CN220679831U - Front beam welding tool capable of floating and compacting - Google Patents

Abstract

The utility model discloses a front beam welding tool capable of floating compaction, which comprises a bottom plate, wherein a front Liang Zhengxiang clamping unit and a front Liang Fanxiang clamping unit are arranged on the bottom plate; the front Liang Zhengxiang clamping unit comprises a first front positioning structure, a second front positioning structure and a third front positioning structure, wherein the base is opposite to the first front positioning structure and the second front positioning structure, a first front floating compression structure and a second front floating compression structure are respectively arranged on the first front positioning structure and the second front positioning structure, and a front plugging structure is also arranged on the second front floating compression structure; the front Liang Fanxiang clamping unit comprises a first rear positioning structure, a second rear positioning structure and a third rear positioning structure, wherein the base is opposite to the first rear positioning structure, the second rear positioning structure and the third rear positioning structure, and the first rear floating compression structure, the second rear floating compression structure and the rear plugging structure are respectively installed. The front beam welding tool capable of floating and compacting has the advantages of being capable of compacting the front beam, convenient to use and stable to install.

Description

Front beam welding tool capable of floating and compacting

Technical Field

The utility model relates to the technical field of welding tools, in particular to a front beam welding tool capable of floating and compacting.

Background

The automobile front beam fastens related parts on the left side and the right side of the automobile together, is a main stress component in the width direction of the automobile body in a square chassis frame of the automobile, and is an important component of an axle and a chassis of the automobile.

At present, in the process of manufacturing the front beam, welding parts are needed to be welded on two sides of the front beam so as to facilitate later installation. Before welding, the front beam needs to be clamped and positioned by using the tool, but certain errors exist in the front beam in the front processing process, so that the front beam cannot be pressed when clamped and positioned, and the situation that the front beam cannot be fixed can occur, so that the normal operation of welding is affected.

Disclosure of Invention

To the not enough of above-mentioned prior art, the technical problem that this patent application will solve is how to provide one kind and to compress tightly the front beam, convenient to use, the front beam welding frock that the installation is stable can float to compress tightly.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the front beam welding tool capable of being pressed in a floating mode comprises a bottom plate, wherein a front Liang Zhengxiang clamping unit and a front Liang Fanxiang clamping unit are arranged on the bottom plate;

the front Liang Zhengxiang clamping unit comprises a first front positioning structure, a second front positioning structure and a third front positioning structure, wherein the bottom plate is opposite to the first front positioning structure and the second front positioning structure, a first front floating compression structure and a second front floating compression structure are respectively arranged on the bottom plate, and a front blocking structure for blocking an opening on a front beam is also arranged on the second front floating compression structure;

the front Liang Fanxiang clamping unit comprises a first rear positioning structure, a second rear positioning structure and a third rear positioning structure, wherein the bottom plate is just opposite to the first rear positioning structure, the second rear positioning structure and the third rear positioning structure, and a first rear floating compression structure, a second rear floating compression structure and a rear plugging structure for plugging a hole in the front beam are respectively arranged on the bottom plate.

Therefore, the beam body is in a bent shape, parts are required to be welded on two sides of the beam body, and the forward and reverse clamping of the beam body is realized through the forward clamping unit and the reverse clamping unit. The middle of the forward beam body is arranged in an upward protruding way, and the middle of the reverse beam body is arranged in a downward protruding way. During installation, the forward beam body is clamped and positioned by utilizing the first front positioning structure, the second front positioning structure and the third front positioning structure, the forward beam body is subjected to floating compaction by utilizing the first front floating compaction structure and the second front floating compaction structure, the holes on the beam body are plugged by utilizing the front plugging structure, and welding slag is placed and falls into the beam body; the reverse beam body is clamped and positioned by utilizing the first rear positioning structure, the second rear positioning structure and the third rear positioning structure, the reverse beam body is floated and pressed by utilizing the first rear floating pressing structure and the second rear floating pressing structure, the opening on the beam body is plugged by utilizing the rear plugging structure, and welding slag is placed and falls into the beam body. After the forward beam body and the reverse beam body are installed, the beam body and the parts can be welded.

