CN212767236U - Automatic arranging and packaging system for five-connected bags - Google Patents

Abstract

The utility model provides an automatic packing system that arranges of five even packages which characterized in that: comprises a five-pack injection system and a five-pack packaging system; the five-pack injection system is connected with the five-pack packaging system; the five-pack injection system comprises a conveying unit, a material pressing separation unit, a chain separation unit and a turning and pulling-out unit; the five-pack packaging system comprises a chain hook feeding and conveying unit, a shifting plate synchronous pushing unit, an automatic film connecting unit, a high-speed punching unit and a packaging unit; the utility model discloses each unit is automatic operation, and seamless cooperation between every unit possesses five bagging-off instant noodle automatic arrangement, transport, packing operation function, has really realized five even automation and the serialization of bagging-off instant noodle package production to make product quality stable, the production site is neat, the human cost is low.

Description

Automatic arranging and packaging system for five-connected bags

Technical Field

The utility model relates to the field of machinary, concretely relates to automatic package system of arranging of five even packages.

Background

At present, five-pack packaging of instant noodles is finished by arranging and packaging after picking bagged noodles manually, 5-pack mode arrangement and packaging are carried out by picking bagged noodles manually, the work is complex, the labor productivity is low, enterprises need to hire a large number of workers for operation, the manual mode is more and more not suitable for the requirement of large-scale batch production under the current large environment that the domestic labor is in short supply and the labor cost is continuously increased, and the development of the enterprises is severely restricted. In order to improve the efficiency and increase the market competitiveness of enterprises, the development of an automatic production line capable of realizing the continuous packaging of instant noodles 5 is urgently needed.

Disclosure of Invention

The invention aims to provide a five-pack automatic arrangement and packaging system which is used for automatically arranging bagged instant noodles according to a 5-pack mode and transferring the bagged instant noodles to the five-pack packaging system for packaging, so as to realize the five-pack automatic production and packaging of the instant noodles.

The technical scheme of the invention is as follows: the utility model provides an automatic packing system that arranges of five even packages which characterized in that: comprises a five-pack injection system and a five-pack packaging system; the five-pack injection system is connected with the five-pack packaging system; the five-pack injection system comprises a conveying unit, a material pressing separation unit, a chain separation unit and a turning and pulling-out unit; the conveying unit, the pressing separation unit, the chain separation unit and the overturning and pulling-out unit are sequentially connected; the five-pack packaging system comprises a chain hook feeding and conveying unit, a shifting plate synchronous pushing unit, an automatic film connecting unit, a high-speed punching unit and a packaging unit; the chain hook feeding and conveying unit is used for bearing the overturning and pulling-out unit; the chain hook feeding and conveying unit is connected with the packaging unit; the shifting plate synchronous pushing unit is arranged above the chain hook feeding and conveying unit and is positioned at the tail end of the chain hook feeding and conveying unit; the automatic film connecting unit and the high-speed punching unit are sequentially arranged below the chain hook feeding and conveying unit; the packaging unit comprises a film supply mechanism, a middle sealing mechanism, an end sealing mechanism and a discharge conveying mechanism.

Further, the conveying unit comprises a conveying rear section, a conveying middle section and a conveying front section; the transmission rear section, the transmission middle section and the transmission front section are sequentially connected; the conveying rear section comprises a rack IV, a belt I, a working panel I, an L-shaped support frame I, a handle I, a pressing bar I, a motor I and a support roller I; the working panels I are arranged on two sides of the upper surface of the frame IV; the working panel I is also provided with a handle I which is used for adjusting the in-out installation position of the working panel I to adjust the material conveying width; the L-shaped support frame I is arranged on the working panel I; the pressing strip I is arranged above the belt I, is spaced from the belt I, and is fixed by two L-shaped supporting frames I; the supporting roller I is arranged below the belt I and used for supporting the belt I; the transmission middle section structure is the same as the transmission rear section structure; the rear conveying section is also provided with a group of collecting surface lower limit correlation sensors; the conveying middle section is also provided with a group of collecting upper limit correlation sensors; the conveying front section comprises a rack V, a working panel II, a belt II, a feeding guide plate II, a supporting roller II, a discharge hole, an L-shaped bracket II, an air nozzle and a handle II; the working panels II are arranged on two sides of the upper surface of the frame V; the working panel II is also provided with a handle II for adjusting the in-out installation position of the working panel II to adjust the material conveying width; a material overflow port is arranged beside the right working panel II and used for discharging excessive materials; the air nozzle is arranged on the left working panel II and is used for blowing out redundant materials to the flash port; the feeding guide plate II is arranged at the feeding end of the front conveying section; the supporting roller II is arranged below the belt II and used for supporting the belt II; the L-shaped bracket II is arranged on the frame V and is also provided with a flash detection sensor; and a group of flash judging sensors are also arranged on the front conveying section and are linked with the flash detecting sensors to judge whether the current conveying unit has excessive materials.

Further, the material pressing and separating unit comprises a rack VI, a bracket III, a clamping and conveying front section device and a clamping and conveying rear section device, wherein the bracket III is fixedly arranged on the rack VI; the clamping and conveying front-section device and the clamping and conveying rear-section device are sequentially installed and fixed on a bracket III; the clamping and conveying rear-section device comprises a smooth belt conveying mechanism, a sponge belt conveying mechanism, a driving motor II, a power conveying mechanism and a positioning and adjusting device; the driving motor II is arranged on the rack VI and used for driving the power transmission mechanism; the power transmission mechanism comprises a transmission structure box body, a synchronous wheel and a double-sided synchronous belt; the smooth belt conveying mechanism comprises a smooth belt driving wheel, a smooth belt tensioning wheel and a smooth belt roller; the smooth belt driving wheel is arranged on the bracket III and is driven by the driving motor II; the smooth belt tensioning wheel is arranged on the bracket III and above the smooth belt driving wheel; 2 smooth belt rollers are respectively arranged on a bracket III of the clamping and conveying rear-section device; the left side and the right side above the smooth belt are also provided with a guide strip I for guiding materials; the positioning and adjusting device is used for positioning the sponge belt conveying mechanism and comprises a supporting plate, a bearing seat, a guide rod, an adjusting screw rod and an adjusting hand wheel; the supporting plate is divided into an upper supporting plate and a lower supporting plate which are respectively fixed on the transmission structure box body; the guide rods are 2, are arranged between the upper supporting plate and the lower supporting plate and are fixed by nuts; the adjusting screw rod is arranged on the upper supporting plate, and the upper end of the adjusting screw rod is also provided with an adjusting hand wheel; the bearing seat is in threaded fit with the adjusting screw rod, and the bearing seat can move up and down along the guide rod by rotating the adjusting screw rod; the sponge belt conveying mechanism comprises a turnover handle, a sponge belt tensioning wheel, a sponge belt driving wheel, a fixed shaft and a sponge belt conveying mechanism rack; the sponge belt driving wheel comprises a roller part and a roller part, the roller part is arranged on the bearing seat and connected with the power transmission mechanism, and the roller part is arranged in the middle of the frame of the sponge belt transmission mechanism; the fixed shaft is arranged on the frame of the sponge belt conveying mechanism, one end of the fixed shaft is provided with a spring and a neck ring, and the other end of the fixed shaft is provided with a turnover handle; a baffle plate is arranged at one end of the fixed shaft with the spring and used for fixing the sponge belt conveying mechanism; the sponge belt conveying mechanism is also provided with a positioning rod for positioning the height of the sponge belt conveying mechanism; the sponge belt of the clamping and conveying rear-section device has the same conveying speed as the smooth belt; the structure of the clamping and conveying front-section device is the same as that of the clamping and conveying rear-section device; the sponge belt of the clamping and conveying front-section device has the same conveying speed as the smooth belt; the smooth belt conveying speed of the clamping and conveying front-section device is constant; the clamping and conveying rear-section device is also provided with a material detection sensor I for detecting a material signal; the material detection sensor I is connected with a PC; and the driving motor II of the clamping and conveying rear-section device automatically adjusts the conveying speed under the control of the PC according to the change of the material condition detected by the material detection sensor I, so that the speed of the smooth belt and the sponge belt of the clamping and conveying rear-section device is changed, and the fixed-distance conveying of the material is realized.

