CN112658516A - Multi-station multi-material-level bracket connecting piece production line - Google Patents

Abstract

The invention discloses a multi-station multi-material-level bracket connecting piece production line which comprises a feeding frame, a material taking mechanism, a feeding mechanism, a welding mechanism and production equipment, wherein the feeding frame is provided with a feeding hole; the feeding mechanism is arranged on the feeding frame, the front part and the middle part of the feeding mechanism are arranged on two sides of the feeding mechanism, the welding mechanism is arranged on the feeding frame and matched with the rear part of the feeding mechanism, and the production equipment is arranged at the rear part of the feeding frame. The truss material taking machine on the material taking mechanism can take the section material from the material rack and place the section material on the material feeding rack, the material feeding mechanism pushes the section material forwards to a set position, the welding mechanism welds two aluminum alloy section materials, and the front stamping device, the side stamping device and the cutting device in the production equipment sequentially perform the procedures of punching, cutting and the like on the aluminum alloy section materials, so that the whole production process does not need to be monitored on site by personnel, the unmanned production management is realized, and the production equipment is efficient.

Description

Multi-station multi-material-level bracket connecting piece production line

Technical Field

The invention relates to profile processing equipment, in particular to a production line of a multi-station multi-material-level bracket connecting piece.

Background

When a small aluminum profile workpiece is machined, a single aluminum profile is usually machined, the aluminum profile needs to be replaced after one aluminum profile is machined, the feeding time is high, and the production efficiency is low.

Disclosure of Invention

The invention aims to provide a production line of a multi-station multi-material-level bracket connecting piece, which is high in production efficiency.

In order to achieve the purpose, the technical solution of the invention is as follows:

the invention relates to a production line of a multi-station multi-material-level bracket connecting piece, which is characterized in that: comprises a feeding frame, a material taking mechanism, a feeding mechanism, a welding mechanism and production equipment; the feeding mechanism is arranged on the feeding frame and located above the feeding frame in a bridging mode so as to feed materials, the feeding mechanism is arranged on the feeding frame and located above the feeding frame, the front portion and the middle portion of the feeding mechanism are located on two sides of the feeding mechanism, the welding mechanism is arranged on the feeding frame and matched with the rear portion of the feeding mechanism, and the production equipment is located on the rear portion of the feeding frame.

The feeding frame comprises a feeding rack and a plurality of rollers; the rollers are rotatably arranged in the feeding rack side by side at intervals.

The material taking mechanism comprises a material rack and a truss material taking machine; the material rest is arranged on one side of the material feeding frame, the truss material taking machine is bridged above the material feeding frame, a first station of the truss material taking machine is connected with the material rest, and a second station of the truss material taking machine is connected with the material feeding frame;

the feeding mechanism comprises a pusher, a positioning machine and a feeder; the positioning machine and the feeding machine are sequentially arranged in the middle of the feeding frame and positioned on the right side of the taking mechanism, and the welding mechanism is positioned at the feeding machine and matched with the feeding machine;

the material pushing machine comprises a material pushing motor, a material pushing screw rod, a material pushing guide rod, a material pushing frame, a material pushing cylinder, a material pushing pressing frame, a material pushing pressing roller and a material pushing guide pillar; the pushing device comprises a feeding frame, a pushing motor, a pushing guide rod, a pushing compression roller, a pushing guide rod and a pushing guide rod, wherein the pushing motor is arranged on the feeding frame, an output shaft of the pushing motor is connected with one end of the pushing guide rod, the pushing guide rod is rotatably arranged on the feeding frame, the middle part of the pushing guide rod is in threaded connection with a screw nut arranged at the lower end of the pushing frame, the bottom of the pushing frame is movably sleeved on the pushing guide rod, the pushing guide rod is fixedly arranged on the feeding frame, a cylinder body of the pushing cylinder is fixedly arranged at the top of the pushing frame, a piston rod end of the pushing cylinder is connected with the top;

the positioning machine comprises a positioning frame, a positioning cylinder, a positioning pressing plate, a positioning pressing head and a positioning guide pillar; the positioning frame is fixedly arranged on the feeding frame, the cylinder body of the positioning cylinder is arranged at the top of the positioning frame, the rod end of a piston rod of the positioning cylinder is connected with the top surface of the positioning pressing plate, the bottom surface of the positioning pressing plate is connected with the top surface of the positioning pressing head, the positioning pressing plate movably penetrates through the positioning frame through a positioning guide pillar, and the bottom surface of the positioning pressing head extends to a roller on the feeding frame;

