CN216509660U - Full-plastic film bale breaker - Google Patents

Abstract

The utility model discloses a full plastic film unpacking machine, which comprises a film cutting platform, wherein a first transfer platform and a second transfer platform are respectively arranged at two sides of the film cutting platform, a first material pushing component is arranged above the first transfer platform, a first driving mechanism is arranged below the first transfer platform, a second material pushing component is arranged above the film cutting platform, a second driving mechanism for driving the second material pushing component to move is arranged below the film cutting platform, a third material pushing component is arranged above the second transfer platform, a third driving mechanism for driving the third material pushing component to move is arranged below the second transfer platform, the first driving mechanism comprises a first translation frame, the first translation frame is arranged below the first transfer platform in a sliding manner, the first lifting frame is arranged on the first translation frame in a sliding manner, a first lifting driver for driving the first lifting frame to lift is arranged on the first translation frame, and a first material pushing component is fixedly connected with the first lifting frame. The all-plastic film unpacking machine has the advantages of compact integral structure, attractive appearance and the like.

Description

Full-plastic film bale breaker

Technical Field

The utility model relates to the technical field of food, medicine and other packaging mechanical equipment, in particular to a full-plastic film unpacking machine.

Background

The existing full-plastic film unpacking machine comprises a film cutting platform, a feeding platform and a discharging platform, wherein the feeding platform and the discharging platform are respectively arranged on two sides of the film cutting platform, the feeding platform and the discharging platform are butted to form a conveying table board, a feeding pushing mechanism is arranged on the feeding platform and used for pushing packing materials to move along the feeding platform, a packing material pushing mechanism is arranged between the feeding platform and the film cutting platform and used for pushing the packing materials on the feeding platform to the film cutting platform and pushing the packing materials on the film cutting platform to the discharging platform, and a discharging pushing mechanism is arranged on the discharging platform and used for pushing the packing materials to move along the discharging platform. The existing full plastic film has the following defects:

1) the transmission components of the feeding pushing mechanism, the packaging material pushing mechanism and/or the discharging pushing mechanism are mostly positioned above the conveying table board, so that the movement of the packaging material and the plastic film is influenced, and the overall appearance is not compact and beautiful;

2) the material pushing mechanism has unreasonable structural design, low material pushing efficiency and poor material pushing precision and stability.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of overcoming the defects of the prior art and provides the all-plastic film unpacking machine which is compact in overall structure and attractive in appearance.

In order to solve the technical problems, the utility model adopts the following technical scheme:

a full-plastic film bale breaker comprises a film cutting platform, wherein a first transfer platform and a second transfer platform are respectively arranged on two sides of the film cutting platform, a first material pushing component capable of translating and lifting is arranged above the first transfer platform, a first driving mechanism for driving the first material pushing component to move is arranged below the first transfer platform, a second material pushing component capable of translating is arranged above the film cutting platform, a second driving mechanism for driving the second material pushing component to move is arranged below the film cutting platform, a third material pushing component capable of translating and lifting is arranged above the second transfer platform, a third driving mechanism for driving the third material pushing component to move is arranged below the second transfer platform, the first driving mechanism comprises a first translation frame, a first lifting frame and a first translation drive for driving the first translation frame to translate, the first translation frame is slidably arranged below the first transfer platform, the first lifting frame is slidably arranged on the first translation frame, the first translation frame is provided with a first lifting drive used for driving the first lifting frame to lift, and the first material pushing component is fixedly connected with the first lifting frame.

As a further improvement of the above technical solution:

the first translation drive comprises a first belt pulley assembly and a first servo motor used for driving the first belt pulley assembly to operate, and the first translation frame is fixedly connected with a belt of the first belt pulley assembly.

The first material pushing components are arranged in a plurality, and the first material pushing components are arranged at intervals along the material pushing direction.

The second driving mechanism comprises a second translation frame and a second translation drive for driving the second translation frame to translate, a linear guide rail is arranged below the film cutting platform, the second translation frame is arranged on the linear guide rail in a sliding mode, and the second material pushing component is fixedly connected with the second translation frame.

The third driving mechanism comprises a third translation frame, a third lifting frame and a third translation drive for driving the third translation frame to translate, the third translation frame is arranged below the second transfer platform in a sliding mode, the third lifting frame is arranged on the third translation frame in a sliding mode, a third lifting drive for driving the third lifting frame to lift is arranged on the third translation frame, and the third material pushing component is fixedly connected with the third lifting frame.

