A waste recycling device for paper packaging material processing
By designing a recycling mechanism and a multi-stage crushing mechanism, the problem of material recycling and return in the paper packaging material waste recycling and processing device was solved, achieving efficient and uniform waste crushing and recycling, and reducing labor intensity and energy consumption.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- JIANGSU FUBIN PACKAGING CO LTD
- Filing Date
- 2026-04-17
- Publication Date
- 2026-06-09
AI Technical Summary
Existing paper packaging material waste recycling and processing equipment lacks an effective material recycling and return mechanism, resulting in the need for manual re-feeding of unqualified materials, which is inefficient and labor-intensive.
Design a device that includes a recycling mechanism. A closed loop is formed by a top connecting pipe, a bent discharge pipe, a bottom connecting pipe, and a circulation pipe. The waste material is crushed multiple times using a second conveying auger and an aeration assembly. The toothed plate is driven by a telescopic rod to perform reciprocating rotation crushing, ensuring that the waste material is fully crushed. The waste material is then efficiently recycled through the conveying auger and aeration assembly.
It achieves thorough crushing of waste materials, improves processing efficiency, avoids material accumulation and blockage, reduces energy consumption, and ensures the smoothness and uniformity of the crushing process.
Smart Images

Figure CN122164536A_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of paper packaging material processing, specifically a waste recycling and processing device for paper packaging material processing. Background Technology
[0002] The processing and production of paper packaging materials (such as cartons, boxes, and cardboard) generates a large amount of waste, including scraps, chips, and defective products. Directly discarding this waste not only wastes resources but also increases disposal costs and environmental burden for businesses. Therefore, recycling and reusing paper waste is of great significance.
[0003] Currently, common methods for recycling and processing paper waste include centralized collection and crushing in a shredder, followed by repulping the crushed paper fibers or using them for other purposes. During the crushing process, there is a lack of an effective material recycling mechanism, and unqualified materials need to be manually re-fed, which is inefficient and labor-intensive, thus affecting the use of the equipment. Summary of the Invention
[0004] The purpose of this invention is to provide a waste recycling and processing device for paper packaging material processing, so as to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, the present invention provides the following technical solution:
[0006] A waste recycling device for paper packaging material processing includes a storage base and a recycling mechanism. The recycling mechanism is located at the front and rear ends of the top of the storage base and is used to perform rotary crushing and recycling of paper packaging materials. The device includes a top connecting pipe, a bent discharge pipe, a bottom connecting pipe, and a recycling pipe. The top connecting pipe, the bent discharge pipe, the bottom connecting pipe, and the recycling pipe are sequentially connected to each other. The bent discharge pipe is electrically connected to the bottom of the top connecting pipe, the bottom of the bent discharge pipe is electrically connected to the top of the bottom connecting pipe, the bottom of the recycling pipe is electrically connected to the bottom of the bottom connecting pipe, and the top of the recycling pipe is electrically connected to the top connecting pipe. The system includes: a top-connected pipe; several equally spaced discharge hoods and crushing cylinders, with the discharge hoods positioned at the top of the crushing cylinders; crushing components installed inside each crushing cylinder for crushing waste materials generated during paper packaging material processing; a connecting frame fixedly connected to the bottom of the bent discharge pipe, with the bottom of the connecting frame fixedly connected to a storage base via a first fixing block; several fixing components connected to the connecting frame; a movable frame slidably mounted on the fixing components, with a toothed plate installed at the outer end of the movable frame; and the end of the connecting frame connected to the storage base via a second fixing block. A telescopic rod is connected, with its end connected to a movable frame. The telescopic rod drives the movable frame to move the rack plate reciprocally. The rack plate drives the crushing assembly to rotate reciprocally and crush waste materials generated from paper packaging material processing. A conveying assembly is located at the bottom of the top connecting pipe and the top of the bent discharge pipe. It is used to convey waste materials, and the conveyed materials are added into the crushing cylinder through the discharge hood. The crushing assembly then crushes the waste materials. A second conveying auger is located at the bottom of the bottom connecting pipe and the circulation pipe. The second conveying auger has ventilation holes inside and is located at the bottom connecting pipe. A ventilation hood is also provided at the end of the second conveying auger on the outer side of the channel. A fixed frame is also fixedly installed at the bottom of the bottom connecting pipe. A rotation drive assembly for driving the second conveying auger to rotate is installed on the fixed frame, as well as an aeration assembly for supplying air to the ventilation hood. The rotation drive assembly drives the second conveying auger to rotate, so that the waste material crushed after bending the discharge pipe is discharged into the bottom of the circulation pipe. The aeration assembly aerates the ventilation hood, and the gas blows the waste material into the circulation pipe through the ventilation holes, thereby realizing the discharge of powder material into the top connecting pipe for recycling and crushing.
