CN118143559A - Automatic welding device for aluminum alloy battery shell - Google Patents

Abstract

The invention discloses an automatic welding device for an aluminum alloy battery shell, which belongs to the technical field of welding of battery shells and comprises a fixed support frame, wherein two symmetrical synchronous pulleys are rotatably connected at two ends of the fixed support frame, a conveyor belt is arranged between the two synchronous pulleys, a plurality of uniformly distributed automatic clamp main bodies are fixedly connected at the upper surface of the conveyor belt, and each automatic clamp main body comprises a clamp control box. According to the automatic clamp body and the inclined arc plate, the automatic clamp body moves along with the conveyor belt, the stamping shell to be welded is conveyed to the position of the automatic welding mechanical arm for welding, and then moves to the inclined arc plate after welding is finished, at the moment, the automatic clamp body is loosened, and the corresponding automatic clamp body inclines, so that the stamping shell to be welded after welding slides into the collecting frame body for storage, the overall automation degree of welding is high, and the labor input is low.

Description

Automatic welding device for aluminum alloy battery shell

Technical Field

The invention belongs to the technical field of welding of battery shells, and particularly relates to an automatic welding device for an aluminum alloy battery shell.

Background

An aluminum alloy battery case is a kind of case for wrapping a battery, and is generally made of an aluminum alloy material. The aluminum alloy has excellent thermal conductivity and mechanical strength, and is capable of effectively radiating heat and protecting internal components of the battery. The aluminum alloy battery shell is widely applied to the fields of electric automobiles, mobile power supplies, smart phones and the like, and is one of common parts in modern electronic products. The lightweight design of the battery is beneficial to reducing the weight of equipment, improving the energy density, prolonging the service life of the battery and being beneficial to environmental protection and sustainable development.

When the battery shell of aluminum alloy among the prior art is producing, need punch out through stamping equipment to the panel that cuts, the shell after punching out need eliminate the gap after the punching out through welded mode, can strengthen the intensity of aluminum alloy battery shell simultaneously, avoids aluminum alloy battery shell to take place deformation in the use.

In the prior art, manual welding or mechanical automatic welding is generally adopted when an aluminum alloy shell is welded, the manual welding is to clamp a punched battery shell through an automatic clamp, then the manual welding is performed through welding equipment, the mechanical automatic welding is performed by manually clamping the punched battery shell at the clamp position and then conveying the punched battery shell to a welding machine for welding, and then manually taking down the welded shell after the welding is finished.

Disclosure of Invention

The technical problem to be solved by the invention is to overcome the defects in the prior art and provide a battery shell welding device capable of automatically unloading.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides an aluminum alloy battery casing automatic welder, includes the fixed bolster, fixed bolster both ends position rotation is connected with the synchronous pulley that two symmetries set up, two be provided with the conveyer belt between the synchronous pulley, conveyer belt upper surface position fixedly connected with a plurality of evenly distributed's automatic anchor clamps main part.

Through the technical scheme, the fixed support frame provides a platform for welding and conveying, the synchronous belt wheel can be provided with a conveying belt, the conveying belt is driven to run to realize running of the automatic clamp main body, the stamping shell to be welded can be moved to finish welding, and the automatic clamp main body can realize automatic clamping or automatic loosening of the stamping shell to be welded.

The automatic clamp main body comprises a clamp control box, two symmetrically arranged through sliding grooves are formed in the outer wall of the clamp control box, two control adjusting arms which are symmetrically arranged are connected in a sliding mode at the positions of the through sliding grooves, two synchronous rotating shafts which are symmetrically arranged are connected in a rotating mode at the positions of two parallel inner walls of the clamp control box, power gears are fixedly connected in the middle of the outer wall of the synchronous rotating shafts in a penetrating mode, and power racks are connected between the power gears through gear teeth in a meshed mode.

Through the technical scheme, the clamp control box can control the control adjusting arm, so that the side clamping arm is clamped or released dynamically, the overturning of the control adjusting arm can be limited through the sliding groove, the synchronous rotating shaft can rotate, the control adjusting arm can be overturned and adjusted, and the power rack slides up and down to provide power for the rotation of the power gear and the synchronous rotating shaft.

Further, the center of the lower surface of the clamp control box is provided with a through sliding hole in a penetrating mode, the lower surface of the power rack is fixedly connected with a jacking sliding rod, the bottom of the jacking sliding rod is in an arc-shaped mode, the jacking sliding rod is connected with the through sliding hole in a penetrating and sliding mode, and the bottom of the jacking sliding rod is connected with the conveying belt in a penetrating and sliding mode.

