CN114367817B - Multi-purpose laser cutting flexible flow production system and coil material flattening pipe making machine thereof - Google Patents

Abstract

The invention provides a multi-purpose laser cutting flexible flow production system and a coil material flattening tube making machine thereof, wherein the coil material flattening tube making machine comprises: the supporting mechanism comprises a plate forming base and a pipe forming base, wherein the plate forming base and the pipe forming base are arranged in parallel and form a plate forming area and a pipe forming area; the uncoiling mechanism comprises a propelling roller, a straightening roller, a flattening roller, a gear set and a driving end, wherein two ends of the propelling roller, the straightening roller and the flattening roller are sequentially connected through the gear set and are laid in the plate forming area and the front half section of the pipe forming area, and the driving end is connected to the gear set and is used for driving the gear set to rotate and uncoiling a coil; the pipe making mechanism comprises a guide baffle, a pipe forming roller assembly, a pipe forming end, a pipe pushing roller and a laser welding end. The coil material flattening and tube-making machine provided by the invention can be used for respectively making plate-shaped coil materials and tubular coil materials.

Description

Multi-purpose laser cutting flexible flow production system and coil material flattening and tube making machine thereof

Technical Field

The invention relates to the technical field of laser cutting, in particular to a multipurpose laser cutting flexible flow production system and a coil material flattening and tube making machine thereof.

Background

A flattening machine is a machine for carrying out a series of processing operations such as uncoiling, leveling and shearing on a metal plate, and is mainly used for flattening a laser-cut product to obtain a flat plate so as to smoothly carry out subsequent laser cutting.

For example, patent CN206588173U discloses a plate flattening machine, which comprises a platform and supporting legs, wherein a flattening assembly is arranged on the platform, a reel mounting seat is arranged below the platform, the reel mounting seat is arranged on a slide rail seat, wheels are arranged at the bottom of the reel mounting seat, the wheels are arranged in slide rails on the slide rail seat, and the slide rail seat extends out from the side part of the platform; an arc-shaped transition piece is arranged between the inlet of the flattening component and the winding drum mounting seat. The invention provides a plate decoiling machine which is compact in structure, small in occupied space and convenient to assemble and disassemble a winding drum; meanwhile, the flattening component and the shearing component are combined together, so that the efficiency is high.

However, tubular materials are often used during laser cutting, while a common decoiler is lack of a tube-making mechanism, and only can perform decoiling work, and cannot make tubular materials.

Disclosure of Invention

In view of this, a need exists for a coil material uncoiling and pipe making machine, which solves the technical problem that the uncoiling machine in the prior art is lack of a pipe making mechanism.

In order to achieve the technical purpose, the technical scheme of the invention provides a coil material flattening pipe making machine, which comprises the following components:

the supporting mechanism comprises a plate forming base and a pipe forming base, wherein the plate forming base and the pipe forming base are arranged in parallel and form a plate forming area and a pipe forming area;

the uncoiling mechanism comprises a propelling roller, a straightening roller, a flattening roller, a gear set and a driving end, wherein two ends of the propelling roller, the straightening roller and the flattening roller are sequentially connected through the gear set and are laid in the plate forming area and the front half section of the pipe forming area, and the driving end is connected to the gear set and is used for driving the gear set to rotate and uncoiling a coil;

tubulation mechanism, including guide baffle, tubular product shaping roller components, tubular product shaping end, tubular product promotion gyro wheel and laser welding end, guide baffle set up in tubular product shaping region just is located the gyro wheel tail end flattens, tubular product shaping roller components tubular product shaping end tubular product promotion gyro wheel with laser welding end set gradually in tubular product shaping region second half section is located the guide baffle tail end for receive the coil stock after unblanking and accomplish the tubulation.

Further, tubular product shaping roller assembly includes elementary wide clearance tubular product shaping gyro wheel, secondary mid-gap tubular product shaping gyro wheel, ultimate tubular product shaping gyro wheel and tubular product shaping drive end, elementary wide clearance tubular product shaping gyro wheel secondary mid-gap tubular product shaping gyro wheel with ultimate tubular product shaping gyro wheel connect gradually and all rotate set up in tubular product shaping base, tubular product shaping drive end set up in tubular product shaping base and connect in ultimate tubular product shaping gyro wheel is used for ordering about ultimate tubular product shaping gyro wheel rotates and drives in proper order elementary wide clearance tubular product shaping gyro wheel with secondary mid-gap tubular product shaping gyro wheel rotates.

