A cartridge assembly for use in a dispensing machine

By introducing a rotating mold core and RFID tags into the medicine box of the repackaging machine, the data interaction problem between the medicine box and the main control system was solved, realizing automatic identification of drug information and automatic dispensing of tablets, thus improving the automation of the repackaging machine and the efficiency of drug distribution.

CN224393103UActive Publication Date: 2026-06-23武汉库柏特科技股份有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
武汉库柏特科技股份有限公司
Filing Date
2025-05-23
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

The existing packaging machine has poor data interaction between the medicine box and the main control system, making it impossible to obtain information such as the name, specifications, batch number and remaining inventory of the medicine in a timely manner, resulting in insufficient automation of the packaging machine.

Method used

A medicine box assembly for a dispensing machine was designed, comprising a rotating mold core, an RFID tag, and a Hall sensor. The rotating mold core enables automatic dispensing of pills, and the RFID tag and Hall sensor, in conjunction with the motor base, enable automatic identification and data interaction of drug information.

Benefits of technology

It improves the automation level of the dispensing machine and the efficiency of tablet dispensing, ensures the accurate collection of drug information and the reliability judgment of the dispensing machine, and significantly reduces the medication dispensing error rate.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a medicine box subassembly for application to subpacker. The medicine box subassembly includes medicine box and motor base, and medicine box includes shell, RFID label, magnet and sets up in the rotating mould core of shell, and motor base includes base body, motor, hall sensor and RFID reader, and the motor sets up in the base body, and the lower end rotatable mould core detachable connection motor's output shaft, and the shell is provided with first medicine outlet, and any vertical groove can rotate to first medicine outlet top, and hall sensor and RFID reader set up on the base body upper surface, and magnet and RFID label set up on the shell bottom surface, and hall sensor and magnet are vertically aligned, to start RFID reader and read RFID label. The medicine box subassembly is through the cooperation of hall sensor and magnet, can detect whether medicine box is correctly installed to motor base, can effectively improve the automation degree and tablet dispensing efficiency of subpacker.
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Description

Technical Field

[0001] This utility model relates to the field of medicine boxes for pharmaceutical packaging machines, and in particular to a medicine box assembly used in packaging machines. Background Technology

[0002] The drug dispensing machine, with automated dispensing technology at its core, achieves precise operation of the entire drug process from "prescription analysis" to "single-dose packaging" through the collaboration of mechanics and intelligent algorithms. Based on preset programs or real-time received electronic medical orders, the equipment automatically identifies the drug type, specifications, and dosage frequency. Using a high-precision robotic arm, a vibration dispensing module, or a vacuum adsorption device, it quickly sorts various tablets, capsules, etc., into individual drug bags according to single-dose dosages (including half tablets and irregularly shaped dosage forms). This technology is particularly suitable for medication management of patients using multiple drugs, patients with complex dosage frequencies (such as morning, noon, and evening), and elderly / hospitalized patients. Through standardized, traceable individual packaging, it significantly reduces the medication error rate (by more than 90% compared to traditional manual methods), while simplifying the nurse verification process and improving medication adherence and medical safety.

[0003] The medicine box of the drug packaging machine is the core module that enables automated dispensing, directly determining the packaging efficiency and medication accuracy. The medicine box adopts a modular and detachable structure, which is detachably connected to the corresponding motor base. The motor base interacts with the main control system of the packaging machine in real time, dynamically triggering medication replenishment alerts. Utility Model Content

[0004] In order to enrich the product variety of medicine boxes for packaging machines and improve their practicality, this utility model embodiment provides a medicine box component for use in packaging machines.

[0005] This utility model embodiment provides a medicine box assembly for use in a packaging machine, including a medicine box and a motor base;

[0006] The medicine box includes an outer shell, an RFID tag, a magnet, and a rotating mold core disposed within the outer shell;

[0007] The top of the rotating mold core is conical;

[0008] The sidewall of the rotating mold core is provided with a plurality of circumferentially distributed vertical grooves, and each vertical groove forms a tablet channel between itself and the inner wall of the outer shell.