Through the technical scheme, the jack-up slide rod can be limited by sliding up and down through the slide hole, and the power rack moves upwards when the jack-up slide rod moves upwards, so that the power gear rotates, the control adjusting arm is controlled to outwards overturn, the side clamping arm is outwards overturned, the stamping shell to be welded is clamped loose, the bottom of the jack-up slide rod is arc-shaped, and the jack-up slide rod is conveniently matched with the guide jack-up block for jacking.

Further, two symmetrically arranged elastic support plates are fixedly connected to the bottom positions of two sides of the power rack, a plurality of evenly distributed reset springs are fixedly connected to the lower surface positions of the elastic support plates, one ends, away from the elastic support plates, of the reset springs are fixedly connected with the inner bottom wall of the clamp control box, and the control adjusting arms penetrate through the synchronous rotating shafts at corresponding positions.

Through the technical scheme, the elastic support plate can move upwards along with the power rack when the power rack moves upwards, the reset spring is stretched, when the power rack loses the pushing action of the jacking sliding rod, the elastic support plate moves downwards under the action of the reset spring, the power rack moves downwards, the power gear and the synchronous rotating shaft are reset, the control adjusting arm and the side clamping arm are reset, and the stamping shell to be welded can be fixedly clamped.

Further, two symmetrical side clamping arms are arranged above the clamp control box, two control adjusting arms positioned at the same synchronous rotating shaft position are fixedly connected with the lower surface of the same side clamping arm, and a stamping shell to be welded is clamped between the two side clamping arms.

Through the technical scheme, the expansion and the folding of the side clamping arms play roles in loosening or clamping the stamping shell to be welded and playing a role in a clamp.

Further, fixed bolster is located fixedly connected with support stabilizer between two synchronous pulleys, the one end position fixedly connected with of arbitrary one side of fixed bolster collects the framework, support stabilizer upper surface is close to and collects framework one end and keep away from one side fixedly connected with slope arc of collecting the framework, support stabilizer upper surface middle part position has seted up the direction jack-up groove, the lower surface of conveyer's working face and support stabilizer's upper surface sliding connection, and support stabilizer is graphite material.

Through above-mentioned technical scheme, support the stable platform and can realize supporting conveyer, avoid conveyer to be collapsed under the effect of automatic clamp main part and waiting to weld the punching press casing, avoid influencing normal welding, collect the framework and can realize waiting to weld after the welding punching press casing and collect, make things convenient for the later stage same recovery, the slope arc can make conveyer take place the slope, make the waiting to weld punching press casing of the side arm lock position of loosening take place to slide, and in the slip collecting framework, the direction jack-up groove can carry out spacingly to the jack-up slide bar, and graphite material's support stable platform intensity is high, and have the lubrication, reduce conveyer and support the degree of wear between the stable platform.

Further, collect the guide arc that frame body is close to fixed bolster one side fixedly connected with arc setting, guide jacking piece that two symmetry set up is fixedly connected with in guide jacking groove both sides position, is close to slope arc one side the guide jacking piece with support stabilizer table upper surface parallel and level, keep away from slope arc one side the guide jacking piece surface is higher than the surface of support stabilizer table.

Through above-mentioned technical scheme, the direction arc is realized waiting to weld the punching press casing and is collected, and wait to weld the punching press casing landing and comparatively gentle, avoids directly falling to lead to the fact the welding back to wait to weld the punching press casing to take place to warp or damage in collecting the framework bottom, and the direction jack-up piece with have the effect of guide, jack-up slide bar returns upward to remove when cooperating with the jack-up slide bar, keep away from inclined arc one side the direction jack-up piece surface is higher than the surface of supporting the stabilizer table, avoids jack-up slide bar jack-up not thoroughly.

Further, the fixed support frame is located any one synchronous pulley position fixedly connected with motor support, motor support upper surface position fixedly connected with gear motor, gear motor drive end passes through the shaft coupling with the pivot of synchronous pulley in corresponding position.

Through the technical scheme, the motor support can support and fix the gear motor, and the gear motor is started to provide power, so that the synchronous belt wheel rotates to drive the conveying belt to run.

