CN209095666U - A kind of automation metalwork processing unit (plant) - Google Patents

Abstract

The utility model discloses a kind of automation metalwork processing unit (plant)s in field, including the transfer unit for conveying shell, it further include the cutting section for cutting off shell, it further include the transhipment component for transporting the production tube after cutting off, it further include PLC controller, the transfer unit, cutting section, transhipment component is sequentially arranged according to conveying process, transfer unit includes a pair of is spaced apart from each other, and be oppositely arranged, the extending direction side bracket consistent with shell conveying direction, transfer unit further includes for against the non-cutting side axle end of shell, with magnetic magnetism against item, it further include for driving magnetism to be translatable against item, the feeding straight line driving mechanism of installation on the ground, one is formed between two side brackets can hold what magnetism was passed through against item activity, length direction and shell conveying side To consistent gap.Convenient for transporting production tube, and convenient for locking production tube.

Description

A kind of automation metalwork processing unit (plant)

Technical field

The utility model relates to metalwork processing technique field, in particular to a kind of processing for cutting off large-size pipe fills It sets.

Background technique

Large-size pipe is often used for trandfer fluid medium or manufacture large size bearing component etc., therefore, in cutting large-size pipe When, it needs to carry out operation using special equipment, apparatus structure includes the transfer unit for conveying shell, further includes using In the cutting section of cutting shell, further includes the transhipment component for transporting the production tube after cutting off, further include PLC control Device, transfer unit, cutting section, transhipment component are sequentially arranged according to conveying process.

But large-size pipe generally requires to be transported through by way of lifting after severance, and often needs when cutting The position of shell is locked, clamping expends working hour repeatedly, and cutting efficiency is caused to decline.

Utility model content

The purpose of the utility model is to provide a kind of automation metalwork processing unit (plant)s, convenient for transhipment production tube, and are convenient for Lock production tube.

Purpose of the utility model is realized as follows: a kind of automation metalwork processing unit (plant), including for conveying hair The transfer unit of base pipe further includes the cutting section for cutting off shell, further includes for transporting the production tube after cutting off Component to be transported, further includes PLC controller, the transfer unit, cutting section, transhipment component are sequentially arranged according to conveying process, The transfer unit include it is a pair of being spaced apart from each other and be oppositely arranged, extending direction it is consistent with shell conveying direction Side bracket, the opposite side of two side brackets are equipped with inclined side for holding shell periphery wall and hold in the palm inclined-plane, the conveying Component further include for against the non-cutting side axle end of shell, with it is magnetic magnetism against item, further include for driving magnetic Property be translatable against item, installation feeding straight line driving mechanism on the ground, forming one between two side brackets can hold Gap that magnetism is passed through against item activity, length direction is consistent with shell conveying direction；

The cutting section includes portal frame, auxiliary bracket, benchmark carrying roller, vertical shift oil cylinder, lifting slider, Pipe Cutting motor, uses In the Pipe Cutting cutterhead of cutting shell, the auxiliary bracket can be installed to longitudinally-moving on the gantry, and the benchmark carrying roller is at least If there are two, the benchmark carrying roller is horizontally disposed and its axis is perpendicular to shell conveying direction, and the benchmark carrying roller can be around axis It is rotatably mounted on auxiliary bracket, the periphery wall bottom connection touching of the benchmark carrying roller and shell, the Pipe Cutting cutterhead is vertical It is arranged and is disc-shaped structure, for the Pipe Cutting cutterhead coaxial package on the output main shaft of Pipe Cutting motor, the lifting slider can Install with longitudinal sliding on the gantry and be in shell surface, the Pipe Cutting motor be mounted on lifting slider and by PLC controller control, the cylinder barrel of the vertical shift oil cylinder are installed on the gantry, the piston rod and lifting slider of the vertical shift oil cylinder It is connected；

