CN114933075B

CN114933075B - Packing device for producing high-temperature-resistant biodegradable plastic

Info

Publication number: CN114933075B
Application number: CN202210855269.2A
Authority: CN
Inventors: 申禧峰
Original assignee: Xiongxian Liya Packing Material Co ltd
Current assignee: Xiongxian Liya Packing Material Co ltd
Priority date: 2022-07-20
Filing date: 2022-07-20
Publication date: 2022-11-22
Anticipated expiration: 2042-07-20
Also published as: CN114933075A

Abstract

The invention relates to the technical field of packaging equipment, and provides a packaging device for producing high-temperature-resistant biodegradable plastics, which comprises a first transmission belt, a film winding mechanism, a bag winding mechanism, a guide mechanism, a cutting mechanism, a second transmission belt and a paper tube circulation mechanism, wherein the paper tube circulation mechanism comprises a rotary disc, a clamping die, a circulation channel and a first ejector piece, a groove is formed in the rotary disc, a first magnet is arranged in the groove, the clamping die is attracted into the groove by virtue of the first magnet, an accommodating groove is formed in the clamping die, the first ejector piece conveys a paper tube into the film winding mechanism by virtue of the clamping die, the paper tube subjected to film winding pushes the clamping die into the circulation channel, the paper tube subjected to film winding enters a second transmission belt by virtue of the groove without the clamping die, and the clamping die enters another groove by virtue of the circulation channel. Through the technical scheme, the problem of low production cost caused by the adoption of automatic equipment in the paper tube feeding process in the production process of the preservative film in the related technology is solved.

Description

Packaging device for producing high-temperature-resistant biodegradable plastic

Technical Field

The invention relates to the technical field of packaging equipment, in particular to a packaging device for producing high-temperature-resistant biodegradable plastics.

Background

The preservative film is widely applied in daily life of people, is mainly used for cleaning and preserving food, and is usually rolled into a cylinder and placed in a paper box when being used.

In the whole production process of the product, the preservative film needs to be rolled on a paper tube. In the whole process, the paper tube is usually required to be placed at a designated position, and then the preservative film is wound on the paper tube, in the step, two modes are usually adopted, wherein one mode is to manually place the paper tube at the designated position, and the other mode is to place the paper tube at the designated position by equipment; the former wastes time and labor, and the latter adopts the existing equipment in the market, so that the production cost of an enterprise is high, and the development of the enterprise is severely limited.

Disclosure of Invention

The invention provides a packaging device for producing high-temperature-resistant biodegradable plastics, which solves the problem of low production cost caused by the adoption of automatic equipment in a paper tube feeding process in the production process of preservative films in the related technology.

The technical scheme of the invention is as follows: packing plant is used in production of high temperature resistant biodegradable plastics, include first transmission band, around membrane mechanism, around bag mechanism, guide mechanism, cutting mechanism and second transmission band, it is right to wind membrane mechanism the fiber container winding plastic wrap of first transmission band transmission, wind bag mechanism to the fiber container winding packaging film after around the membrane, guide mechanism with cutting mechanism auxiliary production, the second transmission band is used for conveying the product after packing, still includes fiber container circulation mechanism, fiber container circulation mechanism includes carousel, card mould, circulation passageway and first ejection piece, the recess of placing the packing back product is seted up to the carousel, be provided with first magnet in the recess, the card mould with the help of first magnet actuation in the recess, the holding tank of placing the fiber container is seted up to the card mould, first ejection piece with the help of the card mould sends the fiber container into in the membrane mechanism, the fiber container ejection after the membrane after the card mould gets into in the circulation passageway, the fiber container after the film is with the help of not having the card mould the recess gets into in the second transmission band, the card mould gets into by a recess, the material for another recess.

As a further technical scheme, the paper tube circulating mechanism further comprises a first suction cup arranged at the pushing top end of the first pushing piece, and the first suction cup is communicated with an external negative pressure device.

As a further technical scheme, the rotary disc is in a shape of a circular cake, the circulation channel is in a shape of a half ring, an inlet of the circulation channel faces the groove with the clamping die, and an outlet of the circulation channel faces the groove without the clamping die.

As a further technical scheme, the paper tube circulating mechanism further comprises a first support plate, the first ejector and the circulating channel are arranged on the first support plate, the first support plate is located on the side of the rotary table, and an inlet of the circulating channel is provided with a notch for avoiding a pushing end of the first ejector.