Further, the fixed support frame side wall is close to motor support position fixedly connected with welding support, welding support upper surface position fixedly connected with automatic weld arm, all fixedly connected with support strengthening rib between motor support and welding support and the fixed support frame side wall.

Through the technical scheme, the welding support can be used for installing the automatic welding mechanical arm, the automatic welding mechanical arm is suitable for welding the stamping seam of the stamping shell to be welded, and the supporting reinforcing rib can be used for reinforcing the bearing capacity of the motor support and the welding support.

The beneficial effects of the invention are as follows: according to the automatic clamp body, the side clamping arms are expanded when the automatic clamp body moves to the guide jacking block close to the welding support, the to-be-welded stamping shell is placed between the two side clamping arms, the jacking sliding rod is separated from the guide jacking block when the automatic clamp body moves to the lower part of the automatic welding mechanical arm, the side clamping arms are folded, the to-be-welded stamping shell is clamped, the automatic welding mechanical arm is used for welding, the conveyor belt is conveyed continuously after the welding is finished, the side clamping arms are expanded when the automatic clamp body moves to the inclined arc plate, the conveyor belt is inclined under the action of the inclined arc plate, the welded to-be-welded stamping shell slides and slides into the collecting frame, the whole process is high in automation degree, labor investment is reduced, and the welding efficiency can be improved while the cost is reduced.

Drawings

FIG. 1 is a first view angle block diagram of an automatic welding device for aluminum alloy battery cases according to the present invention;

FIG. 2 is a view of a second view angle of the automatic welding device for aluminum alloy battery cases according to the present invention;

FIG. 3 is a schematic view of a part of an automatic welding device for an aluminum alloy battery shell according to the present invention;

fig. 4 is an enlarged view at a in fig. 3;

FIG. 5 is a schematic view of a first view angle structure of an automatic fixture of an automatic welding device for aluminum alloy battery cases according to the present invention;

FIG. 6 is a schematic view of a second view angle structure of an automatic fixture of an automatic welding device for aluminum alloy battery cases according to the present invention;

Fig. 7 is a sectional view of a jig control box of an automatic welding apparatus for aluminum alloy battery cases according to the present invention.

Reference numerals: 1. fixing the supporting frame; 2. an automatic clamp body; 20. a side clamping arm; 21. a clamp control box; 22. jacking the sliding rod; 23. controlling an adjusting arm; 24. an elastic support plate; 25. a return spring; 26. penetrating the sliding hole; 27. a power gear; 28. a synchronous rotating shaft; 29. a power rack; 201. penetrating through the chute; 3. a motor bracket; 4. a speed reducing motor; 5. welding a bracket; 6. an automatic welding mechanical arm; 7. stamping a shell to be welded; 8. a conveyor belt; 9. a guide arc plate; 10. a collecting frame; 11. a synchronous pulley; 12. an inclined arcuate plate; 13. a guide jacking groove; 14. supporting a stabilization table; 15. a guide jacking block; 16. supporting the reinforcing ribs.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

As shown in fig. 1-7, an automatic welding device for an aluminum alloy battery shell of the embodiment comprises a fixed support frame 1, two symmetrical synchronous pulleys 11 are rotatably connected at two ends of the fixed support frame 1, a conveyor belt 8 is arranged between the two synchronous pulleys 11, a plurality of evenly distributed automatic clamp main bodies 2 are fixedly connected at the upper surface positions of the conveyor belt 8, the fixed support frame 1 provides a welding and conveying platform, the conveyor belt 8 can be installed on the synchronous pulleys 11, the conveyor belt 8 is driven to operate so as to operate the automatic clamp main bodies 2, the stamping shell 7 to be welded can be moved so as to finish welding, and the automatic clamp main bodies 2 can realize automatic clamping or automatic loosening of the stamping shell 7 to be welded.

The fixed support frame 1 is located arbitrary synchronous pulley 11 position fixedly connected with motor support 3, and motor support 3 upper surface position fixedly connected with gear motor 4, and gear motor 4 drive end passes through the shaft coupling with the pivot of synchronous pulley 11 in corresponding position, and motor support 3 can realize supporting fixedly gear motor 4, and gear motor 4 starts and provides power for synchronous pulley 11 rotates, drives conveyer belt 8 operation.

