CN114932672B - Hat brim core forming and cutting production line - Google Patents

Abstract

The invention provides a hat brim core forming and cutting production line, which is characterized in that: the extrusion molding frame of the extrusion cooling device and the guide rail are arranged on the ground, and the plate cooling device provided with the cooling device, the heat dissipation device and the longitudinal adjustment device is arranged on the guide rail; the plate shearing frame of the shearing pushing device is arranged on the guide rail, two ends of the drying device are arranged on the plate shearing frame and the cooling frame, and the plate shearing frame is provided with a traction device, a shearing device, a turnover device and a pushing device; the bending forming frame of the bending forming device is arranged on the guide rail, and the shaping conveying drive faces the drying and shearing device, and the shaping conveying device and the shaping device are arranged on the bending forming frame; the automatic punching machine of the cutting forming device is arranged on the ground and is positioned on one side of the bending forming device far away from the cutting pushing device, the upper die carrier and the backing plate component are respectively arranged on the punch and the workbench, and the two sides of the automatic punching machine are provided with the bending plate feeding device and the waste traction device. The invention has high cooling, bending and cutting forming efficiency, no pollution and less labor occupation.

Description

Hat brim core forming and cutting production line

The invention provides a hat brim core forming and cutting production line, which belongs to the field of automatic production equipment and is mainly used for extrusion molding, cooling, sheet forming and cutting of hat brim cores, and bending forming and cutting forming of the hat brim cores.

Background

At present, the processing technology of the cap peak core adopts a manual operation mode, after extrusion molding, the whole process of cooling, forming and shearing of the plate, bending, forming and cutting of the cap peak core and the like is finished by manpower, so that the labor intensity is high, the labor is occupied, and the odor generated in the manufacturing process causes serious pollution to workers and the environment.

In view of the current situation of the plate forming, shearing and hat brim core bending and cutting forming industry, a hat brim core forming and cutting production line with high plate cooling forming, hat brim core bending and cutting forming efficiency, no pollution and less labor occupation is needed.

Disclosure of Invention

The invention aims to provide a hat brim core forming and cutting production line which can overcome the problems in the existing industries of plate cooling forming, hat brim core bending and cutting forming, has the advantages of high forming speed, high efficiency and no pollution, and can reduce the labor intensity of workers.

The technical proposal is as follows: comprises an extrusion cooling device, a drying and shearing device, a bending and forming device and a cutting and forming device, wherein the extrusion cooling device comprises a plate extrusion device and a plate cooling device, the plate extrusion device comprises an extrusion molding frame, an extrusion molding reduction gearbox, an extrusion molding motor, an extrusion molding belt transmission, a constant temperature box, an extrusion molding barrel, a feed hopper and an extrusion molding die, the extrusion molding frame with a rectangular frame structure is arranged on the ground, one end of the extrusion molding frame in the length direction of an upward frame plane is provided with the extrusion molding reduction gearbox, an input shaft and an output shaft of the extrusion molding reduction gearbox are parallel to the length direction of the extrusion molding frame, the input shaft extends towards the direction away from the other end of the length direction of the extrusion molding frame, the output shaft extends towards the other end of the length direction of the extrusion molding frame, the extrusion molding motor is arranged on the ground, an output shaft of the extrusion molding motor is connected with an input shaft of the extrusion molding reduction gearbox through an extrusion molding belt transmission, two ends of the constant temperature box are supported on an upward frame plane of the extrusion molding frame, the length direction of the constant temperature box is parallel to the length direction of the extrusion molding frame, a feeding hopper is arranged at the extending end of an extrusion molding barrel penetrating through the constant temperature box towards the extrusion molding reduction gearbox, the tail end of the extrusion molding barrel is connected with the output shaft of the extrusion molding reduction gearbox, an extrusion molding die is arranged at the extending end of the extrusion molding barrel away from the extrusion molding reduction gearbox, and the water surface of a narrow long outlet of the extrusion molding die is arranged; the plate cooling device comprises a cooling frame, a cooling device, a heat dissipating device and a longitudinal adjusting device, wherein the cooling frame comprises a guide rail, a rail connecting plate, an underframe, rollers I, a dragon door frame, a slideway, a lug and a drying lug, 2 guide rails are mutually parallel and aligned and arranged on the ground, two ends of the guide rail are respectively connected together through the 2 rail connecting plates and are reinforced by another 1 rail connecting plate near one end, the combination of the guide rail and the rail connecting plate is positioned at one end of the extrusion molding frame of the plate extrusion molding device near an extrusion molding die, the length direction of the guide rail is parallel to the length direction of an extrusion molding barrel of the plate extrusion molding device, the 2 guide rails are symmetrically arranged relative to the extrusion molding barrel, and one end of the 2 guide rails which is not reinforced by the rail connecting plate is positioned at one end far away from the plate extrusion molding device, the middle connecting frame of the underframe in an I shape is positioned at the middle deviated center of the 2 parallel frames, two ends of the same side of the 2 parallel frames are respectively provided with 1 roller I, the underframe is arranged at one end of the 2 guide rails reinforced by the rail connecting plate through 4 rollers I and positioned between the reinforced rail connecting plate and the rail connecting plate positioned at the end part, the middle connecting frame of the underframe is vertical to the length direction of the guide rails, the middle connecting frame of the underframe is positioned at one side of the end part far away from one end of the guide rail positioned relative to the center of the 2 parallel frames of the underframe, the opening end of the U-shaped doorframe is downwards fixed at the joint of the 2 parallel frames of the underframe and the middle frame respectively, the U-shaped plane of the doorframe is vertical to the 2 parallel frames of the underframe, the U-shaped bottom arm of the gantry frame is provided with 1 lug extending towards the direction provided with the slide way, the plane of the 2 lugs extending towards the direction of the underframe is positioned in the same plane and is parallel with the I-shaped plane of the underframe, and the other side of the 2 side arms of the gantry frame extending with the lugs is provided with 1 drying lug close to the U-shaped opening; the cooling device comprises a cooling roller I, a cooling roller II and a cooling adjusting device, wherein the cooling roller I comprises a roller body, a support I, a roller drive and a pipe joint, two ends of the roller body are arranged between 2 sections of slide ways on 2 side arms of a gantry frame of the cooling frame through the support I, the axis of the roller body is parallel to the I-shaped plane of a chassis, the roller drive is arranged on the outer side of the support I at one end of the roller body, an output hole of the roller drive is arranged at the extending end of the roller body after the shaft of the roller body passes through the support I, the pipe joint is arranged at the extending end of the shaft at the other end of the roller body after the shaft of the roller body passes through the support I, the cooling roller II comprises a roller body, a support II, a roller drive and a pipe joint, the mounting surface of the support II is provided with T-shaped bulges consistent with the T-shaped section sliding grooves of the sliding way of the cooling rack, two ends of the 2-piece roller body are respectively arranged in the T-shaped section sliding grooves of the 2-section sliding way of the 2 side arms of the gantry frame of the cooling rack through the T-shaped bulges of the support II, the axis of the 2-piece roller body is parallel to the axis of the roller body of the cooling roller I, 2-piece roller drives are respectively arranged on the outer side of the support II at one end of the 2-piece roller body, the output holes of the 2-piece roller drives are respectively arranged at the extending ends of the shaft of the 2-piece roller body after passing through the support II, the extending ends of the shaft at the other end of the 2-piece roller body after passing through the support II are respectively provided with 1-piece pipe joint, the cooling adjusting device comprises a cooling right-angle transmission, The cooling transmission shaft, the cooling adjustment drive, the cooling fine adjustment handle and the cooling adjustment screw are respectively arranged on 2 parallel frames of a bottom frame of a cooling frame of the plate cooling device, and are positioned at a position, close to the dragon frame, of one side of the dragon frame, which is provided with a slideway, an output hole of the 2 cooling right angle transmission is vertical to an I-shaped plane of the bottom frame, an input hole of the 2 cooling right angle transmission is simultaneously parallel to the I-shaped plane of the bottom frame and a U-shaped plane of the dragon frame, the axes of the input holes are coaxial, 2 cooling right angle transmissions are respectively arranged on a plane, close to the dragon frame, of 2 lugs arranged on the dragon frame, which face the direction of the bottom frame, the output holes of the 2 cooling right-angle transmission are respectively coaxial with the output holes of the cooling right-angle transmission, which are arranged on the underframe and are positioned at the same side arm of the dragon door frame, the axes of the input holes of the 2 cooling right-angle transmission are coaxial and are parallel to the input holes of the cooling right-angle transmission, the 2 cooling transmission shafts are respectively inserted into the input holes of the 2 cooling right-angle transmission, one end of each cooling transmission shaft penetrates through the coaxial input holes of the 2 cooling right-angle transmission, the extending end of each cooling adjustment drive is provided with 1 cooling adjustment drive, the 2 cooling adjustment drives are respectively provided with a cooling fine adjustment handle, one end of each 4 cooling adjustment screw is respectively screwed into a screw sleeve of the output hole of each cooling adjustment drive, and the other end of each 4 cooling adjustment screw is respectively connected with a support II of a cooling roller II of the cooling device which is close to the cooling adjustment drive; the heat radiator comprises a heat radiating frame, a heat radiator, a pipeline pump, a cold water pipe, a hot water pipe, a water supplementing pipe and a water supplementing tank, wherein the heat radiating frame with a rectangular plane frame structure is arranged outside a U-shaped side arm on one side of a gantry frame of a cooling frame of the plate cooling device, which is far away from a roller driving side of a cooling roller I of the cooling device, a water outlet of the heat radiator is provided with the pipeline pump, 3 heat radiators with the pipeline pump are arranged on a frame plane of one side of the heat radiating frame, which is far away from the gantry frame, from top to bottom, 3 water outlets provided with the pipeline pump are respectively connected with water inlets of pipe joints arranged on the 1 cooling roller I and the 2 cooling roller II through 3 cold water pipes, one end of each 3 hot water pipe is respectively connected with water outlets of 3 pipe joints, the other ends of the longitudinal adjustment device are respectively connected with water inlets of 3 heat dissipation frames, the water supplementing ports of the 3 heat dissipation frames are connected with water supplementing tanks arranged on the cooling frames of the plate cooling device through the same 1 water supplementing pipe, the longitudinal adjustment device comprises a longitudinal adjustment drive and a longitudinal adjustment screw rod, the longitudinal adjustment drive is arranged on a connecting rail plate which is close to one end of a guide rail and is used for strengthening, an output shaft faces to the other 1 connecting rail plate at the end of the guide rail, one end of the longitudinal adjustment screw rod is screwed into a screw hole in a bottom frame of the cooling frames of the plate cooling device, and the other end of the longitudinal adjustment screw rod is connected with the output shaft of the longitudinal adjustment drive; the drying and shearing device comprises a drying device and a shearing pushing device, wherein the drying device comprises a drying box and a drying box support arm, inlets and outlets are formed in 2 box planes parallel to each other of the drying box in the shape of a rectangular 6-face box, the drying box is arranged on the drying box support arm through 2 box planes with the largest area, and the box planes provided with the inlets and the outlets are perpendicular to the drying box support arm; the shearing pushing device comprises a plate shearing frame, a traction device, a shearing device, a turnover device and a pushing device, wherein the plate shearing frame comprises a shearing vertical plate, a 'well' -shaped frame, a shearing bedplate, a traction lug, a shearing slideway, a drying lug, a support III, a pushing driving plate, a diversion trench, a diversion plate and a roller II, two ends of one short side of the 2 shearing vertical plates are fixedly connected through the 'well' -shaped frame, the 2 shearing vertical plates are parallel and mutually aligned, the middle parts of the short sides of the other side of the 2 shearing vertical plates are fixedly connected through the shearing bedplate, one ends of the short sides of the 2 shearing vertical plates, which are connected through the shearing bedplate, extend out from the directions away from the 'well' -shaped frame, are provided with traction lugs, The end of the traction lug is provided with an open slot with the length vertical to the short side of the shearing vertical plate, the other end of the short side of the 2 shearing vertical plates connected through the shearing bedplate is provided with shearing slide ways with the length vertical to the short side of the shearing vertical plate, the long side of the 2 shearing vertical plates close to one side of the traction lug is close to the shearing bedplate and is respectively provided with 1 drying lug, the round hole axis of the 2 supports III arranged in the middle of the 'shaft' shaped frame is coaxial and vertical to the shearing vertical plate, a pushing driving plate is fixed between the middle of the long sides of the 2 shearing vertical plates close to one side of the shearing slide ways, the plate surface of the pushing driving plate is vertical to the shearing bedplate, the diversion trench is formed by bending a flat plate, the cross section vertical to the plate surface direction comprises a J-shaped section and an inclined line section, the tail end of the oblique line section is inclined towards the tail end direction of the hook far away from the J-shaped section, the guide groove is arranged on the plate surface of one side of the pushing driving plate far away from the drying lug through the straight line section with the J-shaped section, which is far away from the tail end of the hook, the J-shaped hook faces the 'well' -shaped frame, the guide plate is arranged in the middle of the long edge of one side of the 2 shearing vertical plates far away from the drying lug, the distance between the edge of one side of the plate surface of the guide plate close to the shearing slide rail and the edge of one side of the shearing vertical plate, which is fixed with the drying lug, is smaller than the distance between the edge of one side of the shearing slide rail far away from the shearing vertical plate and the edge of one side of the shearing vertical plate, which is fixed with the drying lug, 1 roller II is respectively arranged at the two ends of the short edges of one side of the 2 shearing vertical plates and the 'well' -shaped frame, the plate shearing frame is arranged on 2 guide rails of a cooling frame of a plate cooling device of the extrusion cooling device through 4 rollers II, one side, provided with drying lugs, of the 2 shearing vertical plates faces the direction of the extrusion cooling device, one end of a 2 oven support arm of the drying device is arranged on the drying lugs arranged on the shearing vertical plates of the plate shearing frame, and the other end of the 2 oven support arm of the drying device is arranged on the drying lugs arranged on the cooling frame of the plate cooling device of the extrusion cooling device and the drying box faces upwards; the traction device comprises a pressing plate roller, a pressing roller cylinder, a traction roller, a traction drive and a chain transmission, wherein shafts at two ends of the pressing plate roller are supported in long grooves of traction lugs on 2 shearing vertical plates through a plate shearing frame, the 2 pressing roller cylinders are respectively arranged at the tail ends of the 2 traction lugs, the tail ends of telescopic rods of the 2 pressing roller cylinders respectively press the shafts at two ends of the pressing plate roller in the long grooves of the traction lugs, the shafts at two ends of the traction roller are respectively supported at the positions, close to the traction lugs, of the 2 shearing vertical plates, the traction drive is arranged at the outer side of the shearing vertical plates, an output shaft is connected with an extending end of the shaft at one end of the traction roller, which penetrates through the shearing vertical plates through the chain transmission, and the shearing device comprises a shearing shaft, a long rocker arm, The shearing device comprises a short rocker arm, a shearing cylinder, scissors and a connecting cutter bar, wherein a long rocker arm is arranged in the middle of the shearing device, two ends of a shearing shaft with 1 piece of short rocker arm at two ends are respectively supported at positions, close to shearing slide ways, of 2 shearing vertical plates of a plate shearing frame, the long rocker arm, the 2 piece of short rocker arms and the shearing shaft are positioned in the same plane, the long rocker arm and the 2 piece of short rocker arms are respectively positioned at two sides of the shearing shaft, two sides of the shearing cylinder are respectively hinged to 2 supporting seats III of the plate shearing frame, which are arranged in the middle of a 'well' -shaped frame, the tail end of a telescopic rod of the shearing cylinder is hinged to the tail end of the long rocker arm, a shearing edge is formed after the angle of 1 long edge of the shearing device in a rectangular flat plate shearing frame is cut, the shearing device is arranged in the shearing slide ways of the 2 shearing vertical plates, And the shearing edge faces downwards, one end of the 2 pieces of connecting cutter bars are respectively hinged at two ends of the shearing edge of the scissors, the other end of the 2 pieces of connecting cutter bars are respectively hinged at the tail ends of the short rocker arms arranged at two ends of the shearing shaft, the turnover device comprises a turnover plate, a turnover shaft, a turnover rocker arm and a turnover cylinder, the turnover plate in a rectangular flat plate shape is fixed on the turnover shaft, the long side of the turnover plate is parallel to the turnover shaft, two ends of the turnover shaft are respectively supported at one end, close to the shearing slide, of the long side, close to the shearing slide, of the 2 pieces of shearing vertical plates of the plate shearing frame, the turnover rocker arm is arranged at the extending end of one end of the turnover shaft, which penetrates through the shearing vertical plate, one end, deviating from the extending direction of the telescopic rod, of the 1 piece of turnover cylinder is hinged at the outer side of the shearing vertical plate, close to one side of the turnover rocker arm, the tail end of the telescopic rod of the turnover cylinder is hinged to the tail end of the turnover rocker arm, the pushing device comprises a pushing cylinder and a pushing rod, the 2 pushing cylinders are arranged on the plate surface of the pushing driving plate of the plate shearing frame, which faces to one side of the shearing cylinder, and the extending end of the telescopic rod of the 2 pushing cylinders, which faces to the direction away from the shearing cylinder, is provided with the same 1 pushing rod which is parallel to the traction rolling axis of the traction device; the bending forming device comprises a bending forming frame, a shaping conveying device and a shaping device, wherein the bending forming frame comprises a bending underframe, long supporting legs, short supporting legs, a bending top frame, a bending cross beam, supporting lugs, U-shaped lugs, chain rails, a driving mounting plate and rollers II, one end of a rectangular long frame of the bending underframe which is in a plane rectangular frame structure is respectively provided with 1 long supporting leg, the other end of the rectangular long frame is respectively provided with 1 short supporting leg, the extending directions of 2 long supporting legs and 2 short supporting legs are the same and are vertical to the plane of the rectangular frame of the bending underframe, 1 long frame of the 2 bending top frames which are in a plane rectangular frame structure is respectively arranged on 1 long supporting leg and 1 short supporting leg which are arranged on the same 1 rectangular long frame of the bending underframe, the other 1 long frame of the 2 bending top frames are respectively towards the long supporting leg 311 and the short supporting leg which are arranged on the other 1 long frame of the bending bottom frame and are connected through a plurality of bending cross beams, the rectangular frame plane of the 2 bending top frames and the plurality of bending cross beams are positioned in the same plane, the 2 bending top frames are positioned at the inner side, one end of the rectangular long frame connected through the plurality of bending cross beams, which is towards the short supporting leg, is respectively fixed with 1 supporting lug, the other end of the rectangular long frame is respectively fixed with 1U-shaped lug, the U-shaped opening of the 2U-shaped lugs is towards the direction away from the supporting lugs, 2 chain rails are arranged on the plane of the plurality of bending cross beams, which is away from one side of the bending bottom frame, the length direction of the 2 chain rails is parallel to the rectangular long frame of the bending top frames, The symmetrical surfaces of the 2 chain rails in parallel with the length direction of the chain rails are symmetrically arranged relative to the symmetrical surfaces of the bending underframe, which are perpendicular to the rectangular short frames, the driving mounting plates are fixed at the positions, close to the bending underframe, of the outer sides of the 1 short supporting legs, the 4 corners of the rectangular frame plane, far away from one side of the bending top frame, of the bending underframe are respectively provided with 1 roller II, the bending forming frame is arranged on the 2 guide rails through the 4 rollers II, and one ends of the 2 short supporting legs of the bending forming frame face the direction of the drying and shearing device; the shaping conveying device comprises a shaping conveying drive, a chain wheel, a driving shaft, a driven shaft, a shaping mould and a chain, wherein the shaping conveying drive is arranged on a drive mounting plate of a bending forming frame, two ends of the driving shaft provided with 2 chain wheels with the number of teeth of Z _c are respectively supported on 2 supporting lugs of the bending forming frame, the 2 chain wheels are respectively aligned with 2 chain rails of the bending forming frame, one end of the driving shaft penetrates through an extending end of the supporting lugs and is connected with an output shaft of the shaping conveying drive, two ends of the driven shaft provided with other 2 chain wheels are respectively supported on 2U-shaped lugs of the bending forming frame, the 2 chain wheels on the driven shaft are respectively positioned in the same plane with the 2 chain wheels on the driving shaft, a part of the pipe wall of the shaping mould in a circular pipe shape is cut along the axial direction, the central angle corresponding to the pipe wall of the cut part is pi/2+/-pi/30, a plurality of shaping moulds are arranged on the outer side of 2 annular chains, the openings of the shaping moulds face outwards, the center distance L _mx of each adjacent shaping mould is N _m times of the chain pitch P _l, namely L _mx=N_mP_l, the distance between the 2 chains is equal to the distance between 2 chain rails on the bending forming frame, the symmetrical surfaces of the 2 chains in the axial direction of the shaping mould are symmetrically arranged relative to the cross section of the center of the shaping mould passing through the length direction, the assembly of 2 chains and a plurality of shaping molds is hung on 4 chain wheels respectively arranged on a driving shaft and a driven shaft, and the upper sections of the 2 chains are respectively supported on 2 chain rails; the shaping device comprises a shaping frame, shaping cylinders and shaping pressing plates, wherein the shaping frame is in a U-shaped groove shape, 2 shaping cylinders are arranged on the outer plane of the U-shaped groove bottom of the shaping frame, the telescopic rods of the 2 shaping cylinders are perpendicular to the outer plane of the U-shaped groove bottom of the shaping frame and extend towards the tail end of the U-shaped side arm of the shaping frame, and the extending ends of the telescopic rods of the 2 shaping cylinders after passing through the U-shaped bottom plate of the shaping frame are provided with 1 shaping pressing plate, and the length direction of the shaping pressing plates is parallel to the U-shaped plane of the shaping frame; the cutting and forming device comprises an automatic punching machine, a finished product box, a cutting and forming die, a bent plate supply device and a waste traction device, wherein the automatic punching machine is arranged on the ground and is positioned at one end, far away from a shaping conveying drive, of a shaping conveying device of the bending and forming device, and the finished product box is arranged on the ground at one side, far away from a punch, of the automatic punching machine; the cutting and forming die comprises an upper die frame, a cutting knife die, a base plate assembly and a finished product guide assembly, wherein the upper die frame comprises an upper die pad, a support column, a middle die pad, a lower die pad and a stop pad, a cylindrical die shank perpendicular to the upper die pad surface extends out of the center of one side surface of the upper die pad in a rectangular flat plate shape, the support columns perpendicular to the upper die pad surface are arranged at 4 corners of the other side surface, a cavity opening in a 'hat brim' shape is arranged on the surfaces of the middle die pad, the lower die pad and the stop pad in a rectangular flat plate shape, connecting lines among 2 'hat brim' sharp corners of the cavity opening are perpendicular to rectangular plate surface edges of the middle die pad, the lower die pad and the stop pad respectively, the cavity openings of the middle die pad and the lower die pad are aligned, The sizes of the die cushion are the same, the cavity openings of the lower die cushion and the retaining cushion are aligned, the size of the retaining cushion cavity opening is 5mm plus or minus 0.5mm larger than that of the single side of the lower die cushion cavity opening, the middle die cushion is arranged at one end part of the 4 support posts far away from the upper die cushion through one side plate surface, one side plate surface of the lower die cushion is arranged at one side plate surface of the middle die cushion far away from the upper die cushion, one side plate surface of the retaining cushion is arranged at one side plate surface of the lower die cushion far away from the middle die cushion, the cap peak-shaped cavity openings of the middle die cushion, the lower die cushion and the retaining cushion are aligned, the upper die frame is arranged on a punch of an automatic punch through a die handle of the upper die cushion and the plate surface provided with one side of the die handle, and the connecting line between 2 cap peak sharp corners of the cavity opening of the middle die cushion is parallel to the symmetry surface of the automatic punch in the left-right direction, the cutting knife mold is in a ring structure, two end surfaces of the ring are parallel to each other, the inner surface and the outer surface of the ring are in the same shape as the hat brim-shaped cavity opening of the middle mold pad of the upper mold frame, the inner surface of the ring is a straight wall, namely, an inner surface element line is perpendicular to the two end surfaces of the ring, the inner surface of the ring is in the same shape as the middle mold pad, the size of the ring is equal to that of the middle mold pad, the outer surface of the ring is an inclined wall, namely, the outer surface element line is in an inclined state that one end is close to the inner surface element line and the other end is far away from the inner surface element line, the outer surface of the ring of the cutting knife mold is in the same shape as the retaining pad, the size of one end far from the inner surface element line is equal to the retaining pad, the edge line, which is intersected with the end surface at one end of the outer surface of the ring of the cutting knife mold is cut off to form a cutting edge, the cutting knife die is arranged on the plate surface of one side of the lower die pad, which is far away from the middle die pad, through a hat brim-shaped cavity opening of the retaining pad, wherein one end of the outer surface of the ring, which is far away from the inner surface plain wire, passes through the hat brim-shaped cavity opening of the retaining pad; the base plate component comprises a U-shaped frame and a base plate, the U-shaped frame is buckled on a workbench of an automatic punching machine, the base plate in a rectangular flat plate shape is arranged above the U-shaped frame, the finished product guide component comprises an inner guide plate, an outer guide plate and a stop lever, the inner guide plate and the outer guide plate in rectangular sections and the stop lever in circular sections are in shapes that the middle section is a straight line, the two ends are circular arcs, the circular arc sections at the two ends are positioned in the same plane, the central angle corresponding to the circular arc section at one end is 90 DEG + -5 DEG, the central angle corresponding to the circular arc section at the other end is 50 DEG + -5 DEG, the 90 DEG + -5 DEG circular arc sections of the inner guide plate and the outer guide plate are respectively arranged on the surface of the middle die pad, facing one side of the upper die pad, of the middle die pad, and, The inner guide plate and the outer guide plate are positioned between the upper die pad and the middle die pad, the installation position of the inner guide plate is positioned at the sharp angle of the upper die frame, which is close to the peak of the hat at the rear of the automatic punching machine, the installation position of the outer guide plate is positioned at the sharp angle of the upper die frame, which is close to the peak of the hat at the front of the automatic punching machine, the straight line sections of the inner guide plate and the outer guide plate extend towards the installation position direction of the inner guide plate, which is far away from the installation position of the outer guide plate, namely, the rear of the automatic punching machine, the straight line sections of the inner guide plate and the outer guide plate are parallel to the surface of the middle die pad and are perpendicular to the rectangular plate surface of the middle die pad, which is close to the edge of the peak of the hat at the peak of the hat, and the 90 DEG + -5 DEG arc sections of the 2 stop levers are respectively arranged on the plate surface of the upper die frame, which faces the upper die pad side of the middle die pad respectively, The 2 stop rods are positioned between the upper die pad and the middle die pad, the installation positions of the 2 stop rods are respectively positioned at two sides of the upper die frame, which are close to the middle part of the hat brim-shaped cavity opening, and the straight line sections of the stop rods are parallel to the straight line sections of the inner guide plates and extend out towards the same direction; the bending plate supply device comprises a supply frame, a pushing device and a leading-in assembly, wherein the supply frame comprises a supply frame body, a supporting seat, an extension bar, a connecting plate, a rail supporting plate and a supply bedplate, 1 supporting seat is respectively arranged at 4 corners of a frame plane with the longest long frame and the shortest short frame of the supply frame body in a rectangular frame structure and is arranged on the ground through the 4 supporting seats, the extension bar extends out of the 2 longest long frames of the upward frame plane towards the same direction, the connecting plate is fixed at the tail end of the 2 extension bars, the supply frame body is arranged on the outer surface of a U-shaped side arm of a U-shaped frame of a backing plate assembly of a cutting and shaping die through the surface of the connecting plate, and the longest frame of the supply frame body is parallel to the U-shaped plane of the U-shaped frame, the device comprises a frame body, a long frame, a push plate groove, a synchronous belt sliding table, a pushing driving device, a pushing sliding block, a transmission plate, a pushing plate and a material protection plate, wherein 3 rail supporting plates are uniformly arranged on the lower plane of 2 longest long frames of an upward frame plane along the length direction of the long frame, the 3 rail supporting plates are all perpendicular to the long frame, a feeding bedplate is arranged on the upward frame plane, the middle part of the feeding bedplate is provided with the push plate groove along the length direction of the long frame, the longitudinal symmetrical surface of the push plate groove passes through the center of the shortest short frame relative to the feeding frame body, and is perpendicular to the symmetrical surface of the length direction of the short frame, the pushing device comprises the synchronous belt sliding table, the pushing driving device, the pushing sliding block, the transmission plate, the pushing plate and the material protection plate, the synchronous belt sliding table in a long shape is arranged on the rail supporting plate of the feeding frame, the length direction of the synchronous belt sliding table is parallel to the long frame body of the feeding frame body, And the driving plate is arranged symmetrically relative to the longitudinal symmetrical surface of the push plate groove of the feeding platen, one end of the synchronous belt sliding table, which is far away from the connecting plate of the feeding frame, is provided with a pushing driving block, the upper plane of the synchronous belt sliding table is provided with a pushing sliding block, a transmission plate with the plate thickness smaller than the width of the push plate groove is vertically arranged on the upper plane of the pushing sliding block, the plate surface of the transmission plate is parallel to the length direction of the push plate groove and symmetrically arranged relative to the push plate groove, the transmission plate upwards penetrates through the extending end of the push plate groove and is provided with a pushing plate, the plate surface of the pushing plate is vertical to the length direction of the push plate groove, the upper side and the two sides of the plate surface of the connecting plate direction of the feeding frame are respectively provided with a material protection plate, the guiding assembly comprises a support plate, a core pressing roller and a material guiding plate, one end of the length direction of the support plate surface is provided with a long groove parallel to the length direction of the support plate, one end of each 2 support plates far away from the long groove is arranged on the edge of one side, close to the supply frame, of the upper plane of the base plate assembly of the cutting forming die, the plate surface of each support plate is perpendicular to the shortest frame of the supply frame, the symmetrical surfaces of the 2 support plates are symmetrically arranged relative to the push plate groove, two ends of each core pressing roller are respectively supported in the long groove of each 2 support plates, each 2 guide plate is arranged on the upper plane of the base plate assembly, and the symmetrical surfaces of the 2 guide plates are symmetrically arranged relative to the symmetrical surfaces of the 2 support plates; the waste traction device comprises a traction installation frame, a waste traction mechanism and a guide plate, wherein the traction installation frame comprises a traction installation plate and a traction supporting leg, one side edge of the traction installation plate is installed on the outer surface of a U-shaped side arm of a U-shaped frame of a base plate component of a cutting forming die, which is far away from a bent plate supply device, the other end of the traction installation plate, which is far away from the U-shaped frame, is supported on the side, far away from the bent plate supply device, of a chassis of an automatic punching machine through the traction supporting leg, the upper plane of the traction installation plate is parallel to the upper plane of a base plate of the base plate component, the waste traction mechanism comprises a waste traction frame, a waste traction component and a waste compression component, the waste traction frame comprises a traction vertical plate, a traction flat plate and a waste driving frame, the 2 traction vertical plates with U-shaped grooves at one end and the 2 traction flat plates are connected end to end in sequence to form a rectangular flat plate frame structure, the U-shaped grooves of the 2 traction vertical plates face to the same direction, a waste material driving frame in a U-shaped shape is arranged on the outer surface of one end of the 1 traction vertical plate far away from the U-shaped grooves through a U-shaped opening, the waste material driving frame is arranged on the upper plane of a traction mounting plate of the traction mounting frame through the outer surface of the 1 traction flat plate far away from one end of the U-shaped groove of the traction vertical plate, the traction vertical plate and the traction flat plate surfaces are perpendicular to U-shaped side arms of a U-shaped frame of a base plate assembly of a cutting forming die, the waste material traction assembly comprises a waste material driving roller, a driven gear, a waste material driving gear and a driving gear, the two ends of the waste driving roller are respectively supported at the ends far away from the U-shaped grooves of the 2 traction vertical plates, driven gears are arranged at the extending ends of the waste driving roller, which penetrate through the traction vertical plates towards one end of the waste driving frame, waste driving is arranged on the waste driving frame, driving gears are arranged at the extending ends of the waste driving output shafts, which penetrate through the waste driving frame, and are meshed with the driven gears arranged on the waste driving roller, the waste compacting assembly comprises a waste compacting roller, a T-shaped support, a connecting plate and a waste compacting cylinder, the two ends of the waste compacting roller are respectively supported in the U-shaped grooves of the 2 traction vertical plates through the T-shaped support, the T-shaped ends of the T-shaped support extend towards the U-shaped opening direction of the U-shaped grooves, the two ends of the connecting plate are respectively arranged at the T-shaped tail ends of the 2T-shaped supports, the waste pressing cylinder is arranged at the center of the plate surface of the waste traction frame, which is positioned at one end of the U-shaped groove of the traction vertical plate and is far away from one side of the other 1 traction plate, the extension rod of the waste pressing cylinder penetrates through the extension end of the traction plate to be arranged at the center of the connecting plate, the 2 material guide plates of the waste traction device are arranged on the upper plane of the backing plate assembly, the symmetrical surfaces of the 2 material guide plates are symmetrically arranged relative to the vertical symmetrical surfaces of the 2 material guide plates of the waste traction frame of the waste traction mechanism, and the symmetrical surfaces of the 2 material guide plates and the material guide plates of the guide assembly of the bending plate supply device of the upper plane of the backing plate are symmetrically arranged relative to the upper plane of the backing plate passing through the center of the backing plate, And is arranged in mirror image with a cross section perpendicular to the longest frame of the supply frame body of the supply frame of the bending plate supply device.