Further, the tubular product shaping end includes mould installation base and tubular product shaping control mould, the mould installation base connect in the tubular product shaping base, tubular product shaping control mould set up in mould installation base and its feed end butt in ultimate tubular product shaping gyro wheel, discharge end butt in tubular product promotion gyro wheel.

Furthermore, the laser welding end comprises a laser welding head and a laser emitter, the laser welding head is arranged above the pipe pushing roller, and the laser emitter is arranged on the pipe forming base and connected to the laser welding head.

Furthermore, the pipe making mechanism further comprises a pipe welding line polishing end, and the pipe welding line polishing end is arranged at the tail end of the pipe pushing roller and used for polishing the welded coiled material pipe.

Further, still include tubular product cutting end, tubular product cutting end set up in tubular product welding seam polishing end one side for the coil stock is cut off to coil stock tubulation polishing back.

Further, still include count sensor, count sensor sets up in tubular product promotes roller department.

The invention also provides a multi-purpose laser cutting flexible flow production system which comprises the coil material flattening pipe making machine, a coil material feeding machine, a single-table-surface rotary laser plate-cutting pipe-cutting integrated machine and a plate material pipe material comprehensive blanking machine, wherein the coil material feeding machine, the coil material flattening pipe making machine, the single-table-surface rotary laser plate-cutting pipe-cutting integrated machine and the plate material pipe material comprehensive blanking machine are sequentially arranged and butted, the coil material feeding machine is used for conveying coil materials to the coil material flattening pipe making machine, the flattening pipe making machine is used for flattening or pipe making the coil materials, the single-table-surface rotary laser plate-cutting pipe-cutting integrated machine is used for cutting plates or pipes, and the plate material pipe material comprehensive blanking machine is used for collecting the cut coil materials.

Further, rotatory laser cutting board of single mesa surely manages all-in-one includes panel cutting board, tubular product cutting board, panel conveying mechanism, tubular product conveying mechanism and laser cutting mechanism, the panel cutting board with the tubular product cutting board sets up side by side, panel cutting board and tubular product cutting board are relative respectively the gyro wheel that flattens with tubular product cutting end sets up, is used for receiving respectively to open the coil stock of flat or behind the tubulation, panel conveying mechanism with tubular product conveying mechanism set up respectively in the panel cutting board with the tubular product cutting board is used for promoting respectively to open the coil stock removal of flat or behind the tubulation, laser cutting mechanism slide set up in the panel cutting board with tubular product cutting board top is used for cutting the coil stock of opening after flat or the tubulation.

Further, the sheet material and pipe material comprehensive blanking machine comprises a coil material conveying platform, a sheet material conveying mechanism, a pipe material conveying mechanism, a sheet material receiving trolley and a pipe material receiving trolley, wherein the coil material conveying platform is arranged on one side of the sheet material cutting platform and one side of the pipe material cutting platform, the sheet material conveying mechanism and the pipe material conveying mechanism are arranged on the coil material conveying platform and are respectively opposite to each other, the sheet material conveying mechanism and the pipe material conveying mechanism are arranged and used for receiving and moving cut coil materials, and the sheet material receiving trolley and the pipe material receiving trolley are respectively opposite to the sheet material conveying mechanism and the pipe material conveying mechanism and are respectively used for collecting the coil materials after flattening or pipe making and cutting.

Compared with the prior art, the invention has the beneficial effects that: the coil material flattening pipe making machine comprises two bases which are arranged in parallel, wherein a flattening mechanism and a pipe making mechanism are respectively arranged on the two bases, so that a plate-shaped material and a tubular material can be respectively made without mutual interference, and the plate-shaped material and the tubular material can be selectively made according to requirements so as to facilitate the subsequent laser cutting work;

the invention provides a multi-purpose laser cutting flexible flow production system which comprises two processing production lines of plate-shaped materials and tubular materials which independently run, and the plate-shaped materials and the tubular materials can be processed according to requirements.

