Patent Application
20240226979
The invention relates to a rolling mill, for example such as a cold rolling mill, and more particularly a 20-roll rolling mill, equipped with at least one spray bar, and a device for adjusting the inclination of the spray bar.
The present disclosure lies in the field of such cold rolling mills, and more particularly a rolling mill known to a person skilled in the art by the name “20 High” or 20 “rolls”.
Such a rolling mill, taught by the document U.S. Pat. No. 2,776,586, comprises a stand inside of which rolling rolls are arranged.
The rolling rolls comprise two work rolls defining the roll gap of the strip to be rolled, as well as a set of first intermediate rolls and a set of second intermediate rolls for the support of each work roll (lower and upper).
These rolling rolls are supported by several sets of rollers bearing on the second intermediate rolls, on either side of the plane of the strip to be rolled.
In a rolling mill of the “20 High” type, the first intermediate rolls are two in number, and said second intermediate rolls are three in number (for each work roll, upper or lower). Eight sets of rollers bear on the second intermediate rolls, on either side of the plane of the strip to be rolled.
It is moreover known to lubricate/cool the strip and/or the work rolls by spraying a cooling/lubricating fluid, in the upper part and in the lower part of the strip.
The projection of this fluid is typically ensured by spray bars, illustrated in the drawings of the document U.S. Pat. No. 2,776,586.
These bars extend over the width of the strip to be rolled, in the stand of the rolling mill, at an inter-space between the upper intermediate rolls, on the one hand, and the lower intermediate rolls, on the other hand. These bars are conventionally positioned near the work rolls.
Such rolling mills typically comprise two pairs of bars, the two bars of each pair being disposed respectively below and above the plane of the strip to be rolled. The two pairs of bars are disposed conventionally on either side of the rolling plane passing through the axes of the work rolls.
Each of the bars can be pivotably articulated on the stand, in order to allow the adjustment of the position of the bar with respect to the strip, or with respect to the nearby rolls. This adjustment is carried out by rotation of the bar about its pivot axis, substantially parallel to the plane of the strip and perpendicular to the direction of movement of the strip. For this purpose, each bar has a device for inclining the bar comprising a rotating shaft, mounted free in rotation, at its ends, in bearings rigidly connected to the stand. A hydraulic cylinder, connecting the stand and the shaft, allows to actuate the bar in rotation, then to firmly maintain the bar at the desired position.
The various possible positions of the bars can allow, in particular, to facilitate the removal of the rolls, by moving aside the bar(s) of the roll to be changed. The various position can also allow to facilitate the insertion of the strip between the work rolls. Thus, and for example, the bars of the pair located upstream, according to the direction of insertion of the strip, can be moved closer to one another in order to physically guide the end of the strip to be introduced at the roll gap of the work rolls, and the bars of the other pair can be moved aside in order to facilitate the take-up of the strip, downstream of the work rolls.
According to the observations of the applicant, and as taught by WO2018/060580, the cylinders and hoses of the inclination device are typically positioned with respect to the stand of the rolling mill, on the access window side of the rolling mill, from which the rolls can be extracted, and while the supply of the bar, in particular of a tubular shaft of the bar, can be carried out only on the opposite side and as taught by WO2018/060580. A rotating joint ensures the free rotation of the tubular shaft of the bar with respect to a device for supplying fluid, on the side opposite to the window, in order to allow the control in rotation of the bars around their tubular shaft by the cylinders of the inclination device, arranged on the access window side.
The document WO2016/001541 teaches an arrangement of the devices for inclining the spray bars, in particular of the cylinders and of the hoses associated with the hydraulic control of the cylinders, and according to a spatial arrangement at the maintenance window advantageously leaving, as much as possible, a clearance allowing an extraction of the rolls, advantageously without disassembling the cylinders and hoses of the inclination device.
According to the observations of the applicant, there is always a risk, during the extraction of a roll from the window, of catching on the hoses of the cylinders.
According to the observations of the inventor, in such a prior art, the disassembly of the bar is tedious and time-consuming: in particular it requires previously at least partly uncoupling the inclination device, in particular the cylinder, or even a control lever associated with the cylinder, and in order to free a clearance allowing to extract the bar axially through the maintenance window.