According to the invention, on the basis of the prior art, an extrusion molding frame of a plate extrusion molding device of an extrusion cooling device is of a rectangular frame structure and is arranged on the ground, an extrusion molding reduction gearbox is arranged at one end of the extrusion molding frame in the length direction of an upward frame plane, an input shaft and an output shaft of the extrusion molding reduction gearbox are parallel to the length direction of the extrusion molding frame, the input shaft extends towards the direction away from the other end of the length direction of the extrusion molding frame, the output shaft extends towards the other end of the length direction of the extrusion molding frame, an extrusion molding motor is arranged on the ground, and the output shaft of the extrusion molding motor is connected with the input shaft of the extrusion molding reduction gearbox through extrusion molding belt transmission; the two ends of the constant temperature box are supported on the upward frame plane of the extrusion molding frame, the length direction of the constant temperature box is parallel to the length direction of the extrusion molding frame, the extending end of the extrusion molding barrel penetrating through the constant temperature box towards the extrusion molding reduction gearbox is provided with a feed hopper, the tail end of the extrusion molding barrel is connected with the output shaft of the extrusion molding reduction gearbox, the extending end of the extrusion molding barrel away from the extrusion molding reduction gearbox is provided with an extrusion molding die, and the narrow long outlet water surface of the extrusion molding die is arranged. The two ends of the 2 guide rails of the cooling frame of the plate cooling device are respectively connected together through 2 rail connecting plates, and the part close to one end is reinforced through another 1 rail connecting plate; the combined body of the guide rail and the continuous rail plate is positioned at one end, close to the extrusion molding die, of the extrusion molding frame of the plate extrusion molding device, the length direction of the guide rail is parallel to the length direction of an extrusion molding barrel of the plate extrusion molding device, 2 guide rails are symmetrically arranged relative to the extrusion molding barrel, and one end, which is not reinforced by the continuous rail plate, of the 2 guide rails is positioned at one end, far away from the plate extrusion molding device; the middle connecting frame of the bottom frame in the shape of an I is positioned at the middle offset center of the 2 parallel frames, 1 roller I is respectively arranged at two ends of the same side surface of the 2 parallel frames, the bottom frame is arranged at one end of the 2 guide rails reinforced by the rail connecting plate through 4 rollers I and positioned between the reinforced rail connecting plate and the rail connecting plate positioned at the end part; the middle connecting frame of the underframe is perpendicular to the length direction of the guide rail, and is positioned at one side far away from the end part of the guide rail relative to the center of the 2 parallel frames of the underframe; the opening ends of the U-shaped gantry frames are respectively fixed at the connection parts of the 2 parallel frames of the underframe and the middle frame, the opening ends of the gantry frames face downwards, the U-shaped plane of the gantry frames is perpendicular to the 2 parallel frames of the underframe, 2 sections of slide ways with T-shaped sections are respectively arranged on one side of the 2U-shaped side arms of the gantry frames, which face the 2 guide rails, through the reinforcing ends of the connecting rail plates, and are parallel to the length direction of the U-shaped side arms of the gantry frames; the U-shaped bottom arm of the gantry frame and the joint of the 2 side arms respectively extend out of 1 lug towards the direction provided with the slideway, the plane of the 2 lugs towards the direction of the underframe is positioned in the same plane and parallel to the I-shaped plane of the underframe, and 1 drying lug is respectively arranged on the other side of the 2 side arms of the gantry frame, which extends out of the lug and is close to the U-shaped opening. The two ends of a 1-piece roller body of a cooling roller I of the cooling device are arranged between 2 sections of slideways on 2 side arms of a gantry frame of the cooling frame through a support I, the axis of the roller body is parallel to the I-shaped plane of a bottom frame, 1-piece roller is arranged outside the support I at one end of the roller body in a driving manner, an output hole of the roller is arranged at the extending end of the roller body after the shaft of the roller body passes through the support I, and a pipe joint is arranged at the extending end of the shaft at the other end of the roller body after the shaft of the roller body passes through the support I; the mounting surface of a support II of the cooling roller II is provided with T-shaped bulges consistent with T-shaped section sliding grooves of a sliding way of a cooling frame, two ends of 2 roller bodies are respectively arranged in the T-shaped section sliding grooves of 2 sections of sliding ways on 2 side arms of a gantry frame of the cooling frame through the T-shaped bulges of the support II, the axis of the 2 roller bodies is parallel to the axis of the roller bodies of the cooling roller I, 2 roller drives are respectively arranged on the outer side of the support II at one end of the 2 roller bodies, output holes of the 2 roller drives are respectively arranged at the extending ends of the 2 roller bodies after shafts at the other end of the 2 roller bodies pass through the support II, and the extending ends of the 2 roller bodies after shafts at the other end of the 2 roller bodies pass through the support II are respectively provided with 1 pipe joint; the 2 cooling right-angle transmissions of the cooling adjusting device are respectively arranged on 2 parallel frames of a bottom frame of a cooling frame of the plate cooling device and are positioned at a position, close to the dragon door frame, on one side of the dragon door frame, provided with a slideway, an output hole of the 2 cooling right-angle transmissions is vertical to an I-shaped plane of the bottom frame upwards, an input hole of the 2 cooling right-angle transmissions is simultaneously parallel to the I-shaped plane of the bottom frame and a U-shaped plane of the dragon door frame, and the axes of the input holes are coaxial; the other 2 cooling right-angle transmissions are respectively arranged on the plane of the 2 protruding blocks arranged on the dragon door frame towards the direction of the chassis and are positioned close to the dragon door frame, the output holes of the 2 cooling right-angle transmissions are respectively coaxial with the output holes of the cooling right-angle transmissions which are arranged on the chassis and are positioned at the same side arm of the dragon door frame, and the axes of the input holes of the 2 cooling right-angle transmissions are coaxial and parallel with the input holes of the cooling right-angle transmissions which are arranged on the chassis; the 2 cooling transmission shafts are respectively inserted into the coaxial 2 cooling right-angle transmission input holes of the input holes, the extending ends of one ends of the 2 cooling transmission shafts penetrate through the cooling right-angle transmission and are respectively provided with 1 cooling adjustment drive, the 2 cooling adjustment drives are respectively provided with cooling fine adjustment handles, one ends of the 4 cooling adjustment screws are respectively screwed into the threaded sleeves of the 4 cooling adjustment drive output holes, and the other ends of the 4 cooling adjustment screws are respectively connected with the support II of the cooling roller II of the cooling device close to the cooling device. The heat dissipation frame of the heat dissipation device is in a rectangular plane frame structure, the heat dissipation frame is arranged outside a U-shaped side arm on the side, away from the roller driving side of the cooling roller I, of the cooling roller I of the plate cooling device, of a gantry frame of the cooling frame, a pipeline pump is arranged at a water outlet of the heat dissipation device, 3 heat dissipation devices provided with the pipeline pump are arranged on a frame plane, away from one side of a doorframe, of the heat dissipation frame from top to bottom, the water outlet of the 3 heat dissipation devices provided with the pipeline pump is respectively connected with water inlets of pipe joints arranged on the cooling roller I and the cooling roller II of the plate cooling device through 3 cold water pipes, one ends of the 3 hot water pipes are respectively connected with the water outlets of the pipe joints of the 3 heat dissipation devices, the other ends of the hot water pipes are respectively connected with the water inlets of the cooling roller I and the cooling roller II of the 3 heat dissipation devices, the water supplementing ports of the 3 radiators are connected with a water supplementing tank arranged on a cooling frame of the plate cooling device through the same 1 water supplementing pipe; the longitudinal adjustment drive of the longitudinal adjustment device is arranged on the connecting rail plate which is close to one end of the guide rail and used for reinforcement, and the output shaft faces to the direction of the other 1 connecting rail plate positioned at the end of the guide rail; one end of the longitudinal adjusting screw rod is screwed into a screw hole in the underframe of the cooling frame of the plate cooling device, and the other end of the longitudinal adjusting screw rod is connected with the output shaft of the longitudinal adjusting drive. The drying box of the drying device of the drying shearing device is in a rectangular 6-face box shape, an inlet and an outlet are arranged on 2 box planes parallel to each other, the drying box is arranged on a drying oven support arm through 2 box planes with the largest area, and the box planes provided with the inlet and the outlet are perpendicular to the drying oven support arm. Two ends of one short side of 2 shearing vertical plates of the plate shearing and pushing device are fixedly connected through a 'well' -shaped frame, the 2 shearing vertical plates are parallel and aligned with each other, and the middle parts of the other short sides of the 2 shearing vertical plates are fixedly connected through a shearing platen; the end of the short side of the 2 shearing vertical plates connected through the shearing bedplate extends out of the traction lug towards the direction away from the 'well' -shaped frame, the tail end of the traction lug is provided with an open slot with the length perpendicular to the short side of the shearing vertical plate, and the other end of the short side of the 2 shearing vertical plates connected through the shearing bedplate is provided with a shearing slideway with the length perpendicular to the short side of the shearing vertical plate; the long sides of the 2 shearing vertical plates, which are close to the traction lugs, are close to the shearing bedplate, 1 drying lug is fixed on each of the long sides of the 2 shearing vertical plates, the round hole axes of the 2 supports III arranged in the middle of the 'well' -shaped frame are coaxial and perpendicular to the shearing vertical plates, a pushing driving plate is fixed between the middle parts of the long sides of the 2 shearing vertical plates, which are close to the shearing slide ways, and the plate surfaces of the pushing driving plates are perpendicular to the plate surfaces of the shearing bedplate; the guide groove is formed by bending a flat plate, the cross section perpendicular to the plate surface direction is formed by a J-shaped section and an oblique line section, the tail end of the oblique line section is inclined towards the tail end direction of a hook far away from the J-shaped section, the guide groove is arranged on the plate surface of the push driving plate at the side far away from the drying lug through the straight line section with the cross section of the J-shaped section, and the J-shaped hook faces towards the 'well' -shaped frame direction; the guide plate is arranged in the middle of a long side of the side, far away from the drying lug, between the 2 shearing vertical plates, and the distance between the edge of the side, close to the shearing slide rail, of the plate surface of the guide plate and the edge of the side, fixed with the drying lug, of the shearing vertical plate is smaller than the distance between the edge of the side, far away from the shearing slide rail, of the side, fixed with the drying lug, of the shearing vertical plate, and 1 roller II is respectively arranged at two ends of a short side, fixedly connected with the 'well' -shaped frame, of the 2 shearing vertical plates; the plate shearing frame is arranged on 2 guide rails of a cooling frame of a plate cooling device of the extrusion cooling device through 4 rollers II, one side, provided with drying lugs, of the 2 shearing vertical plates faces the direction of the extrusion cooling device, one end of a 2 oven support arm of the drying device is arranged on the drying lugs arranged on the shearing vertical plates of the plate shearing frame, and the other end of the 2 oven support arm of the drying device is arranged on the drying lugs arranged on the cooling frame of the plate cooling device of the extrusion cooling device and the drying box faces upwards; the shafts at two ends of the pressing plate roller of the traction device are supported in the long grooves of the traction lugs of the plate shearing frames arranged on the 2 shearing vertical plates, the 2 pressing roller cylinders are respectively arranged at the tail ends of the 2 traction lugs, and the tail ends of the telescopic rods of the 2 pressing roller cylinders respectively press the shafts at two ends of the pressing plate roller in the long grooves of the traction lugs; shafts at two ends of the traction roller are respectively supported at positions, close to traction lugs, of the 2 shearing vertical plates, traction drive is arranged at the outer sides of the shearing vertical plates, and an output shaft is connected with an extending end of a shaft at one end of the traction roller, which penetrates through the shearing vertical plates, through chain transmission; the middle part of a shearing shaft of the shearing device is provided with a long rocker arm, two ends of the shearing shaft are respectively provided with 1 short rocker arm, two ends of the shearing shaft are supported at positions, close to shearing slide ways, of 2 shearing vertical plates of the plate shearing frame, the long rocker arm, the 2 short rocker arms and the shearing shaft are positioned in the same plane, and the long rocker arm and the 2 short rocker arms are respectively positioned at two sides of the shearing shaft; two sides of the shearing cylinder are respectively hinged on 2 supports III of the plate shearing frame, which are arranged in the middle of the 'well' -shaped frame, and the tail end of a telescopic rod of the shearing cylinder is hinged at the tail end of a long rocker arm; the shearing blade is formed by cutting the corners of 1 long edge of the shearing tool in a rectangular flat plate shape, the shearing tool is arranged in a shearing slideway of the shearing vertical plate 2 pieces of the shearing vertical plate, the shearing blade faces downwards, one end of the 2 pieces of the connecting tool bars is respectively hinged to two ends of the shearing blade of the shearing tool, and the other end of the connecting tool bars is respectively hinged to the tail ends of the short rocker arms arranged at two ends of the shearing shaft; the turnover plate of the turnover device is in a rectangular flat plate shape, the turnover plate is fixed on a turnover shaft, the long side of the turnover plate is parallel to the turnover shaft, two ends of the turnover shaft are respectively supported at one end, close to the shearing slide way, of the long side, close to the shearing slide way, of the 2 shearing vertical plates of the plate shearing frame, and a turnover rocker arm is arranged at the extending end of one end of the turnover shaft, penetrating through the shearing vertical plates; one end of the 1 piece of overturning cylinder, which is far away from the extending direction of the telescopic rod, is hinged to the outer side of the shearing vertical plate close to one side of the overturning rocker arm, and the tail end of the telescopic rod of the overturning cylinder is hinged to the tail end of the overturning rocker arm; the 2 push cylinders of the push device are arranged on the plate surface of the push driving plate of the plate shearing frame, which faces to one side of the shearing cylinder, and the extending ends of the telescopic rods of the 2 push cylinders, which face to the direction away from the shearing cylinder, are provided with the same 1 push rod, and the push rods are parallel to the traction rolling axis of the traction device. The bending underframe of the bending forming frame of the bending forming device is of a planar rectangular frame structure, one end of a rectangular long frame of the bending underframe is respectively provided with 1 long supporting leg, the other end of the rectangular long frame is respectively provided with 1 short supporting leg, and the extending directions of the 2 long supporting legs and the 2 short supporting legs are the same and are perpendicular to the plane of the rectangular frame of the bending underframe; the other 1 long frame of the 2 bending top frames is respectively towards the long support leg and the short support leg arranged on the other 1 long frame of the bending bottom frame and is connected through a plurality of bending cross beams, and the rectangular frame plane of the 2 bending top frames and the bending cross beams connected with the bending top frames are positioned in the same plane; the 2 bending top frames are positioned on the inner side, one ends of the rectangular long frames connected through the bending cross beams towards the short supporting leg direction are respectively fixed with 1 supporting lug, the other ends are respectively fixed with 1U-shaped lugs, and U-shaped openings of the 2U-shaped lugs face the direction away from the supporting lugs; the plane that many crossbeams of bending kept away from the chassis of bending one side is equipped with 2 caterpillar tracks, the long frame of rectangle that the roof frame was bent to 2 caterpillar tracks's length direction is on a parallel with, and 2 caterpillar tracks are on a parallel with caterpillar track length direction's symmetry plane for the chassis symmetry plane symmetry of the short frame of rectangle of bending, 1 short landing leg outside is fixed with the drive mounting panel near the chassis department of bending, the chassis of bending is kept away from the rectangular frame plane of bending roof frame one side 4 angles respectively are equipped with 1 gyro wheel II, the shaping frame of bending is installed on 2 guide rails through 4 gyro wheels II, and the 2 short landing leg one end of shaping frame of bending is towards stoving shearing mechanism direction. The shaping conveying drive of the shaping conveying device is arranged on a drive mounting plate of the bending forming frame, two ends of a driving shaft provided with 2 chain wheels with the number of teeth Z _c are respectively supported on 2 supporting lugs of the bending forming frame, the 2 chain wheels are respectively aligned with 2 chain rails of the bending forming frame, one end of the driving shaft penetrates through an extending end of the supporting lugs and is connected with an output shaft of the shaping conveying drive, two ends of a driven shaft provided with another 2 chain wheels are respectively supported on 2U-shaped lugs of the bending forming frame, and the 2 chain wheels on the driven shaft are respectively positioned in the same plane with the 2 chain wheels on the driving shaft; cutting a part of the pipe wall of the shaping mould in a circular pipe shape along the axial direction, wherein the central angle corresponding to the pipe wall of the cut part is pi/2+/-pi/30; the plurality of shaping dies are arranged on the outer side of the annular 2 chains, the openings of the shaping dies face outwards, the center distance L _mx of each adjacent shaping die is N _m times of the chain pitch P _l, namely L _mx=N_mP_l, the distance between the 2 chains is equal to the distance between the 2 chain rails on the bending and forming frame, and the symmetrical planes of the 2 chains perpendicular to the axis direction of the shaping dies are symmetrically arranged relative to the cross section of the shaping dies passing through the center in the length direction; the assembly of 2 chains and a plurality of shaping moulds is hung on 4 chain wheels respectively arranged on a driving shaft and a driven shaft through 2 chains, and the upper sections of the 2 chains are respectively supported on 2 chain rails. The shaping frame of the shaping device is in a U-shaped groove shape, 2 shaping cylinders are arranged on the outer plane of the U-shaped groove bottom of the shaping frame, and the telescopic rods of the 2 shaping cylinders are perpendicular to the outer plane of the U-shaped groove bottom of the shaping frame and extend towards the tail ends of the U-shaped side arms of the shaping frame; the extending end of the telescopic rod of the 2 shaping cylinders, which passes through the U-shaped bottom plate of the shaping frame, is provided with the same 1 shaping pressing plate, and the length direction of the shaping pressing plate is parallel to the U-shaped plane of the shaping frame. The automatic punching machine of the cutting forming device is arranged on the ground and is positioned at one end, far away from the shaping conveying drive, of the shaping conveying device of the bending forming device, and a finished product box is arranged on the ground at one side, far away from the punch, of the automatic punching machine. The upper die pad of the upper die frame of the cutting forming die is in a rectangular flat plate shape, the center of one side plate surface of the upper die pad extends out to form a cylindrical die shank which is perpendicular to the upper die pad plate surface, and the 4 corners of the other side plate surface are respectively provided with a support column which is perpendicular to the upper die pad plate surface; the surfaces of the middle die pad, the lower die pad and the retaining pad which are in the shape of rectangular flat plates are respectively provided with a cavity opening in the shape of a hat brim, and the connecting lines among 2 hat brim sharp corners of the cavity opening are respectively perpendicular to the rectangular plate surface side lines of the middle die pad, the lower die pad and the retaining pad; the cavity openings of the middle die cushion and the lower die cushion are aligned and have the same size, the cavity openings of the lower die cushion and the retaining cushion are aligned, and the size of the retaining cushion cavity opening is 5mm plus or minus 0.5mm larger than the single side size of the cavity opening of the lower die cushion; the middle die pad is arranged at one end part of the 4 support posts far away from the upper die pad through one side plate surface, one side plate surface of the lower die pad is arranged at one side plate surface of the middle die pad far away from the upper die pad, one side plate surface of the retaining pad is arranged at one side plate surface of the lower die pad far away from the middle die pad, and the middle die pad, the lower die pad and the cap peak-shaped cavity opening of the retaining pad are aligned; the upper die carrier is arranged on a punch of the automatic punch through a die shank of the upper die cushion and a plate surface on one side provided with the die shank, and a connecting line between 2 'hat brim' sharp corners of a cavity opening of the middle die cushion is parallel to a symmetry surface of the automatic punch in the left-right direction. The cutting knife die is of an annular structure, two end faces of the ring are parallel to each other, and the inner surface and the outer surface of the ring are in the same shape as a hat brim-shaped cavity opening of a middle die pad of the upper die frame; the inner surface of the ring is a straight wall, namely an inner surface element line is perpendicular to two end surfaces of the ring, the shape of the inner surface of the ring is the same as that of the middle die pad, the size of the inner surface of the ring is the same as that of the middle die pad, the outer surface of the ring is an inclined wall, namely an outer surface element line is in an inclined state that one end of the outer surface element line is close to the inner surface element line, and the other end of the outer surface element line is far away from the inner surface element line, the shape of the outer surface of the ring is the same as that of the retaining pad, the size of one end of the outer surface of the ring far away from the inner surface element line is the retaining pad, and a ridge line, intersecting the end surface, of the outer surface of the ring of the cutting die, which is close to the inner surface element line, is cut off to form a cutting edge; the cutting knife die is arranged on the plate surface of one side of the lower die pad far away from the middle die pad through one end of the outer surface of the ring far away from the inner surface plain wire and penetrates through a hat brim-shaped cavity opening of the retaining pad. The U-shaped frame of the backing plate assembly is buckled on a workbench of the automatic punching machine, and a backing plate in a rectangular flat plate shape is arranged above the U-shaped frame; the sections of the inner guide plate and the outer guide plate of the finished product guide assembly are rectangular, the section of the baffle rod is circular, the inner guide plate, the outer guide plate and the baffle rod are in the shape that the middle section is a straight line, the two ends are circular arcs, the circular arc sections at the two ends are positioned in the same plane, the central angle corresponding to the circular arc section at one end is 90 degrees plus or minus 5 degrees, and the central angle corresponding to the circular arc section at the other end is 50 degrees plus or minus 5 degrees; the 90 degrees+/-5 degrees arc sections of the inner guide plate and the outer guide plate are respectively arranged on the plate surface of one side, facing the upper die pad, of the middle die pad of the upper die frame, and the inner guide plate and the outer guide plate are positioned between the upper die pad and the middle die pad; the mounting position of the inner guide plate is positioned at the sharp angle of the upper die frame, which is close to the peak of the hat shaped cavity opening at the rear of the automatic punching machine, the mounting position of the outer guide plate is positioned at the sharp angle of the upper die frame, which is close to the peak of the hat shaped cavity opening at the front of the automatic punching machine, the straight line sections of the inner guide plate and the outer guide plate extend towards the direction of one side of the mounting position of the inner guide plate, which is far away from the mounting position of the outer guide plate, namely, the rear of the automatic punching machine, and the straight line sections of the inner guide plate and the outer guide plate are parallel to the surface of the middle die cushion plate and are perpendicular to the rectangular surface of the middle die cushion, which is close to the edge line of the peak of the hat shaped cavity opening; the 90 degrees+/-5 degrees arc sections of the 2 stop rods are respectively arranged on the plate surface of the middle die pad of the upper die frame, which faces one side of the upper die pad, and the 2 stop rods are positioned between the upper die pad and the middle die pad; the mounting positions of the 2 stop rods are respectively positioned at two sides of the upper die frame, which are close to the middle part of the hat brim-shaped cavity opening, and the straight line sections of the stop rods are parallel to the straight line sections of the inner guide plates and extend towards the same direction. The feeding frame body of the feeding frame of the bending plate feeding device is in a rectangular frame structure, and the 4 corners of the frame plane with the longest long side frame and the shortest short side frame of the feeding frame body are respectively provided with 1 supporting seat and are placed on the ground through the 4 supporting seats; the 2 longest long frames of the upward frame plane extend towards the same direction, the tail ends of the 2 lengthening bars are fixedly provided with connecting plates, a frame body is arranged on the outer surface of a U-shaped side arm of a U-shaped frame of a cushion plate assembly of a cutting forming die through the surface of the connecting plates, and the longest long frames of the frame body are parallel to the U-shaped plane of the U-shaped frame; 3 rail supporting plates are uniformly arranged on the lower plane of the longest long frame of the 2 pieces of upward frame planes along the length direction of the long frame, and are perpendicular to the long frame, and a supply bedplate is arranged on the upward frame plane; the middle part of the supply bedplate is provided with a push plate groove along the length direction of the long frame, and the longitudinal symmetry plane of the push plate groove is symmetrically arranged relative to the symmetry plane which passes through the shortest short frame center of the supply frame body and is perpendicular to the length direction of the short frame; the synchronous belt sliding table of the propelling device is in a strip shape, is arranged on a rail supporting plate of the supply frame, and is parallel to a long frame of the supply frame body in the length direction and symmetrically arranged relative to a longitudinal symmetrical plane of a push plate groove of the supply platen; the driving plate with the plate thickness smaller than the width of the push plate groove is vertically arranged on the upper plane of the pushing slide block, and the plate surface of the driving plate is parallel to the length direction of the push plate groove and is symmetrically arranged relative to the push plate groove; the transmission plate passes through the extending end of the push plate groove upwards and is provided with a pushing plate, the plate surface of the pushing plate is perpendicular to the length direction of the push plate groove, and the upper part and the two sides of the plate surface facing the direction of the connecting plate of the supply frame are provided with material protection plates; one end of the length direction of the support plate surface of the guide-in assembly is provided with a long groove parallel to the length direction of the support plate, one end of the 2 support plates far away from the long groove is arranged at the edge of one side, close to the feeding frame, of the upper plane of the base plate assembly of the cutting forming die, the support plate surface is perpendicular to the shortest frame of the feeding frame, and the symmetrical surfaces of the 2 support plates are symmetrically arranged relative to the push plate groove; the two ends of the core pressing roller are respectively supported in the long grooves of the 2 support plates, the 2 guide plates are arranged on the upper plane of the backing plate assembly, and the symmetrical planes of the 2 guide plates are symmetrically arranged relative to the symmetrical planes of the 2 support plates. The edge of one side of a traction mounting plate of a traction mounting frame of the waste traction device is arranged on the outer surface of a U-shaped side arm of one side of a U-shaped frame of a backing plate assembly of the cutting forming die, which is far away from a bent plate supply device, the other end of the traction mounting plate, which is far away from the U-shaped frame, is supported on one side of a chassis of an automatic punching machine, which is far away from the bent plate supply device, through a traction supporting leg, and the upper plane of the traction mounting plate is parallel to the upper plane of a backing plate of the backing plate assembly; a U-shaped groove is formed in one end of a traction vertical plate of a waste traction frame of the waste traction mechanism, 2 traction vertical plates and 2 traction flat plates are connected end to end in sequence to form a rectangular flat plate frame structure, the U-shaped grooves of the 2 traction vertical plates face the same direction, and a waste driving frame in a U-shaped shape is arranged on the outer surface of one end, far away from the U-shaped groove, of the 1 traction vertical plate through a U-shaped opening; the waste traction frame is arranged on the upper plane of the traction mounting plate of the traction mounting frame through the outer surface of 1 traction flat plate far away from one end of the U-shaped groove of the traction vertical plate, and the surfaces of the traction vertical plate and the traction flat plate are perpendicular to U-shaped side arms of the U-shaped frame of the base plate assembly of the cutting forming die; two ends of a waste driving roller of the waste traction assembly are respectively supported at the ends, far away from the U-shaped grooves, of the 2 traction vertical plates, and a driven gear is arranged at the extending end of one end, towards the waste driving frame, of the waste traction assembly, after penetrating through the traction vertical plates; the waste driving device is arranged on the waste driving frame, a driving gear is arranged at the rear extending end of the waste driving output shaft penetrating through the waste driving frame, and the driving gear is meshed with a driven gear arranged on the waste driving roller; the two ends of a waste compression roller of the waste compression assembly are respectively supported in U-shaped grooves of the 2 traction vertical plates through T-shaped supports, the T-shaped ends of the T-shaped supports extend towards the U-shaped opening direction of the U-shaped grooves, and the two ends of the connecting plate are respectively arranged at the T-shaped ends of the 2T-shaped supports; the waste pressing cylinder is arranged at the center of the plate surface of the waste traction frame, which is positioned at one end of the U-shaped groove of the traction vertical plate and is far away from one side of the other 1 traction plate, and the extension end of the telescopic rod of the waste pressing cylinder, which passes through the traction plate, is arranged at the center of the connecting plate; the 2 guide plates of the waste traction device are arranged on the upper plane of the base plate assembly, the symmetrical planes of the 2 guide plates are symmetrically arranged relative to the vertical symmetrical planes of the 2 traction vertical plates of the waste traction frame of the waste traction mechanism through the center of the traction flat plate, and the guide plates of the guide assembly of the bending plate feeding device on the upper plane of the base plate are arranged relative to the cross-section mirror images which pass through the center of the base plate and are perpendicular to the longest frame of the feeding frame body of the feeding frame of the bending plate feeding device.