Drawings

FIG. 1 is a schematic structural diagram of a multi-purpose laser cutting flexible flow production system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a coil feeder in a multi-purpose laser cutting flexible flow production system according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a roll out-of-flat machine for manufacturing tubes in a multiple laser cutting flexible flow production system, according to an embodiment of the present invention;

FIG. 4 is a schematic view of a partial configuration of a roll out-of-flat pipe machine in a multiple laser cutting flexible flow production system according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a single-deck rotary laser plate and pipe cutting integrated machine in a multi-purpose laser cutting flexible flow production system according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a comprehensive blanking machine for plate and pipe materials in a multi-purpose laser cutting flexible flow production system according to an embodiment of the invention.

Detailed Description

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate preferred embodiments of the invention and together with the description, serve to explain the principles of the invention and not to limit the scope of the invention.

Referring to fig. 1, the invention provides a multi-purpose laser cutting flexible flow production system, which comprises a coil feeder 1, a coil uncoiling and flattening pipe making machine 2, a single-table-surface rotary laser plate-cutting and pipe-cutting integrated machine 3 and a sheet and pipe material comprehensive blanking machine 4, wherein the coil feeder 1, the coil uncoiling and flattening pipe making machine 2, the single-table-surface rotary laser plate-cutting and pipe-cutting integrated machine 3 and the sheet and pipe material comprehensive blanking machine 4 are sequentially arranged and butted, the coil feeder 1 is used for conveying coils to the coil uncoiling and flattening pipe making machine 2, the uncoiling and flattening pipe making machine 2 is used for uncoiling or tubing coils to make plates or pipes, the single-table-surface rotary laser plate-cutting and pipe-cutting integrated machine 3 is used for cutting the plates or pipes, and the sheet and pipe material comprehensive blanking machine 4 is used for collecting the cut plates or pipes. The production system comprises two independent processing production lines, and can respectively carry out laser cutting processing on the plate and the pipe.

Referring to fig. 2, coil stock feeder 1 is including supporting roller 11, large size gear 12, control box 13, motor 14 and base 15, and large size gear 12 sets up on base 15, and supporting roller 11 sets up on large size gear 12, and the coil stock can insert supporting roller 11 by the outside, and supporting roller 11 inboard is connected to large size gear 12, and the adaptation meshing has the small size gear on large size gear 12, and the small size gear is installed on motor 14 output shaft, and control box 13 is used for the operation of control motor 14. Wherein, the gear ratio of the small gear to the large gear is 1:40, large-size gear and the coupling of small-size gear realize reducing speed big moment and rotate, rotate through motor drive large-size gear to drive supporting roller coil stock and realize autoloading to coil stock and open flat tuber 2, this coil stock feeder is common equipment among the prior art, and here is no longer repeated.

Referring to fig. 3 and 4, the coil uncoiling and pipe making machine 2 includes a supporting mechanism 21, an uncoiling mechanism 22 and a pipe making mechanism 23, the supporting mechanism 21 is disposed on one side of the coil feeder 1, and both the uncoiling mechanism 22 and the pipe making mechanism 23 are disposed on the supporting mechanism 21 and are configured to receive the coil conveyed by the coil feeder 1 to make a plate or a pipe. Wherein, the uncoiling mechanism 22 and the pipe making mechanism 23 can be independently started to make a plate material, or the uncoiling mechanism 22 and the pipe making mechanism 23 are simultaneously started to make a pipe material.

The supporting mechanism 21 comprises a plate forming base 211 and a pipe forming base 212, wherein the plate forming base 211 and the pipe forming base 212 are arranged in parallel and form a plate forming area and a pipe forming area; wherein, panel shaping region is in the lower half, and tubular product shaping region is in the upper half, and the coil stock accessible manual guide's on the coil stock feeder 1 mode is carried to panel shaping region or tubular product shaping region to this makes panel or tubular product as required.

