CN219193976U - Double-station double-reverse-bending double-spiral knife rest intelligent fly knife splitting machine - Google Patents

Abstract

The invention discloses an intelligent fly cutter splitting machine with double-station double-reverse-curve double-spiral cutter frames, which is characterized in that a double-station feeding system can feed two paper rolls at the same time, a winding system A and a winding system B of the double-curve winding system are used for controlling tension and deformation and fold leveling when the paper rolls are conveyed, a slitting system is used for longitudinally slitting paper, a paper feeding system is used for dragging the paper to a transverse flying cutter system to transversely cut the paper into one piece, the paper is processed into square blocks, and a high-speed conveying system A, a high-speed conveying system B and a low-speed conveying system are used for transversely and uniformly and longitudinally shooting the paper into a pile after the difference stack of the paper flows into a pile-up system.

Description

Double-station double-reverse-bending double-spiral knife rest intelligent fly knife splitting machine

Technical Field

The invention relates to the field of paper slitting machinery, in particular to an intelligent fly cutter slitting machine with double-station double-reverse-curve double-spiral cutter frames.

Background

The cutting machine provided in the current market generally comprises a frame, wherein an upper hob, a roller and a motor are arranged on the frame, one end of the upper hob is connected with the motor, the upper hob and the roller are oppositely arranged, a plurality of groups of conveying belts are arranged at the outlet of the upper hob, paper is divided into a plurality of sheets through the upper hob and the roller and enters the conveying belts when the cutting machine works, the structure is only cut by the upper hob, and when the thickness of the paper is different or after the paper is used for a long time, the phenomenon of incomplete cutting of the paper is easy to occur; the paper size error of cutting is big, sawtooth and deckle edge are many, and traditional paper cutting equipment does not set up the guide edge or rectify and tension control and crimping mechanism directly at paper feeding device and cutting device so can lead to warping limit fold, and traditional paper cutting equipment's section of thick bamboo paper is after the slitting, still single piece send to horizontal cutter group and only last sword cutting can lead to the leftover bits many, cut constantly etc. moreover, and the rejection rate is higher, causes the waste, has reduced work efficiency.

Therefore, the intelligent fly cutter with double-station feeding system and double-reverse-curve double-spiral cutter frame is characterized in that a double-station feeding system can feed two rolls of paper at the same time, the tension is controlled by a winding system A and a winding system B of the double-curve winding system, deformation and fold leveling during paper roll conveying are controlled, after the paper is longitudinally cut into strips by a slitting system, the paper is pulled to a transverse flying cutter system by a paper feeding system to transversely cut the paper into a square after the paper is transversely cut into one cutter, and after the paper difference is stacked and flows into a stacking system to transversely beat and longitudinally beat the paper into a pile after the paper is conveyed at a low speed by a high speed conveying system A, a high speed conveying system B and a low speed conveying system.

Disclosure of Invention

The invention aims to provide a novel full-automatic food paper holder spot-forming machine which can solve all the problems in the background introduction.

In order to achieve the above object, the technical scheme of the present invention is as follows: an intelligent fly cutter splitting machine with double-station double-reverse-curve double-spiral cutter rest comprises: the device comprises a double-station feeding system, a winding system A, a winding system B, a slitting system, a paper feeding system, a transverse flying shear system, a high-speed conveying system A, a high-speed conveying system B, a low-speed conveying system and a stacking system; the double-station feeding system is arranged in front of the winding system A, and the double-station feeding system and the winding system A are fixed on a feeding system base through the front end of a supporting frame of the winding system A; the paper feeding system is arranged at the middle position of the rear side of the slitting system and is fixed above the shearing machine frame, the transverse flying shear system is arranged in the middle of the shearing machine frame fixed at the rear side of the paper feeding system, and the slitting system, the paper feeding system and the transverse flying shear system are sequentially arranged above the shearing machine frame from front to back; the high-speed conveying system A is arranged at the rear side of the transverse flying shear system and is fixed on a high-speed conveying rack, and the high-speed conveying rack is arranged at the rear side of the shearing rack; the high-speed conveying system B and the low-speed conveying system are arranged on the rear side of the high-speed conveying system A, the low-speed conveying system is fixed on a rear station frame, the high-speed conveying system B is arranged on the low-speed conveying system and is fixed on the rear station frame, the rear station frame is arranged on the rear side of the high-speed conveying frame, the stacking system is arranged on the rear side of the high-speed conveying system B and the rear side of the low-speed conveying system, and the stacking system is fixed on the rear station frame.

Further, the duplex position feeding system includes: the feeding system comprises a roll A, a roll B, a path A, a path B, a feeding system base, a power arm, an air cylinder, a supporting arm and a material shaft assembly; the double-station feeding system and the winding system A are paper rolls or copper foils, aluminum foils, thin steel plates and the like to be cut, a traction path of the coil A, a traction path of the coil B, a support arm of the coil A and a support arm of the coil B are respectively supported by the support arms of the two sides, the support arms are combined parts and are composed of rotating shaft fasteners, the coil A can rotate at the upper end axial positions of the support arms of the two sides on the support arms of the two sides, and the coil B can rotate at the upper end axial positions of the support arms of the two sides on the support arms of the two sides; the feeding system base is an equipment base machined after steel assembly welding pieces are machined, power arms are arranged on the left side and the right side of the feeding system base, one end of each power arm is fixed on the feeding system base through a steel shaft, the other end of each power arm is fixed at the middle position of a cylinder through the steel shaft, the head of each cylinder is fixed on the feeding system base through the steel shaft, and the extension or shortening of each cylinder can push the corresponding power arm to swing by an angle; the two support arms are respectively arranged at the left and right sides of the feeding system base, the support arms are fixed on the feeding system base through steel shafts, as shown in fig. 2, the support arms are concentric with the tail shaft center position of the power arms, the support arms penetrate through the power arms and are the same steel shaft, the support arms are arranged at the inner side, the power arms are arranged at the outer side, the extension or shortening of the air cylinder pushes the power arms to rotate, and the rotation of the power arms drives the support arms to swing through the steel shafts so as to adjust the heights of the rolls A and B fixed on the support arms.

Further, the curl system a includes: the device comprises a roll A reverse-bending roll assembly, a roll A tension absorption assembly, a roll B reverse-bending roll assembly I assembly and a roll system A support frame, wherein the roll system A support frame is formed by machining after welding a steel structure group, the bottom of the front end of the roll system A support frame is fixed on a feeding system base, the rear end of the roll system A support frame is in contact with the ground to form a gantry type, the roll A reverse-bending roll assembly is an assembly and consists of two fixed rollers and a group of adjusting shafts, and the roll A reverse-bending roll assembly is arranged on the upper part of the roll system A support frame; the tension absorbing assembly of the coil A is arranged at the rear side of the back-bending coil assembly of the coil A and is fixed above a support frame of the bending coil system A, the tension absorbing assembly of the coil A comprises a cylinder, a connecting rod pushed by the cylinder, a roller fixed below the connecting rod and a plurality of rollers used for winding the coil A, one end of the connecting rod in the tension absorbing assembly of the coil A is fixed on the support frame of the bending coil system A through a shaft, the middle of the connecting rod in the tension absorbing assembly of the coil A is connected with the head part of the cylinder in the tension absorbing assembly of the coil A, and the cylinder in the tension absorbing assembly of the coil A is lengthened or shortened to push the swinging angle of the connecting rod in the tension absorbing assembly of the coil A so as to adjust the tension of the coil A; the winding system is characterized in that the winding B reverse-bending winding component I is arranged on the rear side of the winding A tension absorbing component and fixed on the supporting frame of the winding system A, and the winding B reverse-bending winding component I consists of a plurality of groups of rolling shafts and a group of adjusting shafts.

Further, the curl system B includes: the device comprises a path A transition shaft, a roll B reverse-bending component II component, a roll system B branch regulating component and a roll system B supporting frame, wherein the path A transition shaft is arranged at the front end of the roll system B supporting frame, the path A passes through the path A transition shaft, the roll B reverse-bending component II component is composed of a plurality of rollers, the roll B reverse-bending component II component is arranged in the middle of the roll system B supporting frame, the roll system B branch regulating component is arranged in front of the roll B reverse-bending component II component and is fixed on the roll system B supporting frame, the roll B reverse-bending component II component is composed of two groups of regulating shafts and a regulator, and when the path B of the roll B passes through the roll B reverse-bending component I component, the regulator of the roll B reverse-bending component II component is regulated to push the distance of the two groups of regulating shafts so as to control the tension of the path B and remove and flatten wrinkles of the path B.

Further, the slitting system includes: the device comprises a transverse adjusting frame, a knob, a height adjusting frame, a slitting knife, a slitting roller and a shearing frame; the transverse adjusting frame is an assembly and consists of a transverse guide rail and a plurality of longitudinal sliding blocks, the plurality of longitudinal sliding blocks are arranged on the transverse guide rail, the transverse guide rail of the transverse adjusting frame is arranged on the shearing frame, the plurality of longitudinal sliding blocks can slide on the transverse guide rail to adjust and control the distance between the transverse sliding blocks, and the number of the plurality of longitudinal sliding blocks and the distance of transverse arrangement of the transverse adjusting frame are determined according to the required cutting width of paper rolls or copper foils and the like pulled out by the winding system A and the winding system B; the cutter rest is arranged on the transverse adjusting frame, a thread is arranged in the middle of the top of the cutter rest, a thread is arranged on the height adjusting knob, the thread on the height adjusting knob is matched with the thread in the middle of the top of the cutter rest, the height adjusting knob is screwed into the thread in the middle of the top of the cutter rest, and the height of the cutter rest can be adjusted by rotating the height adjusting knob; the longitudinal cutter is arranged in the middle of the bottom of the cutter frame, and is fixed in the middle of the bottom of the cutter frame through a pin; the slitting roller is arranged below the slitting knife, and two sides of the slitting roller are fixed on the shearing machine frame.

