CN112338416A

CN112338416A - Splicing device before steel plate welding

Info

Publication number: CN112338416A
Application number: CN202011219385.2A
Authority: CN
Inventors: 王英杰
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-04
Filing date: 2020-11-04
Publication date: 2021-02-09

Abstract

The invention provides a steel plate welding and splicing device which comprises a rack, a relative moving part, a pressing part, a splicing adjusting part and a roller extruding part, wherein the rack is fixedly connected with the rack; the steel plate splicing machine is characterized in that the rack is an installation platform of a relative moving part, a counter-pressing part, a splicing adjusting part and a roller extrusion part, a sensor for detecting the splicing state of steel plates is arranged on the rack, the two counter-pressing parts are used for respectively aligning, adjusting and transporting the steel plates, and the splicing adjusting part and the rack work in a matched mode, so that the splicing surfaces of the steel plates meet requirements.

Description

Splicing device before steel plate welding

Technical Field

The invention relates to the technical field related to steel welding, in particular to a splicing device before steel plate welding.

Background

Welding, also known as fusion, welding, is a manufacturing process and technique for joining metals or other thermoplastic materials, such as plastics, in a heated, high temperature or high pressure manner, and modern welding uses a wide variety of energy sources, including gas flame, electric arc, laser, electron beam, friction, ultrasonic, and the like. In addition to use in a factory, welding can be performed in a variety of environments, such as the field, underwater, and space. Wherever the welding, the welding all need be spliced in advance to being welded material, makes the face of weld contact, guarantees the bonding wire parallel and level, just enables welding quality and obtains improving, but the concatenation process of material is loaded down with trivial details, need carry out a lot of adjustments, consequently needs a steel sheet splicing apparatus before welding.

Disclosure of Invention

Aiming at the technical problem, the invention provides a splicing device before welding of steel plates, which solves the problem of complex splicing work of materials before welding and improves the working efficiency.

The technical scheme adopted by the invention is as follows: a steel plate welding and splicing device comprises a rack, a relative moving component, a pressing component, a splicing adjusting component and a roller extruding component.

The frame, include: adjustment part mounting bracket, removal guide pillar, lift guide pillar, relative movement part include: remove lead screw motor, levogyration lead screw, dextrorotation lead screw, the counterpressure part include: the removal frame, concatenation adjusting part, include: lift lead screw, lift lead screw motor, elevating platform, gyro wheel extrusion part, include: the device comprises a belt wheel motor, a roller carrier, a first roller carrier pressure spring, a swing rod, an eccentric wheel and a second roller carrier pressure spring.

The left-handed screw rod and the right-handed screw rod are respectively and rotatably installed on the rack, the movable screw rod motor is fixedly installed on the rack, the two movable frames are uniformly distributed on two sides of the rack, the two movable frames are respectively and slidably installed on the movable guide pillar, the two movable frames are respectively connected with the left-handed screw rod and the right-handed screw rod through screw pairs, the lifting screw rod motor is fixedly installed on the adjusting component installation frame, the lifting screw rod is rotatably installed on the adjusting component installation frame, the lifting table is slidably installed on the lifting guide pillar, the belt pulley motor is fixedly installed on the movable frames, the eccentric wheel is rotatably installed on the movable frames, one end of the swing rod is rotatably installed on the movable frames, the roller frame is slidably installed on the side face of the movable frame, the roller frame pressure spring I and the roller, The other end of the second pressure spring of the roller carrier is in contact with the movable frame.

Furthermore, the rack also comprises a splicing welding line detection sensor; the adjusting part mounting frame is fixedly mounted on the rack, the lifting guide pillar is fixedly mounted on the adjusting part mounting frame, the rack is further provided with a splicing welding wire detection sensor, the splicing welding wire detection sensor can detect welding wires of steel plates so as to achieve accurate splicing of welding surfaces of the steel plates, and the moving guide pillar is fixedly mounted on the rack.

Further, the relative movement component also comprises a coupler; one ends of the left-handed screw rod and the right-handed screw rod are connected through a coupler, the turning directions of the left-handed screw rod and the right-handed screw rod are opposite, and the movable screw rod motor is fixedly connected with one end of the left-handed screw rod.

