CN211730133U

CN211730133U - Continuous drawing, feeding and extruding integrated device for light wide net material

Info

Publication number: CN211730133U
Application number: CN201921743053.7U
Authority: CN
Inventors: 刘智鹏; 王海梅
Original assignee: Qingdao University of Science and Technology
Current assignee: Qingdao University of Science and Technology
Priority date: 2019-10-17
Filing date: 2019-10-17
Publication date: 2020-10-23
Anticipated expiration: 2029-10-17

Abstract

The invention relates to a continuous drawing, feeding and extruding integrated device for a light wide net material, which comprises: the device comprises a net material tension buffer device, a cutting device, a tension stabilizing device, a folding device, a conveying device, a lifting device and an auxiliary feeding device; the net material tension buffering device is aligned and fixed with the winding machine by one meter, the cutting device is aligned and fixed with the net material tension buffering device by one meter, the tension stabilizing device and the cutting device are tightly attached, aligned and fixed, the three furling devices are tightly attached to the outlet end of the tension stabilizing device side by side and fixed, the conveying device and the furling device are vertically fixed, the discharge end of the conveying device is aligned and fixed with the feed end of the lifting device, the discharge end of the lifting device is aligned and fixed with the feed end of the auxiliary feeding device, and the discharge port of the auxiliary feeding device is vertically aligned and fixed with the feed port of the single-screw extruder; the invention realizes the continuous mechanical control of collecting and vertically conveying the light wide net material to the single-screw extruder for feeding, and has the advantages of safety, stability and high reliability.

Description

Continuous drawing, feeding and extruding integrated device for light wide net material

Technical Field

The invention relates to the field of processing process equipment of wide light net materials, in particular to a continuous drawing, feeding and extruding integrated device of a light wide net material.

Background

A traditional feeding mode of light wide-width net materials is that a rolling machine draws the net materials in, then the net materials on the rolling machine are fed into a single-screw extruder manually, the procedure is complex, the efficiency is low, and accidents of casualties can occur.

Disclosure of Invention

In order to overcome the defects, the invention designs a full-mechanized control production line for constant-width furled feeding of light wide-width net materials, which has high efficiency and good safety performance, realizes continuous furling and vertical feeding, realizes no-difference butt joint of a net making machine and an extruder process device, is safe and reliable, saves time and labor, and improves the production efficiency.

The technical scheme adopted by the invention is as follows:

a continuous drawing, feeding and extruding integrated device for a light wide net material comprises: the device comprises a net material tension buffer device, a cutting device, a tension stabilizing device, a folding device, a conveying device, a lifting device and an auxiliary feeding device; the net material tension buffering device is aligned with the winding machine and fixed on the ground one meter away from the winding machine, the cutting device is aligned with the net material tension buffering device and fixed on the ground one meter away from the net material tension buffering device, the tension stabilizing device is aligned with the cutting device and fixed on the ground without intervals, three furling devices are attached to the outlet end of the tension stabilizing device side by side and fixed on the ground, the conveying device and the furling devices are vertically fixed on the ground, the discharge end of the conveying device is aligned and fixed with the feed end of the lifting device, the discharge end of the lifting device is aligned and fixed with the feed end of the auxiliary feeding device, and the discharge port of the auxiliary feeding device is horizontally aligned and fixed with the feed port of the single-screw extruder to finish installation; the net material passes through the net material tension buffering device after being output from the winding machine, the net material cutting process at the rear side is buffered, then the net material enters the cutting device and then enters the tension stabilizing device, the net material is longitudinally cut into three equal parts, the net material is cut into a square shape with the length of 1.2 meters and the width of 1.2 meters, the cut net material enters the furling device, the net material enters the conveying device after being furled and then is conveyed to the lifting device, and finally the net material is conveyed to the single-screw extruder through the auxiliary feeding device, and the feeding is finished.

Further, the net material tension buffering device comprises: the device comprises a bracket, a front moving roller, a sliding mechanism, a self-weight rod and a rear moving roller; the support is fixed on the ground in a concave shape, square upright rods are arranged on the left side and the right side of the support, bearing seats are respectively machined at the tops of the left square upright rod and the right square upright rod, the front moving roller is a stepped shaft, a rolling bearing is installed on the bearing seat of the square upright rod on the left side of the support, the front moving roller is installed on the rolling bearing, the sliding mechanism is composed of a sliding guide rail A and a sliding block, the sliding guide rail A is fixed on the square upright rod on the right side of the support, the sliding block and the dead weight rod are welded into a whole and installed on the sliding guide rail A, the dead weight rod is a cylindrical long rod, the rolling bearing is installed on the bearing seat of the square upright rod on the right; the net material firstly passes through the upper surface of the front moving roller, the front moving roller rotates due to friction with the net material, then the net material passes through the space between the dead weight rod and the rear moving roller and contacts with the surface of the rear moving roller, the dead weight rod is pressed on the net material, and finally the net material enters the longitudinal cutting device; the net material is pressed downwards by the dead weight rod, the lifting force of the dead weight rod given by the net material moves upwards along the sliding guide rail A during working, and finally the gravity of the dead weight rod is balanced with the lifting force of the dead weight rod given by the net material so as to control the tension of the net material.

Further, the cutting device includes: the device comprises a steel plate bracket, a fixed bracket, a horizontal motor A, an intermittent mechanism, a double-sided tooth synchronous belt, an upper row of roller shafts, a lower row of roller shafts, a sliding cutting device and a positioning plate; the fixed bolster is frame rack construction, is formed by diaphragm and riser welding, and the diaphragm processing has two rows of bearing housing holes about neat, installs antifriction bearing on the bearing frame, and a crossbeam of diaphragm left end welding, at the horizontal processing constant head tank of crossbeam lateral surface, processing constant head tank on the crossbeam, riser fixed mounting subaerial, the steel sheet support is a square board, welds in the left side of fixed bolster, horizontal motor A passes through the bolt and fixes motor base on the steel sheet support, intermittent type mechanism includes: the synchronous belt wheel, the frame, the driven sheave and the driving plate; the roller mechanism comprises a rack, a driven sheave and a driving drive plate, wherein the rack is trapezoidal, a bearing seat hole is processed at the upper end of the rack, the bottom surface of the rack is welded on a steel plate support, a bearing is arranged in the bearing seat hole, check rings are arranged at two ends of a synchronous pulley, the synchronous pulley is arranged on the rack through a stepped shaft, the driven sheave is arranged at the other end of the stepped shaft, the driving drive plate is arranged on a shaft A of a horizontal motor, the circular surface of the driving drive plate is meshed with the concave arc surface of the driven sheave, an upper row of roller shafts and a lower row of roller shafts are stepped shafts, the upper row of roller shafts represent all upper row of roller shafts, the lower row of roller shafts represent all lower row of roller shafts, the upper row of roller shafts are arranged on a rolling bearing in an upper bearing seat of a fixed support, and the lower, the length of one end of the double-sided tooth synchronous belt extends out of the end part of the bearing, a gear is arranged at the extending part of the upper row of roll shafts and the lower row of roll shafts, the gear is a flat tooth, the structure of the double-sided tooth synchronous belt is an inner layer material and an outer layer material in consideration of the requirement of the friction force between the upper row of roll shafts, the lower row of roll shafts and the net material, the inner layer is a solid steel shaft, the outer layer is a rubber leather sheath, the inner surface and the outer surface of the double-sided tooth synchronous belt are respectively provided with a circle of flat teeth, the double-sided tooth synchronous belt is connected with the synchronous belt pulley, the upper row of roll shafts and the gear on the lower row of roll shafts through flat tooth meshing, namely, the flat teeth on the outer surface of the double-; the sliding cutting apparatus includes: the device comprises a horizontal motor B, a gear A, a rack, a sliding guide rail, a sliding block A and a blade; the sliding guide rail is arranged on a positioning groove on the side surface of a cross beam, the slide block A is arranged on the sliding guide rail seat, threaded holes are machined in the side surface and the top surface of the slide block A, the blade is fixed on the top surface of the slide block A through bolts, the horizontal motor B is fixed on the side surface of the slide block A through bolts, the rack is arranged in the positioning groove on the cross beam, the rack is fixed through bolts, the gear A is arranged on a shaft of the horizontal motor B, the gear A is meshed with the rack, the horizontal motor B rotates anticlockwise, the slide block A is driven to move leftwards on the sliding guide through the gear A and the rack, and the transverse cutting of the mesh material by the blade is achieved; the positioning plate is a square plate and is transversely welded at the tail end of the transverse plate of the fixed support, six grabbing ports with the length of 250mm and the width of 80mm are processed on the surface of the transverse plate, the distance between the first grabbing port and the second grabbing port is 700cm, the distance between the second grabbing port and the third grabbing port is 20cm, the distance between the third grabbing port and the fourth grabbing port is 700cm, and the rest is carried out until the sixth grabbing port is reached; the horizontal motor A drives the intermittent mechanism to operate, the driving drive plate rotates anticlockwise, a round pin on the driving drive plate does not enter a radial groove of the driven sheave, the driven sheave is fixed, the round pin on the driving drive plate enters the radial groove of the driven sheave, and the driven sheave is driven by the round pin to rotate, so that the driven sheave performs intermittent motion in the clockwise direction, the synchronous pulley performs intermittent rotation in the clockwise direction, and finally the double-tooth synchronous belt drives the upper row of roller shafts and the lower row of roller shafts to perform intermittent rotation, so that the netting material is driven to perform intermittent forward motion.

