Small adjustable intelligent medicine box

By incorporating a tilting guide plate and width adjustment components into the pillbox, the problem that existing pillboxes can only store a single type of medicine is solved, enabling flexible storage and management of medicines of different sizes, and improving medication adherence and applicability.

CN224466477UActive Publication Date: 2026-07-07ZHEJIANG CANCER HOSPITAL

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG CANCER HOSPITAL
Filing Date
2025-06-25
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing medicine boxes can only store a single type of medicine and cannot accommodate medicines of different sizes, thus limiting their use.

Method used

A small, adjustable smart pillbox was designed, which uses inclined guide plates and a width adjustment component. The distance between the guide plates is adjusted by an adjustment rod to accommodate the storage of medicines of different sizes, and uses a first-in, first-out (FIFO) method for dispensing medicines.

Benefits of technology

It enables flexible storage of medicines of different sizes, improves medication management and adherence, has an automatic counting function, and is suitable for various scenarios.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224466477U_ABST
    Figure CN224466477U_ABST
Patent Text Reader

Abstract

The utility model discloses a small -size adjustable intelligence medicine box belongs to medicine management technical field, including box body, the box body both sides wall and along vertical direction are equipped with several groups of the inclined arrangement guide plate, at least two groups width adjusting assembly are equipped between every group guide plate, width adjusting assembly includes adjusting lever, adjusting lever is connected in between every group guide plate rotation, and one guide plate is with adjusting lever screw thread formation screw transmission connection. In the scheme, the guide plate adopts the inclined mode arrangement to make the medicine that enters the medicine box inside along the guide plate and roll down, and the width adjusting assembly on the guide plate can adjust the distance between the guide plates, so that the medicine of different sizes can be adapted on the guide plate and roll, and the width adjusting assembly is arranged at least two groups, which can not only support the guide plate, but also ensure that one of the guide plates moves along the width direction of the inner wall of the box during the adjustment process, and the width adjustment is realized.
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Description

TECHNICAL FIELD

[0001] The utility model relates to a medicine box design, more specifically, it relates to a small adjustable intelligent medicine box. BACKGROUND

[0002] As a practical tool in the field of pharmaceutical medical treatment, the medicine box has the function of protecting the quality of medicines, plays a basic protection role for medicines, and can also improve medicine management and compliance and prevent medicine errors. A certain amount of medicines can be stored in the medicine box, and most medicine boxes generally adopt a last-in first-out medicine taking mode, which can easily lead to long-term non-withdrawal of medicines at the bottom of the medicine box, resulting in invalid medicines. Some medicine boxes adopt a first-in first-out medicine taking mode, but such medicine boxes can only store one type of medicine and cannot adapt to the storage of medicines of different sizes, limiting the use scenarios.

[0003] For example: Chinese patent publication No. CN209864630U, published on December 31, 2019, the utility model name is an intelligent medicine box and an intelligent medicine box system, which discloses a medicine box structure, including a shell, the shell includes an upper cover and a box body, the upper cover is provided with a sliding cover opening structure, the box body includes a medicine box unit slot and a medicine box unit, the medicine box unit is arranged in the medicine box unit slot, the medicine box unit is provided with a unit prompt lamp; a control circuit board is arranged in the shell; a medicine reminding device; and an internal battery. The intelligent medicine box is simple and smooth to operate and can timely remind the user to take medicine; in addition, the server can also make a scientific medicine evaluation report for the user after monitoring and recording the relevant medicine parameters. However, such medicine boxes can only store medicines of one size type or smaller size type, and cannot adapt to the storage of medicines of other different sizes. UTILITY MODEL CONTENT

[0004] The utility model overcomes the problem that the existing medicine box can only store a single medicine type, provides a small adjustable intelligent medicine box, the medicine box of the scheme can store medicines of different size types, the use scenarios are various, and the practicability of the medicine box is greatly improved.

