A device for unboxing and flattening rice vermicelli

The unmolding and cake sorting device, which uses a chain mechanism and air blowing pipe to assist in demolding, solves the problem of low efficiency in manual demolding, realizes automated demolding and wrapping, and improves the production efficiency of instant rice noodles.

CN224402880UActive Publication Date: 2026-06-26HENAN DUORUN IND CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HENAN DUORUN IND CO LTD
Filing Date
2025-06-26
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

In the current production of instant rice noodles, manual demolding is inefficient, resulting in incomplete demolding, which affects the weight and production efficiency. At the same time, manual wrapping is time-consuming and labor-intensive.

Method used

Design a cake unpacking and sorting device that includes a chain mechanism and an air blowing pipe. The chain drives the mold to rotate and the air blowing hole assists in unpacking. Combined with the cake sorting mechanism, it realizes automated flipping and wrapping.

Benefits of technology

It improved demolding efficiency, reduced production defect rate, and enabled automated wrapping of vermicelli cakes, thus improving drying and packaging efficiency.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224402880U_ABST
    Figure CN224402880U_ABST
Patent Text Reader

Abstract

The utility model discloses a convenient fritter's unboxing cake device, including frame, be provided with chain mechanism on the frame, be provided with mould mechanism on chain mechanism and through chain mechanism drive mould mechanism and remove, the mould mechanism is including powder cake mould, and the powder cake mould is the casing structure of top opening, and the bottom of powder cake mould is provided with the openwork hole, and the both ends of powder cake mould are fixedly connected with chain mechanism and drive powder cake mould to carry out 180 degree rotating action when rotating in chain mechanism, to make powder cake mould form the inverted state of opening downward, openwork hole upward, fixedly connected with the air blowing pipeline on the frame, the air blowing pipeline is set up above the powder cake mould of inverted state, and the bottom of air blowing pipeline is provided with the air blowing hole, and the air blowing hole is correspondingly set up with powder cake mould and through the air blowing of openwork hole to make the fritter cake in powder cake mould carry out the demoulding operation.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of vermicelli processing, and in particular to a convenient device for removing vermicelli from its box and sorting it into cakes. Background Technology

[0002] Instant rice noodles are currently popular due to their convenience and variety of flavors, making them a best-selling fast food. Drying is an essential part of instant rice noodle production. Patent ZL201820824669.6 discloses an instant rice noodle drying device, which uses a conveyor chain to drive a bowl mold to feed each portion of noodles into the drying equipment. After drying, the bowl mold is transported out for manual demolding and packaging. However, during production, it was found that manually demolding often involves inverting the bowl mold, allowing the dried noodles to fall off naturally. This frequently results in demolding residue and incomplete demolding, affecting the weight of the noodle cakes and leading to a high defect rate. Furthermore, during packaging, each demolded noodle cake needs to be manually placed into a wrapping machine for wrapping, a time-consuming and labor-intensive process that severely impacts the packaging efficiency of instant rice noodles. Therefore, improvements are necessary. Summary of the Invention

[0003] The purpose of this invention is to address the above-mentioned problems by providing a simple and convenient device for removing and sorting instant rice noodles from their packaging.

[0004] To achieve the above objectives, the technical solution of this utility model is as follows:

[0005] A convenient device for removing and sorting rice noodles from their packaging includes a frame with a chain mechanism on it. A mold mechanism is mounted on the chain mechanism and moved by the chain mechanism. The mold mechanism includes a rice noodle mold, which is a shell structure with an open top and a perforated hole at the bottom. Both ends of the mold are fixedly connected to the chain mechanism, and the chain mechanism rotates the mold 180 degrees, causing it to be in an inverted state with the opening facing down and the perforated hole facing up. An air blowing pipe is fixedly connected to the frame and positioned above the inverted mold. An air blowing hole is located at the bottom of the pipe, corresponding to the perforated hole, and blows air into the hole to remove the rice noodles from the mold.

