DE1962502C3 - Device for stabilizing the fluttering of a metal strip moving in its longitudinal direction - Google Patents

Description

ßen ⁸ It follows

The invention relates to a device for stabilizing the flutter of a moving in its longitudinal direction Metal strip, especially when passing through a heat treatment section of an annealing furnace between storage chambers provided on both sides of the metal strip from which the metal strip surfaces facing walls, a stabilizing medium is ejected against the strip surfaces will.

In a continuously operating annealing furnace for the heat treatment of strips or strips this in the furnace several winding trajectories in upward and downward direction and pass through a number of heat treatment zones at different temperatures. That's why they are Ribbons and strips under the influence of heat and because of their tendency to curl strive, to undulate or flutter perpendicular to its surface, thereby creating difficulties in guiding the tape are caused and, moreover, the heat treatment is adversely affected.

A mechanical device has already been used to stabilize the aforementioned flutter.

₃ , and the opposite housing wall. Such a circulation is beneficial for a good heat exchange. However, the desired damping of the fluttering movement of the metal strip is only avoided to a limited extent. For example

.ο will be at the approach of the metal band «to a housing wall the circulation speed of the air flow according to the reduced Increase the distance, but only a very insignificant increase in pressure can take place.

₄ , Another disadvantage of this known device is that no fluttering movements, which occur in the space between two blower units, are dampened, because it is drawn off in the gee part by the converging

neighboring blowers with additional support of those arranged on the opposite side in a gap and on the second outer wall of the details' strip effective blower unit an incipient flat-

to build up the effect. This disadvantage of an inadequate Damping the flutter movement is especially important at high throughput speeds like them occur in modern heat treatment plants.

Based on this prior art, the invention is therefore based on the object of the to remedy the aforementioned disadvantages and to bring an improved device in proposal with the much better and more effective than before

so-called flutter movements can be dampened. This object is achieved according to the invention solved that the storage chambers are located directly next to each other and with respect to the metal strip upper

surfaces arranged opposite one another in a housing and through transverse to the direction of flow of the Metal strip running partition walls are separated from each other that the metal strip surfaces facing walls of the housing in Blaufrichiung of the metal strip eint uninterrupted series of outlet openings for the stabilization medium extending over the entire width of the walls have, and that the outlet openings are formed by segment walls and flow blocks, which together with the wall edge sections running in the direction of movement of the metal strip of the housing the Stabilisierungsmediuin in the direction Steer towards the central axis of the strip.

In the case of the device according to the invention, a self-contained and opposed to the surfaces of the metal strip uniformly directed dynamic pressure is formed over the entire length of the stabilization device, the outlet openings in the outer surfaces facing the metal strip Housing walls are arranged directly next to one another, so that the metal strip on a quasi static pressure front passes. By this compared to the known device in principle different structure of the stabilizing device according to the invention ensures that with a incipient chattering effect of the metal strip is the corrective force, which is due to the back pressure occurs roughly square with the distance between the metal strips, which decreases during fluttering and the housing section increased, so that a flutter is reliably suppressed even in the initial stage will.

According to a preferred embodiment, the individual storage chambers have a different number of outlet openings on.

According to a further preferred embodiment, the angle of deflection of the stabilization medium in relation to the respective metal strip surface is about 30 to 60 °.

The stabilization medium is guided past specially shaped flow blocks which are inserted into the outlet openings, so that a Concentration of the correction force in the form of a surface force on the central area of the metal strip can take place, so that a particularly effective damping even with metal strips of different widths is achieved.

The following description of a preferred embodiment serves to explain the invention in more detail. which is shown in the drawing. In the drawing shows

Fig. 1 is a partially sectioned plan view to the preferred embodiment of an inventive Contraption,

Fig. 2 is an end view in the direction of Arrows H-II in Fig. 1,

F i g. 3 a side view of the part of the device according to FIG. 2,

F i g. 4 shows a section, on an enlarged scale, through the section according to FIG. 3, and

Fig. 5 is an explanatory sketch of a proposed device for experimental purposes.

