CN114714210A

CN114714210A - Pressure-sensitive adhesive tape production line

Info

Publication number: CN114714210A
Application number: CN202210476989.8A
Authority: CN
Inventors: 王琨
Original assignee: Qingdao Ruipeng Mechanical And Electrical Equipment Co ltd
Current assignee: Qingdao Ruipeng Mechanical And Electrical Equipment Co ltd
Priority date: 2022-05-03
Filing date: 2022-05-03
Publication date: 2022-07-08
Anticipated expiration: 2042-05-03
Also published as: CN114714210B

Abstract

The invention provides a pressure-sensitive adhesive tape production line, which is characterized in that: the protective strip box of the feeding frame of the automatic feeding device is arranged on the ground, the traction detection device of the torsion detection feeding device is arranged on the support frame, the torsion frame of the reverse torsion device is arranged on the ground, and the swinging driving mechanism of the swinging blanking mechanism is arranged on the support frame; a polishing and cleaning frame of the polishing and cleaning device is arranged on the ground, a polishing traction device is arranged at one end of the polishing and cleaning frame, and the polishing device comprising a polishing mechanism, a polishing head and a polishing mould assembly is clamped on a polishing beam of the polishing and cleaning frame; the pressure-sensitive workbench of the pressure-sensitive pasting device is arranged on the ground, the pressure-sensitive table plate is fixed on the pressure-sensitive 6-side box, the gluing guide device, the drying device, the pressing device and the traction cutting device are arranged on the pressure-sensitive table plate of the pressure-sensitive 6-side box of the pressure-sensitive workbench, and the upper plane of the glue dripping plate is provided with the glue dripping pump and the glue dripping barrel. The automatic feeding device has the advantages of smooth feeding, high polishing and cleaning efficiency, high pressing and pasting efficiency, wide application range and less occupied labor force.

Description

Pressure-sensitive adhesive tape production line

Technical Field

The invention provides a pressure-sensitive adhesive tape production line, belongs to the field of automatic production equipment, and is mainly used for automatic feeding, polishing and pressing of automobile sealing strips and adhesive tapes.

Background

At present, the process for sticking the automobile sealing strip and the adhesive tape adopts a manual operation mode, and the whole process is finished manually from feeding, polishing and cleaning before sticking to subsequent gluing, drying, pressing, sticking, cutting and the like, so that the labor intensity is high, the occupied labor is large, and the environment is seriously polluted by abrasive dust generated in the polishing process, smell generated by gluing and the like.

By taking full account of the current situation of the sealing strip feeding, polishing and pasting industry, a pressure sensitive adhesive tape production line which has smooth feeding, high polishing and pasting efficiency, no pollution, wide application range and less occupied labor force is urgently needed.

Disclosure of Invention

The invention aims to provide a pressure-sensitive adhesive tape production line which can overcome the problems in the existing sealing strip loading, polishing and pasting industries, has smooth loading, high polishing and pressing efficiency, no pollution and wide application range, and can reduce the labor intensity of workers.

The technical scheme is as follows: the automatic feeding device comprises a feeding frame, a torsion detection feeding device and a swinging blanking mechanism, wherein the feeding frame comprises a strip protection box, a connecting frame and a supporting frame, 2 faces with the smallest dimension of the minor edges of the strip protection box in a rectangular 6-face box structure are not sealed, the total number of the 2 faces with the smallest dimension is 1 minor edge with the smallest dimension, and the strip protection box is arranged on the ground through the other 1 faces with the smallest dimension of the minor edges; the support frame is characterized in that 1 piece of supporting leg is fixed at 4 corners of the same side plane of a connecting frame in a rectangular plane frame structure and is installed on an unsealed surface on one side of a bead box through the tail ends of the 4 pieces of supporting legs, the tail ends of 1 piece of Z-shaped side arm of the support frame in a Z shape are installed in the middle of the long edge of the upward unsealed surface of the bead box, the other 1 piece of Z-shaped side arm extends upwards, the middle of the Z-shaped middle arm of the support frame is supported on the long edge of the upward unsealed surface of the bead box through a supporting rod and is far away from the end part of one end of the connecting frame, and the Z-shaped plane of the support frame is vertical to the upward unsealed surface of the bead box and is positioned in the same plane with the same 1 long edge of the upward unsealed surface; the torsion detection feeding device comprises a traction detection device and a reverse torsion device, wherein the traction detection device comprises a feeding traction device and a detection guide device, the feeding traction device comprises a feeding mounting plate, a feeding traction drive, a feeding wheel, a feeding rocker arm, a layering wheel and a feeding tension spring, the feeding traction drive is arranged on the surface of one side of the feeding mounting plate, the feeding wheel is arranged at the extending end of an output shaft of the feeding traction drive after penetrating through the feeding mounting plate, one end of the feeding rocker arm is hinged to the feeding mounting plate, the feeding rocker arm and the feeding wheel are positioned on the same side of the feeding mounting plate, the layering wheel is arranged at the end of the feeding rocker arm far away from the hinged point, the axis of the layering wheel is parallel to the axis of the feeding wheel, one end of the feeding tension spring is hung at the end of the layering wheel arranged on the feeding rocker arm, the other end of the feeding tension spring is hung on the feeding mounting plate, and the detection guide device comprises a detection mounting plate, a guide seat and a mold guide device, The detection guide device is arranged at the edge of one side of the feeding mounting plate provided with a feeding wheel through the edge of one side of the detection mounting plate, the surface of the detection mounting plate is vertical to the surface of the feeding mounting plate, the detection mounting plate is positioned at one side of a feeding rocker arm far away from the feeding traction device, the surface of one side of the detection mounting plate provided with the torsion sensor faces the direction of the feeding wheel of the detection guide device, and the surface of 1 pair of the torsion sensors vertical to the surface of the detection mounting plate is parallel to the surface of the feeding mounting plate, the traction detection device is arranged on one side, away from the connecting frame, of 1Z-shaped side arm extending upwards from a support frame of the feeding frame through a feeding mounting plate of the feeding traction device, the feeding mounting plate of the feeding traction device is parallel to a Z-shaped plane of the support frame, a feeding wheel of the feeding traction device faces the upward unsealed surface of the protective strip box and is not provided with the other 1 long side direction of the support frame, the detection mounting plate of the detection material guide device is parallel to the upward unsealed surface of the protective strip box, the surface of the detection material guide device provided with a torsion sensor faces upwards, and the torsion sensor is positioned on one side, close to the connecting frame of the feeding frame, of the material guide seat; the reverse torsion device comprises a torsion frame, a torsion mounting plate, a torsion shaft sleeve, a reverse torsion drive, a torsion driving wheel, a torsion driven wheel and a torsion disc, the torsion frame in a rectangular frame structure is arranged on the ground, one side of the position strip protection box, which is far away from the connecting frame, is fixed in the middle of the upward frame plane of the torsion frame, the torsion mounting plate with the plate surface parallel to the ground is fixed in the middle of the upward plate surface of the torsion frame, the torsion shaft sleeve with the axis vertical to the plate surface of the torsion mounting plate is arranged in the middle of the upward plate surface of the torsion mounting plate, the reverse torsion drive is arranged on the downward plate surface of the torsion mounting plate, the torsion driving wheel is arranged at the extending end of an output shaft of the reverse torsion drive after penetrating through the torsion mounting plate, the torsion driven wheel meshed with the torsion driving wheel is arranged on the torsion shaft sleeve, and the torsion disc is arranged on the upward end surface of the torsion driven wheel; the swinging and blanking mechanism comprises a swinging driving mechanism and a guide strip groove, wherein the swinging driving mechanism comprises a swinging mounting plate, a swinging drive, a swinging wheel, a feeding wheel, a swinging support leg and a layering roller, the swinging mounting plate is Z-shaped, the swinging mounting plate is fixed on a support frame which is arranged on the middle part of the long edge of the upward unsealed surface of the protection strip box and is far away from the other 1Z-shaped side arm of the feeding frame through the plate surfaces of the 1Z-shaped side arms, which are perpendicular to the Z-shaped plane, the other 1Z-shaped side arm is close to the protection strip box, the swinging mounting plate is positioned on one side of the other 1 long edge, which is close to the unsealed surface, which is upward of the protection strip box, the swinging drive is arranged on the plate surfaces of the swinging mounting plate and the same 1Z-shaped side arm fixed on the support frame, the swinging drive is positioned on one side of the support frame, which is far away from the other 1Z-shaped side arm, the swinging wheel with the square cross section is arranged at the extending end of the output shaft of the swinging drive after the swinging mounting plate passes through the swinging mounting plate, the surface of the other 1Z-shaped side arm of the swinging mounting plate is provided with a feeding wheel, the feeding wheel and the swinging wheel are positioned on the same side of the swinging mounting plate, the axes of the feeding wheel and the swinging wheel are parallel to each other, a swinging support leg provided with a long groove is fixed on the surface of the other side of the Z-shaped side arm of the swinging mounting plate, the long groove on the swinging support leg extends outwards in the direction away from the other 1Z-shaped side arm, and a roller handle of the layering roller is supported in the long groove of the swinging support leg; the guide bar groove comprises a guide bar groove body, a guide bar sleeve and a guide bar lug, one end, perpendicular to the direction of a U-shaped plane, of a U-shaped opening of the U-shaped guide bar groove body is provided with the U-shaped guide bar sleeve, the U-shaped plane of the guide bar sleeve is parallel to the U-shaped plane of the guide bar groove body, symmetrical planes perpendicular to the direction of the U-shaped plane are aligned with each other, the bottom of the U-shaped groove of the guide bar sleeve is positioned on one side far away from the guide bar groove body, 3 guide bar lugs are arranged on the outer side of the U-shaped side wall on one side of the guide bar groove body, and the guide bar groove is installed on a support frame of the upper material frame through the 3 guide bar lugs and is positioned on one side of a swing mounting plate of the support frame, which is provided with a swing driving mechanism; the polishing and cleaning device comprises a polishing and cleaning frame, a polishing traction device, a polishing device, a cleaning device, a cooling system and a dust removal system, wherein the polishing and cleaning frame comprises a polishing 6-surface box and a polishing 6-surface frame, the polishing 6-surface box is arranged on the ground, a grinding dust hopper and a grinding dust box are arranged in the polishing 6-surface box, the polishing 6-surface frame in a rectangular frame structure is positioned above the polishing 6-surface box, 3 polishing cross beams vertical to the length direction of the polishing 6-surface frame are arranged at the connecting surface of the polishing 6-surface frame and the polishing 6-surface box, 3 polishing cross beams vertical to the length direction of the polishing 6-surface frame are also arranged in the polishing 6-surface frame and close to the upper frame, the 6 polishing cross beams are all horizontally arranged, 3 adjusting support plates are arranged on one side surface in the width direction of the polishing 6-surface frame, and 1 polishing guide frame is respectively arranged at two ends in the length direction; the polishing traction device comprises a polishing traction frame, a polishing traction drive, a polishing traction mechanism and a polishing traction shield, wherein the polishing traction frame is in an L shape formed by 2 mutually vertical plane rectangular frames, and is arranged at one end of the polishing cleaning frame in the length direction of a polishing 6-surface box through 1 plane rectangular frame, and the other 1 rectangular frame of the polishing traction frame is arranged with the polishing traction drive on the upward plane; the polishing traction mechanism comprises a polishing traction component I, a polishing traction component II, a polishing traction transmission component and a polishing adjustment component, wherein the polishing traction component I comprises a polishing traction vertical plate, a polishing driving roller I, a polishing driven roller and a polishing traction belt, 2 polishing traction vertical plates are parallel to each other and are arranged on the upper plane of the polishing traction frame in an aligned mode, the polishing traction vertical plate is parallel to the length direction of a polishing 6-surface box of the polishing cleaning frame, two ends of the polishing driving roller I and two ends of the polishing driven roller are respectively supported at two ends of the 2 polishing traction vertical plates, the same 1 polishing traction belt is hung on the polishing driving roller I and the polishing driven roller, the polishing traction component II comprises a polishing traction support plate, a polishing driving roller II, a polishing driven roller and a polishing traction belt, two ends of the polishing driving roller II and the polishing driven roller are respectively supported at two ends of the 2 polishing traction support plates, and the other 1 polishing traction belt is hung on the polishing driving roller II and the polishing driven roller, the polishing traction transmission comprises a polishing traction support arm, a polishing traction swing arm, a polishing traction gear and a polishing traction intermediate wheel, round holes are arranged at the tail end and the intersection point of 2L-shaped edges of the polishing traction support arm in an L shape, one end of the polishing traction swing arm is hinged at the tail end of the 1L-shaped edge of the polishing traction support arm, 1 polishing traction intermediate wheel is coaxially hinged at the hinged position, the other 1 polishing traction intermediate wheel is hinged at the intersection point of the 2L-shaped edges of the polishing traction support arm and is meshed with the polishing traction intermediate wheel positioned at the tail end of the L-shaped edge, the tail end of the other 1L-shaped edge of the polishing traction support arm is sleeved at the extending end of a shaft of a polishing driving roller I after the shaft of the polishing driving roller I passes through a polishing traction vertical plate, the extending end of the shaft of the polishing driving roller I is provided with 1 polishing traction gear and then is connected with the polishing traction drive, and the polishing traction gear is meshed with the polishing traction intermediate wheel positioned at the intersection point of the 2L-shaped edges of the polishing traction support arm, the other end of the polishing traction swing arm is sleeved at the extending end of the shaft of the polishing driving roller II after passing through the polishing traction support plate, the extending end of the shaft of the polishing driving roller II is provided with 1 polishing traction gear, the polishing traction gear is meshed with a polishing traction intermediate wheel at the other end of the polishing traction swing arm, the polishing adjustment component comprises a polishing support plate, a polishing guide rod, a polishing connecting plate, a polishing screw rod and a polishing hand wheel, 2 polishing support plates are respectively fixed at the polishing traction vertical plate and the polishing traction support plate which are positioned at the same side of the polishing traction component I and the polishing traction component II, one end of each polishing guide rod is respectively fixed at two ends of the polishing connecting plate and is vertical to the surface of the polishing connecting plate, the extending ends of the other ends of the polishing guide rods after passing through round holes at two ends of the polishing support plates positioned on the polishing traction support plates are fixed at two ends of the polishing support plates positioned on the polishing traction vertical plate, and the threaded ends of the polishing screw rod are screwed into screw holes at the middle parts of the polishing support plates positioned on the polishing traction support plates, the other end of the grinding traction intermediate wheel penetrates through the grinding connecting plate in a limited axial movement mode, and a grinding traction protective cover is arranged above each grinding traction gear and each grinding traction intermediate wheel; the polishing device comprises a polishing mechanism, a polishing head and a polishing mold assembly, wherein the polishing mechanism comprises a polishing horizontal adjusting assembly, a polishing height assembly and a polishing angle assembly, the polishing horizontal adjusting assembly comprises a horizontal adjusting U-shaped plate, a horizontal adjusting mounting plate, a horizontal adjusting slider, horizontal adjusting lugs, height lugs and a horizontal adjusting screw rod, the 3 horizontal adjusting U-shaped plates are respectively clamped on 3 polishing cross beams which are arranged in a polishing 6-face frame of a polishing cleaning frame and are close to an upper frame through a U-shaped inner surface, the two ends of the front surface of the horizontal adjusting mounting plate are respectively provided with 1 horizontal adjusting slider, the chutes of the 2 horizontal adjusting sliders are parallel to each other, the back surface of the horizontal adjusting mounting plate is provided with the 2 horizontal adjusting sliders, the chutes of the 2 horizontal adjusting sliders are positioned on the same straight line and are perpendicular to the chutes of the 2 horizontal adjusting sliders on the front surface of the horizontal adjusting mounting plate, the horizontal adjusting lugs are fixed at one end of the horizontal adjusting mounting plate, the height lugs provided with screw holes are fixed on the back surface of the horizontal adjusting mounting plate, The screw hole axis is parallel to the sliding groove of the transverse adjusting slide block on the back of the transverse adjusting mounting plate, 3 polishing transverse adjusting components are respectively mounted on the U-shaped side plate of the 3 transverse adjusting U-shaped plates through 2 transverse adjusting slide blocks positioned on the front of the transverse adjusting mounting plate, one end of a transverse adjusting screw rod is fixed on a transverse adjusting lug, the axis of the transverse adjusting screw rod is parallel to the sliding groove of the transverse adjusting slide block positioned on the front of the transverse adjusting mounting plate, the extending end of the other end of the transverse adjusting screw rod provided with threads after penetrating through an adjusting support plate of a polishing 6-face frame is provided with a nut, the polishing height components comprise a height adjusting plate, a height guide rail, a polishing motor frame, a height support plate, a right-angle speed reducer, a transverse adjusting screw rod and a polishing hand wheel, the height guide rail and the polishing motor frame are respectively fixed at the middle part and one end of the plate surface on one side of the height adjusting plate, the axis of a round hole on the polishing motor frame is vertical to the height adjusting plate surface, and the height adjusting plate surface is fixed at the other end of the height adjusting plate, The surface of the high-low support plate is vertical to the surface of the high-low adjusting plate, the right-angle reducer is arranged on one side surface of the high-low support plate, which is far away from the high-low adjusting plate, one end of 1 transverse adjusting screw rod is inserted into an input hole of the right-angle reducer, the other end of the transverse adjusting screw rod is provided with a polishing hand wheel, 3 polishing high-low components are respectively arranged in a transverse adjusting sliding block of 3 polishing transverse adjusting components, which is positioned at the back of the transverse adjusting mounting plate, through high-low guide rails, the right-angle reducer is positioned above the polishing transverse adjusting components, one end of 3 transverse adjusting screw rods respectively penetrates through the high-low support plate from one side surface of the high-low support plate, and then is inserted into an output hole of the right-angle reducer, the other thread end is screwed into a screw hole of a high-low lug positioned at the back of the transverse adjusting mounting plate, the polishing angle component comprises a right-angle reducer, a transverse adjusting screw rod, a polishing hand wheel, a polishing motor clamp and an angle transmission rod, the right-angle reducer of 3 polishing angle components are respectively arranged on the upward surface of the high-low support plate of the 3 polishing high-low components, one end of 3 horizontal adjusting screw rods is inserted into an input hole of the right-angle speed reducer, the other end of the horizontal adjusting screw rods is provided with a polishing hand wheel, one end of a polishing motor clamp is provided with a horizontal hole, the axis of the horizontal hole is vertical to the axis of the other end of the polishing motor clamp, the axis of one end of the 3 polishing motor clamps penetrates through the extending end of the circular hole on the polishing motor frame of the 3 polishing high-low assemblies respectively and is inserted into the input hole of the other 3 right-angle speed reducers, one end of 3 angle transmission rods penetrates through the high-low support plates from the lower plate surfaces of the 3 polishing high-low assemblies respectively and is inserted into the output hole of the right-angle speed reducer, and the other end of the angle transmission rods is inserted into the output hole of the other 3 right-angle speed reducers respectively; the polishing head comprises a polishing protective cover, a polishing motor and a polishing grinding wheel, a round hole is formed in the center of a square bottom plate of the polishing protective cover, 3 edges of a square are bent towards the same direction perpendicular to the bottom plate, the bending heights are the same, an air guide hole is formed in a plate surface bent at one side, the polishing protective cover is installed on a shell at one end of an output shaft of the polishing motor through the bottom plate, a polishing grinding wheel is installed at an extending end of the output shaft of the polishing motor, which penetrates through the round hole in the bottom plate of the polishing protective cover, 2 polishing heads are respectively clamped in a polishing motor clamp of 2 polishing angle assemblies, which is positioned in a polishing 6-surface frame of a polishing cleaning frame and is far away from one end of a polishing traction device, through the polishing motor, and 2 polishing grinding wheels are positioned in the same plane, and 1 edge of the polishing protective cover bottom plate, which is not bent, faces downwards; the polishing mould assembly comprises U-shaped clamping blocks, a polishing lifting device and a polishing mould, wherein 3U-shaped clamping blocks are respectively clamped on one side of 3 polishing cross beams arranged at the connecting surface of a polishing 6-surface frame of the polishing cleaning frame and a polishing 6-surface box, the polishing lifting device is fixed on one side of each of the 3U-shaped clamping blocks, telescopic rods of the polishing lifting devices extend upwards and are positioned in a plane where a polishing grinding wheel of a polishing head is positioned, and the polishing mould is arranged at the tail end of each of the telescopic rods of the 3 polishing lifting devices; the cleaning device comprises a polishing mechanism, a cleaning head and a polishing mould assembly, wherein the cleaning head comprises a polishing shield, a polishing motor and a cleaning wheel, 1 cleaning head is clamped in a polishing motor clamp of a polishing angle assembly close to one end of a polishing traction device in a polishing 6-surface frame of a polishing cleaning frame through the polishing motor, the cleaning wheel and 2 polishing grinding wheels are positioned in the same plane, and the non-bent 1 edge of a bottom plate of the polishing shield faces downwards; the cooling system comprises a water tank and a water pump, the water tank is arranged on the ground, 3 water pumps are arranged on one side of the water tank, the water inlet of each water pump is connected with the water tank, the water outlet of each water pump is respectively connected with the polishing head of each polishing device of the polishing cleaning devices and the water inlet of the polishing motor of the cleaning head of each cleaning device 1 through water pipes, and the water outlet of each polishing motor is connected with the water tank through water pipes; the dust removal system comprises a dust removal frame, a dust remover and a fan, the dust removal frame in a frame structure is arranged on the ground, the dust remover is arranged in the dust removal frame, the fan is arranged above the dust remover, the tail end of an air pipe is respectively connected with a polishing head of 2 polishing devices of a polishing cleaning device and an air inducing hole of a polishing shield of a cleaning head of 1 cleaning device, the other end of the air pipe is respectively connected with an air inlet of the dust remover, and an air outlet of the dust remover is connected with an air inlet of the fan; the pressure-sensitive pasting device comprises a pressure-sensitive workbench, a gluing device, a drying device, a pressing device and a traction cutting device, wherein the pressure-sensitive workbench comprises a pressure-sensitive 6-face box and a pressure-sensitive 6-face frame, the pressure-sensitive 6-face box is arranged on the ground through the pressure-sensitive 6-face box, a pressure-sensitive bedplate is fixed on the upper plane of the pressure-sensitive 6-face box, a pressure-sensitive guide frame is arranged at one end of the pressure-sensitive 6-face box in the length direction of the upper plane, the pressure-sensitive 6-face frame in a rectangular frame structure is positioned above the pressure-sensitive bedplate on the pressure-sensitive 6-face box, and a middle plane rectangular frame which is parallel to the length direction of the pressure-sensitive 6-face frame and has the same length is arranged in the pressure-sensitive 6-face frame; the gluing device comprises a gluing guide device, a glue dripping assembly and a pressure-sensitive die assembly, the gluing guide device comprises a gluing traction assembly and a gluing support assembly, the gluing traction assembly comprises a gluing bottom plate, a pressure-sensitive traction drive, a pressure-sensitive active roller, a pressure-sensitive cylinder, a pressure-sensitive guide rail, a pressure-sensitive mounting plate, a pressure-sensitive slider and a pressure-sensitive pressure roller, the pressure-sensitive traction drive is arranged on the plate surface of one side of the gluing bottom plate, a shaft of the pressure-sensitive active roller penetrates through the gluing bottom plate from the plate surface of the other side of the gluing bottom plate and then is inserted into a pressure-sensitive traction drive output hole, the pressure-sensitive cylinder is arranged on the plate surface of one side provided with the pressure-sensitive active roller, 1 pressure-sensitive guide rail is respectively arranged on two sides of the pressure-sensitive cylinder of the gluing bottom plate, 2 pressure-sensitive guide rails are parallel to a telescopic rod of the pressure-sensitive cylinder and are symmetrically arranged relative to the pressure-sensitive cylinder, the pressure-roller mounting plate provided with 2 pressure-sensitive sliders on the plate surface of one side is arranged at the tail end of the telescopic rod of the pressure-sensitive cylinder, And 2 pressure-sensitive sliding blocks are respectively arranged on 2 pressure-sensitive guide rails, a pressure-sensitive press roller is arranged on the other side of the press roller mounting plate, the pressure-sensitive press roller is aligned with the pressure-sensitive active roller, the axes of the pressure-sensitive press roller and the pressure-sensitive active roller are parallel to each other, the gluing support component comprises a gluing rod, a pressure roller, a gluing tension spring, a guide pipe mouth and a gluing brush, one end of 4 gluing rods is respectively arranged on the surface of one side of the gluing base plate provided with the pressure-sensitive active roller of the gluing traction component, 1 pressure roller is arranged at the tail end of 1 gluing rod through a roller handle, the axis of the pressure roller is vertical to the surface of the gluing base plate, one end of the gluing tension spring is hung on the roller handle of the pressure roller, the other end of the other 1 gluing rod is hung at the tail end of the guide pipe mouth and the gluing brush, the centers of the length directions of the guide pipe mouth and the gluing brush and the pressure roller are positioned in the same plane parallel to the surface of the gluing base plate and the length directions of the pressure-sensitive press roller, the gluing guide device is arranged on a rectangular frame in the middle plane of a pressure-sensitive 6-surface frame of the pressure-sensitive workbench through a gluing bottom plate of a gluing traction assembly, the surface of the gluing bottom plate is vertical to the width direction of the pressure-sensitive workbench and is positioned at one end of the pressure-sensitive 6-surface box in the length direction of the upper plane and close to a pressure-sensitive guide frame, a telescopic rod of a pressure-sensitive cylinder extends downwards, and a gluing brush faces downwards; the glue dripping component comprises a glue dripping plate, a glue dripping pump, a glue dripping barrel and a glue dripping pipe, one side edge of the glue dripping plate is fixed on the surface of one side, provided with the pressure-sensitive active roller, of the gluing bottom plate of the gluing traction component of the gluing guiding device, the surface of the glue dripping plate is vertical to the surface of the gluing bottom plate and is horizontally arranged, the glue dripping pump and the glue dripping barrel are arranged on the upper plane of the glue dripping plate, one end of the glue dripping pipe is connected with a glue outlet of the glue dripping pump, the other end of the glue dripping pipe is inserted into a hole of a guide pipe nozzle of the gluing support component of the gluing guiding device, and the pipe nozzle of the glue dripping pipe faces downwards; the pressure-sensitive die assembly comprises a die U-shaped frame, die guide columns, a die round nut, a die screw, a die hand wheel, a die guide block, a die nut block and a pressure-sensitive die, wherein 4 die guide columns are arranged on the outer plane of a U-shaped bottom plate of the U-shaped frame in a U-shaped groove shape, the 4 die guide columns are all vertical to the surface of the U-shaped bottom plate of the die U-shaped frame, the die U-shaped frame is arranged on a pressure-sensitive table plate of a pressure-sensitive 6-surface box of a pressure-sensitive worktable through the 4 die guide columns, the U-shaped opening of the die U-shaped frame is upward, the surface of the U-shaped bottom plate is parallel to the pressure-sensitive table plate, the surface of the U-shaped side plate is parallel to the length direction of the pressure-sensitive worktable, the 4 die guide columns penetrate through the pressure-sensitive table plate and then extend downward, the die round nut is arranged on the pressure-sensitive table plate and is positioned between the 4 die guide columns, after the die screw is screwed into the die round nut from the lower part of the pressure-sensitive table plate, the upward extending end is connected with the U-shaped bottom plate of the die U-shaped frame, the other end of the mold screw rod facing downwards is provided with a mold hand wheel, two ends of 2 mold guide columns of which the middle parts are provided with mold guide blocks are supported on a U-shaped side plate of a mold U-shaped frame, the plane of the axes of the 2 mold guide columns is parallel to a U-shaped bottom plate of the mold U-shaped frame, two ends of 1 other mold screw rod of which the middle part is provided with a mold nut block are supported on the U-shaped side plate of the mold U-shaped frame and are positioned between the 2 mold guide columns, the extending end of one end of the mold screw rod after penetrating through the U-shaped side plate of the mold U-shaped frame is provided with the mold hand wheel, the middle part of the pressure-sensitive mold is arranged on the mold nut block, and two ends of the pressure-sensitive mold are arranged on the 2 mold guide blocks; the drying device comprises a drying box, a drying conveying device, a drying assembly and a drying box cover, wherein the drying box comprises a drying box body, drying rods, tensioning grooves and tensioning lugs, a plurality of drying rods are uniformly arranged between U-shaped side walls of two sides of the drying box body in a U-shaped groove shape along the length direction perpendicular to the U-shaped plane, the U-shaped side walls of two sides of the drying box body are provided with round holes at one end perpendicular to the U-shaped plane, the other end of the U-shaped side walls is provided with the tensioning grooves parallel to the length direction, the tensioning lugs are arranged at the outer sides of the U-shaped side walls of two sides of the drying box body and at the end of the tensioning grooves far away from the round holes, the drying box is installed on a pressure-sensitive bedplate of a pressure-sensitive 6-face box of a pressure-sensitive workbench through the outer plane of the U-shaped groove bottom of the drying box body, the U-shaped plane of the drying box body is perpendicular to the length direction of the pressure-sensitive workbench, and the drying box body is positioned at the position close to the gluing device at the middle part of the pressure-sensitive 6-face box in the length direction of the pressure-sensitive workbench, One end of the U-shaped side wall of the drying box body, which is provided with the tensioning groove, is positioned at one end of the pressure-sensitive guide frame at one end of the pressure-sensitive 6-face box in the length direction of the plane; the drying and conveying device comprises a drying and conveying drive, a drying driving roller, a drying driven roller, a tensioning screw, a drying carrier roller and a drying belt, the drying and conveying drive is arranged on a rectangular frame arranged in the middle plane of a pressure-sensitive 6-face frame of a pressure-sensitive worktable, the drying and conveying drive is positioned at one end of a pressure-sensitive guide frame far away from a pressure-sensitive 6-face box in the length direction vertical to the U-shaped plane of a drying box body, an output shaft of the drying and conveying drive extends out towards the direction that the pressure-sensitive driving roller is arranged on a gluing bottom plate of a gluing traction assembly of a gluing device, two ends of the drying driving roller are respectively supported in circular holes at two sides of the drying box body, far away from one end of a tensioning groove, the shaft of the drying driving roller penetrates through the U-shaped side wall of the drying box body, the extending end of the shaft of the drying driving roller is connected with the shaft of the drying and conveying drive, and two ends of the drying driven roller are respectively supported in the tensioning grooves on the U-shaped side walls at two sides of the drying box body, 2 tensioning screws penetrate through tensioning lugs of the drying box and are respectively screwed into extending ends of shafts at two ends of the drying driven roller after penetrating through the tensioning grooves, a plurality of drying carrier rollers are uniformly arranged between the drying driving roller and the drying driven roller, the upper bus of each drying carrier roller and the upper bus of each drying driving roller and each drying driven roller are positioned in the same plane, drying belts are hung on the drying driving roller and the drying driven roller, and the upper sections of the drying belts are supported on the drying carrier rollers; the drying assembly comprises a heating groove, a heating groove frame, heating pipes and a heating pipe frame, wherein a plurality of U-shaped heating groove frames are uniformly arranged outside the U-shaped heating groove along the length direction vertical to the U-shaped plane, two ends of the plurality of heating pipes are respectively arranged on the 2 heating pipe frames, a combination of the plurality of groups of heating pipes and the heating pipe frames is arranged in the U-shaped groove of the heating groove through the heating pipe frame, a drying box cover is in a 6-face box shape with 1-face opening, the drying assembly is arranged in the drying box cover through the plurality of heating groove frames, and the drying box cover is hinged to the edge of the U-shaped side wall of a drying box body of the drying box through 1 long edge of an opening; the pressing and pasting device comprises a pressing and pasting guide device, a pressing and front guide device, a tape supply device and a pressure-sensitive die assembly, wherein the pressing and pasting guide device comprises a pressing and pasting traction assembly and a pressing and pasting adjustment assembly, the pressing and pasting traction assembly comprises a pressing and pasting bottom plate, a pressure-sensitive traction drive, a pressure-sensitive active roller, a pressure-sensitive cylinder, a pressure-sensitive guide rail, a pressing and rolling mounting plate, a pressure-sensitive slider, a pressure-sensitive pressing roller and a pressure sensor, the pressure-sensitive traction drive is arranged on the plate surface of one side of the pressing and pasting bottom plate, the pressure-sensitive active roller is arranged on the plate surface of the other side, a shaft of the pressure-sensitive active roller is inserted into a pressure-sensitive traction drive output hole, the pressure-sensitive cylinder is arranged on the plate surface of the same side with the pressure-sensitive roller, the pressure-sensitive guide rails are arranged on two sides, the 2 pressure-sensitive guide rails are symmetrically arranged with telescopic rods of the pressure-sensitive cylinder, the pressure-sensitive slider is arranged on one side plate surface of the pressing and the pressure-sensitive roller mounting plate, the pressure sensor is arranged on one side edge vertical to a sliding chute of the pressure-sensitive slider, The pressure sensor is positioned on the symmetrical surface of the 2 pressure-sensitive sliding blocks, the pressure-sensitive roller mounting plate is arranged at the tail end of the telescopic rod of the pressure-sensitive cylinder through the pressure sensor, the 2 pressure-sensitive sliding blocks are respectively arranged on the 2 pressure-sensitive guide rails, the pressure-sensitive roller on the other side surface is aligned with the pressure-sensitive active roller, and the axes are parallel to each other, the pressing and pasting adjusting component comprises a pressure-sensitive cylinder, a pressure-sensitive guide rail, a pressure-sensitive mounting plate, a pressure-sensitive sliding block, a pressure-sensitive mounting block, a mould guide pillar, a pressure-sensitive connecting plate, a pressure-sensitive guide block, a mould screw, a mould hand wheel and a tape mould, the other 1 pressure-sensitive cylinder is arranged on one side surface of the pressing and pasting traction component, the extending directions of the telescopic rods of the 2 pressure-sensitive cylinders are the same, the telescopic rods are parallel, the two sides of the pressure-sensitive cylinder of the pressing and pasting adjusting component are provided with the symmetrically arranged 2 pressure-sensitive guide rails, one side surface of the pressure-sensitive mounting plate is provided with the 2 pressure-sensitive sliding blocks, the other side is provided with a pressure-sensitive mounting block, one side edge of the pressure-sensitive mounting plate is arranged at the tail end of a telescopic rod of a pressure-sensitive cylinder, 2 pressure-sensitive sliding blocks are respectively arranged on 2 pressure-sensitive guide rails, one end of 2 mould guide columns of a pressure-sensitive mould assembly of the pressing device is respectively fixed at two ends of a pressure-sensitive connecting plate and is vertical to the plate surface of the pressure-sensitive connecting plate, the extending end of the other end of the 2 mould guide columns after penetrating through round holes at two ends of the pressure-sensitive guide blocks is fixed on the pressure-sensitive mounting block positioned on the plate surface at one side of the pressure-sensitive mounting plate, the plane of the 2 mould guide columns is obliquely arranged with the extending direction of the telescopic rod of the pressure-sensitive cylinder, one side far away from the pressing traction assembly is inclined towards a cylinder body of the pressure-sensitive cylinder, one side close to the pressing traction assembly is inclined towards the extending direction of the telescopic rod of the pressure-sensitive cylinder, the threaded end of 1 mould screw rod is screwed into a screw hole in the middle part of the pressure-sensitive guide blocks, and the other end after penetrating through the pressure-sensitive connecting plate with limited axial movement is provided with a mould hand wheel, the surface of the pressure-sensitive guide block, which is far away from one side of the pressure-sensitive cylinder, is provided with an adhesive tape die, a pressing and pasting guide device is arranged on a rectangular frame in the middle plane of a pressure-sensitive 6-surface frame of the pressure-sensitive workbench through a pressing and pasting bottom plate, the telescopic rods of 2 pressure-sensitive cylinders extend downwards, the surface of the pressing and pasting bottom plate is vertical to the width direction of the pressure-sensitive workbench, and the side, which is far away from the gluing device, of a middle drying device in the length direction of the upper plane of the pressure-sensitive 6-surface box is arranged on the pressing and pasting bottom plate, and one end, which is close to the pressure-sensitive guide frame of the pressure-sensitive 6-surface box of the pressure-sensitive workbench, of the pressing and pasting guide device is provided with a front-pressing guide device; the adhesive tape supply device comprises a feeding bottom plate and a loading shaft, wherein the loading shaft is arranged in the center of the disc-shaped feeding bottom plate, the axis of the loading shaft is perpendicular to the surface of the feeding bottom plate, the other side surface of the feeding bottom plate is arranged on a rectangular frame in the middle plane of a pressure-sensitive 6-surface frame of a pressure-sensitive workbench, the loading shaft extends out towards the surface direction of one side, provided with a pressure-sensitive active roller, of a pressing bottom plate of a pressing traction assembly of a pressing guide device, a U-shaped frame of a pressure-sensitive die assembly of the pressing guide device is arranged on a pressure-sensitive platen of a pressure-sensitive 6-surface box of the pressure-sensitive workbench through 4 die guide columns, a U-shaped opening of the U-shaped frame is upward, the surface of the U-shaped bottom plate is parallel to the pressure-sensitive platen, the surface of a U-shaped side plate is parallel to the length direction of the pressure-sensitive workbench, the 4 die guide columns penetrate through the pressure-sensitive platen and then extend downward, and a guide groove of the pressure-sensitive die is upward; in the length direction of the pressure-sensitive workbench, the pressure-sensitive die assembly is positioned between the pressure-sensitive active roller of the pressing traction assembly of the pressing guide device and the front pressing guide device, and in the width direction of the pressure-sensitive workbench, the sealing strip guide groove of the pressure-sensitive die, the cross sections of the pressure-sensitive active roller of the pressing traction assembly of the pressing guide device and the pressure-sensitive pressure roller in the length direction and the adhesive tape guide groove of the adhesive tape die of the pressing adjustment assembly are positioned in the same plane; the traction cutting device comprises a cutting traction mechanism, a finished product cutting device, a cutting discharge port and a cutting guide device, wherein the cutting traction mechanism comprises a cutting traction frame, a cutting traction drive, a cutting traction assembly, a cutting traction compression roller and a cutting traction tension spring, the cutting traction frame comprises a cutting traction vertical plate, a cutting traction supporting plate, a cutting traction pull rod and a traction hanging plate, 1 long edge of 2 cutting traction vertical plates is connected together through 2 cutting traction supporting plates and is reinforced through 2 cutting traction pull rods, one end of the traction hanging plate with the length larger than the width of the cutting traction vertical plate is provided with an elongated slot parallel to the length direction of the traction hanging plate, the other end of the traction hanging plate is provided with a lug, the 2 traction hanging plates are respectively fixed on the outer sides of the 2 cutting traction vertical plates, the elongated slots of the traction hanging plates are all positioned at one end of the traction hanging plate far away from the cutting traction supporting plate, and the surface provided with the lug faces outwards, the cutting traction device comprises a cutting traction assembly, a cutting traction frame, a cutting driving assembly and a cutting traction assembly, wherein the cutting traction frame is arranged on a pressure-sensitive table plate of a pressure-sensitive 6-surface box of a pressure-sensitive workbench through a cutting traction supporting plate, the cutting traction vertical plate is parallel to the length direction of the pressure-sensitive workbench, the cutting traction frame is positioned at one end, far away from the pressure-sensitive guide frame, of the pressure-sensitive 6-surface box in the length direction of the pressure-sensitive workbench, the cutting traction assembly comprises a cutting driving roller, a cutting driven roller, a cutting carrier roller and a cutting traction belt, two ends of the cutting driving roller and the cutting driven roller are respectively supported at two ends of the cutting traction vertical plate 2, one end of a shaft of the cutting driving roller penetrates through a protruding end of the cutting traction vertical plate and is connected with a shaft of the cutting traction driving, two ends of the cutting carrier roller 2 are respectively supported at the middle part of the cutting traction vertical plate 2, the cutting driving roller and the cutting driven roller are hung with the cutting traction belt 1 and the upper section of the cutting traction belt is supported on the cutting carrier roller 2, two ends of 2 cutting traction compression rollers are respectively supported in elongated slots at one end of 2 traction hanging plates of the cutting traction frame, the 2 cutting traction compression rollers are all positioned above the upper section of the cutting traction belt, one end of 4 cutting traction tension springs is respectively hung at two ends of the 2 cutting traction compression rollers, penetrates through the traction hanging plates and extends out of the ends, and the other end of the 4 cutting traction tension springs is respectively hung on a lug arranged on the outer side surface of the traction hanging plate; the finished product cutting device comprises a cutting seat, a cutting frame, a cutting guide groove, a sensor, a cutting cylinder, a cutting knife rest, a cutting blade and a cutting guard plate, wherein the cutting seat is in a U-shaped groove shape, the cutting frame in the U-shaped groove shape is arranged on the outer surface of a U-shaped bottom plate of the cutting seat through a U-shaped opening, the U-shaped planes of the cutting frame and the cutting seat are mutually parallel, a symmetrical plane passing through the center of the U-shaped bottom plate and perpendicular to the U-shaped plane is positioned in the same plane, a guide groove parallel to the length direction of the cutting guide groove is arranged on one side surface of the cutting guide groove with a rectangular cross section, 2 cutting guide grooves are respectively arranged on the inner surfaces of U-shaped side plates of the cutting frame, the guide groove of the cutting guide groove is perpendicular to the surface of the U-shaped bottom plate of the cutting frame, the sensor is arranged on the position of a U-shaped side wall of the cutting frame far away from the U-shaped bottom plate, the cutting cylinder is arranged on the outer surface of the U-shaped bottom plate of the cutting frame, and a telescopic rod of the cutting cylinder penetrates through the U-shaped bottom plate of the cutting frame and extends towards the cutting seat, the tail end of an expansion link of the cutting cylinder is provided with a cutting knife rest, a cutting blade is arranged on the cutting knife rest, the cutting edge of the cutting blade faces the direction of a cutting seat, 2 edges of the cutting blade vertical to the cutting edge are respectively clamped in guide grooves of 2 cutting guide grooves, one end of the cutting frame vertical to a U-shaped plane is provided with a cutting guard plate, the cutting seat of a finished product cutting device is arranged on a pressure-sensitive table plate of a pressure-sensitive 6-surface box of a pressure-sensitive workbench, the U-shaped plane of the cutting seat is vertical to the length direction of the pressure-sensitive workbench, the finished product cutting device is positioned at one end, far away from the pressure-sensitive guide frame, of a cutting traction mechanism in the length direction of the pressure-sensitive workbench, one side, far away from the cutting traction mechanism, of the cutting seat of the finished product cutting device is provided with a cutting discharge hole, and one end, far away from the finished product cutting traction frame, of the cutting traction mechanism, is provided with a cutting guide device.