The first front positioning structure comprises a first front bracket fixedly mounted on a bottom plate, two first front supporting blocks are fixedly mounted on the first front bracket, a first front positioning cylinder and a second front positioning cylinder are fixedly mounted on two sides of the first front bracket, a first positioning plate and a second positioning plate are respectively and fixedly mounted on piston rods of the first front positioning cylinder and the second front positioning cylinder, first front positioning pins are fixedly mounted on openings on two sides of the first positioning plate and two openings on two sides of the second positioning plate, corresponding to two sides of a front beam, respectively, and a first positioning seat is fixedly mounted on the first front bracket, and a second front positioning pin is fixedly mounted on the first positioning seat;

the first front floating compaction structure comprises a first powerful clamping cylinder fixedly connected with a first front support, a first connecting arm is fixed on a clamping arm of the first powerful clamping cylinder, the first connecting arm is rotationally connected with a connecting end of a first pressing block through a pin shaft, and the first pressing block is fixedly provided with two first pressing ends downwards.

The second front positioning structure comprises a second front bracket fixedly arranged on a bottom plate, two second front supporting blocks are fixedly arranged on the second front bracket, a third front positioning cylinder is fixedly arranged on the second front bracket, a third positioning plate is fixedly arranged on a piston rod of the third front positioning cylinder, a second positioning seat is fixedly arranged on the second front bracket, a third positioning seat is fixedly arranged on the third positioning plate, and the second positioning seat and the third positioning seat are opposite to the beam body and are fixedly provided with side positioning blocks;

the second front floating compaction structure comprises a second powerful clamping cylinder fixedly mounted with a second front support, a second connecting arm is fixedly mounted on a clamping arm of the second powerful clamping cylinder, the second connecting arm is rotationally connected with a connecting end of a second pressing block through a pin shaft, and the second pressing block is fixedly provided with two second pressing ends downwards.

The third front positioning structure comprises a third front bracket, a fourth positioning seat is fixedly arranged on the third front bracket, and a fourth front positioning pin is fixedly arranged on an opening on the beam body by the fourth positioning seat;

the front plugging structure comprises a first mounting block fixedly mounted on the second connecting arm, the first mounting block is fixedly connected with the first plugging block, and a first plug which can be plugged with the opening is fixed at the lower end of the first plugging block, opposite to the opening of the beam body.

The first rear positioning structure comprises a first rear support fixedly arranged on a bottom plate, two first rear supporting blocks are fixedly arranged on the first rear support, a rear positioning support is fixedly arranged on the bottom plate, a fifth positioning seat is fixedly arranged on the rear positioning support, a first rear positioning cylinder is fixedly arranged on the first rear support, a sixth positioning seat is fixedly arranged on a piston rod of the first rear positioning cylinder, and a first rear positioning block is fixedly arranged on the fifth positioning seat and the sixth positioning seat;

the first rear floating compaction structure comprises a third strong clamping cylinder fixedly connected with the first rear support, a third connecting arm is fixedly arranged on a clamping arm of the third strong clamping cylinder, the third connecting arm is rotationally connected with a connecting end of a third pressing block through a pin shaft, and two third pressing ends are downwards fixed on the third pressing block;

the first rear positioning structure further comprises an end support, an end cylinder is fixedly installed on the end support, and an end positioning pin is fixedly installed on a piston rod of the end cylinder through an end installation seat.

The second rear positioning structure comprises a second rear bracket fixedly arranged on the bottom plate, a seventh positioning seat is fixedly arranged on one side of the second rear bracket, a second rear positioning cylinder is fixedly arranged on the second rear bracket, an eighth positioning seat is fixedly arranged on a piston rod of the second rear positioning cylinder, and second rear positioning blocks are fixedly arranged on two sides of the seventh positioning seat and the eighth positioning seat, which correspond to the front beam;

the second back floating compaction structure comprises a fourth strong clamping cylinder fixedly connected with a second back support, a fourth connecting arm is fixedly arranged on a clamping arm of the fourth strong clamping cylinder, the fourth connecting arm is rotationally connected with the connecting end of a fourth pressing block through a pin shaft, and two fourth pressing ends are downwards fixed on the fourth pressing block.

The third rear positioning structure comprises a third rear support fixedly arranged on the bottom plate, a ninth positioning seat is fixedly arranged on the third rear support, and a third rear positioning pin is fixedly arranged on the ninth positioning seat upwards corresponding to the opening of the front beam.

