CN115722563A - Plate rolling device with automatic deviation rectifying function - Google Patents

Abstract

The invention discloses a plate rolling device with an automatic deviation rectifying function, and relates to the field of rolling equipment. According to the invention, the top deviation rectifying mechanism is arranged at the top of the rolling mechanism, and the lateral deviation rectifying mechanisms are arranged at the two sides of the rolling mechanism, so that the rolled cylinder can be supported and corrected simultaneously in the steel plate rolling process, the radial run-out and axial run-out of the rolled cylinder are reduced, and the rolling precision is ensured.

Description

Plate rolling device with automatic deviation rectifying function

Technical Field

The invention belongs to the field of rolling equipment, and particularly relates to a plate rolling device with an automatic deviation rectifying function.

Background

The plate bending machine is a forging and pressing device for bending metal plates, is specially used for the forming and bending work of the metal plates, can pre-bend and bend cylindrical and arc-shaped parts with various specifications by one-time feeding, and can also roll conical cylindrical parts by means of auxiliary devices. It is one of the key equipments in the departments of boiler, shipbuilding, petrochemical industry, metal structure, cement machinery, chemical machinery, machinery manufacturing and maintenance, etc.

The existing plate rolling machine lacks an automatic deviation rectifying structure, and the deviation of a steel plate is easy to occur in the rolling process, so that the problems of radial run-out and low finished product precision of a rolled cylinder are easily caused.

Disclosure of Invention

In order to solve the problems in the prior art, the invention aims to provide a plate rolling device with an automatic deviation rectifying function.

The technical scheme adopted by the invention is as follows:

a plate rolling device with an automatic deviation rectifying function comprises a plate feeding mechanism, a rolling mechanism and a deviation rectifying mechanism; the plate feeding mechanism is arranged at the inlet end of the rolling mechanism and comprises a plurality of transmission rollers which are arranged in parallel; the rolling mechanism comprises a lifting upper roller and two lower rollers capable of moving transversely; the deviation rectifying mechanism comprises a top deviation rectifying mechanism and a lateral deviation rectifying mechanism; the top deviation rectifying mechanism is arranged above the upper roller and can move up and down, the top deviation rectifying mechanism comprises a first supporting roller and a first deviation rectifying roller, the first supporting roller and the upper roller are arranged in parallel, and the first deviation rectifying roller and the first supporting roller are perpendicular to each other; the two sides of each lower roller are provided with a lateral deviation rectifying mechanism, each lateral deviation rectifying mechanism comprises a mounting plate, a second supporting roller and a second deviation rectifying roller, one side, far away from the lower rollers, of each mounting plate can rotate around one side, close to the lower rollers, the mounting plates are evenly provided with the second supporting rollers, the second supporting rollers are all parallel to the lower rollers, the two ends, far away from the lower rollers, of the mounting plates are provided with the second deviation rectifying rollers, and the two second deviation rectifying rollers on the same mounting plate can be close to or far away from each other; the first supporting roller is used for supporting the top of the rolled barrel body, and the first deviation rectifying roller is abutted against one side edge above the barrel body; the second supporting rollers are used for supporting the barrel from two sides below the barrel, and the second deviation rectifying rollers are abutted against two side edges of the bottom of the barrel.

Optionally, the lateral deviation correcting mechanism further comprises a first hinged support, a second hinged support, a fourth hydraulic cylinder and a first translation mechanism;

the first hinge seat and the second hinge seat are arranged on one side of the mounting plate, the first hinge seat is arranged right above the second hinge seat, and one side of the mounting plate close to the lower roller is hinged with the first hinge seat;

the cylinder body of the fourth hydraulic cylinder is hinged with the second hinge seat, and the movable end of the fourth hydraulic cylinder is hinged with one side of the mounting plate, which is far away from the lower roll;

the first translation mechanism is arranged on the side wall of the mounting plate, which is far away from one side of the lower roller.

Optionally, the first translation mechanism includes a mounting seat, a sliding rail, a sliding block, a vertical mounting seat, a guide wheel and a fifth hydraulic cylinder;

the mounting seat is mounted on the side wall of the mounting plate;

both ends of the slide rail are arranged on the mounting seat;

the sliding block can be arranged on the sliding rail in a sliding way;

the vertical mounting seat is mounted on the sliding block, the top of the vertical mounting seat is provided with a guide wheel, and the side surface of the vertical mounting seat is provided with a second deviation rectification roller;

one end of a fifth hydraulic cylinder is installed on the installation seat, and the other end of the fifth hydraulic cylinder is connected with the sliding block.

