CN216611813U - Small bottle packaging machine - Google Patents

Abstract

A vial packaging machine comprising a transport frame, a mounting frame and a control cabinet; the film conveying assembly is used for conveying a film, the middle sealing assembly is used for middle sealing the film, the material conveying assembly is used for conveying materials, the end sealing assembly is used for end sealing the film, and the feeding assembly is used for feeding; the feeding assembly comprises a feeding groove, a feeding conveyor belt, a feeding driving mechanism and a bottle reversing piece; the feeding conveyor belt is arranged in the feeding groove and is connected with the feeding driving mechanism; the bottle falling device is characterized in that a bottle falling groove is formed in the belt body of the feeding conveying belt, the bottle falling piece is installed on one side of the feeding conveying belt, and the bottle falling piece stretches out of the upper portion of the feeding conveying belt and is located behind the bottle falling groove. Bottle through setting up the groove of falling bottle and falling bottle spare at the material loading conveyer belt, fall the small bottle, liberation hand labor power improves production efficiency.

Description

Small bottle packaging machine

Technical Field

The utility model relates to the technical field of packaging machines, in particular to a small bottle packaging machine.

Background

The packaging machine belongs to an automatic continuous shrink packaging device, which comprises a continuous packaging machine which has very strong packaging capacity, can be suitable for various specifications for food and non-food packaging, and is suitable for shrink packaging of any shrink film. The packaging machine generally comprises the steps of feeding, packaging, heat sealing, cutting and forming and the like.

In the actual production process, a bottle with a small volume needs to be packaged, and in the packaging process, the bottle needs to be laid down to enable the bottle to be in a horizontal lying state from an upright state so as to ensure the packaging effect. However, in the prior art, the small bottles need to be manually placed, which wastes labor force and is not beneficial to improving production efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the background art and provides a small bottle packaging machine which is used for laying down small bottles by arranging a bottle inverting groove and a bottle inverting part on a feeding conveyor belt, so that the manual labor force is liberated, and the production efficiency is improved.

In order to solve the problems, the utility model is realized according to the following technical scheme:

the utility model relates to a small bottle packaging machine, which comprises a transport rack, a mounting rack and a control cabinet;

the film conveying assembly is used for conveying a film, the middle sealing assembly is used for middle sealing the film, the material conveying assembly is used for conveying materials, the end sealing assembly is used for end sealing the film, and the feeding assembly is used for feeding;

the feeding assembly comprises a feeding groove, a feeding conveyor belt, a feeding driving mechanism and a bottle reversing piece;

the feeding conveyor belt is arranged in the feeding groove and is connected with the feeding driving mechanism;

the bottle falling device is characterized in that a bottle falling groove is formed in the belt body of the feeding conveying belt, the bottle falling piece is installed on one side of the feeding conveying belt, and the bottle falling piece stretches out of the upper portion of the feeding conveying belt and is located behind the bottle falling groove.

Preferably, the bottle pouring piece comprises a supporting part and a rail part, wherein the supporting part is fixed on one side of the feeding conveyor belt and is provided with the rail part;

the rail part stretches out and stretches across the feeding conveyor belt.

Preferably, the end sealing assembly comprises an end sealing driving mechanism, an upper end sealing rotating shaft, a lower end sealing rotating shaft, an upper tool apron and a lower tool apron, wherein the end sealing driving mechanism is arranged on the end sealing rack;

the upper knife seat is provided with an upper sealing part and an upper knife, and the lower knife seat is provided with a lower sealing part corresponding to the upper sealing part and a lower knife corresponding to the upper knife;

the upper tool apron is installed on the upper end sealing rotating shaft, and the lower tool apron is installed on the lower end sealing rotating shaft;

the end seal driving mechanism is respectively linked with the upper end seal rotating shaft and the lower end seal rotating shaft so as to drive the upper tool apron and the lower tool apron to rotate.