[0007] Preferably, the storage base is equipped with leveling support components at its four outer corners. Each leveling support component includes mounting ears, with a leveling screw threaded inside each mounting ear. A support base is provided at the bottom of the leveling screw, and brake nuts are also threaded onto the leveling screw located on both sides of the mounting ears.
[0008] Preferably, an electrical control box is also installed on the outer wall of the front end of the storage base.
[0009] Preferably, a connecting cover is provided at the inner end of the connection between the top of the circulation pipe and the top connecting pipe.
[0010] Preferably, a feeding assembly is also installed at the top of the top connecting pipe; the feeding assembly includes a feeding port, which is located at the top of the top connecting pipe and is conductively connected to the top connecting pipe, and a first control valve is also installed on the feeding port.
[0011] Preferably, the crushing assembly includes a crushing shaft, the bottom of which is rotatably connected to the bottom of a bent discharge pipe, the bottom of which passes through the bent discharge pipe and is connected to a connecting gear, and the connecting gear meshes with a rack plate; a plurality of crushing blades are evenly spaced on the crushing shaft located inside the crushing cylinder.
[0012] Preferably, the conveying assembly includes a conveying motor, which is placed on the side wall of the top connecting pipe, and a first conveying auger is installed on the motor shaft of the conveying motor, which is placed inside the top connecting pipe and the bent discharge pipe.
[0013] Preferably, the bottom of the bottom connecting pipe is further provided with a discharge assembly; the discharge assembly includes a discharge pipe, which is placed at the bottom of the bottom connecting pipe and is connected to the bottom connecting pipe in a conductive manner, and a second control valve is installed on the discharge pipe.
[0014] Preferably, the aeration assembly includes an aeration pump, which is placed on a fixed frame, and an aeration pipe is also installed on the top of the aeration pump, with the top end of the aeration pipe inserted into the ventilation hood.
[0015] Preferably, the rotation drive assembly includes a drive motor, a drive gear is mounted on the motor shaft of the drive motor, a driven gear is meshed on the drive gear, and the driven gear is connected to the second conveying auger.
[0016] Compared with the prior art, the beneficial effects of the present invention are:
[0017] This invention, by setting up a recycling mechanism, utilizes a top connecting pipe, a bent discharge pipe, a bottom connecting pipe, and a circulation pipe to form a closed loop. In conjunction with a second conveying auger and an aeration component, waste materials that do not meet the standards after the initial crushing can be fed back into the crushing drum for secondary or multiple crushing, ensuring that all waste materials are fully crushed and the particle uniformity is greatly improved.
[0018] This invention arranges multiple discharge hoods and crushing cylinders at equal intervals along the curved discharge pipe. During the conveying process, the waste material is diverted to different crushing cylinders and crushed simultaneously, avoiding material accumulation and improving processing efficiency. At the same time, the first conveying auger achieves uniform material distribution, and the second conveying auger, in conjunction with aeration blowing, achieves efficient circulation. The overall conveying is smooth and not prone to blockage.
[0019] This invention uses a telescopic rod to drive the rack plate to move back and forth, thereby driving the crushing component to rotate back and forth, so that the crushing blades can perform multiple actions of shearing, tearing and grinding on the waste. Compared with unidirectional rotary crushing, it has lower energy consumption and is less prone to entanglement or jamming.