Further, the chain separation unit comprises a rack VII, a motor IV, a working panel IV, a guide strip II, a pusher dog, a belt IV, a chain I, a guide strip III, a material detection sensor II, a material detection sensor III, a chain sprocket group I and a chain sprocket group II; the working panels IV are arranged on two sides of the upper surface of the frame VII; the motor IV is arranged on one side of the rack VII; the chain I is arranged in the middle of the rack VII and is driven by a motor IV through transmission of a chain and chain wheel set I; 6 pusher dogs are uniformly distributed on the chain I and used for pushing and conveying materials; the belt IV is provided with 2 belts which are arranged on two sides of a front-section chain I of the chain separation unit and matched with the pusher dog to convey materials; the belt IV is driven by a motor IV through transmission of a chain and sprocket set II; the guide strip II and the guide strip III are arranged on two sides of a chain I on the rack VII at the rear section of the chain separation unit; the guide strips II and III are bordered by the belt IV; the guide strips II are in an upward inclined shape, so that the materials in a flat lying shape are well inclined and erected, and a foundation is provided for the materials to vertically enter the next unit; a material detection sensor II and a material detection sensor III are also arranged on the rack VII in the middle of the chain separation unit; the mounting distance between the object detection sensor II and the object detection sensor III is longer than the length of one material and shorter than the length of two materials.

Further, the overturning and pulling-out unit comprises a rack VIII, an overturning and feeding mechanism, a pulling mechanism and a feeding mechanism, wherein the overturning and feeding mechanism is arranged at the lower part of the rack VIII; the material shifting mechanism is arranged at the upper part of the rack VIII and is arranged above the overturning feeding mechanism; the feeding mechanism is arranged on the rack VIII and is positioned on one side of the turnover feeding mechanism; the material shifting mechanism comprises a main transmission shaft I, a servo motor I, a support IV, a driving double-chain wheel I, a driven double-chain wheel I, a chain II, a chain supporting strip I, a shifting plate fixing block I, a shifting plate I, a connecting rod I, a supporting rod I, a gear I, a proximity switch I, a detection wheel I and a gear II; the servo motor I is an integrated motor with a reduction box and is arranged on one side of the material poking rack I; the main transmission shaft I is arranged on a support IV, is connected with a servo motor I through a coupler and is driven by the servo motor I, a driving double-chain wheel I is further assembled on the main transmission shaft I, a gear I is further arranged at the tail end of the main transmission shaft I, four chain supporting strips I are further arranged and fixed on the support IV, and a chain II is right below the chain I; the chain II is provided with two chains which are arranged on the driving double-chain wheel I and the driven double-chain wheel I; 3 shifting plate fixing blocks I are uniformly distributed on the chain II, and each shifting plate fixing block I is provided with a shifting plate I; 3 supporting rods I are uniformly distributed on the chain II, and the distance between each supporting rod I and the corresponding shifting plate fixing block I is 9 chain links which are connected with each other through a connecting rod I; the gear II is arranged below the gear I and is meshed with the gear I; the detection wheel I is coaxial with the gear II and rotates along with the gear II; a proximity switch I is further arranged beside the detection wheel I; the overturning feeding mechanism comprises a servo motor II, a material separating plate II, a feeding flange II, a gear III, a gear IV, a detection wheel II, a driving double-chain wheel II, a driven double-chain wheel II, a chain III, a main transmission shaft II, a proximity switch II and a bracket V; the servo motor II is arranged on one side of the bracket V; the main transmission shaft II is arranged on the bracket V, is connected with the servo motor II through a coupler and is driven by the servo motor II, and is also provided with a driving double-chain wheel II; the tail end of the main transmission shaft II is also provided with a gear III; the gear IV is arranged below the gear III and is meshed with the gear III; the detection wheel II is coaxial with the gear IV and rotates along with the gear IV; a proximity switch II is further arranged beside the detection wheel II and used for returning the equipment to the original point; the chain III is provided with two chains which are arranged on the driving double-chain wheel II and the driven double-chain wheel II; the material separating plate II is provided with 40 plates and made of stainless steel materials, and is fixedly arranged on the chain III through an L-shaped bracket III; the material separating plate II adopts an installation method of staggering a chain link position; the feeding flange II is arranged on one side of the bracket V and is positioned at the feeding end of the turnover feeding mechanism; the feeding mechanism consists of a motor VII, a transmission case VII, a support VI, a belt VII, a feeding baffle VII and a belt pulley VII; the motor VII is arranged on the bracket VI; a pair of chain wheels is arranged in the transmission case VII and is driven by a motor VIII; the two feeding baffle plates VII are arranged on the bracket VI and above the belt VII; the belt pulley VII is driven by a motor VII through a chain wheel and a chain; the overturning and pulling-out unit is also provided with two material detection sensor groups, namely a material detection sensor group I and a material detection sensor group II, wherein the material detection sensor group I is used for judging whether two materials in the overturning and feeding mechanism are close to each other or not; the material detection sensor group II is used for judging whether two materials enter the same material separation plate or not and judging whether the material separation plate is provided with a feeding material or not.

