CN114654161A - Multi-dimensional stagger correction point fixing machine for thick steel plate - Google Patents

Abstract

The invention relates to the technical field of rim production and processing, in particular to a multi-dimensional stagger correcting and point-fixing machine for a thick steel plate. According to the spot-fixing machine, the alignment device is arranged, so that the spot-fixing machine is suitable for aligning and correcting rims of various types and sizes, compared with the prior art, the spot-fixing machine does not need to debug equipment repeatedly, and the purposes of saving labor and improving production efficiency are achieved.

Description

Thick steel plate multidimensional staggered joint correction point fixing machine

Technical Field

The invention relates to the technical field of rim production and processing, in particular to a multi-dimensional stagger correcting point fixing machine for a thick steel plate.

Background

At present, the point solid machine is the professional equipment who is used for spot welding after rim panel edge rolling, after steel sheet circle edge rolling, corrects the alignment with the point solid machine to the rim opening part, then the manual work is fixed with rim opening part spot welding to the rim welds on the butt welder, and the position when guaranteeing the rim welding is accurate.

The position of the correction structure of the existing point fixing machine is flexible, when different rim sizes are changed on a production line, the position of the correction device of the existing point fixing machine needs to be adjusted again according to the sizes of the rims, and continuous debugging is needed according to corresponding products, so that the labor force is seriously wasted.

In view of the foregoing requirements, a multi-dimensional gap correction point fixing machine for thick steel plates is needed.

Disclosure of Invention

The invention aims to provide a multi-dimensional stagger correcting point fixing machine for a thick steel plate, which aims to solve the technical problem that equipment needs to be debugged repeatedly when the size of a rim is changed in the prior art.

In order to solve the technical problem, the invention provides a multi-dimensional stagger correction point fixing machine for a thick steel plate, which comprises a base and an alignment device, wherein the base is used for correcting a rim and is arranged on a machine body, the alignment device comprises a fixed block, a movable block and an alignment driving piece, a sliding groove is formed in the base, the fixed block and the movable block are respectively positioned on two sides of the rim, the fixed block is fixedly connected with the sliding groove, the movable block is arranged in the sliding groove, the movable block is in sliding connection with the sliding groove, the alignment driving piece is fixedly connected with the base, and the telescopic end of the alignment driving piece is fixedly connected with the movable block.

Through above-mentioned modified technical scheme, during the solid machine of point of use, at first place the rim between movable block and fixed block, then start to adjust driving piece drive movable block well and slide in the spout, utilize movable block and fixed block to adjust well the both ends of rim opening part, then utilize the base to correct rim kneck, then the manual work welds, adjust the device well through setting up, make the solid machine of point be applicable to various models, the rim of various sizes is adjusted well and is corrected, compare in prior art no longer need debug equipment repeatedly, the labour has been practiced thrift in having reached, the purpose of improvement production efficiency.

Furthermore, the movable block is fixedly connected with the alignment driving piece through a guide seat, the guide seat is used for guiding the sliding direction of the movable block, the guide seat is connected with the sliding groove in a sliding mode, and the guide seat is fixedly connected with the movable block.

Through above-mentioned modified technical scheme, make and to adjusting driving piece and promote the guide holder and slide in the spout well, the guide holder drives the movable block and slides in the spout, utilizes the guide capacity of guide holder, promotes the stability of movable block when the spout slides.

Furthermore, a connecting device is arranged between the guide seat and the alignment driving piece, the connecting device comprises a connecting seat and a connecting shaft pin, the connecting seat is fixedly connected with the telescopic end of the alignment driving piece, the guide seat is inserted in a groove of the connecting seat, and the connecting shaft pin penetrates through the connecting seat and the guide seat.

Through above-mentioned modified technical scheme, when using connecting device with the guide holder with adjust the driving piece and be connected well, remove the guide holder and peg graft in the recess of connecting seat, then pass connecting seat and guide holder with the connecting pin, utilize the connecting pin to make guide holder and connecting seat fixed, connecting device simple structure, simple to operate promote the guide holder and adjust the convenience when being connected between the driving piece well.