[0020] The present invention opens ventilation holes inside the second conveying auger and sets up ventilation hood and aeration components. By blowing an appropriate amount of air into the bottom of the pipe, fine powder can be gently blown to the top of the circulation pipe for reprocessing, and waste can be prevented from settling at the bottom. At the same time, the airflow helps to dry wet materials and improve the crushing effect. Attached Figure Description
[0021] Figure 1 This is a schematic diagram of the overall three-dimensional structure of a waste recycling and processing device for paper packaging material processing provided by the present invention.
[0022] Figure 2 This is a schematic diagram of the leveling support component in a waste recycling and treatment device for paper packaging material processing provided by the present invention.
[0023] Figure 3 This is a cross-sectional view of a waste recycling and processing device for paper packaging material processing provided by the present invention.
[0024] Figure 4 This is a schematic diagram of the crushing component in a waste recycling and treatment device for paper packaging material processing provided by the present invention.
[0025] Figure 5 This is a schematic diagram of the structure connecting the telescopic rod and the movable frame in a waste recycling and processing device for paper packaging materials provided by the present invention.
[0026] Figure 6 This is a schematic diagram of the connection between the second conveying auger and the rotation drive assembly in a waste recycling and treatment device for paper packaging material processing provided by the present invention.
[0027] Figure 7 This is a cross-sectional view of the second conveying auger in a waste recycling and treatment device for paper packaging material processing provided by the present invention.
[0028] Figure label:
[0029] 1. Storage dock;
[0030] 11. Leveling support assembly; 111. Mounting lug; 112. Leveling screw; 113. Support base; 114. Brake nut;
[0031] 12. Electrical control box;
[0032] 2. Recycling mechanism;
[0033] 21. Top connecting pipe; 22. Bent discharge pipe; 23. Bottom connecting pipe;
[0034] 24. Circulation pipe; 241. Connecting cover;
[0035] 25. Feeding assembly; 251. Feeding port; 252. First control valve;
[0036] 26. Discharge hood; 27. Crushing drum;
[0037] 28. Crushing assembly; 281. Crushing shaft; 282. Crushing blade assembly; 283. Connecting gear;
[0038] 29. Connecting frame; 210. First fixing block; 211. Fixing component; 212. Moving frame; 213. Toothed plate;
[0039] 214. Telescopic pole; 2141. Second fixing block;
[0040] 215. Conveying assembly; 2151. Conveying motor; 2152. First conveying auger;
[0041] 216. Discharge assembly; 2161. Discharge pipe; 2162. Second control valve;
[0042] 217. Second conveying auger; 2171. Ventilation opening; 2172. Ventilation hood;
[0043] 218. Fixture;
[0044] 219. Aeration components; 2191. Aeration pump; 2192. Aeration pipes;
[0045] 220. Rotation drive assembly; 2201. Drive motor; 2202. Drive gear; 2203. Driven gear. Detailed Implementation
[0046] It should be noted that, unless otherwise specified, the embodiments and features described in the present invention can be combined with each other.
[0047] To make the objectives, technical solutions, and advantages of the embodiments of the present invention clearer, the various embodiments of the present invention will be described in detail below with reference to the accompanying drawings. However, those skilled in the art will understand that many technical details have been presented in the various embodiments of the present invention to facilitate a better understanding of this application. However, the technical solutions claimed in this application can be implemented even without these technical details and various changes and modifications based on the following embodiments.
[0048] The present invention will now be described in detail with reference to the accompanying drawings and embodiments.