the feeder comprises a feeding motor, a feeding screw rod, a feeding guide rod, a feeding seat and two feeding positioning machines; the feeding motor is fixedly arranged on the feeding frame, an output shaft of the feeding motor is connected with one end of a feeding screw rod, the feeding screw rod is rotatably arranged on the feeding frame, the middle part of the feeding screw rod is in threaded connection with a screw rod nut arranged at the lower end of a feeding seat, the bottom of the feeding seat is movably sleeved on a feeding guide rod, the feeding guide rod is fixedly arranged on the feeding frame, the bottoms of two feeding positioning machines are arranged on the feeding seat and are arranged in parallel, and a station for welding is formed between the two feeding positioning machines;

the feeding positioning machine comprises a feeding positioning frame, a feeding positioning cylinder, a feeding positioning pressing plate, a feeding positioning pressing block, a feeding positioning guide pillar and two feeding positioning guide wheels; the lower end of the feeding positioning frame is fixed on the feeding seat, the cylinder body of the feeding positioning cylinder is fixed on the top of the feeding positioning frame, the rod end of a piston rod of the feeding positioning cylinder is connected with the feeding positioning pressing plate, the feeding positioning pressing plate movably penetrates through the feeding positioning guide pillar and is arranged on the feeding positioning frame, the top of the feeding positioning pressing block is fixed on the feeding positioning pressing plate, the lower end of the feeding positioning pressing block extends to a roller on the feeding frame, two feeding positioning guide wheels are fixedly arranged on the feeding positioning frame and are arranged oppositely, and a feeding channel of the section bar is formed between the two feeding positioning guide wheels;

the welding mechanism comprises an X-axis linear module, a Y-axis linear module, a Z-axis linear module, a welding head and two clamping mechanisms; the X-axis linear module is fixed on the feeding machine, the Y-axis linear module is installed on a sliding block of the X-axis linear module, the Z-axis linear module is installed on a sliding block of the Y-axis linear module, the welding head is installed on a sliding block of the Z-axis linear module and extends to the feeding frame, the two clamping mechanisms are fixedly installed on a feeding seat of the feeding machine and are symmetrically arranged;

the clamping mechanism comprises a clamping cylinder and a clamping head, wherein a cylinder body of the clamping cylinder is fixed on a feeding seat of the feeding machine, and the clamping head is fixed at the end of a piston rod of the clamping cylinder;

the production equipment comprises a production rack, front stamping equipment, side stamping equipment and cutting equipment; the production rack is abutted with the feeding rack, and the front stamping equipment, the side stamping equipment and the cutting equipment are sequentially arranged on the production rack;

the front stamping equipment comprises a stamping rack, a stamping cylinder and a die shank seat; the stamping machine frame is fixedly arranged on the production machine frame, the cylinder body of the stamping cylinder is fixed on the top surface of the stamping machine frame, the end of a piston rod of the stamping cylinder is connected with a die handle seat, and the die handle seat can be connected with a stamping die;

the side stamping equipment comprises a side stamping rack, more than one side stamping cylinder and a side die handle seat; the side punching machine frame is fixedly arranged on the production machine frame, a cylinder body of a side punching cylinder is fixed on the side surface of the side punching machine frame, a piston rod end of the side punching cylinder is connected with a side die handle seat, and the side die handle seat can be connected with a punching die;

the cutting equipment comprises a cutting rack, a cutting guide rail, a moving seat, a moving motor, a moving screw rod, a cutting motor, a cutting knife, a cutting stop block, a cutting material pressing frame, a cutting material pressing cylinder, a cutting pressing plate and a cutting guide pillar; the cutting machine is characterized in that the cutting machine frame is fixedly arranged on the production frame, the cutting guide rail is fixedly arranged on the production frame, the moving seat is connected to the cutting guide rail in a sliding manner, the moving motor is arranged on the cutting machine frame, an output shaft of the moving motor is connected with one end of the moving screw rod, the moving screw rod is rotatably arranged on the cutting machine frame, the middle part of the moving screw rod is in threaded connection with a screw nut fixed at the bottom of the moving seat and drives the moving seat to move back and forth along the cutting guide rail, the cutting motor is arranged on the moving seat, the output shaft of the cutting motor is connected with a cutting knife, the cutting knife can move back and forth along the section bar feeding direction perpendicular to the cutting machine frame, the cutting process is completed, and the cutting stop block is arranged on; the cutting material pressing frame is installed at the top of the cutting rack, a cylinder body of the cutting material pressing cylinder is fixed at the top of the cutting material pressing frame, a piston rod end of the cutting material pressing cylinder is connected with the cutting pressing plate, and the cutting pressing plate penetrates through the cutting guide pillar and is movably arranged on the top of the cutting material pressing frame.