[0005] To solve the above technical problems, the utility model discloses the following technical scheme: A small adjustable intelligent medicine box, including the box body, the box body both sides wall and along vertical direction are equipped with a plurality of groups of the inclined arrangement guide plate, at least two groups width adjustment assembly are equipped between every group guide plate, the width adjustment assembly includes the adjusting lever, the adjusting lever is connected in rotation between every group guide plate, and one guide plate is connected in rotation with the adjusting lever thread formation screw thread drive connection.In the scheme, the guide plate adopts the inclined arrangement mode to can make the medicine that enters the medicine box falls down along the guide plate, and the width adjustment assembly on the guide plate can adjust the distance between the guide plates, so that the medicine of different sizes can be rolled on the guide plate, and the width adjustment assembly is arranged at least two groups, which can not only support the guide plate, but also ensure that one of the guide plates moves along the inner wall of the box body in the width direction during the adjustment process, thereby realizing width adjustment.

[0006] As a preferred, the guide plate includes a first guide plate and a second guide plate, the first guide plate is fixed opposite to the side wall of the box body, and the second guide plate is threadedly connected with the adjusting lever. In the scheme, the first guide plate is fixed, the second guide plate is internally provided with threads, and the threads are threadedly connected with the adjusting lever to realize width adjustment between the two guide plates through the movement of the second guide plate.

[0007] As a preferred, the guide plate includes a first guide plate and a second guide plate, the first guide plate is fixed opposite to the side wall of the box body, and the second guide plate is threadedly connected with the adjusting lever. In the scheme, the first guide plate is fixed, the second guide plate is internally provided with threads, and the threads are threadedly connected with the adjusting lever to realize width adjustment between the two guide plates through the movement of the second guide plate.

[0008] As a preferred, the guide plate is an L-shaped plate, the guide plate includes a connecting portion and a limiting portion, the connecting portion is perpendicular to the side wall of the box body and is rotationally connected to the adjusting screw rod, and the limiting portion is parallel to the side wall of the box body. The connecting portion is used for connecting with the adjusting lever, and the limiting portion can limit the rolling of the medicine to prevent the medicine from deviating or tilting, thereby avoiding the medicine from being stuck in the medicine box.

[0009] As a preferred, the upper surface of the connecting portion is provided with an anti-skid pad. The anti-skid pad on the connecting portion can prevent the medicine from sliding when rolling, thereby avoiding the medicine from tilting and being stuck in the medicine box.

[0010] As a preferred, one end of the adjusting lever is arranged outside the box body and is provided with the adjusting knob. Driving the adjusting knob can drive the adjusting lever to rotate, which can be manually driven or electrically controlled.

[0011] As preferred, the two adjacent groups of guide plates are opposite in inclination direction and are provided with buffer guide blocks, the buffer guide blocks are arc-shaped blocks with recesses, and the recesses are towards the upper group of guide plates. The buffer guide blocks can play a buffering role to ensure that the falling of the medicine is not impacted.

[0012] As preferred, the buffer guide blocks are rotationally connected to the side wall of the box body. The rotation of the buffer guide blocks can adjust the direction of the recesses, so that the recesses can receive the falling medicine of the upper guide plate while delivering the medicine to the lower guide plate, and can adapt to the delivery of medicines of different sizes.

[0013] As preferred, the top of the box body is provided with a medicine inlet, and the bottom of the box body is provided with a medicine outlet. The medicine inlet is used to put medicine into the medicine box, and the medicine outlet is used to take medicine out of the medicine box, and the medicine is taken out in a first-in first-out manner, which can effectively manage the expiration date of the medicine.

[0014] As preferred, the medicine inlet and the medicine outlet are provided with counting sensors. The counting sensor of the medicine inlet can count the number of medicines entering the medicine box, and the counting sensor of the medicine outlet can count the number of medicines taken out of the medicine box, so that the total number of medicines in the medicine box can be displayed in real time.

[0015] Compared with the prior art, the utility model has the beneficial effects that: (1) it is suitable for medicines with small use amount and different sizes, and can improve medicine management and compliance; (2) the medicine is taken out in a first-in first-out manner, and the expiration date of the medicine is effectively managed; (3) it has an automatic counting function, and the inventory of medicines in the medicine box is known at a glance; (4) it is flexible and can be adapted to various scenes and widely applied. BRIEF DESCRIPTION OF DRAWINGS

[0016] Figure 1 It is a perspective view of the utility model.

