CN112278444A

CN112278444A - Continuous packaging equipment of chinese yam piece

Info

Publication number: CN112278444A
Application number: CN202011353582.3A
Authority: CN
Inventors: 张森旺; 周自璇; 顾震; 熊亚秋; 华佳佳; 刘慧玲; 胡瑞芬
Original assignee: Ruichang Yurui Industrial Co ltd
Current assignee: Ruichang Yurui Industrial Co ltd
Priority date: 2020-11-27
Filing date: 2020-11-27
Publication date: 2021-01-29

Abstract

The invention relates to a continuous packaging device for yam slices, which comprises a frame, an electric box, a film conveying component, a forming component, a press sealing component and a material receiving component. Seal and press the subassembly including indulging press mechanism, violently sealing the mechanism, the shaping subassembly includes transition fill, former, feed cylinder, guide foot, and fortune membrane module is including crossing membrane mechanism, send membrane mechanism, the electronic box is in the frame right side, and the shaping subassembly is in the frame top, indulges press the mechanism, violently seals the below that the mechanism is located the frame in proper order, connects the material subassembly to be located the lowermost extreme of frame. The packaging film is arranged on the film passing mechanism, passes through the former through code printing and photoelectric induction, the material cylinder is fed by the film feeding mechanism and penetrates out of the guide pin, yam slices positioned in the blanking part enter the packaging film under the guide of the material cylinder, the packaging film is longitudinally sealed and pressed by the vertical sealing mechanism, the packaging film is transversely sealed and pressed by the transverse sealing mechanism, and the packaging film cut by the transverse sealing mechanism enters the material receiving assembly to complete bag making and packaging.

Description

Continuous packaging equipment of chinese yam piece

Technical Field

The invention relates to continuous packaging equipment for yam slices, and belongs to the technical field of food packaging equipment.

Background

At present, the yam piece processing process preliminarily realizes automatic production, but the degree of automation in the aspects of finished product packaging and transportation is lower, the existing food packaging device generally has independence, a large amount of time waste exists among the packaging, sealing and boxing three, manual bagging is needed, and therefore the production efficiency is low, the labor cost is high, the packaging is uneven and other phenomena need to be improved.

Disclosure of Invention

The present invention aims to overcome the above-mentioned shortcomings and provide a technical solution to solve the above-mentioned problems.

An apparatus for continuously packaging yam slices, comprising: frame, electronic box, fortune membrane module, shaping subassembly, press seal subassembly, connect the material subassembly, its characterized in that, seal and press the subassembly including indulging pressing means, violently sealing the mechanism, the shaping subassembly includes transition fill, former, feed cylinder, guide pin, the electronic box is in the frame right side, the shaping subassembly is the top in the frame, indulge pressing means, violently seal the below that the mechanism is located the frame in proper order, connect the material subassembly to be located the bottom of frame, the packaging film setting is on fortune membrane module, and former, feed cylinder are passed and are worn out from the guide pin to the front end of packaging film, and the yam piece that is located unloading portion gets into in the packaging film under the guide of feed cylinder, and the vertical packaging film that seals of vertical seal mechanism, violently seal the mechanism and transversely seal the packaging film, and get into through the packaging film that violently seal the mechanism cut and connect the material subassembly, fortune membrane module includes membrane mechanism, send membrane mechanism, crosses membrane mechanism and includes supporting baffle subassembly, The packaging film passes through a first roller and a second roller in sequence, the first roller straightens the packaging film, the second roller changes the packaging film to a vertical direction, the packaging film passes through a third roller, a transverse rod device and a fourth roller upwards in sequence, the packaging film is straightened into a horizontal direction, the packaging film passes through a fifth roller and a film connecting plate in sequence, the fifth roller changes the film into the vertical direction, the film connecting plate is arranged on the inner side of the packaging film, the packaging film is subjected to code printing by a code printing device, the code printing is finished and then passes through a sixth roller, a seventh roller and an eighth roller in sequence, the packaging film is straightened into a horizontal direction, the packaging film is detected by a photoelectric sensing device, passes through a ninth roller and a tenth roller and is connected with a forming assembly to finish film passing, send membrane mechanism to include motor, two worm gear speed reducers that the specification is the same, draw membrane fixed plate, two couplings, fixed stay subassembly, two action wheels, two from driving wheel, two wheel tensioning adjusting device, deep groove ball bearing, hold-in range compact heap, motor and worm gear speed reducer are on drawing the membrane fixed plate, and the motor provides power, handles through the worm gear speed reducer, connects the coupling transmission to action wheel operation, and the action wheel is under, and from the driving wheel last, the action wheel with from driving wheel with be connected with the hold-in range, hold-in range compact heap and packaging film, accomplish and send the membrane.