[0009] The motor base includes a base body, a motor, a Hall sensor, and an RFID reader;

[0010] The motor is installed inside the base body, and the lower end of the rotating mold core is detachably connected to the output shaft of the motor so that the rotating mold core can rotate under the drive of the motor.

[0011] The outer shell is provided with a first medicine outlet, and any of the vertical slots can be rotated to be above the first medicine outlet;

[0012] The Hall sensor and the RFID reader are disposed on the upper surface of the base body, and the magnet and the RFID tag are disposed on the bottom surface of the housing. When the rotating core is detachably connected to the output shaft, the Hall sensor and the magnet are aligned vertically to activate the RFID reader to read the RFID tag.

[0013] In one or more optional embodiments, the rotating mold core includes a rotor and a drive shaft connected vertically;

[0014] The plurality of vertical slots are disposed on the side wall of the rotor;

[0015] The outer casing includes a medicine cup, a mounting cylinder, and a mounting base connected sequentially from top to bottom;

[0016] The drive shaft is inserted into the mounting base, the rotor is located inside the mounting cylinder, and the bottom surface of the rotor abuts against the mounting base;

[0017] The first medicine outlet is disposed on the mounting base;

[0018] The drive shaft is detachably connected to the output shaft.

[0019] In one or more alternative embodiments, the medicine box further includes a top cover and at least one heightening cylinder;

[0020] At least one heightening cylinder is arranged sequentially from bottom to top on the top of the medicine cup, and the top cover is placed on the top of the medicine cup or the top of the uppermost heightening cylinder.

[0021] In one or more optional embodiments, the center of the top cover is provided with a perforated mesh frame that communicates with the interior of the medicine cup;

[0022] The perforated grid frame is used to hold desiccant and tablet samples;

[0023] A sealing cap is provided on the top of the hollowed-out mesh frame.

[0024] In one or more alternative embodiments, the medicine box further includes a spacer baffle;

[0025] The spacer plate passes through the mounting cylinder and is located directly above the first drug outlet. Any of the vertical slots can rotate to be positioned between the first drug outlet and the spacer plate.

[0026] In one or more alternative embodiments, the motor is fixed to the base body, and the output axis of the motor extends upward from the base body;

[0027] An internal gear is provided at the bottom of the drive shaft, and an external gear is provided on the output shaft. The internal gear meshes with the output shaft.

[0028] In one or more alternative embodiments, the medicine box further includes a medicine dispensing port component;

[0029] The drug outlet component is disposed in the first drug outlet of the mounting base;

[0030] The motor base is provided with a second medicine outlet, and a dust collection box is inserted into the second medicine outlet;

[0031] The medicine outlet component is connected vertically to the dust collection box.

[0032] In one or more alternative embodiments, the dust collection box includes a collection box body and a slide rail fence;

[0033] The slide rail is obliquely arranged inside the collection box body, and a dust collection space is formed between the slide rail and the bottom of the collection box body.

[0034] In one or more optional embodiments, the motor base further includes an optical counter disposed within the base body, and the dust collection box is correspondingly provided with a light outlet.

[0035] In one or more alternative embodiments, the housing further includes support columns;

[0036] The upper and lower ends of the support column are respectively connected to the medicine cup and the mounting base to support the medicine cup.

[0037] The beneficial effects of the above-mentioned technical solutions provided by the embodiments of this utility model include at least the following:

[0038] The medicine box assembly for a dispensing machine provided in this embodiment of the invention stores pills in a medicine cup. The pills slide down the cone at the top of the rotating mold core into a vertical groove and are arranged there. When the vertical groove rotates above the first dispensing port, the pills fall out in sequence. This allows for automatic dispensing of medicine by driving the rotating mold core via a motor. Through the cooperation of a Hall sensor and a magnet, the correct installation of the medicine box onto the motor base can be detected. Furthermore, an RFID reader can be activated to read the RFID tag and obtain information about the medicine stored in the medicine box. This information is transmitted to the main control system of the dispensing machine, enabling the main control system to determine the reliability of the medicine box installation status and automatically collect medicine information, effectively improving the automation level and pill dispensing efficiency of the dispensing machine.