The transhipment component include flat turn servo motor, rotation foundation frame, flat turn frame, rotary-cut driving motor, vertical transfer frame, in The support component of production tube is managed admittedly, is used to support to twist lock, and the rotation foundation frame fixes on the ground, the flat turn servo motor It being mounted on rotation foundation frame and is controlled by PLC controller, the flat turn frame can be mounted on rotation foundation frame with horizontally rotating, The flat turn frame is connected with the output main shaft of flat turn servo motor, and the output of the rotation axis of flat turn frame and flat turn servo motor The axis of main shaft coincides, and the rotary-cut driving motor is mounted on flat turn frame and is controlled by PLC controller, and the vertical transfer frame can It is rotatably mounted on flat turn frame and its rotation axis is horizontally disposed, the output main shaft of the vertical transfer frame and rotary-cut driving motor Transmission connection, and the axis of the output main shaft of the rotation axis of vertical transfer frame and driving motor coincides, the transfer locking pipe One shaft end is mounted on vertical transfer frame, be coated on transfer locking pipe periphery wall it is a set of for it is being positioned to production tube, The inconsistent positioning component with production tube internal perisporium is also coated at least two sets for locking on transfer locking pipe periphery wall When production tube position, locking with the locking assembly of production tube internal perisporium pressure contact, the positioning component and locking assembly with Being arranged circumferentially along transfer locking pipe subject to the axis of transfer locking pipe；

The support component for being used to support production tube include buoyance lift frame, at least two pairs front and back arrange buoyance lift oil cylinder, institute State that buoyance lift oil cylinder is arranged vertically and its cylinder barrel fixes on the ground, the piston rod of the buoyance lift oil cylinder is connected with buoyance lift frame, described Support component further includes one and backing roller coaxial with production tube when the touching of production tube periphery wall bottom connection, cutting, is also wrapped Include it is a pair of be subject to that backing roll axis is arranged symmetrically, cutting when with production tube is coaxial and production tube periphery wall bottom connection Roller is leaned in the side of touching, and the backing roller, side lean on roller and be horizontally disposed with and be pivotally mounted on buoyance lift frame, the backing roller Parallel with the transfer locking axis of pipe with the side axis for leaning on roller, the auxiliary bracket is connected with buoyance lift frame, and the benchmark carrying roller It is contour with backing roller, and the outer diameter of the benchmark carrying roller is consistent with the outer diameter of backing roller；

The production tube, transfer locking pipe, shell are in coaxial state in cutting.

Compared with prior art, the utility model has the beneficial effects that: first, working as production tube convenient for transhipment production tube After the completion of cutting, flat turn servo motor can be started, so that flat turn frame drives production tube to carry out flat turn, enable production tube and hair Base pipe is staggered completely, then releases locking of the locking assembly of transfer locking pipe to production tube, can be by production tube along its axial direction It is mobile that remove production tube, removing production tube can drive flat turn frame to be rotated using flat turn servo motor again later, so that Transfer lock pipe can face shell, then magnetism is recycled against item to resist shell, enables shell along its axial direction It is mobile to cutting section, to complete feeding feeding process；Second, can assist holding due to being provided with benchmark carrying roller and auxiliary bracket Shell, and auxiliary bracket is connected with buoyance lift frame, therefore, benchmark carrying roller and backing roller can buoyance lift together, finished product when can prevent cutting Pipe is with shell because dissection generates radial deflection, it is ensured that production tube and shell are able to maintain coaxial in cutting State promotes cutting accuracy；Third, when cutting, driving lifting slider to move down first with vertical shift oil cylinder convenient for cutting, start Then Pipe Cutting motor starts rotary-cut driving motor, makes so that Pipe Cutting cutterhead high speed rotation, cuts through shell using Pipe Cutting cutterhead It obtains vertical transfer frame, transfer locking pipe, shell and gently carries out pivoting, until production tube forms completely and divides with shell From the workload of Pipe Cutting cutterhead can be reduced；Fourth, due to magnetism against item per se with magnetism, shell can be sucked, if Shell generation conveyed position phenomenon, drove shell to be reversely displaced against the magnetic attraction of item using magnetism, with flexible Adjust the position of shell.