The third translation drive comprises a third belt pulley assembly and a third servo motor for driving the third belt pulley assembly to run, and the third translation frame is fixedly connected with a belt of the third belt pulley assembly.

The third material pushing components are arranged in a plurality, and the third material pushing components are arranged at intervals along the material pushing direction.

And the middle part of the film cutting platform is provided with a separation strip which separates the film cutting platform into two packing material channels.

The second is transported the platform and is docked and has the deciduate platform, the top of deciduate platform is equipped with the fourth that can translate and go up and down and pushes away the material part, and the below is equipped with the fourth actuating mechanism who goes up and down to keep off the material subassembly and be used for driving the motion of fourth material part.

The fourth driving mechanism comprises a fourth translation frame, a fourth lifting frame and a fourth translation drive for driving the fourth translation frame to translate, the fourth translation frame is slidably arranged below the demoulding platform, the fourth lifting frame is slidably arranged on the fourth translation frame, a fourth lifting drive for driving the fourth lifting frame to lift is arranged on the fourth translation frame, and the fourth pushing component is fixedly connected with the fourth lifting frame.

Compared with the prior art, the utility model has the advantages that:

the utility model discloses a full-plastic film unpacking machine, which comprises the following film unpacking processes: the first pushing component moves forwards along the first transfer platform under the driving action of the first driving mechanism, and pushes the packing materials on the first transfer platform to the feeding side of the film cutting platform; then, the second pushing component moves forwards along the film cutting platform under the driving action of the second driving mechanism, and the wrapping materials on the first transfer platform are pushed onto the film cutting platform; after the wrapping material is cut by the film cutting platform, the wrapping material is pushed to a second transfer platform by other material pushing mechanisms; the third material pushing component moves forwards along the second transferring platform under the driving action of the third driving mechanism, and the packaging material on the second transferring platform is pushed to the film stripping station to realize film stripping. According to the all-plastic film bale breaker, the first driving mechanism is located below the first transferring platform, the second driving mechanism is located below the first transferring platform, and the third driving mechanism is located below the second transferring platform, so that the driving mechanism is prevented from influencing the movement of a wrapping material on the platform, and the all-plastic film bale breaker is compact in overall structure and attractive in appearance. The first pushing component is driven by a first translation drive in the process of pushing the packing materials, specifically, the first translation drive drives a first translation frame to translate forwards along the pushing direction, a first lifting frame moves synchronously with the first translation frame, and the first pushing component moves forwards synchronously with the first lifting frame to push the packing materials; after the package material is pushed to the right position, the first lifting drive drives the first lifting frame to ascend, the first material pushing component ascends to a position higher than the package material along with the first lifting frame, then the first material pushing component is enabled to translate backwards to the position above the original position under the driving action of the first translation drive, and then the first material pushing component descends to the original position under the driving action of the first lifting drive so as to push the package material again. This first actuating mechanism simple structure is compact, has the function of reciprocal propelling movement package material, design benefit. The all-plastic film bale breaker has compact integral structure and beautiful appearance.

Drawings

Fig. 1 is a schematic perspective view of the full plastic film unpacking machine according to the present invention.

Fig. 2 is a perspective view of the lower part of the all-plastic film unpacking machine according to the present invention.

Fig. 3 is an enlarged view at a in fig. 2.

Fig. 4 is an enlarged view at B in fig. 2.

Fig. 5 is an enlarged view at C in fig. 2.

Fig. 6 is a schematic top view of the lower portion of the all plastic film bag opener of the present invention.

Fig. 7 is a schematic structural diagram of a first material pushing component and a first driving mechanism of the all-plastic film unpacking machine.

Fig. 8 is a schematic structural diagram of a first translation frame and a first lifting frame of the all-plastic film unpacking machine.

Fig. 9 is a partial schematic view of the all plastic film bale breaker of the present invention.

Fig. 10 is a schematic structural view of a second pushing member and a second driving mechanism of the all-plastic film unpacking machine according to the present invention.