[0006] Furthermore, the chain mechanism includes a first driving sprocket, a first driven sprocket, a first guide sprocket, a second guide sprocket, a third guide sprocket, a fourth guide sprocket, a fifth guide sprocket, and a conveyor chain symmetrically arranged on both sides of the frame width direction. A drive shaft is fixedly connected between each pair of symmetrically arranged first driving sprockets, first driven sprockets, first guide sprockets, second guide sprockets, third guide sprockets, fourth guide sprockets, and fifth guide sprockets. The drive shaft is rotatably connected to the frame. There are two conveyor chains, and each conveyor chain is respectively connected to the symmetrically arranged first driving sprocket, first driven sprocket, and fifth guide sprocket. The first guide sprocket, second guide sprocket, third guide sprocket, fourth guide sprocket, and fifth guide sprocket are meshed together. The top of the fifth guide sprocket is flush with the top of the first drive sprocket, and the top of the first guide sprocket is flush with the bottom of the first drive sprocket. The two ends of the conveyor chain are respectively fitted around the outer periphery of the first drive sprocket and the first driven sprocket and meshed with them. The middle part of the bottom end of the conveyor chain meshes with the first guide sprocket and the second guide sprocket for guidance, and the middle part of the top end of the conveyor chain meshes with the third guide sprocket, the fourth guide sprocket, and the fifth guide sprocket for guidance. The mold mechanism is arranged between the two conveyor chains and is fixedly connected to the two conveyor chains respectively.

[0007] Furthermore, the mold mechanism also includes several mounting components, which are arranged at equal intervals along the length of the conveyor chain. The length of the mounting components is consistent with the width of the frame, and both ends of the mounting components are fixedly connected to two conveyor chains respectively. Several powder compact molds are sequentially arranged on the mounting components along their length. The powder compact molds are upright with their openings facing upwards at the top of the conveyor chain and inverted with their openings facing downwards at the bottom of the conveyor chain.

[0008] Furthermore, the air blowing pipe is located between the first drive sprocket and the first guide sprocket, and between the top and bottom ends of the conveyor chain. The length direction of the air blowing pipe is consistent with the length direction of the mounting component. One end of the air blowing pipe is connected to the air pump equipment, and the other end of the air blowing pipe is sealed. Several air blowing holes are evenly spaced along the circumference of the air blowing pipe, and the several air blowing holes correspond to several powder cake molds on each mounting component.

[0009] Furthermore, a cake-sorting mechanism is provided below the air blowing pipe, and the cake-sorting mechanism is connected to the frame. The cake-sorting mechanism includes a driving rotating shaft, a driven rotating shaft, a top support plate, a bottom support plate, and cake-sorting chains. The axial directions of the driving and driven rotating shafts are both consistent with the width direction of the frame. The driving and driven rotating shafts are arranged side by side and are rotatably connected to the frame. The top support plate is located at the top of the driving and driven rotating shafts and is rotatably connected to them. A second driving sprocket is fixedly connected to both ends of the driving rotating shaft, and a second driven sprocket is fixedly connected to both ends of the driven rotating shaft. There are two cake-sorting chains, and the two cake-sorting chains are symmetrically arranged on both sides of the axial direction of the driving and driven rotating shafts. The two ends of the cake-sorting chains are respectively engaged with the second driving sprocket and the second driven sprocket at the axial ends of the driving and driven rotating shafts. The top support plate is located at the top of the frame. Between the two cake-sorting chains, several pusher plates are arranged at equal intervals along the length of the chains, coinciding with the length of the drive rotating shaft. Both ends of the pusher plates are fixedly connected to the two chains. The pusher plate connected to the top of the chain is located above the top support plate and moves on the top support plate under the action of the chains. The bottom support plate is located below the bottom of the chains, with its width sides fixedly connected to the frame. One end of the bottom support plate is located outside the bottom of the driven rotating shaft and is curved upwards. A conveyor is located at the bottom of the other end of the bottom support plate, connected to the frame, with its conveying direction coinciding with the length of the mounting component. The pusher plate connected to the bottom of the chains is located above the bottom support plate and moves on the bottom support plate under the action of the chains.

