WO2020074645A1

WO2020074645A1 - Rolling stand for rolling a metallic wide flat product

Info

Publication number: WO2020074645A1
Application number: PCT/EP2019/077486
Authority: WO
Inventors: Peter STROICK; Julia MOSCH; Jörn SOHLER
Original assignee: Sms Group Gmbh
Priority date: 2018-10-12
Filing date: 2019-10-10
Publication date: 2020-04-16
Also published as: DE102019210273A1

Abstract

The invention relates to a rolling stand (1) for rolling a metallic wide flat product, having at least one roll support (2) with at least one upper support crossmember (3), at least one balancing cylinder (4) which is supported on the upper support crossmember (3), at least one crosshead (5) which is connected to the balancing cylinder (4), at least two bearing blocks which are connected to the crosshead (5) via tie rods (6) and are arranged on the roll support (2) such that they can be displaced in a linear manner, at least one upper supporting roll which is mounted rotatably on the bearing blocks, and at least one supporting device (7) for supporting the crosshead (5) on the upper support crossmember (3). In order to provide a securing means for various lifted assembled positions of the crosshead (5), the supporting device (7) has at least one bearing journal (8) which is arranged on one side (9) of the crosshead (5), and at least one supporting lever (11) which is arranged on the upper roll crossmember (3) such that it can be pivoted about a pivot axis (13), wherein the supporting lever (11) has at least two supporting surfaces (18, 19, 22) which can be brought selectively into contact with the bearing journal (8), are arranged offset circumferentially with respect to one another with regard to the pivot axis (13), and are arranged at various spacings from the pivot axis (13).

Description

Roll stand for rolling a flat metal product

The invention relates to a roll stand for rolling a flat metal product, comprising at least one roll stand with at least one upper stand cross member, at least one balancing cylinder supported on the upper stand cross member, at least one crosshead connected to the balancing cylinder, at least two linearly displaceable connected to the crosshead via tie rods the roller block arranged bearing blocks, at least one upper support roller rotatably mounted on the bearing blocks and at least one support device for supporting the crosshead on the upper stand cross member.

In order to achieve the best possible rolling results when rolling sheet metal, for example, it is necessary to reduce as completely as possible forces which act on the rolling stock due to supporting rolls of a rolling stand which support work rolls. This is usually done with the help of a so-called backup roller balancing, in which the dead weight of the top backup roller, including the chocks or bearing blocks, over which the top backup roller is slidably arranged on a roller stand of the roll stand, is compensated by a balancing cylinder. The bearing blocks are conventionally connected to an upper crosshead of the roll stand via tie rods mounted in bolts. The crosshead is connected to the balancing cylinder by a bolt, which in turn is supported on an upper column cross-member of the roller stand.

During maintenance work, for example when changing the roll or changing the stand roll, the upper backup roll must be raised by means of the balancing cylinder and held in a certain raised position for a certain time. These raised positions must be secured so that there is no pressure drop in the balancing cylinder Lowering the upper backup roller and thus endangering people or causing damage.

In the case of newly designed roll stands, a rotating sleeve according to DE 10 2006 032 813 A1 can be used for this purpose, which is installed radially around the outside of the balancing cylinder. The rotating sleeve is turned, thereby securing various raised positions of the crosshead. With such a rotating sleeve, however, only a limited number of positions that can be supported can be realized. In addition, the use of a rotating sleeve only makes sense for new designs, as machined surfaces are required. Furthermore, there is usually not enough installation space to be able to secure all positions of the upper support roller by means of the rotating sleeve.