[0049] See Figures 1-7In this embodiment of the invention, a waste recycling device for paper packaging material processing includes a storage base 1 and a recycling mechanism 2. The recycling mechanism 2 is located at the front and rear ends of the top of the storage base 1 and is used to realize the rotary crushing and recycling of paper packaging materials. It includes a top connecting pipe 21, a bent discharge pipe 22, a bottom connecting pipe 23, and a circulation pipe 24. The top connecting pipe 21, the bent discharge pipe 22, the bottom connecting pipe 23, and the circulation pipe 24 are sequentially connected to each other, and the bent discharge pipe 22 is connected to the top connecting pipe 24. The bottom of pipe 21 is connected to the bottom of the bent discharge pipe 22, which is connected to the top of the bottom connecting pipe 23. The bottom of the circulation pipe 24 is connected to the bottom of the bottom connecting pipe, and the top of the circulation pipe 24 is connected to the top of the top connecting pipe 21. Several discharge hoods 26 and crushing cylinders 27 are arranged at equal intervals. The discharge hoods 26 and crushing cylinders 27 are placed at equal intervals between the bent discharge pipes 22, and the discharge hoods 26 are placed on top of the crushing cylinders 27. The crushing cylinders 27 are all equipped with a device for processing waste generated from the processing of paper packaging materials. The system includes: a crushing assembly 28 for crushing; a connecting frame 29, which is fixedly connected to the bottom of a bent discharge pipe 22, and the bottom of the connecting frame 29 is fixedly connected to a storage base 1 via a first fixing block 210; several fixing members 211, which are connected to the connecting frame 29; a movable frame 212, which is slidably mounted on the fixing members 211, and a rack plate 213 is also installed at the outer end of the movable frame 212; and the end of the connecting frame 29 is connected to a telescopic rod 214 via a second fixing block 2141. The four ends are connected to the movable frame 212. The movable frame 212 is driven by the telescopic rod 214 to drive the rack plate 213 to move back and forth. The rack plate 213 drives the crushing component 28 to rotate back and forth to crush the waste generated from the processing of paper packaging materials. The conveying component 215 is placed at the bottom of the top connecting pipe 21 and the top of the bent discharge pipe 22. It is used to convey the waste material. The conveyed material is added into the crushing cylinder 27 through the discharge cover 26. The crushing component 28 is used to crush the waste material.The second conveying auger 217 is located at the bottom of the bottom connecting pipe 23 and the circulation pipe 24. The second conveying auger 217 has ventilation holes 2171 inside, and a ventilation hood 2172 is also provided at the end of the second conveying auger 217 located outside the bottom connecting pipe 23. A fixing frame 218 is also fixedly installed at the bottom of the bottom connecting pipe 23. A rotation drive assembly 220 for driving the second conveying auger 217 to rotate is installed on the fixing frame 218. An aeration assembly 219 is also installed to supply air to the ventilation hood 2172. The rotation drive assembly 220 drives the second conveying auger 217 to rotate, discharging the crushed waste from the bent discharge pipe 22 into the bottom of the circulation pipe 24. The aeration assembly 219 aerates the ventilation hood 2172, and the gas blows the waste into the circulation pipe 24 through the ventilation holes 2171, thus discharging the powder through the circulation pipe 24 into the top connecting pipe 21 for recycling and crushing.
[0050] This invention involves adding waste from paper packaging material processing into the top connecting pipe 21, and using a conveying component 215 to transport the waste between the top connecting pipe 21 and the top of the bent discharge pipe 22. During the waste transport process, the waste is added into the crushing cylinder 27 through the discharge cover 26 provided at the bottom. The moving frame 212 is driven to move by the telescopic rod 214, and the moving frame 212 simultaneously drives the rack plate 213 to move. The rack plate 213 drives the crushing component 28 to rotate and crush the waste inside the crushing cylinder 27. The crushed waste falls into the inclined pipe at the bottom of the bent discharge pipe 22 and into the bottom connecting pipe 23. The second conveying auger 217 is driven by the rotation drive component 220 to rotate and transport the waste inside the bottom connecting pipe 23 to the bottom of the circulation pipe 24. The aeration component 219 then allows the waste to be reintroduced into the top connecting pipe 21 through the circulation pipe 24 for recycling and crushing. This facilitates the crushing and recycling of waste from paper packaging material processing.
[0051] See Figure 2 In one embodiment of the present invention, a leveling support assembly 11 is installed at the four corners of the outer end of the storage base 1. The leveling support assembly 11 includes mounting ears 111, and a leveling screw 112 is threadedly connected inside the mounting ears 111. A support seat 113 is provided at the bottom of the leveling screw 112. Brake nuts 114 are also threadedly installed on the leveling screw 112 located on both sides of the mounting ears 111. By rotating the position between the leveling screw 112 and the mounting ears 111, the height of the support seat 113 can be adjusted, and the leveling screw 112 after adjustment can be braked by the brake nuts 114. This can achieve stable support for the entire leveling support assembly 11, facilitating the safe use of the entire device.