Further, the traction system includes: the hydraulic shock absorber, the traction bearing seat, the traction rubber roller, the traction steel roller assembly and the height limiter; the traction steel roller assembly is made of steel, and is arranged behind the slitting system, and two ends of the traction steel roller assembly are fixed on the shearing machine frame; the traction rubber roller is made of rubber, the traction rubber roller is arranged above the traction steel roller assembly, traction bearing seats are arranged on two sides of the traction rubber roller, the rear ends of the traction bearing seats are fixed on a shearing frame, a hydraulic damper is arranged at the front end of the traction bearing seats, the hydraulic damper is fixed on the shearing frame, the bottom of the hydraulic damper is in contact with the upper part of the front end of the traction bearing seat, a height limiter is arranged below the hydraulic damper, the top end of the height limiter is in contact with the lower part of the front end of the traction bearing seat, when a traction system operates, the height limiter plays a role in adjusting the heights of the traction bearing seat and the traction rubber roller, the traction bearing seat increases the elastic pressure of the traction rubber roller and the traction steel roller assembly under the action of the hydraulic damper, and traction force of the traction rubber roller is generated under the action of friction force and the elastic pressure of the traction steel roller assembly when the traction steel roller assembly rotates.

Further, the crosscut flying shear system comprises: the device comprises an upper flying shear blade, a lower flying shear blade, a transverse flying shear base and a standard gear and a servo motor; the transverse flying shear base is arranged at the rear of the traction system, the transverse flying shear base is fixed at the middle position of the shear frame, the upper flying shear blade is provided with a spiral cutting blade, the upper flying shear blade is arranged above the transverse flying shear base, bearings are arranged on two sides of the upper flying shear blade, a gear is arranged on one side of the upper flying shear blade, the bearings arranged on two sides of the upper flying shear blade are fixed on the side of the shear frame, and the gear on one side of the upper flying shear blade can drive the upper flying shear blade to rotate; the lower flying shear blade is provided with a spiral cutting blade, the lower flying shear blade is arranged below the upper flying shear blade, bearings are arranged on two sides of the lower flying shear blade, a gear is arranged on one side of the lower flying shear blade, the bearings arranged on two sides of the lower flying shear blade are fixed on the side of the shear frame, and the gear on one side of the lower flying shear blade can drive the lower flying shear blade to rotate; the lower flying shear blade is provided with a spiral cutting blade opposite to the tool nose of the upper flying shear blade, one side of the upper flying shear blade is provided with a gear in the same direction as the gear arranged on one side of the lower flying shear blade, the gears are mutually meshed and matched, the flying shear of the transverse cutting flying shear system is that a master motor of the transverse cutting flying shear system rotates to drive the gear of the upper flying shear blade to rotate with the gear of the lower flying shear blade, and simultaneously the gear of the upper flying shear blade and the gear of the lower flying shear blade synchronously rotate, the master motor of the transverse shearing flying shear system can flexibly control the speed of the upper flying shear blade and the lower flying shear blade to synchronously rotate for one circle, the rotating speeds of the upper flying shear blade and the lower flying shear blade are flexibly set according to the cutting length, the circumferences of the upper flying shear blade and the lower flying shear blade and the cutting speed, and the increasing and decreasing rotating speeds of 0-360 degrees can be flexibly set when the flying shear blade and the lower flying shear blade rotate for one circle, so that the technological process of flexibly adjusting the cutting efficiency is the flying shear.

Further, the high-speed conveying system a includes: the device comprises a high-speed conveying frame, a translation supporting frame, an upper high-speed A moving roller, an upper high-speed A conveying belt, an upper high-speed A adjusting roller, an upper high-speed A supporting roller, an upper high-speed A power roller, a power belt adjusting wheel, an upper high-speed power belt, an upper high-speed driving assembly, a lower high-speed A moving roller, a lower high-speed A belt, a lower high-speed A adjusting roller, a lower high-speed A supporting roller, a lower high-speed A power roller, a high-speed conveying mounting plate and a conveying cylinder; the high-speed conveying installation plates are respectively arranged at the left side and the right side of the high-speed conveying rack, each high-speed conveying installation plate is provided with a translation support frame, the translation support frames can slide forwards and backwards on the side of the high-speed conveying installation plate, the tail parts of the conveying cylinders are fixed on the high-speed conveying installation plates, the head parts of the conveying cylinders are fixed on the translation support frames, and the extension and shortening of the conveying cylinders can push the translation support frames to move forwards and backwards relative to the high-speed conveying installation plates; the plurality of upper high-speed A moving rollers are arranged on the translation supporting frame, the upper high-speed A adjusting rollers comprise rollers and bearing seats, the distance of the bearing seats can be adjusted on the side surfaces of the rollers, the upper high-speed A adjusting rollers are arranged on the side surfaces of the high-speed conveying mounting plates, and the front and rear positions of the upper high-speed A adjusting rollers on the side surfaces of the high-speed conveying mounting plates can be adjusted by adjusting the bearing seats of the upper high-speed A adjusting rollers; the upper high-speed A supporting roller is arranged behind the upper high-speed A adjusting roller and is fixed on the side surface of the high-speed conveying mounting plate, the side surface of the upper high-speed A power roller is provided with a belt pulley, the upper high-speed A power roller is arranged behind the upper high-speed A supporting roller and is fixed on the side surface of the high-speed conveying mounting plate, and the upper high-speed A conveying belt is wound on the upper high-speed A moving roller, the upper high-speed A adjusting roller, the upper high-speed A supporting roller and the upper high-speed A power roller; the lower high-speed A moving roller is arranged below the upper high-speed A moving roller and fixed on the side surface of the translation supporting frame, the lower high-speed A adjusting roller is arranged below the lower high-speed A moving roller and fixed on the side surface of the high-speed conveying mounting plate, the lower high-speed A supporting roller is arranged behind the lower high-speed A adjusting roller and fixed on the side surface of the high-speed conveying mounting plate, a belt pulley is arranged on the side surface of the lower high-speed A power roller, the lower high-speed A power roller is arranged behind the lower high-speed A supporting roller and fixed on the side surface of the high-speed conveying mounting plate, and the lower high-speed A belt is wound on the lower high-speed A moving roller, the lower high-speed A adjusting roller, the lower high-speed A supporting roller and the lower high-speed A power roller; the extension and shortening of the conveying cylinder can push the translation supporting frame to move forwards and backwards relative to the high-speed conveying mounting plate so as to enable the upper high-speed A conveying belt and the lower high-speed A belt to move forwards and backwards simultaneously; the upper high-speed driving assembly comprises a motor and a belt pulley, the upper high-speed driving assembly is arranged on the side surface of the lower high-speed A power roller and is fixed on the side surface of the high-speed conveying mounting plate, the power belt adjusting wheel is arranged above the upper high-speed driving assembly and is fixed on the side surface of the high-speed conveying mounting plate, and the upper high-speed power belt is wound around the belt pulley of the upper high-speed driving assembly, the power belt adjusting wheel, the belt pulley of the side surface of the upper high-speed A power roller and the belt pulley of the lower high-speed A power roller; the belt pulley of the upper high-speed driving assembly is driven to rotate by the rotation of the motor of the upper high-speed driving assembly, the belt pulley on the side surface of the upper high-speed A power roller and the belt pulley of the lower high-speed A power roller are driven to rotate by the transmission of the upper high-speed power belt, and the belt pulley on the side surface of the upper high-speed A power roller is driven to rotate to drive the upper high-speed A conveyer belt to run by the rotation of the belt pulley of the lower high-speed A power roller.

Further, the high-speed conveying system B includes: the device comprises a high-speed conveying B power roller, a high-speed conveying B supporting roller, a high-speed conveying B conveying belt, a high-speed conveying B adjusting roller and a high-speed conveying B conducting roller; the belt pulley is arranged on the side face of the high-speed conveying B power roller, the high-speed conveying B power roller is arranged behind the upper high-speed conveying A power roller and fixed on the side face of the high-speed conveying mounting plate, the high-speed conveying B power roller is arranged above the high-speed conveying B power roller and fixed on the side face of the high-speed conveying mounting plate, the high-speed conveying B power roller is arranged behind the high-speed conveying B power roller and fixed on the side face of the rear station rack, the high-speed conveying B adjusting roller is arranged behind the high-speed conveying B power roller and fixed on the side face of the rear station rack, the high-speed conveying B conveying belt winds on the high-speed conveying B power roller, the high-speed conveying B power belt winds on the side belt pulley of the high-speed conveying B power roller, the motor of the upper high-speed driving assembly rotates to drive the belt pulley of the upper high-speed driving assembly, the high-speed conveying B power roller rotates through the upper high-speed conveying belt transmission, and the high-speed conveying B power roller rotates to drive the high-speed conveying B belt.