Preferably, the end sealing driving mechanism comprises an end sealing motor, an upper end sealing gear and a lower end sealing gear;

the upper end sealing gear is mounted at both ends of the upper end sealing rotating shaft, and the lower end sealing gear is mounted at both ends of the lower end sealing rotating shaft;

the upper end sealing gear and the lower end sealing gear which are arranged on the same side are meshed with each other;

the end sealing motor is connected with the lower end sealing rotating shaft.

Preferably, the film feeding assembly comprises a placing guide roller, a plurality of groups of traction guide rollers and an adjusting roller which are arranged on the control cabinet;

the placing guide roller is used for placing the rolled film;

the drawing guide roller is used for drawing the rolled film from the placing guide roller to the regulating roller so as to stretch the rolled film;

the adjusting roller is used for drawing the stretched film to the conveying device.

Preferably, the film feeding assembly further comprises an adjusting plate, the adjusting plate is provided with an adjusting rack, and the adjusting plate is provided with an installation groove;

the tip of regulating roll passes the mounting groove, just regulating gear is installed to the tip one side of regulating roll, regulating gear meshing regulation rack.

Preferably, the material conveying assembly comprises a material conveying plate, a film closing plate and a film closing rod;

the material conveying plate is arranged on the mounting rack, and the film combining plate is arranged at the feed end of the material conveying plate;

the film combining plate is provided with the film combining rod, and the adjusting roller pulls the film to the film combining rod;

the plate surface of the combined membrane plate is provided with two groups of limited membrane plates which are vertically arranged on two sides of the plate surface of the combined membrane plate.

Preferably, the middle sealing assembly comprises two groups of heat sealing mechanisms which are arranged in front and back;

the heat sealing mechanism comprises a heat sealing driving assembly, a heat sealing disc and a film drawing disc, wherein the heat sealing driving assembly is arranged on the heat sealing frame body;

the heat-sealing driving assembly comprises a heat-sealing motor, a first heat-sealing rotating shaft and a second heat-sealing rotating shaft;

the first heat-sealing rotating shaft is provided with a first heat-sealing gear, and the second heat-sealing rotating shaft is provided with a second heat-sealing gear and the heat-sealing disc;

the heat-sealing motor is connected with the first heat-sealing rotating shaft, and the first heat-sealing rotating shaft is meshed with the second heat-sealing gear through the first heat-sealing gear to drive the second heat-sealing rotating shaft;

the film drawing disc is installed on the heat-seal frame body through a film drawing rotating shaft, and a film running gap is reserved between the film drawing disc and the heat-seal disc.

Preferably, the film pressing device also comprises a film pressing component arranged on the control cabinet;

the film pressing assembly comprises a film pressing rack and a film pressing block;

the two groups of film pressing blocks are arranged in the film pressing rack in parallel, and a film walking gap is reserved between the two groups of film pressing blocks.

Preferably, the device also comprises a feeding assembly arranged on the mounting rack;

the feeding component comprises a feeding plate, a feeding motor, a feeding rotating shaft and a feeding sweeping head;

the feeding plate is connected with the material conveying plate;

the feeding motor is connected with the feeding rotating shaft, the feeding sweeping head is installed on the feeding rotating shaft, and the feeding sweeping head is arranged above the feeding plate.

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

1. the bottle pouring grooves and the bottle pouring pieces are arranged on the feeding conveyor belt to pour the bottles, so that manual labor force is liberated, and production efficiency is improved;

2. according to the utility model, the single-side sealing part and the single-side cutter are arranged on the upper cutter seat and the lower cutter seat of the end sealing component, and the single-side sealing and the single-side cutter are completed by rotating the upper cutter seat and the lower cutter seat, so that the packaging bag of a package material has the effects that one end is sealed and the other end is not sealed.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only the embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts. Wherein:

FIG. 1 is a schematic structural view of a handpiece apparatus (a visual film feeding assembly and a middle sealing assembly) according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a head assembly (a visual end seal assembly and a feed assembly) according to one embodiment of the present invention;

FIG. 3 is a side schematic view of a handpiece apparatus of one embodiment of the present invention;

FIG. 4 is a schematic structural view of a feed assembly and a segment seal assembly according to one embodiment of the present invention;

FIG. 5 is a schematic structural view of a potting assembly of one embodiment of the present invention;

FIG. 6 is a schematic end seal view of an end seal assembly according to one embodiment of the present invention;

FIG. 7 is a schematic illustration of an end sealing process of an end sealing assembly according to an embodiment of the present invention;

FIG. 8 is a schematic structural view of a loading assembly of one embodiment of the present invention;

fig. 9 is a schematic view of a bottle inverting member of one embodiment of the present invention.

