Medical consumable intelligent recycling and reuse management device and control method thereof

CN122298704APending Publication Date: 2026-06-30JIANGSU GUOHENG HUANYA MEDICAL TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
JIANGSU GUOHENG HUANYA MEDICAL TECH CO LTD
Filing Date
2026-02-10
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Currently, medical consumables cannot be effectively classified and managed after use. They need to be manually sorted one by one during recycling, which leads to a high risk of cross-infection and low level of intelligence, resulting in low sorting accuracy and efficiency.

Method used

A smart medical consumables recycling and reuse management device is adopted. It utilizes AI information recognition technology and an electronically controlled limit switch mechanism, combined with an optical probe and a sterilization lamp, to perform comprehensive identification, classification and sterilization of consumables, thereby achieving automated recycling and reuse.

Benefits of technology

It has improved the intelligence and safety of medical consumables, enhanced screening accuracy and efficiency, reduced manual contact, and ensured the safety and hygiene standards of operation.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention relates to the field of medical consumables recycling and reuse control technology, and in particular to an intelligent medical consumables recycling and reuse management device and its control method, comprising a vertical cabinet and a storage box for storing medical consumables. The intelligent medical consumables recycling and reuse management device and its control method of this invention utilizes optical probes for AI information recognition installed at both ends inside a horizontal assembly frame. Through AI recognition technology, the exported medical consumables can be identified, and then guided to different positions based on the identified information for classified storage, greatly improving the level of intelligence. Inside the horizontal assembly frame, below the optical probes, are a first electrically controlled limit and turn mechanism and a second electrically controlled limit and turn mechanism. These electrically controlled limit and turn mechanisms not only limit the movement of the medical consumables but also control their rotation, thereby increasing the range of AI information recognition and enhancing the accuracy of information recognition.
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Description

Technical Field

[0001] This invention relates to the field of medical consumables recycling and reuse control technology, and in particular to an intelligent medical consumables recycling and reuse management device and its control method. Background Technology

[0002] Medical consumables refer to medical devices consumed in medical activities such as diagnosis, treatment, healthcare, and rehabilitation. They are generally divided into two main categories: single-use and reusable. The annual attrition rate of medical consumables is enormous, and their recycling has profound social significance. It transcends simple "waste disposal" and is a crucial part of building a safe, sustainable, and resilient society. Strict recycling, sorting, and processing can not only prevent iatrogenic infections and disease transmission but also reduce resource consumption and carbon emissions. Furthermore, it can foster new industrial models and economic value, promote industrial upgrading, and has significant social educational and civic demonstration value.

[0003] However, current medical consumables cannot be effectively classified and managed after use, and they need to be manually screened and recycled one by one after recycling. Close human contact can easily lead to cross-infection, which is not safe. Moreover, the level of intelligence is not high, resulting in low screening accuracy and efficiency. Summary of the Invention

[0004] The technical problem that this invention aims to solve is that current medical consumables cannot be effectively classified and managed after use, and they need to be manually screened and recycled one by one after recycling. Close contact with people can easily lead to cross-infection, which is not safe. Moreover, the level of intelligence is not high, resulting in low screening accuracy and efficiency.

[0005] The technical solution adopted by this invention to solve its technical problem is: a medical consumables intelligent recycling and reuse management device, including a vertical cabinet and a storage box for storing medical consumables. The vertical cabinet has a plurality of horizontally arranged longitudinally mounted horizontal assembly frames fixedly installed inside. The storage box is supported and placed on the upper end of the horizontal assembly frames. The horizontal assembly frames are equipped with a plurality of horizontally arranged electrically controlled conveyor belts, a first electrically controlled limit and turn mechanism, and a second electrically controlled limit and turn mechanism. Optical probes for AI information recognition are installed above the first and second electrically controlled limit and turn mechanisms via assembly beams inside the horizontal assembly frames. The bottom of the vertical cabinet has a bottom waste recycling cabinet and a bottom recycling cabinet. Electrically controlled automatic material guiding modules are installed above the bottom waste recycling cabinet and the bottom recycling cabinet inside the horizontal assembly frames.