The present disclosure improves the situation.
A rolling mill is proposed, in particular a cold rolling mill, comprising:
According to the present disclosure, said actuator of the device for adjusting the inclination is arranged, on the second side of the stand, namely the side opposite to the first side of the maintenance window.
The features disclosed in the following paragraphs can, optionally, be implemented. They can be implemented independently of each other or in combination with each other:
According to one embodiment, the stand can receive:
According to one embodiment, the rolling mill can comprise a first lower bar and a second lower bar, intended to be arranged while being lower than the strip to be rolled, disposed preferably substantially symmetrically with respect to a clamping plane passing through the axes of the work rolls, lower and upper, said first bar and the second bar comprising protruding extensions directed towards each other, at least in at least one determined angular position of the first and second bars thus configured to support the upper work roll, during the opening of the stand by vertical movement of the upper stand part with respect to the lower stand part.
The means for supplying said bar with fluid are provided on the second side, the rolling mill being devoid of means for supplying fluid for the bar at the maintenance window, on the first side.
According to a second aspect the present disclosure relates to a method for maintenance of a rolling mill according to the present disclosure, comprising:
According to one embodiment, step /B/ is preceded by the opening of the stand of the rolling mill by vertical movement of the upper stand part with respect to the lower stand part.
Other features, details and advantages will appear upon reading the description described in detail below, and upon analysing the appended drawings, in which:
The drawings and the description below contain, in essence, elements of a certain nature. They can thus not only be used to better understand the present disclosure, but also contribute to its definition, if necessary.
The present disclosure relates to a rolling mill 1 in particular a cold rolling mill, comprising:
In reference to
Such a stand 2 of the rolling mill in two parts comprises a lower stand part 20, transmitting a clamping stress to the lower rolls, including to the lower work roll 12, or even to said sets of lower rollers, and an upper stand part, vertically movable with respect to the lower stand part typically via hydraulic means transmitting a clamping stress to the upper rolls, including to the lower work roll, or even to said sets of upper rollers. Such a stand can be opened by moving away the upper stand part with respect to the lower stand part.
A 20-roll rolling mill conventionally comprises, as illustrated in
The stand comprises, on a first side C1, on the one hand, a maintenance window W, through which the rolls 12, 13, 14, 15, or even the sets of rollers A, B, C, D, E, F, G, H, as well as said at least one bar 3, can be extracted during the maintenance, and on the other hand, a second side C2, opposite to the first side C1, provided with the means 4 for supplying the bar with lubricating/cooling fluid.
The rolling mill is preferably devoid of means for supplying fluid for the bar at the maintenance window, on the first side C1.
The rolling mill can further be provided with the motorisation means for driving the rolls on this second side C2.
The rolling mill can comprise a first lower bar 3a and a second lower bar 3b, arranged under the plane of movement of the strip BM, and configured for the cooling/the lubrication of the lower work roll 12, and a third bar, and a fourth bar for the cooling of the upper work roll, arranged above the strip BM configured for the lubrication of the upper work roll 12.
The two lower bars (first and second bar) or the two upper bars (third bar and fourth bar) are typically preferably distributed on either side of a clamping plane of the rolling mill, this plane passing through the axes of the two work rolls.
The rolling mill further comprises at least one device 5 for adjusting the inclination of said at least one bar, and typically:
The various possible positions of the bars can allow, in particular, to facilitate the removal of the rolls, by moving apart the bar(s) of the roll to be changed, and/or to ensure the take-up of the upper work roll by the first bar and the second bar.
Thus, and for example when the rolling mill comprises the first lower bar 3a and the second lower bar 3b, intended to be arranged below the strip to be rolled, preferably disposed substantially symmetrically with respect to a clamping plane passing through the axes of the lower and upper work rolls, said first bar and the second bar can comprise protruding extensions 9 directed towards each other, at least in at least one determined angular position of the first and second bars. These extensions 9 are configured to support the upper work roll 12, during the opening of the stand by vertical movement of the upper stand part with respect to the lower stand part.
