CN219900725U - Door plant assembly spot welding mechanism - Google Patents

Abstract

The utility model discloses a door plate assembly spot welding mechanism, and belongs to the field of container production. The utility model provides a door plate assembly spot welding mechanism, which comprises a plate feeding device and an assembly spot welding device arranged on one side of the plate feeding device; the plate conveying device comprises a first conveying assembly and a second conveying assembly longitudinally arranged right below the first conveying assembly; a longitudinal conveying unit is arranged on one side, close to the plate conveying device, of the assembly spot welding device; the longitudinal conveying unit is opposite to the second conveying assembly, the first conveying assembly in the plate conveying device conveys the door plates stacked on one side of the second conveying assembly to the second conveying assembly, and the second conveying assembly conveys the door plates from the longitudinal conveying unit to the assembly spot welding device in a transitional mode along the longitudinal conveying direction.

Description

Door plant assembly spot welding mechanism

Technical Field

The utility model relates to the field of container production, in particular to a door plate assembly spot welding mechanism.

Background

The container is a large-sized cargo container with certain strength, rigidity and specification and is specially used for turnover. As a storage and transportation device commonly used in modern logistics, containers are increasingly used. The container is a rectangular box-like member formed by welding door plates, and the door plate structure of the container is generally formed by welding two door cross beams, two door vertical beams and one door plate. The method is characterized in that two door beams, two door vertical beams and one door plate are required to be transported to an assembly spot welding table for assembly and pre-spot welding before welding in the traditional door plate assembly process, but by adopting the method, the human assembly error is large, serious errors are easily caused, the processing quality of products is affected, the efficiency is low, the self-use and maintenance cost of a full-automatic assembly spot welding device is far higher than that of the human spot welding, and therefore, the problem is solved by technical staff through a semi-automatic process of automatic assembly and manual pre-spot welding, namely, the problem of large human assembly error is solved, and the electric welding cost is reduced.

In the use of semi-automatic technology of automatic assembly, artifical spot welding, technicians find again that adopts the transportation of manual work with the door plant to the assembly spot welding platform, and the transportation is comparatively loaded down with trivial details, and the operation degree of difficulty is big, and the cost of labor is higher. Accordingly, the technical problem has been improved by the skilled person.

Disclosure of Invention

In order to solve the existing technical problems. The utility model provides a door plate assembly spot welding mechanism, which comprises a plate feeding device and an assembly spot welding device arranged on one side of the plate feeding device; the plate conveying device comprises a first conveying assembly and a second conveying assembly longitudinally arranged right below the first conveying assembly; a longitudinal conveying unit is arranged on one side, close to the plate conveying device, of the assembly spot welding device; the longitudinal conveying unit is opposite to the second conveying assembly, the first conveying assembly in the plate conveying device conveys the door plates stacked on one side of the second conveying assembly to the second conveying assembly, and the second conveying assembly conveys the door plates from the longitudinal conveying unit to the assembly spot welding device in a transitional mode along the longitudinal conveying direction.

Further, the first conveying assembly comprises a first rack, a connecting plate, a first conveying unit and a horizontal driving unit; the first frame is transversely arranged on one side of the assembly spot welding device; the connecting plate is connected with a cross beam on the first frame in a sliding way along the length direction, and the first conveying unit is arranged on the connecting plate; the horizontal driving unit is fixedly arranged on the connecting plate, the output end of the horizontal driving unit extends to the other side of the connecting plate and is in transmission connection with the cross beam, and the horizontal driving unit drives the connecting plate to slide along the length direction of the cross beam.

Further, the first conveying unit comprises a vertical displacement rod, a vertical driving unit and a suction plate unit; the vertical driving unit is fixedly arranged on the connecting plate, the output end of the vertical driving unit is connected with the vertical displacement rod, the vertical displacement rod is in sliding connection with the connecting plate along the vertical direction, and the vertical driving unit drives the vertical displacement rod to slide on the connecting plate along the vertical direction; the suction plate unit comprises a suction cup frame fixedly arranged at the bottom of the vertical displacement rod and a suction cup arranged on the suction cup frame in a sliding manner; the vertical driving unit drives the vertical displacement rod to slide along the vertical direction, and the vertical displacement rod drives the suction plate unit to slide along the vertical direction so as to convey the door plate to the second conveying assembly.