[0052] See Figure 2 In one embodiment of the present invention, an electrical control box 12 is also installed on the outer wall of the front end of the storage base 1. The electrical control box 12 is set to control the entire device to perform electrical control work and ensure the safe operation of the entire device.
[0053] See Figure 3 In one embodiment of the present invention, a connecting cover 241 is provided at the inner end of the connection between the top of the circulation pipe 24 and the top connecting pipe 21. The open end of the connecting cover 241 is placed inside the circulation pipe 24, and the narrow end of the connecting cover 241 is placed inside the top connecting pipe 21. The setting of the connecting cover 241 can facilitate the discharge of waste material inside the circulation pipe 24 into the top connecting pipe 21 for rotary crushing and recycling.
[0054] See Figure 3 In one embodiment of the present invention, a feeding assembly 25 is also installed on the top of the top connecting pipe 21; the feeding assembly 25 includes a feeding port 251, which is located on the top of the top connecting pipe 21 and is conductively connected to the top connecting pipe 21. A first control valve 252 is also installed on the feeding port 251. By opening the first control valve 252, the feeding port 251 can add waste material from the processing of paper packaging materials into the top connecting pipe 21 for feeding.
[0055] See Figure 4 In one embodiment of the present invention, the crushing assembly 28 includes a crushing shaft 281, the bottom of which is rotatably connected to the bottom of a bent discharge pipe 22. The bottom of the crushing shaft 281 passes through the bent discharge pipe 22 and is connected to a connecting gear 283. The connecting gear 283 is meshed with a rack plate 213. Several crushing blade groups 282 are evenly spaced on the crushing shaft 281 located inside the crushing cylinder 27. During the movement of the rack plate 213, the rack plate 213 drives the meshed connecting gear 283 to rotate. The connecting gear 283 can drive the crushing blade groups 282 through the crushing shaft 281 to achieve rotary crushing and recycling of the waste inside the crushing cylinder 27.
[0056] See Figure 3 In one embodiment of the present invention, the conveying assembly 215 includes a conveying motor 2151, which is placed on the side wall of the top connecting pipe 21, and a first conveying auger 2152 is mounted on the motor shaft of the conveying motor 2151. The first conveying auger 2152 is placed inside the top connecting pipe 21 and the bent discharge pipe 22. When the conveying motor 2151 works, it drives the first conveying auger 2152 to rotate and convey materials, thereby facilitating the conveying of waste materials.
[0057] See Figure 3 In one embodiment of the present invention, a discharge assembly 216 is further provided at the bottom of the bottom connecting pipe 23; the discharge assembly 216 includes a discharge pipe 2161, which is placed at the bottom of the bottom connecting pipe 23 and is connected to the bottom connecting pipe 23 in a conductive manner, and a second control valve 2162 is installed on the discharge pipe 2161. By opening the second control valve 2162, the discharge pipe 2161 can conveniently discharge and collect the crushed waste.
[0058] See Figure 6 In one embodiment of the present invention, the aeration assembly 219 includes an aeration pump 2191, which is placed on a fixed frame 218, and an aeration pipe 2192 is also installed on the top of the aeration pump 2191. The top end of the aeration pipe 2192 is inserted into the ventilation hood 2172. By operating the aeration pump 2191, the aeration pump 2191 can perform aeration work on the inside of the ventilation hood 2172 through the aeration pipe 2192.
[0059] See Figure 6 In one embodiment of the present invention, the rotation drive assembly 220 includes a drive motor 2201, a drive gear 2202 is mounted on the motor shaft of the drive motor 2201, a driven gear 2203 is meshed on the drive gear 2202, and the driven gear 2203 is connected to the second conveying auger 217. The drive motor 2201 drives the drive gear 2202 to work, and the drive gear 2202 drives the meshed driven gear 2203 to work, so that the driven gear 2203 drives the second conveying auger 217 to rotate.
[0060] Working principle of waste recycling and processing equipment for paper packaging materials:
[0061] The present invention controls the operation of the entire device through the electrical control box 12;
[0062] Waste material is added into the top connecting pipe 21 by the feeding component 25, and the conveying motor 2151 drives the first conveying auger 2152 to rotate and convey the waste material. During the conveying process, the waste material falls into the discharge cover 26 connected to the bottom of the bent discharge pipe 22 in sequence, and then into the crushing cylinder 27.