The reference numerals in the figures denote:

1. a film cutting platform; 11. a linear guide rail; 12. a dividing strip; 13. a packing material channel; 2. a first transfer platform; 21. a demoulding platform; 22. a fourth pushing member; 23. the material blocking component is lifted; 24. a fourth drive mechanism; 241. a fourth translation stage; 242. a fourth lifting frame; 243. a fourth translational drive; 244. fourth lifting drive; 3. a second transfer platform; 4. a first pushing member; 5. a first drive mechanism; 51. a first translation stage; 52. a first lifting frame; 53. a first translation drive; 531. a first pulley assembly; 532. a first servo motor; 54. a first lifting drive; 6. a second pushing member; 7. a second drive mechanism; 71. a second translation stage; 72. a second translation drive; 8. a third pushing member; 9. a third drive mechanism; 91. a third translation stage; 92. a third lifting frame; 93. a third translation drive; 931. a third pulley assembly; 932. a third servomotor; 94. and (5) driving the third lifting.

Detailed Description

The utility model will be described in further detail below with reference to the drawings and specific examples.

Fig. 1 to 10 show an embodiment of an all-plastic film bale breaker of the utility model, which comprises a film cutting platform 1, wherein a first transfer platform 2 and a second transfer platform 3 are respectively arranged at two sides of the film cutting platform 1, a first pushing component 4 capable of translating and lifting is arranged above the first transfer platform 2, a first driving mechanism 5 for driving the first pushing component 4 to move is arranged below the first transfer platform 2, a second pushing component 6 capable of translating is arranged above the film cutting platform 1, a second driving mechanism 7 for driving the second pushing component 6 to move is arranged below the film cutting platform, a third pushing component 8 capable of translating and lifting is arranged above the second transfer platform 3, a third driving mechanism 9 for driving the third pushing component 8 to move is arranged below the film cutting platform 1, the first driving mechanism 5 comprises a first translation frame 51, a first lifting frame 52 and a first translation driving 53 for driving the first translation frame 51 to translate, the first translation frame 51 is slidably arranged below the first transfer platform 2, the first lifting frame 52 is slidably arranged on the first translation frame 51, a first lifting drive 54 for driving the first lifting frame 52 to lift is arranged on the first translation frame 51, and the first material pushing component 4 is fixedly connected with the first lifting frame 52.

And (3) film removing process: the first pushing component 4 moves forwards along the first transfer platform 2 under the driving action of the first driving mechanism 5, and pushes the packing materials on the first transfer platform 2 to the feeding side of the film cutting platform 1; then, the second pushing component 6 moves forwards along the film cutting platform 1 under the driving action of the second driving mechanism 7, and pushes the packing materials on the first transfer platform 2 to the film cutting platform 1; after the wrapping material is cut into the film on the film cutting platform 1, the wrapping material is pushed to the second transfer platform 3 by other material pushing mechanisms; the third pushing component 8 moves forwards along the second transferring platform 3 under the driving action of the third driving mechanism 9, and pushes the packing materials on the second transferring platform 3 to the demoulding station to realize film dismantling. According to the all-plastic film unpacking machine, the first driving mechanism 5 is located below the first transferring platform 2, the second driving mechanism 7 is located below the first transferring platform 2, and the third driving mechanism 9 is located below the second transferring platform 3, so that the driving mechanism is prevented from influencing the movement of packing materials on the platform, and the all-plastic film unpacking machine is compact in overall structure and attractive in appearance. The first material pushing component 4 is driven by a first translation drive 53 in the process of pushing the packing materials, specifically, the first translation drive 53 drives a first translation frame 51 to translate forwards along the material pushing direction, a first lifting frame 52 moves synchronously with the first translation frame 51, and the first material pushing component 4 moves synchronously forwards along with the first lifting frame 52 to push the packing materials; after the package material is pushed to the right position, the first lifting drive 54 drives the first lifting frame 52 to ascend, the first material pushing component 4 ascends to the position higher than the package material along with the first lifting frame 52, then the first material pushing component 4 is translated backwards to the position above the original position under the drive action of the first translation drive 53, and then the first material pushing component is descended to the original position under the drive action of the first lifting drive 54 so as to push the package material again. This first actuating mechanism 5 simple structure is compact, has the function of reciprocal propelling movement package material, design benefit. The all-plastic film bale breaker has compact integral structure and beautiful appearance.