Further, the second conveying assembly comprises a second rack and a second conveying unit; the second frame is longitudinally arranged below the first conveying component, and one end of the second frame faces the longitudinal conveying unit; the second conveying unit comprises a conveying driving part fixedly arranged on the second frame and a second conveying part which is opposite to the longitudinal conveying unit and is rotatably arranged on the second frame; the conveying driving part is in transmission connection with the second conveying part, and drives the second conveying part to rotate, so that the door plate is conveyed to the longitudinal conveying unit, and the door plate is conveyed to the welding table.

Further, the assembly spot welding device comprises a third frame, and a pressing component and a welding table component which are fixedly arranged on the third frame; the compaction assembly is arranged right above the welding table assembly.

Further, the welding table assembly comprises a welding table, a first limiting unit, a second limiting unit, a transverse conveying unit and a longitudinal conveying unit; the welding table is fixedly arranged on the third rack; the first limiting units are arranged on two sides of the welding table; the second limiting units are arranged at two ends of the welding table; the longitudinal conveying unit is transversely arranged on the welding table at the outer side of the first limiting unit close to the second conveying component, and the height of the longitudinal conveying unit is not lower than that of the first limiting unit, so that the first limiting unit is prevented from blocking the door plate to be conveyed to the welding table through the longitudinal conveying unit; the transverse conveying units comprise a second transverse conveying unit fixedly arranged on a third frame below the welding table and a first transverse conveying unit fixedly arranged at two ends of the welding table; the bottom of the second transverse conveying unit is provided with a lifting driving unit, the lifting driving unit is fixedly arranged on a third frame below the welding table, the output end of the lifting driving unit is connected with the second transverse conveying unit, and the lifting driving unit drives the second transverse conveying unit to descend to a position not higher than the welding table or to ascend to a position higher than the welding table so as to jack up the door plate, so that the door plate is pushed to the next working platform conveniently.

Further, the first limiting unit comprises a limiting block and a limiting push plate device; the limiting block is arranged on one side of the welding table, and the limiting push plate device is opposite to the limiting block and is arranged on the other side of the welding table; the limiting push plate device comprises a push plate and a limiting driving part fixedly arranged on the welding table; the push plate is connected with the output shaft of the limit driving part, and the limit driving part drives the push plate to push the limit block or push the limit block away from the limit plate, so that the door plate is positioned and assembled.

Further, the compression assembly comprises a pressing plate unit and a pressing beam unit; the pressing plate unit comprises a pressing plate frame part and a pressing plate driving part of a third rack fixedly arranged above the welding table; the pressing plate frame part comprises a pressing plate frame and a first pressing foot arranged on the pressing plate frame; the pressing plate frame is connected with the output end of the pressing plate driving part, the pressing plate driving part drives the pressing plate frame to lift, and the pressing plate frame lifts to drive the first pressing foot to lift so as to press the door plate; the pressing beam unit comprises pressing beam driving parts fixedly arranged on third frames on two sides of the pressing plate driving parts, and second pressing feet connected with the output ends of the pressing beam driving parts, and the pressing beam driving parts drive the second pressing feet to lift and press the door slabs.

Compared with the prior art, the utility model has the beneficial effects that:

(1) The utility model forms a door plate assembly spot welding mechanism by the plate feeding device and the assembly spot welding device arranged at one side of the plate feeding device; and be equipped with vertical conveying unit in the assembly spot welding device one side that is close to send the board device to with the second conveying component who send the board device just to vertical conveying unit, first conveying component carries the door plant of stack in second conveying component one side to the second conveying component on, the second conveying component carries the door plant by vertical conveying unit transition to assembly spot welding device on along vertical direction of delivery, the structure of door plant assembly spot welding mechanism is simple, convenient operation, the door plant realizes automaticly from transporting to the assembly, the human cost has been reduced greatly.

(2) The first conveying component of the plate conveying device is formed by combining the first frame, the connecting plate and the first conveying unit, the connecting plate is in sliding connection with the cross beam on the first frame, the horizontal driving unit is fixedly arranged on the connecting plate, the output end of the horizontal driving unit extends to the other side of the connecting plate and is in transmission connection with the cross beam, and the horizontal driving unit drives the connecting plate to slide along the length direction of the cross beam, so that the door plate is convenient to transport.