[0063] The telescopic rod 214 operates, driving the moving frame 212 to move. The moving frame 212 synchronously drives the rack plate 213 to move. The rack plate 213 drives the meshing connecting gear 283 to rotate. The connecting gear 283 drives the crushing shaft 281 to rotate. The crushing shaft 281 drives the crushing blade assembly 282 to rotate. The crushing blade assembly 282 realizes the rotation crushing of the waste inside the crushing cylinder 27. The crushed waste falls onto the bottom inclined pipe of the bent discharge pipe 22 and into the bottom connecting pipe 23.
[0064] The drive motor 2201 on the rotation drive assembly 220 operates, driving the drive gear 2202 to operate. The drive gear 2202 drives the meshing driven gear 2203 to operate. The driven gear 2203 drives the second conveying auger 217 to operate. The second conveying auger 217 rotates and conveys the waste to the bottom of the circulation pipe 24. It also works in conjunction with the aeration pump 2191 on the aeration assembly 219. The aeration pump 2191 aerates air into the ventilation hood 2172 through the aeration pipe 2192 and blows the waste at the bottom of the circulation pipe 24 through the ventilation holes 2171. The waste is then reintroduced into the top connecting pipe 21 through the circulation pipe 24 and the connecting cover 241 set at the top, thereby realizing the recycling and crushing of waste, which is convenient for the recycling of waste from paper packaging material processing.
[0065] It will be apparent to those skilled in the art that the present invention is not limited to the details of the exemplary embodiments described above, and that the invention can be implemented in other specific forms without departing from its spirit or essential characteristics. Therefore, the embodiments should be considered in all respects as exemplary and non-limiting, and the scope of the invention is defined by the appended claims rather than the foregoing description. Thus, all variations falling within the meaning and scope of equivalents of the claims are intended to be included within the present invention. No reference numerals in the claims should be construed as limiting the scope of the claims.
Claims
1. A waste recycling and processing device for paper packaging material processing, comprising a storage base (1), characterized in that, It also includes a recycling mechanism (2), which is located at the front and rear ends of the top of the storage base (1) and is used to realize the rotary crushing and recycling of paper packaging materials, including: The top connecting pipe (21), the bent discharge pipe (22), the bottom connecting pipe (23), and the circulation pipe (24) are connected to each other in sequence. The bent discharge pipe (22) is connected to the bottom of the top connecting pipe (21), the bottom of the bent discharge pipe (22) is connected to the top of the bottom connecting pipe (23), the bottom of the circulation pipe (24) is connected to the bottom of the bottom connecting pipe, and the top of the circulation pipe (24) is connected to the top of the top connecting pipe (21). A plurality of discharge hoods (26) and crushing cylinders (27) are arranged at equal intervals. The discharge hoods (26) and crushing cylinders (27) are placed at equal intervals between the bent discharge pipes (22), and the discharge hoods (26) are placed on top of the crushing cylinders (27). The crushing cylinder (27) is equipped with a crushing component (28) for crushing waste generated from the processing of paper packaging materials. The connecting frame (29) is fixedly connected to the bottom of the bent discharge pipe (22), and the bottom of the connecting frame (29) is fixedly connected to the storage base (1) through the first fixing block (210); Several fasteners (211) are connected to the connecting frame (29); The movable frame (212) is slidably mounted on the fixing member (211), and a rack plate (213) is also installed on the outer end of the movable frame (212). The end of the connecting frame (29) is connected to the telescopic rod (214) through the second fixing block (2141), and the end of the telescopic rod (214) is connected to the movable frame (212). The telescopic rod (214) drives the moving frame (212) to move the rack plate (213) back and forth. The rack plate (213) drives the crushing component (28) to rotate back and forth to crush the waste generated from the processing of paper packaging materials. The conveying assembly (215) is placed at the bottom of the top connecting pipe (21) and the top of the bent discharge pipe (22) to realize the material conveying of waste. The conveyed material is added into the crushing cylinder (27) through the discharge hood (26) and the waste is crushed by the crushing assembly (28). The second conveying auger (217) is located at the bottom of the bottom connecting pipe (23) and the circulation pipe (24). The second conveying auger (217) has ventilation holes (2171) inside and ventilation hoods (2172) are provided at the end of the second conveying auger (217) located outside the bottom connecting pipe (23). A fixed frame (218) is also fixedly provided at the bottom of the bottom connecting pipe (23). A rotation drive assembly (220) for driving the second conveying auger (217) to rotate is installed on the fixed frame (218). An aeration assembly (219) for supplying air to the ventilation hood (2172) is also installed on the fixed frame (218). The second conveying auger (217) is driven to rotate by the rotation drive assembly (220) to discharge the crushed waste material from the bent discharge pipe (22) into the bottom of the circulation pipe (24). The ventilation hood (2172) is aerated by the aeration assembly (219). The gas blows the waste material into the circulation pipe (24) through the ventilation hole (2171), thereby discharging the powder material into the top connecting pipe (21) through the circulation pipe (24) for recycling.
