CN212074505U - Efficient vertical packaging machine - Google Patents

Abstract

The utility model relates to the field of packaging machines, and discloses a high-efficiency vertical packaging machine, which comprises a box body, a control box and an installation panel, wherein the upper end of the installation panel is provided with a bag making former, a film drawing device is arranged along the longitudinal position of the bag making former, longitudinal sealing devices are arranged on the peripheral sides of the film drawing device, the tail end of the longitudinal sealing device is provided with a transverse sealing and cutting device, a material receiving disc is fixedly arranged under the transverse sealing and cutting device, and a film pre-feeding device is arranged on the rear side of the box body; the film pre-feeding device comprises an air expansion shaft, a film receiving plate and a plurality of guide rollers, wherein the air expansion shaft, the film receiving plate and the guide rollers are arranged between mutually parallel side plates; the film drawing device comprises a servo motor and a speed reducer which are fixed on the inner wall of the box body, and the other shaft end of the speed reducer is rotatably connected with a universal shaft; the device is provided with servo motor, cardan shaft and removal seat, but accurate, efficient control synchronous pulley's motion makes to draw and forms more inseparable contact between membrane hold-in range and the plastic bag.

Description

Efficient vertical packaging machine

Technical Field

The utility model relates to the technical field of packaging machines, concretely relates to high-efficient vertical packaging machine.

Background

Among the prior art, packagine machine system bag former draw membrane device includes a former one-tenth section of thick bamboo, two hold-in ranges of former one-tenth section of thick bamboo both sides draw membrane device, the hold-in range draws membrane device to include two synchronous pulley and the hold-in range of tensioning on two synchronous pulley, the surface of part hold-in range compresses tightly mutually with the surface of former one-tenth section of thick bamboo, the packaging film passes between hold-in range and the one-tenth section of thick bamboo, it is greater than the slip friction formula packaging film that packaging film and one-tenth section of thick bamboo produced and can follow the hold-in range and move together to produce static friction. Although the purpose of pulling the packaging film can be achieved by the method, the packaging film and the synchronous belt are easy to slip due to the action of friction force, and the film is easy to shift when moving.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a high-efficient vertical packing machine device is provided with servo motor, cardan shaft and removal seat in the device structure, but the motion of accurate, efficient control synchronous pulley makes and draws the membrane to form more inseparable contact between synchronous bag and the plastic bag, and then can drive bigger plastic packaging bag motion.

In order to achieve the above object, the present invention provides the following technical solutions:

a high-efficiency vertical packaging machine comprises a box body, a control box and a mounting panel, wherein the control box is arranged on one side of the box body, the mounting panel is longitudinally arranged in the box body, a bag making former is arranged at the upper end of the mounting panel, a film drawing device is arranged along the longitudinal position of the bag making former, longitudinal sealing devices are arranged on the peripheral sides of the film drawing devices, a transverse sealing and cutting device is arranged at the tail end of the longitudinal sealing device, a material receiving disc is fixedly arranged right below the transverse sealing and cutting device, and a film pre-feeding device is arranged on the rear side of the box body;

the film pre-feeding device comprises two side plates which are parallel to each other, an air expansion shaft and a film connecting plate are sequentially arranged between the two side plates from bottom to top, a plurality of guide rollers are arranged between the air expansion shaft and the film connecting plate, a power motor is arranged on one side of the air expansion shaft and fixedly connected with one side plate, floating guide rods are oppositely arranged on the inner sides of the side plates, a plurality of position sensors are arranged close to the floating guide rods, a code printer is arranged above the position sensors, a deviation correcting device is arranged on one side outside the side plates, a connecting plate is arranged at the top end of the film pre-feeding device, penetrates through the box body and is connected with the front guide rollers, photoelectric sensors are arranged on the connecting plate, and the photoelectric sensors, the position sensors and the power motor are all electrically connected with the output end of a PLC control system;