As a further technical scheme, the paper tube circulating mechanism further comprises a second ejector, a second support plate and a second suction cup, the second ejector and the first ejector are located on opposite sides of the rotary table, the second suction cup is arranged at the ejector end of the second ejector and communicated with an external negative pressure device, the second support plate is used for supporting the second ejector, the second suction cup attracts the clamping die through the second ejector, and the clamping die enters the groove from the circulating channel through the second ejector and the second suction cup.

As a further technical scheme, the paper tube circulating mechanism further comprises a support, the rotary disc is rotatably arranged on the support, a through hole is formed in the support, and the second suction disc penetrates through the through hole by means of the pushing of the second pushing piece and then attracts and clamps the clamping die.

As a further technical scheme, the number of the grooves is twice that of the clamping die, and the length of the clamping die is smaller than that of the grooves.

As a further technical scheme, still include support and slide, be provided with the slip module on the support, the slide with the help of the slip module is in slide on the support, guiding mechanism includes first extensible member and clamping jaw, first extensible member is located just have first flexible end on the slide, the clamping jaw is located first flexible serving, cutting mechanism includes second extensible member and hot broken filament, the second extensible member is located just have the flexible end of second on the slide, hot broken filament is located the flexible serving of second.

As a further technical scheme, the plastic wrap film rolling device comprises an auxiliary film rolling mechanism, wherein the auxiliary film rolling mechanism comprises an ejector rod, a press roller, an auxiliary plate and a spring, the auxiliary plate is arranged on the support, the ejector rod penetrates through the auxiliary plate, the press roller is arranged at the end part of the ejector rod and used for rolling the plastic wrap on the paper tube, the spring is sleeved outside the ejector rod, one end of the spring is abutted to the auxiliary plate, and the other end of the spring is abutted to the end part of the ejector rod.

As a further technical scheme, supplementary film mechanism of rolling up still includes mounting panel, second magnet and electro-magnet, the second magnet is located keep away from on the ejector pin the one end of compression roller, the mounting panel is located on the support, the electro-magnet is located just electricity connection external power source on the mounting panel, the actuation after the electro-magnet circular telegram the second magnet.

The working principle and the beneficial effects of the invention are as follows: compared with the prior art, the first conveying belt is obliquely arranged, the feeding end is higher than the discharging end, the first conveying belt is used for conveying the paper tube, the film winding mechanism is provided with the preservative film roll after the paper tube is conveyed to the film winding mechanism from the first conveying belt, and the preservative film is wound on the paper tube by the film winding mechanism and is finally wound to a proper thickness specification; then the bag winding mechanism winds the packaging film to the outside of the paper tube until the packaging film completely covers the preservative film, wherein in the film winding and bag winding processes, the guide mechanism is used for drawing the preservative film and the packaging film to enter the outside of the paper tube, and the cutting mechanism is used for cutting the preservative film and the packaging film; after the packaging film is wound outside the paper tube, the packaged product can enter the second conveying belt, and the feeding end of the second conveying belt is higher than the discharging end, so that the product can roll under the action of self weight, and the energy loss of the packaging device can be reduced; in order to improve the automation of the packaging device, the packaging device further comprises a paper tube circulation mechanism, the paper tube circulation mechanism comprises a rotary disc, a clamping die, a circulation channel and a first ejection piece, the rotary disc is rotatably arranged, a plurality of grooves are uniformly formed in the outer edge of the rotary disc, packaged products can be placed in the grooves, first magnets are arranged in the grooves, the clamping die is made of iron, nickel or cobalt, the clamping die is attracted in the grooves by means of the first magnets, a containing groove is formed in the clamping die, the paper tube which is not wound with a preservative film can be placed in the containing groove, the inner wall of the containing groove is completely attached to the outer wall of the paper tube, in the rotation process of the rotary disc, as the feeding end of a first conveying belt is higher than the discharging end, the paper tube enters the containing groove of the clamping die from the first conveying belt, the paper tube which enters the clamping die can rotate along with the rotary disc until the paper tube rotates to a designated position, then the first ejection piece pushes the paper tube into the film circulation mechanism, the paper tube is wound by the film winding mechanism, after the film is wound, the paper tube is packaged until the paper tube is formed, the paper tube is extruded, the labor intensity of the paper tube returns to the manual ejection mode that the paper tube returns to the production process, and the manual ejection process that the paper tube returns to the manual production process that the manual production efficiency is greatly reduced.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is an isometric illustration of the invention as a whole;