The working principle is as follows: the raw materials are filled in a feed hopper of a plate extrusion molding device of the extrusion cooling device; the cooling adjusting screw rod of the cooling adjusting device of the cooling device of the plate cooling device retreats and drives the upper and lower 2 cooling rollers II to leave the cooling roller I.

The telescopic rod of the pressing roller cylinder of the traction device of the shearing pushing device of the drying shearing device is retracted, and the pressing plate is driven to roll away from the traction roller; the telescopic rod of the shearing cylinder of the shearing device is retracted, and the scissors are driven to lift to a shearing waiting state by the long rocker arm, the shearing shaft, the short rocker arm and the connecting cutter bar; the telescopic rod of the turnover cylinder of the turnover device is retracted, and the turnover plate is driven to retract to a horizontal position to wait for turnover state by the turnover rocker arm and the turnover shaft; the telescopic rod of the pushing cylinder of the pushing device is retracted, and the pushing rod is driven to retract to a waiting pushing state in the guide groove.

The telescopic rod of the shaping cylinder of the shaping device of the bending and shaping device is retracted, and the shaping pressing plate is driven to be lifted to a state of waiting for pressing and shaping; the shaping conveying drive of the shaping conveying device of the bending forming device drives the shaping mould to rotate to the position, close to the short supporting leg of the bending forming frame, of the shaping mould to be just aligned with the pushing rod of the pushing device of the shearing pushing device of the drying shearing device, and at the moment, the pi/2+/-pi/30 part of the cut-off pipe wall of the shaping mould just faces the pushing rod of the pushing device, namely, the shaping mould is in a state of waiting to receive the plate.

The pushing device of the bending plate supply device of the cutting forming device is pushed to start, and the driving plate and the pushing plate are driven to retract to the limit position of the backing plate component far away from the cutting forming die to wait for a pushing state through the synchronous belt sliding table and the pushing sliding block; the telescopic rod of the waste compression cylinder of the waste compression assembly of the waste traction mechanism of the waste traction device is retracted, and the waste compression roller is driven to lift up through the connecting plate and the T-shaped support.

Starting preheating of an incubator of a plate extrusion molding device of the extrusion cooling device and a drying box of a drying device of the drying shearing device; after the set temperature is reached, an extrusion motor of the plate extrusion device is started, and the extrusion reduction box and the extrusion cylinder are driven to operate through an extrusion belt transmission. After the sheet material is extruded from the extrusion die outlet, the sheet material is still in a softer state, so that the soft sheet material can be led in from between a cooling roller I of a cooling device of a sheet material cooling device of an extrusion cooling device and a cooling roller II positioned below and led out from one side of the sheet material cooling device far away from the sheet material extrusion device; then, the sheet material is led in from the position between the cooling roller I and the cooling roller II positioned above, and led out from one side of the sheet material cooling device, which is close to the sheet material extrusion molding device; finally, the plate material is fallen from the upper part of the cooling roller II above the cooling roller II; after cooling, the hardness of the plate is improved to a certain extent. The cooling adjusting device of the cooling device of the plate cooling device is started to be positioned at the upper part and the lower part for cooling adjusting driving, and the cooling right-angle driving operation positioned at the upper part and the lower part is respectively driven by the cooling transmission shaft, so that the upper and the lower 2 cooling rollers II are driven by the cooling adjusting screw to be rapidly close to the cooling roller I; when the gap between the cooling roller II and the cooling roller I is close to a set value, the cooling adjustment drive is stopped; and (3) manually rotating the cooling fine adjustment handle, and stopping when the gap between the cooling roller II and the cooling roller I reaches a set value. Thus, the plate meeting the requirements can be continuously extruded.

Introducing the plate material into a drying box of a drying and shearing device from an inlet at one side of the drying box far away from the shearing and pushing device, and obviously improving the hardness after drying and curing; after being led out from the outlet of the drying box, the plate is led into the upper part of the shearing platen of the plate shearing frame between the pressing plate roller and the traction roller of the traction device of the shearing pushing device; the pressing roller cylinder of the traction device is started, the pressing roller cylinder is pushed to be close to the traction roller, and the pressing roller cylinder stops when the gap between the pressing plate roller and the traction roller reaches a set value; the traction drive of the traction device is started, and the traction roller is driven to run through chain transmission, so that the plate material is pulled towards the shearing device direction of the shearing pushing device and passes below the scissors of the shearing device and then moves forward to the position above the turnover plate of the turnover device. When the plate passing over the shears reaches a set value, a shearing cylinder of the shearing device is started, a telescopic rod of the shearing cylinder stretches out, and the shears are driven to fall through a long rocker arm, a shearing shaft, a short rocker arm and a connecting cutter bar, so that the plate is sheared; then, the telescopic rod of the shearing cylinder is quickly retracted and drives the scissors to be quickly lifted, and the shearing cylinder enters a shearing waiting state again. Meanwhile, a turnover cylinder of the turnover device is started, a telescopic rod of the turnover cylinder extends out, and the turnover plate is driven to turn to an inclined state that the side, close to the traction roller, of the plate surface of the turnover plate is low and the side, far away from the traction roller, of the turnover plate is high through a turnover rocker arm and a turnover shaft, so that the sheared plate falls into a J-shaped section hook of the diversion trench from between an inclined line of the diversion trench of the plate shearing frame and the diversion plate; then, the telescopic rod of the overturning cylinder is retracted, and the overturning plate is driven to retract again to a waiting overturning state of the horizontal position. Meanwhile, a pushing cylinder of the pushing device is started, a telescopic rod of the pushing cylinder stretches out, and the pushing rod is driven to push out the sheared plate; then, the telescopic rod of the pushing cylinder is quickly retracted, and the pushing rod is driven to retract again to a waiting pushing state in the diversion trench. So far, the sheet material cut into sheets can be continuously pushed out.

When the number of the plates pushed by the preamble received by the same 1 shaping die in a state of waiting to receive the plates reaches the set number, the shaping conveying drive is started, and the driving shaft drives the chain wheel to rotate N _m times of teeth, namely N _m/Z_c, to stop; at this time, the adjacent shaping mold just aligns the pushing rod of the pushing device of the shearing pushing device of the drying and shearing device again, that is, the adjacent shaping mold is in a state of waiting to receive the plate again. Because the received plates are difficult to be tidy and are all positioned in the shaping mold, after the plates are received and rotated for a plurality of times, when a shaping mold which is used for receiving a set number of plates is rotated to be aligned with a shaping pressing plate of the shaping device, a shaping cylinder is started, a telescopic rod of the shaping cylinder extends out, the shaping pressing plate is driven to press down, and the plates extending out of the shaping mold are pressed into the shaping mold for shaping; then, the telescopic rod of the shaping cylinder is retracted, and the shaping pressing plate is driven to be lifted up again to a state of waiting to press down for shaping. In the process that the plate material slowly rotates from a short supporting leg to a long supporting leg of the bending forming frame along with the chain in the forming die, the plate material is gradually solidified, the performance is gradually stable, and the plate material is completely formed into a 'hat brim' core after bending forming when reaching the long supporting leg. So far, the hat brim core after bending and forming can be continuously conveyed out, and the hat brim core can enter the subsequent process after being taken out.

The folded hat brim cores which are provided with a plurality of pieces and are stacked together are buckled on a supply platen of a supply frame of a bending plate supply device of the cutting and forming device; and lifting the core pressing roller of the leading-in assembly, inserting one end of the hat peak core between the lower part of the core pressing roller and the base plate of the base plate assembly of the feeding platen and the cutting and forming die and between 2 guide plates of the leading-in assembly, then putting down the core pressing roller, and tightly pushing the other end of the hat peak core against the propelling plate surface of the propelling device of the bending plate feeding device, wherein the material protection plates above and at two sides of the propelling plate surface are used for protecting the hat peak core from sliding out of the propelling plate surface. The propulsion device is started to drive, and the driving plate and the propulsion plate are driven by the synchronous belt sliding table and the propulsion sliding block to further push the hat peak core to move towards the cutting and forming die. Starting an automatic punching machine, and driving an upper die frame and a cutting die to execute continuous punching cutting operation on the hat brim core which is bent and formed on the backing plate of the backing plate assembly by a punch. The cut finished product 'hat brim' core upwards passes through the cavity openings of the 'hat brim' shapes of the lower die cushion and the middle die cushion in sequence from the inner surface of the ring of the cutting knife die of the ring-shaped structure, and falls into a finished product box from the rear of the automatic punching machine through the guidance of the inner guide plate, the outer guide plate and the stop lever; because the outer surface of the ring of the cutting knife mold is in an inclined shape with a large upper part and a small lower part, and the retaining function of the retaining pad is added, when the cutting knife mold moves upwards, the cut waste material is retracted from the cutting knife mold and moves forwards along the upper plane of the base plate. When the front end of the waste reaches the upper part of a waste driving roller of a waste traction assembly of a waste traction mechanism of the waste traction device through the guide of a guide plate of the waste traction device, a telescopic rod of a waste compression cylinder of the waste compression assembly stretches out and drives the waste compression roller to press downwards through a connecting plate and a T-shaped support, so that the waste is compressed on the waste driving roller; meanwhile, the waste is driven and started, and the waste driving roller is driven to operate through the driving gear and the driven gear, so that the waste is pulled to continue to operate forwards until the folded and formed hat brim cores are cut. The waste compacting assembly pulls the waste to move forwards, the pushing device of the bent plate feeding device stops pushing when pushing, and the driving plate and the pushing plate are driven to retract to the limit position far away from the cutting forming die through the synchronous belt sliding table and the pushing sliding block and are in a waiting pushing state again; and (3) when the folded and formed hat brim cores stacked at this time are cut, putting the next group of folded and formed hat brim cores into the hat brim cores, and continuing cutting and stamping operation.

Compared with the prior art, the invention has the advantages that the cooling device is arranged because the plate extruded by the plate extrusion molding device of the extrusion cooling device is in a softer state and the subsequent bending and cutting forming operation can not be implemented in a short time, thus greatly shortening the solidification time of the plate; due to the arrangement of the cooling adjusting device, the gap between the cooling roller II and the cooling roller I can be adjusted rapidly, and manual fine adjustment can be implemented, so that the quality of the plate is further improved; due to the arrangement of the drying device, the curing speed and the hardness of the plate are further increased; due to the arrangement of the shearing pushing device, the plate can be pulled to move forward at a constant speed so as to ensure the smooth implementation of subsequent operation; due to the arrangement of the shearing device, the turnover device and the pushing device, the shearing size of the plate can be ensured to be accurate, and the sheared plate can smoothly fall down and the pushing position is accurate; because the bending forming device is arranged, the forming die of the forming conveying device provides a good forming space for the sheet plate which is not formed completely; because the center distance L _mx of the adjacent shaping dies (324) is N _m times of the pitch P _l of the chain (325), namely L _mx=N_mP_l, when the driving chain wheel rotates N _m times of teeth, namely N _m/Z_c, the adjacent shaping dies at the back just aim at the pushing rod of the pushing device of the shearing pushing device of the drying and shearing device again, thereby being convenient for the control and operation of equipment; due to the arrangement of the shaping device, when the shaping die rotates to be aligned with the shaping pressing plate of the shaping device, the plate which does not enter the shaping die can be pressed into the shaping die, so that the plate is ensured to be gradually solidified, and the performance of the plate is further improved; the pushing device and the waste traction device are arranged, so that the cutting and forming operation can be continuously implemented; because the outer surface of the ring of the cutting knife mold is in an inclined shape with a large upper part and a small lower part, and the retaining function of the retaining pad is added, when the cutting knife mold finishes the upward cutting operation, the cut waste can be smoothly retracted from the cutting knife mold; the finished product guide assembly is arranged, so that the cut finished product cap peak core can be upwards from the inner surface of the ring of the cutting knife die with the annular structure, and smoothly falls from the rear of the automatic punching machine after being guided by the finished product guide assembly.

Drawings

FIG. 1 is an isometric view of an embodiment of the invention;

FIG. 2 is an isometric view of the embodiment of the invention shown in FIG. 1 in another orientation;

FIG. 3 is an isometric view of the extrusion cooling apparatus of the embodiment of FIG. 1 of the present invention;

FIG. 4 is an isometric view of the embodiment of the invention shown in FIG. 3 in another orientation of the extrusion cooling apparatus;

FIG. 5 is an isometric view of the sheet extrusion apparatus of the embodiment of FIG. 3 in accordance with the present invention;

FIG. 6 is an isometric view of the sheet cooling apparatus of the embodiment of FIG. 3 in accordance with the present invention;

FIG. 7 is an isometric view of the cooling rack of the embodiment of FIG. 6 according to the present invention;

FIG. 8 is an isometric view of the cooling device of the embodiment of FIG. 6 in accordance with the present invention;

FIG. 9 is an isometric view of the cooling roller I of the embodiment of FIG. 8 in accordance with the present invention;

FIG. 10 is an isometric view of the cooling drum II of the embodiment of FIG. 8 in accordance with the present invention;

FIG. 11 is an isometric view of a cooling adjustment device according to the embodiment of the present invention shown in FIG. 8;

FIG. 12 is an isometric view of the heat sink of the embodiment of FIG. 6 according to the present invention;

FIG. 13 is an isometric view of the longitudinal adjustment device of the embodiment of FIG. 6 in accordance with the present invention;

FIG. 14 is an isometric view of the drying and shearing apparatus of the embodiment of the present invention shown in FIG. 1;

fig. 15 is an isometric view of the drying apparatus of the embodiment of fig. 14 according to the present invention;

FIG. 16 is an isometric view of the shear pushing device of the embodiment of FIG. 14 of the present invention;

FIG. 17 is an isometric view of the embodiment of the sheet metal cutting frame of FIG. 16 in accordance with the present invention;

FIG. 18 is an isometric view of the flow channel of the embodiment of FIG. 17 in accordance with the present invention;

FIG. 19 is an isometric view of the traction device of the embodiment of FIG. 16 according to the present invention;

FIG. 20 is an isometric view of the shearing device of the embodiment of FIG. 16 in accordance with the present invention;

FIG. 21 is an isometric view of the flipping unit of the embodiment of FIG. 16 in accordance with the invention;

FIG. 22 is an isometric view of the pusher of the embodiment of FIG. 16 in accordance with the present invention;

FIG. 23 is an isometric view of the bending apparatus of the embodiment of FIG. 1 in accordance with the present invention;

FIG. 24 is an isometric view of the bend-forming frame of the embodiment of FIG. 23 in accordance with the present invention;

FIG. 25 is an isometric view of the modular conveyor of the embodiment of FIG. 23 according to the present invention;

FIG. 26 is an isometric view of the sizing die of the embodiment of FIG. 25 in accordance with the invention;

FIG. 27 is an isometric view of the shaping device of the embodiment of FIG. 23 according to the present invention;

FIG. 28 is an isometric view of a trim-forming apparatus according to the embodiment of the invention shown in FIG. 1;

FIG. 29 is an isometric view of a trim forming die according to the embodiment of the invention shown in FIG. 28;

FIG. 30 is an isometric view of a scaffold in the embodiment of FIG. 29 of the present invention;

FIG. 31 is an isometric view of a cutting die of the embodiment of the invention shown in FIG. 29;

FIG. 32 is an isometric view of the shim plate assembly of the embodiment of FIG. 29 of the present invention;

FIG. 33 is an isometric view of the finished guide assembly of the embodiment of FIG. 29 in accordance with the present invention;

FIG. 34 is an isometric view of the embodiment of the flexural plate feed device of this invention shown in FIG. 28;

FIG. 35 is an isometric view of the supply rack of the embodiment of FIG. 34 of the present invention;

FIG. 36 is an isometric view of the propulsion device of the embodiment of FIG. 34 of the present invention;

FIG. 37 is an isometric view of the lead-in assembly of the embodiment of FIG. 34 of the present invention;

FIG. 38 is an isometric view of the waste haulage device of the embodiment of FIG. 28 of the present invention;

FIG. 39 is an isometric view of the traction mount of the embodiment of FIG. 38 according to the present invention;

FIG. 40 is an isometric view of the waste pulling mechanism of the embodiment of FIG. 38 of the present invention;

FIG. 41 is an isometric view of the waste tractor of the embodiment of FIG. 40 of the present invention;

FIG. 42 is an isometric view of the waste tractor assembly of the embodiment of FIG. 40 of the present invention;

fig. 43 is an isometric view of the waste compacting assembly of the embodiment of fig. 40 of the invention.