In the exemplary embodiment shown, storage lugs A, B and C are arranged directly next to one another and opposite one another in a housing 1 with regard to the metal strip surfaces of a metal strip S. The storage chambers A, B and C are separated from each other in the housing 1 by partitions 2 running transversely to the direction of passage of the metal strip S and have the same structure on both sides of the metal strip S , although for the sake of simplicity only the structure on one side is shown in more detail .

An imaginary line S, shows in Fig. 1 the next to the storage chambers A, B, C and parallel to them running trajectory of the strip S, while a

ίο imaginary line S ₁₁ illustrates an abnormal path of movement of the strip S on which it passes close to the housing 1. The housing 1 is provided with converging walls D (FIG. 3). It is divided by partition walls 2 in the three storage chambers A, B and C, each of these Stauk'ammern A, B and C is divided by another, provided in each storage chamber segment walls 3 in small passages, so that a total of FIG. 2, a plurality Openings 4 directed towards the strip surface are created. The storage chambers A, B and C are designed for functional reasons so that the storage chambers A and C has a slightly smaller and the middle storage chamber B a slightly larger width, each of these storage chambers is connected to a pipe 5 (Fig. 3) , over which all storage chambers with a flow medium of the same pressure and the same flow or. Throughput speed are fed.
Flow blocks 6, which delimit the passages for the flow medium on the inside, are inserted into the outlet openings 4. The flow blocks 6 are here completely flowed around on all sides, since they are inserted with the help of carriers 7 (Fig. 4) in the storage chambers that they are from a

3; Free space are enclosed. In addition, they are smaller than the openings 4 formed by the walls D and converge like these. The flow blocks 6 are fastened by screwing a fixed holding piece 8 onto the housing 1, which is welded to the carrier 7, which in turn is welded to the flow block 6. A screw 9 is provided for this screw connection.

The flow medium is ejected from the outlet openings 4, which form the passage around the flow blocks 6, when it is introduced into the storage chambers A, B and C via the pipelines 5 from a flow medium source (not shown) with the same pressure and the same throughput. When the strip 5 moves on the center line indicated in Fig. 1 between the two opposite rows of storage chambers, it is acted upon on both sides by the flow medium flowing out of the opposite storage chambers with the same thrust, so that it moves up and down until it is otherwise influenced. If, however, the stripe, according to the imaginary line S _n , is closer to the

If one of the two rows of storage chambers passes, the flow medium acts more strongly on the side closer to the storage chambers than on the further away, so that it is returned to the center line, where the thrust is equal on both sides. This means that the strip S, when it approaches one of the two rows of storage chambers, through the flow flowing out of their outlet openings 4

medium is pushed back until it is again in the middle is in equilibrium.

When using the device shown in FIG. 5 and proposed for experimental purposes, the flow medium flows if the strip S 'is for any reason pressed close to a storage chamber in which the 5 direction indicated by the arrows F, the thrust acting perpendicular to the strip S '. Since the flow medium flows upwards and downwards at a very high flow rate, there is almost a negative pressure in the center of the opening, so that the strip is pushed even closer to the opening until it can no longer be pushed back and in the worst case with the Edge of the opening comes into contact.

In the device according to the invention, however, the ejected flow medium, as indicated at E in FIG. 4, is blown against the strip at a certain angle so that it does not escape upwards or downwards and reliably impacts the strip, pushing it back. This is mainly due to the fact that the flow medium is ejected via the passage surrounding the disturbance block 6 and a central region E ' as a result of the air flow caused by the flow medium, the strip and the storage chamber or the flow block 6 forms a space in which a static There is pressure, which tries to push back the strip with a greater force when it comes closer. Tests have shown that the angle of inclination of the passage for ejecting the flow medium, which is determined by the converging wall D and the flow block 6, should preferably be between 30 ° and 60 °. It should also be noted that the wall D is divided in the direction transverse to the strip. Therefore, when a part of the strip, as indicated by the imaginary line S ₁₁ in Fig. 1, comes close to the wall D , each outlet opening 4 generates a counter-pressure force corresponding to the distance from the strip, so that the strip is effectively pushed back.