Further, the guide holder passes through the lateral wall sliding connection of guide subassembly and spout, and the guide subassembly includes guiding groove and guide block, and the guiding groove is seted up at the lateral wall of spout, guide block and guide holder fixed connection, and the guide block is located the guiding groove, guide block and guiding groove sliding connection.

Through above-mentioned modified technical scheme, when the guide holder slided in the spout, the guide holder drove the guide block and slided in the guiding groove, utilized the limiting displacement of guiding groove to the guide block, and the stopper drove the guide holder and slides in the spout is stable.

Furthermore, the fixed block and the movable block are fixedly connected with a pressing block used for pressing the rim, and the pressing block is connected with a pressing driving piece used for driving the pressing block to be close to the rim.

Through the improved technical scheme, when the movable block and the fixed block are respectively positioned at two sides of the rim, the fixed block and the movable block are utilized to align the ports of the spot welding of the rim, and the pressing driving piece is utilized to drive the pressing block to abut against the rim, so that the rim is pressed on the base.

Further, compress tightly the driving piece and include first driving piece, the movable block is fixed through first driving piece and guide holder, and the stiff end of first driving piece passes through fixed plate and guide holder fixed connection, and the flexible end of first driving piece passes fixed plate and movable block fixed connection, first driving piece drive movable block and guide holder sliding connection.

According to the improved technical scheme, the telescopic end of the first driving piece penetrates through the fixed plate to be fixedly connected with the movable block, and the fixed end of the first driving piece is fixedly connected with the guide seat through the fixed plate, so that the movable block is always connected with the guide seat; when the first driving piece is used, the first driving piece is started to drive the movable block to slide relative to the guide seat, and the movable block drives the pressing block to be close to or far away from the rim.

Further, compress tightly the driving piece and include the second driving piece, the fixed block passes through the second driving piece and is connected with the base, the stiff end and the base fixed connection of second driving piece, the flexible end and the fixed block fixed connection of second driving piece, the relative base of second driving piece drive fixed block slides.

Through above-mentioned modified technical scheme, when using the second driving piece, start the second driving piece and drive the fixed block and slide in the spout relative to the base, make the fixed block drive compact heap be close to or keep away from the rim, the second driving piece drives the compact heap through the fixed block and compresses tightly the rim, promotes the convenience when the compact heap compresses tightly the rim.

Further, the fixed block passes through the lateral wall sliding connection of restraint subassembly and spout, and the restraint subassembly includes restraint groove and about piece, and the side wall at the spout is seted up along the slip direction of fixed block in the restraint groove, about piece and fixed block fixed connection, about piece is located the restraint inslot, about piece and restraint groove sliding connection.

Through above-mentioned modified technical scheme, when the fixed block slided in the spout, the fixed block drove about the piece and slided in the restraint groove, utilized about the limiting displacement of groove to about the piece, restricted the slip direction of fixed block, stability when promoting the fixed block and sliding.

Furthermore, the side wall of the sliding groove is provided with a pressing strip for plugging the port of the restraint groove, and the pressing strip is fixedly connected with the side wall of the sliding groove.

Through the improved technical scheme, the port of the restraint groove is plugged by the pressing strip, so that the restraint block always slides in the restraint groove, and the restraint block is prevented from being separated from the restraint groove.

Further, be provided with the orthotic devices who is used for correcting the rim between base and the lathe bed, the base includes fixed part and movable part, fixed part and lathe bed fixed connection, and the movable part slides with the lathe bed and is connected, all sets up on fixed part and the movable part and adjusts the device well, and orthotic devices sets up between movable part and lathe bed.