Further, the tension stabilizing device includes: a tension device, a transport device; the tension device includes: the cutting machine comprises a rack A, a sliding guide rail I, a sliding beam, a rack I, a horizontal motor C, a gear B, a support plate, a blade I and a clamping device; the two sliding guide rails I are fixedly installed on the upper surfaces of the risers of the rack A through bolts, the sliding beam is installed on the seat I of the sliding guide rail, the horizontal motor C is installed on the side surface of the riser I of the sliding beam, the rack I is installed on the side surface of the riser of the rack A, the rack I is parallel to the sliding guide rail I, the gear B is installed on the shaft of the horizontal motor C, the gear B is meshed with the rack I, the two ends of the support plate are fixed on the two risers of the rack A, the two blades I are fixed on the upper surface of the support plate, and the fixing positions are respectively at 1/3 and 2/3 of the length of the support plate; the clamping device includes: the device comprises a positioning block, a sliding guide rail II, a sliding beam I, an L-shaped plate, a rack II, a vertical motor and a gear C; the positioning block is square, positioning grooves are longitudinally machined at two ends of the front surface, a vertical motor seat hole is machined at the middle position, two sliding guide rails II are respectively fixedly installed in the positioning grooves at two ends of the positioning block through bolts, the sliding beam I is formed by welding a transverse plate II and two vertical plates II, the upper surfaces of the vertical plates II are welded at two ends of the lower surface of the transverse plate, sliding grooves are machined backwards from the front surface of the vertical plates II, the sliding grooves are parallel to the sliding guide rails II, the L-shaped plate is composed of a transverse plate III and a vertical plate III, the upper surface of the transverse plate III is fixed on the side surface of the vertical plate III, straight teeth are machined on the side surface of the rack II, the bottom surface of the rack II is fixed on the side surface of the transverse plate III, the rack II is perpendicular to the transverse plate III, the lower surface of the transverse plate III is fixed on the upper surface of the, one sliding beam I is positioned at the bottom of the sliding guide rail II, the upper surface of a vertical plate III of the L-shaped plate faces upwards, the other sliding beam I is positioned at the top of the sliding guide rail II, the upper surface of a vertical plate III of the L-shaped plate faces downwards, the vertical motor is installed in a vertical motor seat hole of the positioning block and is fixed through bolts, the gear C is installed on a shaft of the vertical motor and is meshed with the two racks II, the upper surfaces of the positioning blocks of the six clamping devices are fixed on the lower surface of a transverse plate I of the sliding beam, and the fixing positions on the sliding beam are horizontally aligned with the six positioning holes on the positioning block; the transportation device includes: the device comprises a fixed support I, a steel plate support I, a right steel plate, a horizontal motor D, a driving wheel, a roller, a conveying belt, a circular belt C and a circular belt D; the fixing support I is of a cuboid frame type structure and is fixedly arranged on the ground, the steel plate support I is fixed at the top end of the fixing support I, the right steel plate is fixed on the inner surface of the fixing support I, a bearing seat hole is machined in the steel plate support I, the roller is arranged on a bearing of the steel plate support I, the length of one end of the roller extends out of the end part of the bearing, an inner circular groove and an outer circular groove are machined in the circumferential direction on the cylindrical surface of the extending part of the roller, the conveyor belt is tightly attached and fixed through the roller, a circular groove is machined in the circumferential direction on the cylindrical surface of the driving wheel, the circular groove of the driving wheel is aligned with the outer circular groove of the roller, the circular groove of the driving wheel is connected with the first outer circular groove of the roller through the circular belt C, the inner circular groove of the first roller is connected with the inner circular groove of the second roller through the circular belt D, the outer circular groove of the second, by analogy, the driving wheel and the roller are connected into a whole, and the base of the horizontal motor D is fixed on the right steel plate and is connected with the driving wheel through a coupler; adjusting the sliding beam to an initial position, enabling the horizontal motor C to rotate clockwise, driving the sliding beam to move from the right end to the left end through the meshing of the rack I and the gear B, and stopping rotating the horizontal motor C when the clamping device completely enters a grabbing port of a positioning plate of the cutting device; the vertical motor rotates anticlockwise, the upper and lower L-shaped plates are driven to approach and tighten the net material through the meshing of the rack II and the gear C, the vertical motor stops rotating, a round pin on the driving drive plate enters a radial groove of the driven sheave, the upper row of roll shafts and the lower row of roll shafts rotate to drive the net material to move rightwards, meanwhile, the horizontal motor C rotates anticlockwise, the net material is driven to move rightwards through the slide beam, the net material is longitudinally cut into three parts by the blade I, when the net material runs for 1.2 m, the round pin on the driving drive plate leaves the radial groove of the driven sheave, the upper row of roll shafts and the lower row of roll shafts stop rotating, the horizontal motor C continues rotating, the cloth stops rotating after having tension, the horizontal motor B rotates anticlockwise, the slide block A is driven to move leftwards on the slide guide rail through the gear A and the rack, the blade cuts the net material, and finally the net material is cut into three parts, the length of the horizontal motor D is 1.2 meters, the horizontal motor D rotates clockwise, the driving wheel is driven to rotate through the coupler, the driving wheel drives the first roller to rotate through the circular belt C, the first roller drives the second roller to rotate through the circular belt D, and the rest is done in a similar way to drive the whole rollers to rotate, so that the conveying belt is driven to move forwards, and cut meshes are conveyed to the lifting platform of the gathering device.

Further, the furling device comprises: the device comprises a workbench, a lifting platform and a conveying device; the work bench includes: the device comprises a steel frame, a long rack, a convex slideway A, a telescopic rod device, a moving rod device and a rack A; the steel frame is of a frame structure and is formed by welding a left vertical steel plate and a right vertical steel plate with three beams, the two sides of a right square groove of the steel frame are processed with the convex slideway, the convex slideway A is processed in the horizontal direction and is positioned above the convex slideway, the horizontal directions 1/2 and 1/4 of the steel frame are processed with the convex slideway A and the convex slideway, the convex slideway A is processed between the convex slideway A and the convex slideway, the left vertical steel plate is processed with the groove and the convex slideway A, the groove is the same as the right steel plate, the convex slideway is processed on the left vertical steel plate, the height of the convex slideway is the same as that of the right vertical steel plate, the telescopic rod device is installed on the telescopic rod device seat, and the two rack A are respectively installed on the left vertical steel plates and the right vertical steel plates, and is located convex slideway A's top will be two sets the convex slider A of carriage release lever apparatus installs respectively in the vertical steel sheet of the left and right sides convex slideway A is last, the carriage release lever apparatus includes: the device comprises a motor A, a gear D, a long rod and a convex sliding block A; the motor A is fixed on the upper surface of the convex sliding block A, the gear D is fixedly arranged on a shaft of the motor A, the long rod is fixed on the upper surface of the convex sliding block A and is not in contact with the motor A, and the gear D is meshed with the rack A; the elevating platform includes: the device comprises a platform frame, a horizontal motor E, a middle gear, a step roller, a synchronous belt I, a horizontal motor F, a pinion, a synchronous belt II, a horizontal motor G, a bull gear, a convex sliding block B and a revolving door; the platform frame is formed by welding a vertical plate and a transverse plate, a square through groove is processed between 1/4 and 1/2 in the transverse direction of the transverse plate, two bearing seat holes are respectively processed on a left vertical plate and a right vertical plate at the corresponding positions of the square through groove, another steel plate is welded on the outer surface of the right vertical plate, two cylindrical through grooves are transversely processed at the front 1/4 of the transverse plate, a part of the upper surface of the corresponding transverse plate is removed, two bearing seat holes are respectively processed on the left vertical plate and the right vertical plate at the corresponding positions of the cylindrical through groove, a steel plate A is welded on the inner surface of the right vertical plate, the steel plate A is positioned at the lower side of the cylindrical through groove, a bearing seat is processed on the right vertical plate at the corresponding position of the steel plate, the horizontal motor E is fixed on a bearing in the bearing seat hole of the right vertical plate by a nut bolt, the step roller is two step shafts, the outer surface of the middle part of the step roller is made of rubber materials and is respectively arranged in two cylindrical through grooves, two ends of the step roller are fixed on bearings in left and right vertical plate bearing seats, the length of one end of the step roller extends out of the end part of the bearing, teeth are machined in the circumferential direction on the cylindrical surface of the extending part of the step roller, the synchronous belt I with teeth on the inner ring is arranged on the step roller and the middle gear and is meshed with the step roller and the middle gear, two horizontal motors F are fixed on a steel plate through bolts and nuts, just the horizontal motor F shaft is fixed on the bearing in a bearing hole of the right vertical plate bearing seat and is fixed through a bearing cover, two pinions are respectively arranged on the two horizontal motor F shafts, the revolving doors are square plates, cylindrical shafts are welded on two side surfaces, the front and rear revolving doors are totally arranged at the square through grooves, the cylindrical shafts at two ends, the length of one end of the synchronous belt II is extended out of the end part of the bearing, teeth are machined in the circumferential direction on the cylindrical surface of the extended part of the cylindrical shaft, the synchronous belt II with teeth on the inner ring is installed on the cylindrical shaft of the revolving door and meshed with the pinion, the two horizontal motors G are respectively fixed on the left vertical plate and the right vertical plate, the fixed position is between 2/4 and 3/4 in the horizontal direction of the vertical plates, the two large gears are respectively installed on the shafts of the two horizontal motors G, the upper surfaces of the two convex sliding blocks B are welded on the outer surface of the left vertical plate of the platform frame, the upper surface of one convex sliding block B is welded on the outer surface of the right vertical plate of the platform frame, and the position of the platform frame, which is welded with the convex sliding block B; the convex sliding block B is arranged in a convex slideway of the workbench, and the large gear is meshed with a long rack arranged on the workbench; the conveying device and the conveying device of the tension stabilizing device are identical in structure, the conveying device is arranged below the lifting platform in an aligned mode, the lifting platform cannot touch the conveying device when the workbench moves up and down, and the closing range of a rotating door of the lifting platform is within the conveying range of the conveying device; when a horizontal motor D of the conveying device works, a horizontal motor E of the lifting table starts to work to drive the middle gear to rotate, the step roller is driven to rotate through the synchronous belt I, cut rectangular net materials with the width of 1.2 meters and the length of 1.2 meters can be guaranteed to smoothly enter the lifting table, and when the front end and the rear end of the net materials are suspended on the lifting table for 5 centimeters, the horizontal motor E stops working; the two moving rod devices start to work, the motor A rotates anticlockwise to drive the gear A to rotate, so that the long rod on the convex sliding block A is driven to move towards the tail end until the motor A stops working when the long rod moves to the tail end; the two horizontal motors G of the lifting platform start to work, the left side of the lifting platform rotates anticlockwise, the right side of the lifting platform rotates clockwise, so that the large gear is driven to rotate together, the lifting platform moves upwards because the large gear is meshed with the long rack, when the net material is just positioned above the long rod of the moving rod device, the two horizontal motors G start to rotate reversely, the lifting platform moves downwards until the tail end of the net material is lifted by the long rod of the moving rod device, and the two horizontal motors G stop working; the telescopic rod device at 1/2 starts to work, a round rod is extended to be positioned above the net material and just pressed on the net material, the two moving rod devices start to work, the motor A rotates clockwise to drive the gear D to rotate, so that the long rod on the convex sliding block A is driven to move from the lower side of the net material to the initial end, when the long rod device moves to the telescopic rod device, the net material starts to be folded until the moving rod device moves to the initial end, and at the moment, the net material finishes one-time folding for 2 layers; at 1/2, the telescopic rod device starts to work, the round rod is contracted, the two horizontal motors G start to work, the left side of the horizontal motor G rotates anticlockwise, the right side of the horizontal motor G rotates clockwise, the lifting table moves upwards, when two layers of net materials are just positioned above the long rod, the two horizontal motors G start to work in a reverse rotation mode, the lifting table moves downwards until the initial end of the net materials is lifted by the long rod, and the two horizontal motors G stop working; the telescopic rod device starts to work at 1/4, a round rod is extended to be positioned above the net materials and just presses two layers of net materials, the two moving rod devices start to work, the motor A rotates anticlockwise to drive the long rod to move towards the tail end, when the long rod moves to the telescopic rod device, the two layers of net materials start to be folded until the moving rod device moves to the tail end, at the moment, the net materials are folded twice to be 4 layers, and the telescopic rod device starts to work at 1/4 to shrink the round rod; the two horizontal motors F start to work, the right motor rotates anticlockwise, the left motor rotates clockwise to drive the two pinions to rotate, the synchronous belt II is meshed with the cylindrical shaft of the revolving door, the revolving door is opened, the folded net materials enter the conveying belt I of the conveying device, the two horizontal motors F respectively rotate reversely, the revolving door is closed, and the conveying device conveys the folded net materials to the conveying device.