[0010] Furthermore, a drive gear is rotatably connected to the frame, the drive gear is fixedly connected to the transmission shaft connected to the first drive sprocket, the drive gear meshes with a driven gear fixedly connected to one end of the drive rotating shaft, and the drive gear is drively connected to a power motor fixedly connected to the frame.

[0011] Furthermore, an arc plate is fixedly connected to the frame. The arc plate is positioned between the two first drive sprockets and is located on the side of the first drive sprocket away from the fifth guide sprocket. The inner arc wall of the arc plate faces the direction of the mold mechanism and the bottom end of the arc plate is positioned above the top support plate.

[0012] Compared with the prior art, the advantages and positive effects of this utility model are:

[0013] In this invention, during the drying process of rice noodles, each weighed portion of rice noodles is first placed inside a noodle cake mold. Driven by a chain mechanism, the mold moves into a drying device for drying. After drying, the noodles exit the drying device and, after being rotated by a first drive sprocket, are placed in an inverted position with the opening facing downwards. As the inverted mold moves below an air blowing pipe, air from the pipe enters through a perforated hole at the top of the mold, blowing the dried rice noodle cakes out and onto a sorting mechanism for arrangement. Its simple structure eliminates the need for manual demolding, improving demolding efficiency. Furthermore, by using air blowing to assist demolding, it avoids residue and incomplete demolding within the mold, effectively reducing the defect rate in the production of convenient rice noodles.

[0014] On the other hand, this utility model can flip the inverted vermicelli cakes after demolding through the cake-sorting mechanism, so that they fall into the conveyor in an upright state, and are then transported one by one to the wrapping machine for wrapping. It does not require manual wrapping assistance, and realizes the automated wrapping effect of vermicelli cakes. The entire drying and wrapping process is time-saving and labor-saving, effectively improving the drying and packaging efficiency of instant vermicelli and bringing convenience to the production of instant vermicelli. Attached Figure Description

[0015] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0016] Figure 1 This is a schematic diagram of the structure of this utility model;

[0017] Figure 2 This is the main view of the present invention.

[0018] Figure 3 A partial view of the connection structure between the chain mechanism and the mold mechanism;

[0019] Figure 4 This is a schematic diagram of the cake-making mechanism. Detailed Implementation

[0020] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, any modifications, equivalent substitutions, improvements, etc., made by those skilled in the art to all other embodiments obtained without creative effort should be included within the protection scope of the present utility model.

[0021] like Figures 1 to 4 As shown, this embodiment discloses a convenient device for removing and sorting rice cakes from their packaging. It includes a frame 1, a chain mechanism on which a mold mechanism is mounted, and the chain mechanism drives the mold mechanism to move. The mold mechanism includes a rice cake mold 12, which is a shell structure with an open top. The bottom surface of the rice cake mold 12 is designed with a perforated mesh. Both ends of the rice cake mold 12 are fixedly connected to the chain mechanism, and when the chain mechanism rotates, it drives the rice cake mold 12 to rotate 180 degrees, so that the rice cake mold 12 is inverted with the opening facing down and the perforated mesh facing up. An air blowing pipe 25 is fixedly connected to the frame 1, positioned above the inverted rice cake mold 12. The bottom end of the air blowing pipe 25 has an air blowing hole, which corresponds to the rice cake mold 12. By blowing air into the perforated mesh, the rice cakes inside the rice cake mold 12 are removed from the mold.