On the basis of the prior art, a strip protection box of a feeding frame of an automatic feeding device is of a rectangular 6-face box body structure, 2 faces with the smallest short edge size of the strip protection box are not sealed, and the 2 faces which are not sealed have 1 short edge with the smallest size in total, and the strip protection box is placed on the ground through the other 1 faces which are sealed and have the smallest short edge size; the connecting frame is of a rectangular plane frame structure, 1 supporting leg is fixed at each of 4 corners of the plane on the same side of the connecting frame, and the connecting frame is installed on the unsealed surface on one side of the bead box through the tail ends of the 4 supporting legs; the tail ends of 1Z-shaped side arm of the Z-shaped support frame are arranged in the middle of the long edge of the upward unsealed surface of the bead box, the other 1Z-shaped side arm extends upwards, the middle of the Z-shaped middle arm of the support frame is supported on the long edge of the upward unsealed surface of the bead box through a support rod and is far away from the end part of one end of the connecting frame, and the Z-shaped plane of the support frame is perpendicular to the upward unsealed surface of the bead box and is positioned in the same plane with the same 1 long edge of the upward unsealed surface. A feeding traction drive is arranged on the surface of one side of a feeding mounting plate of a feeding traction device of a traction detection device of a torsion detection feeding device, and a feeding wheel is arranged at the extending end of an output shaft of the feeding traction drive after penetrating through the feeding mounting plate; one end of the feeding rocker arm is hinged to the feeding mounting plate, the feeding rocker arm and the feeding wheel are positioned on the same side of the feeding mounting plate, and a layering wheel is arranged at one end of the feeding rocker arm, which is far away from the hinged point, and the axis of the layering wheel is parallel to the axis of the feeding wheel; one end of the feeding tension spring is hung at one end of the feeding rocker arm provided with the strip pressing wheel, and the other end of the feeding tension spring is hung on the feeding mounting plate; a guide seat is arranged in a mounting hole in the middle of a detection mounting plate of the detection guide device, and a guide die is arranged in the guide seat; the edge of one end of a material guide hole of the material guide die is provided with 1 pair of material breakage sensors, the surface of the detection mounting plate on the side provided with the material breakage sensors is provided with 1 pair of torsion sensors, and the symmetrical surface of the 1 pair of torsion sensors, which is vertical to the surface direction of the detection mounting plate, is parallel to the edge of one side of the detection mounting plate. The detection guide device is arranged at the edge of the plate surface at one side of the feeding wheel of the feeding mounting plate of the feeding traction device through the edge of one side of the detection mounting plate, the plate surface of the detection mounting plate is vertical to the plate surface of the feeding mounting plate, and the detection mounting plate is positioned at one side of the feeding rocker arm far away from the feeding traction device; the side plate surface of the detection mounting plate, which is provided with the torsion sensor, faces the direction of a feeding wheel of the detection material guide device, and 1 pair of symmetrical surfaces of the torsion sensor, which are vertical to the plate surface direction of the detection mounting plate, are parallel to the plate surface of the feeding mounting plate; the traction detection device is arranged on one side, away from the connecting frame, of 1Z-shaped side arm extending upwards from the supporting frame of the feeding frame through a feeding mounting plate of the feeding traction device, the feeding mounting plate of the feeding traction device is parallel to a Z-shaped plane of the supporting frame, and a feeding wheel of the feeding traction device faces the upward unsealed surface of the protection strip box and is not arranged in the other 1 long edge direction of the supporting frame; the detection mounting plate of the detection material guide device is parallel to the upward unsealed surface of the bead box, the upward plate surface of the detection material guide device provided with the torsion sensor is upward, and the torsion sensor is positioned on one side of the connecting frame close to the feeding frame relative to the material guide seat. The torsion frame of the reverse torsion device is of a rectangular frame structure, the torsion frame is arranged on the ground and is positioned on one side, far away from the connecting frame, of the bead box, a torsion mounting plate with a plate surface parallel to the ground is fixed in the middle of the upward frame plane of the torsion frame, and a torsion shaft sleeve with an axis vertical to the plate surface of the torsion mounting plate is arranged in the middle of the upward plate surface of the torsion mounting plate; the downward plate surface of the torsion mounting plate is provided with a reverse torsion drive, the extending end of an output shaft of the reverse torsion drive after penetrating through the torsion mounting plate is provided with a torsion driving wheel, a torsion driven wheel meshed with the torsion driving wheel is arranged on the torsion shaft sleeve, and the upward end surface of the torsion driven wheel is provided with a torsion disc. The shaking mounting plate of the shaking driving mechanism of the shaking blanking mechanism is Z-shaped, the shaking mounting plate is fixed on a support frame of the middle part of the long edge of the upward unsealed surface of the protective strip box of the feeding frame through the plate surface of 1Z-shaped side arm, which is perpendicular to the Z-shaped plane and is far away from the other 1Z-shaped side arm, and the shaking mounting plate is positioned close to the protective strip box and is positioned on one side of the other 1 long edge of the upward unsealed surface of the protective strip box, on which the support frame is not arranged; the same side plate surface of the same Z-shaped side arm 1 fixed on the supporting frame and the swinging mounting plate is provided with a swinging drive, the swinging drive is positioned on one side of the supporting frame far away from the other Z-shaped side arm 1, and a swinging wheel with a square cross section is arranged at an extending end of an output shaft of the swinging drive after penetrating through the swinging mounting plate; the surface of the other 1Z-shaped side arm of the swinging mounting plate is provided with a feeding wheel, the feeding wheel and the swinging wheel are positioned on the same side of the swinging mounting plate, and the axes of the feeding wheel and the swinging wheel are parallel to each other; the other side plate surface of the Z-shaped side arm provided with the feeding wheel on the swinging mounting plate is fixed with a swinging supporting leg provided with a long groove, the long groove on the swinging supporting leg extends outwards in the direction far away from the other 1Z-shaped side arm, and the roller handle of the layering roller is supported in the long groove of the swinging supporting leg. The guide bar groove body of the guide bar groove is in a U-shaped groove shape, one end, perpendicular to the U-shaped plane direction of the guide bar groove body, of a U-shaped opening of the guide bar groove body is provided with a U-shaped guide bar sleeve, the U-shaped plane of the guide bar sleeve and the U-shaped plane of the guide bar groove body are parallel to each other, the symmetrical planes perpendicular to the U-shaped plane direction are aligned with each other, and the bottom of the U-shaped groove of the guide bar sleeve is positioned on one side away from the guide bar groove body; and 3 guide bar lugs are arranged on the outer side of the U-shaped side wall on one side of the guide bar groove body, and the guide bar groove is arranged on the support frame of the upper material frame through the 3 guide bar lugs and is positioned on one side of the support frame, which is provided with the swing shaking driving mechanism, of the swing shaking mounting plate. A polishing cleaning frame of the polishing cleaning device is arranged on the ground through a polishing 6-surface box, an abrasive dust hopper and an abrasive dust box are arranged in the polishing 6-surface box, a polishing 6-surface frame is of a rectangular frame structure, and the polishing 6-surface frame is positioned above the polishing 6-surface box; 3 polishing beams vertical to the length direction of the 6-surface polishing frame are respectively arranged at the connecting surface of the 6-surface polishing frame and the 6-surface polishing box and close to the upper frame, and the 6 polishing beams are horizontally arranged; one side of 6 frames of polishing width direction is equipped with 3 and adjusts the extension board, and length direction's both ends respectively are equipped with 1 guide of polishing. The polishing traction frame of the polishing traction device is L-shaped and consists of 2 mutually vertical plane rectangular frames, the polishing traction frame is arranged at one end of the polishing cleaning frame in the length direction of a polishing 6-surface box through 1 plane rectangular frame, and the other 1 rectangular frame of the polishing traction frame is provided with a polishing traction drive on the upward plane; 2 polishing traction vertical plates of a polishing traction assembly I of the polishing traction mechanism are parallel to each other, are aligned and arranged on the upper plane of a polishing traction frame, and the surface of the polishing traction vertical plate is parallel to the length direction of a polishing 6-surface box of a polishing cleaning frame; two ends of the polishing driving roller I and two ends of the polishing driven roller are respectively supported at two ends of 2 polishing traction vertical plates, and the same 1 polishing traction belt is hung on the polishing driving roller I and the polishing driven roller; two ends of a polishing driving roller II and a polishing driven roller of the polishing traction assembly II are respectively supported at two ends of 2 polishing traction support plates, and another 1 polishing traction belt is hung on the polishing driving roller II and the polishing driven roller; the polishing traction support arm for polishing traction transmission is L-shaped, round holes are formed in the tail ends and intersection points of 2L-shaped edges of the polishing traction support arm, one end of a polishing traction swing arm is hinged to the tail end of 1L-shaped edge of the polishing traction support arm, 1 polishing traction intermediate wheel is coaxially hinged to the hinged position, and the other 1 polishing traction intermediate wheel is hinged to the intersection point of the 2L-shaped edges of the polishing traction support arm and meshed with the polishing traction intermediate wheel positioned at the tail end of the L-shaped edge; the tail ends of the other 1L-shaped edge of the grinding traction support arm are sleeved at the extending end of the shaft of the grinding driving roller I after penetrating through the grinding traction vertical plate, 1 grinding traction gear is installed at the extending end of the shaft and then is connected with a grinding traction drive, and the grinding traction gear is meshed with a grinding traction intermediate wheel positioned at the intersection point of the 2L-shaped edges of the grinding traction support arm; the other end of the polishing traction swing arm is sleeved at an extending end of a polishing driving roller II of the polishing traction assembly II after a shaft passes through the polishing traction support plate, another 1 polishing traction gear is installed at the extending end of the shaft, and the polishing traction gear is meshed with a polishing traction intermediate wheel at the other end of the polishing traction swing arm; 2 polishing support plates of the polishing adjusting assembly are respectively fixed on the outer sides of a polishing traction vertical plate and a polishing traction support plate which are positioned on the same side of the polishing traction assembly I and the polishing traction assembly II, and one ends of 2 polishing guide rods are respectively fixed at two ends of the polishing connecting plate and are vertical to the surface of the polishing connecting plate; the other ends of the 2 polishing guide rods penetrate through round holes at two ends of a polishing support plate on the polishing traction support plate, and then the extending ends of the polishing guide rods are fixed at two ends of the polishing support plate on the polishing traction vertical plate; the threaded end of the polishing screw is screwed into a threaded hole in the middle of a polishing support plate on the polishing traction support plate, a polishing hand wheel is arranged at the extending end of the other end of the polishing screw, which penetrates through the polishing connecting plate, the polishing connecting plate can limit the axial movement of the polishing screw, and a polishing traction shield is arranged above each polishing traction gear and each polishing traction intermediate wheel. 3 horizontal adjusting U-shaped plates of a polishing horizontal adjusting assembly of a polishing mechanism of a polishing device are respectively clamped on 3 polishing cross beams which are arranged in a polishing 6-surface frame of a polishing cleaning frame and are close to an upper frame through a U-shaped inner surface, two ends of the front side of a horizontal adjusting mounting plate are respectively provided with 1 horizontal adjusting slide block, the slide grooves of the 2 horizontal adjusting slide blocks are parallel to each other, the back side of the horizontal adjusting mounting plate is provided with 2 horizontal adjusting slide blocks, and the slide grooves of the 2 horizontal adjusting slide blocks are positioned on the same straight line and are vertical to the slide grooves of the 2 horizontal adjusting slide blocks on the front side of the horizontal adjusting mounting plate; one end of the horizontal adjusting mounting plate is fixed with a horizontal adjusting lug, the back of the horizontal adjusting mounting plate is fixed with a high-low lug provided with a screw hole, and the axis of the screw hole is parallel to a sliding groove of a horizontal adjusting sliding block on the back of the horizontal adjusting mounting plate; the 3 polishing horizontal adjusting assemblies are respectively arranged on U-shaped side plates of the 3 horizontal adjusting U-shaped plates through 2 horizontal adjusting sliding blocks positioned on the front side of a horizontal adjusting mounting plate, one end of a horizontal adjusting screw rod is fixed on a horizontal adjusting lug, the axis of the horizontal adjusting screw rod is parallel to a sliding chute of the horizontal adjusting sliding block positioned on the front side of the horizontal adjusting mounting plate, and the other end of the horizontal adjusting screw rod, which is provided with threads, penetrates through an extending end of an adjusting support plate of the 6-face frame to be polished and is provided with a nut; a height guide rail and a polishing motor frame are respectively fixed at the middle part and one end of the surface of one side of a height adjusting plate of the polishing height component, the axis of a round hole on the polishing motor frame is vertical to the surface of the height adjusting plate, a height support plate is fixed at the other end of the height adjusting plate, and the surface of the height support plate is vertical to the surface of the height adjusting plate; the right-angle speed reducer is arranged on the surface of one side of the high-low support plate, which is far away from the high-low adjusting plate, one end of each transverse adjusting screw rod 1 is inserted into an input hole of the right-angle speed reducer, and the other end of each transverse adjusting screw rod is provided with a polishing hand wheel; the 3 polishing high-low assemblies are respectively installed in a horizontal adjusting sliding block of the 3 polishing horizontal adjusting assemblies on the back of the horizontal adjusting installation plate through high-low guide rails, and the right-angle speed reducer is located above the polishing horizontal adjusting assemblies; one end of each of the 3 transverse adjusting screw rods penetrates through the high and low support plates from one side plate of the high and low support plates far away from the right-angle speed reducer and then is inserted into an output hole of the right-angle speed reducer, and the other threaded end of each transverse adjusting screw rod is screwed into a screw hole of a high and low lug on the back of the transverse adjusting mounting plate; the right angle speed reducers of the 3 polishing angle assemblies are respectively arranged on upward plate surfaces of the high-low support plates of the 3 polishing high-low assemblies, one ends of the other 3 transverse adjusting screw rods are inserted into input holes of the right angle speed reducers, and polishing hand wheels are arranged at the other ends of the transverse adjusting screw rods; one end of the grinding motor clamp is provided with a transverse hole, the axis of the transverse hole is vertical to the shaft at the other end of the grinding motor clamp, and the shafts at one ends of the 3 grinding motor clamps respectively penetrate through the extending ends of the round holes on the grinding motor racks of the 3 grinding high-low components and then are inserted into the input holes of the other 3 right-angle speed reducers; one end of each of the 3 angle transmission rods penetrates through the high and low support plates from the lower plate surfaces of the 3 polishing high and low components and then is inserted into an output hole of the right-angle speed reducer, and the other end of each of the 3 angle transmission rods is inserted into an output hole of the other 3 right-angle speed reducers; a round hole is formed in the center of a square bottom plate of a polishing shield of a polishing head, 3 edges of the square are bent towards the same direction perpendicular to the plate surface of the bottom plate, the bending heights are the same, and an air guide hole is formed in the plate surface with one side bent; the grinding protective cover is arranged on a shell of one end of the grinding motor, which is provided with an output shaft, through a bottom plate, and a grinding wheel is arranged at the extending end of the output shaft of the grinding motor, which penetrates through a round hole in the bottom plate of the grinding protective cover; 2 grinding heads are respectively clamped in a grinding motor clamp of 2 grinding angle components which are positioned in a grinding 6-surface framework of the grinding cleaning frame and are far away from one end of the grinding traction device through a grinding motor, 2 grinding wheels are positioned in the same plane, and 1 edge of a grinding shield bottom plate which is not bent faces downwards; 3U-shaped fixture blocks of the grinding die assembly are respectively clamped on one side of 3 grinding cross beams arranged in a 6-surface grinding frame of the grinding cleaning frame and connected with a 6-surface grinding box, a grinding lifting device is fixed on one side of each U-shaped fixture block, a telescopic rod of the grinding lifting device extends upwards and is located in a plane where a grinding wheel of a grinding head is located, and the grinding die is arranged at the tail end of the telescopic rod of each 3 grinding lifting device. The cleaning device is characterized in that 1 cleaning head provided with a cleaning wheel is clamped in a polishing motor clamp of a polishing angle assembly close to one end of a polishing traction device in a polishing 6-surface frame of a polishing cleaning frame through a polishing motor, the cleaning wheel and 2 polishing grinding wheels are positioned in the same plane, and the 1 non-bent edge of a bottom plate of a polishing shield faces downwards. 3 water pumps of the cooling system are arranged on one side of the water tank, a water inlet of each water pump is connected with the water tank, a water outlet of each water pump is respectively connected with a polishing head of the 2 polishing devices of the polishing cleaning devices and a water inlet of a polishing motor of the cleaning head of the 1 cleaning device through water pipes, and a water outlet of each polishing motor is connected with the water tank through water pipes; the dust removal frame of the dust removal system is of a frame structure, the dust removal frame is arranged on the ground, a dust remover is arranged inside the dust removal frame, a fan is arranged above the dust remover, the tail end of an air pipe is respectively connected with a polishing head of 2 polishing devices of a polishing cleaning device and an air inducing hole of a polishing shield of a cleaning head of 1 cleaning device, the other end of the air pipe is respectively connected with an air inlet of the dust remover, and an air outlet of the dust remover is connected with an air inlet of the fan. A pressure-sensitive worktable of the pressure-sensitive sticking device is arranged on the ground through a pressure-sensitive 6-side box, a pressure-sensitive bedplate is fixed on the upper plane of the pressure-sensitive 6-side box, and a pressure-sensitive guide frame is arranged at one end of the pressure-sensitive 6-side box in the length direction of the upper plane; the pressure-sensitive 6-face frame in a rectangular frame structure is positioned above the pressure-sensitive bedplate on the pressure-sensitive 6-face box, and a middle plane rectangular frame which is parallel to the length direction of the pressure-sensitive 6-face frame and has the same length is arranged in the pressure-sensitive 6-face frame. A pressure-sensitive traction drive is arranged on the board surface of one side of a gluing bottom board of a gluing traction assembly of a gluing guiding device of the gluing device, and a shaft of a pressure-sensitive driving roller penetrates through the gluing bottom board from the board surface of the other side of the gluing bottom board and then is inserted into an output hole of the pressure-sensitive traction drive; the pressure-sensitive cylinder is arranged on the surface of the gluing bottom plate on the side provided with the pressure-sensitive driving roller, 1 pressure-sensitive guide rail is respectively arranged on each of two sides of the pressure-sensitive cylinder of the gluing bottom plate, and 2 pressure-sensitive guide rails are parallel to the telescopic rod of the pressure-sensitive cylinder and are symmetrically arranged relative to the pressure-sensitive cylinder; a pressure-sensitive roller mounting plate provided with 2 pressure-sensitive sliding blocks on one side plate surface is arranged at the tail end of a telescopic rod of the pressure-sensitive cylinder, the 2 pressure-sensitive sliding blocks are respectively arranged on 2 pressure-sensitive guide rails, a pressure-sensitive roller is arranged on the other side plate surface of the pressure-sensitive roller mounting plate, the pressure-sensitive roller is aligned with the pressure-sensitive active roller, and the axes of the pressure-sensitive roller and the pressure-sensitive active roller are parallel to each other; one end of each of 4 gluing rods of the gluing support assembly is respectively arranged on the plate surface of one side, provided with the pressure-sensitive driving roller, of the gluing bottom plate of the gluing traction assembly, 1 press belt roller is arranged at the tail end of the corresponding gluing rod through a roller handle, the axis of the press belt roller is perpendicular to the plate surface of the gluing bottom plate, one end of a gluing tension spring is hung on the roller handle of the press belt roller, and the other end of the gluing tension spring is hung at the tail end of the other 1 gluing rod; the pipe guide nozzle and the gluing brush are arranged at the tail ends of the other 2 gluing rods, and the pipe guide nozzle, the gluing brush and the center of the pinch roller in the length direction are positioned in the same plane parallel to the surface of the gluing bottom plate and in the same plane with the centers of the pressure-sensitive driving roller and the pressure-sensitive pinch roller in the length direction; the gluing guide device is arranged on a rectangular frame of a middle plane of a pressure-sensitive 6-face frame of the pressure-sensitive workbench through a gluing bottom plate of the gluing traction assembly, the surface of the gluing bottom plate is perpendicular to the width direction of the pressure-sensitive workbench and is positioned at one end of the pressure-sensitive 6-face box in the length direction of the upper plane and close to the pressure-sensitive guide frame, a telescopic rod of the pressure-sensitive cylinder extends downwards, and a gluing brush faces downwards. One side edge of a glue dripping plate of the glue dripping assembly is fixed on a plate surface on one side, provided with the pressure-sensitive active roller, of a gluing bottom plate of a gluing traction assembly of the gluing guiding device, and the plate surface of the glue dripping plate is vertical to the plate surface of the gluing bottom plate and is horizontally arranged; the upper plane of the glue dripping plate is provided with a glue dripping pump and a glue dripping barrel, one end of a glue dripping pipe is connected with a glue outlet of the glue dripping pump, the other end of the glue dripping pipe is inserted into a hole of a guide pipe nozzle of a gluing support component of the gluing guide device, and a pipe orifice of the glue dripping pipe faces downwards; the die U-shaped frame of the pressure-sensitive die assembly is in a U-shaped groove shape, 4 die guide pillars are arranged on the outer plane of a U-shaped bottom plate of the die U-shaped frame, the 4 die guide pillars are all perpendicular to the surface of the U-shaped bottom plate of the die U-shaped frame, the die U-shaped frame is arranged on a pressure-sensitive bedplate of a pressure-sensitive 6-face box of a pressure-sensitive workbench through the 4 die guide pillars, a U-shaped opening of the die U-shaped frame is upward, the surface of the U-shaped bottom plate is parallel to the pressure-sensitive bedplate, the surface of a U-shaped side plate is parallel to the length direction of the pressure-sensitive workbench, and the 4 die guide pillars penetrate through the pressure-sensitive bedplate and then extend downward; the mould round nut is arranged on the pressure-sensitive bedplate and is positioned between the 4 mould guide columns, after the mould screw is screwed into the mould round nut from the lower part of the pressure-sensitive bedplate, the upward extending end of the mould screw is connected with the U-shaped bottom plate of the mould U-shaped frame, and the downward other end of the mould screw is provided with a mould hand wheel; two ends of 2 die guide columns of which the middle parts are provided with die guide blocks are supported on a U-shaped side plate of a die U-shaped frame, the plane of the axes of the 2 die guide columns is parallel to a U-shaped bottom plate of the die U-shaped frame, two ends of another 1 die screw of which the middle part is provided with a die nut block are supported on the U-shaped side plate of the die U-shaped frame and are positioned between the 2 die guide columns, a die hand wheel is arranged at the extending end of one end of the die screw, which penetrates through the U-shaped side plate of the die U-shaped frame, the middle part of the pressure-sensitive die is arranged on the die nut block, and two ends of the pressure-sensitive die are arranged on the 2 die guide blocks. A drying box body of a drying box of the drying device is in a U-shaped groove shape, a plurality of drying rods are uniformly arranged between U-shaped side walls on two sides of the drying box body along the length direction vertical to a U-shaped plane, round holes are formed in the U-shaped side walls on two sides of the drying box body and one end of the U-shaped side walls vertical to the U-shaped plane, a tensioning groove parallel to the length direction is formed in the other end of the drying box body, and tensioning lugs are arranged on the outer sides of the U-shaped side walls on two sides of the drying box body and one end of the tensioning groove far away from the round holes; the drying box is arranged on a pressure-sensitive platen of a pressure-sensitive 6-face box of the pressure-sensitive workbench through the outer plane of the bottom of a U-shaped groove of the drying box body, the U-shaped plane of the drying box body is perpendicular to the length direction of the pressure-sensitive workbench, the drying box is positioned at the position, close to the gluing device, in the middle of the pressure-sensitive 6-face box in the length direction of the pressure-sensitive workbench, and one end, provided with a tensioning groove, of the U-shaped side wall of the drying box body is positioned at one end of a pressure-sensitive guide frame at one end in the length direction of the upper plane of the pressure-sensitive 6-face box; the drying and conveying drive of the drying and conveying device is arranged on a rectangular frame in the middle plane of a pressure-sensitive 6-surface frame of the pressure-sensitive workbench, the drying and conveying drive is positioned at one end of a pressure-sensitive guide frame far away from a pressure-sensitive 6-surface box in the length direction vertical to a U-shaped plane of a drying box body, and an output shaft of the drying and conveying drive extends out towards the direction of a pressure-sensitive active roller arranged on a gluing bottom plate of a gluing traction assembly of the gluing device; two ends of the drying driving roller are respectively supported in circular holes at one end of the U-shaped side walls at two sides of the drying box body, which are far away from the tensioning groove, and the extending end of the shaft of the drying driving roller, which penetrates through the U-shaped side walls of the drying box body, is connected with a shaft of the drying conveying drive; two ends of the drying driven roller are respectively supported in tensioning grooves in U-shaped side walls on two sides of the drying box body, and 2 tensioning screws penetrate through tensioning lugs of the drying box and are respectively screwed into extending ends of shafts at two ends of the drying driven roller after penetrating through the tensioning grooves; a plurality of drying carrier rollers are uniformly arranged between the drying driving roller and the drying driven roller, a bus on each drying carrier roller and upper buses of the drying driving roller and the drying driven roller are positioned in the same plane, drying belts are hung on the drying driving roller and the drying driven roller, and the upper sections of the drying belts are supported on the plurality of drying carrier rollers; the heating groove of the drying component is in a U-shaped groove shape, a plurality of U-shaped heating groove frames are uniformly arranged on the outer side of the heating groove along the length direction vertical to the U-shaped plane, two ends of a plurality of heating pipes are respectively arranged on the 2 heating pipe frames, and a combination of a plurality of groups of heating pipes and the heating pipe frames is arranged in the U-shaped groove of the heating groove through the heating pipe frames; the drying box cover is 6-face box shapes with 1-face opening, the drying component is installed in the drying box cover through a plurality of heating groove frames, and the drying box cover is hinged at the edge of the U-shaped side wall of the drying box body of the drying box through 1 long edge of the opening. The surface of one side of a pressing bottom plate of a pressing traction assembly of a pressing guide device of the pressing device is provided with a pressure-sensitive traction drive, the surface of the other side of the pressing bottom plate is provided with a pressure-sensitive active roller, and the extending end of the pressure-sensitive active roller, which penetrates through the pressing bottom plate, is inserted into an output hole of the pressure-sensitive traction drive; the same side of the plate surface provided with the pressure-sensitive driving roller is provided with a pressure-sensitive cylinder, two sides of the plate surface are provided with pressure-sensitive guide rails, and 2 pressure-sensitive guide rails and telescopic rods of the pressure-sensitive cylinder are symmetrically arranged; the surface of one side of the pressure roller mounting plate is provided with 2 pressure-sensitive sliding blocks, the other side of the pressure roller mounting plate is provided with a pressure-sensitive pressure roller, the edge of one side vertical to a sliding chute of the pressure-sensitive sliding block is provided with a pressure sensor, and the pressure sensor is positioned on the symmetrical surface of the 2 pressure-sensitive sliding blocks; the pressure-sensitive rolling mounting plate is mounted at the tail end of a telescopic rod of the pressure-sensitive cylinder through a pressure sensor, 2 pressure-sensitive sliding blocks are respectively mounted on 2 pressure-sensitive guide rails, the pressure-sensitive rolling on the other side plate surface is aligned with the pressure-sensitive driving roller, and the axes of the pressure-sensitive rolling and the pressure-sensitive driving roller are parallel to each other; the pressure-sensitive cylinder of the pressure-sensitive cylinder adjusting component is arranged on the surface of one side of a pressure-sensitive cylinder arranged on a pressure-sensitive bottom plate of the pressure-sensitive cylinder traction component, the extension directions of the telescopic rods of the 2 pressure-sensitive cylinders are the same, the telescopic rods are parallel, and the two sides of the pressure-sensitive cylinder adjusting component are provided with 2 pressure-sensitive guide rails which are symmetrically arranged; one side plate surface of the pressure-sensitive mounting plate is provided with 2 pressure-sensitive sliding blocks, the other side of the pressure-sensitive mounting plate is provided with a pressure-sensitive mounting block, one side edge of the pressure-sensitive mounting plate is arranged at the tail end of a telescopic rod of the pressure-sensitive cylinder, and the 2 pressure-sensitive sliding blocks are respectively arranged on the 2 pressure-sensitive guide rails; one end of 2 die guide columns of a pressure-sensitive die assembly of the pressing device is respectively fixed at two ends of a pressure-sensitive connecting plate and is vertical to the plate surface of the pressure-sensitive connecting plate, the extending end of the other end of the 2 die guide columns after penetrating through round holes at two ends of the pressure-sensitive guide block is fixed on a pressure-sensitive mounting block positioned on the plate surface on one side of the pressure-sensitive mounting plate, the plane where the 2 die guide columns are positioned is obliquely arranged with the extending direction of a telescopic rod of the pressure-sensitive cylinder, and one side far away from the pressing traction assembly is inclined towards a cylinder body of the pressure-sensitive cylinder and one side close to the pressing traction assembly is inclined towards the extending direction of the telescopic rod of the pressure-sensitive cylinder; the threaded end of the 1 piece of die screw is screwed into a screw hole in the middle of the pressure-sensitive guide block, the extending end of the other end of the 1 piece of die screw, which limits axial movement and penetrates through the pressure-sensitive connecting plate, is provided with a die hand wheel, and the surface of one side of the pressure-sensitive guide block, which is far away from the pressure-sensitive cylinder, is provided with an adhesive tape die; the pressing and pasting guiding device is arranged on a rectangular frame in the middle plane of a pressure-sensitive 6-surface frame of the pressure-sensitive workbench through a pressing and pasting bottom plate, a telescopic rod of 2 pressure-sensitive cylinders extends downwards, the surface of the pressing and pasting bottom plate is perpendicular to the width direction of the pressure-sensitive workbench, and is positioned on one side, away from the gluing device, of a middle drying device in the middle of the pressure-sensitive 6-surface box in the length direction of the plane, and a front pressing guiding device is arranged at one end, close to the pressure-sensitive 6-surface box of the pressure-sensitive workbench, of the pressing and pasting guiding device. The feeding bottom plate of the adhesive tape feeding device is in a disc shape, a charging shaft is arranged in the center of the feeding bottom plate, the axis of the charging shaft is perpendicular to the plate surface of the feeding bottom plate, the other side plate surface of the feeding bottom plate is arranged on a middle plane rectangular frame of a pressure-sensitive 6-surface frame of the pressure-sensitive workbench, and the charging shaft extends out towards the plate surface direction of one side, provided with a pressure-sensitive active roller, of the pressing bottom plate of the pressing traction assembly of the pressing guide device; a U-shaped frame of a pressure-sensitive die assembly of the pressing device is arranged on a pressure-sensitive platen of a pressure-sensitive 6-face box of a pressure-sensitive workbench through 4 die guide pillars, a U-shaped opening of the U-shaped frame is upward, the surface of a U-shaped bottom plate is parallel to the pressure-sensitive platen, the surface of a U-shaped side plate is parallel to the length direction of the pressure-sensitive workbench, the 4 die guide pillars penetrate through the pressure-sensitive platen and then extend downward, and a guide chute of the pressure-sensitive die is upward; in the length direction of the pressure-sensitive workbench, the pressure-sensitive die assembly is positioned between the pressure-sensitive active roller of the pressing traction assembly of the pressing guide device and the front pressing guide device, and in the width direction of the pressure-sensitive workbench, the sealing strip guide groove of the pressure-sensitive die, the cross sections of the pressure-sensitive active roller of the pressing traction assembly of the pressing guide device in the length direction of the pressure-sensitive pressing roller and the adhesive tape guide groove of the adhesive tape die of the pressing adjustment assembly are positioned in the same plane. The 1 long edge of 2 pieces of cutting traction vertical plates of a cutting traction frame of a cutting traction mechanism of the traction cutting device is connected together through 2 pieces of cutting traction supporting plates and is reinforced through 2 pieces of cutting traction pull rods; one end of the traction hanging plate, the length of which is greater than the width of the cutting traction vertical plate, is provided with an elongated slot parallel to the length direction of the traction hanging plate, the other end of the traction hanging plate is provided with a lug, 2 traction hanging plates are respectively fixed at the outer sides of the 2 cutting traction vertical plates, the elongated slots of the traction hanging plates are all positioned at one end, far away from the cutting traction supporting plate, of the traction hanging plate, and the surface provided with the lug faces outwards; one end of the outer side of the 1 piece of cutting traction vertical plate is provided with a cutting traction drive, a cutting traction frame is arranged on a pressure-sensitive bedplate of a pressure-sensitive 6-face box of a pressure-sensitive workbench through a cutting traction supporting plate, the cutting traction vertical plate is parallel to the length direction of the pressure-sensitive workbench, and the cutting traction frame is positioned at one end, far away from a pressure-sensitive guide frame, of the pressure-sensitive 6-face box in the length direction of the pressure-sensitive workbench; two ends of a cutting driving roller and a cutting driven roller of the cutting traction assembly are respectively supported at two ends of 2 cutting traction vertical plates, and one end of a shaft of the cutting driving roller penetrates through an extending end of the cutting traction vertical plate and is connected with a shaft of a cutting traction drive; two ends of 2 cutting carrier rollers are respectively supported in the middle of 2 cutting traction vertical plates, the same 1 cutting traction belt is hung on the cutting driving roller and the cutting driven roller, and the upper section of the cutting traction belt is supported on the 2 cutting carrier rollers; two ends of the 2 cutting traction compression rollers are respectively supported in elongated slots at one end of the 2 traction hanging plates of the cutting traction frame, and the 2 cutting traction compression rollers are all positioned above the upper section of the cutting traction belt; one end of each of the 4 cutting traction tension springs is hung on each of the 2 cutting traction compression rollers, the two ends of each cutting traction compression roller penetrate through the traction hanging plate and then extend out, and the other end of each cutting traction compression roller is hung on a lug arranged on the outer side face of the traction hanging plate. The cutting seat of the finished product cutting device is in a U-shaped groove shape, the cutting frame in the U-shaped groove shape is arranged on the outer surface of the U-shaped bottom plate of the cutting seat through the U-shaped opening, the U-shaped planes of the cutting frame and the cutting seat are parallel to each other, and the cutting frame and the cutting seat are positioned in the same plane through the symmetrical plane which is in the center of the U-shaped bottom plate and is vertical to the U-shaped plane; the section of the cutting guide groove is rectangular, a guide groove parallel to the length direction of the cutting guide groove is formed in the surface of one side of the cutting guide groove, 2 cutting guide grooves are respectively installed on the inner surface of a U-shaped side plate of the cutting frame, the guide groove of the cutting guide groove is perpendicular to the surface of a U-shaped bottom plate of the cutting frame, and a sensor is arranged on the position, far away from the U-shaped bottom plate, of a U-shaped side wall of the cutting frame; the cutting cylinder is arranged on the outer surface of the U-shaped bottom plate of the cutting frame, the telescopic rod of the cutting cylinder penetrates through the U-shaped bottom plate of the cutting frame and then extends out towards the cutting seat, the tail end of the telescopic rod of the cutting cylinder is provided with a cutting knife rest, the cutting blade is arranged on the cutting knife rest, the cutting edge of the cutting blade faces towards the cutting seat, 2 edges of the cutting blade, which are vertical to the cutting edge, are respectively clamped in the guide grooves of 2 cutting guide grooves, and one end of the cutting frame, which is vertical to the U-shaped plane, is provided with a cutting guard plate; the cutting seat of the finished product cutting device is arranged on the pressure-sensitive bedplate of the pressure-sensitive 6-surface box of the pressure-sensitive workbench, the U-shaped plane of the cutting seat is vertical to the length direction of the pressure-sensitive workbench, and the finished product cutting device is positioned at one end, far away from the pressure-sensitive guide frame, of the cutting traction mechanism in the length direction of the pressure-sensitive workbench; a cutting discharge port is arranged on one side, away from the cutting traction mechanism, of a cutting seat of the finished product cutting device, and a cutting guide device is arranged at one end, away from the finished product cutting device, of a cutting traction frame of the cutting traction mechanism.