After the scheme is adopted, the device comprises a feeding frame, a material taking mechanism, a feeding mechanism, a welding mechanism and production equipment, wherein a truss material taking machine on the material taking mechanism receives an instruction to take aluminum alloy materials from the material frame and place the aluminum alloy materials on the material feeding frame according to a set route; the feeding mechanism pushes the aluminum alloy section forward to a set position and then returns to the original position, the welding mechanism welds two aluminum alloy section materials, the front stamping equipment, the side stamping equipment and the cutting equipment in the production equipment sequentially perform the procedures of punching, cutting and the like on the aluminum alloy section materials, the whole production process does not need to be monitored on site by personnel, unmanned production management is achieved, and the automatic aluminum alloy section welding machine is efficient production equipment.

The invention is further described with reference to the following figures and specific embodiments.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a view of FIG. 1 taken along direction A;

FIG. 4 is an isometric view of the present invention;

FIG. 5 is an isometric view of a pusher in the feed mechanism of the present invention;

FIG. 6 is an isometric view of the positioning machine and feeder of the feeding mechanism of the present invention;

FIG. 7 is an isometric view of the welding mechanism of the present invention;

FIG. 8 is an isometric view of a production facility of the present invention;

FIG. 9 is a rear isometric view of a cutting apparatus in the production apparatus of the present invention;

fig. 10 is an isometric view of a cutting apparatus in the production apparatus of the present invention.

Detailed Description

As shown in figure 1, the invention relates to a multi-station multi-material-level support connecting piece production line which comprises a feeding frame 1, a material taking mechanism 2, a feeding mechanism 3, a welding mechanism 4 and production equipment 5.

The feeding mechanism 3 is arranged on the feeding frame 1 and located above the feeding frame 1, the front portion and the middle portion of the feeding mechanism 3 are located on two sides of the feeding mechanism 2, the welding mechanism 4 is arranged on the feeding frame 1, the welding mechanism 4 is matched with the rear portion of the feeding mechanism 3, and the production equipment 5 is located at the rear portion of the feeding frame 1.

The feeding frame 1 comprises a feeding frame 11 and a plurality of rollers 12; the rollers 12 are rotatably mounted in the feeder frame 11 in spaced, side-by-side relation.

The material taking mechanism 2 comprises a material rack 21 and a truss material taking machine 22; the material rest 21 is installed on one side of the material feeding rest 1, the truss material taking machine 22 is bridged above the material feeding rest 1, a first station of the truss material taking machine 22 is connected with the material rest 21, and a second station of the truss material taking machine 22 is connected with the material feeding rest 1.

The feeding mechanism 3 comprises a pusher 31, a positioning machine 32 and a feeder 33. The pusher 31 is installed in the front of the feeding frame 1 and is located on the left side of the material taking mechanism 2, the positioning machine 32 and the feeding machine 33 are sequentially installed in the middle of the feeding frame 1 and are located on the right side of the material taking mechanism 2, and the welding mechanism 4 is located at the feeding machine 33 and is matched with the feeding machine 33.

The material pushing machine 31 comprises a material pushing motor 311, a material pushing screw 312, a material pushing guide rod 313, a material pushing frame 314, a material pushing cylinder 315, a material pushing pressing frame 316, a material pushing pressing roller 317 and a material pushing guide pillar 318; the material pushing motor 311 is installed on the material feeding frame 1, an output shaft of the material pushing motor 311 is connected with one end of a material pushing screw rod 312, the material pushing screw rod 312 is rotatably installed on the material feeding frame 1, the middle part of the material pushing screw rod 312 is in threaded connection with a screw rod nut installed at the lower end of the material pushing frame 314, the bottom of the material pushing frame 314 is movably sleeved on a material pushing guide rod 313, the material pushing guide rod 313 is fixedly installed on the material feeding frame 1, a cylinder body of a material pushing cylinder 315 is fixedly installed at the top of the material pushing frame 314, a piston rod end of the material pushing cylinder 315 is connected with the top of a material pushing pressing frame 316, the material pushing pressing frame 316 is movably arranged on the material pushing frame 314 in a penetrating mode through a material pushing guide post 318, a.