Through above-mentioned modified technical scheme, when using orthotic devices, at first the kneck that the device was adjusted with the rim well to the utilization is adjusted well, owing to set up the base into fixed part and movable part, makes the both ends at rim kneck fixed with movable part and fixed part respectively, consequently utilizes orthotic devices to drive the port correction of rim kneck through the movable part and aligns to make the base correct the rim.

Further, orthotic devices includes guide rail, slide and correction driving piece, slide and movable part fixed connection, guide rail and lathe bed fixed connection, the perpendicular fixed part of guide rail, slide and guide rail sliding connection, correct the stiff end and the lathe bed fixed connection of driving piece, correct flexible end and slide fixed connection of driving piece.

Through the improved technical scheme, when the correcting device is used, the correcting component is started to push the sliding seat to drive the movable part to slide along the guide rail, the correcting device is simple in structure, the movable part is driven to conveniently slide on the vehicle body, and convenience when the correcting device drives the movable part to slide is improved.

Further, the slide includes bottom plate and slider, bottom plate and movable part fixed connection, the flexible end fixed connection of bottom plate and correction driving piece, the slider is located the one end that sliding base was kept away from to the bottom plate, slider and bottom plate fixed connection, slider and guide rail sliding connection.

Through above-mentioned modified technical scheme, set up the slide into the bottom plate, utilize the bottom plate to support the movable part, utilize slider and slide rail sliding connection, because correct between the drive with bottom plate fixed connection, consequently correct the driving piece and drive the slider through the bottom plate and slide along the slide rail, utilize slider and slide rail restraint bottom plate to drive the gliding direction of movable part.

Furthermore, the guide rail is arranged to be an I-shaped guide rail, a T-shaped groove matched with the guide rail is formed in the sliding block, and one end, far away from the lathe bed, of the guide rail is located in the T-shaped groove.

Through above-mentioned modified technical scheme, set up the guide rail into the guide rail of I shape to keep away from the one end of lathe bed with the guide rail and set up to T type inslot, utilize the limiting displacement of T type groove to the guide rail, make the slider slide along the guide rail is stable.

Furthermore, the bottom plate extends towards one side far away from the fixed part, and the sliding block and the part of the bottom plate extending out of the movable part are fixed through bolts.

Through above-mentioned modified technical scheme, extend the movable part with the bottom plate to fix the slider and the part that the bottom plate extends through the bolt, promote the convenience when slider and bottom plate are fixed.

Furthermore, a reinforcing rib is arranged between the extending part of the bottom plate and the movable part, one side of the reinforcing rib is fixedly connected with the bottom plate, and the other side of the reinforcing rib is fixedly connected with the movable part.

Through above-mentioned modified technical scheme, through setting up the connectivity between strengthening rib reinforcing bottom plate and the movable part, reduce the possibility that takes place to buckle when the bottom plate is promoted by correcting the driving piece through the strengthening rib simultaneously, promote the bearing capacity of bottom plate when being promoted by correcting the driving piece.

By adopting the technical scheme, the invention has the following beneficial effects:

when the point fixing machine is used, a rim is placed between a movable block and a fixed block, an alignment driving piece is started to drive the movable block to slide in a sliding groove, two ends of an opening of the rim are aligned by the movable block and the fixed block, the rim interface is corrected by a base, welding is carried out manually, and the point fixing machine is suitable for aligning and correcting rims of various types and sizes by arranging an alignment device.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the description in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic perspective structure diagram of a multi-dimensional stagger correcting point fixing machine for a thick steel plate according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view of a point fixing machine from another view angle;

FIG. 3 is an enlarged view of a portion A of FIG. 1;

fig. 4 is a partially enlarged view of a portion B in fig. 2.

