface of the product to be cooled. The invention also relates to an installation comprising a plurality of these devices, particularly in the form of boxes having a perforated wall facing the product to be cooled. <IMAGE>

Description

The present invention relates to an installation for cooling a moving metal product.

It applies to the cooling of any metallic product, in scrolling movement, having at least one flat surface. This is the case, for example, of rolled products, such as sheets, in particular heavy and medium sheets, thin strips, profiles as well as continuous casting products, such as slabs and billets.

The problem of cooling these products has been the subject of special attention for a long time, since it primarily conditions either the regularity of the structure of the product, or the regular evolution of this structure over time.

Various devices are currently known for ensuring this cooling by spraying jets of a cooling agent such as air, water, steam, in isolation, as a mixture or in spray form.

In particular, the present applicant has already proposed, in his Belgian patent No. 851.381, a device intended to ensure the cooling of a product of this type, by spraying water sprayed with air, in the form of jets directed towards the surface of the product.

This known device however has certain drawbacks that are all the more marked the greater the width of the product to be cooled.

It has in fact a relatively complicated structure, comprising inner boxes to one another, the production and maintenance of which prove to be delicate, in particular for large product widths. In addition, it requires a very high consumption of compressed spraying air. Finally, maintaining a homogeneous distribution of air and water flow rates requires the use of special devices which increase the cost of the installation.

The present invention relates to an installation making it possible to eliminate these drawbacks.

A device for cooling, by means of an aqueous liquid, a metallic product having at least one flat surface, said metallic product moving along a predetermined trajectory, comprises a wall disposed opposite said flat surface of the product to be cooled and in a substantially parallel to the latter, so as to form between said flat surface and said wall, a space of substantially constant thickness. The wall is pierced with at least one orifice which on the one hand opens into said space while ensuring the passage of the aforementioned aqueous liquid through said wall, and which on the other hand is connected to a source of said aqueous liquid. This device comprises means for adjusting the flow rate of the aqueous liquid and the distance between said wall and the flat surface of the product to be cooled.

A device of this type is known from patent FR-A-2 223 096.

The orifices can in particular be staggered, at least in the part of the wall which faces the flat surface of the product to be cooled.

It has also proved advantageous to fill said orifices with a material resistant to corrosion by said aqueous liquid. In this regard, the orifices are advantageously lined with rings, for example brass or stainless steel, the internal diameter of which has the desired value.

The wall pierced with orifices preferably constitutes one face, called the front face, of a distribution box for the aqueous liquid on the flat surface of the product to be cooled.

The holes drilled in the front face of said box are then advantageously provided with tubular end pieces extending inside the box. It is preferable that the length of these tubular end pieces is preferably not less than five times their internal diameter.

Furthermore, these tubular tips are preferably made of a material resistant to corrosion by the aqueous liquid, preferably brass or stainless steel.

The presence of these tubular end pieces makes it possible to prevent the orifices from being blocked by materials possibly depositing at the bottom of the box when it is a box whose water escapes through the bottom wall, and to improve the homogeneity of the distribution of the aqueous liquid to the said orifices.

The use of a corrosion-resistant material for making the aforementioned rings and tubular end pieces avoids the degradation of the orifices and ensures them an invariable section.

The present invention relates to an installation for cooling a metallic product, applying the device which has just been described.

The cooling installation which is the subject of the present invention comprises several devices conforming to those which have been described above, arranged opposite at least one surface, but preferably opposite all the flat surfaces of the says product. In this installation, it is advantageous for the walls pierced with orifices belonging to the said devices located opposite the same flat surface of the said product to be arranged in the same plane and for the said walls to follow one another in the direction of travel of the product.