In this embodiment, as shown in fig. 3, 6 and 7, the first translation driver 53 includes a first pulley unit 531 and a first servo motor 532 for driving the first pulley unit 531 to operate, and the first translation frame 51 is fixedly connected to a belt of the first pulley unit 531. Specifically, plastic film bale breaker still includes the frame, and the top of frame is all located to film cutting platform 1, first transportation platform 2 and second transportation platform 3. The first driving mechanism 5, the second driving mechanism 7 and the third driving mechanism 9 are all arranged on the frame. The first belt pulley assembly 531 is arranged on the rack, a horizontal guide rail is arranged on the rack at a position corresponding to the first translation frame 51, the first translation frame 51 is slidably arranged on the horizontal guide rail, and when the first servo motor 532 drives the first belt pulley assembly 531 to rotate forwards, the first translation frame 51 moves forwards along the material pushing direction along with the belt of the first belt pulley assembly 531 so as to drive the first material pushing component 4 to push the packaging material forwards; when the first servomotor 532 drives the first pulley assembly 531 to rotate reversely, the first translating frame 51 moves backward along with the belt of the first pulley assembly 531, so as to drive the first pushing member 4 to move backward to the return home position. Simple structure and stable operation.

In this embodiment, the first pushing members 4 are provided in plurality, and each first pushing member 4 is arranged at intervals along the pushing direction. At least one packing material can be accommodated between the adjacent first material pushing components 4, so that the first material pushing components 4 can synchronously move to push a plurality of packing materials, and the pushing efficiency is improved. Specifically, the first pushing component 4 is a U-shaped rod, and two ends of the first pushing component 4 extend from two sides of the first transfer platform 2 to the lower side of the first transfer platform 2 respectively and are fixedly connected with the first lifting frame 52.

In this embodiment, as shown in fig. 9 and 10, the second driving mechanism 7 includes a second translation frame 71 and a second translation driver 72 for driving the second translation frame 71 to translate, a linear guide rail 11 is disposed below the film cutting platform 1, the second translation frame 71 is slidably disposed on the linear guide rail 11, and the second pushing member 6 is fixedly connected to the second translation frame 71. The linear guide rail 11 is arranged on the machine frame, the second translation drive 72 drives the second translation frame 71 to translate, and the second pushing component 6 synchronously translates along with the second translation frame 71 so as to push the packing materials forwards. The specific package material pushing process comprises the following steps: the second pushing component 6 is located on one side, far away from the film cutting platform 1, of the first transferring platform 2 at the initial position, firstly, the second translation driver 72 drives the second pushing component 6 to move forwards, and the second pushing component 6 pushes the packing materials on the first transferring platform 2 to the film cutting platform 1; after the wrapping materials are cut on the film cutting platform 1, the wrapping materials on the film cutting platform 1 are pushed to the second transfer platform 3 by other material pushing mechanisms; then, the second translation driver 72 drives the second pushing member 6 to move backward, so that the second pushing member 6 returns to the original position for pushing material again. The second pushing component 6 is L-shaped.

In this embodiment, as shown in fig. 4 and 6, the third driving mechanism 9 includes a third translation frame 91, a third lifting frame 92, and a third translation driving device 93 for driving the third translation frame 91 to translate, the third translation frame 91 is slidably disposed below the second transfer platform 3, the third lifting frame 92 is slidably disposed on the third translation frame 91, a third lifting driving device 94 for driving the third lifting frame 92 to lift is disposed on the third translation frame 91, and the third material pushing component 8 is fixedly connected to the third lifting frame 92. The third pushing component 8 is driven by a third translation driver 93 in the process of pushing the packing materials, specifically, the third translation driver 93 drives a third translation frame 91 to translate forwards along the pushing direction, the third lifting frame 92 moves synchronously with the third translation frame 91, and the third pushing component 8 moves synchronously forwards along with the third lifting frame 92 to push the packing materials; after the third material is pushed to the right position, the third lifting drive 94 drives the third lifting frame 92 to lift, and the third material pushing component 8 rises to a position higher than the wrapping material along with the third lifting frame 92; then, the third pushing member 8 is driven by the third translation driver 93 to translate back to the position above the original position, and then driven by the third elevation driver 94 to descend to the original position for pushing the packing material again.