Reference numerals:

1. a bed body; 2. a base; 21. a fixed part; 22. a movable portion; 3. a rim; 4. an alignment device; 41. a fixed block; 42. a movable block; 43. aligning the driving member; 44. a guide seat; 5. a connecting device; 51. a connecting seat; 52. connecting a shaft pin; 6. a guide assembly; 61. a guide groove; 62. a guide block; 7. a compression block; 8. compressing the driving member; 81. a first driving member; 811. a fixing plate; 82. a second driving member; 9. a restraint assembly; 91. a confinement groove; 92. a constraint block; 10. a corrective device; 101. a guide rail; 102. a slide base; 1021. a base plate; 1022. a slider; 1023. reinforcing ribs; 103; a corrective drive; 20. and (7) pressing strips.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The present invention will be further explained with reference to specific embodiments.

As shown in fig. 1-2, the present embodiment provides a thick steel plate multi-dimensional gap correction point fixing machine, which includes a base 2 and an alignment device 4, wherein the base 2 is used for correcting a rim 3 and is disposed on a bed 1, for easy understanding, the direction of a long side of the bed 1 is set as an X axis, the direction of a short side of the bed 1 is set as a Y axis, and the vertical direction is set as a Z axis, the base 2 is disposed along the X axis, the base 2 is fixedly connected to the bed 1, and the alignment device 4 is disposed on the bed 1.

As shown in fig. 1-3, the alignment device 4 includes a fixed block 41, a movable block 42 and an alignment driving member 43, a sliding slot is disposed on the base 2 along the X-axis direction, the fixed block 41 and the movable block 42 are respectively disposed at two sides of the rim 3, the fixed block 41 and the sliding slot are fixedly connected in the X-axis direction, the movable block 42 is disposed in the sliding slot, the movable block 42 is slidably connected with the sliding slot, and a fixed end of the alignment driving member 43 is fixedly connected with the base 2, in this embodiment, the alignment driving member 43 preferably uses an alignment oil cylinder, the alignment oil cylinder is fixedly connected with the base 2 through an oil cylinder seat, a telescopic end of the alignment driving member 43 is fixedly connected with the movable block 42, a guide seat 44 is disposed between the movable block 42 and the alignment driving member 43, the guide seat 44 is used for guiding the movable block 42 to slide along the sliding slot, the guide seat 44 is fixedly connected with the movable block 42, the guide seat 44 is slidably connected with a side wall of the sliding slot through a guide assembly 6, the guide assembly 6 comprises a guide groove 61 and a guide block 62, the guide groove 61 is arranged on the side wall of the chute along the X axis, the guide block 62 is fixedly connected with the guide seat 44, the guide block 62 is positioned in the guide groove 61, and the guide block 62 is connected with the guide groove 61 in a sliding way; the guide seat 44 is fixedly connected with the alignment driving member 43 through the connecting device 5, the connecting device 5 includes a connecting seat 51 and a connecting shaft pin 52, the connecting seat 51 is fixedly connected with the telescopic end of the alignment driving member 43, in this embodiment, the connecting seat 51 is preferably a U-shaped connecting seat 51, the guide seat 44 is inserted into a groove of the connecting seat 51, and the connecting shaft pin 52 sequentially passes through one side wall of the connecting seat 51, the guide seat 44 and the other side wall of the connecting seat 51.

When the aligning device 4 is used, the aligning driving member 43 is started to extend, the aligning driving member 43 drives the movable block 42 to slide along the X axis through the guide seat 44, at this time, the guide seat 44 drives the guide block 62 to slide in the guide groove 61, and when the movable block 42 pushes the rim 3 to abut against the fixed block 41, the movable block 42 aligns two ends of the opening of the rim 3 in the direction of the X axis.