Further, the chain hook feeding and conveying unit comprises a rack I, a driving motor VI, a conveying belt I, a shifting lever, a transmission chain I, a bottom plate I and a bottom plate II; the conveying belt I is arranged at the foremost end of the chain hook feeding and conveying unit and is driven by the driving motor VI; the bottom plate I is arranged on the rack I and connected with the output end of the conveying belt I; the bottom plate II is arranged on the rack I and is used for bearing the bottom plate I; two transmission chains I are arranged and are respectively arranged on two sides of the conveying belt I and are driven by a driving motor VI to drive a chain wheel; the side plate is arranged above the conveying belt I; the driving levers are arranged in a plurality of equal intervals, are arranged on the transmission chain I and move along with the transmission chain I.

Further, the shifting plate synchronous pushing unit comprises a support I, a driving motor VI, a transmission chain II, a shifting plate and a plurality of chain wheels; the bracket I is arranged on the rack I; the driving motor VI is arranged on the bracket I, and drives the chain wheel to drive the transmission chain II to rotate; two transmission chains II are arranged; the shifting plate is provided with a plurality of equal distances and is arranged on the transmission chain II.

Further, the automatic film connecting unit comprises a bracket VII, a film hanging roller, a film wrapping roller group I and a servo tension motor; two film hanging rollers are arranged and are respectively arranged on the bracket VII; each film hanging roller is hung with a film wrapping roll; each film hanging roller is provided with a servo tension motor and a group of film covering roller groups I; the servo tension motor is arranged on the bracket VII, drives the film hanging roller to rotate through a synchronous wheel and a synchronous belt, and provides tension force for the coating film in the production process; and the automatic film connecting unit is also provided with a film wrapping detection sensor for detecting a film wrapping.

Further, the high-speed punching unit comprises a bracket VIII and a punching device; the punching devices are provided with two groups which are respectively arranged on the bracket VIII; the punching device is a pneumatic punching device and consists of an air cylinder, a punching needle and a bottom plate III; the perforating needle is controlled by the cylinder to move up and down to perforate the envelope; the bottom plate III is arranged below the perforating needle; a round hole is formed in the bottom plate III; the round hole corresponds to the perforating needle.

Further, the packaging unit comprises a bag making device, a middle sealing mechanism, a wrapping surface finishing mechanism, an end sealing mechanism, a discharging mechanism, a support IX and a conveying belt II; the bag making device, the middle sealing mechanism, the wrapping surface finishing mechanism, the end sealing mechanism and the discharging mechanism are sequentially arranged on the bracket IX; the bag making device is arranged at the foremost end of the packaging unit; the bag making device comprises a bag making die and a film coating roller group II; the conveying belt II is arranged on the support IX and is arranged at the rear end of the bag making mold and below the middle sealing mechanism; the middle sealing mechanism comprises a film drawing wheel device, a preheater, a middle sealing wheel device and a mounting plate; the film drawing wheel device, the preheater and the middle sealing wheel device are respectively arranged on the mounting plate; the film drawing wheel device is arranged at the front end; the preheater is connected with the film drawing wheel device; the middle sealing wheel device is connected with the preheater; a speed fine-adjustment component is arranged in the middle sealing wheel device and can adjust the speed of the middle sealing wheel; the end sealing mechanism comprises a frame, an upper cutter device, a lower cutter device, a transmission system and a power system; the upper cutter device and the lower cutter device are respectively arranged on the frame and driven by a power system and a transmission system.

Furthermore, the whole machine of the five-pack automatic arrangement packaging system is controlled by a PC and is provided with an operation panel.

The utility model has the advantages that: (1) the utility model has the advantages that each unit is automatic operation, each unit is seamlessly matched, the automatic arrangement, conveying and packaging functions of the five-pack instant noodles are realized, the automation and the continuity of the five-pack packaging production of the bagged instant noodles are really realized, the product quality is stable, the production site is neat, and the labor cost is low; (2) the utility model discloses use each unit of PC control to being equipped with and controlling the panel, the user can set for different production technology according to the demand, and can know the present state of machine and the malfunction alerting condition through controlling the panel, be convenient for maintenance and management. (3) The utility model discloses replace the manual work with the machine, improved production efficiency greatly, increased the economic benefits of enterprise, improved the market competition of enterprise.

Drawings

FIG. 1 is a perspective view of the present invention; FIG. 2 is a perspective view of the five-pack injection system of the present invention; FIG. 3 is a perspective view of the five-pack packaging system of the present invention; FIG. 4 is a perspective view of the feeding and conveying unit of the chain hook of the present invention; fig. 5 is a perspective view of the plate-shifting synchronous pushing unit of the present invention; FIG. 6 is a perspective view of the automatic film connecting unit of the present invention; FIG. 7 is another perspective view of the automatic film connecting unit of the present invention; FIG. 8 is a plan view of the high-speed punching unit of the present invention; FIG. 9 is a perspective view of the high-speed punching unit of the present invention; FIG. 10 is a perspective view of the packaging unit of the present invention; FIG. 11 is a plan view of the packaging unit of the present invention; fig. 12 is a perspective view of the conveying unit of the present invention; fig. 13 is a plan view of the conveying unit of the present invention; fig. 14 is another perspective plan view of the conveying unit of the present invention; fig. 15 is a perspective view of the material pressing and separating unit of the present invention; fig. 16 is another perspective view of the material pressing and separating unit of the present invention; fig. 17 is a plan view of the material pressing and separating unit of the present invention; FIG. 18 is a perspective view of the chain separating unit of the present invention; fig. 19, 20 and 21 are respectively plan views of the chain separating unit of the present invention; fig. 22 and 23 are perspective views of the turning and pulling unit of the present invention respectively; fig. 24 and 25 are plan views of the turning and ejecting unit of the present invention.

Detailed Description

As shown in the figure: a five-pack automatic arrangement packaging system comprises a five-pack injection system and a five-pack packaging system; the five-pack injection system is connected with the five-pack packaging system; the five-pack injection system comprises a conveying unit 6, a material pressing separation unit 4, a chain separation unit 5 and a turning and pulling-out unit 7; the conveying unit 6, the pressing separation unit 4, the chain separation unit 5 and the turning and pulling-out unit 7 are connected in sequence; the five-pack packaging system comprises a chain hook feeding and conveying unit 1, a shifting plate synchronous pushing unit 2, an automatic film connecting unit 3, a high-speed punching unit 8 and a packaging unit 9; the chain hook feeding and conveying unit 1 is used for bearing the overturning and pulling-out unit 7; the chain hook feeding and conveying unit 1 is connected with the packaging unit 9; the shifting plate synchronous pushing unit 2 is arranged above the chain hook feeding conveying unit 1 and is positioned at the tail end of the chain hook feeding conveying unit 2; the automatic film connecting unit 3 and the high-speed punching unit 8 are sequentially arranged below the chain hook feeding and conveying unit 1; the packaging unit 9 includes a film supply mechanism 91, a middle sealing mechanism 92, an end sealing mechanism 93, and a discharge conveying mechanism 94.