[0017] Figure 2 It is a schematic view of the internal structure of the utility model.

[0018] Figure 3 It is a schematic view of the cooperation between the width adjusting assembly and the guide plate of the utility model.

[0019] Figure 4 It is another schematic view of the cooperation between the width adjusting assembly and the guide plate of the utility model.

[0020] In the figure: 1. box body, 2. side wall of the box body, 3. guide plate, 3.1. first guide plate, 3.2. second guide plate, 3.3. connecting part, 3.4. limiting part, 4. adjusting rod, 5. transmission nut, 6. non-slip pad, 7. adjusting knob, 8. buffer guide block, 9. recess, 10. medicine inlet, 11. medicine outlet, 12. counting sensor, 13. bearing, 14. control panel, 15. packaging cover. Detailed Implementation

[0021] The technical solution of this utility model will be further described in detail below through specific embodiments and in conjunction with the accompanying drawings.

[0022] Example 1: As Figures 1 to 4 The illustrated small adjustable smart pillbox includes a box body 1. Inside the box body 1, four sets of guide plates 3 are arranged at an angle from the top to the bottom of the box body 1. The angles of adjacent sets of guide plates 3 are opposite. Each set of guide plates 3 is equipped with two sets of width adjustment components. Specifically, a medicine inlet 10 is provided at the top of the box body 1, and a medicine outlet 11 is provided at the bottom of the box body 1. The uppermost guide plate 3 is located at the medicine inlet 10, and the lowermost guide plate 3 is located at the medicine outlet 11. After the medicine is put in through the medicine inlet 10, the medicine rolls down the guide plates 3 one by one and finally falls at the location of the medicine outlet 10. When the medicine in the medicine outlet 10 is not removed, the medicine put in later will accumulate on the guide plates 3 inside the pillbox, thus forming medicine storage inside the pillbox. The guide plate 3 includes a first guide plate 3.1 and a second guide plate 3.2. The width adjustment component on the guide plate 3 can adjust the interval between the first guide plate 3.1 and the second guide plate 3.2, thereby allowing medicines of different sizes to be placed in the medicine box, making it more versatile. In this embodiment, the length and height of the box body 1 are designed to be 30cm, and the internal width adjustment range is 5cm to 12cm.

[0023] Furthermore, the guide plate 3 includes a first guide plate 3.1 and a second guide plate 3.2, which are respectively arranged on the two side walls of the box body 1. Both the first guide plate 3.1 and the second guide plate 3.2 are L-shaped plates, and are arranged opposite to each other, forming a guide groove structure between them, allowing the medicine to roll and fall within the guide groove. Furthermore, the guide plate 3 includes a connecting part 3.3 and a limiting part 3.4, both of which are plate-shaped structures. The limiting part 3.4 and the connecting part 3.3 are arranged perpendicularly, with the connecting part 3.3 perpendicular to the side wall 2 of the box body and the limiting part 3.4 parallel to the side wall 2 of the box body. The thickness of the connecting part 3.3 is greater than that of the limiting part 3.4. Since the connecting part 3.3 is used to connect the width adjustment component, the thickness of the connecting part 3.3 needs to be designed to be larger to meet the structural strength requirements. The limiting part 3.4 is mainly used to limit the medicine to prevent it from shifting or tilting during the rolling process, which would cause the medicine to get stuck on the guide plate 3 and be unable to fall.