Further, fortune membrane module is including crossing membrane mechanism, send membrane mechanism, it includes supporting baffle subassembly, inflatable shaft device, ten rollers, a plurality of roller axle, horizontal pole device, connects lamina membranacea, photoelectric sensing device, beats the ink recorder, wherein beats the ink recorder and include two gear motor, beat ink recorder backup pad, cross plate washer, lid, rubber slab separation blade, beat the ink recorder and install in beating the ink recorder backup pad, cross plate washer is connected in the frame, and the lid is connected to the cross plate washer outer end, and the rubber slab separation blade is connected to the inner, rubber slab separation blade and beat the laminating of ink recorder.

Furthermore, the film conveying assembly comprises a film passing mechanism and a film conveying mechanism, the film passing mechanism comprises a supporting baffle assembly, an air expansion shaft device, ten rollers, a plurality of roller shafts, a cross rod device, a film receiving plate, a photoelectric sensing device and a code printing device, wherein the air expansion shaft device comprises an air expansion shaft, a first gear, a second gear and a connecting shaft, the first gear is meshed with the second gear, the first gear is connected with the air expansion shaft, and the second gear is connected with the connecting shaft and fixed on the rack.

Furthermore, fortune membrane module includes crosses membrane mechanism, send membrane mechanism, it includes supporting baffle subassembly, inflatable shaft device, ten rollers, a plurality of roller axle, horizontal pole device, connects lamina membranacea, photoelectric sensing device, beats the sign indicating number device to cross membrane mechanism, and wherein the horizontal pole device includes horizontal pole, sliding bearing seat, slide bar, guide arm seat, and sliding bearing seat is connected at the horizontal pole both ends, and the bearing seat is connected with the slide bar, and the slide bar is connected with the guide arm seat and is fixed in the frame.

Further, the film conveying assembly comprises a film conveying mechanism and a film conveying mechanism, the film conveying mechanism comprises a supporting baffle assembly, an air expansion shaft device, ten rollers, a plurality of roller shafts, a cross rod device, a film receiving plate, a photoelectric sensing device and a code printing device, the photoelectric sensing device comprises a first polished rod, three second polished rods, a photoelectric sensor, a photoelectric support, a linear bearing, a photoelectric sliding rod and a support, the first polished rod is arranged below the second polished rod, the first polished rod and the photoelectric sensor are fixed on the photoelectric support, the second polished rod is fixed on the support, the inner side of the support is connected with the photoelectric support, the outer side of the support is connected with the linear bearing, the linear bearing is connected with the photoelectric sliding rod, and the photoelectric sliding rod is connected with the support and fixed on the frame.

Further, the membrane conveying assembly comprises a membrane passing mechanism and a membrane conveying mechanism, the membrane conveying mechanism comprises a motor, two worm and gear speed reducers with the same specification, a membrane pulling fixing plate, two couplers, a fixing and supporting assembly, two driving wheels, two driven wheels, two wheel tensioning and adjusting devices, a deep groove ball bearing, a synchronous belt and a synchronous belt pressing block, wherein the couplers comprise a bellows shaft, a first universal joint, a second universal joint, a third universal joint, a spline, a cross joint and a universal joint, one end of the bellows shaft is connected with the worm and gear speed reducer, the other end of the bellows shaft is connected with the first universal joint, the first universal joint is connected with the second universal joint through the cross joint, the spline, the universal joint and the third universal joint are sequentially connected, and the third universal joint is connected with the driving wheels.