The various positions can also allow to facilitate the insertion of the strip between the work rolls. Thus, and for example, the bars of the pair located upstream, according to the direction of insertion of the strip BM, can be moved closer to one another in order to physically guide the end of the strip to be introduced at the roll gap of the work rolls, and the bars of the other pair can be moved aside in order to facilitate the take-up of the strip, downstream of the work rolls.
Said at least one device 5 for adjusting the inclination of said at least one bar comprises:
In particular, the rolling mill can comprise several independent inclination devices associated with the various bars, for example:
Notably and according to the present disclosure, said actuator, in particular the cylinder, of said at least one device for adjusting the inclination is arranged on the second side C2 of the stand, opposite to the first side C1 of the maintenance window.
Disposing said actuator 50, such as the cylinder VR of the device for adjusting the inclination on the second side C2, advantageously allows to not encroach on the maintenance window W on the first side C1, and so as to facilitate the extraction of the rolls 12, 13, 14, 15, or even of the sets of rollers A, B, C, D, E, F, G, H through the maintenance window W. When the actuator in particular the cylinder includes one or more hydraulic hoses, the risks of tearing off of the hoses, which are located on the second side C2, and not on the first side C1 like in the prior art, are thus avoided.
Also, and at least according to one embodiment, such a positioning can allow to carry out the extraction of said at least one bar 3 (in particular first, second, third and fourth bar) through the maintenance window W, and advantageously without requiring the previous uncoupling of the actuator 50 (in particular first, second, third and fourth) and without requiring in general the uncoupling of the inclination device on the second side C2 of the stand 2.
The operations of uncoupling the spray bar(s) can thus be advantageously simplified and shortened with respect to the prior art which requires to provide the uncoupling of the actuator (namely the hydraulic cylinder) before the extraction of the bar 3 through the maintenance window W.
Thus and according to one embodiment, the spray bar 3 can comprise a tubular shaft 30 provided with a fluid inlet connected via a removable connector 6 between an open end of the tubular shaft 30 and an open proximal end of a tube 40 of the supply means 4 arranged on the second side C2.
The bar 3 is advantageously configured to be uncoupled from the tube 40 and extracted through the maintenance window 4, after uncoupling of the removable connector 6, without uncoupling of the actuator 50 of the device 5 for adjusting the inclination on the stand, on the second side C2 of the stand, and in particular without uncoupling of the supply means 4 from the stand 2, in particular on the second side C2.
According to one embodiment, the tube 40 is coaxial to the tubular shaft 30, as well as to said pivot axis X3. The actuator 50 connects the stand to a lever 51 of the adjustment device, extending radially to the tube 40, said actuator 50 being configured to cause the change in inclination of the bar 3 around the pivot axis X3 by a transmission of a rotary torque to the lever 51 and to the tube 40 of the supply means, constrained to rotate with the spray bar 3.
Thus, and for example, in
The deployment of the actuator 50 (or its retraction), in particular of the cylinder VR, engenders a torque that is transmitted to the lever and conjointly to the tube 40 which is rotationally coupled to the spray bar 3, which causes the rotation of the bar about the axis X3. The tube 40 thus has a primary function of supplying fluid for the bar, but also is an integral part of the device for adjusting the inclination in that it is an element for transmitting torque, between the actuator 50 on the one hand, and the bar 3 on the other hand.
It is noted that the tube 40 can be connected by the connector 6 to the tubular shaft 30 of the bar 3 by being rotationally coupled to the bar, at the proximal end of the tube 40. The distal end of the tube 40, opposite to that of the connector 6, can be driven in rotation by the actuator 50 during the adjustment, and coupled via a rotating joint 7 to a non-rotating device 8 for supplying cooling/lubricating fluid rigidly connected to the stand.
In particular for the lower bar(s), in the case of a stand 2 in two parts, the device 8 for supplying fluid is fastened to the lower stand part 20, and thus for the upper bar(s), the device 8 for supplying fluid, non-rotating, is fastened to the upper stand part, movable with respect to the lower stand part 20.