[0024] Further, an embodiment of the width adjusting assembly is as follows: the width adjusting assembly comprises an adjusting rod 4 arranged transversely between the two side walls, the adjusting rod 4 passes through the connecting part 3.3 of the first guide plate 3.1 and the second guide plate 3.2 at the same time, so as to ensure that the first guide plate 3.1 and the second guide plate 3.2 have the same degree of inclination and the same inclination plane, thereby ensuring that the medicine does not deviate during rolling. The connecting part of the first guide plate 3.1 and the adjusting rod 4 are rotationally connected, specifically, the matching section of the adjusting rod 4 and the first guide plate 3.1 is a cylindrical rod, the connecting part 3.3 of the first guide plate 3.1 is provided with a rotating shaft hole matched with the adjusting rod 4, so as to ensure that the first guide plate 3.1 and the adjusting rod 4 can normally rotate relative to each other; in order to prevent the first guide plate 3.1 from deviating transversely and changing the interval between the first guide plate 3.1 and the second guide plate 3.2 when the adjusting rod 4 rotates, the first guide plate 3.1 can be fixed with the side wall of the box body 1, and can be fixed by embedding or adhesion. The connecting part 3.3 of the second guide plate 3.2 and the adjusting rod 4 are rotationally connected, specifically, the matching section of the adjusting rod 4 and the second guide plate 3.2 is a cylindrical threaded rod, the connecting part 3.3 of the second guide plate 3.2 is provided with a rotating shaft threaded hole matched with the adjusting rod 4, so as to ensure that the first guide plate 3.1 and the adjusting rod 4 can normally rotate relative to each other, and when the adjusting rod 4 rotates, the second guide plate 3.2 can move transversely, thereby changing the distance between the first guide plate 3.1 and the second guide plate 3.2, so as to adapt to the movement and storage of medicines of different sizes.

[0025] Further, another embodiment of the width adjusting assembly is as follows: the width adjusting assembly comprises an adjusting rod 4 arranged transversely between the two side walls, the adjusting rod 4 passes through the connecting portion 3.3 of the first guide plate 3.1 and the second guide plate 3.2 at the same time, so as to ensure that the tilting degrees of the first guide plate 3.1 and the second guide plate 3.2 are consistent, the tilting planes are the same, and thus the deviation of the medicine during the rolling process is avoided. The connecting portion of the first guide plate 3.1 and the adjusting rod 4 are rotationally connected, specifically, the matching section of the adjusting rod 4 and the first guide plate 3.1 is a cylindrical rod, the connecting portion 3.3 of the first guide plate 3.1 is provided with a rotating shaft hole matched with the adjusting rod 4, so as to ensure that the first guide plate 3.1 and the adjusting rod 4 can normally rotate relative to each other; in order to prevent the first guide plate 3.1 from being deviated transversely to change the interval between the first guide plate 3.1 and the second guide plate 3.2 when the adjusting rod 4 rotates, the first guide plate 3.1 can be fixed with the side wall of the box body 1, and the embedded fixing mode or the adhesive fixing mode can be adopted for the fixing. The connecting portion 3.3 of the second guide plate 3.2 and the adjusting rod 4 are rotationally connected, specifically, the connecting portion 3.3 of the second guide plate 3.2 is provided with a rotating shaft hole matched with the adjusting rod 4, a transmission nut 5 is arranged on one side of the connecting portion 3.3 of the second guide plate 3.2, the adjusting rod 4 passes through the connecting portion 3.3 of the second guide plate 3.2 and also passes through the transmission nut 5, the matching section of the adjusting rod 4 and the transmission nut 5 is a threaded structure, when the adjusting rod 4 rotates, the second guide plate 3.2 can move along the transverse direction, so as to change the distance between the first guide plate 3.1 and the second guide plate 3.2, so as to adapt to the movement and storage of medicines with different sizes. The width adjusting assembly adopts this embodiment, so that the threaded hole in the connecting portion of the second guide plate 3.2 can be further processed, and the manufacturing difficulty is reduced.