(3) The first conveying unit is formed by combining a vertical displacement rod, a vertical driving unit and a suction plate unit, wherein the vertical displacement rod is in sliding connection with a connecting plate along the vertical direction, the bottom of the vertical displacement rod is fixedly arranged on the suction plate unit, the vertical driving unit is fixedly arranged on the connecting plate, the output end of the vertical driving unit is connected with the vertical displacement rod, the vertical driving unit drives the vertical displacement rod to slide along the vertical direction, and the vertical displacement rod drives the suction plate unit to slide along the vertical direction and the horizontal direction, so that the door plate is conveyed to the second conveying assembly.

(4) The second conveying assembly is formed by combining a conveying driving part and a second conveying part of the second conveying unit, the conveying driving part drives the second conveying part to rotate, the door plate is conveyed to the longitudinal conveying unit, and the door plate is conveyed to the welding table.

(5) The welding table assembly is formed by combining the welding table, the first limiting unit, the second limiting unit, the transverse conveying unit and the longitudinal conveying unit, wherein the height of the longitudinal conveying unit is not lower than that of the first limiting unit, and the first limiting unit is prevented from preventing the door plate from being conveyed to the welding table through the longitudinal conveying unit; the lifting driving unit is fixedly arranged on the third frame below the welding table, and the output end of the lifting driving unit is connected with the second transverse conveying unit, so that the lifting driving unit drives the second transverse conveying unit to descend to a position not higher than the welding table, the assembly of the door plate is facilitated, or the lifting driving unit drives the second transverse conveying unit to ascend to a position higher than the welding table to jack up the door plate, and the door plate is pushed to the next working platform conveniently.

(6) The first limiting unit comprises a limiting block and a limiting push plate device, wherein the limiting block is arranged on one side of a welding table (231), the limiting push plate device is opposite to the limiting block and is arranged on the other side of the welding table, and a limiting driving part in the limiting push plate device drives the push plate to push the limiting block to be close or push away from the limiting block, so that the door plate is positioned and assembled.

(7) The pressing assembly adopts a pressing plate unit and a pressing beam unit, wherein the pressing plate unit adopts a pressing plate frame part and a pressing plate driving part fixedly arranged on a third rack above a welding table, and the pressing plate driving part drives the pressing plate frame part to lift so as to press and position a door plate; the pressing beam unit adopts a pressing beam driving part fixedly arranged on a third frame at two sides of the pressing plate driving part and a second presser foot connected with the output end of the pressing beam driving part, and the pressing beam driving part drives the second presser foot to lift and compress the door plank.

Drawings

FIG. 1 is a perspective view of a door panel assembly spot welding mechanism of the present utility model;

FIG. 2 is a front view of a door panel assembly spot welding mechanism of the present utility model;

FIG. 3 is a cross-sectional view of the E-E plane of FIG. 2;

FIG. 4 is a right side view of a door panel assembly spot welding mechanism of the present utility model;

FIG. 5 is a left side view of a door panel assembly spot welding mechanism of the present utility model;

FIG. 6 is a cross-sectional view of the C-C plane of FIG. 5;

FIG. 7 is a top view of a door panel assembly spot welding mechanism of the present utility model;

FIG. 8 is a cross-sectional view of the D-D plane of FIG. 7;

the reference numerals are: plate feeding device 1, first conveying assembly 11, first frame 111, cross beam 1111, connecting plate 112, first conveying unit 113, horizontal driving unit 114, vertical displacement rod 1131, vertical driving unit 1132, suction plate unit 1133, second conveying assembly 12, second frame 121, second conveying unit 122, conveying driving part 1221, second conveying part 1222, assembly spot welding device 2, third frame 21, pressing assembly 22, platen unit 221, platen frame part 2211, platen frame 22111, first presser foot 22112, platen driving part 2212, platen unit 222, platen driving part 2221, second presser foot 2222, welding station assembly 23, welding station 231, first limiting unit 232, limiting block 2321, limiting pusher 2322, second limiting unit 233, lateral conveying unit 234, first lateral conveying unit 2341, second lateral conveying unit 2342, lifting driving unit 2343, and longitudinal conveying unit 235.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the embodiments of the present utility model, it should be understood that the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like indicate orientations or positional relationships based on those shown in the drawings, or those conventionally put in place when the inventive product is used, or those conventionally understood by those skilled in the art, merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element to be referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the description of the embodiments of the present utility model, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Example 1

Referring to fig. 1 to 8, a door panel assembly spot welding mechanism of the present embodiment includes a panel feeding device 1 and an assembly spot welding device 2 provided at one side of the panel feeding device 1; the plate conveying device 1 comprises a first conveying assembly 11 and a second conveying assembly 12 longitudinally arranged right below the first conveying assembly 11; a longitudinal conveying unit 235 is arranged on one side of the assembly spot welding device 2 close to the plate conveying device 1; the longitudinal conveying unit 235 faces the second conveying component 12, the first conveying component 11 in the plate conveying device 1 conveys the door plates stacked on one side of the second conveying component 12 to the second conveying component 12, and the second conveying component 12 conveys the door plates to the assembly spot welding device 2 in a transitional manner from the longitudinal conveying unit 235 along the longitudinal conveying direction.