In older rolling stands, there are four stepped bolts that can be moved under welded-on tie rod plates by means of working cylinders. The

Dead weights are then derived from these sheets onto the bolts, which in turn are stored in bearing blocks. The pedestals transfer the forces into the upper column cross member. Since securing via the tie rods or tie rod plates is not possible - these components do not withstand the loads - and the above-mentioned rotating sleeve is not a solution in this case, another solution had to be found. In addition, there is often not enough space to dimension the tie rods or tie rod plates larger. CN 103 521 527 B discloses a device for replacing one

Back-up roll of a balancing cylinder assigned to the heavy plate mill. The device has support plates, a connecting plate, a support plate, a rib plate, a bearing plate and a hydraulic lifting cylinder. Lifting rings are welded to the upper ends of the two support plates, rectangular notches being formed in the lower sections thereof. The support plates are connected to a frame by the connecting plate and the rib plate, and the hydraulic jack is attached to the support plate on the inside of the bearing plate at the lower part of the frame. The exchange device is raised to be arranged on the top of a balancing bar of the balancing cylinder and a piston rod crossing. The hydraulic lifting cylinder is used to attach a hinge pin to the

Eject balancing cylinder from an axle hole. The balancing beam is lifted out, a connecting line of the balancing cylinder is dismantled and the balancing cylinder is raised. CN 202 824 121 U discloses a backup roller balancing device having a main balancing beam, a balancing cylinder, balancing pull rods, a right balancing beam, a left balancing beam and pin shafts. The balancing cylinder of the main balancing beam is located in the middle of the main balancing beam. The ends of the main balance beam are connected to the balance tie rods. The right balancing beam and the left

Balancing beams are connected to the balancing pull rods by the pin shafts. The lower end of each balancing tie rod has a single O-ring structure and the upper ends of the right balancing beam and the left balancing beam have a double O-ring structure.

CN 203 426 158 U discloses a safety protection device with an upper main balancing beam assigned to a support roller. A tie rod holder is arranged on the upper balancing beam. A protective pull rod is articulated in a vertical direction on the protective device. An upper section of the protective pull rod is arranged on the pull rod holder, a damping disk spring being arranged on the protective pull rod in the manner of a sleeve. The protective pull rod is used to connect the protective device to the main balancing beam, so that the

Safety protection device can effectively prevent the protection device from falling. JP S61 20614 A discloses a cradle base with a

Feed roll take-up rail that is installed in advance on a backup roller carriage. A lift rail is raised so that the top of the lift rail coincides with a height of the feed roller take-up rail. A feed roller unit is slid and placed on the feed roller take-up rail by the lifting rail and is fixed by hooking a chain block of a suspension piece of a head piece guide. A chain block for a swivel stop is also hooked on. The head piece guide is raised, the feed roller unit is raised, the support roller carriage is temporarily pulled out to the outside of a housing and onto the take-up frame base. A pick-up base is set and the backup roller carriage is loaded into the housing. The head piece guide is then lowered, the feed roller unit is pulled out and placed on the receiving base, and the support roller carriage is pulled out of the housing.

An object of the invention is to provide a securing device for various raised mounting positions of an upper crosshead of a roll stand which supports an upper support roller.

This task is solved by the independent claim. Advantageous configurations are given in the following description, the dependent patent claims and the figures, wherein these configurations, taken individually or in a different combination of at least two of these configurations, can represent a further, particularly preferred or advantageous, aspect of the invention.

A roll stand according to the invention for rolling a flat metal product has at least one roll stand with at least one upper stand cross member, at least one balancing cylinder supported on the upper stand cross member, at least one with the balancing cylinder connected crosshead, at least two bearing blocks connected to the crosshead via linearly displaceably arranged on the roller stand, at least one upper support roller rotatably mounted on the bearing blocks and at least one support device for supporting the crosshead on the upper stand cross member, wherein the support device has at least one on one Side of the crosshead arranged bearing pin and at least one support lever arranged pivotably about a pivot axis on the upper stator cross-member, the support lever having at least two support surfaces which can be brought into contact with the bearing journal and are circumferentially offset with respect to the pivot axis and which are arranged at different distances from the pivot axis are.

In the context of the present description, the term “roller” means an upper backup roller, a lower backup roller, an upper work roller or a lower work roller.