Furthermore, the forming assembly comprises a transition hopper, a transition hopper support, a former support plate, a charging barrel, a guide foot and an adjustable handle, wherein the transition hopper is of a cone opening type, the former is of a similar cone curved surface, and the charging barrel is of a hollow cylinder.

Transition is fought and is fixed in the frame top with transition fill support, and the lower extreme incision aligns and is connected with the feed cylinder, and the former wraps up in the feed cylinder surface, and adjustable handle is fixed in the former backup pad with the former, and the feed cylinder is the lower extreme and extends to horizontal mechanism upper end always, and bilateral symmetry guide foot is connected to the feed cylinder bottom.

Further, seal and press the subassembly including indulging pressure mechanism, violently sealing the mechanism, wherein violently seal the mechanism and include violently sealing transmission, press and cut the device, violently seal transmission including swing dish, bearing frame, fisheye joint, connecting screw, press and cut the device and include profile of tooth sword, violently seal roller, radiation shield, blade holder, bearing, slide bar, connecting plate, profile of tooth sword is located and presss from both sides between the violently sealing roller and closes, violently seals the roller and connects gradually radiation shield, connecting plate and slide bar connection.

Furthermore, the electronic box comprises an emergency stop switch, a power main switch, a power first switch, a power second switch, a power third switch, a temperature control display, an electronic box touch screen and a fan.

Furthermore, the material receiving assembly comprises a guide rod, a support plate, an inclined material receiving part and a support, one end of the support plate is connected with the inclined material receiving hopper, the other end of the support plate is connected with the guide rod, and the guide rod is connected with the support and fixed at the lowest end of the rack.

Has the advantages that: the continuous packaging equipment for the yam slices has the advantages of high automation degree and simplicity in operation, the finished packaged products are directly formed by integrating blanking and bag making, and uniform packaging can be effectively guaranteed by adopting automatic blanking of a machine.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural diagram according to an embodiment of the present invention;

fig. 2 is a front view of a prototype apparatus according to an embodiment of the present invention;

FIG. 3 is a side de-shrouding view of an apparatus according to an embodiment of the present invention;

fig. 4 is a front view of a film passing mechanism according to an embodiment of the present invention;

fig. 5 is a structural diagram of a film removing mechanism according to an embodiment of the present invention;

fig. 6 is a structural diagram of a film conveying mechanism according to an embodiment of the present invention;

fig. 7 is a structural diagram of a transverse cutting mechanism according to an embodiment of the present invention.

In the figure: 11-a film passing mechanism 115-a roller 116-a film receiving plate 1151-a first roller 1152-a second roller 1153-a third roller 1154-a fourth roller 1155-a fifth roller 1156-a sixth roller 1158-an eighth roller, 111-marking machine 1111-motor 1113-transverse baffle 1114-cover 1115-rubber baffle, 112-inflatable shaft device 1121-inflatable shaft 1122-first gear 1123-second gear 1124-connecting shaft, 113-crossbar device 1131-crossbar 1132-sliding bearing seat 1133-sliding rod 1134-guide rod seat, 114-photoelectric sensing device 1141-first polished rod 1142-three second polished rods 1143-photoelectric sensor 1146-photoelectric sliding rod 1147-support; 12-a film feeding mechanism motor 121, a worm gear speed reducer 1221242 universal joint 1243-a spline 1244-a universal joint 123-a conveyor belt mechanism;

2-forming component 21-transition hopper 22-former 23-charging barrel 24-guide foot 27-adjustable handle;

31-longitudinal pressing mechanism 32-transverse sealing mechanism 3211-swing disc shaft 3213-fisheye joint 3214-connecting screw rod, and pressing and cutting device 322 comprises 32-21 serrated knives 3221, 3222-transverse sealing roller 3223-heat insulating sleeve 3226-sliding rod 3227-connecting plate;

4-a material receiving component 41, an inclined material receiving hopper 42, a supporting plate 43, a guide rod 44 and a bracket;