[0026] Further, one end of the adjusting rod 4 is located on one of the side walls of the box body 1 and is rotatably connected to the side wall through a bearing 13, and the other end of the adjusting rod 4 is also rotatably connected to the other side wall through a bearing 13, and extends to the outside of the box body 1 through the side wall, and an adjusting knob 7 is arranged on the adjusting rod 4 outside the box body 1, which is used to drive the adjusting rod 4 to rotate. Specifically, the adjusting knob 7 can be manually driven, or can be automatically driven by intelligence, driven by a motor, and preferably driven by an intelligent motor. Further, the counting sensor 12 is arranged at the medicine inlet 10 and the medicine outlet 11 of the box body 1, the counting sensor 12 at the medicine inlet 10 can count the number of medicines entering the medicine box, and the counting sensor 12 at the medicine outlet 11 can count the number of medicines taken out of the medicine box, so that the total number of medicines in the medicine box can be displayed in real time. Further, the control panel 14 is arranged on the front side of the medicine box, and the control panel 14 includes a display screen and a button, the display screen can display the inventory of medicines in the medicine box, and by inputting the size of the medicine, the automatic adjustment of the width adjustment assembly can also be realized, and the adjustment accuracy is improved. The sealing cover 15 is arranged at the medicine inlet 10, and the sealing cover 15 can encapsulate the medicines in the medicine box to protect the medicines.

[0027] Further, the anti-skid pads 6 are arranged on the upper surfaces of the connecting portions 3.3 of the first guide plate 3.1 and the second guide plate 3.2, and specifically, the anti-skid pads 6 are rubber pad structures, which can increase the friction between the medicines and the anti-skid pads 6 when the medicines roll on the upper surfaces of the connecting portions 3.3 of the first guide plate 3.1 and the second guide plate 3.2, prevent the medicines from slipping and deviating, ensure that the medicines only perform pure rolling motion, and ensure that the medicines will not be skewed and stuck during the rolling process.

[0028] Embodiment 2: as Figures 1 to 4The illustrated small adjustable intelligent medicine box comprises a box body 1, four groups of guide plates 3 are arranged in the box body 1, the guide plates 3 are arranged in a slope from top to bottom of the box body 1, the slope directions of the adjacent two groups of guide plates 3 are opposite, two groups of width adjusting assemblies are arranged on each group of guide plates 3, specifically, a medicine inlet 10 is arranged at the top of the box body 1, a medicine outlet 11 is arranged at the bottom of the box body 1, the uppermost guide plate 3 is arranged in a slope, the upper end of the slope is located at the position of the medicine inlet 10, the lowermost guide plate 3 is arranged in a slope, the lower end of the slope is located at the position of the medicine outlet 11, after the medicine is put into the medicine inlet 10, the medicine falls layer by layer along the guide plates 3, and finally falls at the position of the medicine outlet 10, when the medicine in the medicine outlet 10 is not taken away, the medicine put in the back will be stacked on the guide plates 3 in the medicine box, thereby forming the storage of the medicine in the medicine box. The guide plate 3 comprises a first guide plate 3.1 and a second guide plate 3.2, the width adjusting assembly on the guide plate 3 can adjust the interval between the first guide plate 3.1 and the second guide plate 3.2, so that medicines of different sizes can be placed in the medicine box, and the applicability is more extensive. In the embodiment, the length and height of the box body 1 are designed to be 30 cm, and the internal width adjusting range is 5 cm to 12 cm.

[0029] Further, the guide plate 3 comprises a first guide plate 3.1 and a second guide plate 3.2, the first guide plate 3.1 and the second guide plate 3.2 are arranged at the positions of the two side walls of the box body 1 respectively, the first guide plate 3.1 and the second guide plate 3.2 are both L-shaped plates, the first guide plate 3.1 and the second guide plate 3.2 are arranged oppositely, a guide groove structure is formed between the first guide plate 3.1 and the second guide plate 3.2, and the medicine can roll and fall in the guide groove. Further, the guide plate 3 comprises a connecting portion 3.3 and a limiting portion 3.4, the limiting portion 3.4 and the connecting portion 3.3 are both plate-shaped structures, the limiting portion 3.4 and the connecting portion 3.3 are arranged vertically, the connecting portion 3.3 is perpendicular to the side wall 2 of the box body, and the limiting portion 3.4 is parallel to the side wall 2 of the box body. The thickness of the connecting portion 3.3 is greater than the thickness of the limiting portion 3.4, because the connecting portion 3.3 is used for connecting and arranging the width adjusting assembly, the thickness of the connecting portion 3.3 needs to be designed to be larger to meet the structural strength; the limiting portion 3.4 is mainly used for limiting the medicine, preventing the medicine from deviating or tilting during the rolling process, and causing the medicine to be stuck on the guide plate 3 and unable to fall.