The positioning machine 32 comprises a positioning frame 321, a positioning air cylinder 322, a positioning pressure plate 323, a positioning pressure head 324 and a positioning guide pillar 325; the positioning frame 321 is fixedly arranged on the feeding frame 1, the cylinder body of the positioning cylinder 322 is arranged at the top of the positioning frame 321, the rod end of the piston rod of the positioning cylinder 322 is connected with the top surface of the positioning pressing plate 323, the bottom surface of the positioning pressing plate 323 is connected with the top surface of the positioning pressure head 324, the positioning pressing plate 323 movably penetrates through the positioning frame 321 through the positioning guide pillar 325, and the bottom surface of the positioning pressure head 325 extends to the roller 12 on the feeding frame 1.

The feeder 33 comprises a feeding motor 331, a feeding screw rod 332, a feeding guide rod 333, a feeding seat 334 and two feeding positioning machines 335; the feeding motor 331 is fixedly installed on the feeding frame 1, an output shaft of the feeding motor 331 is connected with one end of a feeding screw rod 332, the feeding screw rod 332 is rotatably installed on the feeding frame 1, the middle part of the feeding screw rod 332 is in threaded connection with a screw rod nut installed at the lower end of a feeding seat 334, the bottom of the feeding seat 334 is movably sleeved on a feeding guide rod 333, the feeding guide rod 333 is fixedly installed on the feeding frame 1, the bottoms of two feeding positioning machines 335 are installed on the feeding seat 334 and are arranged in parallel, and a station for welding is formed between the two feeding positioning machines 335.

The feeding positioning machine 335 comprises a feeding positioning frame 3351, a feeding positioning cylinder 3352, a feeding positioning pressing plate 3353, a feeding positioning pressing block 3354, a feeding positioning guide pillar 3355 and two feeding positioning guide wheels 3356; the lower end of the feeding positioning frame 3351 is fixed on the feeding seat 334, the cylinder body of the feeding positioning cylinder 3352 is fixed on the top of the feeding positioning frame 3351, the rod end of the piston rod of the feeding positioning cylinder 3352 is connected with the feeding positioning pressing plate 3353, the feeding positioning pressing plate 3353 is movably arranged on the feeding positioning frame 3351 through the feeding positioning guide post 3355, the top of the feeding positioning pressing block 3354 is fixed on the feeding positioning pressing plate 3353, the lower end of the feeding positioning pressing block 3354 extends to the roller 12 on the feeding frame 1, the two feeding positioning guide wheels 3356 are fixedly arranged on the feeding positioning frame 3351, the two feeding positioning guide wheels 3356 are arranged oppositely, and a feeding channel of the section bar is formed between the two feeding positioning guide wheels 3356.

As shown in fig. 7, 4 includes an X-axis linear module 41, a Y-axis linear module 42, a Z-axis linear module 43, a bonding head (not shown), and two clamping mechanisms 44; the X-axis linear module 41 is fixed on a feeding positioning frame 3351 of the feeding machine 33, the Y-axis linear module 42 is installed on a sliding block of the X-axis linear module 41, the Z-axis linear module 43 is installed on a sliding block of the Y-axis linear module 42, the welding head is installed on a sliding block of the Z-axis linear module 43 and extends to the feeding frame 1, the two clamping mechanisms 44 are fixedly installed on a feeding seat 334 of the feeding machine 33, the two clamping mechanisms 44 are symmetrically arranged, and a section welding fixing station is formed between the two clamping mechanisms 44.

The clamping mechanism 44 comprises a clamping cylinder 441 and a clamping head 442; the cylinder body of the clamping cylinder 441 is fixed on the feeding seat 334 of the feeding machine 33, and the clamping head 442 is fixed on the rod end of the piston rod of the clamping cylinder 441.