Detailed Description

1. Extrusion cooling device 11, sheet extrusion device 110, extrusion frame 111, extrusion reduction box 112, extrusion motor 113, extrusion belt drive 114, oven 115, extrusion barrel, hopper 117, extrusion die 12, sheet cooling device 120, cooling frame 1200, guide rail 1201, rail plate 1202, undercarriage 1203, roller I1204, gantry 1205, slide 1206, bump 1207, drying lug 121, cooling device 1210, cooling roller I12100, roller body 12101, Support I12102, roller drive 12103, pipe fitting 1211, cooling roller II 12110, support II 1212, cooling adjustment device 12120, cooling right angle drive 12121, cooling drive shaft 12122, cooling adjustment drive 12123, cooling fine adjustment handle 12124, cooling adjustment screw 122, heat sink 1220, heat sink mount 1221, heat sink 1222, pipe pump 1223, cold water pipe 1224, hot water pipe 1225, water make-up pipe 1226, water make-up tank 123, longitudinal adjustment device 1230, cooling adjustment device, Longitudinal adjustment drive 1231, longitudinal adjustment screw 2, drying and shearing device 21, drying device 210, drying box 211, oven arm 22, shearing and pushing device 220, plate shearing rack 2200, shearing vertical plate 2201, "well" rack 2202, shearing platen 2203, traction lugs 2204, shearing slide 2205, support iii 2206, pushing and driving plate 2207, guide groove 2208, guide plate 2209, roller ii 221, traction device 2210, platen roller 2211, platen roller 2212, traction roller 2213, and platen roller, Traction drive 2214, chain drive 222, shearing device 2220, shearing shaft 2221, long rocker arm 2222, short rocker arm 2223, shearing cylinder 2224, scissors 2225, connecting bar 223, reversing device 2230, reversing plate 2231, reversing shaft 2232, reversing rocker arm 2233, reversing cylinder 224, pushing device 2240, pushing cylinder 2241, pushing bar 3, bending forming device 31, bending forming frame 310, bending chassis 311, long leg 312, short leg 313, bending top frame 314, bending cross beam 315, Support lugs 316, U-shaped lugs 317, rails 318, drive mounting plates 32, shaping conveyor 320, shaping conveyor drive 321, sprocket 322, drive shaft 323, driven shaft 324, shaping die 325, chain 33, shaping device 330, shaping frame 331, shaping cylinder 332, shaping platen 4, cutting device 41, automatic punch 42, finishing box 43, cutting die 430, upper die frame 4300, upper die pad 4301, support post 4302, middle die pad 4303, lower die pad 4304, and lower die pad 4304, The stop pad 431, the cutting die 432, the pad assembly 4320, the U-shaped frame 4321, the pad 433, the finished product guide assembly 4330, the inner guide plate 4331, the outer guide plate 4332, the stop lever 44, the bent plate supply device 440, the supply frame 4400, the supply frame body 4401, the support seat 4402, the extension lever 4403, the connection plate 4404, the track supporting plate 4405, the supply platen 44050, the push plate groove 441, the pushing device 4410, the timing belt sliding table 4411, the pushing drive 4412, the pushing slider 4413, Drive plate 4414, pusher plate 4415, guard plate 442, lead-in assembly 4420, support plate 4421, core roll 4422, lead-in guard 45, scrap pulling device 450, pulling mount 4500, pulling mount 4501, pulling leg 451, scrap pulling mechanism 4510, scrap pulling stand 45100, pulling riser 45101, pulling platen 45102, scrap driving stand 4511, scrap pulling assembly 45110, scrap driving drum 45111, driven gear 45112, scrap driving 45113, scrap pulling method, and apparatus for producing a composite sheet, A driving gear 4512, a waste compacting assembly 45120, a waste compacting roller 45121, a T-shaped support 45122, a connecting plate 45123, and a waste compacting cylinder.