Further, the transfer device includes: the device comprises a fixed support A, a steel plate support A, a right steel plate A, a horizontal motor I, a coupler A, a driving wheel A, a roller A, a belt A, a conveyor belt A, a horizontal motor J, a roller B and a steel plate support B; the structure and the working principle of the conveying device and the conveying device of the tension stabilizing device are the same, when the net material arrives on the conveying belt A, the horizontal motor I and the horizontal motor J start to rotate to drive the driving wheel A to rotate, the belt A drives the roller A to rotate, so that the conveying belt A moves, the net material moves towards the outlet of the conveying device under the action of the conveying belt A, meanwhile, the horizontal motor J drives the roller B to rotate, the net material stably moves towards the lifting device under the friction action of the roller B, and the continuity of feeding is guaranteed.

Further, the lifting device includes: the device comprises a frame I, an upper movable roller, a lower movable roller, a circular belt, a belt wheel I, a horizontal motor K, a belt wheel II and a horizontal motor L; the lifting device and the conveying device of the tension stabilizing device are identical in structure and working principle, the horizontal motor K rotates clockwise, the upper moving roller is driven to rotate clockwise through the connecting action of the belt wheel I and the circular belt, meanwhile, the horizontal motor L rotates anticlockwise, the lower moving roller is driven to rotate anticlockwise through the connecting action of the belt wheel II and the circular belt, and therefore the net materials move upwards under the action of the upper moving roller and the lower moving roller and finally enter the auxiliary feeding device.

Further, the auxiliary feeding device comprises: the device comprises a connecting plate, a discharge box, a hollow cylinder, a front bracket, a rear bracket, a horizontal motor M, a coupling B, a crankshaft, a connecting rod, a stepped shaft, a rocker arm, a connecting rod I, a piston and a positioning box; the discharge box is formed by welding two hollow cuboids by steel plates, the first cuboid forms a sixty-degree angle with a horizontal plane, the second cuboid is horizontally welded at the tail end of the first cuboid, a round notch is machined at the middle position of an upper steel plate of the second cuboid, a square notch with the length of 40 cm and the width of 30 cm is machined at the left side position of a lower steel plate, the connecting plate is a rectangular plate, bolt holes are machined in the rectangular plate, the rectangular plate is welded on the steel plates at the left side and the right side of the first cuboid of the discharge box and is fixed at the discharge port end of the lifting device by nuts, the positioning box is welded at the square notch of the lower steel plate of the second cuboid of the discharge box, the size of the positioning box is the same as that of a feed port of a single-screw extruder, the feed port of the single-screw extruder is vertically upward, the bottom end of, the inner circle of the hollow cylinder is the same as the circular notch of the discharge box in size, a notch is processed on the circumferential surface of the left side, the bottom of the notch is welded at the circular notch of the discharge box, the front support and the rear support are vertical plates, bearing seat holes are processed on the side surface of the top end of the vertical plate, bearings are installed, the two front supports are longitudinally welded at the two ends of the upper surface of the second cuboid of the discharge box in an aligned mode, the two rear supports are welded in the same mode, the rear support is located on the right side of the front support, a horizontal motor base is welded on the left side of the front support, the horizontal motor M is fixed on the horizontal motor base, the crankshaft is concave, a groove is processed in the middle of the shaft of the concave portion in the axial direction, the two ends of the crankshaft are installed on the bearings in the bearing seat holes of the front support, and the part of the crankshaft extending, two grooves A are processed in the circumferential direction of the stepped shaft, two ends of the stepped shaft are installed on a bearing of a rear support bearing seat hole, the rocker arm is composed of a circular shaft and two rib plates, positioning holes are processed at two ends of each rib plate, a groove B is processed in the circumferential direction at the middle of the circular shaft, grooves C are processed at two sides of each groove B in the same way, two ends of the circular shaft are installed in the positioning holes of the rib plates to connect the two rib plates which are horizontally and vertically arranged, the positioning hole at the other end of the rocker arm is installed in the groove A of the stepped shaft, rings are processed at two ends of the connecting rod, one ring is installed on the groove of the crankshaft, the other ring is installed on the groove B of the rocker arm, one end of the connecting rod I is formed by welding two risers and a transverse plate, the two risers are welded at two ends of the transverse plate, circular holes are processed on the risers in an aligned mode, the top surface of the round rod is welded at the bottom of the transverse plate, a round hole in the connecting rod I is installed on a groove C of the rocker arm, the piston is a round ring, a round rod is horizontally fixed in the middle of the inner circle, a groove D is machined in the middle of the round rod, the round ring of the connecting rod I is installed on the groove D of the piston, and the piston is installed in the hollow cylinder; the net material enters the feeding box, the horizontal motor M starts to work, the crankshaft is driven to rotate through the coupler B, the rocker arm is driven to swing through the connecting rod, the piston is driven to move in the hollow cylinder through the connecting rod I, and therefore the piston sends the net material into a feeding port of the single-screw extruder.

The implementation of the continuous drawing, feeding and extruding integrated device for the light wide net material has the beneficial effects that:

(1) the invention realizes the full-mechanized control of the light wide net material from drawing to feeding, has stable and reliable work, improves the work efficiency and avoids the occurrence of accidents of personnel.

(2) The folding device folds the light wide net material into small net materials, thereby avoiding manual folding, and ensuring that the size of the net materials meets the requirement of entering a feed port of a single-screw extruder.

(3) The lifting device can convey the collected net material to a high place stably and efficiently, and prepare for vertical feeding of the net material.

(4) The auxiliary feeding device efficiently feeds the net materials into the vertical feeding port of the single-screw extruder, so that vertical feeding is realized, and discontinuity of net material feeding is avoided.

Drawings

FIG. 1: the invention relates to an integral structure diagram of a continuous drawing, feeding and extruding integrated device for a light wide net material;

FIG. 2: the invention relates to a structure diagram of a net material tension buffer device of a light wide net material continuous drawing, feeding and extruding integrated device;

FIG. 3: the invention relates to a structure diagram of a sliding mechanism of a net material tension buffer device of a light wide net material continuous drawing, feeding and extruding integrated device;

FIG. 4: the invention relates to a structure diagram of a cutting device of a continuous drawing, feeding and extruding integrated device for a light wide net material; FIG. 5: the invention relates to an intermittent mechanism structure diagram of a cutting device of a continuous drawing, feeding and extruding integrated device for light wide net materials;

FIG. 6: the invention relates to a structure diagram of a sliding cutting device of a continuous drawing, feeding and extruding integrated device for light wide net materials;

FIG. 7: the invention relates to a tension stabilizing device structure diagram of a continuous drawing, feeding and extruding integrated device of a light wide net material;

FIG. 8: the invention relates to a tension device structure diagram of a tension stabilizing device of a continuous drawing, feeding and extruding integrated device of a light wide net material;

FIG. 9: the invention relates to a structure diagram of a clamping device in a tension device of a continuous drawing, feeding and extruding integrated device for light wide net materials;

FIG. 10: the invention relates to a structure diagram of a conveying device of a tension stabilizing device of a continuous drawing, feeding and extruding integrated device of a light wide net material;

FIG. 11: the invention relates to a drawing device structure diagram of a continuous drawing, feeding and extruding integrated device of a light wide net material;

FIG. 12: the invention relates to a workbench structure diagram of a furling device of a continuous furling, feeding and extruding integrated device for light wide net materials;

FIG. 13: the invention relates to a structure diagram of a movable rod device of a workbench of a continuous drawing, feeding and extruding integrated device for light wide net materials;

FIG. 14: the invention relates to a lifting platform structure diagram of a furling device of a continuous furling, feeding and extruding integrated device for light wide net materials;

FIG. 15: the invention relates to a structure diagram of a conveying device of a furling device of a continuous furling, feeding and extruding integrated device for light wide net materials;