The working principle is as follows: firstly, a corresponding material guide die is selected and installed in a material guide seat hole. Placing the sealing strip coiled into a disc shape in the center of a torsion disc of a reverse torsion device of a torsion detection feeding device of an automatic feeding device, pulling out one end of the sealing strip at the outer edge, and inserting the sealing strip into a guide hole of a guide die from the lower end surface of the guide die of the detection guide device of the traction detection device; then pulling out the sealing strip from the upper part of the material guide die and bypassing the upper part of the feeding wheel; then the sealing strip wheel is pulled, the feeding tension spring is stretched through the feeding rocker arm, and the sealing strip penetrates out from between the feeding wheel and the pressing strip wheel. When the strip pressing wheel is loosened, the strip is pressed on the strip feeding wheel by the feeding tension spring. The sealing strip penetrates through the guide strip sleeve from one side, away from the swinging driving mechanism, of the guide strip sleeve of the guide strip groove of the swinging blanking mechanism, and then is pulled towards the swinging driving mechanism along the guide strip groove; when the swinging wheel of the swinging driving mechanism is reached, the swinging wheel is wound from the upper part, after the set length is left, the feeding wheel is wound from one side of the feeding wheel of the swinging driving mechanism, which is far away from the swinging wheel, and finally the feeding wheel is pulled towards the direction of the connecting frame close to the feeding frame from the upper part of the feeding wheel.