As shown in fig. 8, the production apparatus 5 includes a production frame 51, a front face punching apparatus 52, a side face punching apparatus 53, and a cutting apparatus 54; the production rack 51 is abutted against the feeding rack 1, and the front punching device 52, the side punching device 53 and the cutting device 54 are sequentially mounted on the production rack 51.

The front-side stamping equipment 52 comprises a stamping rack 521, a stamping cylinder 522 and a die shank seat 523; the stamping machine frame 521 is fixedly installed on the production machine frame 51, the cylinder body of the stamping cylinder 522 is fixed on the top surface of the stamping machine frame 521, the piston rod end of the stamping cylinder 522 is connected with the die shank seat 523, and the die shank seat 523 can be connected with a stamping die.

The side stamping device 53 comprises a side stamping rack 531, two side stamping cylinders 532 and a side die handle base 533; the side punching machine frame 531 is fixedly installed on the production machine frame 51, the cylinder body of the side punching air cylinder 532 is fixed on the side surface of the side punching machine frame 531, the piston rod end of the side punching air cylinder 532 is connected with the side mold handle seat 533, and the side mold handle seat 533 can be connected with a punching die.

As shown in fig. 8-10, the cutting device 54 includes a cutting frame 541, a cutting guide rail 542, a moving seat 543, a moving motor 544, a moving screw 545, a cutting motor 546, a cutting knife 547, a cutting stop 548, a cutting press frame 549, a cutting press cylinder 5410, a cutting press plate 5411, and a cutting guide pillar 5412; the cutting machine frame 541 is fixedly installed on the production machine frame 51, the cutting guide rail 542 is fixed on the production machine frame 51, the moving seat 543 is connected on the cutting guide rail 542 in a sliding manner, the moving motor 544 is installed on the cutting machine frame 541, an output shaft of the moving motor 544 is connected with one end of the moving screw 545, the moving screw 545 is rotatably installed on the cutting machine frame 541, the middle part of the moving screw 545 is in screw connection with a screw nut fixed at the bottom of the moving seat 543 and drives the moving seat 543 to move back and forth along the cutting guide rail, the cutting motor 546 is installed on the moving seat 543, an output shaft of the cutting motor 546 is connected with the cutting knife 547, the cutting knife 547 can move back and forth along the section bar feeding direction perpendicular to the cutting machine frame to complete the cutting process, and the cutting block 548 is installed on the bottom surface of the cutting machine frame; the cutting material pressing frame 549 is installed at the top of the cutting machine frame 541, a cylinder body of the cutting material pressing cylinder 5410 is fixed at the top of the cutting material pressing frame 549, a piston rod end of the cutting material pressing cylinder 5410 is connected with the cutting pressing plate 5411, and the cutting pressing plate 5411 is movably arranged on the top of the cutting material pressing frame 541 in a penetrating mode through the cutting guide pillar 5412.

The working principle of the invention is as follows:

1. and (6) automatically taking materials.

The truss material taking machine 22 in the material taking mechanism 2 puts 6 meters of aluminum alloy section bars on the material rack 21, 2-4 pieces of materials can be discharged at the same time each time, a mechanical arm on the truss material taking machine 22 receives an instruction to take materials from the material rack 21, puts the materials on the material feeding rack 1 according to a set route, and returns to the initial position after finishing according to requirements.

2. And (6) automatic feeding.

After receiving the instruction of finishing the material taking by the material taking mechanism 2, the material pusher 31 pushes the aluminum alloy section material to the set position forward according to the signal provided by the master control and then returns to the original position. At the moment, the feeding mechanism 3 feeds materials forwards in a stepping mode according to instructions, and returns to take materials according to instructions when the materials move forwards to a specified position. Thus, the operation is repeated. After the forward feeding degree is set, a feeding instruction is sent to the master control, the forward feeding operation is repeated in the material taking mechanism 2, the material feeding mechanism 3 continues feeding, and the forward operation is repeated.

3. And (5) processing and producing. The aluminum alloy section material 6 is sequentially sent to a front punching device 52, a side punching device 53 and a cutting device 54 in the production device 5, punching work is started after the punching station receives an instruction, front punching, side punching and cutting processes of the aluminum alloy section material 6 are sequentially completed, meanwhile, a detection sensor detects whether the last work piece of the same station is completed or not, if punching is not completed, a work error instruction is sent, and other stations have the same work instruction. The distance between the stations is ensured by the adjusting mechanism of the truss.