It is described as a further improvement of the utility model, to include cutting with the inconsistent positioning component of production tube internal perisporium When with the internal perisporium of production tube it is inconsistent, its contradict side be arc and support arc compatible with the internal perisporium of production tube Block further includes support column being detachably connected with support arc block, being installed on transfer locking pipe, further includes and support column It is being threadedly engaged, be sleeved on a pair of of lock-bit nut on support column, for locking support column position, the axis of the support column It intersects vertically with the axis of transfer locking pipe；It is described when with the inconsistent locking assembly of production tube internal perisporium including cutting and finished product The internal perisporium of pipe is inconsistent, it contradicts side as arc and locking arc block compatible with the internal perisporium of production tube, further includes The inner support electric pushrod that a pair is controlled by PLC controller further includes the interior fixation being fixed on transfer locking pipe internal perisporium Seat further includes the guide post being installed on transfer locking pipe be rotatably connected in the middle part of locking arc block, activity, further includes using At adjusting nut restriction guide post position and that guide post is threadedly engaged, being sleeved in guide post, the adjusting nut In the inner cavity of transfer locking pipe, the inner support electric pushrod is installed on transfer locking pipe and above and with interior fixing seat is connected, described The telescopic rod of inner support electric pushrod is movably connected with locking arc block, and two inner support electric pushrods are subject to the symmetrical cloth of guide post It sets.In use, rotatable transfer locking pipe so that the conflict side of support arc block upward, so as to the internal perisporium upper end with production tube It is in contact, is equivalent to and first tangles production tube, consequently facilitating positioning production tube, then drives locking arc using inner support electric pushrod The internal perisporium of shape block and production tube is affixed, and is arranged symmetrically since two inner support electric pushrods are subject to guide post, be may make locking The both ends of arc block can be against the internal perisporium of production tube, and increasing locking active force and locking effect, adjusting nut can prevent Locking arc block generated position when moving and to contradict the excessive situation of pressure.

It is described for driving the magnetic feeding straight line being translatable against item to drive as a further improvement of the utility model, Motivation structure includes feeding sliding block, feeds screw, feed screw, bottom sliding rail, the feeding motor controlled by PLC controller, described Magnetism is inserted on feeding sliding block against a lower end, and the bottom sliding rail fixes on the ground and the conveying direction phase with shell In parallel, the feeding sliding block is slidably mounted on the sliding rail of bottom, and the feed screw is horizontally disposed and rotatably about an axis It is mounted on the sliding rail of bottom, the feeding screw to match with feed screw, the feed screw one is installed on the feeding sliding block Shaft end is connect with the output main shaft coaxial transmission of feeding motor.It, can when needing to drive shell mobile to cutting section direction Starting feeding motor, drives feed screw to be rotated, and drives feeding sliding block to be slided along bottom sliding rail, so as to drive Magnetism pushes shell to cutting section against item.

Detailed description of the invention

Fig. 1 is the lateral arrangement figure of the utility model.

Fig. 2 is the A-A cross-sectional view in Fig. 1.

Fig. 3 is the B-B cross-sectional view in Fig. 1.

Fig. 4 is the schematic diagram for transporting production tube.

Fig. 5 is the portion the C enlarged drawing in Fig. 1.

Fig. 6 is the control planning schematic diagram of the utility model.

Wherein, inclined-plane is held in the palm in 1 shell, 2 side brackets, the side 2a, and 3 is magnetic against item, 4 feeding sliding blocks, 5 feeding screws, 6 feedings Screw rod, 7 bottom sliding rails, 8 feeding motors, 9 portal frames, 10 auxiliary brackets, 11 benchmark carrying rollers, 12 vertical shift oil cylinders, 13 lifting sliders, 14 Roller, 18 backing rollers, 19 buoyance lift framves, 20 buoyance lift oil cylinders, 21 flat turn servos are leaned in Pipe Cutting motor, 15 Pipe Cutting cutterheads, 16 production tubes, 17 sides Motor, 22 rotation foundation frames, 23 flat turn framves, 24 rotary-cut driving motors, 25 vertical transfer framves, 26 support arc blocks, 27 support columns, 28 locks Position nut, 29 transfers locking are managed, 30 locking arc blocks, 31 guide posts, 32 adjusting nuts, 33 inner support electric pushrods, fixed in 34 Seat, 35PLC controller.