The telescopic rod of the polishing lifting device of the polishing mould component of the polishing device of the polishing cleaning device retracts, and the polishing mould is driven to move downwards, the sealing strip is stretched into the 6-surface polishing frame from the polishing guide frame top, away from one end of the polishing traction device, of the 6-surface polishing frame, the sealing strip is sequentially stretched into the 6-surface polishing frame from the polishing guide frame top, between the polishing grinding wheel of the polishing head of 2 polishing devices and the polishing mould of the polishing mould component, the sealing strip is sequentially stretched out of the polishing guide frame top, close to one end of the polishing traction device, of the 6-surface polishing frame, and the cleaning wheel of the cleaning head of 1 cleaning device and the polishing mould of the polishing mould component penetrate through the sealing strip. Rotating a polishing hand wheel of a polishing adjusting component of a polishing traction mechanism of the polishing traction device, driving a polishing traction component II to move upwards through a polishing screw rod and a polishing support plate, simultaneously pulling a polishing traction swing arm to swing around the tail end of an L-shaped edge of a polishing traction support arm provided with a polishing traction intermediate wheel, and pulling a polishing traction support arm to swing around the shaft of a polishing driving roller I; then, a sealing strip extending out of the upper portion of a polishing guide frame, close to one end of the polishing traction device, of the 6-surface polishing frame is led into a position between polishing traction belts of the polishing traction assembly I and the polishing traction assembly II. And then, reversely rotating a polishing hand wheel of the polishing adjusting assembly to clamp the sealing strip. The telescopic rod of the polishing lifting device extends out, and the sealing strip is lifted to be in contact with a polishing grinding wheel of a polishing head of the polishing device and a cleaning wheel of a cleaning head of the cleaning device through a polishing mould; and adjusting nuts at the tail ends of transverse adjusting screw rods of the transverse adjusting assemblies for polishing of the polishing device and the cleaning device and polishing hand wheels of the high-low assemblies and the polishing angle assemblies, so that the position relation among the sealing strip, the polishing grinding wheel and the cleaning wheel is accurate, and the compression degree meets the requirement.

The telescopic rod of the pressure-sensitive cylinder of the gluing traction assembly of the gluing guide device of the gluing device of the pressure-sensitive gluing device retracts, and drives the pressure-sensitive press roller to rise through the press roller mounting plate, so that the sealing strip guided by the pressure-sensitive guide frame at one end of the pressure-sensitive 6 face box of the pressure-sensitive workbench passes through the space between the pressure-sensitive press roller and the pressure-sensitive driving roller; pulling a press belt roller of a gluing support assembly of the gluing guide device, stretching a gluing tension spring, lifting the press belt roller, enabling a sealing strip to penetrate through a gap between the press belt roller and a sealing strip guide groove of a pressure-sensitive die assembly of the gluing device in a direction away from a pressure-sensitive guide frame, and jacking a soft gluing brush to continue to move forwards; and then the belt pressing roller is loosened, and the sealing strip is pressed in the sealing strip guide groove of the pressure-sensitive die under the action of the gluing tension spring. And meanwhile, a mould hand wheel of a pressure-sensitive mould assembly of the gluing device is rotated to adjust the height position of the pressure-sensitive mould or the transverse position perpendicular to the length direction of the pressure-sensitive worktable until the proper position is reached. The sealing strip continues to move forwards towards the pressure-sensitive guide frame at one end of the pressure-sensitive 6-face box far away from the pressure-sensitive workbench, penetrates into the drying device from the drying assembly at one end, far away from the drying conveying device, of the drying conveying device and the upper section of the drying strip of the drying conveying device, and then penetrates out from one end, close to the drying conveying driving device, of the drying device. The telescopic rod of the pressure-sensitive cylinder of the pressure-sensitive adjusting component of the pressure-sensitive guiding device of the pressure-sensitive device retracts, the pressure-sensitive guide block and the adhesive tape mold are driven to lift through the pressure-sensitive mounting plate and the pressure-sensitive mounting block, and the sealing strip guided by the pressure-sensitive guiding device passes through the adhesive tape guide groove of the adhesive tape mold and the sealing strip guide groove of the pressure-sensitive mold; the adhesive tape is pulled out from a loading shaft of the adhesive tape supply device, the surface coated with the protective film is arranged in the adhesive tape guide groove of the adhesive tape mould inwards, and the surface of the adhesive tape without the protective film is pasted on the sealing strip in the sealing strip guide groove of the pressure-sensitive mould. Meanwhile, a mould hand wheel of a pressure-sensitive mould component of the pressing and pasting device and a mould hand wheel of a pressing and pasting adjusting component are rotated to adjust the height position of the pressure-sensitive mould or the transverse position vertical to the length direction of the pressure-sensitive worktable until the pressure-sensitive mould is proper. The telescopic rod of the pressure-sensitive cylinder of the pressure-sensitive traction assembly of the pressure guide device of the pressure device retracts, the pressure-sensitive pressure roller is driven to rise through the pressure sensor and the pressure-sensitive mounting plate, and the sealing strip continuously penetrates through the pressure-sensitive pressure roller and the pressure-sensitive driving roller forwards. Pulling a cutting traction compression roller of a cutting traction mechanism of the traction cutting device, stretching a cutting traction tension spring, then lifting the cutting traction compression roller, and enabling the sealing strip adhered with the adhesive tape to pass through a cutting guide device of the traction cutting device and a cutting traction driving end far away from the cutting traction mechanism, and enabling the 2 cutting traction compression rollers and the upper section of a cutting traction belt of a cutting traction assembly to pass through; then the cutting traction compression roller is loosened, and the cutting traction compression roller presses the sealing strip adhered with the adhesive tape on the upper section of the cutting traction belt under the action of the cutting traction tension spring.

And starting a drying assembly of a drying device of the polishing and cleaning device, and starting a pressure-sensitive adhesive tape production line when the temperature rises to a set value. The torsion detection feeding device for the automatic feeding device is started, the feeding traction drive of the feeding traction device of the feeding device is detected, the swinging vibration drive of the swinging vibration driving mechanism of the blanking mechanism is driven, each power device of the polishing and cleaning device is started, each pressure-sensitive cylinder of the pressure-sensitive adhesive device is started to enable the telescopic rod of the pressure-sensitive adhesive device to stretch out, and the sealing strip or the sealing strip adhered with the adhesive tape is compressed. The sealing strip is sent out from the upper part of a feeding wheel of the swinging blanking mechanism at a constant speed according to a set speed, and due to the traction of the grinding traction device, the sealing strip sequentially passes through a grinding wheel of a grinding head and a gap between a cleaning wheel of the cleaning head and a grinding die from one end, far away from the grinding traction device, of a grinding 6-surface frame of the grinding cleaning frame and moves towards the grinding traction device; the adhesive coating guiding device of the adhesive coating device and the pressure-sensitive traction driving of the pressing guiding device of the pressing device are dragged by the pressure-sensitive active roller, and the drying conveying driving of the drying conveying device of the drying device is dragged by the drying belt and the cutting traction driving of the cutting traction mechanism of the traction cutting device, and the adhesive coating guiding device runs from one end of the pressure-sensitive guide frame of the pressure-sensitive 6-surface box of the pressure-sensitive workbench to the other end of the pressure-sensitive guide frame.

In the process, the sealing strip is polished by the polishing grinding wheel, and the original smooth surface is polished into a rough surface, so that subsequent gluing and firm sticking are facilitated; and then cleaning the abrasive dust which is not fallen off on the surface of the sealing strip by a cleaning wheel made of soft materials. The abrasive dust produced in the grinding and cleaning processes drops to the abrasive dust box through an abrasive dust hopper arranged in the grinding 6-face box. On a pressure-sensitive die of a pressure-sensitive die assembly of the gluing device, a glue dripping assembly firstly applies glue on a sealing strip through a glue dripping pipe, and then a gluing brush of a gluing support assembly uniformly applies the glue on the sealing strip. And (4) with the continuous forward operation of the sealing strip, the sealing strip enters a drying box of the drying device to be heated and dried, so that the glue is gradually dried, and the pressure-sensitive adhesion at the back is facilitated. When the adhesive tape enters the pressure-sensitive die of the pressure-sensitive die assembly of the pressing and sticking device through the pressing front guide device of the pressing and sticking device, the adhesive tape is pressed and stuck on the sealing strip due to the guidance of the adhesive tape die of the pressing and sticking adjusting assembly of the pressing and sticking guide device, and then immediately enters a position between the pressure-sensitive driving roller and the pressure-sensitive pressing roller of the pressing and sticking traction assembly to implement pressing and sticking; and a pressure sensor of the pressing traction assembly detects the pressure value between the pressure-sensitive active roller and the pressure-sensitive pressure roller on line, and when the pressure value exceeds a set range, a pressure-sensitive cylinder of the pressing traction assembly is started so as to adjust the pressure between the pressure-sensitive active roller and the pressure-sensitive pressure roller in real time and restore the pressure to the set range. When the sealing strip pressed with the adhesive tape enters a cutting traction mechanism of the traction cutting device through a cutting guide device of the traction cutting device, the sealing strip continuously moves forwards under the traction of the traction cutting device; after entering the finished product cutting device, a sensor of the finished product cutting device starts to measure the length of the sealing strip, when the length of the sealing strip passing through the sensor reaches a set value, a cutting cylinder of the finished product cutting device is started, a cutting knife rest drives a cutting blade to move downwards, and then the sealing strip pressed with the adhesive tape is cut into sections and falls down through a cutting discharge hole.

Because the cross section shapes of the sealing strips are different, after the sealing strips are drawn out from the coiled disc shape on the torsion disc of the reverse torsion device of the torsion detection feeding device, the cross section of the sealing strips rotates along with the rotation, so that the surface of the adhesive tape to be adhered cannot be kept upward all the time. Therefore, 1 pair of torsion sensors are arranged on a detection mounting plate of a detection guide device of a traction detection device of the torsion detection feeding device, when the sealing strip passes through from the upper part, the torsion sensors detect the cross section form of the sealing strip on line, when the deflection of the cross section of the sealing strip is detected, an instruction is sent to the reverse torsion drive of the reverse torsion device, the reverse torsion drive reversely rotates for a corresponding angle, and when the torsion sensors detect that the cross section of the sealing strip is restored to a normal form, a stop instruction is sent to the reverse torsion drive again. The detection mounting panel of detecting the guide device has still set up 1 on to expect sensor absolutely, just reports to the police when detecting no sealing strip and shuts down.

The sealing strip is generally made of rubber, and the friction coefficient is large when the sealing strip is in contact with a metal material, so that clamping stagnation can be generated sometimes when the sealing strip runs along the guide strip groove towards the direction of a swinging driving mechanism of the swinging blanking mechanism. Therefore, the cross section of the swinging wheel of the swinging driving mechanism is designed to be square, and the sealing strip is driven to generate a periodic swinging phenomenon during rotation, so that the sealing strip can be effectively kept to smoothly move towards the direction of the swinging driving mechanism.

Because the polishing motors of the polishing head and the cleaning head are high-speed motors, a large amount of heat is generated in the working process. Therefore, the water pump of the cooling system conveys the water with lower temperature to the grinding motor through the water pipe, and takes away the heat when returning to the water tank so as to ensure the normal work of the grinding motor. Fine abrasive dust generated in the grinding and cleaning processes is sucked away by a dust removal system connected with the air inducing holes of the grinding head and the grinding shield of the cleaning head through an air pipe, and is discharged into the atmosphere after dust removal and purification.

Compared with the current state of the art, the detection material guide device of the torsion detection feeding device is provided with 1 pair of torsion sensors, so that the cross section form of the sealing strip can be detected on line, when the cross section of the sealing strip is detected to deflect, the reverse torsion is started to drive the sealing strip to rotate reversely for a corresponding angle until the cross section of the sealing strip is restored to the normal form, and the surface of the sealing strip to which the adhesive tape is adhered can be ensured to be always upward; the detection material guide device is provided with 1 pair of material breaking sensors, so that whether the sealing strips pass through can be detected on line, and the normal supply of the sealing strips is ensured; the cross section of the swinging wheel of the shaking driving mechanism is square, so that the sealing strip is driven to generate periodic shaking phenomenon during rotation, and the sealing strip can be effectively kept to smoothly move towards the direction of the swinging driving mechanism in the guide strip groove; due to the arrangement of the polishing traction device, the sealing strip is ensured to normally run so as to be convenient for polishing and cleaning, and a foundation is laid for the subsequent gluing and pasting procedures; the grinding traction device is provided with the grinding adjustment component, so that the introduction of the front sealing strip is convenient to draw, and the clamping degree of the grinding traction component I and the grinding traction component II on the sealing strip is convenient to adjust in time, so that the sealing strip can pass smoothly and stably; due to the arrangement of the polishing device and the cleaning device, the originally smooth surface of the sealing strip can be efficiently and quickly polished into a rough surface, and the abrasive dust is cleaned up, so that the occupation of labor force is greatly reduced, and the labor intensity of workers is reduced; because the polishing mechanisms of the polishing device and the cleaning device are provided with the polishing transverse adjusting assembly, the polishing high-low assembly and the polishing angle assembly, the transverse positions, the high-low positions and the angles of the polishing grinding wheel and the cleaning wheel can be adjusted, so that the polishing device is suitable for polishing and cleaning of sealing strips with different section shapes and sizes; due to the arrangement of the cooling system, the normal work of high-speed motors of the grinding device and the cleaning device is ensured; due to the arrangement of the dust removal system, fine abrasive dust generated in the polishing and cleaning processes is sucked away in time, so that the environment pollution is avoided, and the health of operators is ensured; due to the arrangement of the gluing device, the height position and the transverse position of the pressure-sensitive die of the gluing device can be conveniently adjusted, gluing is uniform, and the efficiency is high; due to the arrangement of the drying device, the adhesive can be quickly heated and dried, so that the subsequent pressure-sensitive adhesion is facilitated; the pressure sensor is arranged on the pressing traction assembly of the pressing device, so that the pressure value between the pressure-sensitive active roller and the pressure-sensitive pressing roller can be detected on line, the pressure between the pressure-sensitive active roller and the pressure-sensitive pressing roller can be adjusted in real time, and the pressure is ensured to be always kept in the setting range, so that the adhesive tape can be conveniently pressed and pasted on the sealing strip, and the pressing and pasting are firm and fast; because the finished product cutting device of the traction cutting device is provided with the sensor, the length of the passed sealing strip pressed with the adhesive tape can be accurately measured, and therefore, the cutting is accurate and the efficiency is high.

Drawings

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

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

FIG. 3 is an isometric view of the automatic loading unit of the embodiment of FIG. 1 of the present invention;

FIG. 4 is an isometric view of the embodiment of the automatic loading unit of FIG. 3 in another orientation;

fig. 5 is an isometric view of the loading frame of the embodiment of fig. 3 of the present invention;

FIG. 6 is an isometric view of the torsion detecting loading apparatus of the embodiment of the present invention shown in FIG. 3;

FIG. 7 is an isometric view of the draft sensing assembly of the embodiment of FIG. 6 of the present invention;

FIG. 8 is an isometric view of the loading draft gear of the embodiment of the present invention shown in FIG. 7;

FIG. 9 is an isometric view of the sensing guide assembly of the embodiment of FIG. 7;

FIG. 10 is an isometric view of the reverse torsion apparatus of the embodiment of FIG. 9 of the present invention;

FIG. 11 is an isometric view of the oscillating blanking mechanism of the embodiment of FIG. 3 of the present invention;

FIG. 12 is an isometric view of the embodiment of the present invention shown in FIG. 11;

FIG. 13 is an isometric view of the guide bar slot of the embodiment of FIG. 12 of the present invention;

FIG. 14 is an isometric view of the sanding cleaning device of the embodiment of FIG. 1 of the present invention;

FIG. 15 is an isometric view of the embodiment of the sanding cleaning device of FIG. 14 in another orientation;

FIG. 16 is an isometric view of the sanding conditioning stand of the embodiment of FIG. 14;

FIG. 17 is an isometric view of the sanding traction device of the embodiment of FIG. 14 of the present invention;

figure 18 is an isometric view of the sanding traction mechanism of the embodiment of figure 17 of the present invention;

FIG. 19 is an isometric view of the sanding traction assembly I of the embodiment of FIG. 18 of the present invention;

FIG. 20 is an isometric view of the sanding traction assembly II of the embodiment of FIG. 18 of the present invention;

FIG. 21 is an isometric view of the sanding traction drive of the embodiment of FIG. 18 of the present invention;

figure 22 is an isometric view of the sanding adjustment assembly of the embodiment of figure 18 of the present invention;

figure 23 is an isometric view of the grinding apparatus of the embodiment of the invention shown in figure 14;

FIG. 24 is an isometric view of the grinding mechanism of the embodiment of the invention shown in FIG. 23;

FIG. 25 is an isometric view of the grinding crossmember assembly of the embodiment of the present invention shown in FIG. 24;

FIG. 26 is an isometric view of the sanding highlift assembly of the embodiment of FIG. 24 of the present invention;

figure 27 is an isometric view of the sharpening angle assembly of the embodiment of figure 24 of the present invention;

figure 28 is an isometric view of the sanding head of the embodiment of figure 23 in accordance with the present invention;

FIG. 29 is an isometric view of the grinding die assembly of the embodiment of the present invention shown in FIG. 23;

FIG. 30 is an isometric view of the cleaning device of the embodiment of FIG. 14 of the present invention;

FIG. 31 is an isometric view of the cleaning head of the embodiment of FIG. 30 of the present invention;

FIG. 32 is an isometric view of the cooling system of the embodiment of FIG. 14 of the present invention;

FIG. 33 is an isometric view of the dusting system of the embodiment of the invention shown in FIG. 14;

FIG. 34 is an isometric view of the pressure sensitive adhesive applicator of the embodiment of FIG. 1 of the present invention;

FIG. 35 is an isometric view of the pressure sensitive adhesive applicator of the embodiment of FIG. 34 of the present invention in another orientation;

FIG. 36 is an isometric view of the pressure sensitive table of the embodiment of FIG. 34 of the present invention;

FIG. 37 is an isometric view of the glue applicator of FIG. 34 according to the embodiment of the invention;

fig. 38 is an isometric view of the glue guide apparatus of the embodiment of the invention shown in fig. 37;

FIG. 39 is an isometric view of the glue drawing assembly of the embodiment of the invention shown in FIG. 38;

FIG. 40 is an isometric view of the adhesive support assembly of the embodiment of the invention shown in FIG. 38;

FIG. 41 is an isometric view of the glue drip assembly of the embodiment of the invention shown in FIG. 37;

FIG. 42 is an isometric view of the pressure sensitive die assembly of the embodiment of the present invention shown in FIG. 37;

fig. 43 is an isometric view of the drying appliance of the embodiment of the invention shown in fig. 34;

FIG. 44 is an isometric view of the drying rack of the embodiment of the invention shown in FIG. 43;

FIG. 45 is an isometric view of the drying conveyor of the embodiment of the invention shown in FIG. 43;

fig. 46 is an isometric view of the drying assembly of the embodiment of the invention shown in fig. 43;

FIG. 47 is an isometric view of the embodiment of the bonding device of FIG. 34 of the present invention;

FIG. 48 is an isometric view of the embodiment of the crimping guide of FIG. 47 of the present invention;

FIG. 49 is an isometric view of the embodiment of a crimping traction assembly shown in FIG. 48 of the present invention;

FIG. 50 is an isometric view of the embodiment of the ride adjustment assembly shown in FIG. 49 of the present invention;

FIG. 51 is an isometric view of the tape supply apparatus of the embodiment of the invention illustrated in FIG. 47;

FIG. 52 is an isometric view of the traction cropper of the embodiment of FIG. 34 in accordance with the invention;

fig. 53 is an isometric view of the completed traction device of the embodiment of fig. 52 in accordance with the invention;

fig. 54 is an isometric view of the completed traction frame of fig. 53 in accordance with the embodiment of the invention;

fig. 55 is an isometric view of the completed traction mechanism of the embodiment of fig. 53 in accordance with the invention;

fig. 56 is an isometric view of the completed cutting device of the embodiment of the invention shown in fig. 52.