The first conveying assembly 11 of the present utility model includes a first frame 111, a connection plate 112, a first conveying unit 113, and a horizontal driving unit 114; the first frame 111 is transversely arranged at one side of the assembly spot welding device 2; the cross beam 1111 of the first frame 111 of the connecting plate 112 is slidingly connected along the length direction, and the first conveying unit 113 is installed on the connecting plate 112; the horizontal driving unit 114 is fixedly mounted on the connecting plate 112, the output end of the horizontal driving unit 114 extends to the other side of the connecting plate 112 to be in transmission connection with the beam 1111, and the horizontal driving unit 114 drives the connecting plate 112 to slide along the length direction of the beam 1111.

The horizontal driving unit 114 of the present utility model employs a motor; the transmission connection structure between the horizontal driving unit 114 and the beam 1111 is a rack-and-pinion transmission structure, racks are arranged in the length direction of the beam 1111, the output end of the horizontal driving unit 114 extends to the other side of the connecting plate 112 to be connected with the gears, and the horizontal driving unit 114 drives the gears to rotate along the racks on the beam 1111 to drive the connecting plate 112 to slide along the beam 1111 in the horizontal direction.

The first conveying unit 113 of the present utility model includes a vertical displacement rod 1131, a vertical driving unit 1132, and a suction plate unit 1133; the vertical driving unit 1132 is fixedly installed on the connecting plate 112, the output end of the vertical driving unit 1132 is connected with the vertical displacement rod 1131, the vertical displacement rod 1131 is slidably connected with the connecting plate 112 along the vertical direction, and the vertical driving unit 1132 drives the vertical displacement rod 1131 to slide on the connecting plate 112 along the vertical direction; the suction plate unit 1133 comprises a suction cup frame fixedly arranged at the bottom of the vertical displacement rod 1131 and a suction cup arranged on the suction cup frame in a sliding manner; the vertical driving unit 1132 and the horizontal driving unit 114 respectively drive the vertical displacement rod 1131 to slide along the vertical direction and the horizontal direction, and the vertical displacement rod 1131 drives the suction plate unit 1133 to slide along the vertical direction and the horizontal direction, so that the door plate is conveyed to the second conveying assembly 12.

The vertical driving unit 1132 of the present utility model adopts an air cylinder, and the air cylinder stretches to drive the vertical displacement rod 1131 to slide along the vertical direction.

The second conveying assembly 12 of the present utility model includes a second frame 121, a second conveying unit 122; the second rack 121 is longitudinally arranged below the first conveying assembly 11, and one end of the second rack 121 faces the longitudinal conveying unit 235; the second conveying unit 122 includes a conveying driving part 1221 fixedly installed on the second frame 121, and a second conveying part 1222 rotatably installed on the second frame 121 opposite to the longitudinal conveying unit 235; the conveying driving part 1221 is in transmission connection with the second conveying part 1222, and the conveying driving part 1221 drives the second conveying part 1222 to rotate, so as to convey the door panel to the longitudinal conveying unit 235, thereby conveying the door panel to the welding table 231.

The conveyance driving section 1221 of the present utility model employs a motor; the second conveying unit 1222 is configured with a roller; the transmission connection structure between the conveying driving part 1221 and the second conveying part 1222 adopts a sprocket-chain transmission structure.

The assembly spot welding device 2 comprises a third frame 21, a pressing component 22 and a welding table component 23 which are fixedly arranged on the third frame 21; the hold-down assembly 22 is disposed directly above the welding station assembly 23.