2. The waste recycling and processing device for paper packaging material processing according to claim 1, characterized in that, The storage base (1) is equipped with a leveling support assembly (11) at the four corners of its outer end. The leveling support assembly (11) includes a mounting ear (111). The mounting ear (111) is internally threaded with a leveling screw (112). A support seat (113) is provided at the bottom of the leveling screw (112). Brake nuts (114) are also threaded on the leveling screws (112) located on both sides of the mounting ear (111).
3. The waste recycling and processing device for paper packaging material processing according to claim 1, characterized in that, An electrical control box (12) is also installed on the outer wall of the front end of the storage base (1).
4. The waste recycling and processing device for paper packaging material processing according to claim 1, characterized in that, A connecting cover (241) is provided at the inner end of the connection between the top of the circulation pipe (24) and the top connecting pipe (21).
5. The waste recycling and processing device for paper packaging material processing according to claim 1, characterized in that, The top of the top connecting pipe (21) is also equipped with a feeding assembly (25); the feeding assembly (25) includes a feeding port (251), which is located at the top of the top connecting pipe (21) and is connected to the top connecting pipe (21) in a conductive manner. A first control valve (252) is also installed on the feeding port (251).
6. The waste recycling and processing device for paper packaging material processing according to claim 1, characterized in that, The crushing assembly (28) includes a crushing shaft (281), the bottom of which is rotatably connected to the bottom of the bent discharge pipe (22). The bottom of the crushing shaft (281) passes through the bent discharge pipe (22) and is connected to a connecting gear (283). The connecting gear (283) meshes with a rack plate (213). Several crushing blade groups (282) are evenly spaced on the crushing shaft (281) located inside the crushing cylinder (27).
7. The waste recycling and processing device for paper packaging material processing according to claim 1, characterized in that, The conveying assembly (215) includes a conveying motor (2151), which is placed on the side wall of the top connecting pipe (21), and a first conveying auger (2152) is installed on the motor shaft of the conveying motor (2151). The first conveying auger (2152) is placed inside the top connecting pipe (21) and the bent discharge pipe (22).
8. The waste recycling and processing device for paper packaging material processing according to claim 1, characterized in that, The bottom of the bottom connecting pipe (23) is also provided with a discharge assembly (216); the discharge assembly (216) includes a discharge pipe (2161), which is placed at the bottom of the bottom connecting pipe (23) and is connected to the bottom connecting pipe (23), and a second control valve (2162) is installed on the discharge pipe (2161).
9. The waste recycling and processing device for paper packaging material processing according to claim 1, characterized in that, The aeration assembly (219) includes an aeration pump (2191), which is placed on a fixed frame (218), and an aeration pipe (2192) is also installed on the top of the aeration pump (2191), with the top end of the aeration pipe (2192) inserted into the ventilation hood (2172).
10. The waste recycling and processing device for paper packaging material processing according to claim 1, characterized in that, The rotation drive assembly (220) includes a drive motor (2201), on which a drive gear (2202) is mounted, and a driven gear (2203) is meshed on the drive gear (2202), and the driven gear (2203) is connected to the second conveying auger (217).