Optionally, the top deviation rectifying mechanism further comprises a sliding installation table, the sliding installation table is slidably installed on the lifting frame, the lifting frame is installed above the upper roller, a sixth hydraulic cylinder is arranged inside the lifting frame, and the movable end of the sixth hydraulic cylinder is connected with the sliding installation table.

Optionally, two ends of the upper roller are mounted on the mounting base in a crossing manner, one end of the upper roller is provided with a first hydraulic cylinder, the first hydraulic cylinder is used for driving the upper roller to rotate, and the other end of the upper roller is provided with a reversing frame;

the bearing frame is installed at the both ends of lower roll, and the both sides of mounting base are provided with the third pneumatic cylinder, and the expansion end and the bearing frame of third pneumatic cylinder are connected, but the slidable mounting of bearing frame is in the mounting base.

Optionally, the reversing frame comprises a hydraulic cylinder fixing frame, a bearing block, an end bearing, a seventh hydraulic cylinder and an adapting block;

two ends of the upper roller are respectively provided with a second hydraulic cylinder, and the second hydraulic cylinders are used for driving the upper roller to lift;

the bearing block is arranged at the movable end of the second hydraulic cylinder, the end bearing is arranged at one end of the upper roller, and the end bearing is hinged with the bearing block;

one end of the hydraulic cylinder fixing frame is installed on the side wall of the bearing block, the other end of the hydraulic cylinder fixing frame is hinged with a cylinder body of a seventh hydraulic cylinder, the movable end of the seventh hydraulic cylinder is connected with the adapting block, and the adapting block is installed on the side wall of the end bearing.

Optionally, the mounting base comprises a bottom connecting plate, a mounting upright post, a middle connecting plate and a heightening block;

the bottom connecting plate is arranged on the foundation, and four mounting upright posts are arranged on the bottom connecting plate in two rows and two columns;

the second hydraulic cylinder is arranged between the two mounting upright columns in the width direction, and the two mounting upright columns in the length direction are connected through a middle connecting plate;

the heightening block is arranged at one end far away from the head inverting frame, and the heightening frame is provided with a lifting frame.

Optionally, a plate feeding mechanism is arranged at the inlet end of the rolling mechanism, the plate feeding mechanism comprises a plurality of transmission roller sets, the transmission roller sets are arranged on the translation guide rail, and the translation guide rail is arranged on the foundation;

the transmission roller group is arranged in parallel with the upper roller and the lower roller.

Optionally, a feeding calibration mechanism is arranged at one end of the plate conveying mechanism close to the rolling mechanism;

the feeding calibration mechanism comprises position sensors arranged at two ends of the transmission roller group and a jacking translation element arranged between the transmission roller group.

As optional, increase one side of piece and be provided with the eighth pneumatic cylinder, eighth pneumatic cylinder and sliding platform are located respectively and increase the different sides of piece, and the eighth pneumatic cylinder is located the top of last roller.

The invention has the beneficial effects that:

according to the invention, the top deviation rectifying mechanism is arranged at the top of the rolling mechanism, and the lateral deviation rectifying mechanisms are arranged at the two sides of the rolling mechanism, so that the rolled cylinder can be supported and corrected simultaneously in the steel plate rolling process, the radial run-out and axial run-out of the rolled cylinder are reduced, and the rolling precision is ensured.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a side view schematic of the present invention.

Fig. 3 is an enlarged schematic view of region a in fig. 1.

Fig. 4 is an enlarged schematic view of region C in fig. 1.

FIG. 5 is a schematic view of the rolling mechanism.

FIG. 6 is a schematic view showing the installation relationship of the rolling mechanism.

FIG. 7 is a schematic view of the installation of the lateral deviation rectification mechanism.

Fig. 8 is a schematic structural view of the region B in fig. 7.

FIG. 9 is a schematic view of another angle of the rolling mechanism.

FIG. 10 is a schematic view of another angle of the lateral deviation rectification mechanism.

Fig. 11 is a schematic structural view of a state of the reverse head frame.

Fig. 12 is a schematic structural view of another state of the head inverting bracket.