FIG. 16: the invention relates to a structure diagram of a conveying device in a continuous drawing, feeding and extruding integrated device of a light wide net material;

FIG. 17: the invention relates to a structure diagram of a lifting device in a continuous drawing, feeding and extruding integrated device of a light wide net material;

FIG. 18: the invention relates to a structure diagram of an auxiliary feeding device in a continuous drawing, feeding and extruding integrated device of a light wide net material;

in the figure: 1-mesh material tension buffer device, 2-cutting device, 3-tension stabilizing device, 4-folding device, 5-conveying device, 6-lifting device, 7-auxiliary feeding device, 11-bracket, 12-front roller, 13-sliding mechanism, 14-dead weight rod, 15-rear roller, 131-sliding guide rail A, 132-sliding block, 21-steel plate bracket, 22-fixed bracket, 23-horizontal motor A, 24-intermittent mechanism, 25-double-sided tooth synchronous belt, 26-upper row roller shaft, 27-lower row roller shaft, 28-sliding cutting device, 29-positioning plate, synchronous pulley, 242-frame, 243-driven sheave, 244-driving dial, 281-motor B, 282-gear A, 283-rack, 284-sliding guide rail, 285-slide block, 286-blade, 31-tension device, 32-transportation device, 311-frame A, 312-sliding guide rail I, 313-sliding beam, 314-rack I, 315-horizontal motor C, 316-gear B, 317-support plate, 318-blade I, 319-clamping device, 3191-positioning block, 3192-sliding guide rail II, 3193-sliding beam I, 3194-L plate, 3195-rack II, 3196-vertical motor, 3197-gear C, 321-fixing bracket I, 322-steel plate bracket I, 323-right steel plate, 324-horizontal motor D, 325-driving wheel, 326-roller, 327-conveyor belt, 328-circular belt C, 329-round belt D, 41-workbench, 42-lifting platform, 43-conveying device, 411-steel frame, 412-long rack, 413-convex slideway, 414-convex slideway A, 415-telescopic rod device, 416-movable rod device, 417-rack A, 4162-motor A, 4163-gear D, 4164-long rod, 4161-convex sliding block A, 421-platform frame, 422-horizontal motor E, 423-middle gear, 424-step rod, 425-synchronous belt I, 426-horizontal motor F, 427-pinion, 428-synchronous belt II, 429-horizontal motor G, 4210-bull gear, 4211-convex sliding block B, 4212-revolving door, 437-conveying belt I, 51-fixed support A, 52-steel plate support A, 53-right steel plate A, 54-horizontal motor I, 55-coupler A, 56-driving wheel A, 57-roller A, 58-belt A, 59-conveyor belt A, 510-horizontal motor J, 511-roller B, 512-steel plate support B, 61-frame I, 62-upper moving roller, 63-lower moving roller, 64-circular belt, 65-pulley I, 66-horizontal motor K, 67-pulley II, 68-horizontal motor L, 71-connecting plate, 72-feeding box, 73-hollow cylinder, 74-front support, 75-rear support, 76-horizontal motor M, 77-coupler B, 78-crankshaft, 79-connecting rod, 710-stepped shaft, 711-rocker arm, 712-connecting rod I, 713-piston and 714-positioning box.

Detailed Description

Specific implementations of the present invention are further described below in conjunction with the following figures.