According to an advantageous embodiment, said removable connector 6 between the proximal end of the tube 40 and the tubular shaft 30 can comprise a first coupling part 60 rigidly connected to an end of the tubular shaft 30 and a second coupling part 61 rigidly connected to the proximal end of the tube 40.
The first coupling part 60 and the second coupling part 61 are configured to couple by fitting together according to the direction of the pivot axis X3 during the insertion of the spray bar 3 and uncouple during the extraction of the bar through the maintenance window.
According to such an embodiment, the coupling and the uncoupling of the two coupling parts (first part 60 and second part 61) can be carried out from the first side C1 of the stand, and without requiring the presence of an operator on the second side C2, which is not very accessible for an operator.
The first coupling part 60 and the second coupling part 61 can also be configured to ensure a transmission of the torque engendered by the actuator 5, between the tube 40 and the tubular shaft 30, around the pivot axis X3.
For this purpose, the first coupling part 60 and the second coupling part 61 can have polygonal cross-sections, for example hexagonal, and be configured to ensure the transmission of torque, and as illustrated in the detail view of
According to one embodiment, the articulation mechanism can comprise a first arm BR1 rigidly connected to a support S of the stand which, in a first state of the arm, is articulated to the pivot via a first bearing ring BP1 at a first end of the tubular shaft 30 of the spray bar 3, on the first side C1 of the stand 2, and a second arm BR2 rigidly connected to the support S which is pivotably articulated via a second bearing ring BP2 to the tube 40 driven by the actuator 50 on the second side C2.
The removable connector 6 allowing the uncoupling of the bar 3 and of the tube 40 can be arranged between the two arms, configured so as to allow the uncoupling and the extraction of the bar 2 through the maintenance window, after passage of the first arm BR1 into a second state for which said first arm is uncoupled from the support S on the first side C1, which is easily accessible from this first side C1 for the operator, and while the second arm BR2 remains advantageously coupled to the support S on the second side C2, not therefore requiring to be disassembled.
The present disclosure also relates to a method for maintenance of a rolling mill 1, comprising:
According to one embodiment, the extraction of the bar 3 requires uncoupling the first arm BR1, on the first side of the stand, and advantageously without requiring any action on the opposite second side to disassemble the second arm BR2.
According to one embodiment, step /B/ is preceded by:
When the bar is inserted into the stand with a view to the connection of the tubular shaft 30 of the bar 3 to the supply means 4 in particular to the tube 40 by the removable connector 6, the connection to the supply means 4 on the second side C2 is obtained by simple fitting together, in particular between the two coupling parts (namely the first coupling part 60 and the second coupling part 61), and advantageously still without requiring the intervention of the operator on this second side C2 of the stand.
The present disclosure advantageously allows, first of all, to greatly free the maintenance window of any equipment related to the inclination of the bars, or related to the supply of the bars with fluid: the maintenance window thus freed therefore allows to greatly facilitate the operations of changing rolls or the sets of rollers, by eliminating for example the risks of the hoses of the cylinders catching, and as known in the prior art.
Moreover, and at least according to an advantageous embodiment, the rolling mill facilitates the operations of extraction or of insertion of the bar(s) per se, in that these operations do not require uncoupling of the actuator or of the lever, reducing the time of the operations of extraction or of insertion of the bars, and with respect to the known prior art which requires the uncoupling of the cylinders or even of the levers coupled to these cylinders.
The bar 3 in particular first, second, third and fourth can conventionally comprise a series of nozzles supplied with fluid and allowing the spraying of a curtain of fluid over the width of the metal strip to be rolled, or over the length of the work roll. This can in particular be for example a design as taught by WO2018/060580, and which is notable in that it guarantees a low dispersion of flow rates of the nozzles measured over the length of the bar, and even when the tubular shaft of the bar is supplied with fluid from a single one of its ends, in this case the end of the tubular shaft 30 pointing to the second side C2 of the stand, in the context of the present disclosure.
| Number | Date | Country | Kind |
|---|---|---|---|
| 2300247 | Jan 2023 | FR | national |