The fixed bolster 1 lateral wall is close to motor support 3 position fixedly connected with welding support 5, and welding support 5 upper surface position fixedly connected with automatic weld arm 6, equal fixedly connected with supports strengthening rib 16 between motor support 3 and welding support 5 and the fixed bolster 1 lateral wall, and welding support 5 can install automatic weld arm 6, and automatic weld arm 6 adaptation is treated the punching press seam of welding punching press casing 7 and is welded, supports strengthening rib 16 can strengthen motor support 3 and welding support 5's bearing capacity.

The fixed support frame 1 is located fixedly connected with support stabilizer 14 between two synchronous pulleys 11, the one end position fixedly connected with of fixed support frame 1 arbitrary one side is collected the framework 10, support stabilizer 14 upper surface is close to and is collected framework 10 one end and keep away from one side fixedly connected with slope arc 12 of collecting the framework 10, guide jack-up groove 13 has been seted up to support stabilizer 14 upper surface middle part position, the lower surface of the working face of conveyer belt 8 and support stabilizer 14's upper surface sliding connection, and support stabilizer 14 is graphite material, support stabilizer 14 can realize supporting conveyer belt 8, avoid conveyer belt 8 to be collapsed under the effect of automatic clamp main part 2 and waiting to weld punching press casing 7, avoid influencing normal welding, collect framework 10 can realize waiting to weld punching press casing 7 after the butt welding and collect, make things convenient for the unified recovery in later stage, slope arc 12 can make conveyer belt 8 incline, make the waiting to weld casing 7 of the side clamp arm 20 position of loosening slide, and slide into and collect in the framework 10, guide jack-up groove 13 can carry out spacing slide bar 22, and support stabilizer 14 has high supporting strength and stable wear degree between the support stabilizer 14 and the stable support table, the stable wear degree of conveyer belt 8 has, and the effect of reducing the lubrication degree of supporting stabilizer 14.

The collecting frame body 10 is close to the guide arc 9 that fixed bolster 1 one side fixedly connected with arc set up, the guide jacking piece 15 that two symmetries set up of guide jacking groove 13 both sides fixedly connected with, guide jacking piece 15 and the support stabilizer 14 upper surface parallel and level that is close to slope arc 12 one side, the guide jacking piece 15 surface that keeps away from slope arc 12 one side is higher than the surface of support stabilizer 14, guide arc 9 realizes will waiting to weld punching press casing 7 to collect, and wait to weld punching press casing 7 landing is comparatively gentle, avoid directly falling to cause waiting to weld punching press casing 7 to take place to warp or damage after collecting frame body 10 bottom to weld, guide jacking piece 15 has the effect of guide, jack-up slide bar 22 back upward movement when cooperating with jack-up slide bar 22, the guide jacking piece 15 surface that keeps away from slope arc 12 one side is higher than the surface of support stabilizer 14, avoid jack-up slide bar 22 jack-up not thoroughly.

The automatic clamp main body 2 comprises a clamp control box 21, two symmetrically arranged penetrating slide grooves 201 are formed in the outer wall position of the clamp control box 21, two symmetrically arranged control adjusting arms 23 are slidably connected to the two penetrating slide grooves 201, two symmetrically arranged synchronous rotating shafts 28 are rotatably connected to the two parallel inner wall positions of the clamp control box 21, power gears 27 are fixedly connected to the middle positions of the outer walls of the two synchronous rotating shafts 28 in a penetrating mode, power racks 29 are connected between the two power gears 27 in a meshed mode through gear teeth, the clamp control box 21 can control the control adjusting arms 23, accordingly the side clamping arms 20 are clamped or released dynamically, the control adjusting arms 23 can be turned through the penetrating slide grooves 201 to be limited, the synchronous rotating shafts 28 can rotate to achieve turning adjustment of the control adjusting arms 23, and power is provided for rotation of the power gears 27 and the synchronous rotating shafts 28 through up-and-down sliding of the power racks 29.

The two symmetrically arranged elastic support plates 24 are fixedly connected to the bottom positions of the two sides of the power rack 29, a plurality of evenly distributed reset springs 25 are fixedly connected to the lower surface positions of the elastic support plates 24, one ends of the plurality of reset springs 25, which are far away from the elastic support plates 24, are fixedly connected with the inner bottom wall of the clamp control box 21, the control adjusting arms 23 are fixedly connected with the synchronous rotating shafts 28 at corresponding positions in a penetrating mode, the elastic support plates 24 can move upwards along with the power rack 29 when the power rack 29 moves upwards, the reset springs 25 are stretched, the elastic support plates 24 move downwards under the action of the reset springs 25 when the power rack 29 loses the jacking slide rod 22 to realize the downward movement of the power rack 29, the power gears 27 and the synchronous rotating shafts 28 reset, the control adjusting arms 23 and the side clamping arms 20 reset, and the stamping shell 7 to be welded can be fixedly clamped.