As shown in fig. 2-4, the fixed block 41 and the movable block 42 are fixedly connected with a pressing block 7 for pressing the rim 3, the pressing block 7 is connected with a pressing driving element 8 for driving the pressing block 7 to approach the rim 3, the pressing driving element 8 drives the pressing block 7 to slide along the Z-axis direction, the pressing driving element 8 includes a first driving element 81 and a second driving element 82, in this embodiment, the first driving element 81 and the second driving element 82 are preferably compression cylinders, the first driving element 81 is disposed at the movable block 42, the first driving element 81 is vertically disposed at the top end of the movable block 42, the movable block 42 is fixed with the guide seat 44 through the first driving element 81, the fixed end of the first driving element 81 is fixedly connected with the guide seat 44 through a fixing plate 811, the fixing plate 811 is fixedly connected with the first driving element 81, the fixing plate 811 is fixedly connected with the guide seat 44, the first driving element 81 is located at a position where the fixing plate 811 is far from the guide seat 44, the telescopic end of the first driving element 81 passes through the fixing plate 811 and is fixedly connected with the movable block 42, and the first driving element 81 drives the movable block 42 to be in sliding connection with the guide seat 44 along the Z axis; in this embodiment, the second driving element 82 is disposed at the fixed block 41, the second driving element 82 is vertically disposed at the bottom end of the fixed block 41, a fixed end of the second driving element 82 is fixedly connected to the base 2, a telescopic end of the second driving element 82 is fixedly connected to the fixed block 41, and the second driving element 82 drives the fixed block 41 to slide along the Z-axis relative to the base 2; the fixed block 41 is connected with the side wall of the sliding groove in a sliding mode through the restraint assembly 9, the restraint assembly 9 comprises a restraint groove 91 and a restraint block 92, the restraint groove 91 is formed in the side wall of the sliding groove along the Z axis, the restraint block 92 is fixedly connected with the fixed block 41, the restraint block 92 is located in the restraint groove 91, the restraint block 92 is connected with the restraint groove 91 in a sliding mode, a pressing strip 20 is arranged at the top end of the side wall of the sliding groove, the pressing strip 20 is used for plugging a port of the restraint groove 91, and the pressing strip 20 is fixedly connected with the side wall of the sliding groove.

When using compact heap 7 to correct rim 3, start to compress tightly driving piece 8, first driving piece 81 extends and promotes the movable block 42 and slides along the Z axle, movable block 42 drives compact heap 7 and rim 3 butt, then restart second driving piece 82, the shrink of second driving piece 82 drives fixed block 41 and slides along the Z axle in the spout, fixed block 41 drives about piece 92 and slides in restraint groove 91, fixed block 41 drives compact heap 7 and rim 3 butt, utilize four compact heaps 7 to compress tightly the both ends of rim 3 respectively on fixed part 21 and movable part 22, compact heap 7 aligns the both ends of rim 3 opening part in the direction of Z axle.

As shown in fig. 1, the base 2 includes a fixed portion 21 and a movable portion 22, the fixed portion 21 and the movable portion 22 are both disposed along an X axis, the fixed portion 21 is fixedly connected with the bed 1, a correction device 10 for correcting the rim 3 is disposed between the movable seat and the bed 1, the correction device 10 is configured to drive the movable portion 22 to slidably connect with the bed 1 along a Y axis, a fixed block 41 and a movable block 42 are disposed on the fixed portion 21 and the movable portion 22, and an alignment driving member 43 is disposed on each of the movable blocks 42 on the fixed portion 21 and the movable portion 22; in this embodiment, the correcting device 10 includes a guide rail 101, a sliding base 102 and a correcting driving member 103, the sliding base 102 is fixedly connected to the movable portion 22, the guide rail 101 is disposed along the Y axis, the guide rail 101 is fixedly connected to the bed 1, the sliding base 102 is slidably connected to the guide rail 101, and a fixed end of the correcting driving member 103 is fixedly connected to the bed 1.

As shown in fig. 1, the sliding base 102 includes a bottom plate 1021 and a sliding block 1022, the bottom plate 1021 is horizontally disposed, the bottom plate 1021 is fixedly connected with the movable portion 22, the bottom plate 1021 is fixedly connected with the telescopic end of the correction driving member 103, the sliding block 1022 is located on one side of the bottom plate 1021 far away from the sliding base 2, the sliding block 1022 is fixedly connected with the bottom plate 1021, and the sliding block 1022 is slidably connected with the guide rail 101; bottom plate 1021 extends to the one side of keeping away from fixed part 21, and the part that activity portion 22 is extended with bottom plate 1021 to slider 1022 passes through the bolt fastening, is provided with the strengthening rib 1023 of right triangle between the part that bottom plate 1021 extends and activity portion 22, one side right-angle side and the bottom plate 1021 fixed connection of strengthening rib 1023, the other side right-angle side and the activity portion 22 fixed connection of strengthening rib 1023.