[0022] The chain mechanism includes a first driving sprocket 2, a first driven sprocket 3, a first guide sprocket 4, a second guide sprocket 5, a third guide sprocket 6, a fourth guide sprocket 7, a fifth guide sprocket 8, and a conveyor chain 10 symmetrically arranged on both sides of the frame 1 in the width direction. A drive shaft 9 is fixedly connected between each pair of symmetrically arranged first driving sprockets 2, first driven sprockets 3, first guide sprockets 4, second guide sprockets 5, third guide sprockets 6, fourth guide sprockets 7, and fifth guide sprockets 8. The drive shaft 9 is rotatably connected to the frame 1. There are two conveyor chains 10, and each conveyor chain 10 is respectively connected to one of the symmetrically arranged first driving sprockets 2, first driven sprockets 3, and first guide sprockets 8. The conveyor chain 10 is connected by a first drive sprocket 2, a second guide sprocket 5, a third guide sprocket 6, a fourth guide sprocket 7, and a fifth guide sprocket 8. The top of the fifth guide sprocket 8 is flush with the top of the first drive sprocket 2, and the top of the first guide sprocket 4 is flush with the bottom of the first drive sprocket 2. The two ends of the conveyor chain 10 are respectively fitted around the outer periphery of the first drive sprocket 2 and the first driven sprocket 3 and are connected to them. The middle part of the bottom end of the conveyor chain 10 is connected to the first guide sprocket 4 and the second guide sprocket 5 and is bent for guidance. The middle part of the top end of the conveyor chain 10 is connected to the third guide sprocket 6, the fourth guide sprocket 7, and the fifth guide sprocket 8 and is bent for guidance. The mold mechanism is set between the two conveyor chains 10 and is fixedly connected to the two conveyor chains 10 respectively.

[0023] The chain mechanism, through the cooperation of the fifth guide sprocket, the first drive sprocket, and the first guide sprocket, enables the conveyor chain to form two planar conveying structures at the top and bottom. In the top planar conveying structure, the powder mold moves in an upright position. After being rotated by the first drive sprocket, the powder mold moves in an inverted position in the bottom planar conveying structure to facilitate demolding.

[0024] On the other hand, the chain mechanism, through the cooperation of the second guide sprocket, the first driven sprocket, the third guide sprocket, and the fourth guide sprocket, causes the chain mechanism to be in a curved and turning conveying structure. This curved and turning conveying structure is located in the drying area, which can extend the time that the powder cake mold spends in the drying area, reduce space occupation, and improve the drying effect. At the same time, a feeding process can be added at the position of the first driven sprocket to add vermicelli into the powder cake mold, thereby realizing the vermicelli feeding operation.

[0025] The mold mechanism also includes several mounting parts 11, which are arranged at equal intervals along the length of the conveyor chain 10. The length of the mounting parts 11 is consistent with the width of the frame 1. Both ends of the mounting parts 11 are fixedly connected to the two conveyor chains 10 respectively. Several powder molds 12 are arranged sequentially on the mounting parts 11 along the length of the mounting parts 11. The powder molds 12 are in an upright position with their openings facing upwards at the top of the conveyor chain 10, and in an inverted position with their openings facing downwards at the bottom of the conveyor chain 10.

[0026] The air blowing pipe 25 is disposed between the first drive sprocket 2 and the first guide sprocket 4, and the air blowing pipe 25 is located between the top end and the bottom end of the conveyor chain 10. The length direction of the air blowing pipe 25 is consistent with the length direction of the mounting component 11. One end of the air blowing pipe 25 is connected to the air pump equipment, and the other end of the air blowing pipe 25 is sealed. Several air blowing holes are evenly spaced along the circumference of the air blowing pipe 25, and the several air blowing holes are corresponding to several powder cake molds 12 on each mounting component 11.

[0027] The structural design of the mold mechanism and the air blowing pipe allows the mold mechanism to simultaneously drive multiple powder cake molds for drying and movement. In addition, combined with the air blowing pipe, multiple powder cake molds on each mounting component can be demolded at the same time, which improves the drying and demolding efficiency of instant rice noodles.