According to the invention, at least two raised positions of the upper crosshead of the roll stand brought about by means of the balancing cylinder can be secured against the upper stand cross member of the roll stand by means of the support device. Since the upper support roller is suspended from the crosshead via the tie rods and is thus raised together with the crosshead, the raised positions of the upper support roller are consequently also secured by means of the support device according to the invention. Such raised positions are particularly necessary for performing a roll or roll change in which a (worn) roll and / or at least one worn stand roll arranged on the inlet or outlet side is replaced by a new roll or stand roll.

The respective raised position of the crosshead or the upper support roller is secured by pivoting the support lever about the pivot axis after lifting the crosshead in such a way that the support lever with one of its support surfaces supports the bearing journal on the side of the upper column cross-member, for which purpose the crosshead can be lowered by means of the balancing cylinder after the pivoting of the support lever until the bearing journal contacts the support surface of the support lever. The support lever is, as it were, clamped between the bearing journal and the upper column cross-member and at least partially transmits a total weight to the upper column cross-member, which is based on the weight of the upper support roller, the weight of the bearing blocks, the weight of the tie rods and the weight of the crosshead and possibly arranged on it Bolt results.

The support lever can be pivotably arranged on the upper column cross member via at least one pivot bearing, which defines the pivot axis or its position. The support lever can, in particular monolithically, be made of a metallic material. The support lever can also have three, four or more support surfaces which can optionally be brought into contact with the bearing journal and which are circumferentially offset with respect to one another with respect to the pivot axis and which are arranged at different distances from the pivot axis. The support lever can thus have its own support surface for each raised position of the crosshead or the upper support roller to be secured. The respective support surface of the support lever can have a shape which is adapted to or complementary to an outer contour of the bearing journal. In particular, the respective support surface can be trough-shaped.

The support lever can be pivoted automatically by means of at least one controllable actuator of the support device. A pivot plane of the support lever, on which the pivot axis is perpendicular, can be arranged parallel to a longitudinal central axis of the upper supporting roller or a transverse side of the crosshead running perpendicular to the longitudinal side be. Accordingly, the journal can be arranged on a long side or a transverse side of the crosshead. The pivot axis of the support lever can run parallel or transversely to a longitudinal center axis of the bearing pin. The roll stand is used to hold and guide the backup rolls and work rolls of the roll stand. For this purpose, the roll stand has lateral stand sections on which bearing blocks for the individual rolls are guided in a linearly displaceable manner and which are rigidly connected to one another at their upper end sections via the upper stand cross member

The balancing cylinder is supported on the bottom on the upper column cross member and carries the crosshead when the support device is inactive, the

Balancing cylinder is preferably articulated centrally to the crosshead via a bearing pin. The two tie rods can also be connected in an articulated manner to the crosshead via a bearing pin, the tie rods being connected to opposite end sections of the crosshead.

The support device can also have two or more corresponding support levers and bearing journals. For example, the support device can have four support levers, which are arranged in pairs on opposite sides of the crosshead. The support device can absorb relatively large forces and is therefore very robust and very suitable for securing the raised positions of the crosshead or the upper support roller. Due to the relatively simple structure of the support device, the roll stand according to the invention is easy to operate or to control.

The roll stand according to the invention can be part of a rolling mill or form it with which metallic flat products can be rolled. A wide metallic flat product is to be understood as a strip-shaped rolling stock, whose thickness is many times smaller than a width of the rolling stock. The wide metallic flat product can be a sheet, for example.

The roll stand according to the invention can be provided in the course of a new production. Alternatively, an existing roll stand can be converted to form a roll stand according to the invention. This retrofitting of an existing conventional roll stand to form a roll stand according to the invention can be implemented inexpensively, since existing components of the conventional roll stand, such as the crosshead and the tie rods, can continue to be used. This results in a relatively small amount of conversion work and costs.