FIG. 2 is a front view of FIG. 1;

FIG. 3 is a right side view of FIG. 1;

FIG. 4 is a schematic view of FIG. 1 taken at another angle and measured on an equal axis;

FIG. 5 is a schematic view of the structure of FIG. 1 with the first support plate, the first ejector and the first suction cup hidden;

FIG. 6 is a schematic diagram of a portion of the structure of FIG. 5;

FIG. 7 is a schematic view of the structure of the joint between the turntable and the support in the present invention;

FIG. 8 is a schematic view of the structure of FIG. 7 at another angle;

in the figure:

1. the device comprises a first conveying belt, 2, a film winding mechanism, 3, a bag winding mechanism, 4, a guide mechanism, 5, a cutting mechanism, 6, a second conveying belt, 7, a paper tube circulating mechanism, 8, a rotary table, 9, a clamping mold, 10, a circulating channel, 11, a first ejector, 12, a groove, 13, a first magnet, 14, a first suction cup, 15, a first support plate, 16, a second ejector, 17, a second support plate, 18, a second suction cup, 19, a support, 20, a support, 21, a sliding plate, 22, a first telescopic piece, 23, a clamping jaw, 24, a second telescopic piece, 25, a hot-cutting wire, 26, an auxiliary film winding mechanism, 27, an ejector rod, 28, a compression roller, 29, an auxiliary plate, 30, a spring, 31, a mounting plate, 32, a second magnet, 33 and an electromagnet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall relate to the scope of protection of the present invention.

As shown in fig. 1 to 8, this embodiment provides a packaging device for producing high temperature resistant biodegradable plastics, including first transmission belt 1, around membrane mechanism 2, around bag mechanism 3, guide mechanism 4, cutting mechanism 5 and second transmission belt 6, wrap plastic wrap around the fiber container that membrane mechanism 2 transmits to first transmission belt, wrap the packaging film around the fiber container after bag mechanism 3 is to wrapping around the membrane, guide mechanism 4 and cutting mechanism 5 assist in production, second transmission belt 6 is used for conveying the product after the packing, still include fiber container circulation mechanism 7, fiber container circulation mechanism 7 includes carousel 8, card mould 9, circulation passageway 10 and first ejection piece 11, carousel 8 sets up the recess 12 of placing the product after the packing, be provided with first magnet 13 in the recess 12, card mould 9 attracts in recess 12 with the help of first magnet 13, card mould 9 sets up the holding tank of placing the fiber container, first ejection piece 11 advances the fiber container in winding mechanism 2 with the help of card mould 9, the fiber container after winding around the membrane mechanism 9 does not take the advantage of first magnet 13, card mould 9 gets into the recess of the interior 10 of the card mould, the material that gets into the paper container in the card mould 9 with the second ejection mechanism 12, the second ejection piece 12 gets into the groove of the paper mould 12, the interior of card mould 9 gets into the material of the paper container of the card mould 12 with the card mould 12, the second ejection mechanism 12.