It should be noted that: the production equipment can be combined at will according to needs to complete the working procedures of punching, drilling, tapping, cutting and the like.

The above description is only a preferred embodiment of the present invention, and therefore should not be taken as limiting the scope of the invention, which is defined by the appended claims and their equivalents and modifications within the scope of the description.

Claims (10)

1. The utility model provides a many material levels of multistation leg joint spare production line which characterized in that: comprises a feeding frame, a material taking mechanism, a feeding mechanism, a welding mechanism and production equipment;

the feeding mechanism is arranged on the feeding frame and located above the feeding frame in a bridging mode so as to feed materials, the feeding mechanism is arranged on the feeding frame and located above the feeding frame, the front portion and the middle portion of the feeding mechanism are located on two sides of the feeding mechanism, the welding mechanism is arranged on the feeding frame and matched with the rear portion of the feeding mechanism, and the production equipment is located on the rear portion of the feeding frame.

2. The multi-station multi-level bracket connector production line according to claim 1, characterized in that: the feeding frame comprises a feeding rack and a plurality of rollers; the rollers are rotatably arranged in the feeding rack side by side at intervals; the material taking mechanism comprises a material rack and a truss material taking machine; the material frame is installed on one side of the material feeding frame, the truss material taking machine is bridged above the material feeding frame, a first station of the truss material taking machine is connected with the material frame, and a second station of the truss material taking machine is connected with the material feeding frame.

3. The multi-station multi-level bracket connector production line according to claim 1, characterized in that: the feeding mechanism comprises a pusher, a positioning machine and a feeder; the material pushing machine is installed in the front of the material feeding frame and located on the left side of the material taking mechanism, the positioning machine and the material feeding machine are sequentially installed in the middle of the material feeding frame and located on the right side of the material taking mechanism, and the welding mechanism is located at the material feeding machine and matched with the material feeding machine.

4. The multi-station multi-level bracket connecting piece production line of claim 3, characterized in that: the material pushing machine comprises a material pushing motor, a material pushing screw rod, a material pushing guide rod, a material pushing frame, a material pushing cylinder, a material pushing pressing frame, a material pushing pressing roller and a material pushing guide pillar; the material pushing motor is installed on the material feeding frame, an output shaft of the material pushing motor is connected with one end of a material pushing screw rod, the material pushing screw rod is rotatably installed on the material feeding frame, the middle of the material pushing screw rod is in threaded connection with a screw nut installed at the lower end of the material pushing frame, the bottom of the material pushing frame is movably sleeved on a material pushing guide rod, the material pushing guide rod is fixedly installed on the material feeding frame, a cylinder body of a material pushing cylinder is fixedly installed at the top of the material pushing frame, a rod end of a piston rod of the material pushing cylinder is connected with the top of a material pushing pressing frame, the material pushing pressing frame penetrates through a material pushing guide pillar in a movable mode on the material.

5. The multi-station multi-level bracket connecting piece production line of claim 3, characterized in that: the positioning machine comprises a positioning frame, a positioning cylinder, a positioning pressing plate, a positioning pressing head and a positioning guide pillar; the positioning frame is fixedly arranged on the feeding frame, the cylinder body of the positioning cylinder is arranged at the top of the positioning frame, the rod end of a piston rod of the positioning cylinder is connected with the top surface of the positioning pressing plate, the bottom surface of the positioning pressing plate is connected with the top surface of the positioning pressing head, the positioning pressing plate is movably arranged on the positioning frame in a penetrating mode through the positioning guide pillar, and the bottom surface of the positioning pressing head extends to the roller on the feeding frame.

6. The multi-station multi-level bracket connecting piece production line of claim 3, characterized in that: the feeder comprises a feeding motor, a feeding screw rod, a feeding guide rod, a feeding seat and two feeding positioning machines; the feeding motor is fixedly arranged on the feeding frame, an output shaft of the feeding motor is connected with one end of a feeding screw rod, the feeding screw rod is rotatably arranged on the feeding frame, the middle part of the feeding screw rod is in threaded connection with a screw nut arranged at the lower end of a feeding seat, the bottom of the feeding seat is movably sleeved on a feeding guide rod, the feeding guide rod is fixedly arranged on the feeding frame, the bottoms of two feeding positioning machines are arranged on the feeding seat and are arranged in parallel, and a station for welding is formed between the two feeding positioning machines.