As shown in fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, a light wide-width net material continuous gathering, feeding and extruding integrated device, wherein the net material tension buffer device 1 is aligned with a winding machine and fixed on the ground one meter away from the winding machine, the cutting device 2 is aligned with the net material tension buffer device 1 and fixed on the ground one meter away from the net material tension buffer device 1, the tension stabilizing device 3 is aligned with the cutting device 2 and fixed on the ground without intervals, three gathering devices 4 are closely attached to the outlet end of the tension stabilizing device 3 side by side, the conveying device 5 is fixed on the ground perpendicular to the gathering device 4, the discharging end of the conveying device 5 is fixed in alignment with the feeding end of the lifting device 6, the discharging end of the lifting device 6 is fixed in alignment with the feeding end of the auxiliary feeding device 7, a discharge port of the auxiliary feeding device 7 is horizontally aligned and fixed with a feed port of the single-screw extruder to finish installation; the support 11 is fixed on the ground in a concave shape, the left side and the right side of the support are square vertical rods, bearing seats are respectively machined at the tops of the square vertical rods, the front moving roller 12 is a stepped shaft, a rolling bearing is installed on the bearing seat of the square vertical rod at the left side of the support 11, the front moving roller 12 is installed on the rolling bearing, the sliding mechanism 13 is composed of a sliding guide rail A131 and a sliding block 132, the sliding guide rail A131 is fixed on the square vertical rod at the right side of the support 11, the sliding block 132 and the dead weight rod 14 are welded into a whole and installed on the sliding guide rail A131, the dead weight rod 14 is a cylindrical long rod, the rolling bearing is installed on the bearing seat of the square vertical rod at the right side of the support 11, and the; the fixed support 22 is formed by welding a transverse plate and a vertical plate, the transverse plate is provided with an upper row of bearing seat holes and a lower row of bearing seat holes and is provided with a rolling bearing, the left end of the transverse plate is welded with a transverse beam, the outer side surface of the transverse beam is transversely provided with a positioning groove, the positioning groove is machined on the transverse beam, the vertical plate is fixedly arranged on the ground, the steel plate support 21 is a square plate and is welded on the left side of the fixed support 22, the horizontal motor A23 is fixed on the steel plate support 21 through bolts, the rack 242, the driven sheave 243 and the driving dial 244 form a sheave mechanism, the rack 242 is trapezoidal, the upper end of the rack is provided with the bearing seat holes and is provided with the bearing, the bottom surface of the rack is welded on the steel plate support 21, two ends of the synchronous belt wheel 241 are provided with check rings, the synchronous belt wheel 241 is arranged on the rack 242, the circular surface of the driving dial 244 is engaged with the concave arc surface of the driven sheave 243, the upper row roller shaft 26 and the lower row roller shaft 27 are stepped shafts, the upper row roller shaft 26 is mounted on a rolling bearing in an upper bearing seat of the fixed bracket 22, the lower row roller shaft 27 is mounted on a rolling bearing in a lower bearing seat of the fixed bracket 22, the length of one end of each of the upper row roller shaft 26 and the lower row roller shaft 27 extends out of the end of the corresponding bearing, a gear is mounted on the extending part of each of the upper row roller shaft 26 and the lower row roller shaft 27, the gear is a flat gear, each of the inner and outer surfaces of the double-sided tooth synchronous belt 25 is provided with a circle of flat gear, and the double-sided tooth synchronous belt 25 is connected with the synchronous belt pulley 241, the upper; the slide rail 284 is installed on a positioning groove on the side surface of a cross beam, the slide block A285 is installed on a seat of the slide rail 284, threaded holes are processed on the side surface and the top surface of the slide block A285, the blade 286 is fixed on the top surface of the slide block A285 by bolts, the horizontal motor B281 is fixed on the side surface of the slide block A285 by bolts, the rack 283 is installed in the positioning groove on the cross beam, the rack 283 is fixed by bolts, the gear A282 is installed on the shaft of the horizontal motor B281, the gear A282 is meshed with the rack 283, the positioning plate 29 is a square plate and is transversely welded at the tail end of a transverse plate of the fixed bracket 22, six grabbing ports with the length of 250mm and the width of 80mm are processed on the surface, the distance between the first grabbing port and the second grabbing port is 700cm, the distance between the second grabbing port and the third grabbing port is 20cm, and the distance between the third grabbing port, and so on until the sixth grabbing port; the two sliding guide rails I312 are fixedly installed on the upper surfaces of the risers of the rack A311 through bolts, the sliding beam 313 is installed on the seat of the sliding guide rail I312, the horizontal motor C315 is installed on the side surface of the riser I of the sliding beam 313, the rack I314 is installed on the side surface of the riser of the rack A311, the rack I314 is parallel to the sliding guide rail I312, the gear B316 is installed on the shaft of the horizontal motor C315, the gear B316 is meshed with the rack I314, the two ends of the support plate 317 are fixed on the two risers of the rack A311, the two blades I318 are fixed on the upper surface of the support plate 317, and the fixing positions are 1/3 and 2/3 of the length of the support plate 317 respectively; the positioning block 3191 is square, positioning grooves are longitudinally machined at two ends of the front surface, a vertical motor seat hole is machined at the middle position, two sliding guide rails II 3192 are respectively fixedly installed in the positioning grooves at two ends of the positioning block 3191 through bolts, the sliding beam I3193 is formed by welding a transverse plate II and two vertical plates II, the upper surfaces of the vertical plates II are welded at two ends of the lower surface of the transverse plate, sliding grooves are machined from the front surface of the vertical plates II to the back, the sliding grooves are parallel to the sliding guide rails II 3192, the L-shaped plate 3194 is formed by a transverse plate III and a vertical plate III, the upper surface of the transverse plate III is fixed on the side surface of the vertical plate III, straight teeth are machined on the side surface of the rack II 3195, the bottom surface of the transverse plate III is fixed on the side surface of the transverse plate III, the lower surface of the transverse plate 3194 is fixed on the upper surface of the transverse plate II of the sliding beam I3193, the sliding grooves of the two sliding beams, one sliding beam I3193 is positioned at the bottom of the sliding guide rail II 3192, the upper surface of a vertical plate III of the L-shaped plate 3194 faces upwards, the other sliding beam I3193 is positioned at the top of the sliding guide rail II 3192, the upper surface of a vertical plate III of the L-shaped plate 3194 faces downwards, the vertical motor 3196 is installed in a vertical motor seat hole of the positioning block 3191 and fixed by bolts, the gear C3197 is installed on the shaft of the vertical motor 3196, the gear C3197 is meshed with the two racks II 3195, the upper surfaces of positioning blocks 3191 of six clamping devices 319 are fixed on the lower surface of a transverse plate I of the sliding beam 313, and the fixing positions on the sliding beam 313 are horizontally aligned with the six positioning holes on the positioning block 29; the fixing support I321 is of a cuboid frame type structure, the steel plate support I322 is fixed at the top end of the fixing support I321, the right steel plate 323 is fixed on the inner surface of the fixing support I321, a bearing seat hole is processed on the steel plate support I322, the roller 326 is installed on the bearing of the steel plate support I322, the length of one end of the roller extends out of the end part of the bearing, an inner circular groove and an outer circular groove are processed on the cylindrical surface of the extending part of the roller 326 in the circumferential direction, the conveyor belt 327 is tightly attached and fixed through the roller 326, a circular groove is processed on the cylindrical surface of the driving wheel 325 in the circumferential direction, the circular groove of the driving wheel 325 is aligned with the outer circular groove of the roller 326, the circular groove of the driving wheel 325 is connected with the outer circular groove of the first roller 326 through the circular belt C328, the inner circular groove of the first roller 326 is connected with the inner circular groove of, the outer circular groove of the second roller 326 is connected with the outer circular groove of the third roller 326 by the circular belt D329, and so on, and finally the driving wheel 325 and the rollers 326 are connected into a whole, and the base of the horizontal motor D324 is fixed on the right steel plate 323 and is connected with the driving wheel 325 through a coupling; the steel frame 411 is formed by welding a left vertical steel plate and a right vertical steel plate with three beams, the convex slideway 413 is processed on two sides of a right square groove of the steel frame 411, the convex slideway A414 is processed in the horizontal direction, the convex slideway A414 is positioned above the convex slideway 413, telescopic rod device mounting seats are processed at positions 1/2 and 1/4 of the steel frame 411 in the horizontal direction and between the convex slideway A414 and the convex slideway 413, the left vertical steel plate is processed with the groove and the convex slideway A414, the processing positions are the same as the processing positions of the right steel plate, the convex slideway 413 is processed on the right side of the groove of the left vertical steel plate, the height of the convex slideway 413 is the same as that of the convex slideway 413 processed on the right vertical steel plate, the telescopic rod device 415 is mounted on the telescopic rod device seats, and the two racks A417 are respectively mounted on the left vertical steel plate and the right, the convex sliding blocks A4161 of the two sets of moving rod devices 416 are respectively arranged on the convex sliding ways A414 of the left and right vertical steel plates, the motor A4162 is fixed on the upper surface of the convex sliding block A4161, the gear D4163 is fixedly arranged on the shaft of the motor A4162, the long rod 4164 is fixed on the upper surface of the convex sliding block A4161 and is not contacted with the motor A4162, and the gear D4163 is meshed with the rack A417; the platform frame 421 is formed by welding a vertical plate and a transverse plate, a square through groove is processed between the transverse plates 1/4 to 1/2, two bearing seat holes are respectively processed on the left and right vertical plates at the corresponding positions of the square through groove, another steel plate is welded on the outer surface of the right vertical plate, two cylindrical through grooves are transversely processed at the front 1/4 of the transverse plate, a part of the upper surface of the corresponding transverse plate is removed, two bearing seat holes are respectively processed on the left and right vertical plates at the corresponding positions of the cylindrical through groove, a steel plate A is welded on the inner surface of the right vertical plate, the steel plate A is positioned at the lower side of the cylindrical through groove, a bearing seat is processed on the right vertical plate at the corresponding position of the steel plate, the horizontal motor E422 is fixed on the steel plate A by using a nut bolt, just right, the shaft of the horizontal motor E422 is fixed on a bearing in the bearing seat hole, the step roller 424 is two step shafts, the outer surface of the middle part of the step roller 424 is made of rubber materials and is respectively arranged in two cylindrical through grooves, two ends of the step roller are fixed on bearings in left and right vertical plate bearing seats, the length of one end of the step roller extends out of the end part of the bearing, teeth are machined in the circumferential direction on the cylindrical surface of the extending part of the step roller 424, the synchronous belt I425 with teeth on the inner ring is arranged on the step roller 424 and the middle gear 423 to be meshed with the same, two horizontal motors F426 are fixed on a steel plate through bolts and nuts, the horizontal motor F426 shaft is just fixed on the bearing in a bearing seat hole in the right vertical plate through cover by the bearing, two pinions 427 are respectively arranged on the two horizontal motors F426 shaft, the revolving door 4212 is a square plate, the cylindrical shafts are welded on two side surfaces, the front and back revolving doors 4212 are totally arranged in the square, cylindrical shafts at two ends are arranged on bearings in bearing seat holes of a left vertical plate and a right vertical plate, the length of one end extends out of the end parts of the bearings, teeth are machined in the circumferential direction on the cylindrical surfaces of the extending parts of the cylindrical shafts, a synchronous belt II 428 with teeth arranged on the inner ring is arranged on the cylindrical shaft of the revolving door 4212 and meshed with the cylindrical shaft of the pinion 427, the two horizontal motors G429 are respectively fixed on the left vertical plate and the right vertical plate, the fixing positions are between 2/4 and 3/4 in the horizontal direction of the vertical plates, the two large gears 4210 are respectively arranged on the shafts of the two horizontal motors G429, the upper surfaces of the two convex sliding blocks B4211 are welded on the outer surface of the left vertical plate of the platform frame 421, the upper surface of one convex sliding block B4211 is welded on the outer, the position of the platform frame 421 where the convex sliding block B4211 is welded is aligned with the position of the convex slideway 413 on the workbench 41; the convex sliding block 4211 is installed in the convex slideway 413 of the workbench 41, and the big gear 4210 is meshed with the long rack 412 installed on the workbench 41; the conveyor 43 is configured the same as the transporter 32, the conveyor 43 is arranged below the lifting table 42 in alignment, the lifting table 42 does not touch the conveyor 43 when the workbench 41 moves up and down, and the closing range of the rotary door 4212 of the lifting table 42 is within the conveying range of the conveyor 43; the conveying device 5 and the lifting device 6 are identical to the conveying device 32 in structure and working principle; the discharge box 72 is formed by welding two hollow cuboids by steel plates, the first cuboid forms a sixty-degree angle with a horizontal plane, the second cuboid is horizontally welded at the tail end of the first cuboid, a round notch is processed at the middle position of the upper steel plate of the second cuboid, a square notch with the length of 40 cm and the width of 30 cm is processed at the left side position of the lower steel plate, the connecting plate 71 is a rectangular plate, bolt holes are processed on the connecting plate, the connecting plate is welded on the steel plates at the left side and the right side of the first cuboid of the discharge box 72 and is fixed at the discharge port end of the lifting device 6 by nuts, the positioning box 714 is welded at the square notch of the lower steel plate of the second cuboid of the discharge box 72, the size of the positioning box is the same as that of a single-screw extruder feed port, the single-screw extruder feed port is vertically upward, the bottom end of the positioning box 714 is, the inner circle of the hollow cylinder 73 has the same size as the circular notch of the discharge box 72, a notch is formed in the circumferential surface of the left side, the bottom of the hollow cylinder is welded at the circular notch of the discharge box 72, the front support 74 and the rear support 75 are vertical plates, bearing seat holes are formed in the side surface of the top end of each vertical plate, bearings are installed, the two front supports 74 are longitudinally welded at the two ends of the upper surface of the second cuboid of the discharge box 72 in an aligned mode, the two rear supports 75 are welded in the same mode, the rear support 75 is located on the right side of the front support 74, a horizontal motor seat is welded on the left side of the front support 74, the horizontal motor M76 is fixed on the horizontal motor seat, the crankshaft 78 is concave, a groove is formed in the middle of a shaft in the concave shape in the direction of the circular shaft, the two ends of the crankshaft 78 are installed on the bearings of the bearing seat holes of the front support 74, and the part of the crankshaft 78, two grooves A are processed in the circumferential direction of the stepped shaft 710, two ends of the stepped shaft 710 are installed on bearings of bearing seat holes of the rear support 75, the rocker arm 711 is composed of a round shaft and two rib plates, positioning holes are processed at two ends of the rib plate, a groove B is processed in the circumferential direction at the middle of the round shaft, grooves C are processed at two sides of the groove B in the same way, two ends of the round shaft are installed in the positioning holes of the rib plates to connect the two rib plates which are horizontally and vertically arranged, the positioning hole at the other end of the rocker arm 711 is installed in the groove A of the stepped shaft 710, rings are processed at two ends of the connecting rod 79, the ring at one end is installed on the groove of the crankshaft 78, the ring at the other end is installed on the groove B of the rocker arm 711, one end of the connecting rod I712 is formed by welding two vertical plates and a transverse plate, the two vertical, the other end is welded on the bottom surface of the round rod by the side surface of the round ring, the top surface of the round rod is welded at the bottom of the transverse plate, the round hole in the connecting rod I712 is arranged on the groove C of the rocker arm 711, the piston 713 is a round ring, the round rod is horizontally fixed in the middle of the inner circle, a groove D is processed in the middle of the round rod, the round ring of the connecting rod I712 is arranged on the groove D of the piston 713, and the piston 713 is arranged in the hollow cylinder 73.