Detailed Description

1. The automatic feeding device 11, the feeding frame 110, the bead protection box 1110, the support legs 111, the connecting frame 112, the supporting frame 1120, the support rods 12, the torsion detection feeding device 120, the traction detection device 1200, the feeding traction device 12000, the feeding mounting plate 12001, the feeding traction drive 12002, the feeding wheel 12003, the feeding rocker arm 12004, the bead wheel 12005, the feeding tension spring 1201, the detection guide device 12010, the detection mounting plate 12011, the guide seat 12012, the guide die 12013, the material breakage sensor 12014, the torsion sensor 121, the reverse torsion device 1210, the torsion frame 1211, the torsion mounting plate 1212, the torsion shaft sleeve 1213, the reverse torsion drive 1214, the torsion driving wheel 1215, the torsion driven wheel 1216, the torsion disc 13, the pendulum material falling mechanism 130, the pendulum driving mechanism 1300, the pendulum mounting plate 1301, the pendulum driving wheel 1302, the pendulum wheel 1303, the pendulum supporting legs 1304, the pendulum driving wheel 1304, the pendulum supporting legs, The grinding machine comprises a layering roller 131, a guide strip groove 1310, a guide strip groove 1311, a guide strip sleeve 1312, a guide strip lug 2, a grinding cleaning device 21, a grinding cleaning frame 210, a grinding 6-surface box 2100, a grinding funnel 2101, a grinding box 211, a grinding 6-surface frame 2110, a grinding beam 2111, an adjusting support plate 2112, a grinding guide frame 22, a grinding traction device 220, a grinding traction frame 221, a grinding traction drive 222, a grinding traction mechanism 2220, a grinding traction component I22200, a grinding traction vertical plate 22201, a grinding drive roller I22202, a grinding driven roller 22203, a grinding traction belt 2221, a grinding traction component II 22210, a grinding traction support plate 22211, a grinding drive roller II 2222, a grinding traction drive transmission 22220, a grinding traction support arm 22221, a grinding traction swing arm 22222, a grinding traction gear 22223, a grinding traction intermediate wheel 2223, a grinding adjustment component 22230, a grinding 22222222222231, a grinding support plate 22231, a grinding traction intermediate wheel, Grinding guide rod 22232, grinding connecting plate 22233, grinding screw 22234, grinding hand wheel 223, grinding traction shield 23, grinding device 230, grinding mechanism 2300, grinding horizontal adjustment component 23000, horizontal adjustment U-shaped plate 23001, horizontal adjustment mounting plate 23002, horizontal adjustment slider 23003, horizontal adjustment lug 23004, high and low lug 23005, horizontal adjustment screw 2301, grinding high and low component 23010, high and low adjustment plate 23011, high and low guide rail 23012, grinding motor frame 23013, high and low support plate 23014, right-angle speed reducer 2302, grinding angle component 23020, grinding motor clamp 23021, angle transmission rod 231, grinding head 2310, grinding shield 23100, air guide hole 2311, grinding motor 2312, grinding wheel 232, grinding die component 2320, U-shaped fixture block 2321, grinding lifting device 2322, grinding die 24, cleaning device 240, cleaning head 2400, cleaning wheel 25, cooling system 250, cleaning motor 2302, and grinding wheel, Water tank 251, water pump 26, dust removing system 260, dust removing frame 261, dust remover 262, fan 3, pressure-sensitive adhesion device 31, pressure-sensitive workbench 310, pressure-sensitive 6 face box 3100, pressure-sensitive platen 3101, pressure-sensitive guide frame 311, pressure-sensitive 6 face frame 3110, middle plane rectangular frame 32, gluing device 320, gluing guide 3200, gluing traction assembly 32000, gluing bottom plate 32001, pressure-sensitive traction drive 32002, pressure-sensitive active roller 32003, pressure-sensitive cylinder 32004, pressure-sensitive guide track 32005, pressure-sensitive roller mounting plate 32006, pressure-sensitive slider 32007, pressure-sensitive roller 3201, gluing support assembly 32010, gluing rod 32011, pinch roller 32012, gluing tension spring 32013, conduit nozzle 32014 gluing brush 321, glue dripping assembly 3210, glue dripping plate 3211, glue dripping pump 2, glue dripping bucket 3213, glue dripping pipe 322, pressure-sensitive mold assembly 3220, mold U-shaped frame 3221, mold 3222, pressure-sensitive adhesive table 310, pressure-sensitive adhesive table 32002, pressure-sensitive adhesive table 32003, pressure-sensitive adhesive table 3202, pressure-sensitive adhesive table, adhesive table, pressure-sensitive adhesive table adhesive, adhesive table adhesive, adhesive table adhesive, adhesive table adhesive, adhesive table adhesive, adhesive table adhesive, adhesive table adhesive, adhesive table adhesive, adhesive table adhesive, adhesive table adhesive, adhesive table adhesive, adhesive table adhesive, adhesive, A mold round nut 3223, a mold screw 3224, a mold hand wheel 3225, a mold guide 3226, a mold nut block 3227, a pressure-sensitive mold 33, a drying device 330, a drying box 3300, a drying box 3301, a drying rod 3302, a tension groove 3303, a tension lug 331, a drying conveyor 3310, a drying conveyor drive 3311, a drying drive roller 3312, a drying driven roller 3313, a tension screw 3314, a drying carrier roller 3315, a drying belt 332, a drying component 3320, a heating groove 3321, a heating groove holder 3322, a heating pipe 3323, a heating pipe holder 333, a drying box cover 34, a pressing device 340, a pressing guide device 3400, a pressing traction component 34000, a pressing bottom plate 34001, a pressure sensor 3401, a pressing adjustment component 34010, a pressure-sensitive mounting plate 34011, a pressure-sensitive mounting block 12, a pressure-sensitive connecting plate 34013, a pressure-sensitive guide block 34014, a tape mold 341, a pressing front guide device 342, a pressure-sensitive mounting block 3401, a pressure-sensitive connecting plate, a pressure-sensitive guide block 34014, a pressure-sensitive guide block, a pressure-sensitive guide device 342, a pressure-sensitive guide device, a pressure-sensitive mold, a mold guide device, a mold drive roller, a mold drive device, a mold, the automatic cutting machine comprises a tape supply device 3420, a feed bottom plate 3421, a loading shaft 35, a traction cutting device 350, a cutting traction mechanism 3500, a cutting traction frame 35000, a cutting traction vertical plate 35001, a cutting traction supporting plate 35002, a cutting traction pull rod 35003, a traction hanging plate 3501, a cutting traction drive 3502, a cutting traction assembly 35020, a cutting drive roller 35021, a cutting driven roller 35022, a cutting supporting roller 35023, a cutting traction belt 3503, a cutting traction pressing roller 3504, a cutting traction tension spring 351, a finished product cutting device 3510, a cutting seat 3511, a cutting frame 3512, a cutting guide groove 3513, a cutting cylinder 3514, a cutting knife rest 3515, a cutting blade 3516, a cutting guard plate 352, a cutting discharge port 353 and a cutting guide device.

In the embodiment shown in fig. 1-56: the strip protecting box 110 of the feeding frame 11 of the automatic feeding device is of a rectangular 6-face box structure, 2 faces with the smallest short edge size of the strip protecting box 110 are not sealed, and the 2 faces which are not sealed have 1 short edge with the smallest short edge size, and the strip protecting box 110 is placed on the ground through the other 1 faces which are sealed and have the smallest short edge size; the connecting frame 111 is a rectangular plane frame structure, 1 piece of supporting leg 1110 is fixed at each of 4 corners of the same side plane of the connecting frame 111, and the connecting frame is installed on the unsealed surface on one side of the bead box 110 through the tail ends of the 4 pieces of supporting legs 1110; the tail ends of 1Z-shaped side arm of the Z-shaped support frame 112 are arranged in the middle of the long edge of the upward unsealed surface of the bead box 110, the other 1Z-shaped side arm extends upward, the middle of the Z-shaped middle arm of the support frame 112 is supported at the end part of the long edge of the upward unsealed surface of the bead box 110, which is far away from the connecting frame 111, through a support rod 1120, and the Z-shaped plane of the support frame 112 is vertical to the upward unsealed surface of the bead box 110 and is positioned in the same plane with the same 1 long edge of the upward unsealed surface. A feeding traction drive 12001 is installed on the board surface of one side of a feeding installation board 12000 of a feeding traction device 1200 of a traction detection device 120 of a torsion detection feeding device 12, and a feeding wheel 12002 is installed at the extending end of an output shaft of the feeding traction drive 12001 after penetrating through the feeding installation board 12000; one end of the feeding rocker arm 12003 is hinged to the feeding mounting plate 12000, the feeding rocker arm 12003 and the feeding wheel 12002 are located on the same side of the feeding mounting plate 12000, and a layering wheel 12004 is installed at one end, far away from the hinged point, of the feeding rocker arm 12003, and the axis of the layering wheel 12004 is parallel to the axis of the feeding wheel 12002; one end of a feeding tension spring 12005 is hung at the end of the feeding rocker arm 12003 provided with the layering wheel 12004, and the other end is hung on the feeding mounting plate 12000; a material guide seat 12011 is arranged in a mounting hole in the middle of a detection mounting plate 12010 of the detection material guide device 1201, and a material guide mold 12012 is arranged in the material guide seat 12011; the edge of one end of a material guiding hole of the material guiding mold 12012 is provided with 1 pair of material breakage sensors 12013, the plate surface of the detection mounting plate 12010 on the side provided with the material breakage sensors 12013 is provided with 1 pair of torsion sensors 12014, and the symmetrical surface of the 1 pair of torsion sensors 12014 vertical to the plate surface direction of the detection mounting plate 12010 is parallel to the edge of one side of the detection mounting plate 12010. The detection material guide device 1201 is arranged at the edge of the plate surface of the feeding wheel 12002 side of the feeding installation plate 12000 of the feeding traction device 1200 through the edge of one side of the detection installation plate 12010, the plate surface of the detection installation plate 12010 is vertical to the plate surface of the feeding installation plate 12000, and the detection installation plate 12010 is positioned on the side of the feeding rocker arm 12003 far away from the feeding traction device 1200; the side of the detection mounting plate 12010, on which the torsion sensor 12014 is mounted, faces the direction of the feeding wheel 12002 of the detection material guiding device 1201, and 1 pair of symmetrical surfaces of the torsion sensor 12014, which are perpendicular to the direction of the plate surface of the detection mounting plate 12010, are parallel to the plate surface of the feeding mounting plate 12000; the traction detection device 120 is arranged on one side, away from the connecting frame 111, of 1Z-shaped side arm extending upwards from the supporting frame 112 of the loading frame 11 through the loading mounting plate 12000 of the loading traction device 1200, the loading mounting plate 12000 of the loading traction device 1200 is parallel to the Z-shaped plane of the supporting frame 112, and the loading wheel 12002 of the loading traction device 1200 faces the other 1 long side direction of the upward unsealed surface of the strip protection box 110, on which the supporting frame 112 is not arranged; the detection mounting plate 12010 of the detection material guiding device 1201 is parallel to the upward-facing unsealed surface of the strip protecting box 110, the plate surface of the detection material guiding device 1201 provided with the torsion sensor 12014 faces upward, and the torsion sensor 12014 is positioned on the side, close to the connecting frame 111 of the feeding frame 11, relative to the material guiding seat 12011. The torsion frame 1210 of the reverse torsion device 121 is in a rectangular frame structure, the torsion frame 1210 is arranged on the ground and is positioned on one side, far away from the connecting frame 111, of the bar protection box 110, a torsion mounting plate 1211 with a plate surface parallel to the ground is fixed in the middle of the upward frame plane of the torsion frame 1210, and a torsion shaft sleeve 1212 with an axis vertical to the plate surface of the torsion mounting plate 1211 is arranged in the middle of the upward plate surface of the torsion mounting plate 1211; a reverse torsion drive 1213 is mounted on the downward plate surface of the torsion mounting plate 1211, a torsion drive 1214 is mounted on the extending end of the output shaft of the reverse torsion drive 1213 through the torsion mounting plate 1211, a torsion driven wheel 1215 engaged with the torsion drive 1214 is mounted on the torsion shaft sleeve 1212, and a torsion disc 1216 is mounted on the upward end surface of the torsion driven wheel 1215. The swinging mounting plate 1300 of the swinging driving mechanism 130 of the swinging blanking mechanism 13 is Z-shaped, the swinging mounting plate 1300 is fixed on the support frame 112 of the long edge middle part of the upward unsealed surface of the strip protecting box 110 of the feeding frame 11 through the plate surface of 1Z-shaped side arm, which is perpendicular to the Z-shaped plane and is far away from the other 1Z-shaped side arm, and the swinging mounting plate 1300 is positioned close to the strip protecting box 110 and is positioned on one side of the other 1 long edge of the upward unsealed surface of the strip protecting box 110, on which the support frame 112 is not installed; the same side plate surface of the pendulum mounting plate 1300 and the same 1Z-shaped side arm fixed on the support frame 112 is provided with a pendulum drive 1301, the pendulum drive 1301 is positioned on one side of the support frame 112 far away from the other 1Z-shaped side arm, and a pendulum wheel 1302 with a square cross section is mounted at an extending end of an output shaft of the pendulum drive 1301 after passing through the pendulum mounting plate 1300; the plate surface of the other 1Z-shaped side arm of the swinging mounting plate 1300 is provided with a feeding wheel 12002, the feeding wheel 12002 and the swinging wheel 1302 are positioned on the same side of the swinging mounting plate 1300, and the axes of the feeding wheel 12002 and the swinging wheel 1302 are parallel to each other; the other side plate surface of the Z-shaped side arm provided with the feeding wheel 12002 on the swinging mounting plate 1300 is fixed with a swinging supporting leg 1303 provided with a long groove, the long groove on the swinging supporting leg 1303 extends outwards in the direction away from the other 1Z-shaped side arm, and the roller handle of the pressing roller 1304 is supported in the long groove of the swinging supporting leg 1303. The guide bar groove 1310 of the guide bar groove 131 is in a U-shaped groove shape, one end of the U-shaped opening of the guide bar groove 1310, which is perpendicular to the direction of the U-shaped plane of the guide bar groove 1310, is provided with a U-shaped guide bar sleeve 1311, the U-shaped plane of the guide bar sleeve 1311 is parallel to the U-shaped plane of the guide bar groove 1310, the symmetrical planes perpendicular to the direction of the U-shaped plane are aligned with each other, and the bottom of the U-shaped groove of the guide bar sleeve 1311 is positioned on one side far away from the guide bar groove 1310; the outer side of the U-shaped sidewall of one side of the guide bar slot 1310 is provided with 3 guide bar lugs 1312, and the guide bar slot 131 is installed on the support frame 112 of the upper material frame 11 through the 3 guide bar lugs 1312 and is located on the side of the pendulum mounting plate 1300 of the support frame 112 on which the pendulum driving mechanism 130 is installed. A grinding and cleaning frame 21 of the grinding and cleaning device is arranged on the ground through a grinding 6-surface box 210, a grinding dust hopper 2100 and a grinding dust box 2101 are arranged in the grinding 6-surface box 210, a grinding 6-surface frame 211 is of a rectangular frame structure, and the grinding 6-surface frame 211 is positioned above the grinding 6-surface box 210; 3 grinding beams 2110 perpendicular to the length direction of the 6-surface grinding frame 211 are respectively arranged at the connecting surface of the 6-surface grinding frame 211 and the 6-surface grinding box 210 and the position close to the upper frame, and the 6 grinding beams 2110 are horizontally arranged; one side surface of the 6-surface grinding frame 211 in the width direction is provided with 3 adjusting support plates 2111, and two ends in the length direction are respectively provided with 1 grinding guide frame 2112. The polishing traction frame 220 of the polishing traction device 22 is in an L shape formed by 2 mutually vertical plane rectangular frames, and is arranged at one end of the polishing 6-face box 210 of the polishing cleaning frame 21 in the length direction through 1 plane rectangular frame, and the other 1 rectangular frame of the polishing traction frame 220 is provided with a polishing traction drive 221 in the upward plane; 2 grinding traction vertical plates 22200 of a grinding traction component I2220 of the grinding traction mechanism 222 are mutually parallel and are arranged on the upper plane of the grinding traction frame 220 in an aligned mode, and the plate surface of the grinding traction vertical plate 22200 is parallel to the length direction of a grinding 6-surface box 210 of the grinding cleaning frame 21; two ends of the polishing driving roller I22201 and the polishing driven roller 22202 are respectively supported at two ends of 2 polishing traction vertical plates 22200, and the same 1 polishing traction belt 22203 is hung on the polishing driving roller I22201 and the polishing driven roller 22202; two ends of a polishing driving roller II 22211 and two ends of a polishing driven roller 22202 of the polishing traction component II 2221 are respectively supported at two ends of 2 polishing traction support plates 22210, and another 1 polishing traction belt 22203 is hung on the polishing driving roller II 22211 and the polishing driven roller 22202; the polishing traction support arm 22220 of the polishing traction transmission 2222 is L-shaped, round holes are formed at the tail ends and the intersection points of 2L-shaped edges of the polishing traction support arm 22220, one end of the polishing traction swing arm 22221 is hinged to the tail end of 1L-shaped edge of the polishing traction support arm 22220, and 1 polishing traction intermediate wheel 22223 is coaxially hinged to the hinged position, and the other 1 polishing traction intermediate wheel 22223 is hinged to the intersection point of 2L-shaped edges of the polishing traction support arm 22220 and meshed with the polishing traction intermediate wheel 22223 positioned at the tail end of the L-shaped edge; the tail ends of the other 1L-shaped edge of the grinding traction support arm 22220 are sleeved at the extending end of the grinding driving roller I22201 after the shaft passes through the grinding traction vertical plate 22200, the extending end of the shaft is provided with 1 grinding traction gear 22222 and then is connected with a grinding traction drive 221, and the grinding traction gear 22222 is meshed with a grinding traction idle gear 22223 positioned at the intersection point of the 2L-shaped edges of the grinding traction support arm 22220; the other end of the polishing traction swing arm 22221 is sleeved at the extending end of a polishing driving roller II 22211 of the polishing traction assembly II 2221 after the shaft passes through the polishing traction support plate 22210, the extending end of the shaft is provided with another 1 polishing traction gear 22222, and the polishing traction gear 22222 is meshed with a polishing traction idle wheel 22223 at the other end of the polishing traction swing arm 22221; 2 grinding support plates 22230 of the grinding adjustment component 2223 are respectively fixed at the outer sides of a grinding traction vertical plate 22200 and a grinding traction support plate 22210, which are positioned at the same side, of the grinding traction component i 2220 and the grinding traction component ii 2221, and one ends of 2 grinding guide rods 22231 are respectively fixed at two ends of a grinding connection plate 22232 and are perpendicular to the surface of the grinding connection plate 22232; the other ends of the 2 grinding guide rods 22231 penetrate through round holes at two ends of the grinding support plate 22230 on the grinding traction support plate 22210, and then extend out of the round holes and are fixed at two ends of the grinding support plate 22230 on the grinding traction vertical plate 22200; the threaded end of the polishing screw 22233 is screwed into a threaded hole in the middle of the polishing support plate 22230 on the polishing traction support plate 22210, the extending end of the other end of the polishing screw 22233, which penetrates through the polishing connecting plate 22232, is provided with a polishing handwheel 22234, the polishing connecting plate 22232 can limit the axial movement of the polishing screw 22233, and a polishing traction shield 223 is arranged above each of the polishing traction gear 22222 and the polishing traction idle wheel 22223. 3 horizontal adjusting U-shaped plates 23000 of a polishing horizontal adjusting assembly 2300 of a polishing mechanism 230 of the polishing device 23 are respectively clamped on 3 polishing cross beams 2110 which are arranged in a polishing 6-surface frame 211 of a polishing cleaning frame 21 and close to an upper frame through U-shaped inner surfaces, 1 horizontal adjusting slider 23002 is respectively arranged at two ends of the front surface of a horizontal adjusting mounting plate 23001, the chutes of the 2 horizontal adjusting sliders 23002 are parallel to each other, 2 horizontal adjusting sliders 23002 are arranged at the back surface of the horizontal adjusting mounting plate 23001, and the chutes of the 2 horizontal adjusting sliders 23002 are positioned on the same straight line and are vertical to the chutes of the 2 horizontal adjusting sliders 23002 at the front surface of the horizontal adjusting mounting plate 23001; a horizontal adjusting lug 23003 is fixed at one end of the horizontal adjusting mounting plate 23001, a high-low lug 23004 provided with a screw hole is fixed on the back of the horizontal adjusting mounting plate 23001, and the axis of the screw hole is parallel to the chute of a horizontal adjusting slide block 23002 on the back of the horizontal adjusting mounting plate 23001; the 3 polishing horizontal adjusting components 2300 are respectively installed on a U-shaped side plate of the 3 horizontal adjusting U-shaped plates 23000 through 2 horizontal adjusting sliders 23002 positioned on the front surface of the horizontal adjusting mounting plate 23001, one end of a horizontal adjusting screw 23005 is fixed on a horizontal adjusting lug 23003, the axis of the horizontal adjusting screw 23005 is parallel to a chute of the horizontal adjusting slider 23002 positioned on the front surface of the horizontal adjusting mounting plate 23001, and the other end of the horizontal adjusting screw 23005 provided with threads penetrates through an extending end of an adjusting support plate 2111 of the polishing 6-surface frame 211 to be provided with a nut; a height guide rail 23011 and a grinding motor frame 23012 are respectively fixed at the middle part and one end of the plate surface on one side of a height adjusting plate 23010 of the grinding height assembly 2301, the axis of a round hole on the grinding motor frame 23012 is perpendicular to the plate surface of the height adjusting plate 23010, a height support plate 23013 is fixed at the other end of the height adjusting plate 23010, and the plate surface of the height support plate 23013 is perpendicular to the plate surface of the height adjusting plate 23010; the right-angle speed reducer 23014 is installed on the plate surface of one side of the high-low support plate 23013 far away from the high-low adjusting plate 23010, one end of each 1 transverse adjusting screw 23005 is inserted into an input hole of the right-angle speed reducer 23014, and the other end of each transverse adjusting screw 23005 is provided with a grinding hand wheel 22234; the 3 grinding high-low assemblies 2301 are respectively installed in a horizontal adjusting slider 23002 of the 3 grinding horizontal adjusting assembly 2300 on the back of the horizontal adjusting installation plate 23001 through high-low guide rails 23011, and the right-angle speed reducer 23014 is located above the grinding horizontal adjusting assembly 2300; one end of each of the 3 transverse adjusting screws 23005 penetrates through the high and low support plates 23013 from one side plate face of the high and low support plates 23013 far away from the right-angle speed reducer 23014 and then is inserted into an output hole of the right-angle speed reducer 23014, and the other threaded end is screwed into a threaded hole of a high and low lug 23004 positioned on the back face of the transverse adjusting mounting plate 23001; right-angle speed reducers 23014 of the 3 grinding angle assemblies 2302 are respectively arranged on upward plate surfaces of high-low support plates 23013 of the 3 grinding high-low assemblies 2301, one ends of the other 3 transverse adjusting screws 23005 are inserted into input holes of the right-angle speed reducers 23014, and grinding hand wheels 22234 are arranged at the other ends of the transverse adjusting screws 23005; one end of the grinding motor clamp 23020 is provided with a transverse hole, the axis of the transverse hole is perpendicular to the shaft at the other end of the grinding motor clamp 23020, and the shaft at one end of 3 grinding motor clamps 23020 respectively penetrates through the extending end of the round hole on the grinding motor frame 23012 of 3 grinding high-low assemblies 2301 and then is inserted into the input hole of the other 3 right-angle speed reducers 23014; one end of each of the 3 angle transmission rods 23021 respectively penetrates through the high and low support plates 23013 from the lower plate surfaces of the high and low support plates 23013 of the 3 polishing high and low assemblies 2301 and then is inserted into an output hole of the right-angle speed reducer 23014, and the other end of each of the 3 angle transmission rods 23021 is respectively inserted into output holes of the other 3 right-angle speed reducers 23014; a round hole is formed in the center of a square bottom plate of a polishing shield 2310 of the polishing head 231, 3 edges of the square are bent towards the same direction perpendicular to the plate surface of the bottom plate, the bending heights are the same, and an air inducing hole 23100 is formed in the plate surface with one side bent; the polishing protective cover 2310 is arranged on a shell at one end, provided with an output shaft, of the polishing motor 2311 through a bottom plate, and a polishing grinding wheel 2312 is arranged at the extending end, penetrating through a round hole in the bottom plate of the polishing protective cover 2310, of the output shaft of the polishing motor 2311; the 2 grinding heads 231 are respectively clamped in a grinding motor clamp 23020 of the 2 grinding angle assemblies 2302 positioned at one end, far away from the grinding traction device 22, in the grinding 6-surface frame 211 of the grinding cleaning frame 21 through a grinding motor 2311, the 2 grinding wheels 2312 are positioned in the same plane, and 1 edge of the bottom plate of the grinding shield 2310, which is not bent, faces downwards; 3U-shaped fixture blocks 2320 of the grinding die assembly 232 are respectively clamped on one side of 3 grinding cross beams 2110 arranged on the connecting surface of the grinding 6 surface frame 211 of the grinding cleaning frame 21 and the grinding 6 surface box 210, a grinding lifting device 2321 is fixed on one side of each of the 3U-shaped fixture blocks 2320, telescopic rods of the grinding lifting devices 2321 extend upwards and are located in the plane of a grinding wheel 2312 of the grinding head 231, and the grinding dies 2322 are arranged at the tail ends of the telescopic rods of the 3 grinding lifting devices 2321. The cleaning device 24 has 1 cleaning head 240 with cleaning wheel 2400 clamped by the grinding motor 2311 in the grinding motor clamp 23020 of the grinding angle assembly 2302 in the grinding 6-face frame 211 of the grinding cleaning frame 21 near one end of the grinding traction device 22, and the