The decoiling mechanism 22 comprises a propelling roller 221, a straightening roller 222, a flattening roller 223, a gear set 224 and a driving end 225, two ends of the propelling roller 221, the straightening roller 222 and the flattening roller 223 are sequentially connected through the gear set 224 and are laid in the plate forming area and the front half section of the pipe forming area, the driving end 225 is connected to the gear set 224 and is used for driving the gear set 224 to rotate, a coil conveyed by the coil feeder 1 enters from the propelling roller 221, and the gear set 224 is driven to rotate through the driving end 225, so that the propelling roller 221, the straightening roller 222 and the flattening roller 223 are driven to rotate, the coil is decoiled, and the plate is prepared; wherein, the driving end 225 adopts a three-phase asynchronous motor.

Tubulation mechanism 23 includes direction baffle 231, tubular product shaping roller subassembly 232, tubular product shaping end 233, tubular product promotion gyro wheel 234 and laser-beam welded end 235, direction baffle 231 set up in tubular product shaping region just is located the gyro wheel 223 tail end that flattens, tubular product shaping roller subassembly 232 tubular product shaping end 233 tubular product promotion gyro wheel 234 with laser-beam welded end 235 set gradually in tubular product shaping region second half section is located direction baffle 231 tail end for receive and open the flat panel of making and accomplish the tubulation process, make tubular product with this.

In the embodiment provided by the present invention, the pipe forming roller assembly 232 includes a primary wide gap pipe forming roller 2321, a secondary middle gap pipe forming roller 2322, a final pipe forming roller 2323 and a pipe forming driving end 2324, the primary wide gap pipe forming roller 2321, the secondary middle gap pipe forming roller 2322 and the final pipe forming roller 2323 are sequentially connected and are all rotatably disposed on the pipe forming base 212, and the pipe forming driving end 2324 is disposed on the pipe forming base 212 and is connected to the final pipe forming roller 2323, and is configured to drive the final pipe forming roller 2323 to rotate and sequentially drive the primary wide gap pipe forming roller 2321 and the secondary middle gap pipe forming roller 2322 to rotate, so that the flattened plate enters the pipe forming roller assembly 232 from the position of the guide baffle 231, and can sequentially pass through the roller gaps from large to small to form the pipe.

In the embodiment provided by the present invention, the tube forming end 233 comprises a mold mounting base 2331 and a tube forming control mold 2332, the mold mounting base 2331 is connected to the tube forming base 212, the tube forming control mold 2332 is disposed on the mold mounting base 2331, and a feeding end of the tube forming control mold 2332 abuts against the final tube forming roller 2323, and a discharging end of the tube forming control mold abuts against the tube pushing roller 234. The pipe forming control mold 2332 may be a square pipe mold or a circular pipe mold, and a plate sequentially passes through the primary wide gap pipe forming roller 2321, the secondary middle gap pipe forming roller 2322 and the final pipe forming roller 2323 and then can be conveyed to the pipe forming control mold 2332 to complete forming.

In the embodiment of the invention, the laser welding end 235 comprises a laser welding head 2351 and a laser emitter 2352, the laser welding head 2351 is arranged above the pipe pushing roller 234, the laser emitter 2352 is arranged on the pipe forming base 212 and connected to the laser welding head 2351, and laser can be emitted to the laser welding head 2351 through the laser emitter 2352 to complete the welding processing of the pipe. The laser welding end is a common laser welding device in the prior art, and is not described herein again.

In a preferred embodiment, the pipe making mechanism 23 further includes a pipe welding polishing end 236, and the pipe welding polishing end 236 is disposed at the tail end of the pipe pushing roller 234 and is used for polishing the welded pipe. The pipe welding seam polishing end is polishing equipment common in the prior art, and is not described again here.

As a preferred embodiment, the pipe making mechanism 23 further includes a pipe cutting end 237, and the pipe cutting end 237 is disposed at one side of the pipe welding seam polishing end 236 and is used for cutting off the pipe after the pipe is polished.

In a preferred embodiment, the tube making mechanism 23 further comprises a counting sensor 238, and the counting sensor 238 is disposed at the tube pushing roller 234 for counting the tubes.