[0039] Other features and advantages of this invention will be set forth in the description which follows, and will be apparent in part from the description, or may be learned by practicing the invention. The objects and other advantages of this invention can be realized and obtained by means of the structures particularly pointed out in the written description and the accompanying drawings.

[0040] The technical solution of this utility model will be further described in detail below with reference to the accompanying drawings and embodiments. Attached Figure Description

[0041] The accompanying drawings are provided to further illustrate the present invention and form part of the specification. They are used together with the embodiments of the present invention to explain the present invention, but do not constitute a limitation thereof. In the drawings:

[0042] Figure 1 This is a schematic diagram of the structure of a medicine box assembly applied to a packaging machine, provided by an embodiment of the present invention;

[0043] Figure 2 This is a first structural schematic diagram of the medicine box provided in an embodiment of the present utility model;

[0044] Figure 3 This is a second structural schematic diagram of the medicine box provided in an embodiment of the present utility model;

[0045] Figure 4 A schematic diagram of the combined structure of the rotating mold core, the spacer baffle, and the drug outlet component provided in an embodiment of this utility model;

[0046] Figure 5 A schematic diagram of the outer shell provided for an embodiment of this utility model;

[0047] Figure 6 A schematic diagram of the structure of the top cover provided in an embodiment of this utility model;

[0048] Figure 7 A schematic diagram of the bottom structure of the motor base provided in an embodiment of this utility model;

[0049] Figure 8 This is a schematic diagram of the structure of the dust collection box provided in an embodiment of the present utility model.

[0050] Figure label:

[0051] 100. Medicine box;

[0052] 1. Outer shell; 11. Medicine cup; 12. Mounting cylinder; 13. Mounting base; 131. First medicine outlet; 132. Insertion hole; 14. Support column; 2. Rotating mold core; 21. Rotor; 211. Vertical groove; 22. Drive shaft; 221. Limiting groove; 222. Internal gear; 3. Magnet; 4. RFID tag; 5. Spacer baffle; 6. Medicine outlet component; 7. Limiting clamp; 8. Top cover; 81. Hollowed-out mesh frame; 82. Sealing cover; 9. Heightening cylinder;

[0053] 200. Motor base; 201. Motor; 2011. Output shaft; 202. Base body; 2021. Second drug outlet; 203. Hall sensor; 204. Dust collection box; 2041. Collection box body; 2042. Slide rail; 2043. Magnetic side wing; 2044. Light outlet; 205. Optical counter;

[0054] 300. Desiccant; 400. Tablet sample. Detailed Implementation

[0055] Exemplary embodiments of the present disclosure will now be described in more detail with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be implemented in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

[0056] In the description of this utility model, it should be noted that the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," "far," "near," "front," and "rear," etc., indicating the orientation or positional relationship, are based on the orientation or positional relationship shown in the accompanying drawings and are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and should not be construed as indicating or implying relative importance.

[0057] In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "joining" 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; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.

[0058] The inventors, referring to existing technologies such as CN201420831067.5 (a counting device for an automatic drug dispensing machine) and CN201520943275.9 (a medicine box for a drug dispensing machine), found that existing medicine boxes only have the functions of dispensing medicine and counting tablets, and their data interaction with the main control system of the dispensing machine is poor. They cannot obtain information such as drug name, specifications, batch number, and remaining inventory in a timely manner, resulting in insufficient automation of the dispensing machine and failing to meet the inventors' expectations. To solve this problem, the inventors attempted to record the storage and dispensing information of each medicine box through the main control system of the dispensing machine, but this process was too cumbersome and the effect was not ideal. During the research process, it was unexpectedly discovered that managing tablet information by setting RFID tags could help improve the automation level of the dispensing machine.