The rear plugging structure comprises a fifth powerful clamping cylinder fixedly connected with a third rear support, a second mounting block is fixedly mounted on a clamping arm of the fifth powerful clamping cylinder, the second mounting block is fixedly connected with a second plugging block, and a second plug capable of being plugged with the opening is fixed at the lower end of the second plugging block, opposite to the opening of the beam body.

To sum up, this front beam welding frock that can float and compress tightly has can compress tightly the front beam, convenient to use, the stable advantage of installation.

Drawings

Fig. 1 is a schematic structural diagram of a front beam welding tool capable of floating and compacting according to the utility model.

Fig. 2 is a schematic view of the front Liang Zhengxiang clamping unit.

Fig. 3 is a schematic view of the front Liang Fanxiang clamping unit.

Fig. 4 is a schematic view of a first front positioning structure and a first front floating compaction structure.

Fig. 5 is a schematic view of another orientation of fig. 4.

Fig. 6 is a schematic view of a second front positioning structure and a second front floating compaction structure, front plugging structure.

Fig. 7 is a schematic view of another orientation of fig. 6.

Fig. 8 is a schematic view of a third front positioning structure.

Fig. 9 is a schematic view of a first rear positioning structure and a first rear floating compaction structure.

Fig. 10 is a schematic view of a second rear positioning structure and a second rear floating compaction structure.

Fig. 11 is a schematic view of a third posterior locating structure and a posterior plug structure.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings. In the description of the present utility model, it should be understood that the azimuth or positional relationship indicated by the azimuth words such as "upper, lower" and "top, bottom", etc. are generally based on the azimuth or positional relationship shown in the drawings, and are merely for convenience of description and simplification of the description, and these azimuth words do not indicate or imply that the apparatus or element to be referred to must have a specific azimuth or be constructed and operated in a specific azimuth, without limiting the scope of protection of the present utility model; the orientation word "inner and outer" refers to inner and outer relative to the contour of the respective component itself.

1-11, a front beam welding tool capable of floating compaction comprises a bottom plate 1, wherein a front Liang Zhengxiang clamping unit and a front Liang Fanxiang clamping unit are arranged on the bottom plate;

the front Liang Zhengxiang clamping unit comprises a first front positioning structure 2, a second front positioning structure 3 and a third front positioning structure 4, wherein the bottom plate is opposite to the first front positioning structure and the second front positioning structure, a first front floating compression structure 5 and a second front floating compression structure 6 are respectively arranged on the bottom plate, and a front blocking structure 7 for blocking an opening on a front beam is also arranged on the second front floating compression structure;

the front Liang Fanxiang clamping unit comprises a first rear positioning structure 8, a second rear positioning structure 9 and a third rear positioning structure 10, wherein the bottom plate is opposite to the first rear positioning structure, the second rear positioning structure and the third rear positioning structure, and a first rear floating compression structure 11, a second rear floating compression structure 12 and a rear blocking structure 13 for blocking an opening on a front beam are respectively arranged on the bottom plate.

Therefore, the beam body is in a bent shape, parts are required to be welded on two sides of the beam body, and the forward and reverse clamping of the beam body is realized through the forward clamping unit and the reverse clamping unit. The middle of the forward beam body 14 is arranged in an upward protruding way, and the middle of the reverse beam body 15 is arranged in a downward protruding way. During installation, the forward beam body is clamped and positioned by utilizing the first front positioning structure, the second front positioning structure and the third front positioning structure, the forward beam body is subjected to floating compaction by utilizing the first front floating compaction structure and the second front floating compaction structure, the holes on the beam body are plugged by utilizing the front plugging structure, and welding slag is placed and falls into the beam body; the reverse beam body is clamped and positioned by utilizing the first rear positioning structure, the second rear positioning structure and the third rear positioning structure, the reverse beam body is floated and pressed by utilizing the first rear floating pressing structure and the second rear floating pressing structure, the opening on the beam body is plugged by utilizing the rear plugging structure, and welding slag is placed and falls into the beam body. After the forward beam body and the reverse beam body are installed, the beam body and the parts can be welded.