In the embodiment, the first conveying belt 1 is obliquely arranged, the feeding end is higher than the discharging end, the first conveying belt 1 is used for conveying a paper tube, after the paper tube is conveyed to the film winding mechanism 2 from the first conveying belt 1, the film winding mechanism 2 is provided with a preservative film roll, and the preservative film is wound on the paper tube by the film winding mechanism 2 and is finally wound to a proper thickness specification; then the bag winding mechanism 3 winds the packaging film to the outside of the paper tube until the packaging film completely covers the preservative film, wherein in the processes of film winding and bag winding, the guide mechanism 4 is used for drawing the preservative film and the packaging film to enter the outside of the paper tube, and the cutting mechanism is used for cutting the preservative film and the packaging film; after the packaging film is wound outside the paper tube, the packaged product can enter the second conveying belt 6, and the feeding end of the second conveying belt 6 is higher than the discharging end, so that the product can roll under the action of self weight, and the energy loss of the packaging device can be reduced; in order to improve the automation of the packaging device, the packaging device also comprises a paper tube circulating mechanism 7, the paper tube circulating mechanism 7 comprises a rotary disc 8, a clamping die 9, a circulating channel 10 and a first ejector 11, the rotary disc 8 is rotatably arranged, a plurality of grooves 12 are uniformly formed in the outer edge of the rotary disc 8, packaged products can be placed in the grooves 12, first magnets 13 are arranged in the grooves 12, the clamping die 9 is made of iron, nickel or cobalt, the clamping die 9 is attracted in the grooves 12 by the aid of the first magnets 13, accommodating grooves are formed in the clamping die 9, the paper tube which is not wound with preservative films can be placed in the accommodating grooves, the inner wall of the accommodating grooves is completely attached to the outer wall of the paper tube, and in the rotating process of the rotary disc 8, as the feeding end of the first conveying belt 1 is higher than the discharging end, the paper tube enters the accommodating groove of the clamping die 9 from the first conveying belt 1, the paper tube entering the clamping die 9 can rotate along with the rotary disc 8 until the paper tube rotates to a specified position, then the first ejector 11 pushes the paper tube into the film winding mechanism 2, the film winding mechanism 2 winds the paper tube with preservative films, after the film winding is completed, the bag winding mechanism 3 winds the paper tube with bags again until a product is formed, then the ejector end of the first ejector 11 returns, the clamping die 9 in the groove 12 is extruded in the returning process, the clamping die 9 enters the circulation channel 10, the clamping die 9 reenters the groove 12 to receive a new paper tube again, for the feeding mode of the paper tube, the labor intensity of workers is greatly reduced, and the production efficiency is improved.

In the embodiment, the paper tube forms a product which can be directly sold after the preservative film and the packaging bag are wound.

As shown in fig. 1 to 4, the paper tube circulating mechanism 7 further includes a first suction cup 14 disposed at the pushing end of the first pushing member 11, and the first suction cup 14 is communicated with an external negative pressure device.

In this embodiment, in order to further improve production efficiency, a first suction cup 14 may be disposed at the ejection end of the first ejector 11, the first suction cup 14 communicates with an external negative pressure device, the first ejector 11 still can push the paper tube to wind the film in the film winding mechanism 2, and after the bag winding is completed, the product may be sucked out by means of the first suction cup 14 and then returned to the groove 12 of the turntable 8, because at this time, the product will extrude the mold clamp 9 located in the groove 12 when entering the groove 12, the outer edge of the product just fits the inner wall of the groove 12, and in the rotation process of the turntable 8, the product will be separated from the groove 12 in the turntable 8 and enter the second conveyor belt 6.

As shown in fig. 1 to 4 and fig. 7 to 8, the turntable 8 is in a shape of a circular cake, the circulation channel 10 is in a shape of a half ring, an inlet of the circulation channel 10 faces the groove 12 with the mold clamp 9, and an outlet of the circulation channel 10 faces the groove 12 without the mold clamp 9.

In this embodiment, in order to further simplify the apparatus to improve efficiency, the rotating disc 8 is configured to be a circular cake shape, the groove 12 is opened on the outer circle of the rotating disc 8, and the groove 12 is in an even number form which is uniformly distributed, the circulation channel 10 is in a semicircular shape, the inlet of the circulation channel 10 faces the groove 12 with the mold 9, the outlet of the circulation channel 10 faces the groove 12 without the mold 9, and the inlet of the circulation channel 10 is higher than the outlet of the circulation channel 10, so that when the first ejector 11 can extrude the mold 9 out of the groove 12, the mold 9 can enter the circulation channel 10, and since the circulation channel 10 is in a semicircular shape, the mold 9 can exit from the outlet of the circulation channel 10 under the self-weight, and since the outlet of the circulation channel 10 faces the groove 12 without the mold 9, the mold 9 can enter the groove 12 and can be attracted in the groove 12 by the first magnet 13.

As shown in fig. 1 to 4, the paper tube circulating mechanism 7 further includes a first support plate 15, the first ejector 11 and the circulating channel 10 are both disposed on the first support plate 15, the first support plate 15 is located on the side of the rotary table 8, and an entrance of the circulating channel 10 is provided with a notch for avoiding a pushing top end of the first ejector 11.