In the figure: 1-mounting base, 11-mounting groove body, 2-plate feeding mechanism, 21-driving roller group, 22-translation guide rail, 23-roller group frame, 3-feeding calibration mechanism, 31-position sensor, 32-jacking translation element, 4-mounting base, 41-bottom connecting plate, 42-mounting upright post, 43-middle connecting plate, 44-heightening block, 45-lifting frame, 5-rolling mechanism, 51-upper roller, 511-first hydraulic cylinder, 512-eighth hydraulic cylinder, 52-lower roller, 521-bearing seat, 522-third hydraulic cylinder, 61-top deviation-rectifying mechanism, 611-sliding mounting table, 612-first supporting roller, 613-first deviation-rectifying roller, 62-lateral deviation-rectifying mechanism, 621-mounting plate 6211-second supporting roller, 622-first hinged support, 623-second hinged support, 624-fourth hydraulic cylinder, 625-first translation mechanism, 6251-mounting seat, 6252-sliding rail, 6253-sliding block, 54-vertical mounting seat, 55-guide wheel, 56-fifth hydraulic cylinder, 6256-6256, 627-second hydraulic cylinder, 627-first sliding support, 6251-sliding block, seventh hydraulic cylinder, 76-second deviation-correcting block, 76-hydraulic cylinder, hydraulic cylinder head support, 76-second deviation-correcting block, and hydraulic cylinder head-lifting block.

Detailed Description

The first embodiment is as follows:

in this embodiment, a rolling device with an automatic deviation rectifying function as shown in fig. 1 to 10 includes a foundation 1, a plate feeding mechanism 2, a mounting base 4, a rolling mechanism 5 and a deviation rectifying mechanism 6;

installation cell body 11 has been seted up to the one end of foundation 1, is provided with mounting base 4 in the installation cell body 11, and system 5 is installed on mounting base 4 to roll up, and the other end surface of foundation 1 is provided with and send board mechanism 2, send board mechanism 2 to set up at the entrance point of rolling up system 5, send board mechanism 2 to include a plurality of parallel arrangement's driving roller 21.

The rolling mechanism 5 includes a liftable upper roller 51 and two laterally movable lower rollers 52.

The deviation rectifying mechanism 6 comprises a top deviation rectifying mechanism 61 and a lateral deviation rectifying mechanism 62; the top deviation rectifying mechanism 61 is arranged above the upper roller 51 and can move up and down, the top deviation rectifying mechanism 61 comprises a first supporting roller 612 and a first deviation rectifying roller 613, the first supporting roller 612 and the upper roller 51 are arranged in parallel, and the first deviation rectifying roller 613 and the first supporting roller 612 are perpendicular to each other; the two sides of the two lower rollers 52 are respectively provided with a lateral deviation rectifying mechanism 62, each lateral deviation rectifying mechanism 62 comprises a mounting plate 621, a second supporting roller 6211 and a second deviation rectifying roller 6256, one side, far away from the lower rollers 52, of the mounting plate 621 can rotate around one side, close to the lower rollers 52, a plurality of second supporting rollers 6211 are uniformly arranged on the mounting plate 621, the plurality of second supporting rollers 6211 are all parallel to the lower rollers 52, the two ends, far away from the lower rollers 52, of the mounting plate 621 are respectively provided with a second deviation rectifying roller 6256, and the two second deviation rectifying rollers 6256 on the same mounting plate 621 can be close to or far away from each other; the first supporting roller 612 is used for supporting the top of the rolled cylinder body, and the first deviation rectifying roller 613 abuts against one side edge above the cylinder body; the second support rollers 6211 are used to support the cylinder from both sides below the cylinder, and the second deviation rectification rollers 6256 are pressed against both side edges of the bottom of the cylinder. Through set up top mechanism 61 and set up side direction mechanism 62 of rectifying at both sides at system 5 tops of rolling up, can support and rectify a deviation the barrel of rolling up simultaneously at the in-process of steel sheet system, the barrel that reduces to roll up appears the condition of run-out and axial runout to the precision of system has been guaranteed to roll up.

Example two:

the embodiment provides an alternative for the specific structure of the lateral deviation rectifying mechanism on the basis of the first embodiment.