Furthermore, the counter-pressing component also comprises a first extrusion plate, a compression spring of the extrusion plate, a second extrusion plate, a first compression spring of a steel plate auxiliary roller, a second compression spring of the steel plate auxiliary roller and an extrusion plate cylinder; the two moving frames are provided, the first extrusion plate and the second extrusion plate are respectively arranged on the inner side of the moving frame in a sliding manner, an extrusion plate pressure spring is sleeved between the first extrusion plate and the second extrusion plate, two ends of the extrusion plate pressure spring are respectively contacted with the first extrusion plate and the second extrusion plate, an extrusion plate cylinder is fixedly arranged on the moving frame, push rods of the extrusion plate cylinder are respectively and fixedly connected to the first extrusion plate and the second extrusion plate, and the extrusion plate cylinder can control the first extrusion plate and the second extrusion plate to move, the steel plate auxiliary roller has a plurality of, the steel plate auxiliary roller is rotatably installed in the movable frame, a first steel plate auxiliary roller pressure spring and a second steel plate auxiliary roller pressure spring are sleeved on two sides of the steel plate auxiliary roller, one end of the first steel plate auxiliary roller pressure spring and one end of the second steel plate auxiliary roller pressure spring are respectively in contact with the first extrusion plate and the second extrusion plate, and the other end of the first steel plate auxiliary roller pressure spring and the other end of the second steel plate auxiliary roller pressure spring are respectively in contact with two end faces of the steel plate auxiliary roller.

Furthermore, the splicing adjusting component also comprises a first extrusion adjusting rod, an adjusting connecting rod, a lifting plate, an adjusting rod motor and a second extrusion adjusting rod; one end of the lifting screw is fixedly connected with a lifting screw motor, the lifting plate is fixedly connected with the lifting table, the lifting table is connected with the lifting screw through a screw pair, the adjusting rod motor is fixedly installed on the lifting plate, one end of the first extrusion adjusting rod is fixedly connected with the adjusting rod motor, the second extrusion adjusting rod is rotatably installed on the lifting plate, and two ends of the adjusting connecting rod are respectively and rotatably connected with the first extrusion adjusting rod and the second extrusion adjusting rod.

Furthermore, the roller extrusion component also comprises a belt, a belt wheel I, an extrusion roller, a belt wheel II and an eccentric wheel shaft; the first belt wheel is fixedly connected with a belt wheel motor, the eccentric wheel shaft is fixedly connected with an eccentric wheel and a second belt wheel, the second belt wheel and the first belt wheel are connected through a belt, the outer contour of the eccentric wheel is in contact with the side face of a swing rod, a plurality of extrusion rollers are arranged on a roller carrier in a rotating mode, one end of the swing rod is in contact with the roller carrier, and one ends of a first roller carrier pressure spring and a second roller carrier pressure spring are in contact with the roller carrier.

Compared with the prior art, the invention has the beneficial effects that: (1) the verticality of the steel plate can be adjusted; (2) the adjusted steel plate can be limited; (3) the three side surfaces of the steel plate after limiting are rollers, and the splicing adjusting part can be used for carrying out left and right fine adjustment; (4) the splicing welding line detection sensor can detect the contact position state of the dry plate, and further achieve the welding requirement.

Drawings

Fig. 1 and 2 are schematic views of the overall structure of the present invention.

Fig. 3 and 4 are schematic views of the present invention in a partially enlarged structure.

Fig. 5 is a schematic structural diagram of the moving frame according to the present invention.

FIG. 6 is a schematic view of the roller frame according to the present invention.

Reference numerals: 1-a frame; 2-a relative moving part; 3-a counter-pressure component; 4-splicing adjustment means; 5-roller extrusion component; 101-adjusting member mounting; 102-splice wire detection sensors; 103-moving the guide post; 104-lifting guide post; 201-moving screw rod motor; 202-left-handed screw rod; 203-a coupler; 204-right-handed screw rod; 301-a first extrusion plate; 302-extruding a plate compression spring; 303-extruding a second plate; 304-a mobile rack; 305-pressing a first steel plate auxiliary roller; 306-steel plate auxiliary rollers; 307-steel plate auxiliary roller pressure spring II; 308-stripper plate cylinder; 401-pressing the adjusting rod I; 402-adjusting the connecting rod; 403-lifting plate; 404-lifting screw rod; 405-a lifting screw motor; 406-a lift table; 407-adjusting rod motor; 408-extruding the adjusting rod II; 501-belt wheel motor; 502-a belt; 503-pulley one; 504-roller frame; 505-squeeze rolls; 506-a first roller carrier pressure spring; 507-pulley two; 508-a swing rod; 509-eccentric axle; 510-eccentric wheel; 511-a second roller carrier pressure spring.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example (b): as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, and fig. 6: a steel plate welding and splicing device comprises a frame 1, a relative moving component 2, a pressing component 3, a splicing adjusting component 4 and a roller extrusion component 5.