In implementation, the first front positioning structure comprises a first front bracket 21 fixedly mounted on a bottom plate, two first front supporting blocks 22 are fixedly mounted on the first front bracket, a first front positioning cylinder 23 and a second front positioning cylinder 24 are fixedly mounted on two sides of the first front bracket, a first positioning plate 25 and a second positioning plate 26 are respectively and fixedly mounted on piston rods of the first front positioning cylinder and the second front positioning cylinder, a first front positioning pin 27 is fixedly mounted on two sides of the first positioning plate and corresponding to openings on two sides of a front beam, a first positioning seat 28 is fixedly mounted on the first front bracket, and a second front positioning pin is fixedly mounted on the first positioning seat;

the first front floating compaction structure comprises a first powerful clamping cylinder 31 fixedly connected with a first front support, a first connecting arm 32 is fixed on a clamping arm of the first powerful clamping cylinder, the first connecting arm is rotationally connected with a connecting end of a first pressing block 33 through a pin shaft, and two first pressing ends are downwards fixed on the first pressing block.

In practice, the second front positioning structure comprises a second front bracket 41 fixedly mounted on the bottom plate, two second front supporting blocks 42 are fixedly mounted on the second front bracket, a third front positioning cylinder 43 is fixedly mounted on the second front bracket, a third positioning plate is fixedly mounted on a piston rod of the third front positioning cylinder, a second positioning seat is fixedly mounted on the second front bracket, a third positioning seat is fixedly mounted on the third positioning plate, and the second positioning seat and the third positioning seat are opposite to the beam body and are fixedly provided with side positioning blocks 44;

the second front floating compaction structure comprises a second powerful clamping cylinder 45 fixedly mounted with a second front support, a second connecting arm 46 is fixedly mounted on a clamping arm of the second powerful clamping cylinder, the second connecting arm is rotatably connected with a connecting end of a second pressing block 47 through a pin shaft, and two second pressing ends are downwards fixed on the second pressing block.

In practice, the third front positioning structure comprises a third front bracket 51, a fourth positioning seat 52 is fixedly arranged on the third front bracket, and a fourth front positioning pin 53 is fixedly arranged on an opening on the beam body by the fourth positioning seat;

the front plugging structure comprises a first mounting block 54 fixedly mounted on the second connecting arm, the first mounting block is fixedly connected with a first plugging block 55, and a first plug capable of being plugged with the opening is fixed at the lower end of the first plugging block, opposite to the opening of the beam body.

Thus, the forward beam body is placed on the first front supporting block and the second front supporting block, the beam body is positioned through the second positioning pin and the fourth positioning pin, then the first front positioning cylinder and the second front positioning cylinder drive the first positioning plate and the second positioning plate to move, the first positioning pin is inserted into the holes on the side edge of the beam body, the third front positioning cylinder drives the third positioning plate and the third positioning seat to move, the side edge positioning blocks on the third positioning seat and the second positioning seat squeeze and position the beam body, the first powerful clamping cylinder and the second powerful clamping cylinder drive the first pressing block and the second pressing block to press the beam body respectively, the first pressing block and the second pressing block can float through the arrangement of the pin shafts, the beam body can be better pressed on the first front supporting block and the second front supporting block, meanwhile, the second powerful clamping cylinder drives the first plug to be inserted into the holes of the beam body, and welding slag is prevented from entering the beam body.

In practice, the first rear positioning structure comprises a first rear bracket 61 fixedly mounted on a bottom plate, two first rear supporting blocks 62 are fixedly mounted on the first rear bracket, a rear positioning support is fixedly mounted on the bottom plate, a fifth positioning seat is fixedly mounted on the rear positioning support, a first rear positioning cylinder 63 is fixedly mounted on the first rear bracket, a sixth positioning seat is fixedly mounted on a piston rod of the first rear positioning cylinder, and a first rear positioning block 64 is fixedly mounted on the fifth positioning seat and the sixth positioning seat;

the first rear floating compaction structure comprises a third strong clamping cylinder 65 fixedly connected with the first rear bracket, a third connecting arm 66 is fixedly arranged on a clamping arm of the third strong clamping cylinder, the third connecting arm is rotationally connected with a connecting end of a third pressing block 67 through a pin shaft, and two third pressing ends are downwards fixed on the third pressing block;

the first rear positioning structure further includes an end support 68, on which an end cylinder 69 is fixedly mounted, and a piston rod of which is fixedly mounted with the end positioning pin 60 through an end mount.