5-electric box 53-first switch, second switch and third switch of power supply 54-temperature control display 55-electric box touch screen 56-emergency stop switch 57-main switch of power supply.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1 to 7, in the embodiment of the present invention, a continuous packaging apparatus for yam slices, as shown in fig. 1, includes a frame, a film conveying assembly, a forming assembly 2, a press sealing assembly, a receiving assembly 4, and an electronic box 5, and is characterized in that the press sealing assembly 3 includes a longitudinal pressing mechanism 31 and a transverse sealing mechanism 32, the forming assembly 2 includes a transition hopper 21, a former 22, a material cylinder 23, and a guide pin 24, the electronic box 5 is on the right side of the frame, the forming assembly 2 is on the uppermost end of the frame, the longitudinal pressing mechanism 31 and the transverse sealing mechanism 32 are sequentially located below the frame, the receiving assembly 4 is located on the lowermost end of the frame, as shown in fig. 1, the forming assembly includes a transition hopper 21, a former 22, a material cylinder 23, a guide pin 24, a transition hopper support, a former support plate, and an adjustable handle 27, wherein the transition hopper 21 is of a conical opening type, the former 22 is of a conical curved, the feed cylinder 23 is hollow cylinder, and transition is fought 21 and is fixed in the frame top with transition fill support, and the lower extreme incision aligns and be connected with feed cylinder 23, and former 22 wraps up in feed cylinder 23 surface, and adjustable handle 27 is fixed in the former backup pad with former 22, and feed cylinder 23 is the lower extreme and extends to horizontal sealing mechanism 32 upper end all the time, and guide foot 24 is connected to the feed cylinder bottom, and the guide foot is bilateral symmetry.

The film conveying assembly comprises a film conveying mechanism 11 and a film conveying mechanism 12 as shown in FIG. 1, the film conveying mechanism comprises a coding machine 111, an air-swelling shaft device 112, a cross rod device 113, a photoelectric sensing device 114, a supporting baffle plate assembly, ten rollers 115, a plurality of roller shafts and a film receiving plate 116 as shown in FIG. 4, a packaging film is fixed on the air-swelling shaft device 112 and passes through a gap between a first roller 1151 and a second roller 1152, the packaging film is stretched by the first roller 1151 and changes to the vertical direction, the packaging film passes through a third roller 1153, the cross rod device 113 and a fourth roller 1154 upwards and sequentially, the packaging film is stretched to the horizontal direction, the packaging film passes through a fifth roller 1155 and a film receiving plate sequentially, the fifth roller 1156 changes to the vertical direction, the film receiving plate 116 is arranged on the inner side of the packaging film, the packaging film is coded by the coding machine 111, coding is completed and then passes through a sixth roller 1156, a seventh roller 1156 and a film receiving plate (not shown in the figure), And an eighth roller 1158, wherein the packaging film is stretched and straightened to form a horizontal direction, and the packaging film passes through the photoelectric sensing device 114, passes through a ninth roller and a tenth roller (not shown in the figure), is connected with the forming assembly 2, and is subjected to film passing.

As shown in FIG. 5, the marking machine 111 comprises two speed reducing motors 1111, a marking machine support plate, a transverse baffle 1113, a cover 1114 and a rubber plate baffle 1115, the marking machine is mounted on the marking machine support plate, the transverse baffle 1113 is connected to the frame, the outer end of the transverse baffle 1113 is connected with the cover 1114, the inner end of the transverse baffle 1113 is connected with the rubber plate baffle 1115, and the rubber plate baffle 1115 is attached to the marking machine.

As shown in fig. 5, the inflatable shaft device 112 includes an inflatable shaft 1121, a first gear 1122, a second gear 1123, and a connecting shaft 1124, the first gear 1122 is engaged with the second gear 1123, the first gear 1122 is connected with the inflatable shaft 1121, the second gear is connected with the connecting shaft and fixed on the frame, it should be understood that there is a gear combination to prevent the inflatable shaft from self-slipping and rotating, the cylindrical shaft formed by the remaining packaging film changes with the use of the packaging film, and the inflatable shaft can be large or small and can be attached to the packaging film at any time.