[0059] Based on this, this utility model embodiment provides a medicine box assembly for use in a packaging machine, referring to... Figures 1-5 Includes medicine box 100 and motor base 200;

[0060] The medicine box 100 includes an outer shell 1, an RFID tag 4, a magnet 3, and a rotating mold core 2 disposed inside the outer shell 1;

[0061] The top of the rotating mold core 2 is conical;

[0062] The sidewall of the rotating mold core 2 is provided with a plurality of circumferentially distributed vertical grooves 211, and each vertical groove 211 forms a tablet channel with the inner wall of the outer shell 1.

[0063] The motor base 200 includes a base body 202, a motor 201, a Hall sensor 203, and an RFID reader (not shown in the figure);

[0064] The motor 201 is disposed inside the base body 202, and the lower end of the rotating mold core 2 is detachably connected to the output shaft 2011 of the motor 201 so that the rotating mold core 2 can rotate under the drive of the motor 201.

[0065] The outer shell 1 is provided with a first medicine outlet 131, and any of the vertical grooves 211 can be rotated to be above the first medicine outlet 131;

[0066] The Hall sensor 203 and the RFID reader are disposed on the upper surface of the base body 202, and the magnet 3 and the RFID tag 4 are disposed on the bottom surface of the outer shell 1. When the rotating core 2 is detachably connected to the output shaft 2011, the Hall sensor 203 and the magnet 3 are aligned vertically to activate the RFID reader to read the RFID tag 4.

[0067] In this embodiment, refer to Figure 2and Figure 4 As shown, the width of the vertical groove 211 is designed to accommodate one tablet. After a sufficient amount of tablets are placed inside the outer casing 1, the tablets will slide down the rotating mold core 2 under the action of gravity and enter the tablet channel to be arranged vertically. The rotating mold core 2 is driven to rotate by the motor 201. When the vertical groove 211 containing the tablets rotates to the first dispensing port 131, the tablets fall out, thus realizing the immediate use of the tablets.

[0068] Specifically, refer to Figures 1-4 As shown, the outer casing 1 includes a medicine cup 11, a mounting cylinder 12, and a mounting base 13 connected vertically. The rotating mold core 2 includes a rotor 21 and a drive shaft 22 connected vertically. The medicine cup 11 is used to store pills; the mounting base 13 has a central insertion hole 132, into which the drive shaft 22 is inserted, and the rotor 21 is located inside the mounting cylinder 12, with the bottom surface of the rotor 21 abutting against the mounting base 13. The drive shaft 22 is detachably connected to the output shaft 2011 of the motor 201, which drives the rotating mold core 2 to rotate relative to the outer casing 1. Multiple vertical slots 211 are provided on the side wall of the rotor 21, and each vertical slot 211 forms a pill channel with the inner wall of the mounting cylinder 12. Since the top of the rotor 21 is conical, the pills will slide down under gravity and enter the pill channel, arranging vertically. The outer casing 1 is provided with a first dispensing port 131 corresponding to the position of the vertical groove 211. Any vertical groove 211 can be rotated to be above the first dispensing port 131 so that the tablet falls out of the first dispensing port 131.

[0069] In this embodiment, when the medicine box 100 is correctly installed on the motor base 200, that is, after the rotating mold core 2 is connected to the output shaft 2011 and the mounting base 13 is correctly aligned with the base body 202, the Hall sensor 203 and the magnet 3 are vertically aligned. At this time, the Hall sensor 203 detects that the magnetic field strength exceeds the preset threshold, outputs a high-level signal, and transmits the detection result (the generated high-level signal) to the main control system of the subcontracting machine. The main control system can then determine that the medicine box 100 has been installed in place. Furthermore, when the medicine box 100 is correctly installed on the motor base 200, the Hall sensor 203 detects that the magnetic field strength exceeds the preset threshold, activates the RFID reader on the base body 202, reads the RFID tag 4 at the bottom of the medicine box 100, thereby automatically identifying the name, specifications, batch number, and remaining inventory of the medicine in the medicine box 100, and interacts with the main control system of the subcontracting machine in real time to dynamically trigger a replenishment warning.