the film drawing device comprises three movable guide rail fixing seats which are fixed on an installation panel in parallel, movable guide rails are sleeved on the movable guide rail fixing seats, two movable seats are movably connected onto the movable guide rails, square through holes are formed in the installation panel below the movable guide rails, a first bearing seat is fixedly installed on the square through holes and the movable seats in a penetrating mode, a base plate is installed on the first bearing seat, two ends of the base plate are rotatably connected with film drawing synchronous belt wheels, film drawing synchronous belts are arranged on the outer sides of the film drawing synchronous belt wheels, and tension pulleys are fixedly installed between the two oppositely arranged film drawing synchronous belt wheels; remove the seat and keep away from first bearing frame one end is on a parallel with remove seat fixed mounting and have two and draw the membrane cylinder, draw the flexible end of membrane cylinder with remove seat fixed connection, be fixed with servo motor and speed reducer on the inside wall of box, servo motor and one of them speed reducer fixed connection, two pass through coupling joint between the speed reducer, another axle head of speed reducer rotates and is connected with the cardan shaft, the cardan shaft passes remove the seat with center pin fixed connection in the first bearing frame, center pin and one of them synchronous pulley connects.

The utility model discloses in, preferred, the system bag former is including setting up the upper fixed plate on box top, the bottom plate through a plurality of fixed column threaded connection, run through in the section of thick bamboo and the cover that fills at upper fixed plate and bottom plate middle part are established fill former on the section of thick bamboo, bottom plate threaded connection is two indulge the top of sealing the mounting panel.

The utility model discloses in, it is preferred, draw membrane device week side to be provided with vertical involution device, vertical involution device includes parallel arrangement and is in the vertical mounting panel that seals, with two of installation panel both ends indulge the mounting panel and connect respectively indulge the frame fixed column that seals, with two indulge the frame fixed column through indulging the fixed vertical fixed frame that seals of frame fixed block with indulge the hand button that seals the fixed frame both ends setting of fixed frame indulging through screw fixed connection indulge the fixed frame middle through the encapsulation bracket of indulging the encapsulation bracket keep away from indulge the encapsulation of setting of fixed frame one side with indulge the cylinder that seals that sets up on the encapsulation bracket, indulge seal the cylinder with PLC control system's in the control box output electric connection.

In the utility model, preferably, the transverse sealing and cutting device comprises a mounting post which is oppositely arranged on one side of the mounting panel, a sealing cylinder is arranged on the mounting post, the extending end of the sealing cylinder is rotationally connected with one end of a rotating device B, the other end of the rotating device B is sleeved in the middle of a transmission shaft, two ends of the transmission shaft are respectively connected with the rotating device A, two ends of the rotating device A are respectively rotationally connected with one ends of a connecting rod A and a connecting rod B, a bearing fixing plate is oppositely sleeved on the transmission shaft, one end of the bearing fixing plate is connected with the mounting panel through a bolt and a nut, a second bearing seat is arranged on one side of the bearing fixing plate, one side of the mounting panel, which is far away from the second bearing seat, is provided with a transverse sealing back block supporting plate, two ends of the transverse sealing back block supporting plate are fixedly connected with the other end of the connecting rod B, run through violently seal back piece layer board middle part and with violently seal back piece upper surface contact department is provided with the cutting off cutter, the cutting off cutter with the flexible end fixed connection who cuts off the cylinder is connected with violently seal preceding piece layer board through a plurality of guide axles, violently seal preceding piece layer board both ends with connecting rod A other end swing joint, violently seal preceding piece layer board is close to cutting off cutter one side is provided with violently seal preceding piece through fixed part, cut off the output electric connection of PLC control system in cylinder and the control box.