In addition, since the two opposite parts of the housing 1 are subdivided into the various storage chambers A, B and C, this increases from the FIG. 1 stagnation chamber located furthest to the right, the flow medium flowing out when the strip approaches - see line S ₁₁ in FIG. 1 - the force counteracting the strip and es the prevailing in this stowage chamber increases Pressure that acts on the strip without it being able to escape into other storage chambers, so that the thrust acting on the strip through the subdivided Cells is increased. Since the strip also frequently approaches the opposite storage chambers flat over its entire extent, as indicated by the line S in FIG. 1, or approaches it at an angle (see S _n ), the two are opposite one another

O overlying parts of the housing 1 divided into storage compartments in such a way that the middle safety compartment B is slightly larger than the two lateral storage compartments A and C. This also applies if the storage compartments A, B and C are in even smaller storage compartments wenter are divided.

The device according to the invention can also be used successfully in a cooling zone, if the belt-shaped strip in, for example, a continuous furnace, e.g.

ίο Continuous annealing furnace that is heat treated. Since that Flow medium is blown through the openings against the band-shaped strip, the cooling Effect when using a coolant as the flow medium can be further enhanced. The invent

The device according to the invention can thus perform the double task of cooling and preventing a Fiat Meet terns without other spe cial facilities as cooling devices who are provided in the cooling zone the must.

"Flutter" is generally used here to denote cm waves of the belt, e.g. B. corresponding to the lines S, and S _{11 of} FIG. 1 understood. However, the device according to the invention also provides for the purpose of preventing sagging or perforation!

leg of the strip good results. For this reason, the term "flutter" also includes through Bulges, in particular bulges in the longitudinal axis of the strip.

The invention thus provides an improved Voi

direction facing to stabilize the Fiattcms an in se ίΐκ ■ <longitudinally moving strip, said mehrei storage chambers are provided, between which passes eh strips, each of said chambers Siaukam with the surface of the strip:

openings is provided. Every storage chamber, from Ui If a flow medium flows out, a certain static thickening zone, ν, forms next to the strip that the strip has a heat treatment zone dun Ii able to chop without fluttering and thereby you to suffer scratches and damage

Hicmi I sheet drawings

Claims (3)

1 982 Ί> Patent claims: 1. Device for stabilizing the fluttering of a metal strip moving in its longitudinal direction, in particular when passing through a heat treatment section of an annealing furnace between storage chambers provided on both sides of the metal strip, from whose walls facing the metal strip surfaces a stabilizing medium is ejected against the strip surfaces, characterized in, that the storage chambers (A, B, C) are arranged directly next to one another and opposite one another with respect to the metal strip surfaces in a housing (1) and are separated from one another by partition walls (2) running transversely to the direction of passage of the metal strip (S), that the metal strip surfaces facing walls (D) of the housing (1) in the direction of passage of the metal strip have a gapless row of outlet openings (4) extending over the entire width of the walls for the stabilization medium, and that the outlet openings (4) by segments Ntwalls (3) and flow blocks (6) are formed which, together with the wall edge sections of the housing (1) running in the direction of movement of the metal strip (S), direct the stabilization medium towards the center axis of the strip. 2. Apparatus according to claim 1, characterized in that the individual storage chambers (A, B, C) have a different number of outlet openings (4). 3. Apparatus according to claim 1 or claim 2, characterized in that the deflection angle of the stabilization medium in relation to the respective metal strip surface about 30 to 60 °. the are disposed wherein a plurality of roller pairs to different points in the furnace which: ^ keep the tape from both sides or ^{unt RSTU} j j ^{z. en} ^ ^a ^ ^ is here, however, that the tape is touched with the rollers surface damage. It is also a device for cooling or heating a metal strip with an anti-tint Enclosed from outside air known German Auslegeschrift 1275 563), be, the Umwalz- o devices for circulating a gaseous Ξ or ⁸ heating medium are provided within the housing. Oh before the metal band and inlet openings on the in perpendicular to the direction of movement of the tape Sides of the Umwalzvomchtung on both sides Nozzles are arranged. Here one has your metal band facing wall of the Umwalzvornchtung _such a multitude of little lugs to expel from Coolant jets perpendicular to the surface of the metal band. . In these known Umwälzeinnchtungen or. Air is blown through a slot running perpendicularly to the tape width .5 and a series of bores provided on both sides parallel to the slot and approximately perpendicular to the tape outer surface. The a
about both sides