cleaning wheel

2400 and 2 grinding wheels 2312 are in the same plane with the non-bent 1 edge of the bottom plate of the grinding shield 2310 facing downwards. The 3 water pumps 251 of the cooling system 25 are arranged on one side of the water tank 250, the water inlets of the water pumps 251 are connected with the water tank 250, the water outlets are respectively connected with the water inlets of the polishing heads 231 of the 2 polishing devices 23 of the polishing cleaning device 2 and the polishing motors 2311 of the cleaning heads 240 of the 1 cleaning device 24 through water pipes, and the water outlets of the polishing motors 2311 are connected with the water tank 250 through water pipes; the dust removing frame 260 of the dust removing system 26 is of a frame structure, the dust removing frame 260 is arranged on the ground, a dust remover 261 is arranged in the dust removing frame 260, a fan 262 is arranged above the dust remover 261, the tail end of the air pipe is respectively connected with the grinding head 231 of the 2 grinding devices 23 of the grinding cleaning device 2 and the air inducing hole 23100 of the grinding protective cover 2310 of the cleaning head 240 of the 1 cleaning device 24, the other end of the air pipe is respectively connected with an air inlet of the dust remover 261, and an air outlet of the dust remover 261 is connected with an air inlet of the fan 262. The pressure-sensitive worktable 31 of the pressure-sensitive sticking device is arranged on the ground through a pressure-sensitive 6-side box 310, a pressure-sensitive bedplate 3100 is fixed on the upper plane of the pressure-sensitive 6-side box 310, and a pressure-sensitive guide frame 3101 is arranged at one end of the pressure-sensitive 6-side box 310 in the length direction of the upper plane; a pressure-sensitive 6 face frame 311 having a rectangular frame structure is disposed above a pressure-sensitive platen 3100 of a pressure-sensitive 6 face box 310, and a rectangular frame 3110 having a middle plane and a length equal to that of the pressure-sensitive 6 face frame 311 is provided in the pressure-sensitive 6 face frame 311 in parallel with the longitudinal direction of the pressure-sensitive 6 face frame 311. A pressure-sensitive traction drive 32001 is arranged on one side plate surface of a gluing bottom plate 32000 of a gluing traction assembly 3200 of a gluing guiding device 320 of the gluing device 32, and a shaft of a pressure-sensitive driving roller 32002 penetrates through the gluing bottom plate 32000 from the other side plate surface of the gluing bottom plate 32000 and then is inserted into an output hole of the pressure-sensitive traction drive 32001; the pressure-sensitive cylinder 32003 is arranged on a plate surface on one side of the pressure-sensitive active roller 32002 of the gluing bottom plate 32000, 1 pressure-sensitive guide rail 32004 is respectively arranged on two sides of the pressure-sensitive cylinder 32003 of the gluing bottom plate 32000, and 2 pressure-sensitive guide rails 32004 are parallel to the telescopic rod of the pressure-sensitive cylinder 32003 and are symmetrically arranged relative to the pressure-sensitive cylinder 32003; a pressure-sensitive rolling mounting plate 32005 provided with 2 pressure-sensitive sliding blocks 32006 on one side plate surface is mounted at the tail end of a telescopic rod of a pressure-sensitive cylinder 32003, the 2 pressure-sensitive sliding blocks 32006 are respectively mounted on 2 pressure-sensitive guide rails 32004, a pressure-sensitive rolling 32007 is mounted on the other side plate surface of the pressure-sensitive rolling mounting plate 32005, the pressure-sensitive rolling 32007 is aligned with the pressure-sensitive driving rolling 32002, and the axes are parallel to each other; one end of each of 4 gluing rods 32010 of the gluing support assembly 3201 is respectively arranged on a plate surface on one side of a pressure-sensitive active roller 32002 of a gluing bottom plate 32000 of the gluing traction assembly 3200, 1 piece of belt pressing roller 32011 is arranged at the tail end of the 1 piece of gluing rod 32010 through a roller handle, the axis of the belt pressing roller 32011 is vertical to the plate surface of the gluing bottom plate 32000, one end of a gluing tension spring 32012 is hung on the roller handle of the belt pressing roller 32011, and the other end is hung at the tail end of the other 1 piece of gluing rod 32010; the duct nozzle 32013 and the gluing brush 32014 are arranged at the tail end of the other 2 gluing rods 32010, the center of the duct nozzle 32013 and the gluing brush 32014 in the length direction of the belt pressing roller 32011 is positioned in the same plane parallel to the plate surface of the gluing bottom plate 32000, and the center of the duct nozzle 32013 and the gluing brush 32014 in the length direction of the pressure-sensitive driving roller 32002 and the pressure-sensitive pressing roller 32007 is positioned in the same plane; the gluing guide 320 is mounted on a middle plane rectangular frame 3110 of a pressure-sensitive 6 face frame 311 of the pressure-sensitive worktable 31 through a gluing bottom plate 32000 of a gluing traction assembly 3200, the surface of the gluing bottom plate 32000 is perpendicular to the width direction of the pressure-sensitive worktable 31 and is positioned at one end of the pressure-sensitive 6 face box 310 in the length direction of the plane, close to a pressure-sensitive guide 3101, an expansion rod of a pressure-sensitive cylinder 32003 extends downwards, and a gluing brush 32014 faces downwards. One side edge of a glue dripping plate 3210 of the glue dripping component 321 is fixed on a plate surface on one side of a pressure-sensitive active roller 32002 mounted on a gluing bottom plate 32000 of a gluing traction component 3200 of the gluing guiding device 320, and the plate surface 3210 of the glue dripping plate is vertical to the plate surface of the gluing bottom plate 32000 and is horizontally arranged; a glue dripping pump 3211 and a glue dripping barrel 3212 are arranged on the upper plane of the glue dripping plate 3210, one end of a glue dripping pipe 3213 is connected with a glue outlet of the glue dripping pump 3211, and the other end is inserted into a hole of a conduit nozzle 32013 of the glue coating support component 3201 of the glue coating guiding device 320 with a downward pipe orifice; the die U-shaped frame 3220 of the pressure-sensitive die assembly 322 is in a U-shaped groove shape, 4 die guide posts 3221 are mounted on the outer plane of the U-shaped bottom plate of the die U-shaped frame 3220, the 4 die guide posts 3221 are perpendicular to the plate surface of the U-shaped bottom plate of the die U-shaped frame 3220, the die U-shaped frame 3220 is mounted on the pressure-sensitive platen 3100 of the pressure-sensitive 6-surface box 310 of the pressure-sensitive worktable 31 through the 4 die guide posts 3221, the U-shaped opening of the die U-shaped frame 3220 is upward, the plate surface of the U-shaped bottom plate is parallel to the pressure-sensitive platen 3100, the plate surface of the U-shaped side plate is parallel to the length direction of the pressure-sensitive worktable 31, and the 4 die guide posts 3221 penetrate through the pressure-sensitive platen 3100 and then extend downward; a mould round nut 3222 is arranged on the pressure sensitive table plate 3100 and is positioned between 4 mould guide posts 3221, after a mould screw 3223 is screwed into the mould round nut 3222 from the lower part of the pressure sensitive table plate 3100, an upward extending end is connected with a U-shaped bottom plate of a mould U-shaped frame 3220, and a mould hand wheel 3224 is arranged at the downward other end of the mould screw 3223; in addition, two ends of 2 mold guide posts 3221 with mold guide blocks 3225 mounted in the middle are supported on a U-shaped side plate of the mold U-shaped frame 3220, a plane where the axes of the 2 mold guide posts 3221 are located is parallel to a U-shaped bottom plate of the mold U-shaped frame 3220, two ends of another 1 mold screw 3223 with mold nut blocks 3226 mounted in the middle are supported on the U-shaped side plate of the mold U-shaped frame 3220 and located between the 2 mold guide posts 3221, a mold hand wheel 3224 is mounted at an extending end of one end of the mold screw 3223 after penetrating through the U-shaped side plate of the mold U-shaped frame 3220, a pressure-sensitive mold 3227 is mounted in the middle on the mold nut block 3226, and two ends are mounted on the 2 mold guide blocks 3225. The drying box 3300 of the drying box 330 of the drying device 33 is in a U-shaped groove shape, 5 drying rods 3301 are uniformly arranged between the U-shaped side walls at two sides of the drying box 3300 along the length direction perpendicular to the U-shaped plane, a round hole is arranged at one end of the U-shaped side walls at two sides of the drying box 3300 and in the length direction perpendicular to the U-shaped plane, a tensioning groove 3302 parallel to the length direction is arranged at the other end, and a tensioning lug 3303 is arranged at one end of the tensioning groove 3302, which is far away from the round hole, outside the U-shaped side walls at two sides of the drying box 3300; the drying box 330 is arranged on a pressure-sensitive table plate 3100 of a pressure-sensitive 6-face box 310 of a pressure-sensitive worktable 31 through the outer plane of the bottom of a U-shaped groove of the drying box 3300, the U-shaped plane of the drying box 3300 is vertical to the length direction of the pressure-sensitive worktable 31, the drying box 330 is positioned at the middle part of the pressure-sensitive 6-face box 310 and close to a gluing device 32 in the length direction of the pressure-sensitive worktable 31, and one end of the U-shaped side wall of the drying box 3300, which is provided with a tensioning groove 3302, is positioned at one end of a pressure-sensitive guide frame 3101 at one end of the pressure-sensitive 6-face box 310 in the length direction of the plane; a drying conveyor driver 3310 of the drying conveyor 331 is mounted on a rectangular frame 3110 provided in the middle plane of the pressure-sensitive 6-face frame 311 of the pressure-sensitive table 31, the drying conveyor driver 3310 is located at one end of the pressure-sensitive guide 3101 remote from the pressure-sensitive 6-face box 310 in the longitudinal direction perpendicular to the U-shaped plane of the drying box 3300, and the output shaft of the drying conveyor driver 3310 is projected in the direction in which the pressure-sensitive active roller 32002 is mounted on the gumming base plate 32000 of the gumming pulling assembly 3200 of the gumming apparatus 32; two ends of the drying driving roller 3311 are respectively supported in circular holes at one end of the U-shaped side walls at two sides of the drying box 3300 far away from the tensioning groove 3302, and an extending end of the shaft of the drying driving roller 3311 after passing through the U-shaped side wall of the drying box 3300 is connected with a shaft of the drying conveying drive 3310; two ends of the drying driven roller 3312 are respectively supported in tensioning grooves 3302 on the U-shaped side walls at two sides of the drying box 3300, and 2 tensioning screws 3313 penetrate through tensioning lugs 3303 of the drying box 330 and are respectively screwed into the extending ends of shafts at two ends of the drying driven roller 3312 after penetrating through the tensioning grooves 3302; 4 drying carrier rollers 3314 are uniformly arranged between the drying drive roller 3311 and the drying driven roller 3312, a bus on the drying carrier roller 3314 and a bus on the drying drive roller 3311 and the drying driven roller 3312 are positioned in the same plane, a drying belt 3315 is hung on the drying drive roller 3311 and the drying driven roller 3312, and the upper section of the drying belt 3315 is supported on the 4 drying carrier rollers 3314; the heating groove 3320 of the drying component 332 is in a U-shaped groove shape, 5U-shaped heating groove frames 3321 are uniformly arranged outside the heating groove 3320 along the length direction perpendicular to the U-shaped plane, two ends of 4 heating pipes 3322 are respectively installed on 2 heating pipe frames 3323, and the combination of 2 groups of heating pipes 3322 and the heating pipe frames 3323 is installed in the U-shaped groove of the heating groove 3320 through the heating pipe frames 3323; the drying box cover 333 is in a 6-surface box shape with 1 surface opening, the drying component 332 is installed in the drying box cover 333 through 5 heating groove frames 3321, and the drying box cover 333 is hinged at the edge of the U-shaped side wall of the drying box 3300 of the drying box 330 through 1 long edge at the opening. The pressure-sensitive traction drive 32001 is arranged on one side plate surface of the pressure-sensitive traction assembly 34000 of the pressure-sensitive sticking guide device 340 of the pressure sticking device 34, the pressure-sensitive active roller 32002 is arranged on the other side plate surface, and the extending end of the pressure-sensitive active roller 32002 after penetrating through the pressure-sensitive sticking bottom plate 34000 is inserted into an output hole of the pressure-sensitive traction drive 32001; the pressure-sensitive cylinder 32003 is arranged on the same side of the plate surface where the pressure-sensitive driving roller 32002 is arranged, pressure-sensitive guide rails 32004 are arranged on two sides of the plate surface, and the 2 pressure-sensitive guide rails 32004 and the telescopic rods of the pressure-sensitive cylinder 32003 are symmetrically arranged; one side plate surface of the pressure roller mounting plate 32005 is provided with 2 pressure-sensitive sliding blocks 32006, the other side is provided with a pressure-sensitive pressure roller 32007, one side edge vertical to a sliding groove of the pressure-sensitive sliding block 32006 is provided with a pressure sensor 34001, and the pressure sensor 34001 is positioned on the symmetrical surface of the 2 pressure-sensitive sliding blocks 32006; the pressure-sensitive rolling mounting plates 32005 are arranged at the tail ends of telescopic rods of the pressure-sensitive cylinders 32003 through pressure sensors 34001, 2 pressure-sensitive sliding blocks 32006 are respectively arranged on 2 pressure-sensitive guide rails 32004, and pressure-sensitive rolling 32007 on the surface of the other side is aligned with the pressure-sensitive driving rolling 32002 and the axes are parallel to each other; the pressure-sensitive cylinder 32003 of the pressing and adjusting assembly 3401 is arranged on one side plate surface of the pressing and pulling assembly 3400, on which the pressure-sensitive cylinder 32003 is arranged, of a pressing and pulling assembly 34000, the extending directions of the telescopic rods of the 2 pressure-sensitive cylinders 32003 are the same, the telescopic rods are parallel, and 2 pressure-sensitive guide rails 32004 which are symmetrically arranged are arranged on two sides of the pressure-sensitive cylinder 32003 of the pressing and adjusting assembly 3401; one side plate surface of the pressure-sensitive mounting plate 34010 is provided with 2 pressure-sensitive sliding blocks 32006, the other side is provided with a pressure-sensitive mounting block 34011, one side edge of the pressure-sensitive mounting plate 34010 is arranged at the tail end of an expansion link of the pressure-sensitive cylinder 32003, and the 2 pressure-sensitive sliding blocks 32006 are respectively arranged on 2 pressure-sensitive guide rails 32004; one end of 2 die guide posts 3221 of the pressure-sensitive die assembly 322 of the pressing device 34 is respectively fixed at two ends of the pressure-sensitive connecting plate 34012 and is perpendicular to the plate surface of the pressure-sensitive connecting plate 34012, the extending end of the other end of the 2 die guide posts 3221 after penetrating through the round holes at two ends of the pressure-sensitive guide block 34013 is fixed on a pressure-sensitive mounting block 34011 positioned on the plate surface on one side of the pressure-sensitive mounting plate 34010, the plane where the 2 die guide posts 3221 are positioned is obliquely arranged with the extending direction of the telescopic rod of the pressure-sensitive cylinder 32003, and the side far away from the pressing traction assembly 3400 inclines towards the cylinder body of the pressure-sensitive cylinder 32003 and the side near the pressing traction assembly 3400 inclines towards the extending direction of the telescopic rod of the pressure-sensitive cylinder 32003; the threaded end of the 1-piece mold screw 3223 is screwed into a threaded hole in the middle of the pressure-sensitive guide block 34013, the extending end of the other end of the pressure-sensitive guide block which limits axial movement and passes through the pressure-sensitive connecting plate 34012 is provided with a mold hand wheel 3224, and the surface of the pressure-sensitive guide block 34013, which is far away from the pressure-sensitive cylinder 32003, is provided with an adhesive tape mold 34014; the pressing and pasting guiding device 340 is arranged on a middle plane rectangular frame 3110 of a pressure-sensitive 6 surface frame 311 of the pressure-sensitive workbench 31 through a pressing and pasting bottom plate 34000, the telescopic rods of 2 pressure-sensitive cylinders 32003 extend downwards, the plate surface of the pressing and pasting bottom plate 34000 is vertical to the width direction of the pressure-sensitive workbench 31 and is positioned on one side, far away from the gluing device 32, of a middle drying device 33 in the length direction of the upper plane of the pressure-sensitive 6 surface box 310, and a pressing and front guiding device 341 is arranged at one end, close to a pressure-sensitive guide frame 3101, of the pressure-sensitive 6 surface box 310 of the pressure-sensitive workbench 31, of the pressing and pasting guiding device 340. The feeding bottom plate 3420 of the adhesive tape feeding device 342 is in a disc shape, the center of the feeding bottom plate 3420 is provided with a loading shaft 3421, the axis of the loading shaft 3421 is vertical to the plate surface of the feeding bottom plate 3420, the other side plate surface of the feeding bottom plate 3420 is arranged on the middle plane rectangular frame 3110 of the pressure-sensitive 6 surface frame 311 of the pressure-sensitive worktable 31, and the loading shaft 3421 extends towards the plate surface direction of the side of the pressing bottom plate 34000 of the pressing traction assembly 3400 of the pressing guide device 340, which is provided with the pressure-sensitive active roller 32002; a die U-shaped frame 3220 of a pressure-sensitive die assembly 322 of the pressing device 34 is mounted on a pressure-sensitive table plate 3100 of a pressure-sensitive 6 panel box 310 of the pressure-sensitive workbench 31 through 4 die guide posts 3221, a U-shaped opening of the die U-shaped frame 3220 faces upwards, a U-shaped bottom plate surface is parallel to the pressure-sensitive table plate 3100, a U-shaped side plate surface is parallel to the length direction of the pressure-sensitive workbench 31, the 4 die guide posts 3221 penetrate through the pressure-sensitive table plate 3100 and then extend downwards, and a material guide groove of a pressure-sensitive die 3227 faces upwards; in the longitudinal direction of the press table 31, the pressure-sensitive die assembly 322 is located between the pressure-sensitive active roll 32002 of the press-drawing assembly 3400 of the press-guiding device 340 and the press-leading guide 341, and in the width direction of the press table 31, the sealing tape guide groove of the pressure-sensitive die 3227 is located in the same plane as the longitudinal cross sections of the pressure-sensitive active roll 32002 and the pressure-sensitive press roll 32007 of the press-drawing assembly 3400 of the press-guiding device 340 and the tape guide groove of the tape die 34014 of the press-adjusting assembly. 1 long edge of 2 pieces of cutting traction vertical plates 35000 of a cutting traction frame 3500 of a cutting traction mechanism 350 of the traction cutting device 35 is connected together through 2 pieces of cutting traction supporting plates 35001 and is reinforced through 2 pieces of cutting traction pull rods 35002; one end of the traction hanging plate 35003 with the length larger than the width of the cutting traction vertical plate 35000 is provided with a long groove parallel to the length direction of the traction hanging plate 35003, the other end of the traction hanging plate 35003 is provided with a lug, 2 pieces of the traction hanging plate 35003 are respectively fixed on the outer sides of the 2 pieces of the cutting traction vertical plate 35000, the long groove of the traction hanging plate 35003 is positioned at one end of the traction hanging plate 35003, which is far away from the cutting traction supporting plate 35001, and the surface provided with the lug faces outwards; one end of the outer side of the 1 piece of cutting traction vertical plate 35000 is provided with a cutting traction drive 3501, the cutting traction frame 3500 is arranged on a pressure-sensitive bedplate 3100 of a pressure-sensitive 6-surface box 310 of the pressure-sensitive workbench 31 through a cutting traction supporting plate 35001, the cutting traction vertical plate 35000 is parallel to the length direction of the pressure-sensitive workbench 31, and the cutting traction frame 3500 is positioned at one end, far away from a pressure-sensitive guide frame 3101, of the pressure-sensitive 6-surface box 310 in the length direction of the pressure-sensitive workbench 31; two ends of a cutting driving roller 35020 and a cutting driven roller 35021 of the cutting traction assembly 3502 are respectively supported at two ends of 2 cutting traction vertical plates 35000, and one end of a shaft of the cutting driving roller 35020 penetrates through an extending end of the cutting traction vertical plate 35000 and is connected with a shaft of a cutting traction drive 3501; two ends of each of the 2 cutting support rollers 35022 are respectively supported in the middle of each of the 2 cutting traction vertical plates 35000, the same 1 cutting traction belt 35023 is hung on the cutting drive roller 35020 and the cutting driven roller 35021, and the upper section of the cutting traction belt 35023 is supported on the 2 cutting support rollers 35022; the two ends of the 2 cutting traction compression rollers 3503 are respectively supported in the elongated slots at one end of the 2 traction hanging plates 35003 of the cutting traction frame 3500, and the 2 cutting traction compression rollers 3503 are all positioned above the upper section of the cutting traction belt 35023; one end of each of the 4 cutting traction tension springs 3504 is hung at the two ends of each of the 2 cutting traction compression rollers 3503, the two ends of each cutting traction compression roller 3503 penetrate through the traction hanging plate 35003 and then extend out of the end, and the other ends of each cutting traction tension spring 3504 are hung on the convex blocks arranged on the outer side face of the traction hanging plate 35003. The cutting seat 3510 of the finished product cutting device 351 is in a U-shaped groove shape, the cutting frame 3511 in the U-shaped groove shape is installed on the outer surface of the U-shaped bottom plate of the cutting seat 3510 through a U-shaped opening, the U-shaped planes of the cutting frame 3511 and the cutting seat 3510 are parallel to each other, and the cutting frame 3511 and the cutting seat 3510 are located in the same plane through the symmetrical plane which is at the center of the U-shaped bottom plate and is perpendicular to the U-shaped plane; the section of the cutting guide groove 3512 is rectangular, a guide groove parallel to the length direction of the cutting guide groove 3512 is formed in one side surface of the cutting guide groove 3512, 2 cutting guide grooves 3512 are respectively installed on the inner surfaces of U-shaped side plates of the cutting frame 3511, the guide groove of the cutting guide groove 3512 is perpendicular to the plate surface of a U-shaped bottom plate of the cutting frame 3511, and a sensor 3513 is arranged on the position, far away from the U-shaped bottom plate, of a U-shaped side wall of the cutting frame 3511; the cutting cylinder 3514 is arranged on the outer surface of the U-shaped bottom plate of the cutting frame 3511, the telescopic rod of the cutting cylinder 3514 penetrates through the U-shaped bottom plate of the cutting frame 3511 and then extends towards the cutting seat 3510, the tail end of the telescopic rod of the cutting cylinder 3514 is provided with a cutting knife rest 3515, the cutting blade 3516 is arranged on the cutting knife rest 3515, the cutting edge of the cutting blade 3516 faces towards the cutting seat 3510, 2 edges of the cutting blade 3516, which are perpendicular to the cutting edge, are respectively clamped in the guide grooves of 2 cutting guide grooves 3512, and one end of the cutting frame 3511, which is perpendicular to the U-shaped plane, is provided with a cutting guard plate 3517; the cutting seat 3510 of the finished product cutting device 351 is arranged on the pressure sensitive table panel 3100 of the pressure sensitive 6 surface box 310 of the pressure sensitive worktable 31, the U-shaped plane of the cutting seat 3510 is vertical to the length direction of the pressure sensitive worktable 31, and the finished product cutting device 351 is positioned at one end of the cutting traction mechanism 350 far away from the pressure sensitive guide 3101 in the length direction of the pressure sensitive worktable 31; a cutting outlet 352 is arranged on one side of a cutting seat 3510 of the finished product cutting device 351 far away from the cutting traction mechanism 350, and a cutting guide 353 is arranged on one end of a cutting traction frame 3500 of the cutting traction mechanism 350 far away from the finished product cutting device 351.