As shown in fig. 5, the crossbar device 113 includes a crossbar 1131, sliding bearing seats 1132, a sliding bar 1133, and guide bar seats 1134, the two ends of the crossbar 1131 are connected to the sliding bearing seats 1132, the bearing seats 1132 are connected to the sliding bar 1133, and the sliding bar 1133 is connected to the guide bar seats 1134 and fixed on the machine frame.

As shown in fig. 5, the photoelectric sensing device 114 includes a first polished rod 1141, three second polished rods 1142, a photoelectric sensor 1143, a photoelectric bracket (not shown), a linear bearing (not shown), a photoelectric sliding rod 1146, and a support 1147, wherein the first polished rod 1141 is below the second polished rod 1142, the first polished rod 1141 and the photoelectric sensor 1142 are fixed on the photoelectric bracket, the second polished rod 1142 is fixed on the bracket, the inner side of the bracket is connected to the photoelectric bracket 11, the outer side of the bracket is connected to the linear bearing, the linear bearing is connected to the photoelectric sliding rod 1146, the photoelectric sliding rod 1146 is connected to the support 1147 and fixed to the frame, it should be understood that the photoelectric sensor can sense whether the machine is coated with a film, so as to reduce the idle of the machine, and the photoelectric sliding rod can move.

As shown in fig. 6, the membrane conveying assembly includes a membrane passing mechanism and a membrane feeding mechanism, the membrane feeding mechanism includes a motor 121, two worm and gear speed reducers 122 with the same specification, a membrane pulling fixing plate, two couplers, a fixing support assembly, and a conveyor belt mechanism 123, wherein the conveyor belt mechanism includes two driving wheels, two driven wheels, two wheel tensioning adjusting devices, a deep groove ball bearing, a synchronous belt, and a synchronous belt pressing block, the coupler 124 includes a bellows shaft (not shown), a first universal joint 1242, a second universal joint, a third universal joint (with the same specification of the three universal joints), a spline (1243), a cross joint (not shown), a universal joint 1244, one end of the bellows shaft (not shown) is connected with the worm and gear speed reducer 122, the other end is connected with the first universal joint 1242, the first universal joint is connected with the second universal joint by the cross joint, and a spline, a universal joint and a universal joint are sequentially connected, And a third universal joint connected to the belt mechanism 123.

The electric box 5 as shown in fig. 1 comprises a first switch, a second switch, a third switch 53, a temperature control display 54, an electric box touch screen 55, an emergency stop switch 56, a main power switch 57 and a fan (not shown).

As shown in fig. 1, the receiving assembly 4 includes an inclined receiving hopper 41, a supporting plate 42, a guide rod 43, and a bracket 44, wherein one end of the supporting plate 42 is connected to the inclined receiving hopper 41, the other end is connected to the guide rod 43, and the guide rod 43 is connected to the bracket and fixed at the lowest end of the rack.

As shown in fig. 7, the sealing and pressing assembly includes a longitudinal pressing mechanism 31 and a transverse sealing mechanism 32, wherein the transverse sealing mechanism 32 includes a transverse sealing transmission device 321 and a pressing and cutting device 322, the transverse sealing transmission device 321 includes a swing disc 3211, a bearing seat, a fisheye joint 3213, and a connecting screw 3214, the pressing and cutting device 322 includes a toothed knife 3221, a transverse sealing roller 3222, a heat insulating sleeve 3223, a knife holder, a bearing, a sliding rod 3226, and a connecting plate 3227, the toothed knife 3221 is clamped between the transverse sealing rollers 3222, the transverse sealing roller 3222 is sequentially connected with the heat insulating sleeve 3223 and the connecting plate 3227, and the connecting plate 3227 is connected with the sliding rod 3226.