Specific embodiment

As shown in figures 1 to 6, a kind of automation metalwork processing unit (plant), including the transfer unit for conveying shell 1, also Including the cutting section for cutting off shell 1, further includes the transhipment component for transporting the production tube 16 after cutting off, further include PLC controller 35, transfer unit, cutting section, transhipment component are sequentially arranged according to conveying process, and transfer unit includes a pair of of phase Mutually being spaced and being oppositely arranged, the extending direction side bracket 2 consistent with 1 conveying direction of shell, two side brackets 2 Opposite side is equipped with inclined side for holding 1 periphery wall of shell and holds in the palm inclined-plane 2a, and transfer unit further includes for against hair The non-cutting side axle end of base pipe 1, with magnetic magnetism against item 3, further include for driving magnetism to be translatable against item 3 , installation feeding straight line driving mechanism on the ground, formed between two side brackets 2 one can hold it is magnetic against 3 activity of item Pass through, the length direction gap consistent with 1 conveying direction of shell.

Above-mentioned cutting section includes portal frame 9, auxiliary bracket 10, benchmark carrying roller 11, vertical shift oil cylinder 12, lifting slider 13, cuts Pipe motor 14, the Pipe Cutting cutterhead 15 for cutting shell 1, auxiliary bracket 10 can be mounted on to longitudinally-moving on portal frame 9, benchmark Carrying roller 11 is at least provided with two, and benchmark carrying roller 11 is horizontally disposed and its axis is perpendicular to 1 conveying direction of shell, benchmark carrying roller 11 It is pivotally mounted on auxiliary bracket 10, the periphery wall bottom connection of benchmark carrying roller 11 and shell 1 touches, Pipe Cutting cutterhead 15 It is vertically arranged and is disc-shaped structure, 15 coaxial package of Pipe Cutting cutterhead is on the output main shaft of Pipe Cutting motor 14, lifting slider 13 It is longitudinally slidably mounted on portal frame 9 and is in the surface of shell 1, Pipe Cutting motor 14 is mounted on lifting slider 13 And controlled by PLC controller 35, the cylinder barrel of vertical shift oil cylinder 12 is mounted on portal frame 9, the piston rod of vertical shift oil cylinder 12 and lifting Sliding block 13 is connected.

Above-mentioned transhipment component include flat turn servo motor 21, rotation foundation frame 22, flat turn frame 23, rotary-cut driving motor 24, Vertical transfer frame 25, transfer locking pipe 29, the support component for being used to support production tube 16, rotation foundation frame 22 are fixed on the ground, are put down Turn servo motor 21 to be mounted on rotation foundation frame 22 and controlled by PLC controller 35, flat turn frame 23 can be installed with horizontally rotating On rotation foundation frame 22, flat turn frame 23 is connected with the output main shaft of flat turn servo motor 21, and the rotation axis of flat turn frame 23 It coincides with the axis of the output main shaft of flat turn servo motor 21, rotary-cut driving motor 24 is mounted on flat turn frame 23 and by PLC Controller 35 controls, and vertical transfer frame 25 is installed in rotation on flat turn frame 23 and its rotation axis is horizontally disposed, vertical transfer frame 25 It is connect with the output spindle drive of rotary-cut driving motor 24, and the output master of the rotation axis of vertical transfer frame 25 and driving motor 24 The axis of axis coincides, and transfer locking 29 1 shaft end of pipe is mounted on vertical transfer frame 25, is coated on transfer locking 29 periphery wall of pipe A set of be used to be positioned to production tube 16 and inconsistent positioning component of 16 internal perisporium of production tube, transfer lock outside pipe 29 It is contacted with pressure when being also coated at least two sets on peripheral wall for being locked into 16 position of quality control, locking with 16 internal perisporium of production tube Locking assembly, positioning component and locking assembly be subject to transfer locking pipe 29 axis along transfer locking pipe 29 it is circumferential uniformly Arrangement.

The above-mentioned support component for being used to support production tube 16 include buoyance lift frame 19, at least two pairs front and back arrange buoyance lift oil cylinder 20, buoyance lift oil cylinder 20 is arranged vertically and its cylinder barrel fixes on the ground, and the piston rod of buoyance lift oil cylinder 20 is connected with buoyance lift frame 19, branch The backing roller 18 coaxial with production tube 16 when support component further includes one and the touching of 16 periphery wall bottom connection of production tube, cutting, Further include it is a pair of be subject to that 18 axis of backing roller is arranged symmetrically, cutting when with production tube 16 is coaxial and 16 periphery of production tube Roller 17 is leaned in the side of wall bottom connection touching, and backing roller 18, side lean on roller 17 and be horizontally disposed with and be pivotally mounted on buoyance lift frame On 19, backing roller 18 and the side axis for leaning on roller 17 are parallel with the transfer locking axis of pipe 29, auxiliary bracket 10 and 19 phase of buoyance lift frame Even, and benchmark carrying roller 11 and backing roller 18 are contour, and the outer diameter of benchmark carrying roller 11 is consistent with the outer diameter of backing roller 18.