Wherein: the device comprises a mounting frame 1, a control cabinet 2, an end sealing assembly 3, an upper end sealing rotating shaft 30, an upper tool apron 31, an upper sealing part 32, an upper cutter 33, a lower end sealing rotating shaft 34, a lower tool apron 35, a lower sealing part 36, a lower cutter 37, an upper end sealing gear 38, a lower end sealing gear 39, a placing guide roller 41, a traction roller 42, an adjusting roller 43, an adjusting plate 44, a mounting groove 45, an adjusting rack 46, an adjusting gear 47, a material conveying plate 51, a film combining plate 52, a film combining rod 53, a film limiting plate 54, a middle sealing assembly 6, a first heat sealing rotating shaft 61, a second heat sealing rotating shaft 62, a first heat sealing gear 63, a second heat sealing gear 64, a heat sealing plate 65, a film drawing plate 66, a film drawing rotating shaft 67, a film pressing frame 71, a film pressing block 72, a feeding assembly 8, a feeding plate 81, a feeding rotating shaft 82, a feeding sweeping head 83, a conveying frame 9, a feeding trough 91, a feeding conveying belt 92, a feeding driving mechanism 93, a bottle pouring piece, a supporting part 941, A rail portion 942.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation only and are not to be construed as limitations of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the actual production process, a bottle with a small volume needs to be packaged, and in the packaging process, the bottle needs to be laid down to enable the bottle to be in a horizontal lying state from an upright state so as to ensure the packaging effect. However, in the prior art, the small bottles need to be manually placed, which wastes labor force and is not beneficial to improving production efficiency. In order to solve the above problems, the present application proposes a vial packing machine, as shown in fig. 1-3, comprising a transport rack 9, a mounting rack 1 and a control cabinet 2;

the film conveying assembly for conveying the film and the middle sealing assembly 6 for middle sealing the film are installed on the control cabinet 2, the material conveying assembly for conveying the material and the end sealing assembly 3 for end sealing the film are installed on the installation rack 1, and the feeding assembly for feeding is installed on the transportation rack 9;

in this embodiment, the production flow of the handpiece device is as follows: firstly, materials to be packaged are sent into a material conveying assembly through a feeding assembly, the film conveying assembly conveys films to the material conveying assembly to enable the films to wrap the materials, then the material conveying assembly conveys the materials to a middle sealing assembly 6, the middle sealing assembly 6 performs middle sealing on the films, the films and the materials after the middle sealing are synchronously conveyed to an end sealing assembly 3, and the end sealing assembly 3 is used for end sealing.

As shown in fig. 8 and 9, the feeding assembly comprises a feeding groove 91, a feeding conveyor belt, a feeding driving mechanism 93 and a bottle pouring member;

the feeding conveyor belt is arranged in the feeding groove 91 and is connected with the feeding driving mechanism 93;

the bottle falling device is characterized in that a bottle falling groove is formed in the belt body of the feeding conveying belt, the bottle falling piece is installed on one side of the feeding conveying belt, and the bottle falling piece stretches out of the upper portion of the feeding conveying belt and is located behind the bottle falling groove.

In this embodiment, the conveying rack 9 is provided with a feeding trough 91, a feeding conveyor belt is installed in the feeding trough 91, and the feeding conveyor belt is driven by power provided by a feeding driving mechanism 93, so that materials such as small bottles are conveyed to the conveying assembly;

further, by providing the inverted bottle groove on the belt of the feeding conveyor to let the vials fall down, in this embodiment, the cross section of the inverted bottle groove can be understood as v-shaped, when the feeding conveyor conveys the upright vials through the inverted bottle groove, the vials are firstly inclined forwards under the transportation action and then fall backwards under the transportation action, which is equivalent to that the vials firstly experience a drop from high to low, and the drop causes the vials to incline forwards and then immediately experience a low to high climbing slope, so that the vials fall backwards completely;

furthermore, in order to prevent the small bottle from still standing after passing through the bottle inverting groove, the application is additionally provided with a bottle inverting part, and the head of the small bottle is blocked by the bottle inverting part so that the small bottle is inverted by the bottle inverting part.