Further, the low speed delivery system includes: the device comprises a rear station frame, a low-speed conveying power roller, a low-speed conveying support roller, a low-speed conveying adjusting roller, a low-speed conveying driving assembly, a conveying motor plate, a low-speed conveying power belt, a low-speed conveying roller fixing plate and a low-speed conveying belt; the low-speed conveying driving assembly comprises a motor and a belt pulley, the low-speed conveying driving assembly is arranged behind the upper high-speed driving assembly and is fixed on the side surface of the high-speed conveying mounting plate, the low-speed conveying roller fixing plate is fixed above the rear station frame, one end of the low-speed conveying power roller is provided with the belt pulley, the low-speed conveying power roller is arranged above the low-speed conveying driving assembly and is fixed on the side surface of the low-speed conveying roller fixing plate, the low-speed conveying power belt is wound on the belt pulley of the low-speed conveying driving assembly and the belt pulley of the low-speed conveying power roller, the low-speed conveying adjusting roller consists of a roller and adjustable bearing seats at two ends, the low-speed conveying adjusting roller is arranged behind the low-speed conveying power roller, and the adjustable bearing seats at two ends of the low-speed conveying adjusting roller are fixed on the side surface of the low-speed conveying roller fixing plate, and the upper and lower positions of the low-speed conveying adjusting roller are controlled by adjusting the adjustable bearing seats at two ends of the low-speed conveying adjusting roller. The low-speed conveying supporting rollers are arranged behind the low-speed conveying adjusting rollers and are fixed on the side face of the low-speed conveying roller fixing plate, the low-speed conveying belt is wound on the low-speed conveying power roller, the low-speed conveying supporting rollers and the low-speed conveying adjusting rollers, the motor of the low-speed conveying driving assembly rotates to drive the belt pulley of the low-speed conveying driving assembly, the belt pulley of the low-speed conveying power roller is driven by the low-speed conveying power belt, the low-speed conveying power roller rotates, and the low-speed conveying power roller rotates to drive the low-speed conveying belt to operate.

Further, the palletizing system comprises: the device comprises a transverse paper aligning system, a longitudinal paper aligning system, a paper blocking system, a stacking power system, a chain adjusting roller, a chain supporting roller, a chain and a lifting plate; the stacking power system is formed by a motor and a chain wheel, the stacking power system is arranged at the bottom of the rear station frame, the chain adjusting roller is arranged above the stacking power system and fixed on the rear station frame, the plurality of chain supporting rollers are arranged on the rear station frame in a door-shaped arrangement, the chain is wound on the chain wheel, the chain adjusting roller and the chain supporting roller of the stacking power system, two ends of the plurality of chain supporting rollers are fixed at two ends of the lifting plate, the stacking power system is driven by the motor to rotate, and the chain wheel of the stacking power system rotates to pull the lifting plate to lift up and down; the transverse paper aligning system consists of a motor, an eccentric wheel, a pull rod and a baffle plate, the motion principle is that the motor of the transverse paper aligning system works to drive the eccentric wheel to rotate, the eccentric wheel of the transverse paper aligning system rotates to pull the pull rod of the transverse paper aligning system to reciprocate, and the pull rod of the transverse paper aligning system reciprocates to push the baffle plate to transversely flap paper, so that stacked paper is transversely tidy; the longitudinal paper aligning system consists of a motor, an eccentric wheel, a pull rod and a baffle, wherein the motor of the longitudinal paper aligning system works to drive the eccentric wheel to rotate, the eccentric wheel of the longitudinal paper aligning system rotates to pull the pull rod of the longitudinal paper aligning system to reciprocate, and the pull rod of the longitudinal paper aligning system reciprocates to push the baffle to longitudinally flap paper, so that stacked paper is longitudinally tidy; the paper blocking system consists of an air cylinder, a connecting plate, a flashboard and a paper blocking rack, the paper blocking system is arranged behind the longitudinal paper blocking system, the paper blocking system can be adjusted at the front and back positions of the top of the rear station rack, the front and back positions of the paper blocking system at the top of the rear station rack are adjusted according to the length and width of cut paper, the paper blocking system is formed by pulling the connecting plate of the paper blocking system through the air cylinder, the connecting plate of the paper blocking system drives the flashboard of the paper blocking system to move up and down, and conveyed paper is blocked in front of the flashboard of the paper blocking system, so that the paper is tidy in the stacking process.

Compared with the prior art, the invention has the advantages and positive effects that:

the double-station double-reverse-bending double-spiral knife rest intelligent fly knife slitting machine has the advantages that the double-station double-reverse-bending double-spiral knife rest intelligent fly knife slitting machine is an automatic process flow in the whole process, a double-station feeding system can feed two rolls of paper simultaneously, the winding system A and the winding system B of the double-winding system are used for controlling tension and leveling deformation and folds when the rolls of paper are conveyed, the slitting system is used for longitudinally slitting the paper, the paper feeding system is used for dragging the paper to the transverse cutting flying shears system for transversely cutting the paper into one knife, the paper is processed into square blocks, the high-speed conveying system A, the high-speed conveying system B and the low-speed conveying system are used for transversely and longitudinally piling the stacked paper, and the whole automatic process flow is realized.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a front view of the present utility model;

FIG. 2 is a front view of the present utility model from a duplex position to a slitting system;

FIG. 3 is a front view of the present utility model being transported to palletize;

FIG. 4 is a partial view of the present utility model being delivered to palletizing;

FIG. 5 is a partial view of the slow feed palletizing of the present utility model;

in the figure: double-station feeding system-1, winding system A-2, winding system B-3, slitting system-4, traction system-5, transverse flying shear system-6, high-speed conveying system A-7, high-speed conveying system B-8, low-speed conveying system-9, stacking system-10, winding A-111, winding B-112, path A-113, path B-114, feeding system base-115, power arm-116, cylinder-117, support arm-118, material shaft assembly-119, winding A reverse winding assembly-21, winding A tension absorbing assembly-22, winding B reverse winding assembly I assembly-23, winding system A support frame-24, path A transition shaft-31, winding B reverse winding assembly II assembly-32, winding system B regulating assembly-33 the coiling system B comprises a supporting frame-34, a transverse adjusting frame-41, a height adjusting knob-42, a cutter frame-43, a slitting knife-44, a slitting roller-45, a shearing frame-46, a hydraulic shock absorber-51, a traction bearing seat-52, a traction rubber roller-53, a traction steel roller component-54, a height limiter-55, an upper flying shearing cutter-61, a lower flying shearing cutter-62, a transverse flying shearing base-63, a high-speed conveying frame-70, a translation supporting frame-710, an upper high-speed A moving roller-711, an upper high-speed A conveying belt-712, an upper high-speed A adjusting roller-713, an upper high-speed A supporting roller-714, an upper high-speed A power roller-715, a power belt adjusting roller-716, the automatic machine comprises an upper high-speed power belt-717, an upper high-speed driving assembly-718, a lower high-speed A moving roller-721, a lower high-speed A belt-722, a lower high-speed A adjusting roller-723, a lower high-speed A supporting roller-724, a lower high-speed A power roller-725, a high-speed conveying mounting plate-726, a conveying cylinder-727, a high-speed conveying B power roller-811, a high-speed conveying B supporting roller-812, a high-speed conveying B conveying belt-813, a high-speed conveying B adjusting roller-814, a high-speed conveying B conducting roller-815, a rear station frame-90, a low-speed conveying power roller-911, a low-speed conveying supporting roller-912, a low-speed conveying adjusting roller-913, a low-speed conveying driving assembly-914, a conveying motor plate-915, a low-speed conveying power belt-916, a low-speed conveying roller fixing plate-917, a low-speed conveying belt-918, a transverse paper aligning system-11, a longitudinal paper aligning system-12, a paper blocking system-13, a power system-14, a stacking roller-15, a supporting roller-16, a lifting plate-17, a chain-18.

Description of the embodiments

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

In this example, as shown in fig. 1-5, a dual-station dual-recurved dual-spiral knife rest intelligent fly knife splitting machine comprises: the automatic feeding device comprises a double-station feeding system-1, a winding system A-2, a winding system B-3, a longitudinal cutting system-4, a paper feeding system-5, a transverse flying shear system-6, a high-speed conveying system A-7, a high-speed conveying system B-8, a low-speed conveying system-9 and a stacking system-10; the double-station feeding system-1 is arranged in front of the winding system A-2, and the double-station feeding system-1 and the winding system A-2 are fixed on a feeding system base-115 through the front end of a winding system A supporting frame-24; the bending system B-3 is arranged at the rear side of the bending system A-2 and fixed above the front of the shearing frame-46, the slitting system-4 is arranged at the rear side of the bending system B-3 and fixed above the shearing frame-46, the paper feeding system-5 is arranged at the middle position of the rear side of the slitting system-4 and fixed above the shearing frame-46, the transverse cutting flying shear system-6 is arranged in the middle of the shearing frame-46 fixed at the rear side of the paper feeding system-5, and the slitting system-4, the paper feeding system-5 and the transverse cutting flying shear system-6 are sequentially arranged from front to back above the shearing frame-46; the high-speed conveying system A-7 is arranged at the rear side of the transverse flying shear system-6 and is fixed on the high-speed conveying frame-70, and the high-speed conveying frame-70 is arranged at the rear side of the shearing frame-46; the high-speed conveying system B-8 and the low-speed conveying system-9 are arranged at the rear side of the high-speed conveying system A-7

The low-speed conveying system-9 is fixed on the rear station frame-90, the high-speed conveying system B-8 is arranged on the low-speed conveying system-9 and fixed on the rear station frame-90, the rear station frame-90 is arranged on the rear side of the high-speed conveying frame-70, the stacking system-10 is arranged on the rear sides of the high-speed conveying system B-8 and the low-speed conveying system-9, and the stacking system-10 is fixed on the rear station frame-90.