In this embodiment, the third translation driver 93 includes a third pulley assembly 931 and a third servo motor 932 for driving the third pulley assembly 931 to operate, and the third translation frame 91 is fixedly connected to a belt of the third pulley assembly 931. The third pulley assembly 931 is arranged on the machine frame, a horizontal guide rail is arranged on the machine frame at a position corresponding to the third moving frame 91, the third moving frame 91 is slidably arranged on the horizontal guide rail, and when the third servo motor 932 drives the third pulley assembly 931 to rotate forward, the third moving frame 91 moves forward along the material pushing direction along with the belt of the third pulley assembly 931 so as to drive the third material pushing component 8 to push the package material forward; when the third servomotor 932 drives the third pulley assembly 931 to rotate reversely, the third moving frame 91 moves backward along with the belt of the third pulley assembly 931 to drive the third pushing member 8 to move backward to the return home position. Simple structure and stable operation.

In this embodiment, as shown in fig. 1, a plurality of third pushing members 8 are provided, and each third pushing member 8 is arranged at intervals along the pushing direction. At least one packing material can be accommodated between the adjacent third material pushing components 8, so that the plurality of third material pushing components 8 can synchronously move to push the plurality of packing materials, and the pushing efficiency is improved. Specifically, the third pushing component 8 is a U-shaped rod, and two ends of the third pushing component 8 extend from two sides of the second transferring platform 3 to the lower side of the second transferring platform 3 respectively and are fixedly connected with the third lifting frame 92.

In this embodiment, as shown in fig. 1, a separating strip 12 is disposed in the middle of the film cutting platform 1, and the separating strip 12 separates the film cutting platform 1 into two packing material channels 13. Two packing material passageways 13 are arranged on the film cutting platform 1, so that the film cutting platform 1 can simultaneously cut two packing materials, and the working efficiency is improved.

In this embodiment, as shown in fig. 1 and 5, the second transfer platform 3 is butted with a demoulding platform 21, a fourth pushing component 22 capable of translating and lifting is arranged above the demoulding platform 21, and a lifting material blocking component 23 and a fourth driving mechanism 24 for driving the fourth pushing component 22 to move are arranged below the demoulding platform 21. And the packing material on the stripping platform 21 is clamped by the fourth pushing component 22 and the lifting material blocking component 23, and then stripping is carried out. The specific process is that the lifting stop block of the lifting stop assembly 23 extends from the lower part of the demoulding platform 21 to the upper part of the demoulding platform 21, and the fourth driving mechanism 24 drives the fourth pushing component 22 to push the packing material forwards, so that the packing material is abutted against the lifting stop block of the lifting stop assembly 23, and the packing material is clamped between the fourth pushing component 22 and the lifting stop block of the lifting stop assembly 23. After the demoulding, the lifting stop block of the lifting stop assembly 23 descends to release the stop function, and the fourth pushing component 22 returns to the original position under the driving function of the fourth driving mechanism 24 for pushing again.

In this embodiment, as shown in fig. 5, the fourth driving mechanism 24 includes a fourth translation frame 241, a fourth lifting frame 242, and a fourth translation driving 243 for driving the fourth translation frame 241 to translate, the fourth translation frame 241 is slidably disposed below the film removing platform 21, the fourth lifting frame 242 is slidably disposed on the fourth translation frame 241, the fourth translation frame 241 is provided with a fourth lifting driving 244 for driving the fourth lifting frame 242 to lift, and the fourth material pushing component 22 is fixedly connected to the fourth lifting frame 242.

The fourth pushing component 22 is driven by a fourth translation driver 243 in the process of pushing the packing material, specifically, the fourth translation driver 243 drives the fourth translation frame 241 to translate forward along the pushing direction, the fourth lifting frame 242 moves synchronously with the fourth translation frame 241, and the fourth pushing component 22 moves synchronously forward with the fourth lifting frame 242 to push the packing material, so that the packing material is clamped between the fourth pushing component 22 and the lifting stop block of the lifting stop component 23; after the demoulding is finished, the fourth lifting drive 244 drives the fourth lifting frame 242 to lift, and the fourth material pushing component 22 rises to a position higher than the wrapping material along with the fourth lifting frame 242; then, the fourth pushing member 22 is driven by the fourth translation drive 243 to translate back to the position above the original position, and then driven by the fourth elevation drive 244 to descend to the original position for pushing the packing material again.

The lifting drive in this embodiment is a cylinder, oil cylinder or electric cylinder.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to be limited thereto. Those skilled in the art can make numerous possible variations and modifications to the present invention, or modify equivalent embodiments to equivalent variations, without departing from the scope of the utility model, using the teachings disclosed above. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention should fall within the protection scope of the technical scheme of the present invention, unless the technical spirit of the present invention departs from the content of the technical scheme of the present invention.