As shown in fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, the working method of the continuous furling, feeding and extruding integrated device for the light wide web material comprises the following specific steps: the web passes through the web tension buffering device 1 after being output from the winding machine, which plays a buffering role in the cutting process of the web at the rear, the web firstly passes through the upper surface of the front roller 12, the front roller 12 rotates due to friction with the web, then passes through between the weight rod 14 and the rear roller 15, and contacts with the surface of the rear roller 15, the weight rod 14 presses on the web, the web enters the cutting device 2, the horizontal motor a23 drives the intermittent mechanism 24 to operate, the driving dial 244 rotates counterclockwise, the round pin on the driving dial 244 does not enter the radial groove of the driven sheave 243, the driven sheave 243 is not moved, the round pin on the driving dial 244 enters the radial groove of the driven sheave 243, the driven sheave 243 is driven by the round pin to rotate, so the driven sheave 243 performs intermittent motion in the clockwise direction, therefore, the synchronous pulley 241 intermittently rotates clockwise, finally, the double-sided toothed synchronous belt 25 drives the upper row of roller shafts 26 and the lower row of roller shafts 27 to intermittently rotate, so as to drive the mesh material to intermittently move forward, the mesh material enters the tension stabilizing device 3, the sliding beam 313 is adjusted to an initial position, the horizontal motor C315 rotates clockwise, the sliding beam 313 is driven to move from the right end to the left end through the meshing of the rack i 314 and the gear B316, and when the clamping device 319 completely enters the grabbing port of the positioning plate 29 of the cutting device 2, the horizontal motor C315 stops rotating; the vertical motor 3196 rotates anticlockwise, the vertical motor 3196 is meshed with the gear rack II 3195 and the gear C3197 to drive the upper and lower L-shaped plates 3194 to approach and tighten the net material, the vertical motor 3196 stops rotating, the round pin on the driving dial 244 enters the radial groove of the driven sheave 243, the upper row of roller shafts 26 and the lower row of roller shafts 27 rotate to drive the net material to move rightwards, meanwhile, the horizontal motor C315 rotates anticlockwise, the net material is driven to move rightwards by the slide beam 313, the net material is longitudinally cut into three parts by the blade I318, when the net material runs for 1.2 m, the round pin on the driving dial 244 leaves the radial groove of the driven sheave 243, the upper row of roller shafts 26 and the lower row of roller shafts 27 stop rotating, the horizontal motor C315 further rotates to enable the cloth to stop rotating after having tension, the horizontal motor B281 rotates anticlockwise, the gear A282 and the gear rack 283 drive the slide block A285 to move left, the cutting of the net material by the blade 286 is realized, the net material is finally cut into three rectangular net materials with the width of 1.2 meters and the length of 1.2 meters, the horizontal motor D324 rotates clockwise, the driving wheel 325 is driven to rotate by the coupler, the driving wheel 325 drives the first roller 326 to rotate by the circular belt C328, the first roller 326 drives the second roller 326 to rotate by the circular belt D329, the whole roller 326 is driven to rotate by the analogy, the conveying belt 327 is driven to move forwards, the cut net material is conveyed to the lifting platform 42 of the folding device 4, when the horizontal motor D324 of the conveying device 32 works, the horizontal motor E422 of the lifting platform 42 starts to work, the middle gear 423 drives the middle gear to rotate, the step roller 424 is driven to rotate by the synchronous belt I425, the cut rectangular net material with the width of 1.2 meters and the length of 1.2 meters is ensured to smoothly enter the lifting platform 42, when the front end and the rear end of the net material are suspended on the lifting platform 42 for 5 cm, the horizontal electric E422 stops working; when the two moving rod devices 416 start to work, the motor A4162 rotates anticlockwise to drive the gear D4163 to rotate, so that the long rod 4164 on the convex sliding block A4161 is driven to move towards the tail end until the motor A4162 stops working at the tail end; the two horizontal motors G429 of the lifting platform 42 start to work, the left side rotates anticlockwise, the right side rotates clockwise, so that the large gear 4210 is driven to rotate together, the lifting platform 42 moves upwards because the large gear 4210 is meshed with the long rack 412, after the net material is just positioned above the long rod 4164 of the moving rod device 416, the two horizontal motors G429 start to work reversely, the lifting platform 42 moves downwards until the tail end of the net material is lifted by the long rod 4164 of the moving rod device 416, and the two horizontal motors G429 stop working; the telescopic rod device 415 starts to work at 1/2, a round rod is extended to be positioned above the net material and just pressed on the net material, the two moving rod devices 416 start to work, the motor A4162 rotates clockwise to drive the gear D4163 to rotate, so that the long rod 4164 on the convex slide block A4161 is driven to move from the lower side of the net material to the initial end, when the moving rod device 415 is moved, the net material starts to be folded until the moving rod device 416 moves to the initial end, and at the moment, the net material finishes one-time folding for 2 layers; at 1/2, the telescopic rod device 415 starts to work, the round rod is contracted, the two horizontal motors G429 start to work, the left side rotates anticlockwise, the right side rotates clockwise, the lifting platform 42 moves upwards, after two layers of net materials are just positioned above the long rod 4164, the two horizontal motors G429 start to reversely rotate, the lifting platform 42 moves downwards until the initial end of the net materials is lifted by the long rod 4164, and the two horizontal motors G429 stop working; at 1/4, the telescopic rod device 415 starts to work, a round rod is extended to be positioned above the net materials and just pressed on the two layers of net materials, the two moving rod devices 416 start to work, the motor A4162 rotates anticlockwise to drive the long rod 4164 to move towards the tail end, when the long rod 4164 moves to the telescopic rod device 415, the two layers of net materials start to be folded until the moving rod device 416 moves to the tail end, at the moment, the net materials are folded twice to be 4 layers, and at 1/4, the telescopic rod device 415 starts to work to shrink the round rod; two horizontal motors F426 start to work, a right motor rotates anticlockwise, a left motor rotates clockwise to drive two pinions 427 to rotate, the synchronous belt II 428 is meshed with the cylindrical shaft of the revolving door 4212, the revolving door 4212 is opened, the folded net materials enter the conveying belt I437 of the conveying device 43, the two horizontal motors F426 rotate reversely, the revolving door 4212 is closed, the conveying device 43 conveys the folded net materials to the conveying device 5, the net materials reach the conveying belt A59, the horizontal motor I54 and the horizontal motor J510 start to rotate to drive the driving wheel A56 to rotate, the belt A58 drives the roller A57 to rotate, the conveying belt A59 moves, the net materials move to the outlet of the conveying device 5 under the action of the conveying belt A59, and meanwhile, the horizontal motor J510 drives the roller B511 to rotate, the net material stably moves to the lifting device 6 under the friction action of the roller B511, the continuity of feeding is ensured, the net material enters the lifting device 6, the horizontal motor K66 rotates clockwise, the upper moving roller 62 is driven to rotate clockwise by the connecting action of the belt wheel I65 and the circular belt 64, meanwhile, the horizontal motor L68 rotates anticlockwise, the lower moving roller 63 is driven to rotate anticlockwise through the connection effect of the belt wheel II 67 and the circular belt 64, so that the mesh material moves upwards under the action of the upper roller 62 and the lower roller 63, the mesh material enters the discharge box 72, the horizontal motor M76 starts to work, the crankshaft 78 is driven to rotate by the coupler B77, the rocker arm 71 is driven to swing by the connecting rod 79, the piston 713 is driven by the connecting rod I712 to move in the hollow cylinder 73, so that the piston 713 feeds the net material into the feed port of the single-screw extruder.

The scope of the present invention is not limited thereto, and any changes or substitutions that can be easily made by those skilled in the art within the technical scope of the present invention will be covered by the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims

1. The utility model provides a continuous drawing in feed of light broad width net material extrudes integrative device which characterized in that includes: the device comprises a net material tension buffer device (1), a cutting device (2), a tension stabilizing device (3), a folding device (4), a conveying device (5), a lifting device (6) and an auxiliary feeding device (7); the net material tension buffer device (1) is aligned with the winding machine and fixed on the ground one meter away from the winding machine, the cutting device (2) is aligned with the net material tension buffer device (1) and fixed on the ground one meter away from the net material tension buffer device (1), the tension stabilizing device (3) is aligned with the cutting device (2) and fixed on the ground without intervals, three furling devices (4) are attached to the outlet end of the tension stabilizing device (3) side by side and fixed on the ground, the conveying device (5) and the furling device (4) are vertically fixed on the ground, the discharging end of the conveying device (5) is aligned and fixed with the feeding end of the lifting device (6), the discharging end of the lifting device (6) is aligned and fixed with the feeding end of the auxiliary feeding device (7), and the discharging port of the auxiliary feeding device (7) is horizontally aligned and fixed with the feeding port of the single-screw extruder, completing the installation; the net material passes through the net material tension buffering device (1) after being output from the winding machine, the net material cutting process at the rear side is buffered, then the net material enters the cutting device (2) and then enters the tension stabilizing device (3), the net material is longitudinally cut into three equal parts, the net material is cut into squares with the length of 1.2 meters and the width of 1.2 meters, the cut net material enters the folding device (4), the net material enters the conveying device (5) after being folded, then the net material is conveyed to the lifting device (6), and finally the net material is conveyed to the single-screw extruder through the auxiliary feeding device (7), so that the feeding is finished.

2. A continuous drawing, feeding and extruding integrated device for light wide-width net material as claimed in claim 1, wherein the net material tension buffer device (1) comprises: the device comprises a bracket (11), a front moving roller (12), a sliding mechanism (13), a self-weight rod (14) and a rear moving roller (15); the bracket (11) is fixed on the ground in a concave shape, the left side and the right side are provided with square upright posts, bearing seats are respectively processed at the tops of the left square upright stanchion and the right square upright stanchion, the front moving roller (12) is a stepped shaft, a rolling bearing is arranged on the bearing seat of the left square upright stanchion of the bracket (11), the front moving roller (12) is arranged on the rolling bearing, the sliding mechanism (13) is composed of a sliding guide rail A (131) and a sliding block (132), the sliding guide rail A (131) is fixed on a right square upright post of the bracket (11), the sliding block (132) and the dead weight rod (14) are welded into a whole and are arranged on the sliding guide rail A (131), the dead weight rod (14) is a cylindrical long rod, a rolling bearing is arranged on a square upright rod bearing seat on the right side of the bracket (11), the rear moving roller (15) is fixed on the bracket (11) through a rolling bearing.