When the correcting device 10 is used, the correcting driving part 103 is started, the correcting driving part 103 pushes the sliding seat 102 to slide along the Y axis, the correcting driving part 103 pushes the bottom plate 1021 to drive the sliding block 1022 to slide along the guide rail 101, the sliding seat 102 drives the movable part 22 to be close to the fixed part 21, so that two ends of the opening of the rim 3 are abutted and aligned in the direction of the Y axis, and then a worker performs spot welding.

The implementation principle of the thick steel plate multidimensional stagger correction point fixing machine provided by the embodiment of the invention is as follows: when the spot-fixing machine is used, firstly, the rim 3 is moved to be positioned between the fixed block 41 and the movable block 42, the two ends of the opening of the rim 3 are respectively positioned at the fixed part 21 and the movable part 22, firstly, the alignment driving part 43 is started to extend, the alignment driving part 43 drives the movable block 42 to slide along the X axis through the guide seat 44, at the moment, the guide seat 44 drives the guide block 62 to slide in the guide groove 61, and when the movable block 42 pushes the rim 3 to be abutted against the fixed block 41, the movable block 42 aligns the two ends of the opening of the rim 3 in the direction of the X axis; secondly, starting the pressing driving part 8, extending the first driving part 81 to push the movable block 42 to slide along the Z axis, driving the pressing block 7 to abut against the rim 3 by the movable block 42, then starting the second driving part 82, shrinking the second driving part 82 to drive the fixed block 41 to slide along the Z axis in the sliding groove, driving the constraint block 92 to slide in the constraint groove 91 by the fixed block 41, driving the pressing block 7 to abut against the rim 3 by the fixed block 41, respectively pressing two ends of the rim 3 on the fixed part 21 and the movable part 22 by using the four pressing blocks 7, and aligning two ends of the opening of the rim 3 in the Z axis direction by the pressing block 7; and thirdly, starting the correction driving part 103, enabling the correction driving part 103 to push the sliding seat 102 to slide along the Y axis, enabling the correction driving part 103 to push the bottom plate 1021 to drive the sliding block 1022 to slide along the guide rail 101, enabling the sliding seat 102 to drive the movable part 22 to be close to the fixed part 21, enabling two ends of the opening of the rim 3 to be abutted and aligned in the Y axis direction, and then enabling a worker to perform spot welding.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and these modifications or substitutions do not depart from the spirit of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides a thick steel plate multidimension stagger correction point machine of consolidating, a serial communication port, this point machine of consolidating is including being used for correcting rim (3) and setting up base (2) on lathe bed (1) and adjusting device (4) well, it includes fixed block (41) to adjust device (4) well, movable block (42) and adjusting driving piece (43) well, the spout has been seted up on base (2), fixed block (41) and movable block (42) are located the both sides of rim (3) respectively, fixed block (41) and spout fixed connection, movable block (42) set up in the spout, movable block (42) and spout sliding connection, adjust driving piece (43) and base (2) fixed connection well, adjust the flexible end and movable block (42) fixed connection of driving piece (43) well.

2. The multi-dimensional gap correction point fixing machine for the thick steel plate according to claim 1, wherein the movable block (42) is fixedly connected with the alignment driving member (43) through a guide seat (44), the guide seat (44) is used for guiding the sliding direction of the movable block (42), the guide seat (44) is slidably connected with the sliding groove, and the guide seat (44) is fixedly connected with the movable block (42).