In this embodiment, in order to guarantee that first ejector 11 and circulation passageway 10's relative position is fixed, set up first extension board 15 in carousel 8's side, first ejector 11 and circulation passageway 10 set up on first extension board 15, in order to dodge the tip of first ejector 11, can set up the opening at the entry of circulation passageway 10, just so can reduce the height of first ejector 11, and guarantee that the entry height of circulation passageway 10 and the height of recess 12 can not differ too much, avoid card mould 9 to take place great colliding with when dropping into in the circulation passageway 10.

As shown in fig. 1 to 4, the paper tube circulating mechanism 7 further includes a second ejector 16, a second support plate 17, and a second suction cup 18, the second ejector 16 and the first ejector 11 are located on opposite sides of the rotary table 8, the second suction cup 18 is disposed at an ejector end of the second ejector 16 and is communicated with an external negative pressure device, the second support plate 17 is used for supporting the second ejector 16, the second suction cup 18 sucks the card mold 9 with the aid of the second ejector 16, and the card mold 9 enters the groove 12 from the circulating channel 10 with the aid of the second ejector 16 and the second suction cup 18.

In this embodiment, in order to ensure that the card mold 9 can stably enter the groove 12 from the outlet in the circulation passage 10, the paper tube circulation mechanism 7 further includes a second ejector 16, a second support plate 17 and a second suction cup 18, the second support plate 17 is disposed on the symmetrical side of the rotary table 8 with respect to the first support plate 15, the second ejector 16 is disposed on the second support plate 17, and a second suction cup 18 is disposed on the ejector end of the second ejector 16, the second suction cup 18 communicates with an external negative pressure device, the second suction cup 18 moves the outlet of the circulation passage 10 by means of the ejector end of the second ejector 16, when the card mold 9 contacts the second suction cup 18, the second suction cup 18 sucks the card mold 9, and then enters the groove 12 with the card mold 9 in the retraction of the ejector end, once the card mold 9 enters the groove 12 and is sucked by the first magnet 13, the second suction cup 18 releases the card mold 9, and the second ejector 18 continues to retract the second ejector 16.

As shown in fig. 1 to 8, the paper tube circulating mechanism 7 further includes a bracket 19, the turntable 8 is rotatably disposed on the bracket 19, the bracket 19 is provided with a through hole, and the second suction cup 18 attracts the clamping mold 9 after penetrating through the through hole by means of the pushing of the second pushing member 16.

In this embodiment, in order to ensure the stable rotation of the turntable 8, the turntable 8 is disposed on the bracket 19, and the through hole is formed in the bracket 19, and the second suction cup 18 can pass through the through hole in the moving process, so that the space occupied by the whole device can be reduced, and the complexity of the whole device can also be reduced.

As shown in fig. 7 to 8, the number of the grooves 12 is twice that of the clamping die 9, and the length of the clamping die 9 is smaller than that of the grooves 12.

In this embodiment, in order to ensure that the paper tube can stably enter the clamping die 9 from the first conveying belt 1 and also ensure that the product enters the second conveying belt 6 from the grooves 12, the number of the grooves 12 can be twice that of the clamping die 9, and the length of the clamping die 9 is set to be smaller than that of the grooves 12.

As shown in fig. 5 to 6, further, the cutting machine further comprises a support 20 and a sliding plate 21, a sliding module is arranged on the support 20, the sliding plate 21 slides on the support 20 through the sliding module, the guiding mechanism 4 comprises a first telescopic part 22 and a clamping jaw 23, the first telescopic part 22 is arranged on the sliding plate 21 and has a first telescopic end, the clamping jaw 23 is arranged on the first telescopic end, the cutting mechanism 5 comprises a second telescopic part 24 and a thermal break wire 25, the second telescopic part 24 is arranged on the sliding plate 21 and has a second telescopic end, and the thermal break wire 25 is arranged on the second telescopic end.