In the embodiment shown in fig. 1-43: the extrusion molding frame 110 of the plate extrusion molding device 11 of the extrusion cooling device 1 is in a rectangular frame structure, the extrusion molding frame 110 is arranged on the ground, an extrusion molding reduction box 111 is arranged at one end of the extrusion molding frame 110 in the length direction of the upward frame plane, the input shaft and the output shaft of the extrusion molding reduction box 111 are parallel to the length direction of the extrusion molding frame 110, the input shaft extends in the direction away from the other end of the extrusion molding frame 110 in the length direction, the output shaft extends in the direction towards the other end of the extrusion molding frame 110 in the length direction, an extrusion molding motor 112 is arranged on the ground, and the output shaft of the extrusion molding motor 112 is connected with the input shaft of the extrusion molding reduction box 111 through an extrusion molding belt transmission 113; the two ends of the constant temperature box 114 are supported on the upward frame plane of the extrusion molding frame 110, the length direction of the constant temperature box 114 is parallel to the length direction of the extrusion molding frame 110, a feeding hopper 116 is arranged at the extending end of the extrusion molding barrel 115 penetrating through the constant temperature box 114 towards the extrusion molding reduction box 111, the tail end of the extrusion molding barrel 115 is connected with the output shaft of the extrusion molding reduction box 111, an extrusion molding die 117 is arranged at the extending end of the extrusion molding barrel 115 away from the extrusion molding reduction box 111, and the narrow outlet water surface of the extrusion molding die 117 is arranged. The 2 guide rails 1200 of the cooling rack 120 of the plate cooling device 12 are parallel to each other and aligned on the ground, two ends of the guide rails 1200 are respectively connected together through 2 rail connecting plates 1201, and the end part near one end is reinforced through another 1 rail connecting plate 1201; the combination of the guide rail 1200 and the continuous rail 1201 is positioned at one end of the extrusion frame 110 of the sheet extrusion device 11 near the extrusion die 117, the length direction of the guide rail 1200 is parallel to the length direction of the extrusion barrel 115 of the sheet extrusion device 11, 2 guide rails 1200 are symmetrically arranged relative to the extrusion barrel 115, and one end of the 2 guide rails 1200 which is not reinforced by the continuous rail 1201 is positioned at one end far away from the sheet extrusion device 11; the middle connecting frame of the underframe 1202 in the shape of an I is positioned at the middle offset center of the 2 parallel frames, 1 roller I1203 is respectively arranged at two ends of the same side surface of the 2 parallel frames, the underframe 1202 is arranged at one end of the 2 guide rails 1200 reinforced by the rail connecting plate 1201 through the 4 rollers I1203 and positioned between the reinforced rail connecting plate 1201 and the rail connecting plate 1201 positioned at the end part; the middle connecting frame of the underframe 1202 is perpendicular to the length direction of the guide rail 1200, and is positioned at one side far away from the end part of the guide rail 1200 where the middle connecting frame of the underframe 1202 is positioned relative to the center of the 2 parallel frames of the underframe 1202; the opening ends of the U-shaped gantry 1204 are respectively fixed at the connection parts of the 2 parallel frames of the underframe 1202 and the middle frame, the opening ends of the gantry 1204 are downward, the U-shaped plane of the gantry 1204 is perpendicular to the 2 parallel frames of the underframe 1202, 2U-shaped side arms of the gantry 1204 are respectively provided with 2 sections of slide ways 1205 with T-shaped sections on one side of the reinforcing end of the rail connecting plate 1201 facing the 2 guide rails 1200, and the slide ways 1205 are parallel to the length direction of the U-shaped side arms of the gantry 1204; the connection parts of the U-shaped bottom arms and the 2 side arms of the gantry 1204 extend out of the plane of the 1-piece protruding block 1206,2 protruding blocks 1206 towards the direction of the underframe 1202 towards the direction provided with the slideway 1205 respectively, are positioned in the same plane and are parallel to the I-shaped plane of the underframe 1202, and 1-piece drying lugs 1207 are respectively arranged on the other side of the 2 side arms of the gantry 1204, which extends out of the protruding blocks 1206 and is close to the U-shaped opening. The two ends of a 1-piece roller body 12100 of a cooling roller I1210 of the cooling device 121 are arranged between 2 sections of slide rails 1205 on 2 side arms of a gantry 1204 of the cooling frame 120 through a support I12101, the axis of the roller body 12100 is parallel to the I-shaped plane of a chassis 1202, a 1-piece roller driver 12102 is arranged outside the support I12101 at one end of the roller body 12100, an output hole of the roller driver 12102 is arranged at an extending end of the roller body 12100 after the shaft of the roller body 12100 passes through the support I12101, and a pipe joint 12103 is arranged at the extending end of the shaft at the other end of the roller body 12100 after the shaft of the roller body passes through the support I12101; the mounting surface of a support II 12110 of a cooling roller II 1211 is provided with T-shaped bulges consistent with the T-shaped section sliding grooves of a slide way 1205 of a cooling frame 120, two ends of 2 roller bodies 12100 are respectively arranged in the T-shaped section sliding grooves of 2 sections of the slide ways 1205 on 2 side arms of a gantry 1204 of the cooling frame 120 through the T-shaped bulges of the support II 12110, the axes of the 2 roller bodies 12100 are parallel to the axes of the roller bodies 12100 of the cooling roller I1210, and 2 roller drives 12102 are respectively arranged outside the support II 12110 at one end of the 2 roller bodies 12100, The output holes of the 2 roller drives 12102 are respectively arranged at the extending ends of the 2 roller bodies 12100 after the shaft of the 2 roller bodies 12100 passes through the support II 12110, and the extending ends of the other ends of the 2 roller bodies 12100 after the shaft of the other ends of the 2 roller bodies passes through the support II 12110 are respectively provided with 1 pipe joint 12103; the 2 cooling right-angle drives 12120 of the cooling adjustment device 1212 are respectively arranged on 2 parallel frames of the underframe 1202 of the cooling frame 120 of the plate cooling device 12 and are positioned at the position, close to the gantry 1204, of the side, provided with the slideway 1205, of the gantry 1204, the output holes of the 2 cooling right-angle drives 12120 are vertical to the I-shaped plane of the underframe 1202 and upwards, the input holes of the 2 cooling right-angle drives 12120 are simultaneously parallel to the I-shaped plane of the underframe 1202 and the U-shaped plane of the gantry 1204, and the axes of the input holes are coaxial; the other 2 cooling right-angle transmissions 12120 are respectively arranged on the plane of the 2 protruding blocks 1206 arranged on the gantry frame 1204 towards the direction of the underframe 1202 and positioned close to the gantry frame 1204, the output holes of the 2 cooling right-angle transmissions 12120 are respectively coaxial with the output holes of the cooling right-angle transmissions 12120 arranged on the underframe 1202 and positioned at the same side arm of the gantry frame 1204, and the input hole axes of the 2 cooling right-angle transmissions 12120 are coaxial and parallel with the input holes of the cooling right-angle transmissions 12120 arranged on the underframe 1202; the 2 cooling transmission shafts 12121 are respectively inserted into the input holes of the 2 cooling right-angle transmissions 12120 which are coaxial with the input holes, the extending ends of one ends of the 2 cooling transmission shafts 12121 which pass through the cooling right-angle transmissions 12120 are respectively provided with 1 cooling adjustment drive 12122, one ends of cooling adjustment screws 12124 of which are respectively provided with cooling fine adjustment handles 12123,4 are respectively screwed into screw sleeves of the output holes of the 4 cooling adjustment drives 12122, and the other ends of the cooling adjustment screws 12124 are respectively connected with a support II 12110 of a cooling roller II 1211 of the cooling device 121 which is close to the cooling fine adjustment drive 12122. The heat dissipation frame 1220 of the heat dissipation device 122 is in a rectangular plane frame structure, the heat dissipation frame 1220 is arranged outside a U-shaped side arm on one side of a gantry frame 1204 of the cooling frame 120 of the plate cooling device 12, which is far away from a roller drive 12102 of a cooling roller I1210 of the cooling device 121, a water outlet of the heat dissipation device 1221 provided with a pipeline pump 1222,3 and a pipeline pump 1222 is arranged on a frame plane on one side of the heat dissipation frame 1220, which is far away from the gantry frame 1204, 3 water outlets provided with the pipeline pump 1222 are respectively connected with water inlets of pipe joints 12103 arranged on 1 cooling roller I1210 and 2 cooling rollers II 1211 through 3 cold water pipes 1223, one end of the 3 hot water pipes 1224 is respectively connected with the water outlet of the 3 pipe joints 12103, the other end is respectively connected with the water inlet of the 3 heat dissipation frames 1220, and the water supplementing port of the 3 heat dissipation frames 1221 is connected with the water supplementing tank 1226 arranged on the cooling frame 120 of the plate cooling device 12 through the 1 water supplementing pipe 1225; the longitudinal adjustment drive 1230 of the longitudinal adjustment device 123 is arranged on the rail connecting plate 1201 of the guide rail 1200, which is close to one end for reinforcement, and the output shaft faces the other 1 rail connecting plate 1201 positioned at the end of the guide rail 1200; one end of the vertical adjustment screw 1231 is screwed into a screw hole in the bottom frame 1202 of the cooling rack 120 of the plate cooling device 12, and the other end is connected to the output shaft of the vertical adjustment drive 1230. The drying box 210 of the drying device 21 of the drying and shearing device 2 is in a rectangular 6-face box shape, an inlet and an outlet are arranged on 2 box planes parallel to each other of the drying box 210, the drying box 210 is arranged on the oven support arm 211 through 2 box planes with the largest area, and the box planes provided with the inlet and the outlet are perpendicular to the oven support arm 211. The two ends of one short side of the 2 shearing vertical plates 2200 of the plate shearing frame 220 of the shearing pushing device 22 are fixedly connected through a 'well' -shaped frame 2201, the 2 shearing vertical plates 2200 are parallel and aligned with each other, and the middle parts of the other short sides of the 2 shearing vertical plates 2200 are fixedly connected through a shearing platen 2202; the end of the short sides of the 2 shearing vertical plates 2200 connected through the shearing platen 2202 is provided with traction lugs 2203 which extend towards the direction away from the 'well' -shaped frame 2201, the tail ends of the traction lugs 2203 are provided with open slots with the length perpendicular to the short sides of the shearing vertical plates 2200, and the other ends of the short sides of the 2 shearing vertical plates 2200 connected through the shearing platen 2202 are provided with shearing slide ways 2204 with the length perpendicular to the short sides of the shearing vertical plates 2200; the long edges of the 2 shearing vertical plates 2200, which are close to the traction lugs 2203, are close to the shearing platen 2202, 1 piece of drying lugs 1207 are respectively fixed, the round hole axes of the 2 pieces of supports III 2205 arranged in the middle of the 'well' -shaped bracket 2201 are coaxial, a pushing driving plate 2206 is fixed between the middle parts of the long edges of the shearing vertical plates 2200, which are close to the shearing slide ways 2204, of the shearing vertical plates 2200,2, and the plate surface of the pushing driving plate 2206 is perpendicular to the plate surface of the shearing platen 2202; the diversion trench 2207 is formed by bending a flat plate, the cross section perpendicular to the plate surface direction is formed by a J-shaped section and an oblique line section, the tail end of the oblique line section is inclined towards the tail end direction of a hook far away from the J-shaped section, the diversion trench 2207 is arranged on the plate surface of the push driving plate 2206 at the side far away from the drying lug 1207 through the straight line section with the cross section of the J-shaped section, and the J-shaped hook faces towards the direction of the 'well' -shaped frame 2201; the deflector 2208 is installed in the middle of the long edge of one side, far away from the drying lug 1207, between the 2 shearing vertical plates 2200, and the distance between the edge of the surface of the deflector 2208, close to the shearing slideway 2204, and the edge of one side, where the drying lug 1207 is fixed, of the shearing vertical plates 2200 is smaller than the distance between the edge of one side, far away from the shearing slideway 2204, and the edge of one side, where the drying lug 1207 is fixed, of the shearing vertical plates 2200, and 1 roller II 2209 is installed at each of two ends of the short edge of one side, where the 2 shearing vertical plates 2200 and the' cross frame 2201 are fixedly connected; the plate shearing rack 220 is mounted on the 2 guide rails 1200 of the cooling rack 120 of the plate cooling device 12 of the extrusion cooling device 1 through the 4 pieces of rollers ii 2209, one side of the 2 pieces of shearing risers 2200, on which the drying lugs 1207 are fixed, faces the direction of the extrusion cooling device 1, one end of the 2 pieces of oven arms 211 of the drying device 21 is mounted on the drying lugs 1207 arranged on the shearing risers 2200 of the plate shearing rack 220, the other end is mounted on the drying lugs 1207 arranged on the cooling rack 120 of the plate cooling device 12 of the extrusion cooling device 1, and the drying box 210 faces upwards; the shafts at two ends of the pressing plate roll 2210 of the traction device 221 are supported in the long grooves of the traction lugs 2203 of the plate shearing frames 220 arranged on the 2 shearing vertical plates 2200,2 pressing roll cylinders 2211 are respectively arranged at the tail ends of the 2 traction lugs 2203, and the telescopic rod tail ends of the 2 pressing roll cylinders 2211 respectively press the shafts at two ends of the pressing plate roll 2210 in the long grooves of the traction lugs 2203; the shafts at the two ends of the traction roller 2212 are respectively supported at the positions, close to the traction lugs 2203, of the 2 shearing vertical plates 2200, the traction drive 2213 is arranged at the outer side of the shearing vertical plates 2200, and the output shaft is connected with the extending end of the shaft at one end of the traction roller 2212 after passing through the shearing vertical plates 2200 through the chain transmission 2214; the middle part of a shearing shaft 2220 of the shearing device 222 is provided with a long rocker arm 2221, two ends of the long rocker arm 2221 are respectively provided with 1 piece of short rocker arm 2222, two ends of the shearing shaft 2220 are supported at positions, close to a shearing slideway 2204, of 2 pieces of shearing vertical plates 2200 of the plate shearing frame 220, the long rocker arm 2221, the 2 pieces of short rocker arms 2222 and the shearing shaft 2220 are positioned in the same plane, and the long rocker arm 2221 and the 2 pieces of short rocker arms 2222 are respectively positioned at two sides of the shearing shaft 2220; two sides of the shearing cylinder 2223 are respectively hinged on 2 supports III 2205 of the plate shearing frame 220, which are arranged in the middle of the 'well' -shaped frame 2201, and the tail end of a telescopic rod of the shearing cylinder 2223 is hinged at the tail end of the long rocker arm 2221; the shearing blades are formed by cutting the corners of 1 long side of the scissors 2224 in a rectangular flat plate shape, the scissors 2224 are arranged in the shearing slide ways 2204 of the plate shearing frames 220 arranged on the 2 shearing vertical plates 2200, the shearing blades face downwards, one ends of the 2 cutter connecting rods 2225 are respectively hinged at two ends of the shearing blades of the scissors 2224, and the other ends of the cutter connecting rods 2225 are respectively hinged at the tail ends of the short rocker arms 2222 arranged at two ends of the shearing shafts 2220; the turning plate 2230 of the turning device 223 is in a rectangular flat plate shape, the turning plate 2230 is fixed on a turning shaft 2231, the long side of the turning plate 2230 is parallel to the turning shaft 2231, two ends of the turning shaft 2231 are respectively supported at one end, close to the shearing slide 2204, of the long side, close to the shearing slide 2204, of the 2 shearing risers 2200 of the plate shearing frame 220, and a turning rocker arm 2232 is arranged at the extending end of one end of the turning shaft 2231, penetrating through the shearing riser 2200; one end of the 1 piece of overturning cylinder 2233, which is away from the extending direction of the telescopic rod, is hinged to the outer side of the shearing vertical plate 2200 close to one side of the overturning rocker 2232, and the tail end of the telescopic rod of the overturning cylinder 2233 is hinged to the tail end of the overturning rocker 2232; the 2 pushing cylinders 2240 of the pushing device 224 are mounted on the plate surface of the pushing drive plate 2206 of the plate shearing rack 220 on the side facing the shearing cylinder 2223, and the extension end of the telescopic rod of the 2 pushing cylinders 2240 facing the direction away from the shearing cylinder 2223 is provided with the same 1 pushing rod 2241, and the pushing rod 2241 is parallel to the axis of the traction roller 2212 of the traction device 221. The bending underframe 310 of the bending forming frame 31 of the bending forming device 3 is of a planar rectangular frame structure, one end of a rectangular long frame of the bending underframe 310 is respectively provided with 1 long supporting leg 311, the other end of the rectangular long frame is respectively provided with 1 short supporting leg 312,2 long supporting legs 311 and 2 short supporting legs 312, the extending directions of the two long supporting legs 311 and the 2 short supporting legs 312 are the same, and the two long supporting legs and the two short supporting legs are all perpendicular to the plane of the rectangular frame of the bending underframe 310; the 1 long frames of the 2 bending top frames 313 with the planar rectangular frame structure are respectively arranged on 1 long supporting leg 311 and 1 short supporting leg 312 which are arranged on the same 1 long frame of the bending bottom frame 310, the other 1 long frame of the 2 bending top frames 313 respectively faces the long supporting leg 311 and the short supporting leg 312 which are arranged on the other 