In this embodiment, as shown in fig. 7 to 10, the lateral deviation correcting mechanism 62 further includes a first hinged support 622, a second hinged support 623, a fourth hydraulic cylinder 624 and a first translation mechanism 625; the first hinge seat 622 and the second hinge seat 623 are both arranged on one side of the mounting plate 621, the first hinge seat 622 is arranged right above the second hinge seat 623, and one side of the mounting plate 621 close to the lower roller 52 is hinged with the first hinge seat 622; the cylinder body of the fourth hydraulic cylinder 624 is hinged with the second hinge base 623, and the movable end of the fourth hydraulic cylinder 624 is hinged with one side of the mounting plate 621 far away from the lower roller 52; the first translation mechanism 625 is provided on the side wall of the mounting plate 621 on the side away from the lower roller 52.

The first translation mechanism 625 comprises a mount 6251, a slide rail 6252, a slider 6253, a vertical mount 6254, a guide wheel 6255 and a fifth hydraulic cylinder 6257; the mounting seat 6251 is mounted on the side wall of the mounting plate 621; two ends of the sliding rail 6252 are both mounted on the mounting base 6251; the sliding block 6253 is slidably mounted on the sliding rail 6252; a vertical mounting seat 6254 is mounted on the sliding block 6253, the top of the vertical mounting seat 6254 is provided with a guide wheel 6255, and the side surface of the vertical mounting seat 6254 is provided with a second rectification roller 6256; one end of the fifth hydraulic cylinder 6257 is mounted on the mounting base 6251, and the other end of the fifth hydraulic cylinder 6257 is connected with the slider 6253.

When the rolling device is used, the movable end of the fourth hydraulic cylinder 624 extends to push the mounting plate 621 to rotate around the rotating axis of the two second hinged supports 623, and the side where the first translation mechanism 625 is located rotates upwards, so that the second support roller 6211 on the mounting plate 621 lifts up the rolled cylinder.

During initial state, the second roller 6256 that rectifies at mounting panel 621 both ends is kept away from each other, and after second backing roll 6211 supported the barrel, the fifth pneumatic cylinder 6257 shrink at mounting panel 621 both ends to the slider 6253 that drags both ends is close to each other, and then makes second roller 6256 that rectifies be close to each other, thereby supports the both ends terminal surface of the barrel from the both ends of barrel, prevents to roll up the process barrel toward both ends skew.

Example three:

on the basis of any of the above embodiments, the present embodiment provides an alternative for the specific structure of the top deviation rectifying mechanism.

In this embodiment, as shown in fig. 5, 6, 9 and 10, the top deviation rectifying mechanism 61 further includes a sliding installation platform 611, the sliding installation platform 611 is slidably installed on the lifting frame 45, the lifting frame 45 is installed above the upper roller 51, a sixth hydraulic cylinder 46 is arranged inside the lifting frame 45, and the movable end of the sixth hydraulic cylinder 46 is connected with the sliding installation platform 611.

In the using process, the plate rolled into an arc shape passes through the space between the first deviation rectifying roller 613 and the lifting frame 45, the first deviation rectifying roller 613 abuts against the end surface of the top of the arc-shaped plate, and the first supporting roller 612 is used for forming a supporting point on the top of the inner wall of the arc-shaped plate.

Example four:

the embodiment provides an alternative for the specific structure of the rolling mechanism on the basis of any embodiment.

In the present embodiment, as shown in fig. 5 to 10, both ends of the upper roller 51 are mounted on the mounting base 4 in a crossing manner, one end of the upper roller 51 is mounted with a first hydraulic cylinder 511, the first hydraulic cylinder 511 is used for driving the upper roller 51 to rotate, and the other end of the upper roller 51 is mounted with the reversing frame 7; bearing seats 521 are mounted at two ends of the lower roller 52, third hydraulic cylinders 522 are arranged at two sides of the mounting base 4, the movable ends of the third hydraulic cylinders 522 are connected with the bearing seats 521, and the bearing seats 521 are slidably mounted in the mounting base 4.

The third hydraulic cylinder 522 is used to move the two lower rolls 52 closer to or away from each other, thereby adjusting the distance between the lower rolls.

The first 511 bit rotary hydraulic cylinder, the other hydraulic cylinders are reciprocating hydraulic cylinders.

Example five:

the embodiment provides an alternative for the specific structure of the head inverting frame on the basis of any embodiment.