• (a) un premier ensemble, dit ensemble inférieur, qui comprend des caissons disposés sous le produit, entre les rouleaux dudit convoyeur, de telle façon que leur face avant soit située en retrait par rapport au plan de contact entre le produit et les rouleaux du convoyeur, la face avant desdits caissons étant percée d'orifices, et des moyens d'alimentation des caissons dudit ensemble inférieur en liquide aqueux de refroidissement, et
• (b) un second ensemble, dit ensemble supérieur, qui comprend des caissons disposés au-dessus du produit, sensiblement en face des caissons dudit ensemble inférieur, la face avant desdits caissons étant percée d'orifices, et des moyens d'alimentation des caissons dudit ensemble supérieur en liquide aqueux de refroidissement, est caractérisée en ce que:
• (c) ledit ensemble inférieur est fixe;
• (d) ledit ensemble supérieur est mobile en direction verticale;
• (e) il est prévu, entre les caissons dudit ensemble supérieur, des entretoises présentant une section rectangulaire dont la largeur est égale à la distance séparant deux caissons voisins et dont la hauteur est supérieure à la hauteur desdits caissons, ces entretoises étant solidarisées avec les caissons adjacents de telle façon que leur face inférieure soit située au même niveau que la face avant des caissons dudit ensemble supérieur;
• (f) elle comporte des longerons auxquels est suspendue la structure constituée par lesdites entretoises et les caissons dudit ensemble supérieur;
• (g) il est prévu des goussets transversaux supportant lesdits longerons;
• (h) elle comporte des moyens de réglage de la position verticale dudit ensemble supérieur mobile par rapport audit ensemble inférieur fixe, qui comprennent un moteur solidaire de l'ensemble supérieur mobile et monté au-dessus desdites entretoises, des vérins disposés aux extrémités des goussets transversaux précités et prenant appui sur la fondation de l'installation, et un mécanisme de distribution monté sur ledit ensemble supérieur mobile et assurant la commande desdits vérins par le moteur précité; et
• (i) il est prévu des moyens d'évacuation du liquide aqueux débité par les caissons desdits ensembles infériuer et supérieur.

In accordance with the invention, an installation for cooling a metal product having a planar, substantially horizontal lower surface and upper surface, in particular a sheet metal, which moves on a roller conveyor, said installation comprising:

• (a) a first assembly, called lower assembly, which comprises boxes placed under the product, between the rollers of said conveyor, so that their front face is set back relative to the contact plane between the product and the rollers of the conveyor, the front face of said boxes being pierced with orifices, and means for feeding the boxes of said lower assembly laughing in aqueous coolant, and
• (b) a second assembly, called the upper assembly, which comprises boxes placed above the product, substantially opposite the boxes of said lower set, the front face of said boxes being pierced with orifices, and means for supplying the boxes of said upper assembly in aqueous cooling liquid, is characterized in that:
• (c) said lower assembly is fixed;
• (d) said upper assembly is movable in the vertical direction;
• (e) there are provided, between the boxes of said upper assembly, spacers having a rectangular section whose width is equal to the distance separating two neighboring boxes and whose height is greater than the height of said boxes, these spacers being secured to the adjacent boxes so that their lower face is located at the same level as the front face of the boxes of said upper assembly;
• (f) it comprises longitudinal members to which the structure constituted by said spacers and the boxes of said upper assembly is suspended;
• (g) transverse gussets supporting said beams are provided;
• (h) it comprises means for adjusting the vertical position of said movable upper assembly with respect to said fixed lower assembly, which comprise a motor integral with the movable upper assembly and mounted above said spacers, jacks arranged at the ends of the gussets aforementioned transversal and bearing on the foundation of the installation, and a distribution mechanism mounted on said movable upper assembly and ensuring the control of said cylinders by the aforementioned motor; and
• (i) means are provided for discharging the aqueous liquid delivered by the boxes of said lower and upper assemblies.

As a particular embodiment of such an installation, an installation intended to ensure the cooling of a sheet will be described below, for example at the outlet of a hot rolling mill. This description does not, however, have any limiting character and the installation described here could, without departing from the scope of the present invention, undergo suitable modifications to adapt it to the cooling of other products, for example profiles, insofar as those -ci have at least one flat surface.

• la figure 1 représente schématiquement une vue latérale d'une installation pour refroidir des tôles à la sortie du laminoir;
• la figure 2 montre une vue en perspective de l'ensemble de l'installation; et
• la figure 3 présente une coupe transversale de l'installation, montrant les circuits d'arrivée du liquide aqueux ainsi que les moyens de réglage de la distance entre la paroi percée d'orifices et la surface de la tôle.