The center of the lower surface of the clamp control box 21 is provided with a through sliding hole 26 in a penetrating mode, the lower surface of the power rack 29 is fixedly connected with a jacking sliding rod 22, the bottom of the jacking sliding rod 22 is in an arc-shaped mode, the jacking sliding rod 22 is in penetrating sliding connection with the through sliding hole 26, the bottom of the jacking sliding rod 22 is in penetrating sliding connection with the conveying belt 8, the through sliding hole 26 can limit the vertical sliding of the jacking sliding rod 22, the power rack 29 moves upwards when the jacking sliding rod 22 moves upwards, the power gear 27 rotates, the control adjusting arm 23 is controlled to turn outwards, the side clamping arm 20 is turned outwards, the stamping shell 7 to be welded is clamped loose, the bottom of the jacking sliding rod 22 is in an arc shape, and the jacking is convenient to cooperate with the guide jacking block 15.

Two symmetrically arranged side clamping arms 20 are arranged above the clamp control box 21, two control adjusting arms 23 positioned at the same synchronous rotating shaft 28 are fixedly connected with the lower surface of the same side clamping arm 20, the stamping shell 7 to be welded is clamped between the two side clamping arms 20, and the expansion and the folding of the side clamping arms 20 play a role in loosening or clamping the stamping shell 7 to be welded and play a role in a clamp.

The working principle of this embodiment is as follows, through starting gear motor 4, gear motor 4 drives synchronous pulley 11 to rotate, synchronous pulley 11 rotates and realizes the transmission of conveyer belt 8, then automatic clamp main part 2 moves along with conveyer belt 8, when automatic clamp main part 2 moves to the direction jack-up piece 15 position that is close to welding bracket 5, carry out the expansion action of drawing in, press from both sides tightly waiting to weld punching press casing 7 through automatic clamp main part 2, conveyer belt 8 drives waiting to weld punching press casing 7 to automatic welding arm 6 position under, conveyer belt 8 pauses the removal, carry out gap welding through automatic welding arm 6, conveyer belt 8 drives automatic clamp main part 2 and continues to move, carry out the expansion action of drawing in when moving to the direction jack-up piece 15 position that is close to the slope arc 12 position after the welding, side clamp arm 20 can not carry out the centre gripping to waiting to weld punching press casing 7 again when the slope 8 takes place under the effect of slope arc 12, waiting to weld punching press casing 7 slides to waiting to weld under the effect of gravity to collect frame 10, and is gone into collecting frame 10 position under the effect of guide arc 9, can finish the storage welding of collecting frame 7;

The specific flow of the expanding and closing action is as follows: the jack-up slide bar 22 is contacted with the guide jack-up block 15, then the guide jack-up block 15 compresses the jack-up slide bar 22, so that the power rack 29 and the elastic support plate 24 synchronously move upwards, at the moment, the reset spring 25 is stretched, the power gear 27 and the synchronous rotating shaft 28 rotate together, the synchronous rotating shaft 28 drives the control adjusting arm 23 to turn outwards, the side clamping arms 20 turn outwards, the to-be-welded stamping shell 7 waiting to be welded is placed between the two side clamping arms 20 turning outwards at the moment, the conveying belt 8 continuously drives the automatic clamp main body 2 to move, the jack-up slide bar 22 is separated from the guide jack-up block 15 at the corresponding position, the jack-up slide bar 22 loses extrusion force, the elastic support plate 24 is reset downwards under the action of the reset spring 25, the elastic support plate 24 drives the jack-up slide bar 22 to move downwards together, the power rack 29 moves downwards together, the synchronous rotating shaft 28 is driven by the power gear 27 to rotate, the control adjusting arm 23 is enabled to draw in inwards, and the to-be-welded stamping shell 7 waiting to be welded is clamped.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the present invention.