In the present embodiment, as shown in fig. 9 to 12, the reversing frame 7 includes a hydraulic cylinder fixing frame 72, a bearing block 73, an end bearing 74, a seventh hydraulic cylinder 75, and an adapting block 76; two ends of the upper roller 51 are respectively provided with a second hydraulic cylinder 71, and the second hydraulic cylinders 71 are used for driving the upper roller 51 to lift; the bearing block 73 is arranged at the movable end of the second hydraulic cylinder 71, the end bearing 74 is arranged at one end of the upper roller 51, and the end bearing 74 is hinged with the bearing block 73; one end of the hydraulic cylinder fixing frame 72 is installed on the side wall of the bearing block 73, the other end of the hydraulic cylinder fixing frame is hinged with a cylinder body of a seventh hydraulic cylinder 75, the movable end of the seventh hydraulic cylinder 75 is connected with an adapting block 76, and the adapting block 76 is installed on the side wall of the end bearing 74.

In this embodiment, the second hydraulic cylinder 71 is configured to synchronously drive the upper roller 51 to move up and down from both ends, and specifically, when the extending length of the seventh hydraulic cylinder 75 is fixed, the end bearing 74 cannot rotate relative to the bearing block 73, and at this time, the movable end of the second hydraulic cylinder 71 extends and shortens to respectively drive the upper roller 51 to move up and down.

When the extension length of the movable end of the second hydraulic cylinder 71 is fixed, the seventh hydraulic cylinder 75 is extended to rotate the end bearing 74 toward the upper roller 51 until the end bearing 74 is coaxial with the upper roller 51. The seventh hydraulic cylinder 75 is shortened to drive the end bearing 74 to rotate around the bearing block 73 until the end bearing 74 is separated from the upper roller 51, and after the end bearing 74 is separated from the upper roller 51, the rolled cylinder body can be separated from the gap between the upper roller 51 and the lower roller 52 from the end where the end bearing 74 is located.

In the present embodiment, as shown in fig. 2, an eighth hydraulic cylinder 512 is provided at one side of the heightening block 44, the eighth hydraulic cylinder 512 and the sliding platform 611 are respectively located at different sides of the heightening block 44, and the eighth hydraulic cylinder 512 is located above the upper roller 51.

When the cylinder body is separated from the gap between the upper roller 51 and the lower roller 52 from the end where the end bearing 74 is located, the eighth hydraulic cylinder 512 is extended to press the other end of the upper roller 51, thereby preventing the upper roller 51 from being inclined after the end bearing 74 is separated from the upper roller 51.

Example six:

the present embodiment provides an alternative to the specific structure of the mounting base on the basis of any of the above-described embodiments.

In the present embodiment, as shown in fig. 5 to 10, the mounting base 4 includes a bottom connecting plate 41, a mounting pillar 42, a middle connecting plate 43, and a heightening block 44; the bottom connecting plate 41 is arranged on the foundation 1, and four mounting upright posts 42 are arranged on the bottom connecting plate 41 in two rows and two columns; the second hydraulic cylinder 71 is installed between the two installation columns 42 in the width direction, and the two installation columns 42 in the length direction are connected through a middle connecting plate 43; the heightening block 44 is arranged at one end far away from the head inverting frame 7, and the heightening frame 44 is provided with a lifting frame 45.

Example seven:

the embodiment provides an alternative for the specific structure of the plate feeding mechanism on the basis of any of the above embodiments.

In the present embodiment, as shown in fig. 1, fig. 3 and fig. 4, a plate feeding mechanism 2 is disposed at an inlet end of the rolling mechanism 5, the plate feeding mechanism 2 includes a plurality of driving roller sets 21, the driving roller sets 21 are disposed on a translation guide rail 22, and the translation guide rail 22 is mounted on the foundation 1; the drive roller group 21 is disposed in parallel with the upper roller 51 and the lower roller 52.

Specifically, drive roller set 21 includes a plurality of driving roller units, and a plurality of driving roller units are parallel and equidistant to be set up on roller set frame 23, but roller set frame 23 slidable mounting is on translation guide rail 22, and translation guide rail 22 makes drive roller set 21 required fan-shaped or arc panel when can be used to the transportation processing barrel of taking the tapering taper.

Meanwhile, a feeding calibration mechanism 3 is arranged at one end of the plate feeding mechanism 2 close to the rolling mechanism 5; the feed calibration mechanism 3 comprises position sensors 31 arranged at both ends of the set of drive rollers 21 and a jacking translation element 32 arranged between the set of drive rollers 21.