Above-mentioned production tube 16, transfer locking pipe 29, shell 1 are in coaxial state in cutting.

It when cutting, drives lifting slider 13 to move down first with vertical shift oil cylinder 12, starts Pipe Cutting motor 14, so that Pipe Cutting 15 high speed rotation of cutterhead cuts through shell 1 using Pipe Cutting cutterhead 15, then starts rotary-cut driving motor 24, so that vertical transfer frame 25, Transfer locking pipe 29, shell 1 gently carry out pivoting, until production tube 16 forms completely and separates with shell 1.

When production tube 16 cutting after the completion of, flat turn servo motor 21 can be started so that flat turn frame 23 drive production tube 16 into Row flat turn enables production tube 16 to be staggered completely with shell 1, then releases the locking assembly of transfer locking pipe 29 to finished product The locking of pipe 16 can move along its axis production tube 16 to remove production tube 16, and removing production tube 16 later can be sharp again Drive flat turn frame 23 to be rotated with flat turn servo motor 21 so that transfer locking pipe 29 can face shell 1, then recycle Magnetism resists shell 1 against item 3, and shell 1 is moved along its axial direction to cutting section, to complete to feed feeding mistake Journey.

It offsets when the above-mentioned positioning component inconsistent with 16 internal perisporium of production tube includes cutting with the internal perisporium of production tube 16 Touch, its conflict side is arc and support arc block 26 compatible with the internal perisporium of production tube 16, further includes and support arc It is that block 26 is detachably connected, be installed on transfer locking pipe 29 on support column 27, further include be threadedly engaged with support column 27, It is sleeved on a pair of of lock-bit nut 28 on support column 27, for locking 27 position of support column, the axis of support column 27 and transfer The axis of locking pipe 29 intersects vertically；It is above-mentioned when with the inconsistent locking assembly of 16 internal perisporium of production tube including cutting and production tube 16 internal perisporium is inconsistent, it contradicts side for arc and locking arc block 30 compatible with the internal perisporium of production tube 16, also Including the inner support electric pushrod 33 that a pair is controlled by PLC controller 35, further includes one and be fixed on transfer locking 29 internal perisporium of pipe On interior fixing seat 34, further include with locking arc block 30 in the middle part of be rotatably connected, activity be installed on transfer locking pipe 29 on Guide post 31, further include for limit 31 position of guide post, with guide post 31 be threadedly engaged, be sleeved on guide post 31 Adjusting nut 32, adjusting nut 32 be in transfer locking pipe 29 inner cavity in, inner support electric pushrod 33 be installed on transfer locking It is connected on pipe 29 and with interior fixing seat 34, telescopic rod and the locking arc block 30 of inner support electric pushrod 33 are movably connected, in two Support electric pushrod 33 is subject to guide post 31 and is arranged symmetrically.In use, rotatable transfer locking pipe 29 makes support arc block 26 Conflict side upward, to be in contact with the internal perisporium upper end of production tube 16, be equivalent to and first tangle production tube 16, consequently facilitating fixed Position production tube 16, then drives locking arc block 30 and the internal perisporium of production tube 16 to be affixed using inner support electric pushrod 33, by Guide post 31 is subject in two inner support electric pushrods 33 to be arranged symmetrically, may make the both ends of locking arc block 30 can against at The internal perisporium of quality control 16, increases locking active force and locking effect, and adjusting nut 32 can prevent locking arc block 30 in movement When generated position and to contradict the excessive situation of pressure.