Preferably, the bottle inverting part comprises a support portion 941 and a rail portion 942, the support portion 941 is fixed to one side of the feeding conveyor belt, and the rail portion 942 is installed;

the rail portion 942 extends across the loading conveyor.

In this embodiment, the supporting portions 941 serve as a fixed support, and the rail portions 942 span over the feeding conveyor belt, and it should be noted that the height between the rail portions 942 and the feeding conveyor belt 92 should be smaller than the height of the vials to ensure that the rail portions 942 can be laid down the vials.

Further, in order to adjust the height of the rail portion 942, the supporting portion 941 is designed as a plate structure with a sliding slot, and the rail portion 942 can be locked at any height by the cooperation of the locking member and the sliding slot.

Preferably, the end sealing assembly 3 comprises an end sealing driving mechanism mounted on the end sealing rack, an upper end sealing rotating shaft 30, a lower end sealing rotating shaft 34, an upper tool apron 31 and a lower tool apron 35;

the upper knife holder 31 is provided with an upper sealing part 32 and an upper cutter 33, and the lower knife holder 35 is provided with a lower sealing part 36 corresponding to the upper sealing part 32 and a lower cutter 37 corresponding to the upper cutter 33;

the upper tool apron 31 is installed on the upper end sealing rotating shaft 30, and the lower tool apron 35 is installed on the lower end sealing rotating shaft 34;

the end sealing driving mechanism is respectively linked with the upper end sealing rotating shaft 30 and the lower end sealing rotating shaft 34 so as to drive the upper tool apron 31 and the lower tool apron 35 to rotate.

In this embodiment, the end sealing driving mechanism drives the upper end sealing rotating shaft 30 to drive the upper tool apron 31 to rotate, drives the lower end sealing rotating shaft 34 to drive the lower tool apron 35 to rotate, the rotating direction of the upper tool apron 31 is opposite to that of the lower tool apron 35, when the upper tool apron 31 and the lower tool apron 35 synchronously rotate to be in butt joint, the upper sealing part 32 and the lower sealing part 36 are combined together to form a seal, the upper cutter 33 and the lower cutter 37 are not combined together, but the gap between the upper cutter 33 and the lower cutter 37 is small, so that a bagged film can still be cut;

in the present embodiment, as shown in fig. 6 and 7, the specific process of forming one end seal and one end unseal of the end seal assembly 3 is as follows:

as shown in fig. 7, when the first material comes in, the end a of the first material receives sealing and cutting, the upper cutter 33 and the lower cutter 37 are not combined together and cannot form sealing, but a cut a1 is formed, and the upper sealing part 32 and the lower sealing part 36 are combined together, so that the end a of the first material forms a seal a 2; seal a2 is located in front of cut a 1; the end B of the first material then enters, forming cut B1 and seal B2 at the end B, so that seal a2 at the end A and cut B1 at the end B form the single-ended seal of the first material, while seal B2 acts as the single-ended seal of the second material.

Preferably, as shown in fig. 4, 6 and 7, the end sealing driving mechanism comprises an end sealing motor, an upper end sealing gear 38 and a lower end sealing gear 39;

the upper end sealing gear 38 is mounted at both ends of the upper end sealing rotating shaft 30, and the lower end sealing gear 39 is mounted at both ends of the lower end sealing rotating shaft 34;

the upper end sealing gear 38 and the lower end sealing gear 39 which are arranged on the same side are meshed with each other;

the end seal motor is connected to the lower end seal shaft 34.