Claims

1. Pressure-sensitive adhesive tape production line, including automatic feeding device (1), cleaning device (2) and pressure-sensitive adhesive device (3) of polishing, its characterized in that: the automatic feeding device (1) comprises a feeding frame (11), a torsion detection feeding device (12) and a swinging blanking mechanism (13), wherein the feeding frame (11) comprises a strip protection box (110), a connecting frame (111) and a supporting frame (112), 2 faces with the smallest short side size of the strip protection box (110) in a rectangular 6-face box body structure are not sealed, 1 short side with the smallest size is arranged on the 2 faces which are not sealed, and the strip protection box (110) is arranged on the ground through the other 1 sealed face with the smallest short side size; 1 supporting leg (1110) is fixed at 4 corners of the plane on the same side of a connecting frame (111) in a rectangular plane frame structure, the 4 supporting legs (1110) are installed on the unsealed surface on one side of a strip protection box (110) through the tail ends of the 4 supporting legs (1110), the tail ends of 1Z-shaped side arm of a Z-shaped supporting frame (112) are installed in the middle of the long side of the upward unsealed surface of the strip protection box (110), the other 1Z-shaped side arm extends upward, the middle of the Z-shaped middle arm of the supporting frame (112) is supported at the end part, away from one end of the connecting frame (111), of the long side of the upward unsealed surface of the strip protection box (110) through a supporting rod (1120), and the Z-shaped plane of the supporting frame (112) is vertical to the upward unsealed surface of the strip protection box (110) and is positioned in the same plane with the same 1 long side of the upward unsealed surface; the torsion detection feeding device (12) comprises a traction detection device (120) and a reverse torsion device (121), wherein the traction detection device (120) comprises a feeding traction device (1200) and a detection material guide device (1201), the feeding traction device (1200) comprises a feeding mounting plate (12000), a feeding traction drive (12001), a feeding wheel (12002), a feeding rocker arm (12003), a strip pressing wheel (12004) and a feeding tension spring (12005), the feeding traction drive (12001) is arranged on the surface of one side of the feeding mounting plate (12000), the feeding wheel (12002) is arranged at the extending end of an output shaft of the feeding traction drive (12001) after penetrating through the feeding mounting plate (12000), one end of the feeding rocker arm (12003) is hinged to the feeding mounting plate (12000), the feeding rocker arm (12003) and the feeding wheel (12002) are positioned on the same side of the feeding mounting plate (12000), and the end of the feeding rocker arm (12003) far away from the hinge point of the feeding wheel (12004) is provided with the strip pressing wheel (12004), The axis of the layering wheel (12004) is parallel to the axis of the feeding wheel (12002), one end of a feeding tension spring (12005) is hung at one end of a feeding rocker arm (12003) provided with the layering wheel (12004), the other end of the feeding tension spring is hung on a feeding mounting plate (12000), a detection material guide device (1201) comprises a detection mounting plate (12010), a material guide seat (12011), a material guide mold (12012), a material breaking sensor (12013) and a torsion sensor (12014), the material guide seat (12011) is arranged in a mounting hole in the middle of the detection mounting plate (12010), the material guide mold (12012) is arranged in the material guide seat (12011), one end edge of the material guide hole of the material guide mold (12012) is provided with 1 pair of material breaking sensors (12013), the plate surface of one side of the detection mounting plate (12010) provided with the material breaking sensors (12013) is provided with 1 pair of torsion sensors (12014), and the 1 pair of torsion sensors (12014) is vertical to the plate surface of the detection mounting plate (12010) and is parallel to one side edge of the detection mounting plate (12010), the detection material guide device (1201) is arranged at the edge of the plate surface at one side of the material loading wheel (12002) of the material loading mounting plate (12000) of the material loading traction device (1200) through the edge of one side of the detection mounting plate (12010), the plate surface of the detection mounting plate (12010) is vertical to the plate surface of the material loading mounting plate (12000), the detection mounting plate (12010) is positioned at one side of the material loading rocker arm (12003) far away from the material loading traction device (1200), the plate surface at one side of the detection mounting plate (12010) provided with the torsion sensor (12014) faces the direction of the material loading wheel (12002) of the detection material guide device (1201), and the symmetrical surfaces of 1 pair of torsion sensors (12014) vertical to the plate surface direction of the detection mounting plate (12010) are parallel to the plate surface of the material loading mounting plate (12000), the traction detection device (120) is arranged at one side of 1Z-shaped side arm which extends upwards from the support frame (112) of the material loading frame (11) through the material loading mounting plate (12000) of the material loading traction device (1200), a feeding mounting plate (12000) of the feeding traction device (1200) is parallel to a Z-shaped plane of the support frame (112), a feeding wheel (12002) of the feeding traction device (1200) faces the other 1 long side direction of the upward unsealed surface of the bead protection box (110) on which the support frame (112) is not mounted, a detection mounting plate (12010) of the detection material guide device (1201) is parallel to the upward unsealed surface of the bead protection box (110), the plate surface of the detection material guide device (1201) on which a torsion sensor (12014) is mounted faces upward, and the torsion sensor (12014) is positioned on one side of the connecting frame (111) close to the feeding frame (11) relative to the material guide seat (12011); the reverse torsion device (121) comprises a torsion frame (1210), a torsion mounting plate (1211), a torsion shaft sleeve (1212), a reverse torsion drive (1213), a torsion driving wheel (1214), a torsion driven wheel (1215) and a torsion disc (1216), wherein the torsion frame (1210) in a rectangular frame structure is arranged on the ground, one side of the position bead box (110) far away from the connecting frame (111), the middle part of an upward frame plane of the torsion frame (1210) is fixedly provided with the torsion mounting plate (1211) with a plate surface parallel to the ground, the middle part of an upward plate surface of the torsion mounting plate (1211) is provided with the torsion shaft sleeve (1212) with an axis vertical to the plate surface of the torsion mounting plate (1211), the downward plate surface of the torsion mounting plate (1211) is provided with the reverse torsion drive (1213), the extending end of an output shaft of the reverse torsion drive (1213) after passing through the torsion mounting plate (1211) is provided with the torsion driving wheel (1214), the torsion driven wheel (1215) meshed with the torsion driving wheel (1214) is arranged on the torsion shaft sleeve (1212), and the torsion drive (1213), A torsion disc (1216) is arranged on the upward end face of the torsion driven wheel (1215); the swinging blanking mechanism (13) comprises a swinging driving mechanism (130) and a strip guide groove (131), wherein the swinging driving mechanism (130) comprises a swinging mounting plate (1300), a swinging driving mechanism (1301), a swinging wheel (1302), a feeding wheel (12002), a swinging support leg (1303) and a layering roller (1304), the swinging mounting plate (1300) is Z-shaped, the swinging mounting plate (1300) is fixed on a support frame (112) at the middle part of a long edge of an upward non-sealing surface of a strip protection box (110) of an upper material rack (11) through a plate surface which is perpendicular to a Z-shaped plane of 1Z-shaped side arm and is far away from the other 1Z-shaped side arm, the swinging mounting plate (1300) is positioned close to the strip protection box (110) and positioned at the other 1 long edge side of the upward non-sealing surface of the strip protection box (110) and is not provided with the support frame (112), and the swinging driving mechanism (1301) and the plate surface of the same Z-shaped side arm fixed on the support frame (112) are provided with the swinging driving mechanism (1301), The swinging drive (1301) is positioned on one side, far away from the other 1Z-shaped side arm, of the support frame (112), the swinging wheel (1302) with the square cross section is installed at the extending end of the output shaft of the swinging drive (1301) after penetrating through the swinging mounting plate (1300), the feeding wheel (12002) is installed on the plate surface of the other 1Z-shaped side arm of the swinging mounting plate (1300), the feeding wheel (12002) and the swinging wheel (1302) are positioned on the same side of the swinging mounting plate (1300), the axes of the feeding wheel (12002) and the swinging wheel (1302) are parallel to each other, the swinging support leg (1303) with a long groove is fixed on the plate surface of the other side of the Z-shaped side arm on which the feeding wheel (12002) is installed on the swinging mounting plate (1300), the long groove on the swinging support leg (1303) extends outwards in the direction far away from the other 1Z-shaped side arm, and the roller handle of the pressing roller (1304) is supported in the long groove of the swinging support leg (1303); the guide strip groove (131) comprises a guide strip groove body (1310), a guide strip sleeve (1311) and a guide strip lug (1312), one end, perpendicular to the direction of a U-shaped plane, of a U-shaped opening of the U-shaped guide strip groove body (1310) is provided with the U-shaped guide strip sleeve (1311), the U-shaped plane of the guide strip sleeve (1311) is parallel to the U-shaped plane of the guide strip groove body (1310), a symmetrical plane perpendicular to the direction of the U-shaped plane is aligned with the U-shaped plane, the bottom of the U-shaped groove of the guide strip sleeve (1311) is located on one side far away from the guide strip groove body (1310), 3 guide strip lugs (1312) are arranged on the outer side of the U-shaped side wall on one side of the guide strip groove body (1310), the guide strip groove (131) is installed on a support frame (112) of the upper material shaking frame (11) through the 3 guide strip lugs (1312), and is located on one side of a shaking installation plate (1300) of the support frame (112) provided with a shaking driving mechanism (130); the polishing cleaning device (2) comprises a polishing cleaning frame (21), a polishing traction device (22), a polishing device (23), a cleaning device (24), a cooling system (25) and a dust removal system (26), wherein the polishing cleaning frame (21) comprises a polishing 6-surface box (210) and a polishing 6-surface frame (211), the polishing 6-surface box (210) is arranged on the ground, a grinding dust hopper (2100) and a grinding dust box (2101) are arranged in the polishing 6-surface box (210), the polishing 6-surface frame (211) in a rectangular frame structure is positioned above the polishing 6-surface box (210), 3 polishing beams (2110) vertical to the length direction of the polishing 6-surface frame (211) are arranged at the connecting surface of the polishing 6-surface box (210) in the polishing 6-surface frame (211), and 3 polishing beams (2110) vertical to the length direction of the polishing 6-surface frame (211) are also arranged at the position close to the upper frame in the polishing 6-surface frame (211), the 6 grinding cross beams (2110) are horizontally arranged, 3 adjusting support plates (2111) are arranged on one side surface in the width direction of the 6-surface grinding frame (211), and 1 grinding guide frame (2112) is arranged at each of two ends in the length direction; the grinding traction device (22) comprises a grinding traction frame (220), a grinding traction drive (221), a grinding traction mechanism (222) and a grinding traction shield (223), wherein the grinding traction frame (220) is in an L shape formed by 2 mutually vertical plane rectangular frames, the grinding traction frame is installed at one end of the grinding 6-face box (210) of the grinding cleaning frame (21) in the length direction through 1 plane rectangular frame, and the other 1 rectangular frame of the grinding traction frame (220) is installed with the grinding traction drive (221) in the upward plane; the polishing traction mechanism (222) comprises a polishing traction component I (2220), a polishing traction component II (2221), a polishing traction transmission component (2222) and a polishing adjustment component (2223), wherein the polishing traction component I (2220) comprises a polishing traction vertical plate (22200), a polishing driving roller I (22201), a polishing driven roller (22202) and a polishing traction belt (22203), the 2 polishing traction vertical plates (22200) are parallel to each other and are arranged on the upper plane of the polishing traction frame (220) in an aligned mode, the polishing traction vertical plate (22200) is parallel to the length direction of a polishing 6-surface box (210) of the polishing cleaning frame (21), the two ends of the polishing driving roller I (22201) and the polishing driven roller (22202) are supported at the two ends of the 2 polishing traction vertical plates (22200) respectively, the same polishing driving roller I (22201) and the polishing driven roller (22202) are hung with the same polishing traction belt (22203), and the polishing traction component II (2221) comprises a polishing traction support plate (22210), a polishing traction component II (2221), a polishing drive roller I (22202) and a polishing adjustment component (2223), A polishing drive roller II (22211), a polishing driven roller (22202) and a polishing traction belt (22203), wherein the two ends of the polishing drive roller II (22211) and the polishing driven roller (22202) are respectively supported at the two ends of 2 polishing traction support plates (22210), and another 1 polishing traction belt (22203) is hung on the polishing drive roller II (22211) and the polishing driven roller (22202), the polishing traction transmission (2222) comprises a polishing traction support arm (22220), a polishing traction swing arm (22221), a polishing traction gear (22222) and a polishing traction intermediate wheel (22223), the tail ends and intersection points of 2L-shaped edges of the polishing traction support arm (22220) in an L shape are respectively provided with round holes, one end of the polishing traction swing arm (22221) is hinged at the tail end of 1L-shaped edge of the polishing traction support arm (22220), and the hinged position is coaxially hinged with 1 polishing traction intermediate wheel (22223), and another 1 polishing traction intermediate wheel (22223) is hinged at the intersection point of the 2L-shaped edges of the polishing traction support arm (22220), And is engaged with a grinding traction idle wheel (22223) positioned at the tail end of the L-shaped edge, the tail ends of the other 1L-shaped edge of a grinding traction support arm (22220) are sleeved at the extending end of the grinding driving roller I (22201) after the shaft passes through a grinding traction vertical plate (22200), the extending end of the shaft of the grinding driving roller I (22201) is provided with 1 grinding traction gear (22222) and then is connected with a grinding traction drive (221), the grinding traction gear (22222) is engaged with the grinding traction idle wheel (22223) positioned at the intersection point of the 2L-shaped edges of the grinding traction support arm (22220), the other end of the grinding traction swing arm (22221) is sleeved at the extending end of the shaft of the grinding driving roller II (22211) after the shaft passes through a grinding traction support plate (22210), the extending end of the shaft of the grinding driving roller II (22211) is provided with the other 1 grinding traction gear (22222), and the grinding traction gear (22222) is engaged with the grinding traction idle wheel (22223) positioned at the other end of the grinding traction swing arm (22221), the polishing adjustment component (2223) comprises a polishing support plate (22230), a polishing guide rod (22231), a polishing connecting plate (22232), a polishing screw rod (22233) and a polishing hand wheel (22234), wherein 2 polishing support plates (22230) are respectively fixed at the outer sides of a polishing traction vertical plate (22200) and a polishing traction support plate (22210) which are positioned at the same side of a polishing traction component I (2220) and a polishing traction component II (2221), one ends of the 2 polishing guide rods (22231) are respectively fixed at the two ends of the polishing connecting plate (22232) and are vertical to the surface of the polishing connecting plate (22232), the extending ends of the other ends of the 2 polishing guide rods (22231) penetrate through round holes at the two ends of the polishing support plate (22230) on the polishing traction support plate (22210), are fixed at the two ends of the polishing support plate (22230) positioned on the polishing traction vertical plate (22200), the threaded ends of the polishing screw rod (22233) are positioned in screw holes in the middles of the polishing traction support plates (22230) on the polishing traction support plates (22210), a polishing hand wheel (22234) is arranged at the extending end of the other end of the polishing connecting plate (22232) which penetrates through the polishing connecting plate in a limiting axial movement mode, and a polishing traction protective cover (223) is arranged above each polishing traction gear (22222) and each polishing traction intermediate wheel (22223); the grinding device (23) comprises a grinding mechanism (230), a grinding head (231) and a grinding die assembly (232), wherein the grinding mechanism (230) comprises a grinding horizontal adjusting assembly (2300), a grinding high-low assembly (2301) and a grinding angle assembly (2302), the grinding horizontal adjusting assembly (2300) comprises a horizontal adjusting U-shaped plate (23000), a horizontal adjusting mounting plate (23001), a horizontal adjusting slider (23002), a horizontal adjusting lug (23003), a high-low lug (23004) and a horizontal adjusting screw rod (23005), the 3 horizontal adjusting U-shaped plates (23000) are respectively clamped on 3 grinding cross beams (2110) which are arranged in a grinding 6-face frame (211) of a grinding cleaning frame (21) and close to an upper frame through U-shaped inner surfaces, the two ends of the front surface of the horizontal adjusting mounting plate (23001) are respectively provided with 1 horizontal adjusting slider (23002), the sliding grooves of the 2 horizontal adjusting sliders (23002) are mutually parallel, and the back surface of the horizontal adjusting mounting plate (01) is provided with 2 horizontal adjusting sliders (23002), the chutes of 2 horizontal adjusting sliders (23002) are positioned on the same straight line and are perpendicular to the chutes of the 2 horizontal adjusting sliders (23002) on the front side of a horizontal adjusting mounting plate (23001), one end of the horizontal adjusting mounting plate (23001) is fixed with a horizontal adjusting lug (23003), the back side of the horizontal adjusting mounting plate (23001) is fixed with a high-low lug (23004) provided with a screw hole, the axis of the screw hole is parallel to the chute of the horizontal adjusting slider (23002) on the back side of the horizontal adjusting mounting plate (23001), 3 grinding horizontal adjusting components (2300) are respectively arranged on U-shaped side plates (23000) of the 3 horizontal adjusting U-shaped plates (23000) through the 2 horizontal adjusting sliders (23002) on the front side of the horizontal adjusting mounting plate (23001), one end of a horizontal adjusting screw rod (23005) is fixed on the horizontal adjusting lug (23003), the axis of the horizontal adjusting screw rod (23005) is parallel to the chute of the horizontal adjusting slider (23002) on the front side of the horizontal adjusting mounting plate (23001), the other end of the horizontal adjusting screw rod (23005) is provided with a nut (2111) penetrating through a threaded adjusting frame (211), the polishing height component (2301) comprises a height adjusting plate (23010), a height guide rail (23011), a polishing motor frame (23012), a height support plate (23013), a right-angle speed reducer (23014), a horizontal adjusting screw rod (23005) and a polishing hand wheel (22234), the height guide rail (23011) and the polishing motor frame (23012) are respectively fixed at the middle part and one end of the plate surface on one side of the height adjusting plate (23010), the axis of a round hole in the polishing motor frame (23012) is perpendicular to the plate surface of the height adjusting plate (23010), the height support plate (23013) is fixed at the other end of the height adjusting plate (23010), the plate surface of the height support plate (23013) is perpendicular to the plate surface of the height adjusting plate (23010), the right-angle speed reducer (23014) is installed on the plate surface on the side, far away from the height adjusting plate (23010), of one end of the horizontal adjusting screw rod (23005) is inserted into an input hole of the right-angle speed reducer (23014), and the polishing hand wheel (22234) is installed at the other end, 3 grinding high-low components (2301) are respectively arranged in a transverse adjusting slide block (23002) of the 3 grinding transverse adjusting components (2300) positioned on the back of a transverse adjusting mounting plate (23001) through a high-low guide rail (23011), a right-angle speed reducer (23014) is positioned above the grinding transverse adjusting components (2300), one end of each of the 3 grinding transverse adjusting screw rods (23005) passes through a high-low support plate (23013) from one side plate surface of the high-low support plate (23013) far away from the right-angle speed reducer (23014) and then is inserted into an output hole of the right-angle speed reducer (23014), the other threaded end of each of the 3 grinding transverse adjusting screw rods (23005) is screwed into a threaded hole of a high-low lug (23004) positioned on the back of the transverse adjusting mounting plate (23001), each of the grinding angle components (2302) comprises a right-angle speed reducer (23014), a transverse adjusting screw rod (23005), a grinding hand wheel (22234), a grinding motor clamp (23020) and an angle transmission rod (23021), the right-angle speed reducers (23014) of the 3 grinding angle components (2301) are respectively arranged on the high-low support plate surfaces (23013) of the 3 grinding high-low support plates (2301), one end of the other 3 horizontal adjusting screw rods (23005) is inserted into an input hole of a right-angle speed reducer (23014), the other end of each horizontal adjusting screw rod is provided with a grinding hand wheel (22234), one end of a grinding motor clamp (23020) is provided with a horizontal hole, the axis of the horizontal hole is perpendicular to the axis of the other end of the grinding motor clamp (23020), the shaft of one end of the 3 grinding motor clamp (23020) penetrates through a circular hole in a grinding motor frame (23012) of the 3 grinding high-low assemblies (2301) respectively and then is inserted into an input hole of the other 3 right-angle speed reducers (23014), one end of each 3 angle transmission rod (23021) penetrates through a high-low support plate (23013) of the 3 grinding high-low assemblies (2301) and then is inserted into an output hole of the right-angle speed reducer (23014), and the other end of each angle transmission rod is inserted into an output hole of the other 3 right-angle speed reducers (23014); the polishing head (231) comprises a polishing shield (2310), a polishing motor (2311) and a polishing grinding wheel (2312), a round hole is formed in the center of a square bottom plate of the polishing shield (2310), 3 edges of the square are bent towards the same direction perpendicular to the bottom plate and are the same in bending height, an air guide hole (23100) is formed in a plate surface with one bent side, the polishing shield (2310) is installed on a shell at one end of an output shaft of the polishing motor (2311) through a bottom plate, a polishing grinding wheel (2312) is installed at an extending end of the output shaft of the polishing motor (2311) penetrating through the round hole in the bottom plate of the polishing shield (2310), the 2 polishing heads (231) are clamped in polishing motor clamps (23020) of 2 polishing angle assemblies (2302) far away from one end of a polishing traction device (22) in a polishing 6-surface framework (211) of a polishing cleaning frame (21) through the polishing motor (2311), and the 2 polishing grinding wheels (2312) are located in the same plane, And 1 edge of the bottom plate of the grinding shield (2310), which is not bent, faces downwards; the grinding mold component (232) comprises a U-shaped fixture block (2320), a grinding lifting device (2321) and a grinding mold (2322), 3U-shaped fixture blocks (2320) are respectively clamped on one side of a 3-piece grinding beam (2110) arranged in a grinding 6-face frame (211) of the grinding cleaning frame (21) and connected with a grinding 6-face box (210), the grinding lifting device (2321) is fixed on one side of each 3U-shaped fixture block (2320), telescopic rods of the grinding lifting device (2321) extend upwards and are located in a plane where a grinding wheel (2312) of a grinding head (231) is located, and the grinding mold (2322) is arranged at the tail end of each telescopic rod of the 3 grinding lifting devices (2321); the cleaning device (24) comprises a grinding mechanism (230), a cleaning head (240) and a grinding die assembly (232), wherein the cleaning head (240) comprises a grinding shield (2310), a grinding motor (2311) and a cleaning wheel (2400), 1 cleaning head (240) is clamped in a grinding motor clamp (23020) of a grinding angle assembly (2302) which is positioned in a grinding 6-surface frame (211) of a grinding cleaning frame (21) and close to one end of a grinding traction device (22) through the grinding motor (2311), the cleaning wheel (2400) and 2 grinding wheels (2312) are positioned in the same plane, and the non-bent 1 edge of the bottom plate of the grinding shield (2310) faces downwards; the cooling system (25) comprises a water tank (250) and a water pump (251), wherein the water tank (250) is arranged on the ground, 3 water pumps (251) are arranged on one side of the water tank (250), a water inlet of the water pump (251) is connected with the water tank (250), a water outlet of the water pump is respectively connected with a polishing head (231) of a 2-piece polishing device (23) of the polishing cleaning device (2) and a water inlet of a polishing motor (2311) of a cleaning head (240) of a 1-piece cleaning device (24) through water pipes, and a water outlet of the polishing motor (2311) is connected with the water tank (250) through water pipes; the dust removal system (26) comprises a dust removal frame (260), a dust remover (261) and a fan (262), the dust removal frame (260) in a frame structure is arranged on the ground, the dust remover (261) is arranged in the dust removal frame, the fan (262) is arranged above the dust remover (261), the tail end of an air pipe is respectively connected with a grinding head (231) of a 2-piece grinding device (23) of the grinding cleaning device (2) and an air inducing hole (23100) of a grinding shield (2310) of a cleaning head (240) of a 1-piece cleaning device (24), the other end of the air pipe is respectively connected with an air inlet of the dust remover (261), and an air outlet of the dust remover (261) is connected with an air inlet of the fan (262); the pressure-sensitive pasting device (3) comprises a pressure-sensitive workbench (31), a gluing device (32), a drying device (33), a pressure-sensitive pasting device (34) and a traction cutting device (35), wherein the pressure-sensitive workbench (31) comprises a pressure-sensitive 6-side box (310) and a pressure-sensitive 6-side frame (311), the pressure-sensitive 6-side box (310) is arranged on the ground, a pressure-sensitive bedplate (3100) is