Claims (8)

1. The utility model provides an aluminum alloy battery casing automatic welder, includes fixed support frame (1), its characterized in that: two symmetrically arranged synchronous pulleys (11) are rotationally connected to the two ends of the fixed support frame (1), a conveyor belt (8) is arranged between the two synchronous pulleys (11), and a plurality of uniformly distributed automatic clamp main bodies (2) are fixedly connected to the upper surface of the conveyor belt (8);

The automatic clamp main body (2) comprises a clamp control box (21), two symmetrically arranged penetrating sliding grooves (201) are formed in the outer wall position of the clamp control box (21), two symmetrically arranged control adjusting arms (23) are connected to the penetrating sliding grooves (201) in a sliding mode, two symmetrically arranged synchronous rotating shafts (28) are connected to the two parallel inner wall positions of the clamp control box (21) in a rotating mode, two synchronous rotating shafts (28) are fixedly connected with power gears (27) in a penetrating mode in the middle of the outer wall of the synchronous rotating shafts (28), and power racks (29) are connected between the power gears (27) through gear teeth in a meshed mode.

2. The automatic welding device for the aluminum alloy battery shell according to claim 1, wherein a through sliding hole (26) is formed in the center of the lower surface of the clamp control box (21) in a penetrating mode, a jacking sliding rod (22) is fixedly connected to the lower surface of the power rack (29), the bottom of the jacking sliding rod (22) is arranged in a circular arc shape, the jacking sliding rod (22) is in penetrating sliding connection with the through sliding hole (26), and the bottom of the jacking sliding rod (22) is in penetrating sliding connection with the conveying belt (8).

3. The automatic welding device for the aluminum alloy battery shell according to claim 1, wherein two symmetrically arranged elastic support plates (24) are fixedly connected to the bottom positions of two sides of the power rack (29), a plurality of evenly distributed reset springs (25) are fixedly connected to the lower surface positions of the elastic support plates (24), one ends, far away from the elastic support plates (24), of the reset springs (25) are fixedly connected with the inner bottom wall of the clamp control box (21), and the control adjusting arms (23) are fixedly connected with synchronous rotating shafts (28) at corresponding positions in a penetrating mode.

4. The automatic welding device for aluminum alloy battery shells according to claim 1, wherein two symmetrically arranged side clamping arms (20) are arranged above the clamp control box (21), two control adjusting arms (23) positioned on the same synchronous rotating shaft (28) are fixedly connected with the lower surface of the same side clamping arm (20), and a stamping shell (7) to be welded is clamped between the two side clamping arms (20).

5. The automatic welding device for the aluminum alloy battery shell according to claim 1, wherein the fixed support frame (1) is fixedly connected with a support stabilizing table (14) between two synchronous pulleys (11), one end position of any side of the fixed support frame (1) is fixedly connected with a collection frame body (10), one side, close to one end of the collection frame body (10), of the upper surface of the support stabilizing table (14) is fixedly connected with an inclined arc plate (12), a guide jacking groove (13) is formed in the middle position of the upper surface of the support stabilizing table (14), the lower surface of the working surface of the conveyor belt (8) is in sliding connection with the upper surface of the support stabilizing table (14), and the support stabilizing table (14) is made of graphite materials.

6. The automatic welding device for the aluminum alloy battery shell according to claim 5, wherein one side of the collecting frame body (10) close to the fixed support frame (1) is fixedly connected with a guide arc plate (9) which is arranged in an arc shape, two symmetrically arranged guide jacking blocks (15) are fixedly connected to two sides of the guide jacking groove (13), the guide jacking blocks (15) close to one side of the inclined arc plate (12) are flush with the upper surface of the supporting stabilizing table (14), and the surface of the guide jacking blocks (15) far away from one side of the inclined arc plate (12) is higher than the surface of the supporting stabilizing table (14).

7. The automatic welding device for the aluminum alloy battery shell according to claim 1, wherein the fixed support frame (1) is fixedly connected with the motor support (3) at any one synchronous pulley (11), a gear motor (4) is fixedly connected to the upper surface of the motor support (3), and the driving end of the gear motor (4) is connected with a rotating shaft of the synchronous pulley (11) at the corresponding position through a coupling.

8. The automatic welding device for aluminum alloy battery cases according to claim 7, wherein: the side wall of the fixed support frame (1) is fixedly connected with a welding support (5) close to the position of the motor support frame (3), an automatic welding mechanical arm (6) is fixedly connected to the upper surface of the welding support frame (5), and supporting reinforcing ribs (16) are fixedly connected between the motor support frame (3) and the side wall of the welding support frame (5) and the side wall of the fixed support frame (1).