The utility model discloses in, it is preferred, the control box is provided with display screen and control switch, control switch is connected with PLC control system's input.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses be fixed with servo motor and speed reducer on the inside wall of box, servo motor and one of them speed reducer fixed connection, through the coupling joint between two speed reducers, another axle head of speed reducer rotates and is connected with the cardan shaft, the cardan shaft passes the center pin fixed connection who removes in seat and the primary shaft bearing, combine the setting of cardan shaft with servo motor, make and can produce bigger moment of torsion drawing the membrane in-process, provide bigger power for drawing membrane synchronous pulley, and then can be accurate, the motion of efficient control synchronous pulley, make and draw and form more inseparable contact between membrane synchronous bag and the plastic bag, and then can drive bigger plastic packaging bag motion.

2. The utility model discloses draw and be provided with motor power by the inflatable shaft, can be more timely effectual control plastic film the beginning and stop operation, improve work efficiency and accuracy.

3. The center of the film drawing device is provided with the filling cylinder, the bag making former is arranged outside the filling cylinder, so that the packaging film wraps the whole filling cylinder after passing through the bag making former, and the packaged materials can be powdery, granular, flaky, liquid and sauce; the transverse sealing and cutting device can seal and cut off the packaging bags, saves the space of a packaging machine and simplifies the operation process of the packaging bags.

4. The utility model discloses what vertical involution device adopted is that open and shut open structure, at the first during operation of machine, passes the system bag former for easy to assemble or change system bag former and film, can open vertical involution device, waits to install system bag former and film and passes system bag former arrival needs the position after, transfers back to operating position vertical involution device, waits to start.

Drawings

Fig. 1 is a front view of the high-efficiency vertical packaging machine of the present invention.

Fig. 2 is a side view of the high-efficiency vertical packaging machine of the present invention.

Fig. 3 is a side view of the film pre-feeding device of the high-efficiency vertical packaging machine of the present invention.

Fig. 4 is a schematic structural view of the film pre-feeding device of the high-efficiency vertical packaging machine of the present invention.

Fig. 5 is a schematic structural view of a bag-making former of the high-efficiency vertical packaging machine of the present invention.

Fig. 6 is a front view of the film drawing device of the high-efficiency vertical packaging machine of the present invention.

Fig. 7 is a top view of the film drawing device of the high-efficiency vertical packaging machine of the present invention.

Fig. 8 is a side view of the vertical sealing device of the vertical packaging machine of the present invention.

Fig. 9 is a front view of the vertical sealing device of the vertical packaging machine of the present invention.

Fig. 10 is a side view of the transverse sealing and cutting device of the vertical packaging machine of the present invention.

Fig. 11 is a top view of the transverse sealing and cutting device of the vertical packaging machine of the present invention.

Fig. 12 is a circuit system block diagram of the high-efficiency vertical packaging machine of the present invention.