In practice, the second rear positioning structure comprises a second rear bracket 71 fixedly mounted on the bottom plate, two second rear supporting blocks 72 are fixedly mounted on the second rear bracket, a seventh positioning seat is fixedly mounted on one side of the second rear bracket, a second rear positioning cylinder 73 is fixedly mounted on the second rear bracket, an eighth positioning seat is fixedly mounted on a piston rod of the second rear positioning cylinder, and second rear positioning blocks 74 are fixedly mounted on two sides of the seventh positioning seat and the eighth positioning seat corresponding to the front beam;

the second rear floating compaction structure comprises a fourth strong clamping cylinder 75 fixedly connected with a second rear support, a fourth connecting arm 76 is fixedly arranged on a clamping arm of the fourth strong clamping cylinder, the fourth connecting arm is rotationally connected with the connecting end of a fourth pressing block 77 through a pin shaft, and two fourth pressing ends are downwards fixed on the fourth pressing block.

In practice, the third rear positioning structure comprises a third rear bracket 81 fixedly mounted on the bottom plate, a ninth positioning seat 82 is fixedly mounted on the third rear bracket, and a third rear positioning pin 83 is fixedly mounted on the ninth positioning seat corresponding to the opening of the front beam.

In practice, the rear plugging structure comprises a fifth powerful clamping cylinder 84 fixedly connected with the third rear support, a second mounting block 85 is fixedly mounted on a clamping arm of the fifth powerful clamping cylinder, the second mounting block is fixedly connected with a second plugging block 86, and a second plug capable of being plugged with the opening is fixed at the lower end of the second plugging block, opposite to the opening of the beam body.

In this way, the reverse beam body is placed on the first rear supporting block and the second rear supporting block, the end cylinder drives the end positioning pin to move upwards, the beam body is positioned by the end positioning pin and the third rear positioning pin, then the first rear positioning cylinder drives the sixth positioning seat to move, the two sides of the beam body are clamped and positioned by the first rear positioning block, the eighth positioning seat is driven to move by the second rear positioning cylinder, the two sides of the beam body are clamped and positioned by the second rear positioning block, the third strong clamping cylinder, the fourth strong clamping cylinder and the fifth strong clamping cylinder drive the third pressing block, the fourth pressing block and the second plug to move, the third pressing block and the fourth pressing block can float through the arrangement of the pin shaft, the beam body can be well pressed on the first rear supporting block and the second rear supporting block, and meanwhile the fifth strong clamping cylinder drives the second plug to be inserted into the opening of the beam body, and welding slag is prevented from entering the beam body.

Finally, it should be noted that: various modifications and alterations of this utility model may be made by those skilled in the art without departing from the spirit and scope of this utility model. Thus, it is intended that the present utility model also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (8)

1. The front beam welding tool capable of being pressed in a floating mode is characterized by comprising a bottom plate, wherein a front Liang Zhengxiang clamping unit and a front Liang Fanxiang clamping unit are arranged on the bottom plate;

the front Liang Zhengxiang clamping unit comprises a first front positioning structure, a second front positioning structure and a third front positioning structure, wherein the bottom plate is opposite to the first front positioning structure and the second front positioning structure, a first front floating compression structure and a second front floating compression structure are respectively arranged on the bottom plate, and a front blocking structure for blocking an opening on a front beam is also arranged on the second front floating compression structure;

the front Liang Fanxiang clamping unit comprises a first rear positioning structure, a second rear positioning structure and a third rear positioning structure, wherein the bottom plate is just opposite to the first rear positioning structure, the second rear positioning structure and the third rear positioning structure, and a first rear floating compression structure, a second rear floating compression structure and a rear plugging structure for plugging a hole in the front beam are respectively arranged on the bottom plate.

2. The front beam welding fixture capable of floating compaction according to claim 1, wherein the first front positioning structure comprises a first front bracket fixedly installed on a bottom plate, two first front supporting blocks are fixedly installed on the first front bracket, a first front positioning cylinder and a second front positioning cylinder are fixedly installed on two sides of the first front bracket, a first positioning plate and a second positioning plate are respectively fixedly installed on piston rods of the first front positioning cylinder and the second front positioning cylinder, first front positioning pins are fixedly installed on openings on two sides of the first positioning plate and the second positioning plate corresponding to two sides of a front beam, a first positioning seat is fixedly installed on the first front bracket, and a second front positioning pin is fixedly installed on the first positioning seat;

the first front floating compaction structure comprises a first powerful clamping cylinder fixedly connected with a first front support, a first connecting arm is fixed on a clamping arm of the first powerful clamping cylinder, the first connecting arm is rotationally connected with a connecting end of a first pressing block through a pin shaft, and the first pressing block is fixedly provided with two first pressing ends downwards.