For clarity of description, reference will be made to the appended figures, in which:

• Figure 1 schematically shows a side view of an installation for cooling sheets at the outlet of the rolling mill;
• Figure 2 shows a perspective view of the entire installation; and
• FIG. 3 presents a cross section of the installation, showing the circuits for the arrival of the aqueous liquid as well as the means for adjusting the distance between the wall pierced with orifices and the surface of the sheet.

Figure 1 shows a sheet 1 which, at its exit from the rolling mill 2, moves on a roller conveyor 3 in the direction of arrow 4. This sheet passes through a cooling installation according to the invention, comprising on the one hand lower boxes 5 arranged between the rollers 3 of the conveyor, and on the other hand upper boxes 6 arranged substantially above the lower boxes 5. These lower and upper boxes are supplied with aqueous liquid respectively by the inlet pipes 7 and 8. Between the upper boxes 6 are placed spacers 9 whose lower face is located in the plane containing the walls pierced with orifices of said upper boxes. These spacers ensure on the one hand, the continuity of the surface facing the product and therefore the consistency of the thickness of the space 10 supplied with aqueous liquid and on the other hand, the maintenance of the spacing chosen between neighboring caissons. They also make it possible to eliminate any risk of catching of the sheet by the upper boxes. The aqueous liquid delivered by lines 7 and 8 is discharged to a collector (not shown), after having cooled the sheet 1 in space 10.

This installation is illustrated more precisely in FIG. 2, which shows in particular a sheet 1 entering the cooling installation. The sheet 1 moves on the rollers 3, between which the lower boxes are disposed 5. These are positioned so that their front face is located at a distance between 10 mm and 100 mm below the contact plane between sheet metal and rollers. These distances make it possible to avoid any risk of catching of the sheet by the lower boxes, while ensuring satisfactory cooling efficiency. The boxes 5 are individually supplied with aqueous liquid from the pipe 7; each individual connection 11 is provided with a valve 12 making it possible to isolate the corresponding lower box. The upper face of the boxes 5 is pierced with orifices 13, the diameter of which is between 0.5 mm and 10 mm, and preferably between 1 and 5 mm. The number of these orifices is at least 100 per square meter, for the orifices with the largest diameter; it increases when the diameter decreases, so as to maintain the passage section, and consequently the desired flow rate of aqueous liquid. The front face of the lower boxes is, again according to the invention, provided with teeth 23 projecting substantially horizontal, preferably upstream, to guide the sheet while allowing the flow of part of the aqueous liquid. .

Opposite the lower boxes 5 are upper boxes 6 whose front face, that is to say the face facing the sheet 1, is also pierced with orifices similar to the orifices 13. It is not imperative, for the present invention, that each upper box 6 is located strictly opposite a lower box 5; the spacing between the upper boxes can be different from the spacing between the lower boxes, without departing from the scope of the present invention. The upper boxes 6 are supplied with aqueous liquid from a pipe 8; each connection 14 is subdivided into two individual conduits 15 and 16, each supplying a box and provided with valves 17 making it possible to isolate the corresponding upper box.

The supply circuit of the boxes, both lower and upper, will be explained in more detail in FIG. 3.

As indicated in Figure 1, the intervals between the upper boxes 6 are occupied by spacers 9. These spacers 9 are appropriately secured to the boxes 6, and their height is greater than that of these boxes 6 As the front faces of the spacers 9 and the boxes 6 must be located in the same plane, for the reasons indicated above, the rear face of the spacers 9 is projecting from the boxes 6. By this rear face, the spacers 9 are rigidly fixed, preferably by welding, to beams 18 which are in turn supported by transverse gussets 19. The ends of these gussets 19 are supported by jacks 20 on bases 21 integral with the foundation of the 'installation. These jacks 20 make it possible to vertically move the rigid assembly formed by the gussets 19, the side members 18, the spacers 9 and the upper boxes 6, so as to vary, as necessary, the distance between the front face of the boxes 6 and the upper surface of the sheet 1. The jacks 20 are driven, by means of a distribution known per se, by means of a motor 22 mounted, according to the invention, behind the spacers 9 and preferably in the longitudinal median plane of the set of spacers - upper boxes. The motor 22 is thus protected against the vapors which inevitably emerge from the cooling space.