The working principle is that the packaging film is arranged on the film passing mechanism 11, passes through the former 22 and the material cylinder 23 through coding and photoelectric sensing, is fed by the film feeding mechanism 12 and penetrates out of the guide leg 24, the yam pieces positioned on the transition hopper 21 enter the packaging film under the guide of the material cylinder 23, the vertical sealing and packaging film of the vertical sealing and sealing mechanism 31 is vertically pressed, the horizontal sealing and packaging film of the horizontal sealing mechanism 32 is horizontally pressed, and the packaging film cut by the horizontal sealing mechanism 32 enters the material receiving assembly 4 to finish bag making and packaging.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims

1. An apparatus for continuously packaging yam slices, comprising: frame, electronic box, fortune membrane module, shaping subassembly, press seal subassembly, connect the material subassembly, its characterized in that, seal and press the subassembly including indulging pressing means, violently sealing the mechanism, the shaping subassembly includes transition fill, former, feed cylinder, guide pin, the electronic box is in the frame right side, the shaping subassembly is the top in the frame, indulge pressing means, violently seal the below that the mechanism is located the frame in proper order, connect the material subassembly to be located the bottom of frame, the packaging film setting is on fortune membrane module, and former, feed cylinder are passed and are worn out from the guide pin to the front end of packaging film, and the yam piece that is located unloading portion gets into in the packaging film under the guide of feed cylinder, and the vertical packaging film that seals of vertical seal mechanism, violently seal the mechanism and transversely seal the packaging film, and get into through the packaging film that violently seals the mechanism and cut and connect the material subassembly, wherein, fortune membrane module includes that membrane mechanism, send membrane mechanism, crosses the membrane mechanism and includes that, The packaging film passes through a first roller and a second roller in sequence, the first roller straightens the packaging film, the second roller changes the packaging film to a vertical direction, the packaging film passes through a third roller, a transverse rod device and a fourth roller upwards in sequence, the packaging film is straightened into a horizontal direction, the packaging film passes through a fifth roller and a film connecting plate in sequence, the fifth roller changes the film into the vertical direction, the film connecting plate is arranged on the inner side of the packaging film, the packaging film is subjected to code printing by a code printing device, the code printing is finished and then passes through a sixth roller, a seventh roller and an eighth roller in sequence, the packaging film is straightened into a horizontal direction, the packaging film is detected by a photoelectric sensing device, passes through a ninth roller and a tenth roller and is connected with a forming assembly to finish film passing, send membrane mechanism to include motor, two worm gear speed reducers that the specification is the same, draw membrane fixed plate, two couplings, fixed stay subassembly, two action wheels, two from driving wheel, two wheel tensioning adjusting device, deep groove ball bearing, hold-in range compact heap, motor and worm gear speed reducer are on drawing the membrane fixed plate, and the motor provides power, handles through the worm gear speed reducer, connects the coupling transmission to action wheel operation, and the action wheel is under, and from the driving wheel last, the action wheel with from driving wheel with be connected with the hold-in range, hold-in range compact heap and packaging film, accomplish and send the membrane.

2. The automatic packaging machine according to claim 1, characterized in that: the film conveying assembly comprises a film passing mechanism and a film conveying mechanism, the film passing mechanism comprises a supporting baffle assembly, an air expansion shaft device, ten rollers, a plurality of roller shafts, a cross rod device, a film receiving plate, a photoelectric sensing device and a coding machine, wherein the coding machine comprises two speed reducing motors, a coding machine supporting plate, a transverse baffle plate, a cover and a rubber plate separation blade, the coding machine is installed on the coding machine supporting plate, the transverse baffle plate is connected to the frame, the outer end of the transverse baffle plate is connected with the cover, the inner end of the transverse baffle plate is connected with the rubber plate separation blade, and the rubber plate separation blade is attached to the coding machine.

3. The automatic packaging machine according to claim 1, characterized in that: the film conveying assembly comprises a film passing mechanism and a film conveying mechanism, the film passing mechanism comprises a supporting baffle assembly, an air expansion shaft device, ten rollers, a plurality of roller shafts, a cross rod device, a film receiving plate, a photoelectric sensing device and a code printing device, wherein the air expansion shaft device comprises an air expansion shaft, a first gear, a second gear and a connecting shaft, the first gear is meshed with the second gear, the first gear is connected with the air expansion shaft, and the second gear is connected with the connecting shaft and fixed on the rack.