Description of the main element symbols: 1. a box body; 2. a control box; 3. a pre-feeding film device; 301. correcting; 302. A guide roller; 303. connecting a membrane plate; 304. a floating guide rod; 305. an air expansion shaft; 306. a front guide roller; 307. a photosensor; 308. a coding machine; 309. a side plate; 310. a power motor; 311. a position sensor; 4. a bag making former; 401. a lower fixing plate; 402. an upper fixing plate; 403. a filling cylinder; 404. a former; 405. Fixing a column; 5. a longitudinal sealing device; 501. fixing blocks of the longitudinal sealing frames; 502. a hand knob; 503. longitudinally sealing the cylinder; 504. a longitudinal sealing fixed frame; 505. longitudinally sealing the mounting plate; 506. a longitudinal sealing block; 507. a longitudinal sealing block bracket; 508. A longitudinal sealing frame fixing column; 6. a film drawing device; 601. film drawing synchronous belts; 602. a film-drawing synchronous belt wheel; 603. A tension wheel; 604. a substrate; 605. a first bearing housing; 606. a movable seat; 607. a film drawing cylinder; 608. A moving guide rail; 609. a cardan shaft; 610. a speed reducer; 611. a coupling; 612. a servo motor; 613. A movable guide rail fixing seat; 7. a transverse sealing and cutting device; 701. a rotating device A; 702. a drive shaft; 703. a bearing fixing plate; 704. a second bearing housing; 705. cutting off the air cylinder; 706. transversely sealing the back block supporting plate; 707. transversely sealing the rear block; 709. a cutting knife; 710. a guide shaft; 711. transversely sealing the front block; 712. transversely sealing a front block supporting plate; 713. sealing the cylinder; 714. a connecting rod A; 715. a connecting rod B; 716. transversely sealing the bracket; 717. a pin; 718. mounting a column; 719. a rotating device B; 720. a fixing member; 721. 8, installing a panel; 9. a display screen; 10. a control switch; 11. a take-up pan.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 12, in the present embodiment, the efficient vertical packaging machine includes a box body 1, a control box 2 and an installation panel 8, where the control box 2 is disposed at one side of the box body 1, the installation panel 8 is longitudinally disposed in the box body 1, the installation panel 8 is used to fix each component in each device, a bag-making former 4 is disposed at an upper end of the installation panel 8, a film-pulling device 6 is disposed along a longitudinal position of the bag-making former 4, a longitudinal sealing device 5 is disposed on a peripheral side of the film-pulling device 6, a transverse sealing and cutting device 7 is disposed at a terminal of the longitudinal sealing device 5, a receiving tray 11 is fixedly disposed under the transverse sealing and cutting device 7, and a pre-film-feeding device 3 is disposed on a rear side of the box body 1;

the film pre-feeding device 3 comprises two parallel side plates 309, an air expansion shaft 305 and a film connecting plate 303 are sequentially arranged between the two side plates 309 from bottom to top, a plurality of guide rollers 302 are arranged between the air expansion shaft 305 and the film connecting plate 303, the air expansion shaft 305 is used for winding and conveying a plastic film, the guide rollers 302 are used for ensuring that the plastic film is transmitted according to a specified direction, the plastic film is sequentially transmitted to the next process by the film connecting plate 303, a power motor 310 is arranged on one side of the air expansion shaft 305, the power motor 310 is used for driving the air expansion shaft 305 to rotate and stop operating and conveying the film, the power motor 310 is fixedly connected with one side plate 309, a floating guide rod 304 is oppositely arranged on the inner side of the side plate 309, when the film pulling device 6 pulls the film, the floating guide rod 304 is driven to move upwards, a position sensor 311 obtains a signal, and the power motor 310 drives the air expansion shaft 305, carry the film, at this moment the guide arm 304 that floats is down, and position sensor 311 obtains the signal, driving motor 310 stall is close to the guide arm 304 that floats is provided with a plurality of position sensor 311, position sensor 311 top is provided with coding machine 308, coding machine 308 is responsible for the sign indicating number of beating on the wrapping bag, the outer one side of curb plate 309 is provided with deviation correcting device 301, at the material coiling in-process, detects the position of limit or line by photoelectric sensor 307 to pick up limit or line position deviation signal. And then the position deviation signal is transmitted to a deviation correction controller of the deviation correction device 301 for logic operation, a control signal is sent to the mechanical actuating mechanism to drive the mechanical actuating mechanism, the snake-shaped deviation of the material during operation is corrected, and the material is ensured to move in the correct direction and distance. The top end of the film pre-feeding device 3 is provided with a connecting plate 312, the connecting plate 312 penetrates through the box body 1 and is connected with a front guide roller 306, the front guide roller 306 is used for changing the conveying direction of a plastic film and conveying the plastic film to the bag making former 4, a photoelectric sensor 307 is arranged on the connecting plate 312, the photoelectric sensor 307 is used for detecting a color scale, when the color scale is detected, the film pre-feeding device 3 stops working, and the photoelectric sensor 307, a position sensor 311 and a power motor 310 are all electrically connected with the output end of a PLC control system in the control box 2;