3. The front beam welding fixture capable of floating compaction according to claim 2, wherein the second front positioning structure comprises a second front bracket fixedly installed on a bottom plate, two second front supporting blocks are fixedly installed on the second front bracket, a third front positioning cylinder is fixedly installed on the second front bracket, a third positioning plate is fixedly installed on a piston rod of the third front positioning cylinder, a second positioning seat is fixedly installed on the second front bracket, a third positioning seat is fixedly installed on the third positioning plate, and side positioning blocks are fixedly opposite to the beam body by the second positioning seat and the third positioning seat;

the second front floating compaction structure comprises a second powerful clamping cylinder fixedly mounted with a second front support, a second connecting arm is fixedly mounted on a clamping arm of the second powerful clamping cylinder, the second connecting arm is rotationally connected with a connecting end of a second pressing block through a pin shaft, and the second pressing block is fixedly provided with two second pressing ends downwards.

4. The front beam welding fixture capable of floating compaction according to claim 1, wherein the third front positioning structure comprises a third front bracket, a fourth positioning seat is fixedly arranged on the third front bracket, and a fourth front positioning pin is fixedly arranged on an opening on a beam body by the fourth positioning seat;

the front plugging structure comprises a first mounting block fixedly mounted on the second connecting arm, the first mounting block is fixedly connected with the first plugging block, and a first plug which can be plugged with the opening is fixed at the lower end of the first plugging block, opposite to the opening of the beam body.

5. The front beam welding fixture capable of floating compaction according to claim 1, wherein the first rear positioning structure comprises a first rear bracket fixedly installed on a bottom plate, two first rear supporting blocks are fixedly installed on the first rear bracket, a rear positioning support is fixedly installed on the bottom plate, a fifth positioning seat is fixedly installed on the rear positioning support, a first rear positioning cylinder is fixedly installed on the first rear bracket, a sixth positioning seat is fixedly installed on a piston rod of the first rear positioning cylinder, and a first rear positioning block is fixedly installed on the fifth positioning seat and the sixth positioning seat;

the first rear floating compaction structure comprises a third strong clamping cylinder fixedly connected with the first rear support, a third connecting arm is fixedly arranged on a clamping arm of the third strong clamping cylinder, the third connecting arm is rotationally connected with a connecting end of a third pressing block through a pin shaft, and two third pressing ends are downwards fixed on the third pressing block;

the first rear positioning structure further comprises an end support, an end cylinder is fixedly installed on the end support, and an end positioning pin is fixedly installed on a piston rod of the end cylinder through an end installation seat.

6. The front beam welding fixture capable of floating compaction according to claim 2, wherein the second rear positioning structure comprises a second rear bracket fixedly installed on a bottom plate, a seventh positioning seat is fixedly installed on one side of the second rear bracket, a second rear positioning cylinder is fixedly installed on the second rear bracket, an eighth positioning seat is fixedly installed on a piston rod of the second rear positioning cylinder, and second rear positioning blocks are fixedly installed on two sides of the seventh positioning seat and the eighth positioning seat corresponding to the front beam;

the second back floating compaction structure comprises a fourth strong clamping cylinder fixedly connected with a second back support, a fourth connecting arm is fixedly arranged on a clamping arm of the fourth strong clamping cylinder, the fourth connecting arm is rotationally connected with the connecting end of a fourth pressing block through a pin shaft, and two fourth pressing ends are downwards fixed on the fourth pressing block.

7. The front beam welding fixture capable of being pressed in a floating mode according to claim 1, wherein the third rear positioning structure comprises a third rear support fixedly installed on a bottom plate, a ninth positioning seat is fixedly installed on the third rear support, and a third rear positioning pin is fixedly installed on the ninth positioning seat upwards corresponding to an opening of the front beam.

8. The front beam welding fixture capable of floating compaction according to claim 1, wherein the rear plugging structure comprises a fifth powerful clamping cylinder fixedly connected with a third rear bracket, a second mounting block is fixedly mounted on a clamping arm of the fifth powerful clamping cylinder, the second mounting block is fixedly connected with a second plugging block, and a second plug capable of being plugged with the opening is fixed at the lower end of the second plugging block opposite to the opening of the beam body.