[0006] The vertical container has longitudinally placed material guide chambers on both sides inside, and the inner wall of the longitudinally placed material guide chambers has a lateral feeding port that communicates with the interior of the horizontally placed assembly frame.

[0007] The longitudinally placed material guiding chamber has symmetrically arranged lower material guiding ports on both outer walls, and the lower material guiding ports are equipped with electrically controlled flipping material feeding plates.

[0008] Both the first and second electrically controlled limit and turn mechanisms consist of a curved limit rod hinged inside the horizontal assembly frame and an inner support rod for controlling the curved limit rod. The curved limit rod is controlled to flip upward by the inner support rod, thereby forming a limit mechanism above the electrically controlled conveyor belt. This can control the rotation of the medical consumables conveyed on the surface, so that the optical probe can perform all-round AI information recognition.

[0009] An electrically controlled feeding tray is installed on the lower surface of the storage container to control the quantitative feeding of medical consumables inside the storage container.

[0010] The longitudinally placed material guide chamber is equipped with an electrically controlled feeding guide plate at the position of the lateral feeding port on the inner side wall, which is used to guide the medical consumables to accurately enter the interior of the horizontal assembly frame.

[0011] Ceiling-mounted LED sterilization lamps are installed inside the horizontal assembly frame above the electrically controlled conveyor belt, the bottom waste recycling cabinet, and the bottom recycling cabinet for real-time sterilization of medical consumables.

[0012] Each of the horizontal assembly frames is hinged with an electrically controlled flip-type guide box above the storage box, which is used to guide qualified medical consumables conveyed on the upper surface of the electrically controlled conveyor belt into the storage box for storage.

[0013] The outer wall of the vertical container is equipped with an electronically controlled recycling platform for guiding recyclable medical consumables back, enabling convenient recycling and circulation of reusable consumables.

[0014] A control method based on a management device includes the following steps: Device initialization: After the management device is started, the system automatically detects the status of each component, including the electronically controlled conveyor belt, the first electronically controlled limit switch mechanism, the second electronically controlled limit switch mechanism, the optical probe, the electronically controlled automatic material guiding module, the electronically controlled unloading tray, the electronically controlled feeding guide plate, the ceiling-mounted LED sterilization lamp, the electronically controlled flip-type material guide box, the electronically controlled recycling platform, and the electronically controlled flip-type material guide plate. After the detection is passed, it enters the standby working mode. Consumable feeding and conveying: When medical consumables need to be recycled, the electronically controlled feeding tray is activated, which quantitatively conveys the medical consumables to be processed in the storage box to the electronically controlled conveyor belt in the horizontal assembly frame. At this time, the electronically controlled flip-type guide box is adjusted to a preset angle and fits against the inner wall of the horizontal assembly frame, guiding the consumables smoothly into the conveying area. AI Recognition and Limiting Assistance: The electrically controlled conveyor belt moves the medical consumables toward the detection area of ​​the optical probe. The optical probe activates the first electrically controlled limiting mechanism or the second electrically controlled limiting mechanism at that position simultaneously. The inner support rod controls the curved limiting rod to flip upward to form a limiting structure, driving the medical consumables to rotate slowly on the conveyor belt. The optical probe performs an all-round scan of the consumables, collecting information on the material, integrity, degree of contamination, and surface features of the packaging bag, and transmitting it to the control system for AI recognition and judgment. Category-based material guiding control: a) If the control system determines that the consumable is reusable but needs to be handled separately, the electrically controlled conveyor belt moves the medical consumable to the right. Then, as the longitudinal guiding chamber falls, the electrically controlled automatic guiding module moves to the rightmost longitudinal guiding chamber. At the same time, the electrically controlled flip-type material guide plate in the longitudinal guiding chamber opens, and the consumable is conveyed through the side feed port, the longitudinal guiding chamber, and the lower guide port to the bottom recycling cabinet for temporary storage. Simultaneously, the ceiling-mounted LED... a) If the sterilization lamp remains on, the recycled material is sterilized and can be subsequently exported from the bottom; b) If the control system determines that the consumable is unusable waste, the electrically controlled conveyor belt moves the medical consumable to the left, and then as the longitudinal guide chamber falls, the electrically controlled automatic guide module moves to the leftmost longitudinal guide chamber, guiding the consumable into the bottom waste recycling cabinet. At the same time, the ceiling-mounted LED sterilization lamp remains on to sterilize the waste, and then the bottom waste recycling cabinet is disassembled for overall processing. Sterilization linkage control: During the transportation, sorting and temporary storage of consumables, the ceiling-mounted LED sterilization lamp works continuously, automatically adjusting the sterilization power and duration according to the type of consumables to ensure that the processing meets medical and health standards; Status monitoring and anomaly handling: The system monitors the operating status of each component and the progress of consumable processing in real time. If any abnormal situation occurs, such as material feeding jam, recognition failure, or component failure, an alarm signal will be issued immediately and the corresponding process will be suspended. Work will resume after the fault is resolved. Cyclic operation: After a single processing cycle is completed, the system returns to standby mode, waiting for the recycling and processing instructions for the next batch of medical consumables, or automatically starts the cyclic processing cycle according to the preset program.