fixed on the upper plane of the pressure-sensitive 6-side box (310), a pressure-sensitive guide frame (3101) is arranged at one end of the pressure-sensitive 6-side box (310) in the length direction of the upper plane, the pressure-sensitive 6-side frame (311) in a rectangular frame structure is positioned above the pressure-sensitive bedplate (3100) (310) on the pressure-sensitive 6-side box, and a middle plane rectangular frame (3110) which is parallel to the length direction of the pressure-sensitive 6-side frame (311) and has the same length is arranged in the pressure-sensitive 6-side frame (311); the gluing device (32) comprises a gluing guide device (320), a glue dripping component (321) and a pressure-sensitive die component (322), the gluing guide device (320) comprises a gluing traction component (3200) and a gluing support component (3201), the gluing traction component (3200) comprises a gluing bottom plate (32000), a pressure-sensitive traction drive (32001), a pressure-sensitive active roller (32002), a pressure-sensitive cylinder (32003), a pressure-sensitive guide rail (32004), a press roller mounting plate (32005), a pressure-sensitive slider (32006) and a pressure-sensitive press roller (32007), the pressure-sensitive traction drive (32001) is arranged on one side of the gluing bottom plate (32000), a shaft of the pressure-sensitive active roller (32002) penetrates through the other side of the gluing bottom plate (32000) and then is inserted into an output hole of the pressure-sensitive traction drive (32001), the pressure-sensitive cylinder (32003) is arranged on the side of the gluing bottom plate (32000) on which the pressure-sensitive roller (32002) is arranged, and 1 pressure-sensitive guide rail (32004) is respectively arranged on two sides of the pressure-sensitive cylinder (32003) of the gluing bottom plate (32000), 2 pressure-sensitive guide rails (32004) are parallel to the telescopic rod of the pressure-sensitive cylinder (32003) and are symmetrically arranged relative to the pressure-sensitive cylinder (32003), a pressure-sensitive roller mounting plate (32005) provided with 2 pressure-sensitive sliding blocks (32006) on one side plate surface is mounted at the tail end of the telescopic rod of the pressure-sensitive cylinder (32003), the 2 pressure-sensitive sliding blocks (32006) are respectively mounted on the 2 pressure-sensitive guide rails (32004), a pressure-sensitive roller (32007) is mounted on the other side plate surface of the pressure-sensitive roller mounting plate (32005), the pressure-sensitive roller (32007) is aligned with the pressure-sensitive driving roller (32002) and is parallel to the axis, the gluing supporting component (3201) comprises a gluing rod (32010), a belt pressing roller (32011), a tension spring gluing (32012), a guide pipe nozzle (32013) and a gluing brush (32014), one ends of 4 gluing rods (32010) are respectively mounted on the plate surface on the side of the gluing bottom plate (32000) provided with the pressure-sensitive roller (32002) of the gluing traction component (3200), and 1 piece of the belt pressing roller (32011) is mounted at the tail end of the gluing roller (32010) through a handle, The axis of the belt pressing roller (32011) is vertical to the plate surface of the gluing bottom plate (32000), one end of a gluing tension spring (32012) is hung on the roller handle of the belt pressing roller (32011), the other end is hung at the tail end of the other 1 gluing rod (32010), a guide nozzle (32013) and a gluing brush (32014) are installed at the tail end of the other 2 gluing rods (32010), the center of the guide nozzle (32013) and the gluing brush (32014) in the length direction of the belt pressing roller (32011) is positioned in the same plane parallel to the plate surface of the gluing bottom plate (32000) and the center of the pressure-sensitive driving roller (32002) and the center of the pressure-sensitive pressure roller (32007) in the length direction, a gluing guiding device (320) is installed on a rectangular frame (3110) arranged in the middle plane of a pressure-sensitive surface frame (311) of the pressure-sensitive worktable (31) through the gluing bottom plate (32000) of a gluing traction assembly (3200), and the gluing bottom plate (32000) is vertical to the width direction of the pressure-sensitive worktable (31), And is positioned at one end of the pressure-sensitive 6-face box (310) in the length direction of the upper plane and close to the pressure-sensitive guide frame (3101), the telescopic rod of the pressure-sensitive cylinder (32003) extends downwards, and the gluing brush (32014) faces downwards; the glue dripping component (321) comprises a glue dripping plate (3210), a glue dripping pump (3211), a glue dripping barrel (3212) and a glue dripping pipe (3213), one side edge of the glue dripping plate (3210) is fixed on the plate surface at one side of a pressure-sensitive active roller (32002) mounted on a gluing bottom plate (32000) of a gluing traction component (3200) of the gluing guiding device (320), the plate surface of the glue dripping plate (3210) is vertical and horizontal to the plate surface of the gluing bottom plate (32000), the upper plane of the glue dripping plate (3210) is provided with the glue dripping pump (3211) and the glue dripping barrel (3212), one end of the glue dripping pipe (3213) is connected with a glue outlet of the glue dripping pump (3211), and the other end is inserted into a hole of a guide pipe nozzle (32013) of a gluing support component (3201) of the gluing guiding device (320), and the pipe orifice faces downwards; the pressure-sensitive die assembly (322) comprises a die U-shaped frame (3220), a die guide post (3221), a die round nut (3222), a die screw rod (3223), a die hand wheel (3224), a die guide block (3225), a die nut block (3226) and a pressure-sensitive die (3227), wherein 4 die guide posts (3221) are installed on the outer plane of a U-shaped bottom plate of the U-shaped die U-shaped frame (3220) in a U-shaped groove shape, the 4 die guide posts (3221) are perpendicular to the surface of the U-shaped bottom plate of the die U-shaped frame (3220), the die U-shaped frame (3220) is installed on a pressure-sensitive platen (3100) of a pressure-sensitive 6 panel box (310) of a pressure-sensitive worktable (31) through the 4 die guide posts (3221), the U-shaped opening of the die U-shaped frame (3220) is upward, the surface of the U-shaped bottom plate is parallel to the pressure-sensitive platen (3100), the surface of the U-shaped side plate is parallel to the length direction of the worktable (31), and the 4 die guide posts (3221) extend downward after penetrating through the pressure-sensitive die guide posts (3221), the mould round nut (3222) is arranged on the pressure-sensitive platen (3100) and is positioned between 4 mould guide columns (3221), after the mould screw rod (3223) is screwed into the mould round nut (3222) from the lower part of the pressure-sensitive platen (3100), the upward extending end is connected with the U-shaped bottom plate of the mould U-shaped frame (3220), the downward other end of the mould screw rod (3223) is provided with a mould hand wheel (3224), the two ends of the 2 mould guide columns (3221) provided with the mould guide block (3225) in the middle part are supported on the U-shaped side plate of the mould U-shaped frame (3220), the plane of the axis of the 2 mould guide columns (3221) is parallel to the U-shaped bottom plate of the mould U-shaped frame (3220), the two ends of the other 1 mould screw rod (3223) provided with the mould nut block (3226) in the middle part are supported on the U-shaped side plate of the mould U-shaped frame (3220) and are positioned between the 2 mould guide columns (3221), one end of the mould screw rod (3223) penetrates through the rear end of the U-shaped frame (3220) provided with the mould hand wheel (3224), the middle part of the pressure-sensitive mould (3227) is arranged on a mould nut block (3226), and the two ends of the pressure-sensitive mould are arranged on 2 mould guide blocks (3225); the drying device (33) comprises a drying box (330), a drying conveying device (331), a drying assembly (332) and a drying box cover (333), wherein the drying box (330) comprises a drying box body (3300), drying rods (3301), tensioning grooves (3302) and tensioning lugs (3303), a plurality of drying rods (3301) are uniformly arranged between the U-shaped side walls of two sides of the U-shaped drying box body (3300) along the length direction perpendicular to the U-shaped plane, round holes are formed in the U-shaped side walls of two sides of the drying box body (3300) and one end perpendicular to the length direction of the U-shaped plane, the tensioning grooves (3302) are parallel to the length direction, the tensioning lugs (3303) are arranged on the outer sides of the U-shaped side walls of two sides of the drying box body (3300) and one end, far away from the round holes, of the tensioning grooves (3302), and the drying box (330) is installed on a pressure-sensitive table plate (3100) of a pressure-sensitive 6 face box (310) of a pressure-sensitive worktable (31) through the outer plane of the U-shaped groove bottom of the drying box body (3300), The U-shaped plane of the drying box body (3300) is vertical to the length direction of the pressure-sensitive workbench (31), the drying box (330) is positioned at the middle part of the pressure-sensitive 6-face box (310) and close to the gluing device (32) in the length direction of the pressure-sensitive workbench (31), and one end of the U-shaped side wall of the drying box body (3300) provided with a tensioning groove (3302) is positioned at one end of a pressure-sensitive guide frame (3101) at one end of the pressure-sensitive 6-face box (310) in the length direction of the plane; the drying and conveying device (331) comprises a drying and conveying drive (3310), a drying driving roller (3311), a drying driven roller (3312), a tensioning screw (3313), a drying carrier roller (3314) and a drying belt (3315), wherein the drying and conveying drive (3310) is arranged on a rectangular frame (3110) arranged at the middle plane of a pressure-sensitive 6 surface frame (311) of the pressure-sensitive worktable (31), the drying and conveying drive (3310) is positioned at one end of a pressure-sensitive guide frame (3101) far away from the pressure-sensitive 6 surface box (310) in the length direction vertical to the U-shaped plane of the drying box body (3300), an output shaft of the drying and conveying drive (3310) extends towards the direction that the pressure-sensitive driving roller (32002) is arranged on a gluing bottom plate (32000) of a gluing traction assembly (3200) of the gluing device (32), and two ends of the drying driving roller (3311) are respectively supported in round holes of U-shaped side walls at two sides of the drying box body (3300) far away from one end of a tensioning groove (3302), And the shaft of the drying driving roller (3311) passes through the shaft of the drying box body (3300) and the extension end behind the U-shaped side wall is connected with the shaft of the drying conveying drive (3310), the two ends of the drying driven roller (3312) are respectively supported in the tensioning grooves (3302) on the U-shaped side wall at the two sides of the drying box body (3300), 2 tensioning screws (3313) pass through the tensioning lugs (3303) of the drying box (330) and are respectively screwed into the shaft at the two ends of the drying driven roller (3312) and the extension end behind the tensioning grooves (3302), a plurality of drying carrier rollers (3314) are uniformly arranged between the drying driving roller (3311) and the drying driven roller (3312), and the bus of the drying carrier roller (3314) and the bus of the drying driving roller (3311) and the drying driven roller (3312) are positioned in the same plane, a drying belt (3315) is hung on the drying driving roller (3311) and the drying driven roller (3312), and the upper section of the drying belt (3315) is supported on a plurality of drying carrier rollers (3314); the drying component (332) comprises a heating groove (3320), a heating groove frame (3321), heating pipes (3322) and a heating pipe frame (3323), a plurality of U-shaped heating groove frames (3321) are uniformly arranged outside the U-shaped heating groove (3320) along the length direction vertical to the U-shaped plane, two ends of the heating pipes (3322) are respectively installed on the 2 heating pipe frames (3323), a combination of a plurality of groups of heating pipes (3322) and the heating pipe frames (3323) is installed in the U-shaped groove of the heating groove (3320) through the heating pipe frame (3323), a drying box cover (333) is 6-face box-shaped with 1-face opening, the drying component (332) is installed in the drying box cover (333) through the plurality of heating groove frames (3321), and the drying box cover (333) is hinged to the edge of the U-shaped side wall of the drying box body (3300) of the drying box (330) through 1 long side at the opening; the pressing and pasting device (34) comprises a pressing and pasting guiding device (340), a pressing and leading guiding device (341), a tape supplying device (342) and a pressure-sensitive die assembly (322), wherein the pressing and pasting guiding device (340) comprises a pressing and pasting traction assembly (3400) and a pressing and pasting adjusting assembly (3401), the pressing and pasting traction assembly (3400) comprises a pressing and pasting bottom plate (34000), a pressure-sensitive traction drive (32001), a pressure-sensitive active roller (32002), a pressure-sensitive cylinder (32003), a pressure-sensitive guide rail (32004), a pressing and rolling mounting plate (32005), a pressure-sensitive slider (32006), a pressure-sensitive pressing roller (32007) and a pressure sensor (34001), the pressure-sensitive traction drive (32001) is arranged on one side plate surface of the pressing and pasting bottom plate (34000), the pressure-sensitive active roller (32002) is arranged on the other side plate surface, a shaft of the pressure-sensitive active roller (32002) is inserted into an output hole of the pressure-sensitive traction drive (32001), the pressure-sensitive active roller (32002) is arranged on the same side as the pressure-sensitive active roller (32002) is arranged on the same side of the pressure-sensitive active roller (32003), the pressure-sensitive guide rail (32004) is arranged on two sides of the pressure-sensitive guide rail (32004), the 2 pressure-sensitive guide rails (32004) and the telescopic rod of the pressure-sensitive cylinder (32003) are symmetrically arranged, one side plate surface of the pressure-sensitive roller mounting plate (32005) is provided with 2 pressure-sensitive sliding blocks (32006), the pressure-sensitive roller (32007) is arranged on the other side of the pressure-sensitive roller mounting plate, one side edge vertical to a sliding chute of the pressure-sensitive sliding blocks (32006) is provided with a pressure sensor (34001), the pressure sensor (34001) is positioned on a symmetrical surface of the 2 pressure-sensitive sliding blocks (32006), the pressure-sensitive roller mounting plate (32005) is mounted at the tail end of the telescopic rod of the pressure-sensitive cylinder (32003) through the pressure sensor (34001), the 2 pressure-sensitive sliding blocks (32006) are respectively mounted on the 2 pressure-sensitive guide rails (32004), the pressure-sensitive roller (32007) on the other side plate surface is aligned with the pressure-sensitive active roller (32002) and the axes of the pressure-sensitive roller mounting plate, the pressure-sensitive roller mounting plate is parallel to each other side, the pressure-sensitive adjusting assembly (3401) comprises the pressure-sensitive cylinder (32003), the pressure-sensitive guide rail (32004), the pressure-sensitive guide rail (34010), The pressure-sensitive sliding block (32006), the pressure-sensitive mounting block (34011), the die guide post (3221), the pressure-sensitive connecting plate (34012), the pressure-sensitive guide block (34013), the die screw (3223), the die hand wheel (3224) and the adhesive tape die (34014), the other 1 pressure-sensitive cylinder (32003) is arranged on one side plate surface of a pressing bottom plate (34000) of the pressing traction assembly (3400) provided with the pressure-sensitive cylinder (32003), the extending directions of the telescopic rods of the 2 pressure-sensitive cylinders (32003) are the same, the telescopic rods are parallel, two sides of the pressure-sensitive cylinder (32003) of the pressing adjustment assembly (3401) are provided with 2 pressure-sensitive guide rails (32004) which are symmetrically arranged, one side plate surface of the pressure-sensitive mounting plate (34010) is provided with the 2 pressure-sensitive sliding blocks (32006), the other side is provided with the pressure-sensitive mounting block (34011), one side edge of the pressure-sensitive mounting plate (34010) is arranged at the tail end of the telescopic rod of the pressure-sensitive cylinder (32003), and the 2 pressure-sensitive sliding blocks (32006) are respectively arranged on the 2 pressure-sensitive guide rails (32004), one end of a 2-piece mold guide post (3221) of a pressure-sensitive mold assembly (322) of a pressing device (34) is respectively fixed at two ends of a pressure-sensitive connecting plate (34012) and is vertical to the plate surface of the pressure-sensitive connecting plate (34012), the extending end of the other end of the 2-piece mold guide post (3221) after penetrating through circular holes at two ends of the pressure-sensitive guide block (34013) is fixed on a pressure-sensitive mounting block (34011) positioned on the plate surface on one side of the pressure-sensitive mounting plate (34010), the plane of the 2-piece mold guide post (3221) is obliquely arranged with the extending direction of an expansion rod of the pressure-sensitive cylinder (32003), one side far away from the pressing traction assembly (3400) is inclined towards the cylinder body of the pressure-sensitive cylinder (32003), one side close to the pressing traction assembly (3400) is inclined towards the extending direction of the expansion rod of the pressure-sensitive cylinder (32003), the threaded end of a 1-piece mold screw rod (3223) is screwed into a threaded hole in the middle part of the pressure-sensitive guide block (34013), and the other end after penetrating through the pressure-sensitive connecting plate (34012) in a mode of limiting axial movement is provided with a mold hand wheel (3224), the surface of one side, far away from the pressure-sensitive cylinder (32003), of the pressure-sensitive guide block (34013) is provided with an adhesive tape die (34014), the pressing and sticking guide device (340) is arranged on a rectangular frame (3110) arranged on the middle plane of a pressure-sensitive 6-face frame (311) of the pressure-sensitive workbench (31) through a pressing and sticking bottom plate (34000), telescopic rods of 2 pressure-sensitive cylinders (32003) extend downwards, the plate surface of the pressing and sticking bottom plate (34000) is vertical to the width direction of the pressure-sensitive workbench (31) and is positioned on one side, far away from the gluing device (32), of a middle drying device (33) in the length direction of the upper plane of the pressure-sensitive 6-face box (310), and one end, close to the pressure-sensitive guide frame (3101) of the pressure-sensitive 6-face box (310) of the pressure-sensitive workbench (31), of the pressing and sticking guide device (340) is provided with a front pressing guide device (341); the adhesive tape supply device (342) comprises a supply bottom plate (3420) and a loading shaft (3421), wherein the loading shaft (3421) is arranged at the center of the disc-shaped supply bottom plate (3420), the axis of the loading shaft (3421) is vertical to the plate surface of the supply bottom plate (3420), the other side plate surface of the supply bottom plate (3420) is arranged on a middle plane rectangular frame (3110) of a pressure-sensitive 6-surface frame (311) of a pressure-sensitive worktable (31), the loading shaft (3421) extends towards the plate surface direction of one side of a pressure-sensitive active roller (32002) arranged on a pressure-sensitive bottom plate (34000) of a pressure-sensitive traction assembly (3400) of a pressure-sensitive guiding device (340), a U-shaped frame (3220) of a pressure-sensitive mold assembly (322) of the pressure-sensitive device (34) is arranged on a platen (3100) of a pressure-sensitive 6-surface box (310) of the pressure-sensitive worktable (31) through 4 mold guide columns (3221), and an upward opening of the U-shaped frame (3220), The surface of the U-shaped bottom plate is parallel to the pressure-sensitive table plate (3100), the surface of the U-shaped side plate is parallel to the length direction of the pressure-sensitive working table (31), 4 die guide columns (3221) penetrate through the pressure-sensitive table plate (3100) and then extend downwards, and a guide chute of the pressure-sensitive die (3227) faces upwards; in the length direction of the pressure-sensitive workbench (31), the pressure-sensitive die assembly (322) is positioned between the pressure-sensitive active roller (32002) and the front pressing guide device (341) of the pressing traction assembly (3400) of the pressing guide device (340), and in the width direction of the pressure-sensitive workbench (31), the sealing strip guide groove of the pressure-sensitive die (3227), the cross sections of the pressure-sensitive active roller (32002) and the pressure-sensitive pressing roller (32007) in the length direction of the pressing traction assembly (3400) of the pressing guide device (340) and the tape guide groove of the tape die (34014) of the pressing adjustment assembly are positioned in the same plane; the traction cutting device (35) comprises a cutting traction mechanism (350), a finished product cutting device (351), a cutting discharge hole (352) and a cutting guide device (353), wherein the cutting traction mechanism (350) comprises a cutting traction frame (3500), a cutting traction drive (3501), a cutting traction assembly (3502), a cutting traction compression roller (3503) and a cutting traction tension spring (3504), the cutting traction frame (3500) comprises a cutting traction vertical plate (35000), a cutting traction supporting plate (35001), a cutting traction pull rod (35002) and a traction hanging plate (35003), 1 long edge of each of the 2 cutting traction vertical plates (35000) is connected together through the 2 cutting traction supporting plates (35001) and reinforced through the 2 cutting traction pull rods (35002), one end of each traction hanging plate (35003) with the length larger than the width of the cutting traction vertical plate (35000) is provided with an elongated slot parallel to the length direction of the traction hanging plate (35003), the other end of the cutting traction mechanism is provided with a convex block, 2 traction hanging plates (35003) are respectively fixed on the outer sides of 2 cutting traction vertical plates (35000), long grooves of the traction hanging plates (35003) are positioned at one end, far away from a cutting traction supporting plate (35001), of the traction hanging plates (35003), the surface provided with the convex block faces outwards, one end, far away from the cutting traction supporting plate (35001), of the outer side of 1 cutting traction vertical plate (35000) is provided with a cutting traction drive (3501), the cutting traction frame (3500) is installed on a pressure-sensitive table (3100) of a pressure-sensitive 6 surface box (310) of a pressure-sensitive working table (31) through the cutting traction supporting plate (35001), the cutting traction vertical plate (35000) is parallel to the length direction of the pressure-sensitive working table (31), the cutting traction frame (3500) is positioned at one end, far away from a pressure-sensitive guide frame (3101), of the pressure-sensitive 6 surface box (310) in the length direction of the pressure-sensitive working table (31), the cutting traction assembly (3502) comprises a cutting drive roller (35020), a cutting driven roller (35021), A cutting carrier roller (35022) and a cutting traction belt (35023), two ends of a cutting drive roller (35020) and a cutting driven roller (35021) are respectively supported at two ends of a 2-piece cutting traction vertical plate (35000), one end of a shaft of the cutting drive roller (35020) passes through an extending end behind the cutting traction vertical plate (35000) and is connected with a shaft of a cutting traction drive (3501), two ends of a 2-piece cutting carrier roller (35022) are respectively supported at the middle part of the 2-piece cutting traction vertical plate (35000), the cutting drive roller (35020) and the cutting driven roller (35021) are hung with the same 1-piece cutting traction belt (35023), the upper section of the cutting traction belt (35023) is supported on a 2-piece cutting carrier roller (35022), two ends of a 2-piece cutting traction compression roller (3503) are respectively supported in a long groove at one end of a 2-piece traction hanging plate (35003) of a cutting traction frame (3500), and the 2-piece cutting traction roller (3503) is positioned above the upper section of the cutting traction belt (35023), one end of each of 4 cutting traction tension springs (3504) is hung at two ends of each of 2 cutting traction compression rollers (3503) and extends out of the end after penetrating through the traction hanging plate (35003), and the other end of each of the 4 cutting traction tension springs is hung on a lug arranged on the outer side face of the traction hanging plate (35003); the finished product cutting device (351) comprises a cutting seat (3510), a cutting frame (3511), a cutting guide groove (3512), a sensor (3513), a cutting cylinder (3514), a cutting knife rest (3515), a cutting blade (3516) and a cutting guard plate (3517), wherein the cutting seat (3510) is in a U-shaped groove shape, the cutting frame (3511) in the U-shaped groove shape is installed on the outer surface of a U-shaped bottom plate of the cutting seat (3510) through a U-shaped opening, the U-shaped planes of the cutting frame (3511) and the cutting seat (3510) are parallel to each other, a symmetrical plane passing through the center of the U-shaped bottom plate and perpendicular to the U-shaped plane is positioned in the same plane, a guide groove parallel to the length direction of the cutting guide groove (3512) is arranged on one side surface of the cutting guide groove (3512) in the rectangular shape, 2 cutting guide grooves (3512) are respectively installed on the inner surface of the U-shaped side plate of the cutting frame (3511), and the guide groove of the cutting guide groove (3512) is perpendicular to the surface of the U-shaped bottom plate of the cutting frame (3511), a sensor (3513) is arranged on the U-shaped side wall of the cutting frame (3511) far away from the U-shaped bottom plate, a cutting cylinder (3514) is arranged on the outer surface of the U-shaped bottom plate of the cutting frame (3511), an expansion rod of the cutting cylinder (3514) penetrates through the U-shaped bottom plate of the cutting frame (3511) and then extends towards a cutting seat (3510), a cutting knife rest (3515) is arranged at the tail end of the expansion rod of the cutting cylinder (3514), a cutting blade (3516) is arranged on the cutting knife rest (3515), the cutting edge of the cutting blade (3516) faces towards the cutting seat (3510), 2 edges of the cutting blade (3516) perpendicular to the cutting edge are respectively clamped in guide grooves of 2 cutting guide grooves (3512), a cutting guard plate (3517) is arranged at one end of the cutting frame (3511) perpendicular to the U-shaped plane, and the cutting seat (3510) of a finished product cutting device (351) is arranged on a pressure-sensitive platen (3100) of a 6 surface box (310) of a pressure-sensitive worktable (31), And the U-shaped plane of the cutting seat (3510) is vertical to the length direction of the pressure-sensitive workbench (31), the finished product cutting device (351) is positioned at one end, far away from the pressure-sensitive guide frame (3101), of the cutting traction mechanism (350) in the length direction of the pressure-sensitive workbench (31), a cutting discharge hole (352) is arranged at one side, far away from the cutting traction mechanism (350), of the cutting seat (3510) of the finished product cutting device (351), and a cutting guide device (353) is arranged at one end, far away from the finished product cutting device (351), of the cutting traction frame (3500) of the cutting traction mechanism (350).