In this embodiment, the end sealing driving mechanism drives the upper tool apron 31 and the lower tool apron 35 in such a way that the end sealing motor drives the lower end sealing rotating shaft 34 to rotate, so as to drive the lower end sealing gear 39 to rotate, and the upper end sealing gear 38 and the lower end sealing gear 39 are meshed with each other, so as to drive the upper end sealing rotating shaft 30 to rotate, so that the upper tool apron 31 and the lower tool apron 35 are driven to rotate synchronously in different directions.

Preferably, as shown in fig. 1-3, the film feeding assembly comprises a guide preventing roller 41, a plurality of groups of drawing rollers 42 and a regulating roller 43 which are arranged on the control cabinet 2;

the guide roller 41 is used for placing the rolled film;

the drawing roll 42 is used for drawing the rolled film from the guide preventing roll 41 to the regulating roll 43 so as to stretch the rolled film;

the adjusting roller 43 is used for drawing the stretched film to the material conveying device.

In this embodiment, the rolled film is placed on the guide preventing roller 41, then stretched and pulled to the regulating roller 43 by the pulling of the plurality of sets of pulling rollers 42, and finally pulled to a material conveying device for packaging materials by the regulating roller 43.

Preferably, the film feeding assembly further comprises an adjusting plate 44, an adjusting rack 46 is mounted on the adjusting plate 44, and an installation groove 45 is formed in the adjusting plate 44;

the end part of the adjusting roller 43 penetrates through the mounting groove 45, an adjusting gear 47 is mounted on one side of the end part of the adjusting roller 43, and the adjusting gear 47 is meshed with the adjusting rack 46.

In this embodiment, the end of the adjusting roller 43 passes through the mounting groove 45, and the adjusting gear 47 mounted on the end of the adjusting roller 43 engages with the adjusting rack 46, so that the adjusting roller 43 can be fixed on the adjusting plate 44 by the engaging force;

further, the regulating plate 44 is the slope setting, and the mounting groove 45 is rectangular notch simultaneously, rotates adjusting roller 43, utilizes adjusting gear 47 to roll on adjusting rack 46, drives adjusting roller 43 slide in mounting groove 45 can realize adjusting roller 43's height, is convenient for pull the film better to the material transporting device.

Preferably, the material conveying assembly comprises a material conveying plate 51, a film combining plate 52 and a film combining rod 53;

the material conveying plate 51 is mounted on the mounting rack 1, and the film combining plate 52 is mounted at the feed end of the material conveying plate 51;

the film combining plate 52 is provided with the film combining rod 53, and the adjusting roller 43 pulls the film to the film combining rod 53;

the limited membrane plates 54 are arranged on the surface of the membrane combination plate 52, and two groups of the limited membrane plates 54 are vertically arranged on two sides of the surface of the membrane combination plate 52.

In this embodiment, the adjusting roller 43 draws the film to the film combining rod 53, the film combining rod 53 shrinks the two sides of the film into a channel between two sets of film limiting plates 54, the film is conveyed to the middle sealing assembly 6 along the film combining plate 52, and the film combining rod 53 and the film limiting plates 54 are matched to realize that the two sides of the flat film shrink towards the middle, so that the two sides of the film are attached together, thereby facilitating heat sealing;

further, the materials enter the film combining plate 52 first between the material conveying plates 51, and at the moment, the two sides of the film shrink towards the middle to just wrap the materials.

Preferably, as shown in fig. 5, the middle sealing assembly 6 comprises two sets of heat sealing mechanisms arranged in front and back;

the heat sealing mechanism comprises a heat sealing driving assembly, a heat sealing disc 65 and a film drawing disc 66 which are arranged on the heat sealing frame body;

the heat-sealing driving assembly comprises a heat-sealing motor, a first heat-sealing rotating shaft 61 and a second heat-sealing rotating shaft 62;

the first heat-sealing rotating shaft 61 is provided with a first heat-sealing gear 63, and the second heat-sealing rotating shaft is provided with a second heat-sealing gear 64 and the heat-sealing disc 65;

the heat-sealing motor is connected with the first heat-sealing rotating shaft 61, and the first heat-sealing rotating shaft 61 is meshed with a second heat-sealing gear 64 through a first heat-sealing gear 63 to drive the second heat-sealing rotating shaft 62;

draw membrane dish 66 through draw membrane pivot 67 install in heat-seal support body, draw membrane dish 66 with leave between the heat-seal dish 65 and have a film clearance of walking.