According to an advantageous embodiment, the support device has at least one working cylinder which is supported on the upper column cross member and is connected to the support lever. The working cylinder serves to pivot the support lever around the pivot axis. In addition, the working cylinder can serve to secure the respective support position of the support lever. The working cylinder can be articulated to the upper column cross member via at least one bearing block. The working cylinder can be, for example, a hydraulic cylinder, an electromechanical cylinder or a pneumatic cylinder.

According to a further advantageous embodiment, the working cylinder has at least two support positions. As a result, the various support positions of the working cylinder can be approached or called up, each of which is assigned a specific support position of the support lever in order to be able to pivot the support lever into the respective support position in the desired manner. The number of support positions of the working cylinder preferably corresponds to the number of support surfaces of the support lever. According to a further advantageous embodiment, the support device has at least two working cylinders arranged in series. This can make the the working cylinder row arrangement formed at least two working cylinders are extended and retracted in steps, each extension stage of the working cylinder row arrangement being assigned a specific supporting position of the supporting lever. The number of working cylinders arranged in series is, for example, smaller by the value one than the number of support positions of the support lever provided.

According to a further advantageous embodiment, the support device has at least one sensor for detecting the current position of the support lever. The position of the support lever can be monitored by means of the sensor in order to be able to detect or ensure proper pivoting of the support lever and to be able to position the support lever exactly, which increases the safety of the support device. According to a further advantageous embodiment, the sensor is a displacement sensor or a proximity switch. The proximity switch can be used to contactlessly determine whether the support lever has assumed a desired support position. The number of proximity switches can correspond to the number of support positions of the support lever provided. The displacement encoder can be designed, for example, as a rotary encoder with which the current pivot position of the support lever about the pivot axis can be detected.

According to a further advantageous embodiment, the bearing journal is an end section of a bearing bolt which is guided through the crosshead and via which at least one tie rod or the balancing cylinder is connected to the crosshead, or a section of the crosshead. When using the bearing pin as a bearing pin, no additional bearing pin has to be arranged or formed on the crosshead. If the journal is a section of the crosshead, the journal can be made monolithically with the crosshead. According to a further advantageous embodiment, the support device has, on opposite sides of the crosshead, at least one bearing journal and at least one support lever, the bearing journals being aligned with one another and the support levers being rigidly connected to one another via at least one connecting element. Through the rigid

Connection of the two support levers to one another via the connecting element requires only a single working cylinder or a single above-mentioned working cylinder row arrangement in order to pivot both supporting levers together. A working cylinder or a working cylinder row arrangement can thus be saved. The support levers are arranged on the upper column cross member so as to be pivotable about the same pivot axis.

According to a further advantageous embodiment, the support lever has a central support section and two lateral support sections arranged on opposite sides of the central support section, a support surface formed on the central support section being arranged at a greater distance from the pivot axis than the support surfaces formed on the lateral support sections and wherein the support surface arranged on the one side support section is arranged at a greater distance from the pivot axis than the support surface formed on the other side support section.

In the following, the invention is explained by way of example with reference to the attached figures using a preferred embodiment, the features explained below, both individually and in different combinations with one another, representing an advantageous or further aspect of the invention. Show it

Figure 1 is a schematic and perspective view of a

Embodiment for a roll stand according to the invention in an assembled state; Figure 2 is a schematic and perspective view of the rolling stand shown in Figure 1 in a first support state; Figure 3 is a schematic and perspective view of the rolling stand shown in Figure 1 in a second support state; and

Figure 4 is a schematic and perspective view of the rolling stand shown in Figure 1 in a third support state.

In the figures, identical or functionally identical components are provided with the same reference symbols.

FIG. 1 shows a schematic and perspective illustration of an exemplary embodiment of a roll stand 1 according to the invention for rolling a flat metal product, not shown, in an assembled state.