[0015] The beneficial effects of this invention are: (1) The intelligent recycling and reuse management device and control method for medical consumables of the present invention has optical probes for AI information recognition installed at both ends inside the horizontal assembly frame. The AI ​​recognition technology can identify the exported medical consumables, and then control them to guide the materials to different positions according to the recognition information, and then classify and store them, which greatly improves the level of intelligence. (2) Inside the horizontal assembly frame, below the optical probe, there are a first electrically controlled limit and turn mechanism and a second electrically controlled limit and turn mechanism. The electrically controlled limit and turn mechanism can not only limit the medical consumables, but also control their rotation, thereby improving the range of AI information recognition and thus enhancing the accuracy of information recognition. (3) The storage container is connected to the bottom waste recycling cabinet and the bottom recycling cabinet through a longitudinal guide chamber. A closed guide mechanism is used to guide the material, which greatly improves the safety and isolation of the entire control process. (4) The entire control process does not require manual intervention. It can not only intelligently feed materials, but also intelligently unload materials and classify and screen them, greatly improving operational efficiency and safety. Attached Figure Description

[0016] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0017] Figure 1 This is a schematic diagram of the structure of the present invention.

[0018] Figure 2 This is a partial internal schematic diagram of the present invention.

[0019] Figure 3 This is a schematic diagram of the horizontal assembly frame in this invention.

[0020] Figure 4 This is a schematic diagram of the structure of the second electrically controlled limit and turn mechanism in this invention.

[0021] 1. Vertical container; 2. Storage box; 3. Horizontal assembly frame; 4. Electrically controlled conveyor belt; 5. First electrically controlled limit and turn mechanism; 6. Second electrically controlled limit and turn mechanism; 7. Assembly beam; 8. Optical probe; 9. Bottom-mounted waste recycling cabinet; 10. Bottom-mounted recycling cabinet; 11. Electrically controlled automatic material guiding module; 12. Vertical material guiding chamber; 13. Electrically controlled flip-over material guiding plate; 14. Electrically controlled feeding guide plate; 15. Ceiling-mounted LED sterilization lamp; 16. Electrically controlled recycling platform; 21. Electrically controlled unloading tray; 31. Electrically controlled flip-over material guiding box; 561. Curved limit rod; 562. Inner support rod. Detailed Implementation

[0022] The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic diagrams, illustrating only the basic structure of the invention, and therefore only show the components relevant to the invention.

[0023] In the description of this invention, it should be noted that, unless otherwise explicitly specified and limited, the terms "connected" and "linked" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium. Those skilled in the art can understand the specific meaning of the above terms in this invention based on the specific circumstances.