As shown in fig. 2, the double-station feeding system-1 includes: roll A-111, roll B-112, path A-113, path B-114, feeding system base-115, power arm-116, cylinder-117, support arm-118, and material shaft assembly-119; the double-station feeding system-1 and the winding system A-2 are paper rolls or copper foils, aluminum foils, thin steel plates and the like to be cut, a traction path of the winding A-111 is a path A-113, a traction path of the winding B-112 is a path B-114, the winding A-111 and the winding B-112 are respectively supported by supporting arms-118 at two sides, the supporting arms-118 are composed of rotating shaft fasteners, the winding A-111 can rotate on the supporting arms-118 at the upper end axial positions of the supporting arms-118 at two sides, and the winding B-112 can rotate on the supporting arms-118 at two sides at the upper end axial positions of the supporting arms-118 at two sides; the feeding system base-115 is an equipment base machined after steel assembly welding pieces are machined, power arms-116 are arranged on the left side and the right side of the feeding system base-115, one end of each power arm-116 is fixed on the feeding system base-115 through a steel shaft, the other end of each power arm-116 is fixed in the middle of a cylinder-117 through a steel shaft, the head of each cylinder-117 is fixed on the feeding system base-115 through the steel shaft, and the extension or shortening of each cylinder-117 can push each power arm-116 to swing by an angle; the two supporting arms-118 are respectively arranged at the left and right sides of the feeding system base-115, the supporting arms-118 are fixed on the feeding system base-115 through steel shafts, the supporting arms-118 and the tail shaft center position of the power arms-116 are concentric as shown in fig. 2, the supporting arms-118 and the supporting arms-118 are arranged on the outer side through the same steel shaft, the supporting arms-118 are arranged on the inner side, the extension or shortening of the air cylinder-117 pushes the power arms-116 to rotate, and the rotation of the power arms-116 is transmitted to the supporting arms-118 through the steel shaft to swing an angle so as to adjust the heights of a roll A-111 and a roll B-112 fixed on the supporting arms-118.

As shown in fig. 1 and 2, the curl system a-2 includes: the device comprises a roll A reverse-bending roll assembly-21, a roll A tension absorbing assembly-22, a roll B reverse-bending roll assembly I assembly-23 and a roll system A support frame-24, wherein the roll system A support frame-24 is formed by machining after welding a steel structure group, the bottom of the front end of the roll system A support frame-24 is fixed on a feeding system base-115, the rear end of the roll system A support frame-24 is contacted with a ground surface to form a gantry type, the roll A reverse-bending roll assembly-21 is an assembly and consists of two fixed rollers and a group of adjusting shafts, and the roll A reverse-bending roll assembly-21 is arranged on the upper part of the roll system A support frame-24; the roll A tension absorbing assembly-22 is arranged on the back side of the roll A reverse-bending roll assembly-21 and is fixed above the roll A supporting frame-24 of the roll A system, the roll A tension absorbing assembly-22 comprises a cylinder, a connecting rod pushed by the cylinder, a roller fixed below the connecting rod and a plurality of rollers used for winding the roll A-111, one end of the connecting rod in the roll A tension absorbing assembly-22 is fixed on the roll A supporting frame-24 of the roll A system through a shaft, the middle of the connecting rod in the roll A tension absorbing assembly-22 is connected with the head of the cylinder in the roll A tension absorbing assembly-22, and the cylinder in the roll A tension absorbing assembly-22 can stretch or shorten to push the swinging angle of the connecting rod in the roll A tension absorbing assembly-22 so as to adjust the tension of the roll A-111; the roll B reverse bending roll component I component-23 is arranged at the rear side of the roll A tension absorbing component-22 and is fixed on the roll system A supporting frame-24, and the roll B reverse bending roll component I component-23 consists of a plurality of groups of rolling shafts and a group of adjusting shafts.

As shown in fig. 1 and 2, the curl system B-3 includes: the device comprises a path A transition shaft-31, a roll B reverse bending component II component-32, a roll B branch regulating component-33 and a roll system B supporting frame-34, wherein the path A transition shaft-31 is arranged at the front end of the roll system B supporting frame-34, the path A-113 passes through the path A transition shaft, the roll B reverse bending component II component-32 is composed of a plurality of rollers, the roll B reverse bending component II component-32 is arranged in the middle of the roll system B supporting frame-34, the roll system B branch regulating component-33 is arranged in front of the roll B reverse bending component II component-32 and is fixed on the roll system B supporting frame-34, the roll B reverse bending component II component-32 is composed of two groups of regulating shafts and one regulator, and when the path B-114 of the roll B-112 passes through the roll B reverse bending component I component-23, the tension of the path B-114 and the flattening of the path B-114 are controlled by pushing the distance between the two groups of regulating shafts by regulating the regulator of the roll B reverse bending component II component-32.

As shown in fig. 1 and 2, the slitting system-4 includes: the device comprises a transverse adjusting frame-41, a knob-42, a height adjusting frame-43, a slitting knife-44, a slitting roller-45 and a shearing frame-46; the transverse adjusting frame-41 is an assembly and consists of a transverse guide rail and a plurality of longitudinal sliding blocks, the plurality of longitudinal sliding blocks are arranged on the transverse guide rail, the transverse guide rail of the transverse adjusting frame-41 is arranged on the shearing frame-46, the plurality of longitudinal sliding blocks can slide on the transverse guide rail to adjust and control the distance between the two sliding blocks, and the number of the plurality of longitudinal sliding blocks of the transverse adjusting frame-41 and the distance of the transverse arrangement are determined according to the required cutting width of paper rolls or copper foils and the like pulled out by the winding system A-2 and the winding system B-3; the cutter frame-43 is arranged on the transverse adjusting frame-41, a thread is arranged in the middle of the top of the cutter frame-43, a thread is arranged on the height adjusting knob-42, the thread on the height adjusting knob-42 is matched with the thread in the middle of the top of the cutter frame-43, the height adjusting knob-42 is screwed into the thread in the middle of the top of the cutter frame-43, and the height of the cutter frame-43 can be adjusted by rotating the height adjusting knob-42; the longitudinal cutter-44 is arranged in the middle of the bottom of the cutter frame-43, and the longitudinal cutter-44 is fixed in the middle of the bottom of the cutter frame-43 through a pin; the slitting roller-45 is arranged below the slitting knife-44, and two sides of the slitting roller-45 are fixed on the shearing machine frame-46.

As shown in fig. 1 and 2, the traction system-5 includes: the hydraulic shock absorber-51, a traction bearing seat-52, a traction rubber roller-53, a traction steel roller assembly-54 and a height limiter-55; the traction steel roller assembly-54 is made of steel, the traction steel roller assembly-54 is arranged behind the slitting system-4, and two ends of the traction steel roller assembly-54 are fixed on the shearing machine frame-46; the traction rubber roller-53 is made of rubber, the traction rubber roller-53 is arranged above the traction steel roller assembly-54, traction bearing seats-52 are arranged on two sides of the traction rubber roller-53, the rear ends of the traction bearing seats-52 are fixed on the shearing machine frame-46, the hydraulic shock absorber-51 is arranged at the front ends of the traction bearing seats-52, the hydraulic shock absorber-51 is fixed on the shearing machine frame-46, the bottom of the hydraulic shock absorber-51 is in contact with the upper part of the front end of the traction bearing seat-52, the height limiter-55 is arranged below the hydraulic shock absorber-51, the top ends of the height limiter-55 are in contact with the lower part of the front end of the traction bearing seat-52, when the traction system-5 operates, the height limiter-55 plays a role in adjusting the heights of the traction bearing seat-5 and the traction rubber roller-53, the hydraulic shock absorber-51 is used for increasing the elastic pressure of the traction rubber roller-53 and the traction steel roller assembly-54 under the action of the hydraulic shock absorber-51, and the elastic traction force generated by the traction system-5 under the action of the elastic pressure of the traction rubber roller-53 and the traction steel roller assembly-54 when the traction system-54 rotates.