The roll stand 1 has a roll stand 2 with an upper stand cross member 3, a balancing cylinder 4 supported on the upper stand cross member 3, a crosshead 5 connected to the balancing cylinder 4, two crossbars 5 connected to the crosshead 5 via pull rods 6, arranged linearly displaceably on the roll stand 2, Bearing blocks, not shown, an upper support roller, not shown, rotatably mounted on the bearing blocks, and at least one support device 7 for supporting the crosshead 5 on the upper column cross member 3.

The support device 7 has four journals 8, which are arranged in pairs on opposite longitudinal sides 9 of the crosshead 5. Each bearing pin 8 is an end section of a bearing bolt 10 which is guided through the crosshead 5 and via which the respective pull rod 6 is connected to the crosshead 5 in an articulated manner. Furthermore, the support device 7 has four support levers 11, which are arranged in pairs on the opposite longitudinal sides 9 of the crosshead 5. Each support lever 11 is arranged on the upper column cross member 3 so as to be pivotable about a pivot axis 13 by means of its own pivot bearing 12. In this case, two support levers 11 arranged on the opposite longitudinal sides 9 of the crosshead 5 are each arranged pivotably about the same pivot axis 13. The pivot axes 13 run parallel to a longitudinal center axis 14 of the respective bearing pin 8. The bearing pins 8, which are arranged on the opposite longitudinal sides 9 of the crosshead 5 with respect to the respective bearing pin 10, are arranged in alignment with one another.

Each support lever 11 has a central support section 15 and two lateral support sections 16 and 17 arranged on opposite sides of the central support section 15. A support surface 18 formed on the central support section 15 is arranged at a greater distance from the respective pivot axis 13 than the support surfaces 22 and 19 formed on the lateral support sections 16 and 17. The support surface 19 arranged on the one lateral support section 17 is at a greater distance arranged to the pivot axis 13 than that on the other side

Support section 16 formed support surface 22nd

The support device 7 has, for each support lever 11, a working cylinder 21, which is articulated via a bearing block 20 on the upper column cross member 3 and is articulated to the respective support lever 11. The respective working cylinder 21 can have three support positions. In one embodiment variant, the support levers 11, which are arranged so as to be pivotable about the respective common pivot axis 13, can be connected to one another in a rigid or articulated manner via at least one connecting element (not shown). In this embodiment variant, the support levers 11 which can be pivoted about the respective common pivot axis 13 can be arranged by means of a single one Working cylinders 21 are pivoted so that a total of two working cylinders 21 can be omitted.

For each support lever 11, the support device 7 can have at least one sensor (not shown) for detecting the current position of the respective support lever 11. The sensor can be a position sensor, not shown, or a proximity switch, not shown.

In the assembled state of the roll stand 1 shown in FIG. 1, the crosshead 5 has been raised to the maximum by means of the balancing cylinder 4. In addition, the support levers 11 are in the first support positions. These support positions can be secured by means of the working cylinder 21.

FIG. 2 shows a schematic and perspective illustration of the roll stand 1 shown in FIG. 1 in a first supporting state. This support state results from the assembly state shown in FIG. 1 in that the crosshead 5 has been lowered by means of the balancing cylinder 4 until the bearing pins 8 rest on the support surfaces 18 of the support levers 11. This support state of the roll stand 1 is produced in particular in order to be able to carry out preparatory work for an upcoming change of stand rolls, not shown, in a work-safe manner.

FIG. 3 shows a schematic and perspective illustration of the roll stand 1 shown in FIG. 1 in a second supporting state. This support state is established in that the crosshead 5 is first by means of the

Balancing cylinder 4 is raised and then the support lever 11 are pivoted into the second support positions shown. After that it will

Crosshead 5 lowered by means of the balancing cylinder 4 until the bearing pins 8 rest on the support surfaces 19 of the support lever 11. This support state of the roll stand 1 is produced in particular in order to be able to change the roll, not shown, in a work-safe manner. The shown Support positions of the support lever 11 can be secured by means of the working cylinder 21.