[0024] Figure 1 , Figure 2 , Figure 3 and Figure 4 The intelligent recycling and reuse management device for medical consumables shown includes a vertical cabinet 1 and a storage box 2 for storing medical consumables. The vertical cabinet 1 is fixedly equipped with a plurality of horizontally arranged longitudinally horizontal assembly frames 3. The storage box 2 is supported and placed on the upper end of the horizontal assembly frames 3. The horizontal assembly frames 3 are equipped with a plurality of horizontally arranged electrically controlled conveyor belts 4, a first electrically controlled limit and turn mechanism 5, and a second electrically controlled limit and turn mechanism 6. Optical probes 8 for AI information recognition are installed above the first electrically controlled limit and turn mechanism 5 and the second electrically controlled limit and turn mechanism 6 inside the horizontal assembly frames 3 via assembly beams 7. The bottom of the vertical cabinet 1 is equipped with a bottom waste recycling cabinet 9 and a bottom recycling cabinet 10. The horizontal assembly frames 3 are equipped with electrically controlled automatic material guiding modules 11 above the bottom waste recycling cabinet 9 and the bottom recycling cabinet 10.

[0025] To facilitate internal material guiding, both sides of the vertical container 1 are provided with longitudinal material guiding chambers 12, and the inner side wall of the longitudinal material guiding chambers 12 is provided with a lateral feeding port that communicates with the interior of the horizontal assembly frame 3.

[0026] To facilitate bottom material feeding, symmetrical lower material feeding ports are provided on the outer walls of both sides of the longitudinal material feeding chamber 12, and an electrically controlled flipping material feeding plate 13 is installed inside the lower material feeding port.

[0027] The electrically controlled flipping feeder 13 flips electrically to control the falling direction of the medical consumables falling into the longitudinally placed feeder chamber 12.

[0028] To facilitate limiting and flipping, both the first electrically controlled limiting and flipping mechanism 5 and the second electrically controlled limiting and flipping mechanism 6 consist of a curved limiting rod 561 hinged inside the horizontal assembly frame and an inner support rod 562 for controlling the curved limiting rod 561. The curved limiting rod 561 is flipped upward by the inner support rod 562, thereby forming a limiting mechanism above the electrically controlled conveyor belt 4. This can control the rotation of the medical consumables conveyed on the surface, so that the optical probe 8 can perform all-round AI information recognition.

[0029] The inner support rod 562 controls the rotation of the curved limiting rod 561 by telescopic movement, thereby protruding upward to form a limit on the medical consumables, which can extend the information recognition time. At the same time, it can also be used in conjunction with the bottom drive of the electrically controlled conveyor belt 4 to rotate and perform multi-directional and multi-faceted information recognition.

[0030] To facilitate the feeding operation, an electrically controlled feeding tray 21 is installed on the lower surface of the storage box 2 to control the quantitative feeding of medical consumables inside the storage box 2.

[0031] The electrically controlled feeding tray 21 is controlled by a central motor. The central motor drives the feeding tray to rotate, thereby feeding the medical consumables that fall into the guide holes inside the feeding tray one by one onto the surface of the electrically controlled conveyor belt 4.

[0032] To facilitate lateral material guidance, electrically controlled feeding guide plates 14 are installed on the inner side wall of the longitudinal material guiding chamber 12 at the positions corresponding to the lateral feeding ports, which are used to guide medical consumables to accurately enter the interior of the horizontal assembly frame 3.

[0033] The electrically controlled feeding guide plate 14 consists of an internal guide plate hinged to the inner wall of the longitudinally placed feeding chamber 12 and an internal control support rod for controlling the internal guide plate.

[0034] To facilitate ultraviolet sterilization during material conveying and storage, ceiling-mounted LED sterilization lamps 15 are installed inside the horizontal assembly frame 3 above the electrically controlled conveyor belt 4, the bottom waste recycling cabinet 9, and the bottom recycling cabinet 10, for real-time sterilization of medical consumables.

[0035] To facilitate horizontal feeding, each of the horizontal assembly frames 3 is hinged with an electrically controlled flip-type guide box 31 located above the storage box 2. This guide box is used to guide qualified medical consumables conveyed on the upper surface of the electrically controlled conveyor belt 4 into the storage box 3 for storage.

[0036] The electrically controlled flip-type guide box 31 consists of a guide box hinged to the inner wall of the horizontal assembly frame 3 and a guide support rod that controls the guide box. The guide support rod controls the flip of the guide box by extension and retraction, so that the medical consumables on the electrically controlled conveyor belt 4 can be guided into the guide box. Then, the guide box flips and fits against the inner wall of the horizontal assembly frame 3. Then, the panel at the bottom of the guide box is opened by electromagnetic control, so that the medical consumables can be fed into the storage box 2.