In this embodiment, the heat-sealing motor provides power to drive the first heat-sealing rotating shaft 61 to rotate, the first heat-sealing gear 63 is meshed with the second heat-sealing gear 64 to drive the second heat-sealing rotating shaft 62 to rotate, and the second heat-sealing rotating shaft 62 is provided with the heat-sealing disc 65, so that the heat-sealing disc 65 can be driven to rotate;

further, draw membrane dish 66 to be in draw the drive of membrane pivot 67 down also can take place to rotate, because the heat-seal dish 65 with draw and leave between the membrane dish 66 and walk the membrane clearance, the both sides of film shrink to the centre, make the both sides limit laminating of film be in the same place, after the laminating, two sides of film get into and walk the membrane clearance, are carried out the heat-seal by heat-seal dish 65, make the film form in the middle by the banding, the bag body that both ends were not sealed, simultaneously because the rotation of heat-seal dish 65 with draw membrane dish 66 still can exert power to the banding, drive the bag body and continue to advance.

Preferably, as shown in fig. 1, the film pressing device further comprises a film pressing assembly mounted on the control cabinet 2;

the film pressing assembly comprises a film pressing rack 71 and a film pressing block 72;

the two groups of film pressing blocks 72 are arranged in parallel on the film pressing machine frame 71, and the film walking gap is reserved between the two groups of film pressing blocks 72.

In this embodiment, the film is by well-sealed back, can continue to get into the film clearance of walking between two sets of pressure membrane pieces 72, and pressure membrane piece 72 still can slightly press the bag body simultaneously, extrudees and is more than the air, prevents the bag body bag-expanding.

Preferably, as shown in fig. 4, the device further comprises a feeding assembly 8 mounted on the mounting frame 1;

the feeding component 8 comprises a feeding plate 81, a feeding motor, a feeding rotating shaft 82 and a feeding sweeping head 83;

the feeding plate 81 is connected with the material conveying plate 51;

the feeding motor is connected with the feeding rotating shaft 82, the feeding sweeping head 83 is installed on the feeding rotating shaft 82, and the feeding sweeping head 83 is arranged above the feeding plate 81.

In this embodiment, after the material is sealed at the middle and end, the material is packed in the independent bag and enters the feeding plate 81, and then the feeding motor drives the feeding shaft 82 to rotate, so as to drive the feeding sweeping head 83 to rotate, and the feeding sweeping head 83 sweeps the independent bag on the feeding plate 81 to complete the final feeding.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, so that any modification, equivalent change and modification made to the above embodiment according to the technical spirit of the present invention are within the scope of the technical solution of the present invention.

Claims (10)

1. A vial packaging machine characterized by: comprises a transportation rack, an installation rack and a control cabinet;

the film conveying assembly is used for conveying a film, the middle sealing assembly is used for middle sealing the film, the material conveying assembly is used for conveying materials, the end sealing assembly is used for end sealing the film, and the feeding assembly is used for feeding;

the feeding assembly comprises a feeding groove, a feeding conveyor belt, a feeding driving mechanism and a bottle reversing piece;

the feeding conveyor belt is arranged in the feeding groove and is connected with the feeding driving mechanism;

the bottle falling device is characterized in that a bottle falling groove is formed in the belt body of the feeding conveying belt, the bottle falling piece is installed on one side of the feeding conveying belt, and the bottle falling piece stretches out of the upper portion of the feeding conveying belt and is located behind the bottle falling groove.

2. The vial packaging machine of claim 1, wherein:

the bottle falling part comprises a supporting part and a rail part, wherein the supporting part is fixed on one side of the feeding conveyor belt and is provided with the rail part;

the rail part stretches out and stretches across the feeding conveyor belt.