Referring to fig. 5, the single-table-board rotating laser cutting and pipe cutting integrated machine 3 comprises a plate cutting machine table 31, a pipe cutting machine table 32, a plate conveying mechanism 33, a pipe conveying mechanism 34 and a laser cutting mechanism 35, wherein the plate cutting machine table 31 and the pipe cutting machine table 32 are arranged side by side, the plate cutting machine table 31 and the pipe cutting machine table 32 are respectively opposite to a pressing roller 223 and a pipe cutting end 237, which are respectively used for receiving plates and pipes, the plate conveying mechanism 33 and the pipe conveying mechanism 34 are respectively arranged on the plate cutting machine table 31 and the pipe cutting machine table 32 and are respectively used for pushing the plates and the pipes to move forwards, and the laser cutting mechanism 35 is slidably arranged above the plate cutting machine table 31 and the pipe cutting machine table 32 and is used for cutting the plates and the pipes.

In the embodiment provided by the present invention, the plate conveying mechanism 33 includes a plurality of plate supporting racks 331, a driving wheel 332, a driven wheel 333, a transmission belt 334, and a driving motor 335, the plurality of plate supporting racks 331 rotate and are disposed at intervals on the plate cutting machine 31, the driving wheel 332 and the driven wheel 333 are disposed at two ends of the plate cutting machine 31, two ends of the transmission belt are connected to the driving wheel 332 and the driven wheel respectively and are connected to the plurality of plate supporting racks 331 at the same time, and the driving motor 335 is disposed at one side of the plate cutting machine 31 and is connected to the driving wheel through a transmission chain for driving the driving wheel 332 to rotate, so as to drive the plurality of plate supporting racks 331 to rotate, and one side drives the plate to move forward.

In the embodiment provided by the present invention, the pipe conveying mechanism 34 includes a guide rail 341, a front clamping chuck 342, a rear clamping chuck 343, and a pipe driving end 344, the guide rail is disposed on the pipe cutting machine 32, the front clamping chuck 342 and the rear clamping chuck 343 are slidably connected to the guide rail 341 for clamping and fixing the polished pipe, and the pipe driving end 344 is used for driving the pipe to move. Wherein, preceding clamping chuck 342 with back clamping chuck 343 can realize rotating and press from both sides tight the action of unclamping through the drive structure from taking, still is provided with photoelectric switch on the pipe cutting board 32 for detect the position of tubular product and feed back to the control end, thereby control laser cutting mechanism 35 and accomplish the cutting of tubular product, the tubular product drive end is including motor and gyro wheel, and it passes through the steerable gyro wheel rotation of motor, thereby drives tubular product and removes forward.

In the embodiment of the present invention, the laser cutting mechanism 35 includes a beam 351 and a laser cutting end 352, the beam 351 is slidably connected to the plate cutting machine 31 through a moving mechanism, so as to implement movement in the X-axis direction, and the laser cutting end 352 is disposed on the beam 351 through the moving mechanism, so as to implement movement in the Y-axis direction. Wherein, the moving mechanism on the beam 351 and on the laser cutting end 352 is a structure common in the prior art, and the laser cutting end 352 comprises a laser cutting head and a laser emitter common in the prior art, which are not described herein again.

Referring to fig. 6, the comprehensive blanking machine 4 for plate and tube materials includes a coil conveying platform 41, a plate conveying mechanism 42, a tube conveying mechanism 43, a plate receiving trolley 44 and a tube receiving trolley 45, wherein the coil conveying platform 41 is disposed on one side of the plate cutting platform 31 and the tube cutting platform 32, supporting legs are disposed at two ends of the bottom of the coil conveying platform 41, the plate conveying mechanism 42 and the tube conveying mechanism 43 are disposed on the coil conveying platform 41 and are respectively opposite to the plate conveying mechanism 33 and the tube conveying mechanism 34, and are respectively used for receiving and moving cut plates and tubes, and the plate receiving trolley 44 and the tube receiving trolley 45 are respectively opposite to the plate conveying mechanism 42 and the tube conveying mechanism 43 and are respectively used for collecting plates and tubes completed by the mechanism.