[0028] A cake-sorting mechanism is installed below the air blowing pipe 25 and is connected to the frame 1. The cake-sorting mechanism includes a driving rotating shaft 20, a driven rotating shaft 21, a top support plate 22, a bottom support plate 23, and a cake-sorting chain 19. The axial directions of the driving rotating shaft 20 and the driven rotating shaft 21 are both consistent with the width direction of the frame 1. The driving rotating shaft 20 and the driven rotating shaft 21 are arranged side by side and are rotatably connected to the frame 1. The top support plate 22 is located at the top of the driving rotating shaft 20 and the driven rotating shaft 21 and supports the top of the chain. Plate 22 is rotatably connected to the driving rotating shaft 20 and the driven rotating shaft 21. A second driving sprocket 17 is fixedly connected to both ends of the driving rotating shaft 20, and a second driven sprocket 18 is fixedly connected to both ends of the driven rotating shaft 21. Two cake-sorting chains 19 are symmetrically arranged on both sides of the driving rotating shaft 20 and the driven rotating shaft 21. Both ends of the cake-sorting chains 19 are respectively engaged with the second driving sprocket 17 and the second driven sprocket 18 at the axial ends of the driving rotating shaft 20 and the driven rotating shaft 21. The top support plate 22 is provided with… Between the two cake-sorting chains 19, a plurality of pusher plates 24 are arranged. These pusher plates 24 are evenly spaced along the length of the cake-sorting chains 19, and their length direction coincides with that of the drive rotating shaft 20. Both ends of the pusher plates 24 are fixedly connected to the two cake-sorting chains 19. The pusher plates 24 connected to the top ends of the cake-sorting chains 19 are located above the top support plate 22 and move on the top support plate 22 under the action of the cake-sorting chains 19. The bottom support plate 23 is located on the cake-sorting chains 19. Below the bottom end, the bottom support plate 23 is fixedly connected to the frame 1 on both sides in the width direction. One end of the bottom support plate 23 in the length direction is located outside the bottom end of the driven rotating shaft 21 and the end is set in an upward curved arc shape. The bottom of the other end of the bottom support plate 23 in the length direction is provided with a conveyor 16. The conveyor 16 is connected to the frame 1 and the conveying direction of the conveyor 16 is consistent with the length direction of the mounting part 11. The pusher plate 24, which is connected to the bottom end of the cake sorting chain 19, is located above the bottom support plate 23 and moves on the bottom support plate 23 under the action of the cake sorting chain 19.

[0029] After the dried vermicelli is removed from the inverted vermicelli mold, it falls onto the top tray. As the top of the sorting chain moves the pusher plate, it pushes the inverted dried vermicelli onto one end of the top tray and onto the bottom tray below. The arc end of the bottom tray causes the dried vermicelli to turn 180 degrees, landing upright on the bottom tray. As the bottom end of the sorting chain moves the pusher plate, it pushes the upright dried vermicelli off one end of the bottom tray and onto the conveyor. Since the conveyor's conveying direction is consistent with the length direction of the installed components, the dried vermicelli finally lands on the conveyor in an upright position and is arranged along the conveyor's conveying direction, so that they can be transported one by one to the wrapping machine for packaging.

[0030] A drive gear 14 is rotatably connected to the frame 1. The drive gear 14 is fixedly connected to the transmission shaft 9 connected to the first drive sprocket 2. The drive gear 14 meshes with the driven gear 15 fixedly connected to one end of the drive rotating shaft 20. The drive gear 14 is also connected to the power motor 26 fixedly connected to the frame 1.

[0031] Through the structural design of the driving gear and the driven gear, this utility model can realize the drying, demolding and cake sorting of vermicelli with only one power motor. Its structure is simpler, effectively reducing the processing cost of convenient vermicelli and further improving the use effect of this utility model.