3. The vial packaging machine of claim 1, wherein:

the end sealing component comprises an end sealing driving mechanism arranged on the end sealing rack, an upper end sealing rotating shaft, a lower end sealing rotating shaft, an upper tool apron and a lower tool apron;

the upper knife seat is provided with an upper sealing part and an upper knife, and the lower knife seat is provided with a lower sealing part corresponding to the upper sealing part and a lower knife corresponding to the upper knife;

the upper tool apron is installed on the upper end sealing rotating shaft, and the lower tool apron is installed on the lower end sealing rotating shaft;

the end seal driving mechanism is respectively linked with the upper end seal rotating shaft and the lower end seal rotating shaft so as to drive the upper tool apron and the lower tool apron to rotate.

4. The vial packaging machine of claim 3, wherein:

the end sealing driving mechanism comprises an end sealing motor, an upper end sealing gear and a lower end sealing gear;

the upper end sealing gear is mounted at both ends of the upper end sealing rotating shaft, and the lower end sealing gear is mounted at both ends of the lower end sealing rotating shaft;

the upper end sealing gear and the lower end sealing gear which are arranged on the same side are meshed with each other;

the end sealing motor is connected with the lower end sealing rotating shaft.

5. The vial packaging machine of claim 1, wherein:

the film feeding assembly comprises a placing guide roller, a plurality of groups of traction guide rollers and adjusting rollers which are arranged on the control cabinet;

the placing guide roller is used for placing the rolled film;

the drawing guide roller is used for drawing the rolled thin film from the placing guide roller to the adjusting roller so as to stretch the rolled thin film;

the adjusting roller is used for drawing the stretched film to the material conveying assembly.

6. The vial packaging machine of claim 5, wherein:

the film feeding assembly further comprises an adjusting plate, the adjusting plate is provided with an adjusting rack, and the adjusting plate is provided with an installation groove;

the tip of regulating roll passes the mounting groove, just regulating gear is installed to the tip one side of regulating roll, regulating gear meshing regulation rack.

7. The vial packaging machine of claim 5, wherein:

the material conveying assembly comprises a material conveying plate, a film combining plate and a film combining rod;

the material conveying plate is arranged on the mounting rack, and the film combining plate is arranged at the feed end of the material conveying plate;

the film combining plate is provided with the film combining rod, and the adjusting roller pulls the film to the film combining rod;

the plate surface of the combined membrane plate is provided with two groups of limited membrane plates which are vertically arranged on two sides of the plate surface of the combined membrane plate.

8. The vial packaging machine of claim 1, wherein:

the middle sealing assembly comprises two groups of heat sealing mechanisms which are arranged in front and back;

the heat sealing mechanism comprises a heat sealing driving assembly, a heat sealing disc and a film drawing disc, wherein the heat sealing driving assembly is arranged on the heat sealing frame body;

the heat-sealing driving assembly comprises a heat-sealing motor, a first heat-sealing rotating shaft and a second heat-sealing rotating shaft;

the first heat-sealing rotating shaft is provided with a first heat-sealing gear, and the second heat-sealing rotating shaft is provided with a second heat-sealing gear and a heat-sealing disc;

the heat-sealing motor is connected with the first heat-sealing rotating shaft, and the first heat-sealing rotating shaft is meshed with the second heat-sealing gear through the first heat-sealing gear to drive the second heat-sealing rotating shaft;

the film drawing disc is installed on the heat-seal frame body through a film drawing rotating shaft, and a film running gap is reserved between the film drawing disc and the heat-seal disc.

9. The vial packaging machine of claim 8, wherein:

the film pressing component is arranged on the control cabinet;

the film pressing assembly comprises a film pressing rack and a film pressing block;

the two groups of film pressing blocks are arranged in the film pressing rack in parallel, and a film walking gap is reserved between the two groups of film pressing blocks.

10. The vial packaging machine of claim 7, wherein:

the feeding component is arranged on the mounting rack;

the feeding component comprises a feeding plate, a feeding motor, a feeding rotating shaft and a feeding sweeping head;

the feeding plate is connected with the material conveying plate;

the feeding motor is connected with the feeding rotating shaft, the feeding sweeping head is installed on the feeding rotating shaft, and the feeding sweeping head is arranged above the feeding plate.

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