the film drawing device 6 comprises three moving guide holders 613 fixed in parallel on the mounting panel 8, a moving guide rail 608 is sleeved on the moving guide rail fixing seat 613, two moving seats 606 are movably connected to the moving guide rail 608, a square through hole is formed in a mounting panel 8 located below the moving guide rail 608, a first bearing seat 605 is fixedly mounted on the moving seat 606 and penetrates through the square through hole, the first bearing seat 605 is used for lifting the substrate 604, and the first bearing seat 605 has a central shaft therein to drive the film-drawing synchronous pulley 602 to rotate, a base plate 604 is mounted on the first bearing seat 605, the base plate 604 is used for fixing the film-drawing synchronous pulley 602, two ends of the substrate 604 are rotatably connected with film-drawing synchronous pulleys 602, a film-drawing synchronous belt 601 is arranged outside the film-drawing synchronous pulleys 602, and a tension pulley 603 is fixedly arranged between the two opposite film-drawing synchronous pulleys 602; one end of the movable seat 606, which is far away from the first bearing seat 605, is parallel to the movable seat 606 and is fixedly provided with two film drawing cylinders 607, the film drawing cylinders 607 control opening and closing of the film drawing device 6, a universal wheel serves as a transmission shaft, the mechanism requirements are met, and the mechanism runs reliably, the telescopic end of each film drawing cylinder 607 is fixedly connected with the movable seat, a servo motor 612 and a speed reducer 610 are fixed on the inner side wall of the box body 1, the servo motor 612 and the speed reducer 610 give power to drive the transmission synchronous belt wheel 602 and the transmission synchronous belt 601 to move, so that the universal shaft 609 is driven to work, the film drawing synchronous belt wheel 602 and the film drawing synchronous belt 601 are driven to move, the trend plastic package moves downwards, the servo motor 612 is fixedly connected with one of the speed reducers 610, two shaft ends 610 are connected through a coupler 611, and the other end of the speed reducer 610 is rotatably connected with the universal shaft, the universal shaft 609 passes through the movable base 606 and is fixedly connected to a central shaft in the first bearing base 605, and the central shaft is connected to one of the film-drawing synchronous pulleys 602.

In this embodiment, the bag making and forming device 4 includes an upper fixing plate 402 disposed at the top end of the box body 1, a lower fixing plate 401 screwed via a plurality of fixing posts 405, a filling cylinder 403 penetrating the middle portions of the upper fixing plate 402 and the lower fixing plate 401, and a forming device 404 sleeved on the filling cylinder 403, wherein the lower fixing plate 401 is screwed at the top ends of the two longitudinal sealing and mounting plates 505.

In this embodiment, a longitudinal sealing device 5 is disposed around the film drawing device 6, the longitudinal sealing device 5 includes longitudinal sealing mounting plates 505 disposed at two ends of the mounting panel 8 in parallel, longitudinal sealing frame fixing posts 508 connected to the two longitudinal sealing mounting plates 505 respectively, a longitudinal sealing fixing frame 504 fixed to the two longitudinal sealing frame fixing posts 508 through the longitudinal sealing fixing blocks 501, hand knobs 502 disposed at two ends of the longitudinal sealing fixing frame 504, a longitudinal sealing block bracket 507 fixedly connected to the middle of the longitudinal sealing fixing frame 504 through screws, a longitudinal sealing block 506 disposed on one side of the longitudinal sealing block bracket 507 away from the longitudinal sealing fixing frame 504, and a longitudinal sealing cylinder 503 disposed on the longitudinal sealing block bracket 507, the hand knobs 502 are disposed such that the longitudinal sealing device 5 is an open-close open structure, when the machine is operated for the first time, in order to facilitate installation or replacement of the bag making former 4 and to make a film pass through the bag former 4, the longitudinal sealing device 5 can be opened by the hand knob 502, after the bag making former 4 and the film are installed and pass through the bag making former 4 to reach the required position, the longitudinal sealing device 5 is adjusted back to the working position to wait for starting up, the longitudinal sealing block 506 is used for longitudinally sealing the plastic bag, and the longitudinal sealing cylinder 503 is electrically connected with the output end of the PLC control system in the control box 2.