In the embodiment provided by the present invention, the sheet conveying mechanism 42 includes a sheet conveying belt 421, a main driving motor 422, and a sub driving motor 423, the sheet conveying belt 421 is rotatably connected to the lower half portion of the coil conveying platform 41, and the main driving motor 422 and the sub driving motor 423 are respectively disposed at two ends of the coil conveying platform 41 and connected to the sheet conveying belt 421, and are used for driving one end of the sheet conveying belt 421, so as to drive the sheet to move into the sheet receiving trolley 44. Wherein, the feed end and the discharge end of panel conveyer belt 421 are provided with buffer zone and tilt area respectively, are convenient for the better transportation of panel and remove to receiving the material dolly.

In the embodiment of the present invention, the pipe transportation mechanism 43 includes a plurality of transportation rollers 431, a pipe transportation belt 432, and a pipe driving motor 433, the plurality of transportation rollers 431 are rotatably connected to the upper half portion of the coil conveying platform 41, the pipe transportation belt 432 is rotatably connected to the transportation rollers 431, and the pipe driving motor 433 is disposed on the coil conveying platform 41 and connected to the transportation rollers 431 for driving the transportation rollers 431 to rotate, so as to drive the pipe transportation belt 432 to move, and thus drive the pipe to move into the pipe receiving trolley 45.

The working principle of the embodiment provided by the invention is as follows: the production system comprises four machine devices which run independently, when in processing and production, a whole roll of coil materials are required to be inserted into a supporting roller on a coil material feeding machine through a forklift to be installed in place, then the supporting roller is driven by a motor to drive the coil materials to be fed, the fed bent coil materials are conveyed to the coil material flattening pipe making machine through a propelling roller at the front end of the coil material flattening pipe making machine, the plate materials or the pipe materials can be selectively processed according to requirements, when the plate materials are required to be processed, the coil materials can enter a flattening machine to be processed to obtain the plate materials, when the pipe materials are required to be processed, the coil materials can enter a pipe making mechanism to obtain the pipe materials, the plate materials prepared by the coil material flattening pipe making machine can respectively enter a plate conveying mechanism or a pipe conveying mechanism of a single-table-surface rotating laser plate cutting and pipe cutting integrated machine, the laser cutting processing of the plate materials or the pipe materials is finished through the laser cutting mechanism to obtain required patterns, and the laser-cut plate materials or the pipe materials can respectively enter a plate conveying mechanism or a pipe conveying mechanism of a plate material comprehensive blanking machine or a pipe material collecting trolley and finally move into a plate collecting trolley to finish the collecting trolley to collect parts of the processed pipe materials.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention.

Claims (9)

1. The utility model provides a flexible flowing water production system of multi-purpose laser cutting which characterized in that: comprises a coil material flattening and tube making machine, a coil material feeding machine, a single-table-surface rotary laser plate and tube cutting integrated machine and a plate and tube material comprehensive blanking machine,

the coil stock flattening pipe making machine comprises a supporting mechanism, a flattening mechanism and a pipe making mechanism:

the supporting mechanism comprises a plate forming base and a pipe forming base, and the plate forming base and the pipe forming base are arranged in parallel and form a plate forming area and a pipe forming area;

the uncoiling mechanism comprises a pushing roller, a straightening roller, a flattening roller, a gear set and a driving end, wherein two ends of the pushing roller, the straightening roller and the flattening roller are sequentially connected through the gear set and are laid in the plate forming area and the front half section of the pipe forming area, and the driving end is connected to the gear set and is used for driving the gear set to rotate and uncoiling a coil;

the pipe manufacturing mechanism comprises a guide baffle, a pipe forming roller assembly, a pipe forming end, a pipe pushing roller and a laser welding end, the guide baffle is arranged in the pipe forming area and is positioned at the tail end of the flattening roller, and the pipe forming roller assembly, the pipe forming end, the pipe pushing roller and the laser welding end are sequentially arranged in the rear half section of the pipe forming area and are positioned at the tail end of the guide baffle and are used for receiving uncoiled coil materials and completing pipe manufacturing;

the coil stock feeder, the coil stock is opened flat tuber machine, the rotatory laser cutting board pipe cutting all-in-one of single mesa and the blanking machine is synthesized to sheet material pipe material sets gradually and butt joint, the coil stock feeder is used for carrying the coil stock extremely the coil stock is opened flat tuber machine, it is used for opening flat tuber machine or tubulation to open flat tuber machine, the rotatory laser cutting board pipe cutting all-in-one of single mesa is used for cutting panel or tubular product, the blanking machine is synthesized to sheet material pipe material is used for collecting the coil stock that the cutting is good.