[0037] To facilitate electronically controlled feeding, an electronically controlled recycling platform 16 is installed on the outer wall of the vertical container 1 for guiding recyclable medical consumables back, enabling convenient recycling and circulation of reusable consumables.

[0038] The electronically controlled recycling platform 16 can transport newly imported medical consumables to the highest position. Then, the electronically controlled recycling platform 16 flips to guide the medical consumables into the vertically placed guide chamber 12. The electronically controlled feeding guide plate 14 inside the vertically placed guide chamber 12 then flips to guide the falling medical consumables into the horizontally placed assembly frame 3. The electronically controlled conveyor belt 4 then guides the materials inward. During the material guiding process, the first electronically controlled limit and turn mechanism 5 limits the flipping. The optical probe 8 then performs AI information recognition to scan the information parameters of the medical supplies. The electronically controlled flipping guide box 31, which is selected for the storage position of the medical supplies, flips horizontally onto the storage box 3. When the medical supplies are inserted into the electronically controlled flipping guide box 31, the box flips and resets. The bottom support plate flips downward, allowing the medical supplies to fall into the storage box 3, completing the loading process.

[0039] A control method based on a management device includes the following steps: Device initialization: After the management device is started, the system automatically detects the status of each component, including the electronically controlled conveyor belt 4, the first electronically controlled limit switch mechanism 5, the second electronically controlled limit switch mechanism 6, the optical probe 8, the electronically controlled automatic material guiding module 11, the electronically controlled unloading tray 21, the electronically controlled feeding guide plate 14, the ceiling-mounted LED sterilization lamp 15, the electronically controlled flip-type material guide box 31, the electronically controlled recycling platform 16, and the electronically controlled flip-type material guide plate 13. After the detection is passed, it enters the standby working mode. Consumable feeding and conveying: When medical consumables need to be recycled, the electronically controlled feeding tray 21 is activated, which quantitatively conveys the medical consumables to be processed in the storage box 2 to the electronically controlled conveying belt 4 in the horizontal assembly frame 3. At this time, the electronically controlled flipping guide box 31 is adjusted to a preset angle and fits against the inner wall of the horizontal assembly frame 3, guiding the consumables to enter the conveying area smoothly. AI Recognition and Limiting Assistance: The electrically controlled conveyor belt 4 moves the medical consumables toward the detection area of ​​the optical probe 8. The optical probe 8 activates the first electrically controlled limiting mechanism 5 or the second electrically controlled limiting mechanism 6 at this position simultaneously. The inner support rod 562 controls the curved limiting rod 561 to flip upward to form a limiting structure, driving the medical consumables to rotate slowly on the conveyor belt. The optical probe 8 performs an all-round scan of the consumables, collecting information on the material, integrity, degree of contamination, and surface features of the packaging bag, and transmitting it to the control system for AI recognition and judgment. Sorting and guiding control: a) If the control system determines that the consumable is reusable but needs to be circulated separately, the electrically controlled conveyor belt 4 moves the medical consumable to the right. Then, as the longitudinal guiding chamber 12 falls, the electrically controlled automatic guiding module 11 moves to the rightmost longitudinal guiding chamber 12. At the same time, the electrically controlled flipping feeder 13 of the longitudinal guiding chamber 12 opens, and the consumable is conveyed through the side feed port, the longitudinal guiding chamber 12, and the lower guide port to the bottom recycling cabinet 10 for temporary storage. Meanwhile, the ceiling-mounted LED sterilization lamp 15 remains on to sterilize the recycled material, which can then be exported from the bottom. b) If the control system determines that the consumable is non-reusable waste, the electrically controlled conveyor belt 4 moves the medical consumable to the left. Then, as the longitudinal guiding chamber 12 falls, the electrically controlled automatic guiding module 11 moves to the leftmost longitudinal guiding chamber 12, guiding the consumable into the bottom waste recycling cabinet 9. At the same time, the ceiling-mounted LED sterilization lamp 15 remains on to sterilize the recycled material. The sterilization lamp 15 is kept on to sterilize the waste, and then the waste is processed as a whole by disassembling the bottom waste recycling cabinet 9. Sterilization linkage control: During the transportation, sorting and temporary storage of consumables, the ceiling-mounted LED sterilization lamp 15 works continuously, automatically adjusting the sterilization power and duration according to the type of consumables to ensure that the processing meets medical and health standards; Status monitoring and anomaly handling: The system monitors the operating status of each component and the progress of consumable processing in real time. If any abnormal situation occurs, such as material feeding jam, recognition failure, or component failure, an alarm signal will be issued immediately and the corresponding process will be suspended. Work will resume after the fault is resolved. Cyclic operation: After a single processing cycle is completed, the system returns to standby mode, waiting for the recycling and processing instructions for the next batch of medical consumables, or automatically starts the cyclic processing cycle according to the preset program.