The position sensors 31 at both ends of the driving roller group 21 are used for calibrating whether the sheet is flush with the inlet end of the rolling mechanism 5. When the sheet material on the driving roller group 21 is not aligned with the inlet end of the rolling mechanism 5, the position sensor 31 recognizes that the lifting translation element 32 lifts to lift the sheet material, and then drives the sheet material to move along the axial direction of the driving roller unit, so that the sheet material is located between the two ends of the upper roller 51 and the lower roller 52.

Jacking translation component 32 includes jacking pneumatic cylinder and runner, and the runner is installed at jacking pneumatic cylinder top, and the jacking pneumatic cylinder is used for jacking panel, and the runner is used for driving panel along driving roller unit axial displacement.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (10)

1. The utility model provides a veneer reeling device with automatically function of rectifying which characterized in that: comprises a plate feeding mechanism (2), a rolling mechanism (5) and a deviation rectifying mechanism (6);

the plate feeding mechanism (2) is arranged at the inlet end of the rolling mechanism (5), and the plate feeding mechanism (2) comprises a plurality of transmission rollers (21) which are arranged in parallel;

the rolling mechanism (5) comprises a lifting upper roller (51) and two lower rollers (52) capable of moving transversely;

the deviation rectifying mechanism (6) comprises a top deviation rectifying mechanism (61) and a lateral deviation rectifying mechanism (62);

the top deviation rectifying mechanism (61) is arranged above the upper roller (51) and can move up and down, the top deviation rectifying mechanism (61) comprises a first supporting roller (612) and a first deviation rectifying roller (613), the first supporting roller (612) and the upper roller (51) are arranged in parallel, and the first deviation rectifying roller (613) and the first supporting roller (612) are perpendicular to each other;

the two sides of the two lower rolls (52) are provided with lateral deviation rectifying mechanisms (62), each lateral deviation rectifying mechanism (62) comprises a mounting plate (621), a second supporting roll (6211) and a second deviation rectifying roll (6256), one side, away from the lower rolls (52), of the mounting plate (621) can rotate around one side close to the lower rolls (52), the mounting plate (621) is evenly provided with the second supporting rolls (6211), the second supporting rolls (6211) are parallel to the lower rolls (52), the two ends, away from one side of the lower rolls (52), of the mounting plate (621) are provided with the second deviation rectifying rolls (6256), and the two second deviation rectifying rolls (6256) on the same mounting plate (621) can be close to or far away from each other;

the first supporting roller (612) is used for supporting the top of the rolled barrel body, and the first deviation rectifying roller (613) abuts against the edge of one side above the barrel body; the second supporting rollers (6211) are used for supporting the cylinder from two sides below the cylinder, and the second deviation rectifying rollers (6256) tightly support edges on two sides of the bottom of the cylinder.

2. The plate rolling device with automatic deviation rectifying function according to claim 1, characterized in that said lateral deviation rectifying mechanism (62) further comprises a first hinged support (622), a second hinged support (623), a fourth hydraulic cylinder (624) and a first translation mechanism (625);

the first hinge seat (622) and the second hinge seat (623) are arranged on one side of the mounting plate (621), the first hinge seat (622) is arranged right above the second hinge seat (623), and one side, close to the lower roller (52), of the mounting plate (621) is hinged to the first hinge seat (622);

the cylinder body of the fourth hydraulic cylinder (624) is hinged with the second hinge seat (623), and the movable end of the fourth hydraulic cylinder (624) is hinged with one side of the mounting plate (621) far away from the lower roller (52);

the first translation mechanism (625) is arranged on the side wall of the mounting plate (621) far away from the lower roller (52).

3. The plate rolling device with the automatic deviation rectifying function according to claim 1, characterized in that the first translation mechanism (625) comprises a mounting seat (6251), a sliding rail (6252), a sliding block (6253), a vertical mounting seat (6254), a guide wheel (6255) and a fifth hydraulic cylinder (6257);

the mounting seat (6251) is mounted on the side wall of the mounting plate (621);

both ends of the sliding rail (6252) are arranged on the mounting seat (6251);

the sliding block (6253) is slidably mounted on the sliding rail (6252);

the vertical mounting seat (6254) is mounted on the sliding block (6253), a guide wheel (6255) is mounted at the top of the vertical mounting seat (6254), and a second deviation rectification roller (6256) is mounted on the side surface of the vertical mounting seat;

one end of the fifth hydraulic cylinder (6257) is installed on the installation seat (6251), and the other end of the fifth hydraulic cylinder (6257) is connected with the sliding block (6253).