3. A continuous gathering, feeding and extruding integrated device for light wide web material as claimed in claim 1, wherein said cutting device (2) comprises: the device comprises a steel plate support (21), a fixed support (22), a horizontal motor A (23), an intermittent mechanism (24), a double-sided tooth synchronous belt (25), an upper row of roll shafts (26), a lower row of roll shafts (27), a sliding cutting device (28) and a positioning plate (29); fixed bolster (22) are frame rack construction, are formed by diaphragm and riser welding, and the diaphragm processing has two rows of bearing housing holes about neat, installs antifriction bearing on the bearing frame, and a diaphragm left end welding crossbeam, at crossbeam lateral surface horizontal processing constant head tank, processing constant head tank above the crossbeam, and riser fixed mounting is subaerial, steel sheet support (21) are a square board, the welding in the left side of fixed bolster (22), horizontal motor A (23) are fixed motor base through the bolt on steel sheet support (21), intermittent type mechanism (24) include: a timing pulley (241), a frame (242), a driven sheave (243), a drive dial (244); the rack (242), the driven sheave (243) and the driving dial (244) form a sheave mechanism, the rack (242) is trapezoidal, the upper end of the rack is provided with a bearing seat hole, the bottom surface of the rack is welded on the steel plate support (21), a bearing is arranged in the bearing seat hole, two ends of the synchronous pulley (241) are provided with check rings, the synchronous pulley (241) is arranged on the rack (242) through a stepped shaft, the driven sheave (243) is arranged at the other end of the stepped shaft, the driving dial (244) is arranged on the shaft of the horizontal motor A (23), the circular surface of the driving dial (244) is meshed with the concave arc surface of the driven sheave (243), the upper row roller shaft (26) and the lower row roller shaft (27) are stepped shafts, the upper row roller shaft (26) represents all the upper row roller shafts, the lower row roller shaft (27) represents all the lower row roller shafts, and the upper row roller shaft (26) is arranged on a rolling bearing seat in the upper bearing seat of the fixed support, the lower row of roll shafts (27) are arranged on rolling bearings in lower bearing seats of the fixed support (22), the length of one end of each of the lower row of roll shafts (27) extends out of the end of each of the lower row of roll shafts (26) and the lower row of roll shafts (27), gears are arranged on the extending parts of the upper row of roll shafts (26) and the lower row of roll shafts (27), the gears are flat teeth, the structure of the double-sided tooth synchronous belt (25) is made of an inner layer material and an outer layer material according to the requirements on the friction force of the upper row of roll shafts (26), the inner layer of the double-sided tooth synchronous belt (25) is made of a solid steel shaft and a rubber sleeve, a circle of flat teeth are arranged on the inner surface and the outer surface of the double-sided tooth synchronous belt (25), the synchronous belt wheel (241), the upper row of roll shafts (26) and the gears on the lower row of roll shafts (27) are connected through flat teeth meshing, namely, the flat teeth on the outer surface (241) The flat teeth on the gear are meshed to realize synchronous meshing; the sliding cutting device (28) comprises: the device comprises a horizontal motor B (281), a gear A (282), a rack (283), a sliding guide rail (284), a slider A (285) and a blade (286); the sliding guide rail (284) is arranged on a positioning groove on the side surface of the cross beam, the slide block A (285) is arranged on the seat of the sliding guide rail (284), threaded holes are processed on the side surface and the top surface of the sliding block A (285), the blade (286) is fixed on the top surface of the sliding block A (285) through bolts, the horizontal motor B (281) is fixed on the side surface of the sliding block A (285) through bolts, the rack (283) is arranged in a positioning groove on the cross beam, the rack (283) is fixed by a bolt, the gear A (282) is arranged on the shaft of the horizontal motor B (281), the gear A (282) is meshed with the rack (283), the horizontal motor B (281) rotates anticlockwise, the gear A (282) and the rack (283) drive the slide block A (285) to move leftwards on the sliding guide rail (284), so that the blade (286) cuts the net material transversely; the positioning plate (29) is a square plate, is transversely welded at the tail end of the transverse plate of the fixed support (22), six grabbing ports with the length of 250mm and the width of 80mm are processed on the surface of the transverse plate, the distance between the first grabbing port and the second grabbing port is 700cm, the distance between the second grabbing port and the third grabbing port is 20cm, the distance between the third grabbing port and the fourth grabbing port is 700cm, and the process is repeated until the sixth grabbing port is reached.

4. A continuous gathering, feeding and extruding integrated device for light wide web material as claimed in claim 1, wherein said tension stabilizing device (3) comprises: a tension device (31), a transport device (32); the tension device (31) comprises: the cutting machine comprises a rack A (311), a sliding guide rail I (312), a sliding beam (313), a rack I (314), a horizontal motor C (315), a gear B (316), a support plate (317), a blade I (318) and a clamping device (319); the two sliding guide rails I (312) are fixedly arranged on the upper surface of a vertical plate of the frame A (311) through bolts, the sliding beam (313) is arranged on the seat of the sliding guide rail I (312), the horizontal motor C (315) is arranged on the side surface of the vertical plate I of the sliding beam (313), the rack I (314) is installed on the side surface of the vertical plate of the frame A (311), the rack I (314) is parallel to the sliding guide rail I (312), the gear B (316) is arranged on the shaft of the horizontal motor C (315), the gear B (316) is meshed with the rack I (314), the two ends of the support plate (317) are fixed on two vertical plates of the rack A (311), the two blades I (318) are fixed on the upper surface of the support plate (317), and the fixing positions are 1/3 and 2/3 of the length of the support plate (317); the clamping device (319) comprises: the device comprises a positioning block (3191), a sliding guide rail II (3192), a sliding beam I (3193), an L-shaped plate (3194), a rack II (3195), a vertical motor (3196) and a gear C (3197); the locating piece (3191) is square, and in the locating slot of longitudinal processing at front surface both ends, intermediate position processing vertical motor seat hole, two sliding guide II (3192) respectively through bolt fixed mounting in the locating slot at locating piece (3191) both ends, sliding beam I (3193) is formed by welding a diaphragm II and two riser II, and the upper surface welding of riser II is at the both ends of diaphragm lower surface, from the preceding level of riser II backward processing spout, the spout with sliding guide II (3192) is parallel, L shaped plate (3194) comprises a diaphragm III and a riser III, and the upper surface of diaphragm III is fixed in the side of riser III, rack II (3195) side processing straight-tooth, the bottom surface is fixed in the side of III diaphragm, just rack II (3195) is perpendicular with diaphragm III, will L shaped plate (3194) diaphragm III's lower surface is fixed in the upper surface of sliding beam I (3193) diaphragm II's, the sliding grooves of the two sliding beams I (3193) are respectively arranged in the seats of the sliding guide rails II (3192) at two ends, one sliding beam I (3193) is positioned at the bottom of the sliding guide rail II (3192), the upper surface of the vertical plate III of the L-shaped plate (3194) faces upwards, the other sliding beam I (3193) is positioned on the top of the sliding guide rail II (3192), the upper surface of a vertical plate III of the L-shaped plate (3194) faces downwards, the vertical motor (3196) is arranged in a vertical motor seat hole of the positioning block (3191) and fixed by bolts, the gear C (3197) is arranged on the shaft of the vertical motor (3196), the gear C (3197) is meshed with the two racks II (3195), the upper surfaces of the positioning blocks (3191) of the six clamping devices (319) are fixed on the lower surface of a transverse plate I of the sliding beam (313), the fixed position on the sliding beam (313) is horizontally aligned with six positioning holes on the positioning plate (29); the transport device (32) comprises: the device comprises a fixed support I (321), a steel plate support I (322), a right steel plate (323), a horizontal motor D (324), a driving wheel (325), a roller (326), a conveyor belt (327), a circular belt C (328) and a circular belt D (329); the fixed support I (321) is of a cuboid frame type structure and is fixedly installed on the ground, the steel plate support I (322) is fixed to the top end of the fixed support I (321), the right steel plate (323) is fixed to the inner surface of the fixed support I (321), a bearing seat hole is machined in the steel plate support I (322), the roller (326) is installed on a bearing of the steel plate support I (322), the length of one end of the roller extends out of the end portion of the bearing, an inner circular groove and an outer circular groove are machined in the cylindrical surface of the extending portion of the roller (326) in the circumferential direction, the conveyor belt (327) is tightly fixed through the roller (326), a circular groove is machined in the cylindrical surface of the driving wheel (325) in the circumferential direction, the circular groove of the driving wheel (325) is aligned with the outer circular groove of the roller (326), the circular groove of the driving wheel (325) is connected with the first outer circular groove of the roller (326) through the circular belt C (328), the inner circular groove of a first roller (326) is connected with the inner circular groove of a second roller (326) through a circular belt D (329), the outer circular groove of the second roller (326) is connected with the outer circular groove of a third roller (326) through the circular belt D (329), and the like, and finally the driving wheel (325) and the rollers (326) are connected into a whole, the base of the horizontal motor D (324) is fixed on the right steel plate (323) and is connected with the driving wheel (325) through a coupling; adjusting the sliding beam (313) to an initial position, rotating the horizontal motor C (315) clockwise, driving the sliding beam (313) to move from the right end to the left end through the meshing of the rack I (314) and the gear B (316), and stopping the rotation of the horizontal motor C (315) when the clamping device (319) completely enters a grabbing port of a positioning plate (29) of the cutting device (2); the vertical motor (3196) rotates anticlockwise, the vertical motor (3196) is meshed with the gear C (3197) through the rack II (3195) to drive the upper L-shaped plate (3194) and the lower L-shaped plate (3194) to approach to a tensioned mesh material, the vertical motor (3196) stops rotating, a round pin on the driving dial (244) enters a radial groove of the driven sheave (243), the upper row of roll shafts (26) and the lower row of roll shafts (27) rotate to drive the mesh material to move rightwards, the horizontal motor C (315) rotates anticlockwise at the same time, the mesh material is driven to move rightwards through the sliding beam (313), the blade I (318) cuts the mesh material longitudinally into three parts, when the mesh material runs for 1.2 m, the round pin on the driving dial (244) leaves the radial groove of the driven sheave (243), the upper row of roll shafts (26) and the lower row of roll shafts (27) stop rotating, the horizontal motor C (315) continues to rotate again, so, the horizontal motor B (281) rotates anticlockwise, the sliding block A (285) is driven to move leftwards on the sliding guide rail (284) through the gear A (282) and the rack (283), the net material is cut by the blade (286), and finally the net material is cut into three rectangles with the width of 1.2 meters and the length of 1.2 meters.