2. The multiple use laser cut flexible flow production system of claim 1, wherein: pipe shaping roller assembly includes elementary wide clearance tubular product shaping gyro wheel, secondary intermediate space tubular product shaping gyro wheel, ultimate tubular product shaping gyro wheel and tubular product shaping drive end, elementary wide clearance tubular product shaping gyro wheel secondary intermediate space tubular product shaping gyro wheel with ultimate tubular product shaping gyro wheel connect gradually and all rotate set up in tubular product shaping base, tubular product shaping drive end set up in tubular product shaping base and connect in ultimate tubular product shaping gyro wheel is used for ordering about ultimate tubular product shaping gyro wheel rotates and drives in proper order elementary wide clearance tubular product shaping gyro wheel with secondary intermediate space tubular product shaping gyro wheel rotates.

3. The multiple use laser cutting flexible flow production system of claim 2, wherein: the pipe forming end comprises a die mounting base and a pipe forming control die, the die mounting base is connected to the pipe forming base, and the pipe forming control die is arranged on the die mounting base and is abutted to the feeding end of the die mounting base and the feeding end of the die mounting base, and is abutted to the final pipe forming roller and the discharging end of the die mounting base, and is abutted to the pipe pushing roller.

4. The multiple use laser cutting flexible flow production system of claim 3, wherein: the laser welding end comprises a laser welding head and a laser transmitter, the laser welding head is arranged above the pipe pushing roller, and the laser transmitter is arranged on the pipe forming base and connected to the laser welding head.

5. The multiple use laser cut flexible flow production system of claim 4, wherein: the pipe making mechanism further comprises a pipe welding line polishing end, and the pipe welding line polishing end is arranged at the tail end of the pipe pushing roller and used for polishing the welded coiled material pipe.

6. The multiple use laser cut flexible flow production system of claim 5, wherein: the coil stock flattening pipe making machine further comprises a pipe cutting end, wherein the pipe cutting end is arranged on one side of the pipe welding line polishing end and used for cutting off the coil stock after the coil stock pipe making machine polishes.

7. The multiple use laser cut flexible flow production system of claim 6, wherein: the coil material flattening pipe making machine further comprises a counting sensor, and the counting sensor is arranged at the position of the pipe pushing roller.

8. The multiple use laser cut flexible flow production system of claim 6, wherein: the single-table-top rotating laser plate-cutting and pipe-cutting integrated machine comprises a plate cutting machine table, a pipe cutting machine table, a plate conveying mechanism, a pipe conveying mechanism and a laser cutting mechanism, wherein the plate cutting machine table and the pipe cutting machine table are arranged side by side, the plate cutting machine table and the pipe cutting machine table are respectively opposite to each other, a pressing roller and a pipe cutting end are arranged and are respectively used for receiving coil stock after flattening or pipe making, the plate conveying mechanism and the pipe conveying mechanism are respectively arranged on the plate cutting machine table and the pipe cutting machine table and are respectively used for pushing the coil stock after flattening or pipe making to move, and the laser cutting mechanism is arranged above the plate cutting machine table in a sliding mode and is used for cutting the coil stock after flattening or pipe making.

9. The multiple use laser cut flexible flow production system of claim 8, wherein: the comprehensive blanking machine for the plate and the pipe materials comprises a coil conveying platform, a plate conveying mechanism, a pipe conveying mechanism, a plate receiving trolley and a pipe receiving trolley, wherein the coil conveying platform is arranged on one side of the plate cutting machine platform, the plate conveying mechanism and the pipe conveying mechanism are arranged on the coil conveying platform and are respectively opposite to the plate conveying mechanism and the pipe conveying mechanism and are used for receiving and moving the cut coil materials, and the plate receiving trolley and the pipe receiving trolley are respectively opposite to the plate conveying mechanism and the pipe conveying mechanism and are respectively used for collecting the coil materials after being flattened or subjected to pipe making and cutting.

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