[0070] The medicine box assembly for a dispensing machine provided in this embodiment of the utility model stores pills in a medicine cup 11. The pills slide down the cone at the top of the rotating mold core 2 into a vertical groove 211 and are arranged there. When the vertical groove 211 rotates above the first dispensing port 131, the pills fall out in sequence. This allows for automatic dispensing of medicine by driving the rotating mold core 2 through a motor 201. The Hall sensor 203, in conjunction with a magnet 3, can detect whether the medicine box 100 is correctly installed on the motor base 200. Furthermore, it can activate an RFID reader to read the RFID tag 4, thereby obtaining the medicine information stored in the medicine box 100. This information is transmitted to the main control system of the dispensing machine, enabling the main control system to determine the reliability of the medicine box 100's installation status and automatically collect medicine information, effectively improving the automation level and medicine dispensing efficiency of the dispensing machine.

[0071] In an optional implementation, refer to Figure 1 As shown, the medicine box 100 also includes at least one heightening cylinder 9. When there is only one heightening cylinder 9, it can be placed on top of the medicine cup 11 and sealed to the top of the medicine cup 11. When there are two or more heightening cylinders 9, they are sequentially sealed to each other, with the lowest heightening cylinder 9 sealed to the medicine cup 11, thereby expanding the capacity of the medicine cup 11 and allowing for flexible adjustment of the capacity of the medicine cup 11 according to actual needs.

[0072] In an optional implementation, refer to Figure 1 and Figure 6 As shown, the medicine box 100 also includes a top cover 8, which is placed on top of the medicine cup 11 or the top of the uppermost elevating cylinder 9 to ensure the airtightness of the medicine box 100. A perforated mesh frame 81 communicating with the interior of the medicine cup 11 is located at the center of the top cover 8. The perforated mesh frame 81 can hold the desiccant 300 and the tablet sample 400. Specifically, the perforated mesh frame 81 can be divided into two parts: one part for holding the desiccant 300, thus keeping the inside of the medicine cup 11 dry and clean, ensuring reliable storage of the medicine and preventing spoilage; the other part for holding the tablet sample 400, providing a clue to the shape of the tablets and ensuring accurate storage. Obviously, to maintain the good moisture absorption effect of the desiccant 300, it needs to be replaced regularly, from six months to one year, depending on the actual situation. A sealing cap 82 is located above the perforated mesh frame 81 to prevent foreign objects from entering the medicine cup 11, ensuring the cleanliness of the medicine inside.

[0073] In an optional implementation, refer to Figures 2-4As shown, the medicine box 100 also includes a spacer 5. One end of the spacer 5 extends through the mounting cylinder 12 to above the edge of the rotor 21 and is located directly above the first medicine outlet 131. Any vertical slot 211 can rotate to be between the first medicine outlet 131 and the spacer 5. When the medicine cup 11 contains tablets and a tablet enters a vertical slot 211, the vertical slot 211 rotates to be between the first medicine outlet 131 and the spacer 5. The spacer 5 can separate the tablets in the vertical slot 211 from the tablets above the vertical slot 211 to avoid interfering with the tablets about to fall out of the first medicine outlet 131 and to prevent tablets from falling continuously.

[0074] For example, the width of the vertical groove 211 is designed to be slightly larger than the diameter of the tablet (so that one tablet can easily enter the vertical groove 211), and the height of the vertical groove 211 is designed to be equal to the diameter of the tablet, so that one vertical groove 211 can accommodate one tablet. When a vertical groove 211 rotates to the spacer 5 between the first dispensing port 131 and the spacer 5, the spacer 5 can separate the tablet in the vertical groove 211 from the tablet above the vertical groove 211. After the tablet falls from the first dispensing port 131, the tablet above the vertical groove 211 will not continue to fall.