Claims (10)

1. A full plastic film bale breaker which characterized in that: including cutting membrane platform (1), the both sides of cutting membrane platform (1) are equipped with first transportation platform (2) and second transportation platform (3) respectively, but the top of first transportation platform (2) is equipped with first material pushing component (4) of translation and lift, and the below is equipped with and is used for driving first actuating mechanism (5) of pushing away the motion of material component (4), but the top of cutting membrane platform (1) is equipped with second material pushing component (6) of translation, and the below is equipped with and is used for driving second material pushing component (6) second actuating mechanism (7) of motion, but the top of second transportation platform (3) is equipped with third material pushing component (8) of translation and lift, and the below is equipped with third actuating mechanism (9) that are used for driving third material pushing component (8) motion, first actuating mechanism (5) are including first translation frame (51), first crane (52) and are used for driving first translation drive (53) of translation frame (51), the first translation frame (51) is slidably arranged below the first transfer platform (2), the first lifting frame (52) is slidably arranged on the first translation frame (51), a first lifting drive (54) used for driving the first lifting frame (52) to lift is arranged on the first translation frame (51), and the first material pushing component (4) is fixedly connected with the first lifting frame (52).

2. The all-plastic film unpacking machine according to claim 1, characterized in that: the first translation drive (53) comprises a first belt pulley assembly (531) and a first servo motor (532) for driving the first belt pulley assembly (531) to run, and the first translation frame (51) is fixedly connected with a belt of the first belt pulley assembly (531).

3. The all-plastic film unpacking machine according to claim 1, characterized in that: the first material pushing components (4) are arranged in a plurality, and the first material pushing components (4) are arranged at intervals along the material pushing direction.

4. The all-plastic film unpacking machine according to claim 1, characterized in that: the second driving mechanism (7) comprises a second translation frame (71) and a second translation drive (72) for driving the second translation frame (71) to translate, a linear guide rail (11) is arranged below the film cutting platform (1), the second translation frame (71) is arranged on the linear guide rail (11) in a sliding mode, and the second material pushing component (6) is fixedly connected with the second translation frame (71).

5. The all-plastic film unpacking machine according to claim 1, characterized in that: the third driving mechanism (9) comprises a third translation frame (91), a third lifting frame (92) and a third translation drive (93) for driving the third translation frame (91) to translate, the third translation frame (91) is slidably arranged below the second transfer platform (3), the third lifting frame (92) is slidably arranged on the third translation frame (91), a third lifting drive (94) for driving the third lifting frame (92) to lift is arranged on the third translation frame (91), and the third material pushing component (8) is fixedly connected with the third lifting frame (92).

6. The all-plastic film unpacking machine according to claim 5, characterized in that: the third translation drive (93) comprises a third belt pulley assembly (931) and a third servo motor (932) for driving the third belt pulley assembly (931) to operate, and the third translation frame (91) is fixedly connected with a belt of the third belt pulley assembly (931).

7. The all-plastic film unpacking machine according to claim 5, characterized in that: the number of the third material pushing components (8) is multiple, and the third material pushing components (8) are arranged at intervals along the material pushing direction.

8. An all-plastic film unpacking machine according to any one of claims 1 to 7, characterized in that: and a separating strip (12) is arranged in the middle of the film cutting platform (1), and the film cutting platform (1) is separated by the separating strip (12) to form two packing material channels (13).

9. An all-plastic film unpacking machine according to any one of claims 1 to 7, characterized in that: platform (3) are transported to the second and have deciduate platform (21) to the butt joint, but the top of deciduate platform (21) is equipped with the fourth that translation and lift and pushes away material part (22), and the below is equipped with fourth actuating mechanism (24) that lift dam subassembly (23) and be used for driving the fourth and push away the material part (22) motion.

10. An all-plastic film unpacking machine as set forth in claim 9, wherein: the fourth driving mechanism (24) comprises a fourth translation frame (241), a fourth lifting frame (242) and a fourth translation drive (243) used for driving the fourth translation frame (241) to translate, the fourth translation frame (241) is slidably arranged below the demoulding platform (21), the fourth lifting frame (242) is slidably arranged on the fourth translation frame (241), the fourth translation frame (241) is provided with a fourth lifting drive (244) used for driving the fourth lifting frame (242) to lift, and the fourth pushing component (22) is fixedly connected with the fourth lifting frame (242).

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