As shown in fig. 1 and 2, the transverse flying shear system-6 comprises: the device comprises an upper flying shear blade-61, a lower flying shear blade-62, a transverse flying shear base-63 and a standard gear and a servo motor; the transverse flying shear base-63 is arranged at the rear of the traction system-5, the transverse flying shear base-63 is fixed at the middle position of the shear frame-46, the upper flying shear cutter-61 is provided with a spiral cutting blade, the upper flying shear cutter-61 is arranged above the transverse flying shear base-63, both sides of the upper flying shear cutter-61 are provided with bearings, one side of the upper flying shear cutter-61 is provided with a gear, the bearings arranged at both sides of the upper flying shear cutter-61 are fixed at the side of the shear frame-46, and the gear at one side of the upper flying shear cutter-61 can drive the upper flying shear cutter-61 to rotate; the lower flying shear cutter-62 is provided with a spiral cutting blade, the lower flying shear cutter-62 is arranged below the upper flying shear cutter-61, bearings are arranged on two sides of the lower flying shear cutter-62, a gear is arranged on one side of the lower flying shear cutter-62, the bearings arranged on two sides of the lower flying shear cutter-62 are fixed on the side of the shear frame-46, and the gear on one side of the lower flying shear cutter-62 can drive the lower flying shear cutter-62 to rotate; the lower flying shear blade-62 is provided with a spiral cutting blade opposite to the tip of the spiral cutting blade arranged on the upper flying shear blade-61, a gear is arranged on one side of the upper flying shear blade-61 and a gear is arranged on one side of the lower flying shear blade-62 and is in the same direction, the gears are meshed and matched with each other, the flying shear of the transverse flying shear system-6 is that a master motor of the transverse flying shear system-6 rotates to drive the gear of the upper flying shear blade-61 and the gear of the lower flying shear blade-62 to rotate, meanwhile, the master motor of the transverse flying shear system-6 synchronously rotates the upper flying shear blade-61 and the lower flying shear blade-62, the speed of the synchronous rotation of the upper flying shear blade-61 and the lower flying shear blade-62 is fast and slow, the rotation speed of the upper flying shear blade-61 and the lower flying shear blade-62 is flexibly set according to the cutting length and the circumference of the upper flying shear blade-61 and the cutting speed of the lower flying shear blade-62, and the efficiency of the cutting process can be flexibly set to increase or decrease the rotation speed of the upper flying shear blade-61 and the lower flying shear blade-62 by 0-360 degrees when the flying shear blade-61 and the lower flying shear blade-62 rotate for one circle.

As shown in fig. 1 and 3, the high-speed conveying system a-7 includes: the device comprises a high-speed conveying frame-70, a translation supporting frame-710, an upper high-speed A moving roller-711, an upper high-speed A conveying belt-712, an upper high-speed A adjusting roller-713, an upper high-speed A supporting roller-714, an upper high-speed A power roller-715, a power belt adjusting wheel-716, an upper high-speed power belt-717, an upper high-speed driving assembly-718, a lower high-speed A moving roller-721, a lower high-speed A belt-722, a lower high-speed A adjusting roller-723, a lower high-speed A supporting roller-724, a lower high-speed A power roller-725, a high-speed conveying mounting plate-726 and a conveying cylinder-727; the high-speed conveying installation plates-726 are respectively arranged on the left side and the right side of the high-speed conveying frame-70, each high-speed conveying installation plate-726 is provided with a translation support frame-710, the translation support frames-710 can slide forwards and backwards on the side of the high-speed conveying installation plate-726, the tail parts of the conveying air cylinders-727 are fixed on the high-speed conveying installation plates-726, the heads of the conveying air cylinders-727 are fixed on the translation support frames-710, and the extension and shortening of the conveying air cylinders-727 can push the translation support frames-710 to move forwards and backwards relative to the high-speed conveying installation plates-726; the plurality of upper high-speed A moving rollers-711 are arranged on the translation supporting frame-710, the upper high-speed A adjusting roller-713 comprises a roller and a bearing seat with adjustable distance on the side surface of the roller, the upper high-speed A adjusting roller-713 is arranged on the side surface of the high-speed conveying mounting plate-726, and the front and rear positions of the upper high-speed A adjusting roller-713 on the side surface of the high-speed conveying mounting plate-726 can be adjusted by adjusting the bearing seat of the upper high-speed A adjusting roller-713; the upper high-speed A supporting roller-714 is arranged behind the upper high-speed A adjusting roller-713 and fixed on the side surface of the high-speed conveying mounting plate-726, a belt pulley is arranged on the side surface of the upper high-speed A power roller-715, the upper high-speed A power roller-715 is arranged behind the upper high-speed A supporting roller-714 and fixed on the side surface of the high-speed conveying mounting plate-726, and the upper high-speed A conveying belt-712 is wound on the upper high-speed A moving roller-711, the upper high-speed A adjusting roller-713, the upper high-speed A supporting roller-714 and the upper high-speed A power roller-715; the lower high-speed A moving roller-721 is fixed on the side of the translation supporting frame-710 below the upper high-speed A moving roller-711, the lower high-speed A adjusting roller-723 is arranged below the lower high-speed A moving roller-721 and fixed on the side of the high-speed conveying mounting plate-726, the lower high-speed A supporting roller-724 is arranged behind the lower high-speed A adjusting roller-723 and fixed on the side of the high-speed conveying mounting plate-726, the side of the lower high-speed A power roller-725 is provided with a belt pulley, the lower high-speed A power roller-725 is arranged behind the lower high-speed A supporting roller-724 and fixed on the side of the high-speed conveying mounting plate-726, and the lower high-speed A belt-722 is wound around the lower high-speed A moving roller-721, the lower high-speed A adjusting roller-723, the lower high-speed A supporting roller-724 and the lower high-speed A power roller-725; the extension and shortening of the conveying cylinder-727 can push the translation supporting frame-710 to move forwards and backwards relative to the high-speed conveying mounting plate-726 so as to move the upper high-speed A conveying belt-712 and the lower high-speed A belt-722 forwards and backwards at the same time; the upper high-speed driving assembly-718 comprises a motor and a belt pulley, the upper high-speed driving assembly-718 is arranged on the lower high-speed A power roller-725 and fixed on the side surface of the high-speed conveying mounting plate-726, the power belt adjusting wheel-716 is arranged above the upper high-speed driving assembly-718 and fixed on the side surface of the high-speed conveying mounting plate-726, and the upper high-speed power belt-717 is wound around the belt pulley of the upper high-speed driving assembly-718, the power belt adjusting wheel-716, the belt pulley on the side surface of the upper high-speed A power roller-715 and the belt pulley of the lower high-speed A power roller-725; the belt pulley of the upper high-speed driving assembly-718 is driven to rotate by the motor of the upper high-speed driving assembly-718, the belt pulley on the side surface of the upper high-speed A power roller-715 and the belt pulley of the lower high-speed A power roller-725 are driven to rotate by the transmission of the upper high-speed power belt-717, the belt pulley on the side surface of the upper high-speed A power roller-715 drives the upper high-speed A conveyor belt-712 to operate, and the belt pulley of the lower high-speed A power roller-725 drives the lower high-speed A belt-722 to operate.

As shown in fig. 1, 3 and 4, the high-speed conveying system B-8 includes: the device comprises a high-speed conveying B power roller-811, a high-speed conveying B supporting roller-812, a high-speed conveying B conveying belt-813, a high-speed conveying B adjusting roller-814 and a high-speed conveying B conducting roller-815; the side of the high-speed conveying B power roller-811 is provided with a belt pulley, the high-speed conveying B power roller-811 is arranged behind the upper high-speed conveying B power roller-715 and fixed on the side of the high-speed conveying mounting plate-726, the high-speed conveying B supporting roller-812 is arranged above the high-speed conveying B power roller-811 and fixed on the side of the high-speed conveying mounting plate-726, the high-speed conveying B power roller-815 is arranged behind the high-speed conveying B supporting roller-812 and fixed on the side of the rear station frame-90, the high-speed conveying B adjusting roller-814 is arranged behind the high-speed conveying B power roller-815 and fixed on the side of the rear station frame-90, the high-speed conveying B belt-813 is wound on the high-speed conveying B power roller-811, the high-conveying B supporting roller-812, the high-conveying B adjusting roller-814 and the high-conveying B power roller-815, the upper high-speed power belt 717 is also wound on the belt pulley on the side of the high-811, and the upper high-speed conveying B power roller-717 is driven to rotate by the motor of the upper high-speed driving assembly-718 to rotate, and the high-speed conveying B power belt is driven by the motor of the upper high-speed driving assembly-718 to rotate.

As shown in fig. 1, 3 and 4 and 5, the low-speed conveying system-9 includes: the device comprises a rear station frame-90, a low-speed conveying power roller-911, a low-speed conveying support roller-912, a low-speed conveying adjusting roller-913, a low-speed conveying driving assembly-914, a conveying motor plate-915, a low-speed conveying power belt-916, a low-speed conveying roller fixing plate-917 and a low-speed conveying belt-918; the low-speed conveying driving assembly-914 comprises a motor and a belt pulley, the low-speed conveying driving assembly-914 is arranged behind the upper high-speed driving assembly-718 and fixed on the side surface of the high-speed conveying mounting plate-726, the low-speed conveying roller fixing plate-917 is fixed above the rear station frame-90, one end of the low-speed conveying power roller-911 is provided with the belt pulley, the low-speed conveying power roller-911 is arranged above the low-speed conveying driving assembly-914 and fixed on the side surface of the low-speed conveying roller fixing plate-917, the low-speed conveying power belt-916 is wound on the belt pulley of the low-speed conveying driving assembly-914 and the belt pulley of the low-speed conveying power roller-911, the low-speed conveying adjusting roller-913 is composed of rollers and adjustable bearing seats at two ends, the adjustable bearing seats at two ends of the low-speed conveying adjusting roller-913 are fixed on the side surface of the low-917, and the adjustable positions of the low-speed conveying rollers at two ends of the adjustable bearing seats at the low-speed conveying adjusting roller-913 are controlled by adjusting the adjustable bearing seats at two ends of the low-speed conveying adjusting roller-913; the plurality of low-speed conveying supporting rollers-912 are arranged behind the low-speed conveying adjusting roller-913 and are fixed on the side face of the low-speed conveying roller fixing plate-917, the low-speed conveying belt-918 is wound on the low-speed conveying power roller-911, the low-speed conveying supporting roller-912 and the low-speed conveying adjusting roller-913, the motor of the low-speed conveying driving assembly-914 rotates to drive the belt pulley of the low-speed conveying driving assembly-914, the belt pulley of the low-speed conveying power roller-911 is driven by the low-speed conveying power belt-916, so that the low-speed conveying power roller-911 rotates, and the low-speed conveying power roller-911 rotates to drive the low-speed conveying belt-918 to operate.