The frame 1 includes: the adjusting member mounting frame 101, the moving guide post 103, and the elevating guide post 104, and the relative moving member 2 includes: remove lead screw motor 201, levogyration lead screw 202, dextrorotation lead screw 204, to pressing the part 3 to include: the moving frame 304, the splice adjustment member 4 includes: lifting screw 404, lifting screw motor 405, elevating platform 406, gyro wheel extrusion part 5 includes: a belt wheel motor 501, a roller frame 504, a first roller frame pressure spring 506, a swing rod 508, an eccentric wheel 510 and a second roller frame pressure spring 511.

A left-handed screw rod 202 and a right-handed screw rod 204 are respectively and rotatably installed on a machine frame 1, a moving screw rod motor 201 is fixedly installed on the machine frame 1, two moving frames 304 are uniformly distributed on two sides of the machine frame 1, the two moving frames 304 are respectively and slidably installed on a moving guide post 103, the two moving frames 304 are respectively connected with the left-handed screw rod 202 and the right-handed screw rod 204 through screw pairs, a lifting screw rod motor 405 is fixedly installed on an adjusting part installation frame 101, a lifting screw rod 404 is rotatably installed on the adjusting part installation frame 101, a lifting platform 406 is slidably installed on a lifting guide post 104, a belt wheel motor 501 is fixedly installed on the moving frames 304, an eccentric wheel 510 is rotatably installed on the moving frames 304, one end of a swing rod 508 is rotatably installed on the moving frame 304, one end of the swing rod 508 is rotatably installed on the moving frame 304, a roller frame 504 is slidably installed on the side surface of the moving frame 304, the other ends of the first roller frame pressure spring 50 and the second roller frame pressure spring 511 are in contact with the movable frame 304.

The rack 1 further comprises a splice wire detection sensor 102; adjusting part mounting bracket 101 fixed mounting is in frame 1, lifting guide post 104 fixed mounting is on adjusting part mounting bracket 101, concatenation bonding wire detection sensor 102 still has in frame 1, concatenation bonding wire detection sensor 102 can detect the steel sheet bonding wire, in order to reach the accurate concatenation of steel sheet face of weld, remove guide post 103 fixed mounting in frame 1.

The relatively moving member 2 further includes a coupling 203; one ends of the left-handed screw rod 202 and the right-handed screw rod 204 are connected through a coupler 203, the turning directions of the left-handed screw rod 202 and the right-handed screw rod 204 are opposite, and the movable screw rod motor 201 is fixedly connected with one end of the left-handed screw rod 202. The movable screw rod motor 201 controls the left-handed screw rod 202 to rotate, and under the action of the coupler 203, the left-handed screw rod 202 and the right-handed screw rod 204 rotate simultaneously, so that the two opposite pressing components 3 move oppositely until the steel plates are contacted.

The counter-pressing component 3 further comprises a first extrusion plate 301, a compression spring 302 of the extrusion plate, a second extrusion plate 303, a first compression spring 305 of a steel plate auxiliary roller, a steel plate auxiliary roller 306, a second compression spring 307 of the steel plate auxiliary roller and an extrusion plate cylinder 308; the two movable frames 304 are provided, a first extrusion plate 301 and a second extrusion plate 303 are respectively slidably mounted on the inner side of the movable frame 304, an extrusion plate pressure spring 302 is sleeved between the first extrusion plate 301 and the second extrusion plate 303, two ends of the extrusion plate pressure spring 302 are respectively in contact with the first extrusion plate 301 and the second extrusion plate 303, an extrusion plate cylinder 308 is fixedly mounted on the movable frame 304, push rods of the extrusion plate cylinder 308 are respectively and fixedly connected to the first extrusion plate 301 and the second extrusion plate 303, the first extrusion plate 301 and the second extrusion plate 303 can be controlled by the extrusion plate cylinder 308 to move, a plurality of steel plate auxiliary rollers 306 are provided, the steel plate auxiliary rollers 306 are rotatably mounted inside the movable frame 304, a first steel plate auxiliary roller pressure spring 305, a second steel plate auxiliary roller pressure spring 307 are sleeved on two sides of the steel plate auxiliary rollers 306, one end of the first steel plate auxiliary roller pressure spring 305 and one end of the second steel plate auxiliary roller pressure spring 307 are respectively in contact with the, The other end of the second steel plate auxiliary roller pressure spring 307 is respectively contacted with two end faces of the second steel plate auxiliary roller 306. The steel plate is placed between the first extrusion plate 301 and the second extrusion plate 303 respectively, the bottom of the steel plate is in contact with the steel plate auxiliary roller 306, the steel plate auxiliary roller 306 facilitates sliding of the steel plate, the first extrusion plate 301 and the second extrusion plate 303 are controlled by the extrusion plate cylinder 308 to move, the first steel plate auxiliary roller pressure spring 305, the second steel plate auxiliary roller pressure spring 307 and the extrusion plate pressure spring 302 are compressed under the stress, the first steel plate auxiliary roller pressure spring 305, the second steel plate auxiliary roller pressure spring 307 and the first extrusion plate 301 and the second extrusion plate 303 are convenient to extrude under the counter force of the extrusion plate pressure spring 302 and return to the initial position, the first extrusion plate 301 and the second extrusion plate 303 move relatively and contact the steel plate, and perpendi.