[0075] In an optional implementation, refer to Figure 1 and Figure 7 As shown, motor 201 is fixed inside base body 202 and electrically connected to the main control system of the subcontracting machine, used to drive the rotating mold core 2 to rotate. The output shaft 2011 of motor 201 extends vertically upwards from base body 202. When the medicine box 100 is installed on motor base 200, the transmission shaft 22 of rotating mold core 2 is detachably connected to the output shaft 2011 of motor 201. The transmission connection between transmission shaft 22 and output shaft 2011 can be achieved by: an internal gear 222 being provided at the bottom of transmission shaft 22, and external teeth being provided on output shaft 2011; the transmission connection is achieved through the meshing of the internal gear 222 with the external teeth on output shaft 2011. The internal gear 222 is not limited to standard teeth or similar gear structures; it can also be a slotted tooth or a cross tooth.

[0076] In an optional implementation, refer to Figure 3 and Figure 4 As shown, the medicine box 100 also includes a medicine outlet component 6. The medicine outlet component 6 is disposed within the first medicine outlet 131 of the mounting base 13, providing a channel for the tablets to slide out. The motor base 200 is provided with a second medicine outlet 2021, into which a dust collection box 204 is inserted. The medicine outlet component 6 and the dust collection box 204 are vertically connected, allowing the tablets falling from the vertical groove 211 to pass sequentially through the medicine outlet component 6 and the dust collection box 204. The dust collection box 204 is used to collect the dust generated by the passing of the tablets.

[0077] In an optional implementation, refer toFigure 7 and Figure 8 As shown, the dust collection box 204 includes a collection box body 2041 and a slide rail 2042. The slide rail 2042 is obliquely disposed inside the collection box body 2041, and a dust collection space is formed between the slide rail 2042 and the bottom of the collection box body 2041. During the bouncing and sliding process of the tablet, the powder enters the dust collection space, which helps to keep the dispensing channel clean and reduce cross-contamination.

[0078] In an optional implementation, refer to Figure 7 and Figure 8 As shown, the top of the collection box body 2041 is provided with a magnetic side wing 2043, and the motor base 200 is provided with a corresponding magnetic fixing part (not shown in the figure). After the dust collection box 204 is inserted into the medicine dispensing channel, the magnetic side wing 2043 attracts the magnetic fixing part, so that the dust collection box 204 is easy to fix and disassemble, and the dust collection box 204 can be easily cleaned regularly.

[0079] In an optional implementation, refer to Figure 7 As shown, an optical counter 205, such as an infrared counter, is provided on the side of the second medicine outlet 2021 of the motor base 200. Correspondingly, a light outlet 2044 is provided at the corresponding position of the dust collection box 204 to ensure that the passing tablets can be accurately identified and counted.

[0080] In an optional implementation, refer to Figure 3 and Figure 4 As shown, the medicine box 100 also includes a limiting clamp 7. An annular limiting groove 221 is provided on the outer wall of the part of the drive shaft 22 that extends out of the mounting base 13. The limiting clamp 7 is fitted into the limiting groove 221 to restrict the up and down movement of the rotating mold core 2, ensuring that the rotating mold core 2 will not jump during operation, thereby improving the reliability and safety of the medicine box 100 during operation.

[0081] In an optional implementation, refer to Figure 1 As shown, the outer casing 1 also includes a support column 14. The upper and lower ends of the support column 14 are connected to the medicine cup 11 and the mounting base 13, respectively, to support the medicine cup 11 and improve the stress stability and placement stability of the medicine box 100.

[0082] Obviously, those skilled in the art can make various modifications and variations to this utility model without departing from its spirit and scope. This disclosure is not limited to the precise structure described above and shown in the accompanying drawings, and various modifications and changes can be made without departing from its scope. The scope of this disclosure is limited only by the appended claims. Thus, if these modifications and variations of this utility model fall within the scope of the claims of this utility model and their equivalents, this utility model is also intended to include these modifications and variations.