[0032] An arc plate 13 is fixedly connected to the frame 1. The arc plate 13 is disposed between the two first drive sprockets 2 and is located on the side of the first drive sprockets 2 away from the fifth guide sprocket 8. The arc inner wall of the arc plate 13 faces the direction of the mold mechanism and the bottom end of the arc plate 13 is disposed above the top support plate 22.

[0033] As the powder cake mold rotates on the first drive sprocket along the conveyor chain, the dried rice cake inside the powder cake mold may fall off during the mold's rotation. The fallen rice cake will fall into the arc plate and slide down along the arc plate to the top tray, thus preventing the dried rice cake from falling out of the equipment during the rotation and further improving the effectiveness of this invention.

[0034] In this invention, during the drying process of rice noodles, each weighed portion of rice noodles is first placed inside a noodle cake mold. Driven by a chain mechanism, the mold moves into a drying device for drying. After drying, the noodles exit the drying device and, after being rotated by a first drive sprocket, are placed in an inverted position with the opening facing downwards. As the inverted mold moves below an air blowing pipe, air from the pipe enters through a perforated hole at the top of the mold, blowing the dried rice noodle cakes out and onto a sorting mechanism for arrangement. Its simple structure eliminates the need for manual demolding, improving demolding efficiency. Furthermore, by using air blowing to assist demolding, it avoids residue and incomplete demolding within the mold, effectively reducing the defect rate in the production of convenient rice noodles.

[0035] On the other hand, this utility model can flip the inverted vermicelli cakes after demolding through the cake-sorting mechanism, so that they fall into the conveyor in an upright state, and are then transported one by one to the wrapping machine for wrapping. It does not require manual wrapping assistance, and realizes the automated wrapping effect of vermicelli cakes. The entire drying and wrapping process is time-saving and labor-saving, effectively improving the drying and packaging efficiency of instant vermicelli and bringing convenience to the production of instant vermicelli.

Claims

1. A convenient fan's unboxing and cake arranging device, comprising a rack, a chain mechanism is arranged on the rack, a mold mechanism is arranged on the chain mechanism and driven by the chain mechanism to move; characterized in that: The mold mechanism includes a powder compact mold, which is a shell structure with an open top and a hollow hole at the bottom. Both ends of the powder compact mold are fixedly connected to a chain mechanism, and when the chain mechanism rotates, it drives the powder compact mold to rotate 180 degrees, so that the powder compact mold is in an inverted state with the opening facing down and the hollow hole facing up. An air blowing pipe is fixedly connected to the frame and is located above the inverted powder compact mold. The bottom end of the air blowing pipe is provided with an air blowing hole, which is correspondingly set to the powder compact mold. By blowing air into the hollow hole, the powder compact inside the powder compact mold is demolded.

2. The cake unboxing and cake straightening apparatus of claim 1, wherein: The chain mechanism includes a first driving sprocket, a first driven sprocket, a first guide sprocket, a second guide sprocket, a third guide sprocket, a fourth guide sprocket, a fifth guide sprocket, and a conveyor chain symmetrically arranged on both sides of the frame width direction. A drive shaft is fixedly connected between each pair of symmetrically arranged first driving sprockets, first driven sprockets, first guide sprockets, second guide sprockets, third guide sprockets, fourth guide sprockets, and fifth guide sprockets. The drive shaft is rotatably connected to the frame. There are two conveyor chains, and each conveyor chain is respectively connected to one of the symmetrically arranged first driving sprocket, first driven sprocket, first guide sprocket, and fifth guide sprocket. The conveyor chain is meshed with a first drive sprocket, a second guide sprocket, a third guide sprocket, a fourth guide sprocket, and a fifth guide sprocket. The top of the fifth guide sprocket is flush with the top of the first drive sprocket, and the top of the first guide sprocket is flush with the bottom of the first drive sprocket. The two ends of the conveyor chain are respectively fitted around the outer periphery of the first drive sprocket and the first driven sprocket and meshed with them. The middle part of the bottom end of the conveyor chain meshes with the first guide sprocket and the second guide sprocket for guidance, and the middle part of the top end of the conveyor chain meshes with the third guide sprocket, the fourth guide sprocket, and the fifth guide sprocket for guidance. The mold mechanism is located between the two conveyor chains and is fixedly connected to the two conveyor chains respectively.