4. The automatic packaging machine according to claim 1, characterized in that: the film conveying assembly comprises a film passing mechanism and a film conveying mechanism, the film passing mechanism comprises a supporting baffle assembly, an air expansion shaft device, ten rollers, a plurality of roller shafts, a cross rod device, a film receiving plate, a photoelectric sensing device and a code printing device, the cross rod device comprises a cross rod, sliding bearing seats, a sliding rod and a guide rod seat, the sliding bearing seats are connected to two ends of the cross rod, the bearing seats are connected with the sliding rod, and the sliding rod is connected with the guide rod seat and fixed on the rack.

5. The automatic packaging machine according to claim 1, characterized in that: the film conveying assembly comprises a film passing mechanism and a film conveying mechanism, the film passing mechanism comprises a supporting baffle assembly, an air expansion shaft device, ten rollers, a plurality of roller shafts, a cross rod device, a film receiving plate, a photoelectric sensing device and a code printing device, wherein the photoelectric sensing device comprises a first polished rod, three second polished rods, a photoelectric sensor, a photoelectric support, a linear bearing, a photoelectric slide rod and a support, the first polished rod is arranged below the second polished rod, the first polished rod and the photoelectric sensor are fixed on the photoelectric support, the second polished rod is fixed on the support, the inner side of the support is connected with the photoelectric support, the outer side of the support is connected with the linear bearing, the linear bearing is connected with the photoelectric slide rod, and the photoelectric slide rod is connected with the support and fixed on.

6. The automatic packaging machine according to claim 1, characterized in that: the membrane conveying assembly comprises a membrane passing mechanism and a membrane conveying mechanism, the membrane conveying mechanism comprises a motor, two worm and gear speed reducers with the same specification, a membrane pulling fixing plate, two couplers, a fixed supporting assembly, two driving wheels, two driven wheels, two wheel tensioning adjusting devices, a deep groove ball bearing, a synchronous belt and a synchronous belt pressing block, the couplers comprise a bellows shaft, a first universal joint, a second universal joint, a third universal joint, a spline, a cross joint and a universal joint, one end of the bellows shaft is connected with the worm and gear speed reducer, the other end of the bellows shaft is connected with the first universal joint, the first universal joint is connected with the second universal joint through the cross joint, the spline, the universal joint and the third universal joint are sequentially connected, and the third universal joint is connected with the driving wheels.

7. The automatic packaging machine according to claim 1, characterized in that: the shaping subassembly is fought including the transition, the transition is fought support, the former backup pad, the feed cylinder, the guide foot, adjustable handle, wherein the transition is fought and is the circular cone opening type, the former is the type circular cone curved surface, the feed cylinder is hollow cylinder, the transition is fought to be fixed in the frame top with the transition support of fighting, the lower extreme incision aligns and is connected with the feed cylinder, the former wraps up in the feed cylinder surface, adjustable handle is fixed in the former backup pad with the former, the feed cylinder is the lower extreme always and is extended to horizontal sealing mechanism upper end, bilateral symmetry guide foot is connected to the feed cylinder bottom.

8. The automatic packaging machine according to claim 1, characterized in that: the sealing and pressing assembly comprises a longitudinal pressing mechanism and a transverse sealing mechanism, wherein the transverse sealing mechanism comprises a transverse sealing transmission device and a pressing and cutting device, the transverse sealing transmission device comprises a swing disc, a bearing seat, a fisheye joint and a connecting screw rod, the pressing and cutting device comprises a toothed cutter, a transverse sealing roller, a heat insulation sleeve, a cutter holder, a bearing, a sliding rod and a connecting plate, the toothed cutter is positioned between the transverse sealing rollers and clamped, the transverse sealing roller is sequentially connected with the heat insulation sleeve and the connecting plate, and the connecting plate is connected with the sliding rod.

9. The automatic packaging machine according to claim 1, characterized in that: the electronic box comprises an emergency stop switch, a power main switch, a power first switch, a power second switch, a power third switch, a temperature control display, an electronic box touch screen and a fan.

10. The automatic packaging machine according to claim 1, characterized in that: the material receiving assembly comprises a guide rod, a support plate, an inclined material receiving hopper and a support, one end of the support plate is connected with the inclined material receiving hopper, the other end of the support plate is connected with the guide rod, and the guide rod is connected with the support and fixed at the lowest end of the rack.