[0040] Based on the above-described preferred embodiments of the present invention, and through the foregoing description, those skilled in the art can make various changes and modifications without departing from the inventive concept. The technical scope of this invention is not limited to the contents of the specification, but must be determined according to the scope of the claims.

Claims

1. A smart recycling and reuse management device for medical consumables, comprising a vertical storage cabinet (1) and a storage container (2) for storing medical consumables, characterized in that: The vertical container (1) is fixedly equipped with a plurality of horizontally arranged horizontal assembly frames (3). The storage box (2) is supported and placed on the upper end of the horizontal assembly frames (3). The horizontal assembly frames (3) are equipped with a plurality of horizontally arranged electrically controlled conveyor belts (4), a first electrically controlled limit and turn mechanism (5), and a second electrically controlled limit and turn mechanism (6). The horizontal assembly frames (3) are equipped with optical probes (8) for AI information recognition above the first electrically controlled limit and turn mechanism (5) and the second electrically controlled limit and turn mechanism (6) via assembly beams (7). The bottom of the vertical container (1) is equipped with a bottom waste recycling cabinet (9) and a bottom recycling cabinet (10). The horizontal assembly frames (3) are equipped with electrically controlled automatic material guiding modules (11) above the bottom waste recycling cabinet (9) and the bottom recycling cabinet (10).

2. The intelligent recycling and reuse management device for medical consumables according to claim 1, characterized in that: The vertical container (1) has longitudinally placed material guide chambers (12) on both sides inside. The inner side wall of the longitudinally placed material guide chamber (12) is provided with a lateral feeding port that communicates with the interior of the horizontally placed assembly frame (3).

3. The intelligent recycling and reuse management device for medical consumables according to claim 2, characterized in that: The longitudinally placed material guiding chamber (12) has symmetrically arranged lower material guiding ports on both sides of its outer wall, and an electrically controlled flipping material guiding plate (13) is provided inside the lower material guiding port.

4. The intelligent recycling and reuse management device for medical consumables according to claim 1, characterized in that: The first electrically controlled limiting and turning mechanism (5) and the second electrically controlled limiting and turning mechanism (6) are both composed of a curved limiting rod (561) hinged inside the horizontal assembly frame (3) and an inner support rod (562) for controlling the curved limiting rod (561). The curved limiting rod (561) is controlled to flip upward by the inner support rod (562), thereby forming a limiting mechanism above the electrically controlled conveyor belt (4), which can control the rotation of the medical consumables conveyed on the surface, so that the optical probe (8) can perform all-round AI information recognition.

5. The intelligent recycling and reuse management device for medical consumables according to claim 1, characterized in that: The lower surface of the storage box (2) is equipped with an electrically controlled feeding tray (21) for controlling the quantitative feeding of medical consumables inside the storage box (2).

6. The intelligent recycling and reuse management device for medical consumables according to claim 2, characterized in that: The inner wall of the longitudinally placed material guiding chamber (12) is equipped with an electrically controlled feeding guide plate (14) at the position of the lateral feeding port, which is used to guide the medical consumables to accurately enter the interior of the horizontally placed assembly frame (3).

7. The intelligent recycling and reuse management device for medical consumables according to claim 1, characterized in that: The horizontal assembly frame (3) is equipped with ceiling-mounted LED sterilization lamps (15) located above the electrically controlled conveyor belt (4), the bottom waste recycling cabinet (9), and the bottom recycling cabinet (10) for real-time sterilization of medical consumables.