1 long frame of the bending bottom frame 310 and are connected through 4 bending cross beams 314, and the rectangular frame plane of the 2 bending top frames 313 and the 4 bending cross beams 314 connected with the bending top frames 313 are positioned in the same plane; the 2 bending top frames 313 are positioned on the inner side, one ends of the rectangular long frames connected through the 4 bending cross beams 314 towards the short supporting legs 312 are respectively fixed with 1 supporting lug 315, the other ends are respectively fixed with 1U-shaped lugs 316, and the U-shaped openings of the 2U-shaped lugs 316 face away from the supporting lugs 315; the plane of the 4 bending beams 314 far away from the side of the bending underframe 310 is provided with 2 chain rails 317,2 rectangular long frames with the length direction parallel to the bending top frame 313, the symmetrical surfaces of the 2 chain rails 317 parallel to the length direction of the chain rails 317 are symmetrically arranged relative to the symmetrical surfaces of the bending underframe 310 perpendicular to the rectangular short frames, the outer sides of the 1 short supporting legs 312 are fixed with driving mounting plates 318 near the bending underframe 310, the 4 corners of the rectangular frame plane of the bending underframe 310 far away from the side of the bending top frame 313 are respectively provided with 1 roller II 2209, the bending forming frame 31 is mounted on the 2 guide rails 1200 through the 4 rollers II 2209, And one end of the 2 short legs 312 of the bending and forming frame 31 faces the drying and shearing device 2. The shaping conveying drive 320 of the shaping conveying device 32 is arranged on the drive mounting plate 318 of the bending forming frame 31, two ends of a driving shaft 322 provided with 2 chain wheels 321 with the number of teeth Z _c are respectively supported on 2 supporting lugs 315 of the bending forming frame 31, the 2 chain wheels 321 are respectively aligned with 2 chain rails 317 of the bending forming frame 31, one end of the driving shaft 322 passes through an extending end of the supporting lugs 315 and is connected with an output shaft of the shaping conveying drive 320, and two ends of a driven shaft 323 provided with other 2 chain wheels 321 are respectively supported on 2U-shaped lugs 316 of the bending forming frame 31, And 2 chain wheels 321 on the driven shaft 323 are respectively positioned in the same plane with 2 chain wheels 321 on the driving shaft 322; the pipe wall of the shaping mold 324 in the shape of a circular pipe is cut off a part along the axial direction, and the central angle corresponding to the pipe wall of the cut-off part is pi/2+/-pi/30; the plurality of shaping dies 324 are arranged on the outer side of the annular 2 chains 325, the openings of the shaping dies 324 face outwards, the center distance L _mx of adjacent shaping dies 324 is N _m times of the pitch P _l of the chains 325, namely L _mx=N_mP_l, the distance between the 2 chains 325 is equal to the distance between the 2 chain rails 317 on the bending and shaping frame 31, and the symmetrical planes of the 2 chains 325 perpendicular to the axial direction of the shaping dies 324 are symmetrically arranged relative to the cross section of the shaping dies 324 passing through the center of the length direction; the combination of the 2-piece chain 325 and the plurality of shaping molds 324 is hung on 4-piece chain wheels 321 respectively arranged on a driving shaft 322 and a driven shaft 323 through the 2-piece chain 325, and the upper sections of the 2-piece chain 325 are respectively supported on the 2-piece chain rails 317. The shaping frame 330 of the shaping device 33 is in a U-shaped groove shape, 2 shaping cylinders 331 are arranged on the outer plane of the U-shaped groove bottom of the shaping frame 330, and telescopic rods of the 2 shaping cylinders 331 are perpendicular to the outer plane of the U-shaped groove bottom of the shaping frame 330 and extend towards the tail ends of U-shaped side arms of the shaping frame 330; the extending end of the telescopic rod of the 2 shaping cylinders 331 passing through the U-shaped bottom plate of the shaping frame 330 is provided with the same 1 shaping pressing plate 332, and the length direction of the shaping pressing plate 332 is parallel to the U-shaped plane of the shaping frame 330. The automatic punching machine 41 of the cutting and forming device 4 is arranged on the ground and is positioned at one end of the shaping conveying device 32 of the bending and forming device 3, which is far away from the shaping conveying drive 320, and a finished product box 42 is arranged on the ground on one side of the automatic punching machine 41, which is far away from the punching head. The upper die pad 4300 of the upper die frame 430 of the cutting forming die 43 is in a rectangular flat plate shape, a cylindrical die shank which is perpendicular to the surface of the upper die pad 4300 extends out of the center of one side surface of the upper die pad 4300, and the 4 corners of the other side surface are respectively provided with a support post 4301 which is perpendicular to the surface of the upper die pad 4300; the surfaces of the middle die pad 4302, the lower die pad 4303 and the stop pad 4304 which are in the shape of rectangular flat plates are respectively provided with a cavity opening in the shape of a hat brim, and the connecting lines among 2 hat brim sharp corners of the cavity opening are respectively perpendicular to the rectangular surface side lines of the middle die pad 4302, the lower die pad 4303 and the stop pad 4304; the cavity openings of the middle die cushion 4302 and the lower die cushion 4303 are aligned and have the same size, the cavity openings of the lower die cushion 4303 and the stop cushion 4304 are aligned, and the size of the cavity opening of the stop cushion 4304 is 5mm plus or minus 0.5mm larger than the single side size of the cavity opening of the lower die cushion 4303; the middle die cushion 4302 is installed at one end part of the 4 support posts 4301 far away from the upper die cushion 4300 through one side plate surface, one side plate surface of the lower die cushion 4303 is installed at one side plate surface of the middle die cushion 4302 far away from the upper die cushion 4300, one side plate surface of the stop cushion 4304 is installed at one side plate surface of the lower die cushion 4303 far away from the middle die cushion 4302, and the cap peak-shaped cavity openings of the middle die cushion 4302, the lower die cushion 4303 and the stop cushion 4304 are aligned; the upper die carrier 430 is mounted on the punch of the automatic punch 41 through the die shank of the upper die pad 4300 and the plate surface on the side where the die shank is provided, and the connecting line between the 2 "cap peak" sharp corners of the cavity opening of the middle die pad 4302 is parallel to the symmetry plane of the automatic punch 41 in the left-right direction. The cutting knife mold 431 is in a ring-shaped structure, two end surfaces of the ring are parallel to each other, and the inner surface and the outer surface of the ring are in the same shape as the opening of the hat brim-shaped cavity of the middle die pad 4302 of the upper die frame 430; the inner surface of the ring is a straight wall, that is, the inner surface element line is perpendicular to the two end surfaces of the ring, the shape of the inner surface of the ring is the same as that of the middle die pad 4302, the size of the inner surface of the ring is equal to that of the middle die pad 4302, the outer surface of the ring is an inclined wall, that is, the outer surface element line is in an inclined state that one end is close to the inner surface element line and the other end is far away from the inner surface element line, the shape of the outer surface of the ring is the same as that of the retaining pad 4304, the size of one end far from the inner surface element line is equal to that of the retaining pad 4304, and the edge line, intersecting the end surface, of the outer surface of the ring of the cutting die 431, which is close to the inner surface element line, is cut off to form a cutting edge; the cutting die 431 is mounted to the plate surface of the lower die plate 4303 on the side thereof remote from the center die plate 4302 by passing through the "bill" shaped orifice of the stop plate 4304 at the end of the outer surface of the ring remote from the inner surface plain. The U-shaped frame 4320 of the pad component 432 is buckled on a workbench of the automatic punching machine 41, and a pad 4321 in a rectangular flat plate shape is arranged above the U-shaped frame; the sections of the inner guide plate 4330 and the outer guide plate 4331 of the finished product guide assembly 433 are rectangular, the section of the stop lever 4332 is circular, the inner guide plate 4330, the outer guide plate 4331 and the stop lever 4332 are in the shape that the middle section is a straight line, the two ends are circular arcs, the circular arc sections at the two ends are positioned in the same plane, the central angle corresponding to the circular arc section at one end is 90 degrees plus or minus 5 degrees, and the central angle corresponding to the circular arc section at the other end is 50 degrees plus or minus 5 degrees; the 90 degree+ -5 degree circular arc sections of the inner guide plate 4330 and the outer guide plate 4331 are respectively installed on the plate surface of the middle die pad 4302 of the upper die frame 430 facing the side of the upper die pad 4300, and the inner guide plate 4330 and the outer guide plate 4331 are positioned between the upper die pad 4300 and the middle die pad 4302; the installation position of the inner guide plate 4330 is positioned at the sharp angle of the upper die frame 430, which is close to the opening of the 'hat brim' shaped cavity at the rear of the automatic punch 41, the installation position of the outer guide plate 4331 is positioned at the sharp angle of the upper die frame 430, which is close to the opening of the 'hat brim' shaped cavity at the front of the automatic punch 41, and the straight line sections of the inner guide plate 4330 and the outer guide plate 4331 extend towards the installation position direction of the inner guide plate 4330, which is far away from the installation position of the outer guide plate 4331, namely, the rear of the automatic punch 41, and the straight line sections of the inner guide plate 4330 and the outer guide plate 4331 are parallel to the surface of the middle die pad 4302 and are perpendicular to the rectangular surface of the middle die pad 4302, which is close to the edge line of the sharp angle of the 'hat brim' shaped cavity; the 90 degree plus or minus 5 degree arc sections of the 2 stop rods 4332 are respectively arranged on the surface of the middle die cushion 4302 of the upper die frame 430 facing the side of the upper die cushion 4300, and the 2 stop rods 4332 are positioned between the upper die cushion 4300 and the middle die cushion 4302; the mounting positions of the 2 stop bars 4332 are respectively positioned at two sides of the upper die frame 430, which are close to the middle part of the hat brim-shaped cavity opening, and the straight line sections of the stop bars 4332 are parallel to the straight line sections of the inner guide plates 4330 and extend towards the same direction. The supply frame body 4400 of the supply frame 440 of the bending plate supply device 44 has a rectangular frame structure, and the 4 corners of a frame plane with the longest long side frame and the shortest short side frame of the supply frame body 4400 are respectively provided with 1 supporting seat 4401 and are placed on the ground through 4 supporting seats 4401; the 2 longest long frames of the upward frame plane extend out towards the same direction, the tail end of the extension rod 4402,2 extension rods 4402 is fixed with a connecting plate 4403, the support body 4400 is mounted on the outer surface of the U-shaped side arm of the U-shaped frame 4320 of the backing plate component 432 of the cutting forming die 43 through the surface of the connecting plate 4403, and the longest long frames of the support body 4400 are parallel to the U-shaped plane of the U-shaped frame 4320; 3 rail supporting plates 4404 are uniformly arranged on the lower plane of the longest long frame of the 2 pieces of upward frame plane along the length direction of the long frame, the 3 rail supporting plates 4404 are perpendicular to the long frame, and a supply bedplate 4405 is arranged on the upward frame plane; the middle part of the supply platen 4405 is provided with a push plate groove 44050 along the length direction of the long frame, and the longitudinal symmetry plane of the push plate groove 44050 passes through the center of the shortest short frame relative to the supply frame body 4400 and is symmetrically arranged perpendicular to the symmetry plane of the length direction of the short frame; the synchronous belt sliding table 4410 of the pushing device 441 is in a long strip shape, the synchronous belt sliding table 4410 is arranged on the rail supporting plate 4404 of the supply frame 440, and the length direction of the synchronous belt sliding table 4410 is parallel to the long frame of the supply frame body 4400 and is symmetrically arranged relative to the longitudinal symmetry plane of the push plate groove 44050 of the supply platen 4405; one end of the synchronous belt sliding table 4410, which is far away from the connecting plate 4403 of the supply frame 440, is provided with a pushing drive 4411, the upper plane of the synchronous belt sliding table 4410 is provided with a pushing slide 4412, a transmission plate 4413 with the plate thickness smaller than the width of the push plate groove 44050 is vertically arranged on the upper plane of the pushing slide 4412, and the plate surface of the transmission plate 4413 is parallel to the length direction of the push plate groove 44050 and symmetrically arranged relative to the push plate groove 44050; the extending end of the transmission plate 4413, which passes through the push plate groove 44050 upwards, is provided with a push plate 4414, the plate surface of the push plate 4414 is perpendicular to the length direction of the push plate groove 44050, and the upper part and the two sides of the plate surface facing the connecting plate 4403 direction of the supply frame 440 are provided with material protection plates 4415; one end of the support plate 4420 of the lead-in assembly 442 in the length direction of the plate surface is provided with a long groove parallel to the length direction of the support plate 4420, one end of the 2 support plates 4420 far away from the long groove is arranged at one side edge of the upper plane of the base plate 4321 of the base plate assembly 432 of the cutting forming die 43, which is close to the supply frame 440, the plate surface of the support plate 4420 is vertical to the shortest frame of the supply frame 440, and the symmetrical surfaces of the 2 support plates 4420 are symmetrically arranged relative to the push plate groove 44050; the two ends of the core pressing roller 4421 are respectively supported in the long grooves of the 2 support plates 4420, the 2 material guide plates 4422 are arranged on the upper plane of the base plate 4321 of the base plate assembly 432, and the symmetrical planes of the 2 material guide plates 4422 are symmetrically arranged relative to the symmetrical planes of the 2 support plates 4420. The edge of one side of a traction mounting plate 4500 of a traction mounting frame 450 of the waste traction device 45 is mounted on the outer surface of a U-shaped side arm of a U-shaped frame 4320 of a base plate assembly 432 of the cutting and forming die 43, which is far away from a bent plate supply device 44, the other end of the traction mounting plate 4500, which is far away from the U-shaped frame 4320, is supported on the side of a chassis of the automatic punching machine 41, which is far away from the bent plate supply device 44, through a traction supporting leg 4501, and the upper plane of the traction mounting plate 4500 is parallel to the upper plane of a base plate 4321 of the base plate assembly 432; one end of a traction vertical plate 45100 of a waste traction frame 4510 of the waste traction mechanism 451 is provided with a U-shaped groove, 2 traction vertical plates 45100 and 2 traction flat plates 45101 are connected end to end in sequence to form a rectangular flat plate frame structure, the U-shaped grooves of the 2 traction vertical plates 45100 face the same direction, and a waste driving frame 45102 in a U-shaped shape is arranged on the outer surface of one end, far away from the U-shaped groove, of the 1 traction vertical plate 45100 through a U-shaped opening; the waste drawing frame 4510 is arranged on the upper plane of the drawing mounting plate 4500 of the drawing mounting frame 450 through the outer surface of 1 drawing flat plate 45101 far away from one end of the U-shaped groove of the drawing vertical plate 45100, and the surfaces of the drawing vertical plate 45100 and the drawing flat plate 45101 are perpendicular to the U-shaped side arms of the U-shaped frame 4320 of the backing plate assembly 432 of the cutting forming die 43; the two ends of the waste driving roller 45110 of the waste traction assembly 4511 are respectively supported at the ends of the 2 traction vertical plates 45100 far away from the U-shaped groove, and a driven gear 45111 is arranged at the extending end of one end of the waste driving frame 45102, which passes through the traction vertical plates 45100; the scrap driver 45112 is mounted to the scrap driver frame 45102, the output shaft of the scrap driver 45112 is provided with a drive gear 45113 through the rear extension end of the scrap driver frame 45102, and the drive gear 45113 is meshed with a driven gear 45111 mounted to the scrap driver drum 45110; the two ends of the waste compressing roller 45120 of the waste compressing assembly 4512 are respectively supported in the U-shaped groove of the 2 traction vertical plates 45100 through the T-shaped supports 45121, the T-shaped tail ends of the T-shaped supports 45121 extend towards the U-shaped opening direction of the U-shaped groove, and the two ends of the connecting plate 45122 are respectively arranged at the T-shaped tail ends of the 2T-shaped supports 45121; the waste pressing cylinder 45123 is arranged at the center of the plate surface of the waste traction frame 4510, which is positioned at one end of the U-shaped groove of the traction vertical plate 45100, and is far away from one side of the other 1 traction plate 45101, and the extension end of the telescopic rod of the waste pressing cylinder 45123, which passes through the traction plate 45101, is arranged at the center of the connecting plate 45122; the 2 guide plates 4422 of the scrap pulling apparatus 45 are mounted on the upper plane of the backing plate 4321 of the backing plate assembly 432, the symmetry plane of the 2 guide plates 4422 is symmetrically disposed with respect to the vertical symmetry plane of the center of the 2 pulling risers 45100 of the scrap pulling rack 4510 of the scrap pulling mechanism 451 through the pulling flat plate 45101, and the guide plates 4422 of the lead-in assembly 442 of the curved plate feeding apparatus 44 in the upper plane of the backing plate 4321 are mirror images of each other with respect to the cross section through the center of the backing plate 4321 and perpendicular to the longest side frame of the feeding frame 4400 of the feeding frame 440 of the curved plate feeding apparatus 44.