According to the invention, the spacers 9 and the side members 18 are hollow and closed at their ends, and they communicate with each other at their crossing points; they thus form a circuit, traversed by a cooling liquid, preferably water, so as to avoid any deformation by heating in the event of blockage of a hot product inside the installation. This coolant advantageously comes from the cooling circuit of the rolls of the rolling mill located upstream, so that its supply is independent of the supply circuit of the boxes and is therefore not disturbed in the event of reduction or interruption - voluntary or accidental-of the supply of the boxes 5, 6.

The entire installation is surrounded by a partition 24, preferably vertical, which prevents any untimely lateral flow of the aqueous coolant. This partition obviously has inlet and outlet openings for the sheet in the installation. Still according to the invention, these openings are capable of means to prevent the aqueous liquid from flowing through these openings. These means are advantageously constituted by devices for spraying aqueous liquid in the transverse direction which discharge the aqueous liquid into the space between the partitions and, from there, towards the collector.

Finally, the entry opening formed in said vertical partition is equipped, according to the invention, with means for guiding the sheet coming from the rolling mill and having to enter the installation. These means are advantageously constituted by a guide or deflector, which can itself be made of sheet metal, forming a funnel in front of said inlet opening.

FIG. 3 illustrates the circuits for supplying aqueous liquid to the lower and upper boxes, as well as the device with jacks ensuring the height positioning of the upper boxes.

To ensure a symmetrical and balanced supply of the lower box 5, the connection 11 connected to one end of the box, is, according to the invention, equipped with a bypass 25 which transfers half of the flow of aqueous liquid to the other end of the said box.

The supply of the upper boxes is carried out according to the same principle. Each conduit 15 is connected to one end of a box 6 and it is equipped with a bypass 26 which transfers half of the flow of aqueous liquid to the other end of said box.

It would not, however, depart from the scope of the present invention to provide additional diversions transferring a corresponding part of the flow of aqueous liquid to other points of the wells, both lower and upper.

It should also be emphasized that the connection 14 comprises, in accordance with the invention, means making it possible to ensure, without loss of tightness, the mobility of the assembly comprising the upper boxes relative to the supply line 8.

These means advantageously consist of a device 27 in which the connection consists in fact of a first part 14 and a second part 14 'whose diameter is slightly less than that of the first part 14. The end of the part 14 ′ is engaged and can slide in the part 14, in response to variations in the height position of the upper boxes 6, and the seal between the two parts is ensured by an elastic membrane controlled by pressure of a gas.

According to a method already indicated above, the orifices 13 of the upper boxes 6 are advantageously provided with tubular end pieces 28 extending inside the boxes.

These tubular tips facilitate the protection of the boxes 6 against deformation by heating in the relatively frequent case where the installation is crossed by a sheet which must not be cooled by this means.

According to an additional feature of the invention, the upper boxes 6 are in fact power of an evacuation orifice 29 situated at a level lower than that of the head of the tulip tips 28. If necessary, it is thus possible to establish and maintain a slight flow of aqueous liquid ensuring the cooling of the boxes 6 without this liquid flows undesirably onto the sheet.

In the same case, the protection of the lower boxes 5 is ensured by maintaining a flow rate of aqueous liquid sufficient for it to flow through the orifices 13, but insufficient for it to reach the underside of the sheet not to be cooled. .

In all cases, the aqueous liquid delivered by the orifices 13 of the upper and lower boxes is collected by the collector 30 then, after filtering and cooling by devices not shown, it is returned to the pipes 7 and 8. A make-up of aqueous liquid can, on this occasion, be added to compensate for losses, in particular by spraying.

FIG. 3 also shows the mechanization system of the mobile upper assembly, consisting of the motor 22 and the jacks 20 to which the movement is transmitted by a distribution of known type. In normal service, the stroke of these cylinders is such that the thickness of the space 10 can vary from 5 mm to 300 mm, and preferably between 30 mm and 300 mm in the case of sheets, in order to avoid any risk. attachment while maintaining a satisfactory cooling efficiency. However, it has been found advantageous to be able to increase this distance up to 500 mm, in order to facilitate interventions in the event of a product jamming.