The conveying unit 6 comprises a conveying rear section 61, a conveying middle section 62 and a conveying front section 63; the transmission rear section 61, the transmission middle section 62 and the transmission front section 63 are connected in sequence; the conveying rear section 61 comprises a frame IV 69, a belt I610, a working panel I611, an L-shaped support frame I612, a handle I613, a pressing bar I614, a motor I and a support roller I621; the working panels I611 are arranged on two sides of the upper surface of the frame IV 69; the working panel I611 is further provided with a handle I613, and the handle I613 is used for adjusting the in-out installation position of the working panel I611 to adjust the material conveying width; the L-shaped support frame I612 is installed on the working panel I611; the pressing strip I614 is arranged above the belt I610, a space is reserved between the pressing strip I614 and the belt I610, and the pressing strip I is fixed by two L-shaped supporting frames I612; the supporting roller I621 is arranged below the belt I610 and used for supporting the belt I610; the structure of the middle conveying section 62 is the same as that of the rear conveying section 61; the conveying rear section 61 is also provided with a group of collecting surface lower limit correlation sensors; the transfer mid-section 62 is also provided with a set of plane-concentration upper limit correlation sensors; the conveying front section 63 comprises a frame V620, a working panel II 615, a belt II 617, a feeding guide plate II 618, a supporting roller II 622, a flash port 616, an L-shaped bracket II 619, an air nozzle 67 and a handle II 623; the working panels II 615 are arranged on two sides of the upper part of the frame V620; a handle II 623 is further mounted on the working panel II 615 and used for adjusting the in-and-out mounting position of the working panel II 615 to adjust the material conveying width; a material overflow port 616 is arranged beside the right working panel II 615 and used for discharging excessive materials; the air nozzle 67 is arranged on the left working panel II 615 and is used for blowing out redundant materials to the flash port 616; the feeding guide plate II 618 is arranged at the feeding end of the conveying front section 63; the supporting roller II 622 is arranged below the belt II 617 and used for supporting the belt II 617; the L-shaped bracket II 619 is installed on the frame V620, and a flash detection sensor 68 is also installed on the L-shaped bracket II 619; the front conveyor section 63 is also provided with a set of flash determining sensors 66 which are linked with flash detecting sensors 68 to determine whether the current conveyor unit 6 is in excess of material.

The material pressing and separating unit 4 comprises a rack VI 41, a bracket III 42, a front clamping and conveying device 43 and a rear clamping and conveying device 44, wherein the bracket III 42 is fixedly arranged on the rack VI 41; the front clamping and conveying device 43 and the rear clamping and conveying device 44 are sequentially installed and fixed on the bracket III 42; the clamping and conveying rear section device 44 comprises a smooth belt conveying mechanism 47, a sponge belt conveying mechanism 48, a driving motor II 49, a power conveying mechanism 410 and a positioning and adjusting device 411; the driving motor II 49 is arranged on the rack VI 41 and is used for driving the power transmission mechanism 410; the power transmission mechanism 410 comprises a transmission structure box body 433, a synchronous wheel 434 and a double-sided synchronous belt 435; the smooth belt conveying mechanism 47 comprises a smooth belt driving wheel 412, a smooth belt 413, a smooth belt tensioning wheel 414 and a smooth belt roller 415; the smooth belt driving wheel 412 is arranged on the bracket III 42 and is driven by the driving motor II 49; the smooth belt tension wheel 414 is arranged on the bracket III 42 and above the smooth belt driving wheel 412; 2 smooth belt rollers 415 are respectively arranged on the bracket III 42 of the pinch rear-section device 44; the left side and the right side above the smooth belt 413 are also provided with guide strips I416 for guiding materials; the positioning and adjusting device 411 is used for positioning the sponge belt conveying mechanism 48 and comprises a supporting plate, a bearing seat 417, a guide rod 418, an adjusting screw rod 419 and an adjusting hand wheel 420; the supporting plate is divided into an upper supporting plate 421 and a lower supporting plate 422 which are respectively fixed on the transmission structure box body 433; the guide rods 418 are provided with 2 strips, are arranged between the upper support plate 421 and the lower support plate 422 and are fixed by nuts; the adjusting screw rod 419 is arranged on the upper supporting plate 421, and the upper end of the adjusting screw rod 419 is also provided with an adjusting hand wheel 420; the bearing seat 417 is in threaded fit with the adjusting screw rod 419, and the bearing seat 417 can move up and down along the guide rod 418 by rotating the adjusting screw rod 419; the sponge belt conveying mechanism 48 comprises a turnover handle 423, a sponge belt tensioning wheel 424, a sponge belt 425, a sponge belt driving wheel 426, a fixed shaft 436 and a sponge belt conveying mechanism rack 427; the sponge belt driving wheel 426 comprises a roller part and a roller part, wherein the roller part is arranged on the bearing block 417 and is connected with the power transmission mechanism 410, and the roller part is arranged in the middle of the frame 427 of the sponge belt transmission mechanism; the fixed shaft 436 is arranged on the frame 427 of the sponge belt conveying mechanism, one end of the fixed shaft is provided with a spring 428 and a neck ring 429, and the other end of the fixed shaft is provided with a turning handle 423; a baffle 430 is arranged at one end of the fixed shaft 436 with a spring and is used for fixing the sponge belt conveying mechanism 48; the sponge belt conveying mechanism 48 is also provided with a positioning rod 431 for positioning the height of the sponge belt conveying mechanism 48; the sponge belt 425 of the clamping rear-segment conveying device 44 has the same conveying speed as the smooth belt 413; the structure of the front clamping and conveying device 43 is the same as that of the rear clamping and conveying device 44; the sponge belt of the clamping front-section conveying device 43 has the same conveying speed as the smooth belt; the smooth belt conveying speed of the clamping front-section conveying device 43 is constant; the clamping and conveying rear-section device 44 is also provided with a material detection sensor I432 for detecting a material signal; the material detection sensor I432 is connected with a PC; and a driving motor II 49 of the clamping and conveying rear-section device 44 automatically adjusts the conveying speed under the control of a PC according to the change of the material condition detected by the material detection sensor I432, so that the speed of the smooth belt 413 and the sponge belt 425 of the clamping and conveying rear-section device 44 is changed, and the fixed-distance conveying of the materials is realized.