[0030] Furthermore, a buffer guide block 8 is provided between two adjacent sets of guide plates 3. The buffer guide block 8 is an arc-shaped block structure with an arc-shaped recess 9. The recess 9 of the buffer guide block 8 faces the upper guide plate 3. When the medicine rolls off the upper guide plate 3, it will fall onto the recess 9 of the buffer guide block 8, and then continue to fall along the recess 9 of the buffer guide block 8 onto the lower guide plate 3. The buffer guide block 8 can play a buffering role, ensuring that the medicine is not impacted when rolling. Furthermore, the buffer guide block 8 is arranged laterally inside the box body 1, and both ends of the buffer guide block 8 are rotatably connected to the side wall 2 of the box body. The rotation of the buffer guide block 8 can adjust the orientation of the recess 9, so that the recess 9 can receive the medicine falling from the upper guide plate 3, and at the same time transfer the medicine to the lower guide plate 3, which can adapt to the transfer of medicines of different sizes.

[0031] Furthermore, one embodiment of the width adjustment component is as follows: the width adjustment component includes an adjustment rod 4, which is laterally arranged between the two side walls. The adjustment rod 4 passes through the connecting part 3.3 of the first guide plate 3.1 and the second guide plate 3.2 to ensure that the inclination degree of the first guide plate 3.1 and the second guide plate 3.2 is consistent and that their inclination planes are the same, thereby ensuring that the medicine does not deviate during the rolling process. A rotatable connection is formed between the connecting part of the first guide plate 3.1 and the adjustment rod 4. Specifically, the mating section of the adjustment rod 4 and the first guide plate 3.1 is a cylindrical rod. The connecting part 3.3 of the first guide plate 3.1 is provided with a rotating shaft hole adapted to the adjustment rod 4, ensuring that the first guide plate 3.1 and the adjustment rod 4 can rotate normally relative to each other. To prevent the first guide plate 3.1 from shifting laterally and changing the interval between the first guide plate 3.1 and the second guide plate 3.2 when the adjustment rod 4 rotates, the first guide plate 3.1 can be fixed to the side wall of the box body 1 by means of embedding or adhesive fixing. The connecting part 3.3 of the second guide plate 3.2 and the adjusting rod 4 form a rotatable connection. Specifically, the mating section between the adjusting rod 4 and the second guide plate 3.2 is a cylindrical threaded rod. The connecting part 3.3 of the second guide plate 3.2 is provided with a rotating shaft threaded hole that matches the adjusting rod 4, ensuring that the first guide plate 3.1 and the adjusting rod 4 can rotate normally relative to each other. When the adjusting rod 4 rotates, the second guide plate 3.2 can move laterally, thereby changing the distance between the first guide plate 3.1 and the second guide plate 3.2 to accommodate the movement and storage of medicines of different sizes.