In this embodiment, the transverse sealing and cutting device 7 includes an installation column 718 oppositely disposed at one side of the installation panel 8, the installation column 718 is provided with a sealing cylinder 713, an extending end of the sealing cylinder 713 is rotatably connected with one end of a rotating device B719, the other end of the rotating device B719 is sleeved at the middle portion of a transmission shaft 702, two ends of the transmission shaft 702 are respectively connected with a rotating device a701, two ends of the rotating device a701 are respectively rotatably connected with one ends of a connecting rod a714 and a connecting rod B715, the transmission shaft 702 is relatively sleeved with a bearing fixing plate 703, one end of the bearing fixing plate 703 is connected with the installation panel 8 through bolts and nuts, one side of the bearing fixing plate 703 is provided with a second shaft 704, one side of the installation panel 8, which is far away from the second shaft bearing 704, is provided with a transverse sealing rear block supporting plate 706, and two ends of the transverse sealing rear block supporting plate 706 are fixedly connected with, transversely seal back piece layer board 706 on be provided with transversely seal back piece 707, transversely seal back piece layer board 706 with transversely seal back piece 707 closure can carry out the involution to the plastic bag, run through transversely seal back piece layer board 706 middle part and with transversely seal back piece 707 upper surface contact department is provided with cutting off cutter 709, cutting off cutter 709 is used for cutting into individual independent structure with the wrapping bag, cutting off cutter 709 with cut off cylinder 705's flexible end fixed connection is connected with transversely seal front piece layer board 712 through a plurality of guiding axles 710, transversely seal front piece layer board 712 both ends with connecting rod A714 other end swing joint, transversely seal front piece layer board 712 is close to cutting off cutter 709 one side is provided with transversely seal front piece 711 through fixed part, cut off cylinder 705 and the output electric connection of the PLC control system in the control box 2.

In the present embodiment, the control box 2 is provided with a display screen 9 and a control switch 10, and the control switch 10 is connected to an input end of the PLC control system.

The working principle is as follows: the efficient vertical packing machine consists of film winding pre-feeder, bag making former, longitudinal sealing unit, film drawing unit, transverse sealing and cutting unit, etc. Starting a film pulling cylinder 607 in the film pulling device 6 after the machine is started, driving the film pulling synchronous belt wheels 602 at two sides to move towards the direction of the filling cylinder 403, further clamping the film covered on the surface of the filling cylinder 403, simultaneously starting the servo motor 612 and the speed reducer 610, further driving the connected universal shaft 609 to start rotating, thereby driving the plastic film to pull the film to move along the direction of the film pulling synchronous belt 601, the film pulling device 6 pulls the film roll according to the set size parameter, when the film pulling device 6 pulls the film, the floating guide rod 304 is driven to move upwards, the position sensor 311 obtains a signal, the power motor 310 drives the air expansion shaft 305 to rotate, the film is conveyed, at this time, the floating guide rod 304 moves downwards, the position sensor 311 obtains a signal, and the power roller 310 stops operating, thus the operation is repeated; at the same time, the color patch is detected by the photoelectric sensor 307, and the pre-film feeding device 3 stops operating. After the film conveyed by the film pre-feeding device 3 is rolled into a cylindrical shape by the bag making former 4, the longitudinal sealing of the packaging bag is completed by the longitudinal sealing device 5, the packaging bag enters the packaging bag from the filling cylinder 403 after the plastic packaging bag reaches the transverse sealing and cutting device 7 to complete the first transverse sealing under the drive of the film pulling synchronous pulley 602 in the film pulling device 6, at the moment, the film pulling device 6 continues to pull the film to move downwards and then perform the second transverse sealing, then the PLC control system starts the cutting cylinder 705 to drive the cutting knife 709 to cut the packaging bag into independent packaging bags, and finally the packaging bags reach the designated position through the material receiving tray 11. In order to ensure the bag making quality, the pre-film feeding device 3 adopts an automatic deviation rectifying device mechanism and can be automatically operated and completed in real time through a touch screen according to the actual bag making running condition.