The splicing adjusting component 4 further comprises a first extrusion adjusting rod 401, an adjusting connecting rod 402, a lifting plate 403, an adjusting rod motor 407 and a second extrusion adjusting rod 408; one end of a lifting screw rod 404 is fixedly connected with a lifting screw rod motor 405, a lifting plate 403 is fixedly connected with a lifting table 406, the lifting table 406 is connected with the lifting screw rod 404 through a screw pair, an adjusting rod motor 407 is fixedly installed on the lifting plate 403, one end of a first extrusion adjusting rod 401 is fixedly connected with the adjusting rod motor 407, a second extrusion adjusting rod 408 is rotatably installed on the lifting plate 403, and two ends of an adjusting connecting rod 402 are respectively rotatably connected with the first extrusion adjusting rod 401 and the second extrusion adjusting rod 408. The lifting screw motor 405 controls the lifting screw 404 to rotate, and then the lifting table 406 moves, so that the lifting screw 404 and the second extrusion adjusting rod 408 are located on the outer side surface of the steel plate, according to a detection signal of the splicing welding wire detection sensor 102, the adjusting rod motor 407 controls the first extrusion adjusting rod 401 to rotate, under the action of the adjusting connecting rod 402, the second extrusion adjusting rod 408 rotates simultaneously, one end of the first extrusion adjusting rod 401 contacts with the side surface of the steel plate and extrudes the bottom surface of the steel plate. Two sides all contact with the gyro wheel, move under the effect of extrusion regulating lever 401, and then another steel sheet moves thereupon, according to concatenation bonding wire detection sensor 102's position detection information, the steerable extrusion regulating lever 401 of regulating lever motor 407 just reversing, extrusion regulating lever two 408 are to two steel sheet extrusion states, and the bonding wire of two steel sheets reaches the position requirement of concatenation bonding wire detection sensor 102, the welding of the later stage of being convenient for.

The roller pressing component 5 further comprises a belt 502, a first belt wheel 503, a pressing roller 505, a second belt wheel 507 and an eccentric wheel shaft 509; the first belt wheel 503 is fixedly connected with a belt wheel motor 501, an eccentric wheel shaft 509 is fixedly connected with an eccentric wheel 510 and a second belt wheel 507, the second belt wheel 507 and the first belt wheel 503 are connected through a belt 502, the outer contour of the eccentric wheel 510 is in contact with the side face of a swing rod 508, a plurality of extrusion rollers 505 are arranged, the extrusion rollers 505 are rotatably installed on the roller frame 504, one end of the swing rod 508 is in contact with the roller frame 504, and one ends of a first roller frame pressure spring 506 and a second roller frame pressure spring 511 are in contact with the roller frame 504. The belt wheel motor 501 controls the belt wheel I503 to rotate, under the action of the belt 502 and the belt wheel II 507, the eccentric wheel 510 rotates, the swing rod 508 is stressed to swing, the roller frame compression spring I506 is stressed to compress, the counter force of the roller frame compression spring I506 is convenient for the roller frame 504 to return to the initial position, the roller frames 504 are arranged on two sides of the steel plate, the roller in front of the roller frame 504 is in contact with the steel plate, the adjusted steel plate can be limited, and the first extrusion plate 301 and the second extrusion plate 303 are prevented from inclining again after being separated from the side face of the steel plate.