The above-mentioned feeding straight line driving mechanism for driving magnetism to be translatable against item 3 includes feeding sliding block 4, feeding silk Mother 5, feed screw 6, bottom sliding rail 7, the feeding motor 8 controlled by PLC controller 35, it is magnetic against 3 lower end of item be inserted into To on sliding block 4, bottom sliding rail 7 is fixed on the ground and parallel with the conveying direction of shell 1, and feeding sliding block 4 is slideably It is mounted on bottom sliding rail 7, feed screw 6 is horizontally disposed and is pivotally mounted on bottom sliding rail 7, feeds sliding block 4 On be equipped with feed screw 6 match feeding screw 5,6 one shaft end of feed screw with feed motor 8 output main shaft coaxially pass Dynamic connection.When needing to drive shell 1 mobile to cutting section direction, feeding motor 8 can be started, drive feed screw 6 into Row rotation drives feeding sliding block 4 to be slided along bottom sliding rail 7, so as to drive magnetism to push shell 1 to against item 3 Cutting section.

The utility model is not limited to above-described embodiment, on the basis of technical solution disclosed by the utility model, this For the technical staff in field according to disclosed technology contents, not needing creative labor can be special to some of which technology Sign makes some replacements and deformation, these replacements and deformation are within the protection scope of the present utility model.

Claims (3)

1. a kind of automation metalwork processing unit (plant) further includes for cutting off including the transfer unit for conveying shell (1) The cutting section of shell (1) further includes the transhipment component for transporting the production tube (16) after cutting off, further includes PLC control Device (35), the transfer unit, cutting section, transhipment component are sequentially arranged according to conveying process, it is characterised in that: the conveying Component includes a pair of side bracket be spaced apart from each other and being oppositely arranged, that extending direction is consistent with shell (1) conveying direction (2), the opposite side of two side brackets (2) is equipped with inclined side for holding shell (1) periphery wall and holds in the palm inclined-plane (2a), The transfer unit further include for against the non-cutting side axle end of shell (1), with magnetic magnetic against item (3), also Including for driving magnetic be translatable against item (3), the feeding straight line driving mechanism of installation on the ground, two side brackets (2) formed between one can hold it is magnetic it is being passed through against item (3) activity, length direction is consistent with shell (1) conveying direction Gap；

The cutting section includes portal frame (9), auxiliary bracket (10), benchmark carrying roller (11), vertical shift oil cylinder (12), lifting slider (13), Pipe Cutting motor (14), the Pipe Cutting cutterhead (15) for cutting shell (1), the auxiliary bracket (10) can longitudinally-movings It is mounted on portal frame (9), the benchmark carrying roller (11) is at least provided with two, and the benchmark carrying roller (11) is horizontally disposed with and its axis Perpendicular to shell (1) conveying direction, the benchmark carrying roller (11) is pivotally mounted on auxiliary bracket (10) line, described Benchmark carrying roller (11) and the periphery wall bottom connection of shell (1) touch, and the Pipe Cutting cutterhead (15) is vertically arranged and is disc Structure, on the output main shaft of Pipe Cutting motor (14), the lifting slider (13) can indulge Pipe Cutting cutterhead (15) coaxial package To the surface for being slidably mounted on portal frame (9) and being in shell (1), the Pipe Cutting motor (14) is mounted on lifting and slides It is controlled on block (13) and by PLC controller (35), the cylinder barrel of the vertical shift oil cylinder (12) is mounted on portal frame (9), described perpendicular The piston rod for moving oil cylinder (12) is connected with lifting slider (13)；

The transhipment component includes flat turn servo motor (21), rotation foundation frame (22), flat turn frame (23), rotary-cut driving motor (24), vertical transfer frame (25), transfer locking pipe (29), the support component for being used to support production tube (16), the rotation foundation frame (22) it fixes on the ground, the flat turn servo motor (21) is mounted in rotation foundation frame (22) and by PLC controller (35) Control, the flat turn frame (23) can be mounted in rotation foundation frame (22) with horizontally rotating, and the flat turn frame (23) is watched with flat turn The output main shaft for taking motor (21) is connected, and the rotation axis of flat turn frame (23) and the output main shaft of flat turn servo motor (21) Axis coincides, and the rotary-cut driving motor (24) is mounted on flat turn frame (23) and is controlled by PLC controller (35), described perpendicular Pivoted frame (25) is installed in rotation on flat turn frame (23) and its rotation axis is horizontally disposed, the vertical transfer frame (25) and rotary-cut The output spindle drive of driving motor (24) connects, and the output master of the rotation axis of vertical transfer frame (25) and driving motor (24) The axis of axis coincides, and (29) one shaft ends of the transfer locking pipe are mounted on vertical transfer frame (25), the transfer locking pipe (29) It is coated on periphery wall a set of for positioned to production tube (16) and the inconsistent positioning group of production tube (16) internal perisporium Part, be also coated on transfer locking pipe (29) periphery wall at least two sets for be locked into quality control (16) position, lock when With the locking assembly of production tube (16) internal perisporium pressure contact, the positioning component and locking assembly are with transfer locking pipe (29) Lock subject to axis along transfer and manages being arranged circumferentially for (29)；