5. A continuous gathering, feeding and extruding integrated device for light wide net material as claimed in claim 1, wherein the gathering device (4) comprises: a work table (41), a lifting table (42), and a conveying device (43); the work table (41) includes: a steel frame (411), a long rack (412), a convex slideway (413), a convex slideway A (414), a telescopic rod device (415), a movable rod device (416) and a rack A (417); the steel frame (411) is of a frame structure and is formed by welding a left vertical steel plate and a right vertical steel plate with three beams, the two sides of a right square groove of the steel frame (411) are provided with the convex slideway (413) which is provided with the convex slideway A (414) in the horizontal direction, the convex slideway A (414) is positioned above the convex slideway (413), the horizontal direction 1/2 and 1/4 of the steel frame (411) is provided with the telescopic rod device mounting seat which is positioned between the convex slideway A (414) and the convex slideway (413), the left vertical steel plate is provided with the groove and the convex slideway A (414) which are the same as the right steel plate in the processing position, the convex slideway (413) is processed on the right side of the left vertical steel plate, the height of the convex slideway (413) is the same as the right vertical steel plate, and the telescopic rod device (415) is mounted on the telescopic rod device mounting seat, the two racks A (417) are respectively arranged on the left and right vertical steel plates and are positioned above the convex slideway A (414), the convex sliding blocks A (4161) of the two sets of moving rod devices (416) are respectively arranged on the convex slideway A (414) of the left and right vertical steel plates, and the moving rod devices (416) comprise: a motor A (4162), a gear D (4163), a long rod (4164) and a convex sliding block A (4161); the motor A (4162) is fixed on the upper surface of the convex slide A (4161), the gear D (4163) is fixedly arranged on the shaft of the motor A (4162), the long rod (4164) is fixed on the upper surface of the convex slide A (4161) and is not contacted with the motor A (4162), and the gear D (4163) is meshed with the rack A (417); the lifting table (42) comprises: the device comprises a platform frame (421), a horizontal motor E (422), a middle gear (423), a step stick (424), a synchronous belt I (425), a horizontal motor F (426), a pinion (427), a synchronous belt II (428), a horizontal motor G (429), a bull gear (4210), a convex sliding block B (4211) and a revolving door (4212); the platform frame (421) is formed by welding a vertical plate and a transverse plate, a square through groove is processed between the transverse plates 1/4 to 1/2, two bearing seat holes are respectively processed on the left vertical plate and the right vertical plate at the corresponding positions of the square through groove, another steel plate is welded on the outer surface of the right vertical plate, two cylindrical through grooves are transversely processed at the front 1/4 of the transverse plate, a part of the upper surface of the corresponding transverse plate is removed, two bearing seat holes are respectively processed on the left vertical plate and the right vertical plate at the corresponding positions of the cylindrical through groove, a steel plate A is welded on the inner surface of the right vertical plate, a bearing seat is positioned at the lower side of the cylindrical through groove, a bearing seat is processed on the right vertical plate at the corresponding position of the steel plate, the horizontal motor E (422) is fixed on the steel plate A by nut bolts, and the shaft of the horizontal motor, the middle gear (423) is arranged on the shaft of the horizontal motor E (422), the step stick (424) is two step shafts, the outer surface of the middle part is made of rubber and is respectively arranged in two cylindrical through grooves, two ends of the step stick are fixed on bearings in left and right vertical plate bearing seats, the length of one end of the step stick extends out of the end part of the bearing, teeth are processed on the cylindrical surface of the extending part of the step stick (424) in the circumferential direction, the synchronous belt I (425) with teeth on the inner ring is arranged on the step stick (424) and the middle gear (423) to be meshed with the step stick and the middle gear, the two horizontal motors F (426) are fixed on a steel plate by bolts and nuts, the shaft of the horizontal motor F (426) is just fixed on the bearing in the hole of the vertical plate bearing seat on the right side and is fixed by a bearing through cover, and the two pinions (427) are respectively arranged, the rotary door (4212) is a square plate, cylindrical shafts are welded on two side faces of the rotary door (4212), a front rotary door and a rear rotary door (4212) are arranged together, the rotary door (4212) is installed at a square through groove, the cylindrical shafts at two ends are installed on bearings in bearing seat holes of a left vertical plate and a right vertical plate, the length of one end of each rotary door extends out of the end portion of each bearing, teeth are machined in the circumferential direction on the cylindrical surface of the extending portion of each cylindrical shaft, a synchronous belt II (428) with teeth arranged in an inner ring is installed on the cylindrical shaft of the rotary door (4212) and meshed with the cylindrical shaft of the pinion (427), the two horizontal motors G (429) are respectively fixed on the left vertical plate and the right vertical plate, the fixed positions of the two horizontal motors G (429) are between 2/4 and 3/4 in the horizontal direction of the vertical plates, the two large gears (4210) are respectively installed on the shafts of the two horizontal motors, the upper surface of one convex sliding block B (4211) is welded on the outer surface of a right riser of the platform frame (421), and the position of the platform frame (421) on which the convex sliding block B (4211) is welded is aligned with the position of the convex slideway (413) on the workbench (41); the convex sliding block B (4211) is installed in a convex slideway (413) of the workbench (41), and the large gear (4210) is meshed with a long rack (412) installed on the workbench (41); the conveying device (43) is identical in structure with the conveying device (32) of the tension stabilizing device (3), the conveying device (43) is arranged below the lifting platform (42) in an aligned mode, the lifting platform (42) does not touch the conveying device (43) when the workbench (41) moves up and down, and the closing range of a rotating door (4212) of the lifting platform (42) is within the conveying range of the conveying device (43).

6. A continuous gathering, feeding and extruding integrated device for light wide web material as claimed in claim 1, wherein said conveying means (5) comprises: the device comprises a fixed support A (51), a steel plate support A (52), a right steel plate A (53), a horizontal motor I (54), a coupler A (55), a driving wheel A (56), a roller A (57), a belt A (58), a conveyor belt A (59), a horizontal motor J (510), a roller B (511) and a steel plate support B (512); the conveying device (5) and the conveying device (32) of the tension stabilizing device (3) have the same structure and the same working principle.

7. A continuous gathering, feeding and extruding integrated device for light wide web material as claimed in claim 1, wherein said lifting device (6) comprises: the device comprises a frame I (61), an upper moving roller (62), a lower moving roller (63), a circular belt (64), a belt wheel I (65), a horizontal motor K (66), a belt wheel II (67) and a horizontal motor L (68); the lifting device (6) and the conveying device (32) of the tension stabilizing device (3) have the same structure and the same working principle.

8. A continuous gathering, feeding and extruding integrated device for light wide web material as claimed in claim 1, wherein said auxiliary feeding device (7) comprises: the device comprises a connecting plate (71), a discharging box (72), a hollow cylinder (73), a front support (74), a rear support (75), a horizontal motor M (76), a coupler B (77), a crankshaft (78), a connecting rod (79), a stepped shaft (710), a rocker arm (711), a connecting rod I (712), a piston (713) and a positioning box (714); the discharge box (72) is formed by welding two hollow cuboids by steel plates, the first cuboid forms a sixty-degree angle with a horizontal plane, the second cuboid is horizontally welded at the tail end of the first cuboid, a round notch is machined at the middle position of a steel plate above the second cuboid, the left side of a steel plate below the steel plate is machined to be 30 cm wide and 40 cm long, the connecting plate (71) is a rectangular plate, bolt holes are machined in the connecting plate, the connecting plate is welded on steel plates at the left side and the right side of the first cuboid of the discharge box (72) and is fixed at the discharge port end of the lifting device (6) by nuts, the positioning box (714) is welded at the square notch of the steel plate below the second cuboid of the discharge box (72), the size of the positioning box is the same as the size of the feed port of a single-screw extruder, the feed port of the single-screw extruder is vertically upwards, and the bottom end of the positioning, the feeding in the vertical direction is realized, the size of an inner circle of the hollow cylinder (73) is the same as that of a circular notch of the discharging box (72), a notch is machined on the circumferential surface of the left side, the bottom of the inner circle of the hollow cylinder (73) is welded at the circular notch of the discharging box (72), the front support (74) and the rear support (75) are vertical plates, bearing seat holes are machined in the side surface of the top end of each vertical plate, bearings are installed, the two front supports (74) are longitudinally welded at two ends of the upper surface of a second cuboid of the discharging box (72) in an aligned mode, the two rear supports (75) are welded in the same mode, the rear support (75) is located on the right side of the front support (74), a horizontal motor seat is welded on the left side of the front support (74), the horizontal motor M (76) is fixed on the horizontal motor seat, the crankshaft (78) is concave, and a groove is machined in the axial middle, two ends of the crank shaft (78) are arranged on a bearing of a bearing seat hole of the front support (74), a bearing part extending out of the crank shaft (78) is connected with a shaft of the horizontal motor M (76) through the shaft coupling B (77), two grooves A are processed in the circumferential direction of the stepped shaft (710), two ends of the stepped shaft (710) are arranged on the bearing of a bearing seat hole of the rear support (75), the rocker arm (711) is composed of a round shaft and two rib plates, positioning holes are processed at two ends of each rib plate, a groove B is processed in the circumferential direction of the middle of the round shaft, grooves C are processed at two sides of each groove B in the same way, two ends of the round shaft are arranged in the positioning holes of the rib plates to connect the two rib plates which are horizontally and vertically arranged, a positioning hole at the other end of the rocker arm (711) is arranged in the groove A of the stepped shaft (710), circular rings are processed at two ends of the connecting rod (79), and a, the other end ring is installed on the recess B of rocking arm (711), the one end of connecting rod I (712) is formed by two risers and a diaphragm welding, and two risers welding are at the diaphragm both ends, and the alignment processing goes out the round hole on the riser, and the other end is by the welding of ring side on the round bar bottom surface, and the round bar top surface welding is in the diaphragm bottom, the round hole on connecting rod I (712) is installed on the recess C of rocking arm (711), piston (713) are the ring, and a round bar is fixed to interior round bar middle level, processes recess D in the middle of the round bar, the ring of connecting rod I (712) is installed on the recess D of piston (713), install piston (713) in hollow cylinder (73).