In this embodiment, will wind membrane mechanism 2 and around bag mechanism 3 and set up on support 20, and still set up the slip module on support 20, slide 21 sets up on the slip module, and slide 21 can realize sliding on support 20 with the help of the slip module, guiding mechanism 4 includes first extensible member 22 and clamping jaw 23, the flexible direction and the gliding slip direction of first extensible member 22 are located the same plane, and two directions mutually perpendicular, after having added controller and drive power, just so can realize clamping and drawing the disconnection department of plastic wrap and the disconnection department of wrapping bag of clamping jaw 23, after drawing to the fiber container, the fiber container rotates and just can wrap up plastic wrap and wrapping bag on the surface, cutting mechanism 5 includes second extensible member 24 and hot wire 25, second extensible member 24 has the flexible end of second, the flexible direction of the flexible end of second is the same with the flexible direction of first flexible end, hot wire 25 sets up on the flexible end of second and connects the external power, hot wire 25 is used for handling plastic wrap and wrapping bag, the hot wire 25 is introduced and is blown out, also can realize the hot wire 25 after the hot break is introduced, the hot break is controlled.

As shown in fig. 6, further, the film rolling device further comprises an auxiliary film rolling mechanism 26, the auxiliary film rolling mechanism 26 comprises an ejector rod 27, a pressing roller 28, an auxiliary plate 29 and a spring 30, the auxiliary plate 29 is arranged on the support 20, the ejector rod 27 penetrates through the auxiliary plate 29, the pressing roller 28 is arranged at the end of the ejector rod 27 and is used for rolling the preservative film on the paper tube, the spring 30 is sleeved outside the ejector rod 27, one end of the spring abuts against the auxiliary plate 29, and the other end of the spring abuts against the end of the ejector rod 27.

In this embodiment, in order to ensure that the preservative film is wrapped outside the paper tube tightly, the device further comprises an auxiliary film rolling mechanism 26, the auxiliary film rolling mechanism 26 comprises an ejector rod 27, a compression roller 28, an auxiliary plate 29 and a spring 30, the auxiliary plate 29 is arranged on the support 20, the ejector rod 27 penetrates through the auxiliary plate 29, the compression roller 28 is arranged at the end of the ejector rod 27, and in the film winding process, the compression roller 28 is used for pressing the preservative film on the outer edge of the paper tube, the spring 30 is sleeved outside the ejector rod 27, one end of the spring 30 abuts against the auxiliary plate 29, and the other end of the spring abuts against the end of the ejector rod 27, so that the compression roller 28 can be ensured to tightly press the preservative film outside the paper tube.

As shown in fig. 6, the auxiliary film winding mechanism 26 further includes a mounting plate 31, a second magnet 32 and an electromagnet 33, the second magnet 32 is disposed on one end of the push rod 27 away from the press roller 28, the mounting plate 31 is disposed on the support 20, the electromagnet 33 is disposed on the mounting plate 31 and electrically connected to an external power source, and the electromagnet 33 attracts the second magnet 32 after being energized.

In this embodiment, the auxiliary film winding mechanism 26 further includes a mounting plate 31, a second magnet 32 and an electromagnet 33, the second magnet 32 is disposed at the other end of the push rod 27, the mounting plate 31 is disposed on the support 20, the electromagnet 33 is disposed on a surface of the mounting plate 31 facing the second magnet 32, the electromagnet 33 can be energized, and the electromagnet 33 has a magnetic force in an energized state to attract the second magnet 32.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. Packing plant is used in production of high temperature resistant biodegradable plastics, include first transmission band (1), around membrane mechanism (2), around bag mechanism (3), guide mechanism (4), cutting mechanism (5) and second transmission band (6), it is right to wind membrane mechanism (2) the fiber container winding plastic wrap of first transmission band (1) transmission, wind bag mechanism (3) to the fiber container winding packaging film after around the membrane, guide mechanism (4) with cutting mechanism (5) auxiliary production, second transmission band (6) are used for conveying the product after the packing, its characterized in that still includes fiber container circulation mechanism (7), the paper tube circulating mechanism (7) comprises a rotary disc (8), a clamping die (9), a circulating channel (10) and a first ejecting piece (11), a groove (12) for placing packaged products is formed in the rotary disc (8), a first magnet (13) is arranged in the groove (12), the clamping die (9) is attracted in the groove (12) through the first magnet (13), a containing groove for placing a paper tube is formed in the clamping die (9), the first ejecting piece (11) feeds the paper tube through the clamping die (9) into the film winding mechanism (2), the paper tube after film winding is ejected, the clamping die (9) enters the circulating channel (10), and the paper tube after film winding enters the groove (12) without the clamping die (9) In the second transmission band (6), card mould (9) with the help of circulation passageway (10) is by one in recess (12) gets into another recess (12), the material of card mould (9) is iron, nickel or cobalt.