The support component for being used to support production tube (16) include buoyance lift frame (19), at least two pairs front and back arrange buoyance lift oil cylinder (20), the buoyance lift oil cylinder (20) vertically arrangement and its cylinder barrel fix on the ground, the piston rod of the buoyance lift oil cylinder (20) with Buoyance lift frame (19) be connected, the support component further include one with production tube (16) periphery wall bottom connection touching, cutting when and The coaxial backing roller (18) of production tube (16), further include it is a pair of be subject to that backing roller (18) axis is arranged symmetrically, cutting when with Roller (17) are leaned in side that production tube (16) is coaxial and that production tube (16) periphery wall bottom connection touches, and the backing roller (18), side are leaned on Roller (17) is horizontally disposed and is pivotally mounted on buoyance lift frame (19), and roller (17) are leaned in the backing roller (18) and side Axis locks with transfer, and the pipe axis of (29) is parallel, and the auxiliary bracket (10) is connected with buoyance lift frame (19), and the benchmark support Roller (11) and backing roller (18) are contour, and the outer diameter of the benchmark carrying roller (11) is consistent with the outer diameter of backing roller (18)；

The production tube (16), transfer locking pipe (29), shell (1) are in coaxial state in cutting.

2. a kind of automation metalwork processing unit (plant) according to claim 1, it is characterised in that: described and production tube (16) When the inconsistent positioning component of internal perisporium includes cutting with the internal perisporium of production tube (16) it is inconsistent, its contradict side be arc and Support arc block (26) compatible with the internal perisporium of production tube (16) further includes being detachably connected with support arc block (26) , be installed on transfer locking pipe (29) on support column (27), be threadedly engaged with support column (27), be sleeved on support A pair of of lock-bit nut (28) on column (27), for locking support column (27) position, the axis of the support column (27) is in The axis that twist lock manages (29) admittedly intersects vertically；It is described when with the inconsistent locking assembly of production tube (16) internal perisporium including cutting with The internal perisporium of production tube (16) is inconsistent, it contradicts side as arc and locking arc compatible with the internal perisporium of production tube (16) Shape block (30) further includes a pair of inner support electric pushrod (33) controlled by PLC controller (35), further includes one and be fixed on transfer Locking pipe (29) internal perisporium on interior fixing seat (34), further include with locking arc block (30) middle part be rotatably connected, it is movable The guide post (31) being installed on transfer locking pipe (29) further includes for limit guide post (31) position and guide post (31) adjusting nut (32) being threadedly engaged, being sleeved on guide post (31), the adjusting nut (32) are in transfer locking Manage (29) inner cavity in, the inner support electric pushrod (33) be installed on transfer locking pipe (29) on and with interior fixing seat (34) phase Even, the telescopic rod of the inner support electric pushrod (33) is movably connected with locking arc block (30), two inner support electric pushrods (33) Guide post (31) of being subject to is arranged symmetrically.

3. a kind of automation metalwork processing unit (plant) according to claim 1, it is characterised in that: described for driving magnetism The feeding straight line driving mechanism being translatable against item (3) includes feeding sliding block (4), feeding screw (5), feed screw (6), bottom Portion's sliding rail (7), the feeding motor (8) controlled by PLC controller (35), magnetic be inserted into against item (3) lower end feed cunning On block (4), the bottom sliding rail (7) fixes on the ground and, the feeding sliding block parallel with the conveying direction of shell (1) (4) it is slidably mounted on bottom sliding rail (7), the feed screw (6) is horizontally disposed and is pivotally mounted on bottom On portion's sliding rail (7), the feeding screw (5) to match with feed screw (6), the feeding silk are installed on feeding sliding block (4) (6) one shaft end of bar is connect with the output main shaft coaxial transmission of feeding motor (8).