As shown in fig. 1 and 5, the palletizing system-10 includes: the automatic stacking machine comprises a transverse paper aligning system-11, a longitudinal paper aligning system-12, a paper blocking system-13, a stacking power system-14, a chain adjusting roller-15, a chain supporting roller-16, a chain-17 and a lifting plate-18; the stacking power system-14 consists of a motor and a chain wheel, the stacking power system-14 is arranged at the bottom of the rear station frame-90, the chain regulating roller-15 is arranged above the stacking power system-14 and fixed on the rear station frame-90, the chain supporting rollers-16 are arranged on the rear station frame-90 in a door-shaped arrangement, the chain-17 is wound on the chain wheel of the stacking power system-14, the chain regulating roller-15 and the chain supporting roller-16, two ends of the chain supporting rollers-16 are fixed at two ends of the lifting plate-18, the stacking power system-14 is driven by the motor to rotate by driving the chain wheel, and the chain wheel of the stacking power system-14 rotates to pull the lifting plate-18 to lift up and down; the transverse paper aligning system-11 consists of a motor, an eccentric wheel, a pull rod and a baffle plate, the motion principle is that the motor of the transverse paper aligning system-11 works to drive the eccentric wheel to rotate, the eccentric wheel of the transverse paper aligning system-11 rotates to pull the pull rod of the transverse paper aligning system-11 to reciprocate, and the pull rod of the transverse paper aligning system-11 reciprocates to push the baffle plate to transversely flap paper, so that stacked paper is transversely tidy; the longitudinal paper aligning system-12 consists of a motor, an eccentric wheel, a pull rod and a baffle, wherein the motor of the longitudinal paper aligning system-12 works to drive the eccentric wheel to rotate, the eccentric wheel of the longitudinal paper aligning system-12 rotates to pull the pull rod of the longitudinal paper aligning system-12 to reciprocate, and the pull rod of the longitudinal paper aligning system-12 reciprocates to push the baffle to longitudinally flap paper, so that stacked paper is longitudinally tidy; the paper blocking system-13 consists of an air cylinder, a connecting plate, a flashboard and a paper blocking rack, the paper blocking system-13 is arranged behind the longitudinal paper blocking system-12, the paper blocking system-13 can be adjusted in front of and behind the top of the rear station rack-90, the position of the paper blocking system-13 is adjusted in front of and behind the top of the rear station rack-90 according to the length and width of cut paper, the connecting plate of the paper blocking system-13 is pulled by the air cylinder through the paper blocking system-13, the connecting plate of the paper blocking system-13 drives the flashboard of the paper blocking system-13 to move up and down, and the conveyed paper is blocked in front of the flashboard of the paper blocking system-13, so that the paper is tidy in the stacking process.

The working process of the utility model is that as shown in the figures 1-5, firstly, a roll A-111 and a roll B-112 are respectively arranged on a front material shaft assembly-119 and a rear material shaft assembly-119 of a double-station feeding system-1, a cylinder-117 stretches and pushes a power arm-116 to rotate, the power arm-116 rotates to pull a swinging angle of a supporting arm-118, after the power arm-116 is adjusted to a proper angle, a roll of the roll A-111 is pulled out to form a path A-113, as shown in the figure 2, the path A-113 is pulled out after being wound by a roll A reverse winding assembly-21, a roll B reverse winding assembly I assembly-23 and a path A reverse winding shaft-31, the path A-113 is pulled through the middle of a slitter-44 and a slitter-45 of a slitter system-4, the path A-113 is pulled out through a middle gap between a traction rubber roll-53 and a traction steel roll assembly-54, and finally the path A-113 is penetrated through a middle gap between an upper fly shear-61 and a lower fly shear-62 in a transverse fly shear system-6; the coil of the coil B-112 is pulled out to form a path B-114, the path B-114 is pulled out after being wound by a coil B reverse bending coil assembly I assembly-23 and a coil B reverse bending coil assembly II assembly-32, the path B-114 is pulled through the middle of a slitting knife-44 and a slitting roller-45 of a slitting system-4, the path B-114 is pulled out through a gap between a traction rubber roller-53 and a traction steel roller assembly-54, and finally the path B-114 passes through a gap between an upper flying shear-61 and a lower flying shear-62 in a transverse flying shear system-6; the distance between the longitudinal cutting of the longitudinal cutting system-4 and the clearance between the longitudinal cutting knife-44 and the longitudinal cutting roller-45 is adjusted, the distance between the hydraulic shock absorber-51 and the height limiter-55 in the traction system-5 is adjusted so that the friction force between the traction rubber roller-53 and the traction steel roller assembly-54 is optimal, the cutting clearance between the upper flying shearing knife-61 and the lower flying shearing knife-62 in the transverse flying shearing system-6 is adjusted, the rotating speed of the transverse flying shearing system-6 is adjusted, at the moment, in the double-station feeding system-1, the path A-113 of the coil A-111 and the path B-114 of the coil B-112 start to operate under the traction of the traction system-5, the slitting knife-44 and the slitting roller-45 of the slitting system-4 simultaneously slit the path A-113 and the path B-114 into strips and then convey the strips to the transverse flying shear system-6, the path A-113 and the path B-114 are simultaneously transversely cut into sheets in the transverse flying shear system-6, the sheets are conveyed to the middle of the high-speed conveying system B-8 and the low-speed conveying system-9 at a high speed through the gap between the upper high-speed A conveying belt-712 and the lower high-speed A belt-722 in the high-speed conveying system A-7 after the sheets are cut into the paths A-113 and the path B-114, the sheets start to be stacked and palletized under the difference of the high-speed conveying B conveying belt-813 of the high-speed conveying system B-8 and the low-speed conveying power belt-916 of the low-speed conveying system-9, after the path A-113 and the path B-114 are cut into sheets for stacking, the stacking is started by stopping conveying through a paper blocking system-13, the longitudinal paper aligning system-12 longitudinally beats the stacking after the path A-113 and the path B-114 are cut into sheets, the transverse paper aligning system-11 transversely beats the stacking, at the moment, the path A-113 and the path B-114 are cut into sheets for orderly stacking, at the moment, a stacking power system-14 drives a chain-17 to run, and the chain-17 runs to pull a lifting plate-18 to lift so as to realize the height of stacking.

The double-station double-reverse-bending double-spiral knife rest intelligent fly knife slitting machine has the advantages that the double-station double-reverse-bending double-spiral knife rest intelligent fly knife slitting machine is an automatic process flow in the whole process, a double-station feeding system can feed two rolls of paper simultaneously, the winding system A and the winding system B of the double-winding system are used for controlling tension and leveling deformation and folds when the rolls of paper are conveyed, the slitting system is used for longitudinally slitting the paper, the paper feeding system is used for dragging the paper to the transverse cutting flying shears system for transversely cutting the paper into one knife, the paper is processed into square blocks, the high-speed conveying system A, the high-speed conveying system B and the low-speed conveying system are used for transversely and longitudinally piling the stacked paper, and the whole automatic process flow is realized.

All other embodiments, modifications, equivalents, improvements, etc., which are apparent to those skilled in the art without the benefit of this disclosure, are intended to be included within the scope of this invention.

Claims (8)