The welding table assembly 23 comprises a welding table 231, a first limiting unit 232, a second limiting unit 233, a transverse conveying unit 234 and a longitudinal conveying unit 235; the welding table 231 is fixedly arranged on the third rack 21; the first limiting units 232 are arranged at two sides of the welding table 231; the second limiting units 233 are arranged at two ends of the welding table 231; the longitudinal conveying unit 235 is transversely installed on the welding table 231 outside the first limiting unit 232 near the second conveying assembly 12, and the height of the longitudinal conveying unit 235 is not lower than the height of the first limiting unit 232, so that the first limiting unit 232 is prevented from blocking the door panel to be conveyed to the welding table 231 through the longitudinal conveying unit 235; the lateral conveying unit 234 includes a second lateral conveying unit 2342 fixedly installed on the third frame 21 below the welding table 231 and a first lateral conveying unit 2341 fixedly installed at both ends of the welding table 231; the bottom of the second lateral conveying unit 2342 is provided with a lifting driving unit 2343, the lifting driving unit 2343 is fixedly installed on the third frame 21 below the welding table 231, the output end of the lifting driving unit 2343 is connected with the second lateral conveying unit 2342, and the lifting driving unit 2343 drives the second lateral conveying unit 2342 to descend to a position not higher than the welding table 231, or drives the second lateral conveying unit 2342 to ascend to a position higher than the welding table 231 to jack up the door panel, so that the door panel is pushed to the next working platform conveniently.

The longitudinal conveying unit 235, the second transverse conveying unit 2342 and the first transverse conveying unit 2341 of the utility model all adopt rollers; the lifting driving unit 2343 adopts an air cylinder.

The first limiting unit 232 of the present utility model includes a limiting block 2321 and a limiting pusher 2322; the limiting block 2321 is arranged on one side of the welding table 231, and the limiting pusher 2322 is arranged on the other side of the welding table 231 opposite to the limiting block 2321; the limiting pusher 2322 comprises a pusher and a limiting driving part fixedly arranged on the welding table 231; the push plate is connected with an output shaft of the limit driving part, and the limit driving part drives the push plate to push close or push away the limit block 2321, so as to position and assemble the door plate.

The second limiting unit 233 of the present utility model includes a baffle and an end limiting block; the limit driving part adopts an air cylinder.

The compression assembly 22 of the present utility model includes a platen unit 221, a platen beam unit 222; the pressing plate unit 221 includes a pressing plate frame portion 2211, and a pressing plate driving portion 2212 fixedly installed on the third frame 21 above the welding table 231; the pressing plate frame 2211 comprises a pressing plate frame 22111 and a first pressing foot 22112 arranged on the pressing plate frame 22111; the pressure plate frame 22111 is connected with the output end of the pressure plate driving part 2212, the pressure plate driving part 2212 drives the pressure plate frame 22111 to lift, and the pressure plate frame 22111 lifts to drive the first pressure foot 22112 to lift so as to compress the door plate; the press beam unit 222 includes a press beam driving portion 2221 fixedly mounted on the third frames 21 at two sides of the press plate driving portion 2212, and a second presser foot 2222 connected to an output end of the press beam driving portion 2221, where the press beam driving portion 2221 drives the second presser foot 2222 to lift and compress the door panel.

The platen driving part 2212 and the press beam driving part 2221 of the present utility model each employ an air cylinder.

In addition, the specific features described in the above embodiments may be combined in any suitable manner without contradiction. The various possible combinations of the utility model are not described in detail in order to avoid unnecessary repetition.

Claims (8)

1. The door plate assembly spot welding mechanism is characterized by comprising a plate conveying device (1) and an assembly spot welding device (2) arranged on one side of the plate conveying device (1); the plate conveying device (1) comprises a first conveying assembly (11) and a second conveying assembly (12) longitudinally arranged right below the first conveying assembly (11); a longitudinal conveying unit (235) is arranged on one side, close to the plate conveying device (1), of the assembly spot welding device (2); the longitudinal conveying unit (235) is opposite to the second conveying assembly (12), and the second conveying assembly (12) conveys the door plate to the assembly spot welding device (2) in a transitional mode through the longitudinal conveying unit (235).

2. A door panel assembly spot welding mechanism according to claim 1, wherein the first conveying assembly (11) comprises a first frame (111), a connecting plate (112), a first conveying unit (113), and a horizontal driving unit (114); the first frame (111) is transversely arranged on one side of the assembly spot welding device (2); the cross beam (1111) on the first frame (111) of the connecting plate (112) is connected in a sliding way along the length direction, and the first conveying unit (113) is arranged on the connecting plate (112); the horizontal driving unit (114) is fixedly arranged on the connecting plate (112), the output end of the horizontal driving unit (114) extends to the other side of the connecting plate (112) and is in transmission connection with the cross beam (1111), and the horizontal driving unit (114) drives the connecting plate (112) to slide.