8. The intelligent recycling and reuse management device for medical consumables according to claim 1, characterized in that: The horizontal assembly frame (3) is hinged with an electrically controlled flip-type guide box (31) above the storage box (2) for storing qualified medical consumables conveyed on the upper surface of the electrically controlled conveyor belt (4).

9. The intelligent recycling and reuse management device for medical consumables according to claim 1, characterized in that: The vertical container (1) is equipped with an electrically controlled recycling platform (16) on its outer wall for guiding recyclable medical consumables back, so as to realize the convenient recycling and circulation of reusable consumables.

10. A control method based on the management device according to any one of claims 1-9, characterized in that, Includes the following steps: Device initialization: After the management device is started, the system automatically detects the status of each component, including the electric conveyor belt (4), the first electric limit switch mechanism (5), the second electric limit switch mechanism (6), the optical probe (8), the electric automatic material guide module (11), the electric unloading tray (21), the electric feeding guide plate (14), the ceiling-mounted LED sterilization lamp (15), the electric flip-type material guide box (31), the electric recycling platform (16), and the electric flip-type material guide plate (13). After the detection is passed, it enters the standby working mode. Consumable feeding and conveying: When medical consumables need to be recycled, the electronically controlled feeding tray (21) is activated to quantitatively convey the medical consumables to be processed in the storage box (2) to the electronically controlled conveying belt (4) in the horizontal assembly frame (3). At this time, the electronically controlled flipping guide box (31) is adjusted to a preset angle and fits against the inner wall of the horizontal assembly frame (3) to guide the consumables smoothly into the conveying area. AI recognition and limit assistance: The electrically controlled conveyor belt (4) drives the medical consumables to move towards the detection area of ​​the optical probe (8). The optical probe (8) is activated and the first electrically controlled limit turning mechanism (5) or the second electrically controlled limit turning mechanism (6) at this position is activated simultaneously. The curved limit rod (561) is controlled to flip upward through the inner support rod (562) to form a limit structure, driving the medical consumables to rotate slowly on the conveyor belt. The optical probe (8) performs an all-round scan of the consumables, collects information on the material, integrity, contamination level, and surface features of the packaging bag of the consumables, and transmits it to the control system for AI recognition and judgment. Classification and material guiding control: a) If the control system determines that the consumable is reusable but needs to be transferred separately, the electrically controlled conveyor belt (4) drives the medical consumable to move to the right and then falls with the vertical guide chamber (12). The electrically controlled automatic guide module (11) moves to the rightmost vertical guide chamber (12). At the same time, the electrically controlled flip-type material guide plate (13) of the vertical guide chamber (12) is opened. The consumable is transported through the side feed port, the vertical guide chamber (12), and the lower guide port to the bottom recycling cabinet (10) for temporary storage. At the same time, the ceiling-mounted LED sterilization lamp (15) is kept on to sterilize the recycled material. It can be exported from the bottom later; b) If the control system determines that the consumable is non-reusable waste, the electrically controlled conveyor belt (4) moves the medical consumable to the left and then falls with the vertical guide chamber (12). The electrically controlled automatic guide module (11) moves to the leftmost vertical guide chamber (12) and guides the consumable into the bottom waste recycling cabinet (9). At the same time, the ceiling-mounted LED sterilization lamp (15) remains on to sterilize the waste. The waste can be processed as a whole by disassembling the bottom waste recycling cabinet (9). Sterilization linkage control: During the transportation, sorting and temporary storage of consumables, the ceiling-mounted LED sterilization lamp (15) works continuously and automatically adjusts the sterilization power and duration according to the type of consumables to ensure that the processing process meets medical and health standards; Status monitoring and anomaly handling: The system monitors the operating status of each component and the progress of consumable processing in real time. If any abnormal situation occurs, such as material feeding jam, recognition failure, or component failure, an alarm signal will be issued immediately and the corresponding process will be suspended. Work will resume after the fault is resolved. Cyclic operation: After a single processing cycle is completed, the system returns to standby mode, waiting for the recycling and processing instructions for the next batch of medical consumables, or automatically starts the cyclic processing cycle according to the preset program.