Claims (1)

1. The hat brim core forming and cutting production line comprises an extrusion cooling device (1), a drying and shearing device (2), a bending and forming device (3) and a cutting and forming device (4), wherein the extrusion cooling device (1) comprises a plate extrusion molding device (11) and a plate cooling device (12), the plate extrusion molding device (11) comprises an extrusion molding frame (110), an extrusion molding reduction gearbox (111), an extrusion molding motor (112), an extrusion molding belt transmission (113), an incubator (114), an extrusion molding barrel (115), a feeding hopper (116) and an extrusion molding die (117), the extrusion molding frame (110) with a rectangular frame structure is arranged on the ground, an extrusion reduction gearbox (111) is arranged at one end of the extrusion molding frame (110) in the length direction of the upward frame plane, an input shaft and an output shaft of the extrusion reduction gearbox (111) are parallel to the length direction of the extrusion molding frame (110), the input shaft extends out in the direction away from the other end of the extrusion molding frame (110) in the length direction, the output shaft extends out in the direction of the other end of the extrusion molding frame (110), an extrusion molding motor (112) is arranged on the ground, the output shaft of the extrusion molding motor (112) is connected with the input shaft of the extrusion reduction gearbox (111) through an extrusion molding belt transmission (113), and two ends of an incubator (114) are supported on the upward frame plane of the extrusion molding frame (110), The length direction of the constant temperature box (114) is parallel to the length direction of the extrusion molding frame (110), a feeding hopper (116) is arranged at the extending end of an extrusion molding barrel (115) penetrating through the constant temperature box (114) towards the extrusion molding reduction box (111), the tail end of the extrusion molding barrel (115) is connected with the output shaft of the extrusion molding reduction box (111), an extrusion molding die (117) is arranged at the extending end of the extrusion molding barrel (115) away from the extrusion molding reduction box (111), and the narrow outlet water surface of the extrusion molding die (117) is arranged; the method is characterized in that: the plate cooling device (12) comprises a cooling frame (120), a cooling device (121), a heat dissipating device (122) and a longitudinal adjusting device (123), wherein the cooling frame (120) comprises a guide rail (1200), a rail connecting plate (1201), a chassis (1202), a roller I (1203), a gantry frame (1204), a slideway (1205), a lug (1206) and a drying lug (1207), 2 guide rails (1200) are mutually parallel and aligned to be placed on the ground, two ends of the guide rail (1200) are respectively connected together through the 2 rail connecting plates (1201), the position close to one end is reinforced through the other 1 rail connecting plate (1201), the combination of the guide rail (1200) and the continuous rail plate (1201) is positioned at one end of the extrusion molding frame (110) of the sheet extrusion molding device (11) close to the extrusion molding mold (117), the length direction of the guide rail (1200) is parallel to the length direction of the extrusion molding barrel (115) of the sheet extrusion molding device (11), 2 guide rails (1200) are symmetrically arranged relative to the extrusion molding barrel (115), one end of the 2 guide rails (1200) which is not reinforced by the continuous rail plate (1201) is positioned at one end far away from the sheet extrusion molding device (11), the middle connecting frame of the bottom frame (1202) in an I shape is positioned at the middle part of the 2 parallel frames, two ends of the same side of the 2 parallel frames are respectively provided with 1 roller I (1203), the underframe (1202) is arranged at one end of the 2 guide rails (1200) which is reinforced by the rail connecting plate (1201) through the 4 rollers I (1203) and is positioned between the reinforced rail connecting plate (1201) and the rail connecting plate (1201) positioned at the end part, the middle connecting frame of the underframe (1202) is perpendicular to the length direction of the guide rails (1200), and relative to the center of the 2 parallel frames of the underframe (1202) and the middle connecting frame of the underframe (1202), the opening end of the U-shaped gantry frame (1204) is downwards fixed at the joint of the 2 parallel frames of the underframe (1202) and the middle frame respectively, the U-shaped plane of the gantry frame (1204) is perpendicular to 2 parallel frames of the underframe (1202), 2U-shaped side arms of the gantry frame (1204) face to 2 guide rails (1200), one side of the reinforcing end of the connecting rail plate (1201) is respectively provided with 2 sections of slide ways (1205) with T-shaped sections, the slide ways (1205) are parallel to the length direction of the U-shaped side arms of the gantry frame (1204), the joint of the U-shaped bottom arms of the gantry frame (1204) and the 2 side arms respectively extend out of 1 lug (1206) towards the direction provided with the slide ways (1205), the planes of the 2 lugs (1206) towards the underframe (1202) are positioned in the same plane, And parallel to the I-shaped plane of the underframe (1202), the other side of the 2 side arms of the gantry frame (1204) extending with the convex blocks (1206) is provided with 1 drying lug (1207) near the U-shaped opening; the cooling device (121) comprises a cooling roller I (1210), a cooling roller II (1211) and a cooling adjusting device (1212), the cooling roller I (1210) comprises a roller body (12100), a support I (12101), a roller drive (12102) and a pipe joint (12103), two ends of the 1 roller body (12100) are arranged between 2 sections of slide ways (1205) on 2 side arms of a gantry frame (1204) of the cooling frame (120) through the support I (12101), and the axis of the roller body (12100) is parallel to the I-shaped plane of the underframe (1202), the 1-piece roller drive (12102) is arranged outside a support I (12101) at one end of the roller body (12100), an output hole of the roller drive (12102) is arranged at the extending end of a shaft of the roller body (12100) after passing through the support I (12101), a pipe joint (12103) is arranged at the extending end of a shaft at the other end of the roller body (12100) after passing through the support I (12101), the cooling roller II (1211) comprises the roller body (12100), a support II (12110), the roller drive (12102) and the pipe joint (12103), a T-shaped bulge which is consistent with a T-shaped section chute of a slideway (1205) of the cooling rack (120) is arranged on the mounting surface of the support II (12110), two ends of the 2 roller bodies (12100) are respectively arranged in T-shaped section sliding grooves of 2 sections of sliding ways (1205) on 2 side arms of a gantry frame (1204) of a cooling frame (120) through T-shaped bulges of a support II (12110), the axes of the 2 roller bodies (12100) are parallel to the axes of the roller bodies (12100) of the cooling roller I (1210), 2 roller drives (12102) are respectively arranged outside the support II (12110) at one end of the 2 roller bodies (12100), output holes of the 2 roller drives (12102) are respectively arranged at the extending ends of the shafts of the 2 roller bodies (12100) after penetrating through the support II (12110), the extending ends of the shafts at the other ends of the 2 roller bodies (12100) penetrating through the support II (12110) are respectively provided with 1 pipe joint (12103), the cooling adjustment device (1212) comprises a cooling right-angle transmission (12120), a cooling transmission shaft (12121), a cooling adjustment drive (12122), a cooling fine adjustment handle (12123) and a cooling adjustment screw (12124), the 2 cooling right-angle transmission (12120) is respectively arranged on 2 parallel frames of the underframe (1202) of the cooling frame (120) of the plate cooling device (12) and is positioned at the position, close to the dragon door frame (1204), of one side of the dragon door frame (1204) provided with the slideway (1205), the output hole of the 2 cooling right-angle transmission (12120) is vertical to the I-shaped plane of the underframe (1202) and upwards, the input hole of the 2 cooling right-angle transmission (12120) is simultaneously parallel to the I-shaped plane of the underframe (1202) and the U-shaped plane of the gantry frame (1204) and the axes of the input holes are coaxial, the other 2 cooling right-angle transmission (12120) is respectively arranged on the plane of the 2 projections (1206) arranged on the gantry frame (1204) towards the underframe (1202) and is positioned near the gantry frame (1204), and the output hole of the 2 cooling right-angle transmission (12120) is respectively connected with the U-shaped plane of the underframe (1202), And the output holes of the cooling right-angle transmission (12120) positioned at the same side arm of the dragon door frame (1204) are coaxial, the input hole axes of the 2 cooling right-angle transmission (12120) are coaxial and parallel to the input holes of the cooling right-angle transmission (12120) arranged on the underframe (1202), the 2 cooling transmission shafts (12121) are respectively inserted into the input holes of the 2 cooling right-angle transmission (12120) coaxial with the input holes, the extending ends of one ends passing through the cooling right-angle transmission (12120) are respectively provided with 1 cooling adjustment drive (12122), and the 2 cooling adjustment drives (12122) are respectively provided with a cooling fine adjustment handle (12123), one end of each 4 cooling adjusting screw rods (12124) is screwed into a screw sleeve of an output hole of each 4 cooling adjusting driving devices (12122), and the other end of each 4 cooling adjusting screw rods is connected with a support II (12110) of a cooling roller II (1211) of the adjacent cooling device (121); the heat dissipation device (122) comprises a heat dissipation frame (1220), a heat radiator (1221), a pipeline pump (1222), a cold water pipe (1223), a hot water pipe (1224), a water supplementing pipe (1225) and a water supplementing tank (1226), wherein the heat dissipation frame (1220) with a rectangular plane frame structure is arranged outside a U-shaped side arm at one side of a roller driving (12102) of a cooling roller I (1210) of a cooling device (121) far away from the gantry frame (1204) of a cooling frame (120) of a plate cooling device (12), a pipeline pump (1222) is arranged at a water outlet of the heat radiator (1221), 3 radiators (1221) provided with pipeline pumps (1222) are arranged on a frame plane of a radiating frame (1220) far away from one side of a dragon door frame (1204) from top to bottom, water outlets of the 3 radiators provided with the pipeline pumps (1222) are respectively connected with water inlets of pipe joints (12103) arranged on a cooling roller I (1210) and a cooling roller II (1211) of 1 radiator through 3 cold water pipes (1223), one ends of the 3 hot water pipes (1224) are respectively connected with water outlets of the pipe joints (12103) of 3 radiator, the other ends of the 3 hot water pipes are respectively connected with water inlets of the 3 radiator (1220), water supplementing ports of the 3 radiator (1221) are connected with a water supplementing tank (1226) arranged on a cooling frame (120) of a plate cooling device (12) through the same 1 water supplementing pipe (1225), the longitudinal adjustment device (123) comprises a longitudinal adjustment drive (1230) and a longitudinal adjustment screw rod (1231), the longitudinal adjustment drive (1230) is arranged on a connecting rail plate (1201) of the guide rail (1200) near one end for reinforcement, the output shaft faces to the direction of the other 1 connecting rail plate (1201) positioned at the end of the guide rail (1200), one end of the longitudinal adjustment screw rod (1231) is screwed into a screw hole positioned in a bottom frame (1202) of a cooling frame (120) of the plate cooling device (12), and the other end of the longitudinal adjustment screw rod is connected with the output shaft of the longitudinal adjustment drive (1230); the drying and shearing device (2) comprises a drying device (21) and a shearing and pushing device (22), wherein the drying device (21) comprises a drying box (210) and a drying oven support arm (211), inlets and outlets are formed in 2 box planes parallel to each other of the drying box (210) in the shape of a rectangular 6-face box, the drying box (210) is arranged on the drying oven support arm (211) through 2 box planes with the largest area, and the box planes provided with the inlets and the outlets are perpendicular to the drying oven support arm (211); the shearing pushing device (22) comprises a plate shearing frame (220), a traction device (221), a shearing device (222), a turning device (223) and a pushing device (224), wherein the plate shearing frame (220) comprises a shearing vertical plate (2200), a 'well' type frame (2201), a shearing platen (2202), a traction lug (2203), a shearing slideway (2204), a drying lug (1207), a support III (2205), a pushing driving plate (2206), a diversion trench (2207), a diversion plate (2208) and a roller II (2209), two ends of one short side of the 2 shearing vertical plates (2200) are fixedly connected through the 'well' type frame (2201), the two shearing vertical plates (2200) are parallel and aligned with each other, the middle parts of the short sides of the other sides of the two shearing vertical plates (2200) are fixedly connected through the shearing platen (2202), one ends of the short sides of the 2 shearing vertical plates (2200) which are connected through the shearing platen (2202) are provided with traction lugs (2203) which extend towards the direction far away from the 'well' -shaped frame (2201), the tail ends of the traction lugs (2203) are provided with open slots with the length perpendicular to the short sides of the shearing vertical plates (2200), the other ends of the short sides of the 2 shearing vertical plates (2200) which are connected through the shearing platen (2202) are provided with shearing slide ways (2204) with the length perpendicular to the short sides of the shearing vertical plates (2200), the long edge of one side of the 2 shearing vertical plates (2200) close to the traction lug (2203) is close to the shearing platen (2202), 1 drying lug (1207) is fixed on each part, the round hole axis of the 2 supports III (2205) arranged in the middle of the 'well' -shaped bracket (2201) is coaxial and perpendicular to the shearing vertical plates (2200), a pushing driving plate (2206) is fixed between the middle parts of the long edges of one side of the 2 shearing vertical plates (2200) close to the shearing slide way (2204), the plate surface of the pushing driving plate (2206) is perpendicular to the shearing platen (2202), the guide groove (2207) is formed by bending a flat plate, the cross section perpendicular to the plate surface direction comprises a J-shaped section and an oblique line section, the tail end of the oblique line section is inclined towards the tail end direction of a hook far away from the J-shaped section, a diversion trench (2207) is arranged on the plate surface of a side of a pushing driving plate (2206) far away from a drying lug (1207) through the plate surface of a straight line section with the cross section of the J-shaped section, the hook far away from the tail end of the J-shaped section, the J-shaped hook faces a 'well' -shaped bracket (2201), a diversion plate (2208) is arranged in the middle of a long edge of a side of 2 shearing vertical plates (2200) far away from the drying lug (1207), the distance from the edge of the plate surface of the diversion plate (2208) near a shearing slide (2204) to the edge of the shearing vertical plates (2200) where the drying lug (1207) is fixed is smaller than the distance from the edge of the side far away from the shearing slide (2204) to the side edge of the shearing vertical plates (2200) where the drying lug (1207) is fixed, the two ends of the short side of one side of the 2 shearing vertical plates (2200) fixedly connected with the 'well' -shaped frame (2201) are respectively provided with 1 roller II (2209), the plate shearing frame (220) is arranged on the 2 guide rails (1200) of the cooling frame (120) of the plate cooling device (12) of the extrusion cooling device (1) through the 4 rollers II (2209), one side of the 2 shearing vertical plates (2200) fixed with the drying lug (1207) faces the direction of the extrusion cooling device (1), one end of the 2 oven supporting arms (211) of the drying device (21) is arranged on the drying lug (1207) arranged on the shearing vertical plates (2200) of the plate shearing frame (220), the other end is arranged on a drying lug (1207) arranged on a cooling frame (120) of a plate cooling device (12) of the extrusion cooling device (1), and a drying box (210) faces upwards; the traction device (221) comprises a pressing plate roller (2210), a pressing roller cylinder (2211), a traction roller (2212), a traction drive (2213) and a chain transmission (2214), wherein shafts at two ends of the pressing plate roller (2210) are supported in long grooves of traction lugs (2203) arranged on 2 shearing vertical plates (2200) by plate shearing frames (220), the 2 pressing roller cylinders (2211) are respectively arranged at the tail ends of the 2 traction lugs (2203), the tail ends of telescopic rods of the 2 pressing roller cylinders (2211) respectively press shafts at two ends of the pressing plate roller (2210) in the long grooves of the traction lugs (2203), the shafts at two ends of the traction roller (2212) are respectively supported at positions, close to traction lugs (2203), of the 2 shearing vertical plates (2200), the traction drive (2213) is arranged at the outer side of the shearing vertical plates (2200), an output shaft is connected with the extending end of the shaft at one end of the traction roller (2212) after passing through the shearing vertical plates (2200) through chain transmission (2214), the shearing device (222) comprises a shearing shaft (2220), a long rocker arm (2221), a short rocker arm (2222), a shearing cylinder (2223), scissors (2224) and a connecting cutter bar (2225), and the long rocker arm (2221) is arranged in the middle, Two ends of a shearing shaft (2220) with 1 short rocker arm (2222) at two ends are supported at positions, close to a shearing slideway (2204), of a 2 shearing vertical plate (2200) of a plate shearing frame (220), the long rocker arm (2221), the 2 short rocker arms (2222) and the shearing shaft (2220) are positioned in the same plane, the long rocker arm (2221) and the 2 short rocker arms (2222) are respectively positioned at two sides of the shearing shaft (2220), two sides of a shearing cylinder (2223) are respectively hinged on a 2 support III (2205) of the plate shearing frame (220) which is arranged in the middle of the 'well' -shaped frame (2201), The tail end of a telescopic rod of a shearing cylinder (2223) is hinged at the tail end of a long rocker arm (2221), a shearing blade is formed after the angle of 1 long edge of a rectangular flat plate-shaped scissors (2224) is cut, the scissors (2224) are arranged in a shearing slideway (2204) of a plate shearing frame (220) arranged on 2 shearing vertical plates (2200), the shearing blade faces downwards, one end of a 2 cutter connecting rod (2225) is respectively hinged at two ends of the shearing blade of the scissors (2224), the other end of the 2 cutter connecting rod is respectively hinged at the tail end of a short rocker arm (2222) arranged at two ends of a shearing shaft (2220), and a turnover device (223) comprises a turnover plate (2230), The turnover shaft (2231), the turnover rocker arm (2232) and the turnover cylinder (2233), the turnover plate (2230) with a rectangular flat plate shape is fixed on the turnover shaft (2231), the long side of the turnover plate (2230) is parallel to the turnover shaft (2231), two ends of the turnover shaft (2231) are respectively supported at one end, close to the shearing slide rail (2204), of the long side of the 2 shearing vertical plates (2200) of the plate shearing frame (220), the turnover rocker arm (2232) is arranged at the extending end of one end of the turnover shaft (2231) after penetrating through the shearing vertical plates (2200), one end, deviating from the extending direction of the telescopic rod, of the 1 piece turnover cylinder (2233) is hinged at the outer side of the shearing vertical plates (2200) close to one side of the turnover rocker arm (2232), the tail end of a telescopic rod of the turnover cylinder (2233) is hinged at the tail end of a turnover rocker arm (2232), the pushing device (224) comprises a pushing cylinder (2240) and a pushing rod (2241), 2 pushing cylinders (2240) are arranged on the plate surface of a pushing driving plate (2206) of the plate shearing frame (220) on one side of the pushing driving plate facing the shearing cylinder (2223), the extending end of the telescopic rod of the 2 pushing cylinders (2240) towards the direction deviating from the shearing cylinder (2223) is provided with the pushing rod (2241) with 1 pushing rod, and the pushing rod (2241) is parallel to the axis of a traction roller (2212) of the traction device (221); the bending forming device (3) comprises a bending forming frame (31), a shaping conveying device (32) and a shaping device (33), wherein the bending forming frame (31) comprises a bending underframe (310), long support legs (311), short support legs (312), a bending top frame (313), a bending cross beam (314), supporting lugs (315), U-shaped lugs (316), chain rails (317), driving mounting plates (318) and rollers II (2209), one end of a rectangular long frame of the bending underframe (310) which is in a planar rectangular frame structure is respectively provided with 1 long support leg (311), the other end of the rectangular long frame of the bending underframe is respectively provided with 1 short support leg (312), the extending directions of the 2 long supporting legs (311) and the 2 short supporting legs (312) are the same and are perpendicular to the rectangular frame plane of the bending underframe (310), 1 long frame of the 2 bending top frames (313) with a plane rectangular