3. The multi-dimensional stagger correcting and point fixing machine for the thick steel plate according to claim 2, wherein a connecting device (5) is arranged between the guide seat (44) and the aligning driving member (43), the connecting device (5) comprises a connecting seat (51) and a connecting shaft pin (52), the connecting seat (51) is fixedly connected with the telescopic end of the aligning driving member (43), the guide seat (44) is inserted into a groove of the connecting seat (51), and the connecting shaft pin (52) penetrates through the connecting seat (51) and the guide seat (44).

4. The thick steel plate multi-dimensional dislocation correction point fixing machine according to claim 2, wherein the guide seat (44) is connected with the side wall of the chute in a sliding manner through a guide assembly (6), the guide assembly (6) comprises a guide groove (61) and a guide block (62), the guide groove (61) is formed in the side wall of the chute, the guide block (62) is fixedly connected with the guide seat (44), the guide block (62) is located in the guide groove (61), and the guide block (62) is connected with the guide groove (61) in a sliding manner.

5. The thick steel plate multi-dimensional stagger correcting point fixing machine according to claim 1, wherein the fixed block (41) and the movable block (42) are both fixedly connected with a pressing block (7) for pressing the rim (3), and the pressing block (7) is connected with a pressing driving piece (8) for driving the pressing block (7) to be close to the rim (3).

6. The thick steel plate multi-dimensional stagger correcting point fixing machine according to claim 5, wherein the compressing driving member (8) comprises a first driving member (81), the movable block (42) is fixed with the guide seat (44) through the first driving member (81), the fixed end of the first driving member (81) is fixedly connected with the guide seat (44) through a fixed plate (811), the telescopic end of the first driving member (81) penetrates through the fixed plate (811) to be fixedly connected with the movable block (42), and the first driving member (81) drives the movable block (42) to be slidably connected with the guide seat (44).

7. The thick steel plate multi-dimensional stagger correcting point fixing machine according to claim 5, wherein the pressing driving member (8) comprises a second driving member (82), the fixed block (41) is connected with the base (2) through the second driving member (82), the fixed end of the second driving member (82) is fixedly connected with the base (2), the telescopic end of the second driving member (82) is fixedly connected with the fixed block (41), and the second driving member (82) drives the fixed block (41) to slide relative to the base (2).

8. The thick steel plate multi-dimensional dislocation correction point fixing machine according to claim 7, wherein the fixing block (41) is connected with the side wall of the sliding chute in a sliding manner through a restraining assembly (9), the restraining assembly (9) comprises a restraining groove (91) and a restraining block (92), the restraining groove (91) is formed in the side wall of the sliding chute in the sliding direction of the fixing block (41), the restraining block (92) is fixedly connected with the fixing block (41), the restraining block (92) is located in the restraining groove (91), and the restraining block (92) is connected with the restraining groove (91) in a sliding manner.

9. The thick steel plate multi-dimensional stagger correcting point fixing machine according to claim 1, wherein a correcting device (10) for correcting a rim (3) is arranged between the base (2) and the machine body (1), the base (2) comprises a fixed part (21) and a movable part (22), the fixed part (21) is fixedly connected with the machine body (1), the movable part (22) is connected with the machine body (1) in a sliding manner, the fixed part (21) and the movable part (22) are both provided with an aligning device (4), and the correcting device (10) is arranged between the movable part (22) and the machine body (1).

10. The thick steel plate multi-dimensional gap correction point fixing machine according to claim 9, wherein the correction device (10) comprises a guide rail (101), a sliding seat (102) and a correction driving member (103), the sliding seat (102) is fixedly connected with the movable part (22), the guide rail (101) is fixedly connected with the machine body (1), the guide rail (101) is vertically fixed to a fixed part (21), the sliding seat (102) is slidably connected with the guide rail (101), the fixed end of the correction driving member (103) is fixedly connected with the machine body (1), and the telescopic end of the correction driving member (103) is fixedly connected with the sliding seat (102).

Images