4. The rolling device with the automatic deviation rectifying function according to claim 1, wherein the top deviation rectifying mechanism (61) further comprises a sliding installation table (611), the sliding installation table (611) is slidably installed on a lifting frame (45), the lifting frame (45) is installed above the upper roller (51), a sixth hydraulic cylinder (46) is arranged inside the lifting frame (45), and the movable end of the sixth hydraulic cylinder (46) is connected with the sliding installation table (611).

5. The plate rolling device with the automatic deviation rectifying function according to claim 1, characterized in that two ends of the upper roller (51) are mounted on a mounting base (4) in a crossing manner, one end of the upper roller (51) is provided with a first hydraulic cylinder (511), the first hydraulic cylinder (511) is used for driving the upper roller (51) to rotate, and the other end of the upper roller (51) is provided with an inverted head frame (7);

bearing blocks (521) are installed at two ends of the lower roller (52), third hydraulic cylinders (522) are arranged on two sides of the installation base (4), the movable ends of the third hydraulic cylinders (522) are connected with the bearing blocks (521), and the bearing blocks (521) are slidably installed in the installation base (4).

6. A plate rolling device with automatic deviation rectifying function according to claim 1, characterized in that said reversing head frame (7) comprises a hydraulic cylinder fixing frame (72), a bearing block (73), an end bearing (74), a seventh hydraulic cylinder (75) and an adapting block (76);

two ends of the upper roller (51) are respectively provided with a second hydraulic cylinder (71), and the second hydraulic cylinders (71) are used for driving the upper roller (51) to lift;

the bearing block (73) is arranged at the movable end of the second hydraulic cylinder (71), the end bearing (74) is arranged at one end of the upper roller (51), and the end bearing (74) is hinged with the bearing block (73);

one end of the hydraulic cylinder fixing frame (72) is installed on the side wall of the bearing block (73), the other end of the hydraulic cylinder fixing frame is hinged with a cylinder body of a seventh hydraulic cylinder (75), the movable end of the seventh hydraulic cylinder (75) is connected with the adapting block (76), and the adapting block (76) is installed on the side wall of the end bearing (74).

7. The plate rolling device with the automatic deviation rectifying function according to claim 1, characterized in that the mounting base (4) comprises a bottom connecting plate (41), a mounting upright post (42), a middle connecting plate (43) and a heightening block (44);

the bottom connecting plate (41) is arranged on the foundation (1), and four mounting upright posts (42) are arranged on the bottom connecting plate (41) in two rows and two columns;

the second hydraulic cylinder (71) is arranged between two mounting upright columns (42) in the width direction, and the two mounting upright columns (42) in the length direction are connected through a middle connecting plate (43);

the heightening block (44) is arranged at one end far away from the head inverting frame (7), and the heightening frame (44) is provided with a lifting frame (45).

8. The plate rolling device with the automatic deviation rectifying function according to claim 1, characterized in that a plate feeding mechanism (2) is arranged at an inlet end of the plate rolling mechanism (5), the plate feeding mechanism (2) comprises a plurality of driving roller sets (21), the driving roller sets (21) are arranged on a translation guide rail (22), and the translation guide rail (22) is installed on a foundation (1);

the transmission roller group (21) is arranged in parallel with the upper roller (51) and the lower roller (52).

9. The plate rolling device with the automatic deviation rectifying function according to claim 1, characterized in that one end of the plate feeding mechanism (2) close to the rolling mechanism (5) is provided with a feeding calibration mechanism (3);

the feeding calibration mechanism (3) comprises position sensors (31) arranged at two ends of the driving roller set (21) and a jacking translation element (32) arranged between the driving roller set (21).

10. The plate rolling device with the automatic deviation rectifying function according to claim 1, characterized in that an eighth hydraulic cylinder (512) is arranged on one side of the heightening block (44), the eighth hydraulic cylinder (512) and the sliding platform (611) are respectively arranged on different sides of the heightening block (44), and the eighth hydraulic cylinder (512) is arranged above the upper roller (51).

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