The working principle of the invention is as follows: the steel plate is respectively placed between a first extrusion plate 301 and a second extrusion plate 303, the bottom of the steel plate is in contact with a steel plate auxiliary roller 306, the steel plate auxiliary roller 306 facilitates the sliding of the steel plate, an extrusion plate cylinder 308 controls the first extrusion plate 301 and the second extrusion plate 303 to move, a first steel plate auxiliary roller pressure spring 305, a second steel plate auxiliary roller pressure spring 307 and an extrusion plate pressure spring 302 are compressed under the action of force, the first extrusion plate 301 and the second extrusion plate 303 return to the initial positions under the action of the counter force of the first extrusion plate 308, the first extrusion plate 301 and the second extrusion plate 303 move relatively and contact the steel plate to adjust the verticality of the steel plate, a first belt wheel 503 is controlled by a belt wheel motor 501 to rotate, an eccentric wheel 510 rotates under the action of a belt 502 and a second belt wheel 507, a swing rod 508 swings under the action of force, the first roller frame pressure spring 506 is compressed under the action of force, and the counter force of the, the two sides of the steel plate are provided with the roller frames 504, the rollers in front of the roller frames 504 are contacted with the steel plate, the position of the adjusted steel plate can be limited, the first extrusion plate 301 and the second extrusion plate 303 are prevented from inclining again after being separated from the side surface of the steel plate, the left-handed screw 202 is controlled by the movable screw motor 201, the left-handed screw 202 and the right-handed screw 204 are simultaneously rotated under the action of the coupler 203, the two opposite pressing components 3 move oppositely until the steel plate is contacted, the lifting screw motor 405 controls the lifting screw 404 to rotate, the lifting table 406 moves, the lifting screw 404 and the second extrusion adjusting rod 408 are positioned on the outer side surface of the steel plate, the first extrusion adjusting rod 401 is controlled by the adjusting rod motor 407 to rotate according to the detection signal of the splicing welding line detection sensor 102, the second extrusion adjusting rod 408 is simultaneously rotated under the action of the adjusting connecting rod 402, one end of the first extrusion, the bottom surface of the steel plate. Two sides all contact with the gyro wheel, move under the effect of extrusion regulating lever 401, and then another steel sheet moves thereupon, according to concatenation bonding wire detection sensor 102's position detection information, the steerable extrusion regulating lever 401 of regulating lever motor 407 just reversing, extrusion regulating lever two 408 are to two steel sheet extrusion states, and the bonding wire of two steel sheets reaches the position requirement of concatenation bonding wire detection sensor 102, the welding of the later stage of being convenient for.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A steel plate welding and splicing device comprises a rack (1), a relative moving part (2), a pressing part (3), a splicing adjusting part (4) and a roller extrusion part (5); the method is characterized in that:

the frame 1 comprises: an adjusting part mounting rack (101), a moving guide column (103) and a lifting guide column (104);

the relative movement member 2 includes: a movable screw motor (201), a left-handed screw (202) and a right-handed screw (204);

the pressing component (3) comprises: a moving rack (304);

the splicing adjustment component (4) comprises: a lifting screw rod (404), a lifting screw rod motor (405) and a lifting platform (406);

the roller pressing part (5) comprises: a belt wheel motor (501), a roller carrier (504), a first roller carrier compression spring 506, a swing rod (508), an eccentric wheel (510) and a second roller carrier compression spring (511);

the left-handed screw rod 202 and the right-handed screw rod 204 are respectively and rotatably installed on the rack 1, the mobile screw rod motor 201 is fixedly installed on the rack 1, the two mobile frames 304 are uniformly distributed on two sides of the rack 1, the two mobile frames 304 are respectively and slidably installed on the mobile guide post 103, the two mobile frames 304 are respectively and spirally connected with the left-handed screw rod 202 and the right-handed screw rod 204, the lifting screw rod motor 405 is fixedly installed on the adjusting component installation frame 101, the lifting screw rod 404 is rotatably installed on the adjusting component installation frame 101, the lifting table 406 is slidably installed on the lifting guide post 104, the belt wheel motor 501 is fixedly installed on the mobile frames 304, the eccentric wheel 510 is rotatably installed on the mobile frames 304, one end of the swing rod 508 is rotatably installed on the mobile frames 304, one end of a swing rod 508 is rotatably installed on the moving frame (304), the roller frame (504) is installed on the side face of the moving frame (304) in a sliding mode, a first roller frame pressure spring (506) and a second roller frame pressure spring (511) are sleeved on a side face cylinder of the moving frame (304) respectively, and the other ends of the first roller frame pressure spring (506) and the second roller frame pressure spring (511) are in contact with the moving frame (304).