The whole machine is controlled by a PLC programmable controller program, and a sensor collects field data in real time during the operation of the machine, so that the good operation state of the machine is ensured. The touch screen man-machine conversation interface and the parameter adjustment are convenient and quick, and the machine yield can be displayed in real time.

The above description is for the detailed description of the preferred possible embodiments of the present invention, but the embodiments are not intended to limit the scope of the present invention, and all equivalent changes or modifications accomplished under the technical spirit suggested by the present invention should fall within the scope of the present invention.

Claims (5)

1. The utility model provides a high-efficient vertical packagine machine, includes box (1), control box (2) and installation panel (8), its characterized in that: the control box (2) is arranged on one side of the box body (1), the installation panel (8) is longitudinally arranged in the box body (1), a bag making former (4) is arranged at the upper end of the installation panel (8), a film pulling device (6) is arranged along the longitudinal position of the bag making former (4), longitudinal sealing devices (5) are arranged on the peripheral sides of the film pulling devices (6), a transverse sealing and cutting device (7) is arranged at the tail end of the longitudinal sealing device (5), a material receiving disc (11) is fixedly arranged right below the transverse sealing and cutting device (7), and a film pre-feeding device (3) is arranged on the rear side of the box body (1);

the film pre-feeding device (3) comprises two side plates (309) which are parallel to each other, an air expansion shaft (305) and a film connecting plate (303) are sequentially arranged between the two side plates (309) from bottom to top, a plurality of guide rollers (302) are arranged between the air expansion shaft (305) and the film connecting plate (303), a power motor (310) is arranged on one side of the air expansion shaft (305), the power motor (310) is fixedly connected with one side plate (309), a floating guide rod (304) is oppositely arranged on the inner side of the side plate (309), a plurality of position sensors (311) are arranged near the floating guide rod (304), a code printer (308) is arranged above the position sensors (311), a deviation correcting device (301) is arranged on one outer side of the side plate (309), a connecting plate (312) is arranged at the top end of the film pre-feeding device (3), and the connecting plate (312) penetrates through the box body (1) and is connected with a front, a photoelectric sensor (307) is arranged on the connecting plate (312), and the photoelectric sensor (307), the position sensor (311) and the power motor (310) are electrically connected with the output end of a PLC control system in the control box (2);

the film drawing device (6) comprises three movable guide rail fixing seats (613) which are fixed on a mounting panel (8) in parallel, a movable guide rail (608) is sleeved on the movable guide rail fixing seats (613), the movable guide rail (608) is movably connected with two movable seats (606), a square through hole is formed in the mounting panel (8) which is positioned below the movable guide rail (608), a first bearing seat (605) is fixedly mounted on the movable seat (606) and penetrates through the square through hole, a substrate (604) is mounted on the first bearing seat (605), film drawing synchronous pulleys (602) are rotatably connected to two ends of the substrate (604), a film drawing synchronous belt (601) is arranged on the outer side of the film drawing synchronous pulleys (602), and a tension pulley (603) is fixedly mounted between the two opposite film drawing synchronous pulleys (602); move seat (606) and keep away from first bearing frame (605) one end is on a parallel with move seat (606) fixed mounting have two and draw membrane cylinder (607), draw the flexible end of membrane cylinder (607) with move seat fixed connection, be fixed with servo motor (612) and speed reducer (610) on the inside wall of box (1), servo motor (612) and one of them speed reducer (610) fixed connection, two connect through shaft coupling (611) between speed reducer (610), another axle head rotation of speed reducer (610) is connected with cardan shaft (609), cardan shaft (609) pass move seat (606) with center pin fixed connection in first bearing frame (605), the center pin with one of them draw membrane synchronous pulley (602) to be connected.