3. The cake unboxing and cake straightening apparatus of claim 2, wherein: The mold mechanism also includes several mounting components, which are arranged at equal intervals along the length of the conveyor chain. The length of the mounting components is consistent with the width of the frame. Both ends of the mounting components are fixedly connected to two conveyor chains. Several powder compact molds are arranged sequentially on the mounting components along their length. The powder compact molds are upright with their openings facing upwards at the top of the conveyor chain and inverted with their openings facing downwards at the bottom of the conveyor chain.

4. The cake unboxing and cake straightening apparatus of claim 3, wherein: The air blowing pipe is located between the first drive sprocket and the first guide sprocket, and between the top and bottom ends of the conveyor chain. The length direction of the air blowing pipe is consistent with the length direction of the mounting component. One end of the air blowing pipe is connected to the air pump equipment, and the other end of the air blowing pipe is sealed. Several air blowing holes are evenly spaced along the circumference of the air blowing pipe, and the several air blowing holes correspond to several powder cake molds on each mounting component.

5. The cake unboxing and cake straightening apparatus of claim 4, wherein: A cake-sorting mechanism is installed below the air blowing pipe and is connected to the frame. The cake-sorting mechanism includes a driving rotating shaft, a driven rotating shaft, a top support plate, a bottom support plate, and cake-sorting chains. The axes of the driving and driven rotating shafts are aligned with the width direction of the frame and are arranged side-by-side. Both shafts are rotatably connected to the frame. The top support plate is located at the top of the driving and driven rotating shafts and is rotatably connected to them. A second driving sprocket is fixedly connected to both ends of the driving and driven rotating shafts. Two cake-sorting chains are symmetrically arranged on both sides of the driving and driven rotating shafts, with each chain connected to a second driving sprocket at one end of the shaft. The second driven sprocket is engaged with the top support plate, which is positioned between two cake-sorting chains. Several pusher plates are positioned between the two cake-sorting chains, with equal spacing along the length of the cake-sorting chains. The length of the pusher plates is consistent with the length of the drive rotating shaft. Both ends of the pusher plates are fixedly connected to the two cake-sorting chains. The pusher plates connected to the top of the cake-sorting chains are located above the top support plate and move on the top support plate under the action of the cake-sorting chains. The bottom support plate is positioned below the bottom end of the cake-sorting chains. Both sides of the bottom support plate are fixedly connected to the frame in the width direction. One end of the bottom support plate in the length direction is located outside the bottom end of the driven rotating shaft and is arranged in an upwardly curved arc shape. A conveyor is installed at the bottom of the other end of the bottom support plate in the length direction. The conveyor is connected to the frame, and the conveying direction of the conveyor is consistent with the length direction of the mounting component. The pusher plate, which is connected to the bottom end of the cake-sorting chain, is located above the bottom support plate and moves on the bottom support plate under the action of the cake-sorting chain.

6. The cake unboxing and cake straightening apparatus of claim 5, wherein: A drive gear is rotatably connected to the frame. The drive gear is fixedly connected to the transmission shaft connected to the first drive sprocket. The drive gear meshes with a driven gear fixedly connected to one end of the drive rotating shaft. The drive gear is also connected to a power motor fixedly connected to the frame.

7. The cake unboxing and cake straightening apparatus of claim 6, wherein: An arc plate is fixedly connected to the frame. The arc plate is positioned between two first drive sprockets and is located on the side of the first drive sprockets away from the fifth guide sprocket. The inner arc wall of the arc plate faces the mold mechanism and the bottom end of the arc plate is positioned above the top support plate.