1. An intelligent fly cutter splitting machine with double-station double-reverse-curve double-spiral cutter rest, comprising: the device comprises a double-station feeding system, a winding system A, a winding system B, a slitting system, a paper feeding system, a transverse flying shear system, a high-speed conveying system A, a high-speed conveying system B, a low-speed conveying system and a stacking system; the intelligent fly cutter splitting machine with the double-station double-reverse-bending double-spiral cutter rest is characterized in that the double-station feeding system is arranged in front of a curved roll system A, the double-station feeding system and the curved roll system A are sequentially arranged from front to back above a shearing machine frame through the front end of a curved roll system A supporting frame, a curved roll system B is arranged at the back side of the curved roll system A and is fixed above the shearing machine frame, a slitting system is arranged at the back side of the curved roll system B and is fixed above the shearing machine frame, a paper feeding system is arranged at the middle position above the shearing machine frame at the back side of the slitting system, a paper feeding system and a transverse cutting fly cutter system are sequentially arranged from front to back above the shearing machine frame, a high-speed conveying system A is arranged at the back side of the transverse cutting fly cutter system and is fixed on a high-speed conveying machine frame, a high-speed conveying machine frame is arranged at the back side of the shearing machine frame, a high-speed conveying system B and a low-speed conveying system is arranged at the back side of the shearing machine frame and is fixed at the back side of the high-speed conveying system B, a post-stacking machine frame is arranged at the back side of the high-speed conveying system and is fixed at the back side of the station B; the utility model provides a duplex position double-reverse curve double helix knife rest intelligence fly cutter cutting machine which characterized in that duplex position feeding system includes: the double-station feeding system and the bending system A are paper rolls or copper foils, aluminum foils and thin steel plates to be cut, a traction path of the coil A is the path A, a traction path of the coil B is the path B, the coil A and the coil B are respectively supported by support arms on two sides, the support arms are combined parts and are composed of rotating shaft fasteners, the coil A can rotate on the upper end axial positions of the support arms on two sides, and the coil B can rotate on the upper end axial positions of the support arms on two sides; the feeding system base is an equipment base machined after steel assembly welding pieces are machined, power arms are arranged on the left side and the right side of the feeding system base, one end of each power arm is fixed on the feeding system base through a steel shaft, the other end of each power arm is fixed at the middle position of a cylinder through the steel shaft, the head of each cylinder is fixed on the feeding system base through the steel shaft, and the extension or shortening of each cylinder can push the corresponding power arm to swing by an angle; the utility model provides a double-reverse curved double helix knife rest intelligent fly cutter cutting machine, its characterized in that the slitting system includes: the device comprises a transverse adjusting frame, a knob, a height adjusting frame, a slitting knife, slitting rollers and a shearing frame, wherein the transverse adjusting frame is an assembly and consists of a transverse guide rail and a plurality of longitudinal sliding blocks, the plurality of longitudinal sliding blocks are arranged on the transverse guide rail, the transverse guide rail of the transverse adjusting frame is arranged on the shearing frame, the plurality of longitudinal sliding blocks can slide on the transverse guide rail to adjust and control the distance between the transverse guide rail and the transverse guide rail, and the number of the plurality of longitudinal sliding blocks and the distance of transverse arrangement of the transverse adjusting frame are determined according to the requirement of cutting widths of paper rolls or copper foils pulled out by a winding system A and a winding system B; the cutter rest is arranged on the transverse adjusting frame, a thread is arranged in the middle of the top of the cutter rest, a thread is arranged on the height adjusting knob, the thread on the height adjusting knob is matched with the thread in the middle of the top of the cutter rest, the height adjusting knob is screwed into the thread in the middle of the top of the cutter rest, the height of the cutter rest can be adjusted by rotating the height adjusting knob, the longitudinal cutter is arranged in the middle of the bottom of the cutter rest, the longitudinal cutter is fixed in the middle of the bottom of the cutter rest through a pin, the longitudinal cutter roller is arranged below the longitudinal cutter, and two sides of the longitudinal cutter roller are fixed on the shearing frame; the utility model provides a duplex position double-reverse curve double helix knife rest intelligence fly cutter cutting machine which characterized in that traction system includes: the hydraulic shock absorber, the traction bearing seat, the traction rubber roller, the traction steel roller assembly and the height limiter; the traction steel roller assembly is made of steel, the traction steel roller assembly is arranged behind the slitting system, two ends of the traction steel roller assembly are fixed on the shearing frame, the traction rubber roller is made of rubber, the traction rubber roller is arranged above the traction steel roller assembly, traction bearing seats are arranged on two sides of the traction rubber roller, the rear end of the traction bearing seat is fixed on the shearing frame, a hydraulic damper is arranged at the front end of the traction bearing seat, the hydraulic damper is fixed on the shearing frame, the bottom of the hydraulic damper is in contact with the upper portion of the front end of the traction bearing seat, a height limiter is arranged below the hydraulic damper, the top end of the height limiter is in contact with the lower portion of the front end of the traction bearing seat, when the traction system operates, the height limiter plays a role in adjusting the height of the traction bearing seat and the traction rubber roller, the elastic pressure of the traction steel roller assembly is increased under the action of the hydraulic damper, and the friction force and the elastic pressure of the traction rubber roller are generated under the action of the traction force and the elastic pressure of the traction rubber roller when the traction steel roller assembly rotates.

2. The intelligent fly cutter splitting machine with double-station double-reverse-bending double-spiral cutter rest according to claim 1, wherein the intelligent fly cutter splitting machine is characterized in that: the curl system a includes: the device comprises a roll A reverse-bending roll assembly, a roll A tension absorption assembly, a roll B reverse-bending roll assembly I assembly and a roll system A support frame, wherein the roll system A support frame is formed by machining after welding a steel structure group, the bottom of the front end of the roll system A support frame is fixed on a feeding system base, the rear end of the roll system A support frame is in contact with the ground to form a gantry type, the roll A reverse-bending roll assembly is an assembly and consists of two fixed rollers and a group of adjusting shafts, and the roll A reverse-bending roll assembly is arranged on the upper part of the roll system A support frame; the tension absorbing assembly of the coil A is arranged at the rear side of the back-bending coil assembly of the coil A and is fixed above a support frame of the bending coil system A, the tension absorbing assembly of the coil A comprises a cylinder, a connecting rod pushed by the cylinder, a roller fixed below the connecting rod and a plurality of rollers used for winding the coil A, one end of the connecting rod in the tension absorbing assembly of the coil A is fixed on the support frame of the bending coil system A through a shaft, the middle of the connecting rod in the tension absorbing assembly of the coil A is connected with the head part of the cylinder in the tension absorbing assembly of the coil A, and the cylinder in the tension absorbing assembly of the coil A is lengthened or shortened to push the swinging angle of the connecting rod in the tension absorbing assembly of the coil A so as to adjust the tension of the coil A; the winding system is characterized in that the winding B reverse-bending winding component I is arranged on the rear side of the winding A tension absorbing component and fixed on the supporting frame of the winding system A, and the winding B reverse-bending winding component I consists of a plurality of groups of rolling shafts and a group of adjusting shafts.

3. The intelligent fly cutter splitting machine with double-station double-reverse-bending double-spiral cutter rest according to claim 1, wherein the intelligent fly cutter splitting machine is characterized in that: the curl system B includes: the device comprises a path A transition shaft, a roll B reverse-bending component II component, a roll system B branch regulating component and a roll system B supporting frame, wherein the path A transition shaft is arranged at the front end of the roll system B supporting frame, the path A passes through the path A transition shaft, the roll B reverse-bending component II component is composed of a plurality of rollers, the roll B reverse-bending component II component is arranged in the middle of the roll system B supporting frame, the roll system B branch regulating component is arranged in front of the roll B reverse-bending component II component and is fixed on the roll system B supporting frame, the roll B reverse-bending component II component is composed of two groups of regulating shafts and a regulator, and when the path B of the roll B passes through the roll B reverse-bending component I component, the regulator of the roll B reverse-bending component II component is regulated to push the distance of the two groups of regulating shafts so as to control the tension of the path B and remove and flatten wrinkles of the path B.

4. The intelligent fly cutter splitting machine with double-station double-reverse-bending double-spiral cutter rest according to claim 1, wherein the intelligent fly cutter splitting machine is characterized in that: the crosscut flying shear system comprises: the device comprises an upper flying shear blade, a lower flying shear blade, a transverse flying shear base, a gear and a servo motor; the transverse flying shear base is arranged at the rear of the traction system, the transverse flying shear base is fixed at the middle position of the shear frame, the upper flying shear blade is provided with a spiral cutting blade, the upper flying shear blade is arranged above the transverse flying shear base, bearings are arranged on two sides of the upper flying shear blade, a gear is arranged on one side of the upper flying shear blade, the bearings arranged on two sides of the upper flying shear blade are fixed on the side of the shear frame, and the gear on one side of the upper flying shear blade can drive the upper flying shear blade to rotate; the lower flying shear blade is provided with a spiral cutting blade, the lower flying shear blade is arranged below the upper flying shear blade, bearings are arranged on two sides of the lower flying shear blade, a gear is arranged on one side of the lower flying shear blade, the bearings arranged on two sides of the lower flying shear blade are fixed on the side of the shear frame, and the gear on one side of the lower flying shear blade can drive the lower flying shear blade to rotate; the lower flying shear blade is provided with a spiral cutting blade opposite to the tool nose of the upper flying shear blade, one side of the upper flying shear blade is provided with a gear in the same direction as the gear arranged on one side of the lower flying shear blade, the gears are mutually meshed and matched, the flying shear of the transverse cutting flying shear system is that a master motor of the transverse cutting flying shear system rotates to drive the gear of the upper flying shear blade to rotate with the gear of the lower flying shear blade, and simultaneously the gear of the upper flying shear blade and the gear of the lower flying shear blade synchronously rotate, the master motor of the transverse shearing flying shear system can flexibly control the speed of the upper flying shear blade and the lower flying shear blade to synchronously rotate for one circle, the rotating speeds of the upper flying shear blade and the lower flying shear blade are flexibly set according to the cutting length, the circumferences of the upper flying shear blade and the lower flying shear blade and the cutting speed, and the increasing and decreasing rotating speeds of 0-360 degrees can be flexibly set when the flying shear blade and the lower flying shear blade rotate for one circle, so that the technological process of flexibly adjusting the cutting efficiency is the flying shear.