Finally, it shows that the bases 21 are provided with pivots 31, which correspond to sleeves 32 fixed on the gussets 19, intended to guide the movable upper assembly when it is put in place in the installation.

Claims (10)

1. Installation for the cooling of a metal product (1) having a lower surface and an upper surface which are plane and substantially horizontal, especially a metal sheet, which moves on a roller conveyor (3), the said installation comprising:

(a) a first assembly, called a lower assembly, which comprises boxes (5) arranged under the product between the rollers of the said conveyor, in such a way that their front face is set back relative to the contact plane between the product and the rollers of the conveyor, the front face of the said boxes (5) being pierced with orifices (13), and means (7) for supplying the boxes of the said lower assembly with aqueous cooling fluid, and

(b) a second assembly, called an upper assembly, which comprises boxes (6) arranged above the product substantially opposite the boxes (5) of the said lower assembly, the front face of the said boxes (6) being pierced with orifices (13), and means (8) for supplying the boxes of the said upper assembly with aqueous cooling fluid, characterized in that:

(c) the said lower assembly is stationary;

(d) the said upper assembly is movable in the vertical direction;

(e) between the boxes of the said upper assembly there are provided spacers (9) having a rectangular cross-section, the width of which is equal to the distance separating two adjacent boxes (6) and the height of which is greater than the height of the said boxes (6), these spacers (9) being fixed to the adjacent boxes (6) in such a way that their lower face is located at the same level as the front face of the boxes of the said upper assembly;

(f) it has longitudinal members (18), on which is suspended the structure consisting of the said spacers (9) and the boxes (6) of the said upper assembly;

(g) there are provided transverse gussets (19) supporting the said longitudinal members (18);

(h) it has means for adjusting the vertical position of the said movable upper assembly in relation to the said stationary lower assembly, which comprise a motor (22) fixed to the movable upper assembly and mounted above the said spacers (9), jacks (20) arranged at the ends of the abovementioned transverse gussets (19) and bearing on the foundation of the installation, and a distribution mechanism mounted on the said movable upper assembly and ensuring the control of the said jacks (20) by means of the abovementioned motor (22); and

(i) there are provided means for eliminating the aqueous fluid delivered by the boxes (5, 6) of the said lower and upper assemblies.

2. Installation according to Claim 1, in which the said spacers (9) are welded to the longitudinal members (18).

3. Installation according to either one of Claims 1 and 2, characterized in that the abovementioned spacers (9) and longitudinal members (18) are hollow, in that they are closed at their ends, and in that their inner volumes are connected to one another so as to form a circuit through which a cooling fluid, preferably water, passes.

4. Installation according to any one of Claims 1 to 3, characterized in that the front face of the boxes (5) of the said lower assembly is equipped with teeth (23) projecting in a substantially horizontal direction.

5. Installation according to Claim 4, in which the said teeth (23) are oriented in the upstream direction in relation to the direction of movement of the product.

6. Installation according to any one of Claims 1 to 5, characterized in that the front face of the boxes (5) of the said lower assembly is located at a distance of between 10 mm and 100 mm below the contact plane between the product (1) and the rollers (3) of the conveyor.

7. Installation according to any one of Claims 1 to 6, characterized in that the diameter of the said orifices (13) is between 0.5 mm and 10 mm.

8. Installation according to any one of Claims 1 to 7, characterized in that the orifices (13) of the boxes (6) of the said upper assembly are equipped with tubular connectors (28) extending inside the said boxes (6).

9. Installation according to any one of Claims 1 to 8, characterized in that the said means for eliminating the aqueous fluid comprise a partition (24) surrounding at least the said stationary lower assembly.

10. Installation according to Claim 9, characterized in that the said partition (24) is pierced with apertures for the entry of the product (1) into and its exit from the installation, and in that these apertures are equipped with means, for example devices for projecting aqueous fluid in the transverse direction in relation to the direction of movement of the product, to prevent any flow of the said aqueous fluid through the said apertures.

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