7. The multi-station multi-level bracket connector production line according to claim 6, characterized in that: the feeding positioning machine comprises a feeding positioning frame, a feeding positioning cylinder, a feeding positioning pressing plate, a feeding positioning pressing block, a feeding positioning guide pillar and two feeding positioning guide wheels; the lower end of the feeding positioning frame is fixed on the feeding seat, the cylinder body of the feeding positioning cylinder is fixed on the top of the feeding positioning frame, the rod end of a piston rod of the feeding positioning cylinder is connected with the feeding positioning pressing plate, the feeding positioning pressing plate movably penetrates through the feeding positioning guide pillar and is arranged on the feeding positioning frame, the top of the feeding positioning pressing block is fixed on the feeding positioning pressing plate, the lower end of the feeding positioning pressing block extends to a roller on the feeding frame, the two feeding positioning guide wheels are fixedly arranged on the feeding positioning frame and are arranged oppositely, and a feeding channel of the section bar is formed between the two feeding positioning guide wheels.

8. The multi-station multi-level bracket connector production line according to claim 1, characterized in that: the welding mechanism comprises an X-axis linear module, a Y-axis linear module, a Z-axis linear module, a welding head and two clamping mechanisms; the X-axis linear module is fixed on the feeding machine, the Y-axis linear module is installed on a sliding block of the X-axis linear module, the Z-axis linear module is installed on a sliding block of the Y-axis linear module, the welding head is installed on a sliding block of the Z-axis linear module and extends to the feeding frame, the two clamping mechanisms are fixedly installed on a feeding seat of the feeding machine and are symmetrically arranged; the clamping mechanism comprises a clamping cylinder and a clamping head, wherein the cylinder body of the clamping cylinder is fixed on the feeding seat of the feeding machine, and the clamping head is fixed at the end of a piston rod of the clamping cylinder.

9. The multi-station multi-level bracket connector production line according to claim 1, characterized in that: the production equipment comprises a production rack, front stamping equipment, side stamping equipment and cutting equipment; the production rack is abutted with the feeding rack, and the front stamping equipment, the side stamping equipment and the cutting equipment are sequentially arranged on the production rack; the cutting equipment comprises a cutting rack, a cutting guide rail, a moving seat, a moving motor, a moving screw rod, a cutting motor, a cutting knife, a cutting stop block, a cutting material pressing frame, a cutting material pressing cylinder, a cutting pressing plate and a cutting guide pillar; the cutting machine is characterized in that the cutting machine frame is fixedly arranged on the production frame, the cutting guide rail is fixedly arranged on the production frame, the moving seat is connected to the cutting guide rail in a sliding manner, the moving motor is arranged on the cutting machine frame, an output shaft of the moving motor is connected with one end of the moving screw rod, the moving screw rod is rotatably arranged on the cutting machine frame, the middle part of the moving screw rod is in threaded connection with a screw rod nut fixed at the bottom of the moving seat and drives the moving seat to move back and forth along the cutting guide rail, the cutting motor is arranged on the moving seat, the output shaft of the cutting motor is connected with the cutting knife, the cutting knife can move back and forth along the section bar feeding direction vertical to; the cutting material pressing frame is installed at the top of the cutting rack, a cylinder body of the cutting material pressing cylinder is fixed at the top of the cutting material pressing frame, a piston rod end of the cutting material pressing cylinder is connected with the cutting pressing plate, and the cutting pressing plate penetrates through the cutting guide pillar and is movably arranged on the top of the cutting material pressing frame.

10. The multi-station multi-level leg joint production line of claim 9, wherein: the front stamping equipment comprises a stamping rack, a stamping cylinder and a die shank seat; the stamping machine frame is fixedly arranged on the production machine frame, the cylinder body of the stamping cylinder is fixed on the top surface of the stamping machine frame, the end of a piston rod of the stamping cylinder is connected with a die handle seat, and the die handle seat can be connected with a stamping die; the side stamping equipment comprises a side stamping rack, more than one side stamping cylinder and a side die handle seat; the side punching machine frame is fixedly installed on the production machine frame, the cylinder body of the side punching air cylinder is fixed on the side face of the side punching machine frame, the piston rod end of the side punching air cylinder is connected with the side die handle seat, and the side die handle seat can be connected with a punching die.

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