The chain separation unit 5 comprises a rack VII 51, a motor IV 52, a working panel IV 53, a guide strip II 54, a pusher dog 55, a belt IV 56, a chain I57, a guide strip III 58, a material detection sensor II 59, a material detection sensor III 510, a chain sprocket group I511 and a chain sprocket group II 512; the working panels IV 53 are arranged on two sides of the upper surface of the frame VII 51; the motor IV 52 is arranged on one side of the frame VII 51; the chain I57 is arranged in the middle of the rack VII 51 and is driven by a motor IV 52 through transmission of a chain sprocket group I511; 6 pusher dogs 55 are uniformly distributed on the chain I57 and used for pushing and conveying materials; the number of the belts IV 56 is 2, the belts IV are arranged on two sides of a front-section chain I57 of the chain separation unit 5 and matched with the pusher dogs 55 to convey materials; the belt IV 56 is driven by the motor IV 52 through transmission of the chain sprocket group II 512; the guide strip II 54 and the guide strip III 58 are arranged on two sides of a chain I57 on the rack VII 51 at the rear section of the chain separation unit 5; the guide strips II 52 and the guide strips III 58 are bordered by the belt IV 56; the guide strip II 54 is in an upward inclined shape, so that the material in a flat lying shape is well inclined and erected, and a foundation is provided for the material to vertically enter the next unit; a material detection sensor II 59 and a material detection sensor III 510 are also arranged on the rack VII 51 in the middle of the chain separation unit 5; the mounting distance between the object detection sensor II 59 and the object detection sensor III 510 is longer than the length of one material and shorter than the length of two materials.

The overturning and pulling-out unit 7 comprises a rack VIII 71, an overturning and feeding mechanism 72, a pulling mechanism 73 and a feeding mechanism 74, wherein the overturning and feeding mechanism 72 is arranged at the lower part of the rack VIII 71; the material shifting mechanism 73 is arranged at the upper part of the rack VIII 71 and is arranged above the overturning feeding mechanism 72; the feeding mechanism 74 is arranged on the rack VIII 71 and is positioned on one side of the turnover feeding mechanism 72; the material shifting mechanism 73 comprises a main transmission shaft I730, a servo motor I731, a support IV 732, a driving double-chain wheel I733, a driven double-chain wheel I734, a chain II 735, a chain supporting strip I736, a shifting plate fixing block I737, a shifting plate I738, a connecting rod I739, a supporting rod I7310, a gear I7311, a proximity switch I7312, a detection wheel I7313 and a gear II 7314; the servo motor I731 is an integrated motor with a reduction box and is arranged on one side of the support IV 732; the main transmission shaft I730 is arranged on a support IV 732, is connected with a servo motor I731 through a coupler and is driven by the servo motor I731, a driving double-chain wheel I733 is further assembled on the main transmission shaft I730, and a gear I7311 is further installed at the tail end of the main transmission shaft I730; four chain supporting strips I736 are arranged and fixed on the support IV 732 and right below the chain II 735; the chain II 735 is provided with two chains which are arranged on the driving double-chain wheel I733 and the driven double-chain wheel I734; 3 shifting plate fixing blocks I737 are uniformly distributed on the chain II 735, and each shifting plate fixing block I737 is provided with a shifting plate I738; 3 supporting rods I7310 are uniformly distributed on the chain II 735, the distance between each supporting rod I7310 and the corresponding shifting plate fixing block I is 9 chain links, and the supporting rods I7310 and the corresponding shifting plate fixing block I are connected with each other through a connecting rod I739; the gear II 7314 is arranged below the gear I7311 and is meshed with the gear I7311; the detection wheel I7313 is coaxial with the gear II 7314 and rotates together with the gear II 7314; a proximity switch I7312 is also arranged beside the detection wheel I7313; the overturning feeding mechanism 72 comprises a servo motor II 721, a material separating plate II 722, a feeding baffle II 723, a gear III 724, a gear IV 725, a detection wheel II 726, a driving double-chain wheel II 727, a driven double-chain wheel II 728, a chain III 729, a main transmission shaft II 7210, a proximity switch II 7211 and a bracket V7211; the servo motor II 721 is arranged on one side of the bracket V7211; the main transmission shaft II 7210 is mounted on a bracket V7211, is connected with a servo motor II 721 through a coupler and is driven by the servo motor II 721, and is also provided with a driving double-chain wheel II 727; the tail end of the main transmission shaft II 7210 is also provided with a gear III 724; the gear IV 725 is arranged below the gear III 724 and is meshed with the gear III 724; the detection wheel II 726 is coaxial with the gear IV 725 and rotates together with the gear IV 725; a proximity switch II 7211 is further arranged beside the detection wheel II 726 and used for returning the equipment to the original point; the chain III 729 is provided with two chains which are arranged on a driving double-chain wheel II 727 and a driven double-chain wheel II 728; the material separating plate II 722 is provided with 40 plates, is made of stainless steel materials and is fixedly arranged on the chain III 729 through an L-shaped bracket III; the material separating plate II 722 adopts an installation method of staggering a chain link position; the feeding flange II 723 is arranged on one side of the bracket V7211 and is positioned at the feeding end of the turnover feeding mechanism 72; the feeding mechanism 74 consists of a motor VII 741, a transmission case VII 742, a bracket VI 743, a belt VII 744, a feeding baffle VII 745 and a belt pulley VII 746; the motor VII 741 is mounted on the bracket VI 743; a pair of chain wheels are arranged in the transmission case VII 742 and are driven by a motor VIII 741; two feeding baffles VII 745 are arranged and are arranged on the bracket VI 743 and above the belt VII 744; the belt pulley VII 744 is driven by a motor VII 741 through a chain wheel chain; the overturning and pulling-out unit 7 is also provided with two material detection sensor groups, namely a material detection sensor group I75 and a material detection sensor group II76, wherein the material detection sensor group I75 is used for judging whether two materials in the overturning and feeding mechanism are close to each other or not; the material detection sensor group II76 is used for judging whether two materials enter the same material separation plate or not and judging whether the material separation plate is provided with a feeding material or not.

The chain hook feeding and conveying unit 1 comprises a rack I11, a driving motor VI (shown in the figure), a conveying belt I13, a shifting rod 14, a transmission chain I15, a base plate I16 and a base plate II 17; the conveying belt I13 is arranged at the foremost end of the chain hook feeding and conveying unit 1 and is driven by the driving motor VI 12; the bottom plate I16 is installed on the rack I11 and connected with the output end of the conveying belt I13; the bottom plate II 17 is arranged on the rack I11 and is used for bearing the bottom plate I16; two transmission chains I15 are arranged, are respectively arranged on two sides of the conveying belt I13 and are driven by a driving chain wheel of the driving motor VI 12; the side plate 18 is arranged above the conveying belt I13; the driving levers 14 are arranged in a plurality of equal intervals, are arranged on the transmission chain I15 and move along with the transmission chain I15.