5. The intelligent fly cutter splitting machine with double-station double-reverse-bending double-spiral cutter rest according to claim 1, wherein the intelligent fly cutter splitting machine is characterized in that: the high-speed conveying system A comprises: the device comprises a high-speed conveying frame, a translation supporting frame, an upper high-speed A moving roller, an upper high-speed A conveying belt, an upper high-speed A adjusting roller, an upper high-speed A supporting roller, an upper high-speed A power roller, a power belt adjusting wheel, an upper high-speed power belt, an upper high-speed driving assembly, a lower high-speed A moving roller, a lower high-speed A belt, a lower high-speed A adjusting roller, a lower high-speed A supporting roller, a lower high-speed A power roller, a high-speed conveying mounting plate and a conveying cylinder; the high-speed conveying installation plates are respectively arranged at the left side and the right side of the high-speed conveying rack, each high-speed conveying installation plate is provided with a translation support frame, the translation support frames can slide forwards and backwards on the side of the high-speed conveying installation plate, the tail parts of the conveying cylinders are fixed on the high-speed conveying installation plates, the head parts of the conveying cylinders are fixed on the translation support frames, and the extension and shortening of the conveying cylinders can push the translation support frames to move forwards and backwards relative to the high-speed conveying installation plates; the plurality of upper high-speed A moving rollers are arranged on the translation supporting frame, the upper high-speed A adjusting rollers comprise rollers and bearing seats, the distance of the bearing seats can be adjusted on the side surfaces of the rollers, the upper high-speed A adjusting rollers are arranged on the side surfaces of the high-speed conveying mounting plates, and the front and rear positions of the upper high-speed A adjusting rollers on the side surfaces of the high-speed conveying mounting plates can be adjusted by adjusting the bearing seats of the upper high-speed A adjusting rollers; the upper high-speed A supporting roller is arranged behind the upper high-speed A adjusting roller and is fixed on the side surface of the high-speed conveying mounting plate, the side surface of the upper high-speed A power roller is provided with a belt pulley, the upper high-speed A power roller is arranged behind the upper high-speed A supporting roller and is fixed on the side surface of the high-speed conveying mounting plate, and the upper high-speed A conveying belt is wound on the upper high-speed A moving roller, the upper high-speed A adjusting roller, the upper high-speed A supporting roller and the upper high-speed A power roller; the lower high-speed A moving roller is arranged below the upper high-speed A moving roller and fixed on the side surface of the translation supporting frame, the lower high-speed A adjusting roller is arranged below the lower high-speed A moving roller and fixed on the side surface of the high-speed conveying mounting plate, the lower high-speed A supporting roller is arranged behind the lower high-speed A adjusting roller and fixed on the side surface of the high-speed conveying mounting plate, a belt pulley is arranged on the side surface of the lower high-speed A power roller, the lower high-speed A power roller is arranged behind the lower high-speed A supporting roller and fixed on the side surface of the high-speed conveying mounting plate, and the lower high-speed A belt is wound on the lower high-speed A moving roller, the lower high-speed A adjusting roller, the lower high-speed A supporting roller and the lower high-speed A power roller; the extension and shortening of the conveying cylinder can push the translation supporting frame to move forwards and backwards relative to the high-speed conveying mounting plate so as to enable the upper high-speed A conveying belt and the lower high-speed A belt to move forwards and backwards simultaneously; the upper high-speed driving assembly comprises a motor and a belt pulley, the upper high-speed driving assembly is arranged on the side surface of the lower high-speed A power roller and is fixed on the side surface of the high-speed conveying mounting plate, the power belt adjusting wheel is arranged above the upper high-speed driving assembly and is fixed on the side surface of the high-speed conveying mounting plate, and the upper high-speed power belt is wound around the belt pulley of the upper high-speed driving assembly, the power belt adjusting wheel, the belt pulley of the side surface of the upper high-speed A power roller and the belt pulley of the lower high-speed A power roller; the belt pulley of the upper high-speed driving assembly is driven to rotate by the rotation of the motor of the upper high-speed driving assembly, the belt pulley on the side surface of the upper high-speed A power roller and the belt pulley of the lower high-speed A power roller are driven to rotate by the transmission of the upper high-speed power belt, and the belt pulley on the side surface of the upper high-speed A power roller is driven to rotate to drive the upper high-speed A conveyer belt to run by the rotation of the belt pulley of the lower high-speed A power roller.

6. The intelligent fly cutter splitting machine with double-station double-reverse-bending double-spiral cutter rest according to claim 1, wherein the intelligent fly cutter splitting machine is characterized in that: the high-speed conveying system B comprises: the device comprises a high-speed conveying B power roller, a high-speed conveying B supporting roller, a high-speed conveying B conveying belt, a high-speed conveying B adjusting roller and a high-speed conveying B conducting roller; the belt pulley is arranged on the side face of the high-speed conveying B power roller, the high-speed conveying B power roller is arranged behind the upper high-speed conveying A power roller and fixed on the side face of the high-speed conveying mounting plate, the high-speed conveying B power roller is arranged above the high-speed conveying B power roller and fixed on the side face of the high-speed conveying mounting plate, the high-speed conveying B power roller is arranged behind the high-speed conveying B power roller and fixed on the side face of the rear station rack, the high-speed conveying B adjusting roller is arranged behind the high-speed conveying B power roller and fixed on the side face of the rear station rack, the high-speed conveying B conveying belt winds on the high-speed conveying B power roller, the high-speed conveying B power belt winds on the side belt pulley of the high-speed conveying B power roller, the motor of the upper high-speed driving assembly rotates to drive the belt pulley of the upper high-speed driving assembly, the high-speed conveying B power roller rotates through the upper high-speed conveying belt transmission, and the high-speed conveying B power roller rotates to drive the high-speed conveying B belt.

7. The intelligent fly cutter splitting machine with double-station double-reverse-bending double-spiral cutter rest according to claim 1, wherein the intelligent fly cutter splitting machine is characterized in that: the low speed delivery system includes: the device comprises a rear station frame, a low-speed conveying power roller, a low-speed conveying support roller, a low-speed conveying adjusting roller, a low-speed conveying driving assembly, a conveying motor plate, a low-speed conveying power belt, a low-speed conveying roller fixing plate and a low-speed conveying belt; the low-speed conveying driving assembly comprises a motor and a belt pulley, the low-speed conveying driving assembly is arranged behind the upper high-speed driving assembly and is fixed on the side surface of the high-speed conveying mounting plate, the low-speed conveying roller fixing plate is fixed above the rear station frame, one end of the low-speed conveying power roller is provided with the belt pulley, the low-speed conveying power roller is arranged above the low-speed conveying driving assembly and is fixed on the side surface of the low-speed conveying roller fixing plate, the low-speed conveying power belt is wound on the belt pulley of the low-speed conveying driving assembly and the belt pulley of the low-speed conveying power roller, the low-speed conveying adjusting roller consists of a roller and adjustable bearing seats at two ends, the low-speed conveying adjusting roller is arranged behind the low-speed conveying power roller, and the adjustable bearing seats at two ends of the low-speed conveying adjusting roller are fixed on the side surface of the low-speed conveying roller fixing plate, and the upper and lower positions of the low-speed conveying adjusting roller are controlled by adjusting the adjustable bearing seats at two ends of the low-speed conveying adjusting roller. The low-speed conveying supporting rollers are arranged behind the low-speed conveying adjusting rollers and are fixed on the side face of the low-speed conveying roller fixing plate, the low-speed conveying belt is wound on the low-speed conveying power roller, the low-speed conveying supporting rollers and the low-speed conveying adjusting rollers, the motor of the low-speed conveying driving assembly rotates to drive the belt pulley of the low-speed conveying driving assembly, the belt pulley of the low-speed conveying power roller is driven by the low-speed conveying power belt, the low-speed conveying power roller rotates, and the low-speed conveying power roller rotates to drive the low-speed conveying belt to operate.

8. The intelligent fly cutter splitting machine with double-station double-reverse-bending double-spiral cutter rest according to claim 1, wherein the intelligent fly cutter splitting machine is characterized in that: the palletizing system includes: the device comprises a transverse paper aligning system, a longitudinal paper aligning system, a paper blocking system, a stacking power system, a chain adjusting roller, a chain supporting roller, a chain and a lifting plate; the stacking power system is formed by a motor and a chain wheel, the stacking power system is arranged at the bottom of the rear station frame, the chain adjusting roller is arranged above the stacking power system and fixed on the rear station frame, the plurality of chain supporting rollers are arranged on the rear station frame in a door-shaped arrangement, the chain is wound on the chain wheel, the chain adjusting roller and the chain supporting roller of the stacking power system, two ends of the plurality of chain supporting rollers are fixed at two ends of the lifting plate, the stacking power system is driven by the motor to rotate, and the chain wheel of the stacking power system rotates to pull the lifting plate to lift up and down; the transverse paper aligning system consists of a motor, an eccentric wheel, a pull rod and a baffle plate, the motion principle is that the motor of the transverse paper aligning system works to drive the eccentric wheel to rotate, the eccentric wheel of the transverse paper aligning system rotates to pull the pull rod of the transverse paper aligning system to reciprocate, and the pull rod of the transverse paper aligning system reciprocates to push the baffle plate to transversely flap paper, so that stacked paper is transversely tidy; the longitudinal paper aligning system consists of a motor, an eccentric wheel, a pull rod and a baffle, wherein the motor of the longitudinal paper aligning system works to drive the eccentric wheel to rotate, the eccentric wheel of the longitudinal paper aligning system rotates to pull the pull rod of the longitudinal paper aligning system to reciprocate, and the pull rod of the longitudinal paper aligning system reciprocates to push the baffle to longitudinally flap paper, so that stacked paper is longitudinally tidy; the paper blocking system consists of an air cylinder, a connecting plate, a flashboard and a paper blocking rack, the paper blocking system is arranged behind the longitudinal paper blocking system, the paper blocking system can be adjusted at the front and back positions of the top of the rear station rack, the front and back positions of the paper blocking system at the top of the rear station rack are adjusted according to the length and width of cut paper, the paper blocking system is formed by pulling the connecting plate of the paper blocking system through the air cylinder, the connecting plate of the paper blocking system drives the flashboard of the paper blocking system to move up and down, and conveyed paper is blocked in front of the flashboard of the paper blocking system, so that the paper is tidy in the stacking process.

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