Claims

1. A medicine box assembly for use in a dispensing machine, characterized in that, Includes medicine box and motor base; The medicine box includes an outer shell, an RFID tag, a magnet, and a rotating mold core disposed within the outer shell; The top of the rotating mold core is conical; The sidewall of the rotating mold core is provided with a plurality of circumferentially distributed vertical grooves, and each vertical groove forms a tablet channel between itself and the inner wall of the outer shell. The motor base includes a base body, a motor, a Hall sensor, and an RFID reader; The motor is installed inside the base body, and the lower end of the rotating mold core is detachably connected to the output shaft of the motor so that the rotating mold core can rotate under the drive of the motor; The outer shell is provided with a first medicine outlet, and any of the vertical slots can be rotated to be above the first medicine outlet; The Hall sensor and the RFID reader are disposed on the upper surface of the base body, and the magnet and the RFID tag are disposed on the bottom surface of the housing. When the rotating core is detachably connected to the output shaft, the Hall sensor and the magnet are aligned vertically to activate the RFID reader to read the RFID tag.

2. The medicine box assembly for a packaging machine according to claim 1, characterized in that, The rotating mold core includes a rotor and a drive shaft connected vertically. The plurality of vertical slots are disposed on the side wall of the rotor; The outer casing includes a medicine cup, a mounting cylinder, and a mounting base connected sequentially from top to bottom; The drive shaft is inserted into the mounting base, the rotor is located inside the mounting cylinder, and the bottom surface of the rotor abuts against the mounting base; The first medicine outlet is disposed on the mounting base; The drive shaft is detachably connected to the output shaft.

3. The medicine box assembly for a packaging machine according to claim 2, characterized in that, The medicine box also includes a top cover and at least one heightening cylinder; At least one heightening cylinder is arranged sequentially from bottom to top on the top of the medicine cup, and the top cover is placed on the top of the medicine cup or the top of the uppermost heightening cylinder.

4. The medicine box assembly for a packaging machine according to claim 3, characterized in that, The center of the top cover is provided with a hollowed-out mesh frame that communicates with the interior of the medicine cup; The perforated mesh frame is used to hold desiccant and tablet samples; A sealing cover is provided on the top of the hollowed-out mesh frame.

5. The medicine box assembly for a packaging machine according to claim 2, characterized in that, The medicine box also includes a spacer baffle; The spacer plate passes through the mounting cylinder and is located directly above the first drug outlet. Any of the vertical slots can rotate to be positioned between the first drug outlet and the spacer plate.

6. The medicine box assembly for a packaging machine according to claim 2, characterized in that, The motor is fixed to the base body, and the output axis of the motor extends upward from the base body; An internal gear is provided at the bottom of the drive shaft, and an external gear is provided on the output shaft. The internal gear meshes with the output shaft.

7. The medicine box assembly for a packaging machine according to claim 2, characterized in that, The medicine box also includes a medicine dispensing component; The drug outlet component is disposed in the first drug outlet of the mounting base; The motor base is provided with a second medicine outlet, and a dust collection box is inserted into the second medicine outlet; The medicine outlet component is connected vertically to the dust collection box.

8. The medicine box assembly for a packaging machine according to claim 7, characterized in that, The dust collection box includes a collection box body and a slide rail fence; The slide rail is obliquely arranged inside the collection box body, and a dust collection space is formed between the slide rail and the bottom of the collection box body.

9. The medicine box assembly for a packaging machine according to claim 7, characterized in that, The motor base also includes an optical counter disposed within the base body, and the dust collection box is provided with a corresponding light outlet.

10. The medicine box assembly for a packaging machine according to claim 2, characterized in that, The outer casing also includes support columns; The upper and lower ends of the support column are respectively connected to the medicine cup and the mounting base to support the medicine cup.