The shifting plate synchronous pushing unit 2 comprises a support I21, a driving motor VI (not shown in the figure), a transmission chain II 23, a shifting plate 24 and a plurality of chain wheels; the bracket I21 is arranged on the rack I11; the driving motor VI 22 is installed on the support I11, and the driving motor VI 22 drives the chain wheel to drive the transmission chain II 23 to rotate; two transmission chains II 23 are arranged; the shifting plate 24 is provided with a plurality of equal distances and is arranged on the transmission chain II 23.

The automatic film connecting unit 3 comprises a bracket VII 31, a film hanging roller 32, a film wrapping roller group I33 and a servo tension motor 34; two film hanging rollers 32 are arranged and are respectively arranged on the bracket VII 31; each film hanging roller 32 is hung with a film wrapping roll 35; each film hanging roller 32 is provided with a servo tension motor 34 and a group of film covering roller groups I33; the servo tension motor 34 is arranged on the bracket VII 31, drives the film hanging roller 32 to rotate through a synchronous wheel and a synchronous belt, and provides tension force for the coating film in the production process; and the automatic film connecting unit 3 is also provided with a film coating detection sensor (not shown in the figure) for detecting a film coating.

The high-speed punching unit 8 comprises a bracket VIII 81 and a punching device 82; two groups of punching devices 82 are arranged and are respectively arranged on the bracket VIII 81; the punching device 82 is a pneumatic punching device and consists of a cylinder 821, a punching needle 822 and a bottom plate III 823; the perforating needle 822 is controlled by the cylinder 821 to move up and down to perforate the envelope; the bottom plate III 823 is arranged below the punching needle 822; a round hole (not shown in the figure) is formed in the bottom plate III 823; the circular hole corresponds to the punching needle 822.

The packaging unit 9 comprises a bag making device 91, a middle sealing mechanism 92, a wrapping surface finishing mechanism 93, an end sealing mechanism 94, a discharging mechanism 95, a support IX 96 and a conveying belt II 97; the bag making device 91, the middle sealing mechanism 92, the wrapping surface finishing mechanism 93, the end sealing mechanism 94 and the discharging mechanism 95 are sequentially arranged on the support IX 96; the bag making device 91 is installed at the foremost end of the packaging unit 9; the bag making device 91 comprises a bag making die 911 and a film coating roller group II 912; the conveying belt II 97 is arranged on the support IX 96 and is arranged at the rear end of the bag making mold 911 and below the middle sealing mechanism 92; the middle sealing mechanism 92 comprises a film drawing wheel device 921, a preheater 922, a middle sealing wheel device 923 and a mounting plate 924; the film pulling wheel device 921, the preheater 922 and the middle sealing wheel device 923 are respectively installed on the installation plate 924; the film drawing wheel device 921 is arranged at the front end; the preheater 922 is connected with the film drawing wheel device 921; the middle seal wheel device 923 is connected with the preheater 922; a speed fine-adjustment component is arranged in the middle sealing wheel device 923 and can adjust the speed of the middle sealing wheel; the end sealing mechanism 94 comprises a frame 941, an upper knife device 942, a lower knife device 943, a transmission system and a power system; the upper knife device 942 and the lower knife device 943 are respectively installed on the frame 941, and are driven by a power system and driven by a transmission system.

The utility model discloses a work flow: opening equipment bagged instant noodles are conveyed by an external conveying mechanism to enter a conveying unit, the conveying unit continuously conveys the bagged instant noodles into a pressing and separating unit, the bagged instant noodles which are next to the pressing and separating unit are separated into a row of equidistantly-spaced bagged instant noodles and conveyed into a chain separating unit, the originally lying bagged instant noodles are inclined by a guide strip in the chain separating unit and then conveyed into a turnover stirring and feeding unit, the bagged instant noodles are vertically conveyed into a partition plate II by the aid of a feeding baffle edge II of the turnover stirring and feeding unit, the partition plate II carries the bagged instant noodles and conveys the bagged instant noodles forwards under the drive of a chain III, when the adjacent five partition plates II carry the instant noodles to reach the middle of two feeding baffle plates VII of the feeding mechanism, a stirring plate I of the stirring mechanism also reaches a designated position to simultaneously stir out the five bagged instant noodles onto a belt of the feeding mechanism, the convenient 5-pack arranging state of the bagged instant noodles is conveyed into the chain hook feeding conveying unit by the belt VII, one five-pack instant noodles is conveyed to the tail end of the chain hook feeding conveying unit under the action of the chain hook feeding conveying unit shifting lever, the five-pack instant noodles are conveyed into the packaging unit under the action of the shifting plate synchronous pushing unit, the packaging operation is completed through the bag making device, the middle sealing mechanism, the pack noodle arranging mechanism and the end sealing mechanism, and the five-pack instant noodles which are packaged are discharged by the discharging mechanism.

The above-mentioned embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solution of the present invention by those skilled in the art should fall within the protection scope defined by the claims of the present invention without departing from the spirit of the present invention.

Claims (10)

1. The utility model provides an automatic packing system that arranges of five even packages which characterized in that: comprises a five-pack injection system and a five-pack packaging system; the five-pack injection system is connected with the five-pack packaging system; the five-pack injection system comprises a conveying unit, a material pressing separation unit, a chain separation unit and a turning and pulling-out unit; the conveying unit, the pressing separation unit, the chain separation unit and the overturning and pulling-out unit are sequentially connected; the five-pack packaging system comprises a chain hook feeding and conveying unit, a shifting plate synchronous pushing unit, an automatic film connecting unit, a high-speed punching unit and a packaging unit; the chain hook feeding and conveying unit is used for bearing the overturning and pulling-out unit; the chain hook feeding and conveying unit is connected with the packaging unit; the shifting plate synchronous pushing unit is arranged above the chain hook feeding and conveying unit and is positioned at the tail end of the chain hook feeding and conveying unit; the automatic film connecting unit and the high-speed punching unit are sequentially arranged below the chain hook feeding and conveying unit; the packaging unit comprises a film supply mechanism, a middle sealing mechanism, an end sealing mechanism and a discharge conveying mechanism.