3. The door panel assembly spot welding mechanism according to claim 2, wherein the first conveying unit (113) comprises a vertical displacement rod (1131), a vertical driving unit (1132) and a suction plate unit (1133); the suction plate unit (1133) is fixedly arranged at the bottom of the vertical displacement rod; the vertical driving unit (1132) is fixedly arranged on the connecting plate (112), the output end of the vertical driving unit (1132) is connected with the vertical displacement rod (1131), the vertical displacement rod (1131) is slidably connected with the connecting plate (112) along the vertical direction, and the vertical driving unit (1132) drives the vertical displacement rod (1131) to slide.

4. A door panel assembly spot welding mechanism according to claim 1, wherein the second conveying assembly (12) comprises a second frame (121), a second conveying unit (122); the second frame (121) is longitudinally arranged below the first conveying assembly (11), and one end of the second frame (121) is opposite to the longitudinal conveying unit (235); the second conveying unit (122) comprises a conveying driving part (1221) fixedly arranged on the second frame (121) and a second conveying part (1222) which is arranged on the second frame (121) in a rotating way and is opposite to the longitudinal conveying unit (235); the conveying driving part (1221) is in transmission connection with the second conveying part (1222), and the conveying driving part (1221) drives the second conveying part (1222) to rotate.

5. A door panel assembly spot welding mechanism according to claim 1, wherein the assembly spot welding device (2) comprises a third frame (21), and a pressing assembly (22) and a welding table assembly (23) fixedly mounted on the third frame (21); the pressing assembly (22) is arranged right above the welding table assembly (23).

6. The door panel assembly spot welding mechanism according to claim 5, wherein the welding table assembly (23) comprises a welding table (231), a first limiting unit (232), a second limiting unit (233), a transverse conveying unit (234), and a longitudinal conveying unit (235); the welding table (231) is fixedly arranged on the third frame (21); the first limiting units (232) are arranged on two sides of the welding table (231); the second limiting units (233) are arranged at two ends of the welding table (231); the longitudinal conveying unit (235) is transversely arranged on a welding table (231) at the outer side of the first limiting unit (232) close to the second conveying assembly (12), and the height of the longitudinal conveying unit (235) is not lower than that of the first limiting unit (232); the transverse conveying unit (234) comprises a second transverse conveying unit (2342) fixedly arranged on the third frame (21) below the welding table (231) and first transverse conveying units (2341) fixedly arranged at two ends of the welding table (231); the bottom of the second transverse conveying unit (2342) is provided with a lifting driving unit (2343), the lifting driving unit (2343) is fixedly arranged on the third frame (21) below the welding table (231), the output end of the lifting driving unit (2343) is connected with the second transverse conveying unit (2342), and the lifting driving unit (2343) drives the second transverse conveying unit (2342) to lift.

7. The door panel assembly spot welding mechanism according to claim 6, wherein the first limiting unit (232) comprises a limiting block (2321) and a limiting push plate device (2322); the limiting block (2321) is arranged on one side of the welding table (231), and the limiting pusher (2322) is opposite to the limiting block (2321) and is arranged on the other side of the welding table (231); the limiting push plate device (2322) comprises a push plate and a limiting driving part fixedly arranged on the welding table (231); the push plate is connected with an output shaft of the limit driving part, and the limit driving part drives the push plate to push the limit block (2321) or push the limit block away from the limit driving part.

8. The door panel assembly spot welding mechanism according to claim 5, wherein the pressing assembly (22) comprises a pressing plate unit (221) and a pressing beam unit (222); the pressing plate unit (221) comprises a pressing plate frame part (2211) and a pressing plate driving part (2212) fixedly arranged on a third rack (21) above the welding table (231); the pressure plate frame part (2211) comprises a pressure plate frame (22111) and a first presser foot (22112) arranged on the pressure plate frame (22111); the pressure plate frame (22111) is connected with the output end of the pressure plate driving part (2212), and the pressure plate driving part (2212) drives the pressure plate frame (22111) to lift; the press beam unit (222) comprises a press beam driving part (2221) fixedly arranged on the third frames (21) on two sides of the press plate driving part (2212), and a second presser foot (2222) connected with the output end of the press beam driving part (2221), wherein the press beam driving part (2221) drives the second presser foot (2222) to lift.