2. A high efficiency vertical wrapping machine as defined in claim 1 wherein: the longitudinal sealing device (5) is arranged on the periphery of the film pulling device (6), the longitudinal sealing device (5) comprises longitudinal sealing mounting plates (505) which are arranged at two ends of the mounting panel (8) in parallel, longitudinal sealing frame fixing columns (508) which are respectively connected with the two longitudinal sealing mounting plates (505), a longitudinal sealing fixing frame (504) which is fixed with the two longitudinal sealing frame fixing columns (508) through longitudinal sealing frame fixing blocks (501), hand buttons (502) which are arranged at two ends of the longitudinal sealing fixing frame (504), a longitudinal sealing block bracket (507) which is fixedly connected with the middle of the longitudinal sealing fixing frame (504) through screws, a longitudinal sealing block (506) which is arranged on one side of the longitudinal sealing fixing frame (504) and a longitudinal sealing cylinder (503) which is arranged on the longitudinal sealing block bracket (507) are far away from the longitudinal sealing block bracket (507), the longitudinal sealing air cylinder (503) is electrically connected with the output end of a PLC control system in the control box (2).

3. A high efficiency vertical wrapping machine as defined in claim 2 wherein: the bag making and forming device (4) comprises an upper fixing plate (402) arranged at the top end of the box body (1), a lower fixing plate (401) in threaded connection through a plurality of fixing columns (405), a filling cylinder (403) penetrating through the middle parts of the upper fixing plate (402) and the lower fixing plate (401), and a forming device (404) sleeved on the filling cylinder (403), wherein the lower fixing plate (401) is in threaded connection with the top ends of the two longitudinal sealing and mounting plates (505).

4. A high efficiency vertical wrapping machine as defined in claim 1 wherein: the transverse sealing and cutting device (7) comprises mounting columns (718) oppositely arranged on one side of the mounting panel (8), sealing cylinders (713) are arranged on the mounting columns (718), the extending ends of the sealing cylinders (713) are rotatably connected with one ends of rotating devices B (719), the other ends of the rotating devices B (719) are sleeved on the middle of a transmission shaft (702), two ends of the transmission shaft (702) are respectively connected with a rotating device A (701), two ends of the rotating device A (701) are respectively rotatably connected with one ends of a connecting rod A (714) and a connecting rod B (715), bearing fixing plates (703) are oppositely sleeved on the transmission shaft (702), one ends of the bearing fixing plates (703) are connected with the mounting panel (8) through bolts and nuts, a second bearing seat (704) is arranged on one side of the bearing fixing plates (703), and a transverse sealing rear block supporting plate (706) is arranged on one side, far away from the second bearing seat (704), of the mounting panel (8), violently seal back piece layer board (706) both ends with connecting rod B (715) other end fixed connection, violently be provided with on the back piece layer board (706) and violently seal back piece (707), run through violently seal back piece layer board (706) middle part and with violently seal back piece (707) upper surface contact department and be provided with cutting off cutter (709), cutting off cutter (709) and the flexible fixed connection who cuts off cylinder (705), be connected with through a plurality of guiding axles (710) and violently seal preceding piece layer board (712), violently seal preceding piece layer board (712) both ends with connecting rod A (714) other end swing joint, violently seal preceding piece layer board (712) and be close to cutting off cutter (709) one side is provided with through fixed part and violently seals preceding piece (711), cut off the output electric connection of the PLC control system in cylinder (705) and control box (2).

5. A high efficiency vertical wrapping machine as defined in any one of claims 1 to 4 wherein: the control box (2) is provided with a display screen (9) and a control switch (10), and the control switch (10) is connected with the input end of the PLC control system.

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