FIG. 4 shows a schematic and perspective illustration of the roll stand 1 shown in FIG. 1 in a third supporting state. This support state is established in that the crosshead 5 is first raised by means of the balancing cylinder 4 and then the support levers 11 are pivoted into the third support positions shown. Then the crosshead 5 is lowered by means of the balancing cylinder 4 until the bearing pins 8 rest on the support surfaces 22 of the support levers 11. This support state of the roll stand 1 is produced in particular in order to be able to carry out a change of stand rolls, not shown, in a work-safe manner. The shown support positions of the support lever 11 can be secured by means of the working cylinder 21.

Reference list

1 roll stand

2 roller stands

3 upper column cross members

4 balancing cylinders

5 crosshead

6 tie rod

7 support device

8 journals

9 long side of 5

10 bearing bolts

11 support lever

12 swivel bearings

13 swivel axis

14 longitudinal central axis of 8

15 middle support section of 11

16 side support portion of 11

17 side support section of 11 18 support surface on 15

19 support surface on 17

20 bearing block

21 working cylinders

22 support surface on 16

Claims

Claims:

1 . Roll stand (1) for rolling a flat metal product, comprising at least one roll stand (2) with at least one upper stand cross member (3), at least one balancing cylinder (4) supported on the upper stand cross member (3), at least one connected to the balancing cylinder (4) Crosshead (5), at least two bearing blocks connected to the crosshead (5) via tie rods (6), arranged linearly displaceably on the roller stand (2), at least one upper support roller rotatably mounted on the bearing blocks and at least one support device (7) for supporting the Crossheads (5) on the upper column cross member (3),

characterized in that

the support device (7) has at least one bearing pin (8) arranged on one side (9) of the crosshead (5) and at least one support lever (1 1) arranged on the upper column cross member (3) so that it can pivot about a pivot axis (13), the Support lever (1 1) has at least two support surfaces (18, 19, 22) which can be brought into contact with the bearing journal (8) and are circumferentially offset from one another with respect to the pivot axis (13) and which are arranged at different distances from the pivot axis (13).

2. Roll stand (1) according to claim 1, characterized in that the support device (7) has at least one on the upper column cross member (3) supported with the support lever (1 1) connected to the working cylinder (21).

3. Roll stand (1) according to claim 1 or 2, characterized in that the working cylinder (21) has at least two support positions.

4. Roll stand (1) according to claim 1 or 2, characterized in that the support device (7) has at least two working cylinders arranged in series.

5. Roll stand (1) according to one of claims 1 to 4, characterized in that the support device (7) has at least one sensor for detecting the current position of the support lever (11).

6. Roll stand (1) according to claim 5, characterized in that the sensor is a displacement sensor or a proximity switch.

7. Roll stand (1) according to one of claims 1 to 6, characterized in that the bearing pin (8) an end portion of a through the crosshead (5) through the bearing bolt (10), via the at least one tie rod (6) or the balancing cylinder ( 4) is connected to the crosshead (5), or is a section of the crosshead (5).

8. Roll stand (1) according to one of claims 1 to 7, characterized in that the support device (7) on opposite sides (9) of the crosshead (5) in each case at least one bearing pin (8) and in each case at least one support lever (11) The bearing pins (8) are arranged in alignment with one another and the support levers (11) are rigidly connected to one another via at least one connecting element.

9. Roll stand (1) according to one of claims 1 to 8, characterized in that the support lever (11) has a central support section (15) and two on opposite sides of the central support section (15) arranged side support sections (16, 17) , one formed on the central support portion (15) The support surface (18) is arranged at a greater distance from the pivot axis (13) than the support surfaces (19, 22) formed on the lateral support sections (16, 17) and the support surface (19) arranged on the one lateral support section (17). is arranged at a greater distance from the pivot axis (13) than the support surface (22) formed on the other lateral support section (16).