2. The automatic arrangement and packaging system for five-pack bags according to claim 1, wherein: the conveying unit comprises a conveying rear section, a conveying middle section and a conveying front section; the transmission rear section, the transmission middle section and the transmission front section are sequentially connected; the conveying rear section comprises a rack IV, a belt I, a working panel I, an L-shaped support frame I, a handle I, a pressing bar I, a motor I and a support roller I; the working panels I are arranged on two sides of the upper surface of the frame IV; the working panel I is also provided with a handle I which is used for adjusting the in-out installation position of the working panel I to adjust the material conveying width; the L-shaped support frame I is arranged on the working panel I; the pressing strip I is arranged above the belt I, is spaced from the belt I, and is fixed by two L-shaped supporting frames I; the supporting roller I is arranged below the belt I and used for supporting the belt I; the transmission middle section structure is the same as the transmission rear section structure; the rear conveying section is also provided with a group of collecting surface lower limit correlation sensors; the conveying middle section is also provided with a group of collecting upper limit correlation sensors; the conveying front section comprises a rack V, a working panel II, a belt II, a feeding guide plate II, a supporting roller II, a discharge hole, an L-shaped bracket II, an air nozzle and a handle II; the working panels II are arranged on two sides of the upper surface of the frame V; the working panel II is also provided with a handle II for adjusting the in-out installation position of the working panel II to adjust the material conveying width; a material overflow port is arranged beside the right working panel II and used for discharging excessive materials; the air nozzle is arranged on the left working panel II and is used for blowing out redundant materials to the flash port; the feeding guide plate II is arranged at the feeding end of the front conveying section; the supporting roller II is arranged below the belt II and used for supporting the belt II; the L-shaped bracket II is arranged on the frame V and is also provided with a flash detection sensor; and a group of flash judging sensors are also arranged on the front conveying section and are linked with the flash detecting sensors to judge whether the current conveying unit has excessive materials.

3. The automatic arrangement and packaging system for five-pack bags according to claim 1, wherein: the material pressing and separating unit comprises a rack VI, a bracket III, a clamping and conveying front section device and a clamping and conveying rear section device, wherein the bracket III is fixedly arranged on the rack VI; the clamping and conveying front-section device and the clamping and conveying rear-section device are sequentially installed and fixed on a bracket III; the clamping and conveying rear-section device comprises a smooth belt conveying mechanism, a sponge belt conveying mechanism, a driving motor II, a power conveying mechanism and a positioning and adjusting device; the driving motor II is arranged on the rack VI and used for driving the power transmission mechanism; the power transmission mechanism comprises a transmission structure box body, a synchronous wheel and a double-sided synchronous belt; the smooth belt conveying mechanism comprises a smooth belt driving wheel, a smooth belt tensioning wheel and a smooth belt roller; the smooth belt driving wheel is arranged on the bracket III and is driven by the driving motor II; the smooth belt tensioning wheel is arranged on the bracket III and above the smooth belt driving wheel; 2 smooth belt rollers are respectively arranged on a bracket III of the clamping and conveying rear-section device; the left side and the right side above the smooth belt are also provided with a guide strip I for guiding materials; the positioning and adjusting device is used for positioning the sponge belt conveying mechanism and comprises a supporting plate, a bearing seat, a guide rod, an adjusting screw rod and an adjusting hand wheel; the supporting plate is divided into an upper supporting plate and a lower supporting plate which are respectively fixed on the transmission structure box body; the guide rods are 2, are arranged between the upper supporting plate and the lower supporting plate and are fixed by nuts; the adjusting screw rod is arranged on the upper supporting plate, and the upper end of the adjusting screw rod is also provided with an adjusting hand wheel; the bearing seat is in threaded fit with the adjusting screw rod, and the bearing seat can move up and down along the guide rod by rotating the adjusting screw rod; the sponge belt conveying mechanism comprises a turnover handle, a sponge belt tensioning wheel, a sponge belt driving wheel, a fixed shaft and a sponge belt conveying mechanism rack; the sponge belt driving wheel comprises a roller part and a roller part, the roller part is arranged on the bearing seat and connected with the power transmission mechanism, and the roller part is arranged in the middle of the frame of the sponge belt transmission mechanism; the fixed shaft is arranged on the frame of the sponge belt conveying mechanism, one end of the fixed shaft is provided with a spring and a neck ring, and the other end of the fixed shaft is provided with a turnover handle; a baffle plate is arranged at one end of the fixed shaft with the spring and used for fixing the sponge belt conveying mechanism; the sponge belt conveying mechanism is also provided with a positioning rod for positioning the height of the sponge belt conveying mechanism; the sponge belt of the clamping and conveying rear-section device has the same conveying speed as the smooth belt; the structure of the clamping and conveying front-section device is the same as that of the clamping and conveying rear-section device; the sponge belt of the clamping and conveying front-section device has the same conveying speed as the smooth belt; the smooth belt conveying speed of the clamping and conveying front-section device is constant; the clamping and conveying rear-section device is also provided with a material detection sensor I for detecting a material signal; the material detection sensor I is connected with a PC; and the driving motor II of the clamping and conveying rear-section device automatically adjusts the conveying speed under the control of the PC according to the change of the material condition detected by the material detection sensor I, so that the speed of the smooth belt and the sponge belt of the clamping and conveying rear-section device is changed, and the fixed-distance conveying of the material is realized.

4. The automatic arrangement and packaging system for five-pack bags according to claim 1, wherein: the chain separation unit comprises a rack VII, a motor IV, a working panel IV, a guide strip II, a pusher dog, a belt IV, a chain I, a guide strip III, a material detection sensor II, a material detection sensor III, a chain sprocket group I and a chain sprocket group II; the working panels IV are arranged on two sides of the upper surface of the frame VII; the motor IV is arranged on one side of the rack VII; the chain I is arranged in the middle of the rack VII and is driven by a motor IV through transmission of a chain and chain wheel set I; 6 pusher dogs are uniformly distributed on the chain I and used for pushing and conveying materials; the belt IV is provided with 2 belts which are arranged on two sides of a front-section chain I of the chain separation unit and matched with the pusher dog to convey materials; the belt IV is driven by a motor IV through transmission of a chain and sprocket set II; the guide strip II and the guide strip III are arranged on two sides of a chain I on the rack VII at the rear section of the chain separation unit; the guide strips II and III are bordered by the belt IV; the guide strips II are in an upward inclined shape, so that the materials in a flat lying shape are well inclined and erected, and a foundation is provided for the materials to vertically enter the next unit; a material detection sensor II and a material detection sensor III are also arranged on the rack VII in the middle of the chain separation unit; the mounting distance between the object detection sensor II and the object detection sensor III is longer than the length of one material and shorter than the length of two materials.