2. The steel plate welding and splicing device according to claim 1, wherein: the rack (1) further comprises a splicing welding line detection sensor (102); adjusting part mounting bracket (101) fixed mounting on frame (1), lifting guide pillar (104) fixed mounting is on adjusting part mounting bracket (101), frame (1) on splice bonding wire detection sensor (102) still, splice bonding wire detection sensor (102) can detect the steel sheet bonding wire to reach the accurate concatenation of steel sheet bonding surface, remove guide pillar (103) fixed mounting on frame (1).

3. The steel plate welding and splicing device according to claim 1, wherein: the relative moving component (2) further comprises a coupler (203); one ends of the left-handed screw rod (202) and the right-handed screw rod (204) are connected through a coupler (203), the turning directions of the left-handed screw rod (202) and the right-handed screw rod (204) are opposite, and the movable screw rod motor (201) is fixedly connected with one end of the left-handed screw rod (202).

4. The steel plate welding and splicing device according to claim 1, wherein: the opposite-pressing component (3) further comprises a first extrusion plate (301), a first extrusion plate pressure spring (302), a second extrusion plate (303), a first steel plate auxiliary roller pressure spring (305), a first steel plate auxiliary roller (306), a second steel plate auxiliary roller pressure spring (307) and two extrusion plate cylinders (308), the two extrusion plates (301) and the two extrusion plates (303) are respectively installed on the inner side of the movable frame (304) in a sliding mode, the extrusion plate pressure springs (302) are sleeved between the first extrusion plate (301) and the second extrusion plate (303), two ends of each extrusion plate pressure spring (302) are respectively in contact with the first extrusion plate (301) and the second extrusion plate (303), the extrusion plate cylinders (308) are fixedly installed on the movable frame (304), push rods of the extrusion plate cylinders (308) are respectively and fixedly connected to the first extrusion plate (301) and the second extrusion plate (303), and the extrusion plate cylinders (308) can control the first extrusion plate (301), Two (303) motion of stripper plate, steel sheet auxiliary roller (306) have a plurality ofly, steel sheet auxiliary roller (306) are rotatory to be installed inside removing frame (304), the both sides cover of steel sheet auxiliary roller (306) has steel sheet auxiliary roller pressure spring (305), steel sheet auxiliary roller pressure spring two (307), steel sheet auxiliary roller pressure spring one (305), the one end of steel sheet auxiliary roller pressure spring two (307) respectively with stripper plate one (301), stripper plate two (303) contact, steel sheet auxiliary roller pressure spring one (305), the other end of steel sheet auxiliary roller pressure spring two (307) respectively with two end face contact of steel sheet auxiliary roller (306).

5. The steel plate welding and splicing device according to claim 1, wherein: the splicing adjusting component (4) further comprises a first extrusion adjusting rod (401), an adjusting connecting rod (402), a lifting plate (403), an adjusting rod motor (407) and a second extrusion adjusting rod (408); one end of a lifting screw rod (404) is fixedly connected with a lifting screw rod motor (405), a lifting plate (403) is fixedly connected with a lifting table (406), the lifting table (406) is connected with the lifting screw rod (404) through a screw pair, an adjusting rod motor (407) is fixedly installed on the lifting plate (403), one end of a first extrusion adjusting rod (401) is fixedly connected with the adjusting rod motor (407), a second extrusion adjusting rod (408) is rotatably installed on the lifting plate (403), and two ends of an adjusting connecting rod (402) are respectively rotatably connected with the first extrusion adjusting rod (401) and the second extrusion adjusting rod (408).

6. The steel plate welding and splicing device according to claim 1, wherein: the roller pressing component (5) further comprises a belt (502), a first belt wheel (503), a pressing roller (505), a second belt wheel (507) and an eccentric wheel shaft (509); the first belt wheel (503) is fixedly connected with a belt wheel motor (501), an eccentric wheel shaft (509) is fixedly connected with an eccentric wheel (510) and a second belt wheel (507), the second belt wheel (507) and the first belt wheel (503) are connected through a belt (502), the outer contour of the eccentric wheel (510) is in contact with the side face of a swing rod (508), a plurality of extrusion rollers (505) are arranged, the extrusion rollers (505) are rotatably installed on a roller frame (504), one end of the swing rod (508) is in contact with the roller frame (504), and one ends of a first roller frame pressure spring (506) and a second roller frame pressure spring (511) are in contact with the roller frame (504).