2. The packaging device for the production of the high-temperature-resistant biodegradable plastic according to claim 1, wherein the paper tube circulating mechanism (7) further comprises a first suction disc (14) arranged at the pushing end of the first pushing member (11), and the first suction disc (14) is communicated with an external negative pressure device.

3. The packaging device for the production of high temperature resistant biodegradable plastics according to claim 2, characterized in that said rotating disc (8) is in the shape of a circular cake, said circulation channel (10) is in the shape of a semi-circle, the inlet of said circulation channel (10) is towards said groove (12) with said blocking die (9), and the outlet is towards said groove (12) without said blocking die (9).

4. The packaging device for producing the high-temperature-resistant biodegradable plastic according to claim 3, wherein the paper tube circulating mechanism (7) further comprises a first support plate (15), the first ejector (11) and the circulating channel (10) are arranged on the first support plate (15), the first support plate (15) is located on the side of the rotating disc (8), and an inlet of the circulating channel (10) is provided with a notch for avoiding an ejector end of the first ejector (11).

5. The packaging device for the production of the high temperature resistant biodegradable plastic according to claim 4, characterized in that the paper tube circulation mechanism (7) further comprises a second ejector (16), a second support plate (17) and a second suction cup (18), the second ejector (16) and the first ejector (11) are located at opposite sides of the rotary disc (8), the second suction cup (18) is arranged at the ejector end of the second ejector (16) and is communicated with an external negative pressure device, the second support plate (17) is used for supporting the second ejector (16), the second suction cup (18) is used for sucking the clamping mold (9) by means of the second ejector (16), and the clamping mold (9) enters the groove (12) from the circulation channel (10) by means of the second ejector (16) and the second suction cup (18).

6. The packaging device for the production of the high-temperature-resistant biodegradable plastic according to claim 5, wherein the paper tube circulating mechanism (7) further comprises a support (19), the turntable (8) is rotatably arranged on the support (19), a through hole is formed in the support (19), and the second suction cup (18) sucks the clamping die (9) after penetrating through the through hole by means of the pushing of the second pushing piece (16).

7. The packaging device for the production of the high temperature resistant biodegradable plastic according to claim 6, characterized in that the number of the grooves (12) is twice that of the clamping die (9), and the length of the clamping die (9) is smaller than that of the grooves (12).

8. The packaging device for the production of the high-temperature-resistant biodegradable plastic according to claim 1, further comprising a support (20) and a sliding plate (21), wherein a sliding module is arranged on the support (20), the sliding plate (21) slides on the support (20) by means of the sliding module, the guiding mechanism (4) comprises a first telescopic part (22) and a clamping jaw (23), the first telescopic part (22) is arranged on the sliding plate (21) and has a first telescopic end, the clamping jaw (23) is arranged on the first telescopic end, the cutting mechanism (5) comprises a second telescopic part (24) and a thermal break wire (25), the second telescopic part (24) is arranged on the sliding plate (21) and has a second telescopic end, and the thermal break wire (25) is arranged on the second telescopic end.

9. The packaging device for the production of the high-temperature-resistant biodegradable plastic according to claim 8, further comprising an auxiliary film rolling mechanism (26), wherein the auxiliary film rolling mechanism (26) comprises an ejector rod (27), a pressing roller (28), an auxiliary plate (29) and a spring (30), the auxiliary plate (29) is arranged on the support (20), the ejector rod (27) penetrates through the auxiliary plate (29), the pressing roller (28) is arranged at the end of the ejector rod (27) and is used for rolling the preservative film on the paper tube, the spring (30) is sleeved outside the ejector rod (27), one end of the spring abuts against the auxiliary plate (29), and the other end of the spring abuts against the end of the ejector rod (27).

10. The packaging device for the production of the high-temperature-resistant biodegradable plastic according to claim 9, wherein the auxiliary film rolling mechanism (26) further comprises a mounting plate (31), a second magnet (32) and an electromagnet (33), the second magnet (32) is arranged at one end, away from the pressing roller (28), of the ejector rod (27), the mounting plate (31) is arranged on the support (20), the electromagnet (33) is arranged on the mounting plate (31) and electrically connected with an external power supply, and the electromagnet (33) attracts the second magnet (32) after being electrified.