frame structure is respectively arranged on 1 long supporting leg (311) and 1 short supporting leg (312) which are arranged on the same 1 rectangular long frame of the bending underframe (310), the other 1 long frame of the 2 bending top frames (313) faces the long supporting leg (311) and the short supporting leg (312) which are arranged on the other 1 rectangular long frame of the bending underframe (310) respectively and are connected through a plurality of bending cross beams (314), the rectangular frame plane of the 2 bending top frames (313) and the multiple bending cross beams (314) are positioned in the same plane, the 2 bending top frames (313) are positioned at the inner side, one ends of the rectangular long frames connected by the multiple bending cross beams (314) towards the short supporting legs (312) are respectively fixed with 1 supporting lug (315), the other ends are respectively fixed with 1U-shaped lug (316), the U-shaped openings of the 2U-shaped lugs (316) are towards the direction away from the supporting lugs (315), the plane of the multiple bending cross beams (314) at the side away from the bending bottom frames (310) is provided with 2 chain rails (317), and the length direction of the 2 chain rails (317) is parallel to the rectangular long frames of the bending top frames (313), The symmetrical surfaces of the 2 chain rails (317) in parallel with the length direction of the chain rails (317) are symmetrically arranged relative to the symmetrical surfaces of the bending underframe (310) perpendicular to the rectangular short frames, a driving mounting plate (318) is fixed at the position, close to the bending underframe (310), of the outer side of the 1 short supporting leg (312), 1 roller II (2209) is respectively arranged at 4 corners of the rectangular frame plane, far away from one side of the bending top frame (313), of the bending underframe (310), the bending forming frame (31) is arranged on the 2 guide rails (1200) through the 4 rollers II (2209), and one end of the 2 short supporting legs (312) of the bending forming frame (31) faces the direction of the drying and shearing device (2); the shaping conveying device (32) comprises a shaping conveying drive (320), a chain wheel (321), a driving shaft (322), a driven shaft (323), a shaping mould (324) and a chain (325), wherein the shaping conveying drive (320) is arranged on a drive mounting plate (318) of the bending forming frame (31), two ends of the driving shaft (322) provided with 2 chain wheels (321) with the number of teeth of Z _c are respectively supported on 2 supporting lugs (315) of the bending forming frame (31), the 2 chain wheels (321) are respectively aligned with 2 chain rails (317) of the bending forming frame (31), one end of the driving shaft (322) passes through the extending end of the supporting lug (315) and is connected with the output shaft of the shaping conveying drive (320), two ends of the driven shaft (323) provided with the other 2 chain wheels (321) are respectively supported on the 2U-shaped lugs (316) of the bending forming frame (31), the 2 chain wheels (321) on the driven shaft (323) are respectively positioned in the same plane with the 2 chain wheels (321) on the driving shaft (322), a part of the pipe wall of the shaping mould (324) in a circular pipe shape is cut off along the axial direction, the central angle corresponding to the pipe wall of the cut-off part is pi/2+/-pi/30, the plurality of shaping dies (324) are arranged outside the annular 2 chains (325), the openings of the shaping dies (324) face outwards, the center distance L _mx of the adjacent shaping dies (324) is N _m times of the pitch P _l of the chains (325), namely L _mx=N_mP_l, the distance between the 2 chains (325) is equal to the distance between the 2 chain rails (317) on the bending forming frame (31), the symmetrical plane of the 2 chains (325) perpendicular to the axial direction of the shaping dies (324) is symmetrically arranged relative to the cross section of the shaping dies (324) passing through the center in the length direction, the combination of the 2 chains (325) and the plurality of shaping dies (324) is hung on 4 chain wheels (321) respectively arranged on a driving shaft (322) and a driven shaft (323), and the upper sections of the 2 chains (325) are respectively supported on 2 chain rails (317); the shaping device (33) comprises a shaping frame (330), shaping cylinders (331) and shaping pressing plates (332), the shaping frame (330) is in a U-shaped groove shape, 2 shaping cylinders (331) are arranged on the outer plane of the U-shaped groove bottom of the shaping frame (330), telescopic rods of the 2 shaping cylinders (331) are perpendicular to the outer plane of the U-shaped groove bottom of the shaping frame (330) and extend towards the tail end direction of the U-shaped side arm of the shaping frame (330), and the extending ends of the telescopic rods of the 2 shaping cylinders (331) penetrating through the U-shaped bottom plate of the shaping frame (330) are provided with the same 1 shaping pressing plates (332), and the length direction of the shaping pressing plates (332) is parallel to the U-shaped plane of the shaping frame (330); the cutting and forming device (4) comprises an automatic punching machine (41), a finished product box (42), a cutting and forming die (43), a bent plate supply device (44) and a waste traction device (45), wherein the automatic punching machine (41) is arranged on the ground and is positioned at one end, far away from a shaping conveying drive (320), of a shaping conveying device (32) of the bending and forming device (3), and the finished product box (42) is arranged on the ground, far away from the punch, of the automatic punching machine (41); the cutting and forming die (43) comprises an upper die frame (430), a cutting knife die (431), a base plate component (432) and a finished product guiding component (433), wherein the upper die frame (430) comprises an upper die pad (4300), a support post (4301), a middle die pad (4302), a lower die pad (4303) and a stop pad (4304), a cylindrical die shank perpendicular to the upper die pad (4300) is extended from the center of one side plate surface of the upper die pad (4300) in a rectangular flat plate shape, the support posts (4301) perpendicular to the upper die pad (4300) are respectively arranged at 4 corners of the other side plate surface, the middle die pad (4302) in a rectangular flat plate shape is formed by, The surfaces of the lower die pad (4303) and the retaining pad (4304) are respectively provided with a cavity opening in a hat brim shape, the connecting lines among the 2 hat brim sharp angles of the cavity opening are respectively perpendicular to the rectangular surface side lines of the middle die pad (4302), the lower die pad (4303) and the retaining pad (4304), the cavity openings of the middle die pad (4302) and the lower die pad (4303) are aligned and have the same size, the cavity openings of the lower die pad (4303) and the retaining pad (4304) are aligned, the cavity opening of the retaining pad (4304) is 5mm plus or minus 0.5mm larger than the single-side size of the cavity opening of the lower die pad (4303), the middle die pad (4302) is arranged at the end part of the 4 support posts (4301) far away from the upper die pad (4300) through one side surface, one side surface of the lower die pad (4303) is arranged on one side surface of the middle die pad (4302) far away from the upper die pad (4300), one side surface of the retaining pad (4304) is arranged on one side surface of the lower die pad (4303) far away from the middle die pad (4302), the cap peak-shaped cavity openings of the middle die pad (4302), the lower die pad (4303) and the retaining pad (4304) are aligned, the upper die carrier (430) is arranged on a punch of the automatic punch (41) through a die shank of the upper die pad (4300) and a plate surface provided with one side of the die shank, and a connecting line between 2 'cap peak' sharp corners of the cavity opening of the middle die pad (4302) is parallel to a symmetrical surface in the left-right direction of the automatic punch (41), the cutting knife mold (431) is in a ring structure, two end surfaces of the ring are parallel to each other, the inner surface and the outer surface of the ring are in the same shape as a middle mold pad (4302) hat brim-shaped cavity opening of the upper mold frame (430), the inner surface of the ring is a straight wall, namely an inner surface element line is perpendicular to the two end surfaces of the ring, the inner surface of the ring is the same shape as the middle mold pad (4302), the size is equal to the middle mold pad (4302), the outer surface of the ring is an inclined wall, namely an outer surface element line is in an inclined state that one end is close to the inner surface element line and the other end is far away from the inner surface element line, the outer surface of the ring is the same shape as a stop pad (4304), the size of one end which is far from the inner surface element line is equal to the stop pad (4304), the edge line of the end surface intersecting with the edge line is cut off at the end, which is close to the inner surface element line, of the outer surface of the ring of the cutting knife mold (431), so that a cutting edge is formed, and the cutting knife mold (431) is installed on the plate surface, which is far away from the middle die pad (4302), of the lower die pad (4303) through a hat brim-shaped cavity opening of the retaining pad (4304) at the end, which is far away from the inner surface element line, of the outer surface of the ring; the cushion plate component (432) comprises a U-shaped frame (4320) and a cushion plate (4321), the U-shaped frame (4320) is buckled on a workbench of an automatic punching machine (41), the cushion plate (4321) in a rectangular flat plate shape is arranged above the U-shaped frame, the finished product guide component (433) comprises an inner guide plate (4330), an outer guide plate (4331) and a stop lever (4332), the inner guide plate (4330) and the outer guide plate (4331) in a rectangular section and the stop lever (4332) in a circular section are in a shape that the middle section is a straight line, the two ends are in circular arcs, the circular arc sections at the two ends are positioned in the same plane, the central angle corresponding to the circular arc section at one end is 90+/-5 degrees, the central angle corresponding to the arc section at the other end is 50 degrees+/-5 degrees, the 90 degrees+/-5 degrees arc sections of the inner guide plate (4330) and the outer guide plate (4331) are respectively arranged on the plate surface of the middle die pad (4302) of the upper die frame (430) towards one side of the upper die pad (4300), the inner guide plate (4330) and the outer guide plate (4331) are positioned between the upper die pad (4300) and the middle die pad (4302), the installation position of the inner guide plate (4330) is positioned at the sharp angle of the upper die frame (430) close to the opening of the hat peak at the rear of the automatic punch (41), the installation position of the outer guide plate (4331) is positioned at the sharp angle of the upper die frame (430) close to the opening of the hat peak at the front of the automatic punch (41), the straight line sections of the inner guide plate (4330) and the outer guide plate (4331) extend towards the installation position direction of the inner guide plate (4330) far away from the installation position of the outer guide plate (4331), namely, the rear of the automatic punching machine (41), the straight line sections of the inner guide plate (4330) and the outer guide plate (4331) are parallel to the surface of the middle die pad (4302) and perpendicular to the edge line of the rectangular surface of the middle die pad (4302) close to the sharp angle of the opening of the hat brim-shaped cavity, the 90 DEG +/-5 DEG arc sections of the 2 stop rods (4332) are respectively arranged on the surface of the middle die pad (4302) of the upper die frame (430) towards the upper die pad (4300), The 2 stop rods (4332) are positioned between the upper die pad (4300) and the middle die pad (4302), the mounting positions of the 2 stop rods (4332) are respectively positioned on two sides of the upper die frame (430) close to the middle part of the hat brim-shaped cavity opening, and the straight line sections of the stop rods (4332) are parallel to the straight line sections of the inner guide plate (4330) and extend towards the same direction; the bending plate feeding device (44) comprises a feeding frame (440), a pushing device (441) and a leading-in assembly (442), wherein the feeding frame (440) comprises a feeding frame body (4400), a supporting seat (4401), an extension rod (4402), a connecting plate (4403), a rail supporting plate (4404) and a feeding platen (4405), 1 supporting seat (4401) is respectively arranged at 4 corners of a frame plane with the longest long side frame and the shortest short side frame of the feeding frame body (4400) in a rectangular frame structure, the 2 longest long side frames of the upward frame plane are arranged on the ground through the 4 supporting seats (4401), the extension rod (4402) extends towards the same direction, the tail end of the 2 lengthening rods (4402) is fixedly provided with a connecting plate (4403), a support body (4400) is installed on the outer surface of a U-shaped side arm of a U-shaped frame (4320) of a base plate component (432) of a cutting forming die (43) through the surface of the connecting plate (4403), the longest frame of the support body (4400) is parallel to the U-shaped plane of the U-shaped frame (4320), 3 support rail plates (4404) are uniformly arranged on the lower plane of the 2 longest frames of the upward frame plane along the length direction of the long frames, the 3 support rail plates (4404) are perpendicular to the long frames, a supply bedplate (4405) is arranged on the upward frame plane, the middle part of the feeding platen (4405) is provided with a push plate groove (44050) along the length direction of the long frame, the longitudinal symmetry plane of the push plate groove (44050) is symmetrically arranged relative to the symmetry plane of the feeding frame body (4400) passing through the center of the shortest short frame and being perpendicular to the length direction of the short frame, the pushing device (441) comprises a synchronous belt sliding table (4410), a pushing drive (4411), a pushing sliding block (4412), a transmission plate (4413), a pushing plate (4414) and a material protection plate (4415), the synchronous belt sliding table (4410) in a strip shape is arranged on a rail supporting plate (4404) of the feeding frame (440), the length direction of the synchronous belt sliding table (4410) is parallel to the long frame of the feed frame body (4400) and is symmetrically arranged relative to the longitudinal symmetrical plane of the push plate groove (44050) of the feed platen (4405), one end of the synchronous belt sliding table (4410) away from the connecting plate (4403) of the feed frame (440) is provided with a pushing drive (4411), the upper plane of the synchronous belt sliding table (4410) is provided with a pushing slide block (4412), a transmission plate (4413) with the plate thickness smaller than the width of the push plate groove (44050) is vertically arranged on the upper plane of the pushing slide block (4412), the plate surface of the transmission plate (4413) is parallel to the length direction of the push plate groove (44050), And is symmetrically arranged relative to the push plate groove (44050), a pushing plate (4414) is arranged at the extending end of the transmission plate (4413) which upwards passes through the push plate groove (44050), the plate surface of the pushing plate (4414) is perpendicular to the length direction of the push plate groove (44050), a material protection plate (4415) is arranged above and at both sides of the plate surface of the connection plate (4403) of the feeding frame (440), the guide assembly (442) comprises a support plate (4420), a core pressing roller (4421) and a material guide plate (4422), one end of the plate surface of the support plate (4420) is provided with a long groove parallel to the length direction of the support plate (4420), one end of each 2 support plates (4420) far away from the long groove is arranged at the edge of one side, close to the supply frame (440), of the upper plane of a base plate (4321) of a base plate assembly (432) of the cutting forming die (43), the plate surface of each support plate (4420) is perpendicular to the shortest frame of the supply frame (440), the symmetrical surfaces of the 2 support plates (4420) are symmetrically arranged relative to the push plate groove (44050), two ends of each core pressing roller (4421) are respectively supported in the long groove of each 2 support plates (4420), each 2 material guide plate (4422) is arranged on the upper plane of the base plate (4321) of the base plate assembly (432), and the symmetrical surfaces of the 2 material guide plates (4422) are symmetrically arranged relative to the symmetrical surfaces of the 2 support plates (4420); the waste material traction device (45) comprises a traction installation frame (450), a waste material traction mechanism (451) and a material guide plate (4422), wherein the traction installation frame (450) comprises a traction installation plate (4500) and traction supporting legs (4501), one side edge of the traction installation plate (4500) is installed on the outer surface of a U-shaped side arm of a U-shaped frame (4320) of a base plate assembly (432) of a cutting forming die (43), the outer surface of the U-shaped side arm is far away from the side of a bending plate supply device (44), the other end of the traction installation plate (4500), far away from the U-shaped frame (4320), is supported on the chassis of an automatic punching machine (41), far away from the side of the bending plate supply device (44) through the traction supporting legs (4501), And the upper plane of the traction mounting plate (4500) is parallel to the upper plane of the backing plate (4321) of the backing plate assembly (432), the waste traction mechanism (451) comprises a waste traction frame (4510), a waste traction assembly (4511) and a waste compacting assembly (4512), wherein the waste traction frame (4510) comprises a traction vertical plate (45100), a traction flat plate (45101) and a waste driving frame (45102), the traction vertical plate (45100) with a U-shaped groove at one end and the traction flat plate (45101) with 2 pieces are alternately connected end to form a rectangular flat plate frame structure, the U-shaped grooves of the traction vertical plate (45100) face the same direction, the waste material driving frame (45102) in a U-shaped shape is arranged on the outer surface of one end, far away from the U-shaped groove, of the 1 piece of traction vertical plate (45100) through a U-shaped opening, the waste material traction frame (4510) is arranged on the upper plane of the traction mounting plate (4500) of the traction mounting frame (450) through the outer surface of the 1 piece of traction flat plate (45101) far away from one end of the U-shaped groove of the traction vertical plate (45100), the surfaces of the traction vertical plate (45100) and the traction flat plate (45101) are perpendicular to the U-shaped side arm of the U-shaped frame (4320) of the backing plate component (432) of the cutting forming die (43), and the waste material traction component (4511) comprises a waste material driving roller (45110), The waste material driving device comprises a driven gear (45111), a waste material driving device (45112) and a driving gear (45113), wherein two ends of a waste material driving roller (45110) are respectively supported at the U-shaped groove ends far away from the 2 traction vertical plates (45100), a driven gear (45111) is arranged at the extending end of one end, which faces the waste material driving frame (45102), of the waste material driving device, which penetrates through the traction vertical plates (45100), the waste material driving device (45112) is arranged on the waste material driving frame (45102), a driving gear (45113) is arranged at the extending end of the output shaft of the waste material driving device (45112), which penetrates through the waste material driving frame (45102), And the driving gear (45113) is meshed with the driven gear (45111) arranged on the waste driving roller (45110), the waste compacting component (4512) comprises a waste compacting roller (45120), a T-shaped support (45121), a connecting plate (45122) and a waste compacting cylinder (45123), two ends of the waste compacting roller (45120) are respectively supported in the U-shaped grooves of the 2 traction risers (45100) through the T-shaped supports (45121), the T-shaped tail ends of the T-shaped supports (45121) extend towards the U-shaped opening direction of the U-shaped grooves, two ends of the connecting plate (45122) are respectively arranged at the T-shaped tail ends of the 2T-shaped supports (45121), the waste pressing cylinder (45123) is arranged at the center of the plate surface of the waste traction frame (4510) at one end of the U-shaped groove of the traction vertical plate (45100), the traction flat plate (45101) at one end of the traction vertical plate (45100) is far away from one side of the other 1 traction flat plate (45101), the extension end of the telescopic rod of the waste pressing cylinder (45123) which passes through the traction flat plate (45101) is arranged at the center of the connecting plate (45122), the 2 guide plates (4422) of the waste traction device (45) are arranged on the upper plane of the base plate (4321) of the base plate assembly (432), the symmetrical plane of the 2 guide plates (4422) is symmetrically arranged relative to the vertical symmetrical plane of the center of the traction flat plate (45101) of the 2 traction vertical plates (45100) of the waste traction frame (4510) of the waste traction mechanism (451), And is arranged in mirror image with respect to a cross section passing through the center of the pad plate (4321) and perpendicular to the longest side frame of a supply frame body (4400) of a supply frame (440) of the pad plate supply device (44) with respect to a guide plate (4422) of an introduction assembly (442) of the planar pad plate supply device (44) on the pad plate (4321).