5. The automatic arrangement and packaging system for five-pack bags according to claim 1, wherein: the overturning and pulling-out unit comprises a rack VIII, an overturning and feeding mechanism, a pulling mechanism and a feeding mechanism, wherein the overturning and feeding mechanism is arranged at the lower part of the rack VIII; the material shifting mechanism is arranged at the upper part of the rack VIII and is arranged above the overturning feeding mechanism; the feeding mechanism is arranged on the rack VIII and is positioned on one side of the turnover feeding mechanism; the material shifting mechanism comprises a main transmission shaft I, a servo motor I, a support IV, a driving double-chain wheel I, a driven double-chain wheel I, a chain II, a chain supporting strip I, a shifting plate fixing block I, a shifting plate I, a connecting rod I, a supporting rod I, a gear I, a proximity switch I, a detection wheel I and a gear II; the servo motor I is an integrated motor with a reduction box and is arranged on one side of the material poking rack I; the main transmission shaft I is arranged on a support IV, is connected with a servo motor I through a coupler and is driven by the servo motor I, a driving double-chain wheel I is further assembled on the main transmission shaft I, a gear I is further arranged at the tail end of the main transmission shaft I, four chain supporting strips I are further arranged and fixed on the support IV, and a chain II is right below the chain I; the chain II is provided with two chains which are arranged on the driving double-chain wheel I and the driven double-chain wheel I; 3 shifting plate fixing blocks I are uniformly distributed on the chain II, and each shifting plate fixing block I is provided with a shifting plate I; 3 supporting rods I are uniformly distributed on the chain II, and the distance between each supporting rod I and the corresponding shifting plate fixing block I is 9 chain links which are connected with each other through a connecting rod I; the gear II is arranged below the gear I and is meshed with the gear I; the detection wheel I is coaxial with the gear II and rotates along with the gear II; a proximity switch I is further arranged beside the detection wheel I; the overturning feeding mechanism comprises a servo motor II, a material separating plate II, a feeding flange II, a gear III, a gear IV, a detection wheel II, a driving double-chain wheel II, a driven double-chain wheel II, a chain III, a main transmission shaft II, a proximity switch II and a bracket V; the servo motor II is arranged on one side of the bracket V; the main transmission shaft II is arranged on the bracket V, is connected with the servo motor II through a coupler and is driven by the servo motor II, and is also provided with a driving double-chain wheel II; the tail end of the main transmission shaft II is also provided with a gear III; the gear IV is arranged below the gear III and is meshed with the gear III; the detection wheel II is coaxial with the gear IV and rotates along with the gear IV; a proximity switch II is further arranged beside the detection wheel II and used for returning the equipment to the original point; the chain III is provided with two chains which are arranged on the driving double-chain wheel II and the driven double-chain wheel II; the material separating plate II is provided with 40 plates and made of stainless steel materials, and is fixedly arranged on the chain III through an L-shaped bracket III; the material separating plate II adopts an installation method of staggering a chain link position; the feeding flange II is arranged on one side of the bracket V and is positioned at the feeding end of the turnover feeding mechanism; the feeding mechanism consists of a motor VII, a transmission case VII, a support VI, a belt VII, a feeding baffle VII and a belt pulley VII; the motor VII is arranged on the bracket VI; a pair of chain wheels is arranged in the transmission case VII and is driven by a motor VIII; the two feeding baffle plates VII are arranged on the bracket VI and above the belt VII; the belt pulley VII is driven by a motor VII through a chain wheel and a chain; the overturning and pulling-out unit is also provided with two material detection sensor groups, namely a material detection sensor group I and a material detection sensor group II, wherein the material detection sensor group I is used for judging whether two materials in the overturning and feeding mechanism are close to each other or not; the material detection sensor group II is used for judging whether two materials enter the same material separation plate or not and judging whether the material separation plate is provided with a feeding material or not.

6. The automatic arrangement and packaging system for five-pack bags according to claim 1, wherein: the chain hook feeding and conveying unit comprises a rack I, a driving motor VI, a conveying belt I, a deflector rod, a transmission chain I, a bottom plate I and a bottom plate II; the conveying belt I is arranged at the foremost end of the chain hook feeding and conveying unit and is driven by the driving motor VI; the bottom plate I is arranged on the rack I and connected with the output end of the conveying belt I; the bottom plate II is arranged on the rack I and is used for bearing the bottom plate I; two transmission chains I are arranged and are respectively arranged on two sides of the conveying belt I and are driven by a driving motor VI to drive a chain wheel; the side plate is arranged above the conveying belt I; the driving levers are arranged in a plurality of equal intervals, are arranged on the transmission chain I and move along with the transmission chain I.

7. The automatic arrangement and packaging system for five-pack bags according to claim 1, wherein: the shifting plate synchronous pushing unit comprises a support I, a driving motor VI, a transmission chain II, a shifting plate and a plurality of chain wheels; the bracket I is arranged on the rack I; the driving motor VI is arranged on the bracket I, and drives the chain wheel to drive the transmission chain II to rotate; two transmission chains II are arranged; the shifting plate is provided with a plurality of equal distances and is arranged on the transmission chain II.

8. The automatic arrangement and packaging system for five-pack bags according to claim 1, wherein: the automatic film connecting unit comprises a bracket VII, a film hanging roller, a film wrapping roller group I and a servo tension motor; two film hanging rollers are arranged and are respectively arranged on the bracket VII; each film hanging roller is hung with a film wrapping roll; each film hanging roller is provided with a servo tension motor and a group of film covering roller groups I; the servo tension motor is arranged on the bracket VII, drives the film hanging roller to rotate through a synchronous wheel and a synchronous belt, and provides tension force for the coating film in the production process; and the automatic film connecting unit is also provided with a film wrapping detection sensor for detecting a film wrapping.

9. The automatic arrangement and packaging system for five-pack bags according to claim 1, wherein: the high-speed punching unit comprises a bracket VIII and a punching device; the punching devices are provided with two groups which are respectively arranged on the bracket VIII; the punching device is a pneumatic punching device and consists of an air cylinder, a punching needle and a bottom plate III; the perforating needle is controlled by the cylinder to move up and down to perforate the envelope; the bottom plate III is arranged below the perforating needle; a round hole is formed in the bottom plate III; the round hole corresponds to the perforating needle.

10. The automatic arrangement and packaging system for five-pack bags according to claim 1, wherein: the packaging unit comprises a bag making device, a middle sealing mechanism, a wrapping surface finishing mechanism, an end sealing mechanism, a discharging mechanism, a support IX and a conveying belt II; the bag making device, the middle sealing mechanism, the wrapping surface finishing mechanism, the end sealing mechanism and the discharging mechanism are sequentially arranged on the bracket IX; the bag making device is arranged at the foremost end of the packaging unit; the bag making device comprises a bag making die and a film coating roller group II; the conveying belt II is arranged on the support IX and is arranged at the rear end of the bag making mold and below the middle sealing mechanism; the middle sealing mechanism comprises a film drawing wheel device, a preheater, a middle sealing wheel device and a mounting plate; the film drawing wheel device, the preheater and the middle sealing wheel device are respectively arranged on the mounting plate; the film drawing wheel device is arranged at the front end; the preheater is connected with the film drawing wheel device; the middle sealing wheel device is connected with the preheater; a speed fine-adjustment component is arranged in the middle sealing wheel device and can adjust the speed of the middle sealing wheel; the end sealing mechanism comprises a frame, an upper cutter device, a lower cutter device, a transmission system and a power system; the upper cutter device and the lower cutter device are respectively arranged on the frame and driven by a power system and a transmission system.

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