[0032] Furthermore, another embodiment of the width adjustment component is as follows: the width adjustment component includes an adjustment rod 4, which is laterally arranged between the two side walls. The adjustment rod 4 passes through the connecting part 3.3 of the first guide plate 3.1 and the second guide plate 3.2 to ensure that the inclination degree of the first guide plate 3.1 and the second guide plate 3.2 is consistent and that their inclination planes are the same, thereby ensuring that the medicine does not deviate during the rolling process. A rotatable connection is formed between the connecting part of the first guide plate 3.1 and the adjustment rod 4. Specifically, the mating section of the adjustment rod 4 and the first guide plate 3.1 is a cylindrical rod. The connecting part 3.3 of the first guide plate 3.1 is provided with a rotating shaft hole adapted to the adjustment rod 4, ensuring that the first guide plate 3.1 and the adjustment rod 4 can rotate normally relative to each other. To prevent the first guide plate 3.1 from shifting laterally and changing the interval between the first guide plate 3.1 and the second guide plate 3.2 when the adjustment rod 4 rotates, the first guide plate 3.1 can be fixed to the side wall of the box body 1 by means of embedding or adhesive fixing. In this design, a rotatable connection is formed between the connecting portion 3.3 of the second guide plate 3.2 and the adjusting rod 4. Specifically, the connecting portion 3.3 of the second guide plate 3.2 is provided with a rotating shaft hole adapted to the adjusting rod 4. A transmission nut 5 is provided on one side of the connecting portion 3.3 of the second guide plate 3.2. The adjusting rod 4 passes through the connecting portion 3.3 of the second guide plate 3.2 and also passes through the transmission nut 5. The mating section between the adjusting rod 4 and the transmission nut 5 has a threaded structure. When the adjusting rod 4 rotates, the second guide plate 3.2 can move laterally, thereby changing the distance between the first guide plate 3.1 and the second guide plate 3.2 to accommodate the movement and storage of medicines of different sizes. This implementation of the width adjustment assembly avoids the need for further machining of threaded holes in the connecting portion of the second guide plate 3.2, reducing manufacturing difficulty.

[0033] Furthermore, one end of the adjusting rod 4 is located on one side wall of the box body 1 and is rotatably connected to the side wall via a bearing 13. The other end of the adjusting rod 4 is also rotatably connected to the other side wall via a bearing 13, passing through the side wall and extending to the outside of the box body 1. An adjusting knob 7 is provided on the adjusting rod 4 on the outside of the box body 1 to drive the adjusting rod 4 to rotate. Specifically, the adjusting knob 7 can be driven manually or automatically by a motor, preferably by an intelligent motor. Furthermore, counting sensors 12 are also provided at the medicine inlet 10 and medicine outlet 11 of the box body 1. The counting sensor 12 at the medicine inlet 10 can count the number of medicines entering the medicine box, and the counting sensor 12 at the medicine outlet 11 can count the number of medicines taken out of the medicine box, thereby displaying the total number of medicines in the medicine box in real time. Furthermore, a control panel 14 is provided on the front of the medicine box. The control panel 14 includes a display screen and buttons. The display screen can show the inventory of medicines in the medicine box. By inputting the size of the medicines, the width adjustment component can also be automatically adjusted to improve the adjustment accuracy. A sealing cover 15 is also provided at the medicine inlet 10, which can seal the medicines in the medicine box for protection.

[0034] Furthermore, anti-slip pads 6 are provided on the upper surface of the connection part 3.3 between the first guide plate 3.1 and the second guide plate 3.2. Specifically, the anti-slip pads 6 are rubber pads. When the medicine rolls on the upper surface of the connection part 3.3 between the first guide plate 3.1 and the second guide plate 3.2, the friction between the medicine and the anti-slip pads 6 can be increased to prevent the medicine from slipping and deviating, ensuring that the medicine only performs pure rolling motion, thereby ensuring that the medicine will not deviate or get stuck during the rolling process.

Claims

1. A small, adjustable smart pillbox, characterized in that, The device includes a box body, and several sets of inclined guide plates are provided between the two side walls of the box body and along the vertical direction. At least two sets of width adjustment components are provided between each set of guide plates. The width adjustment components include adjustment rods, and the adjustment rods are rotatably connected between each set of guide plates. One of the guide plates and the adjustment rods are threadedly connected to form a threaded transmission connection.

2. The small adjustable smart pillbox according to claim 1, characterized in that, The guide plate includes a first guide plate and a second guide plate. The first guide plate is fixed relative to the side wall of the box, and the second guide plate is threadedly connected to the adjusting rod.

3. The small adjustable smart pillbox according to claim 1, characterized in that, The guide plate includes a first guide plate and a second guide plate. The first guide plate is fixed relative to the side wall of the box body, and a transmission nut is fixed on the second guide plate. The transmission nut is threadedly connected to the adjusting rod.

4. A small adjustable smart pillbox according to claim 2 or 3, characterized in that, The guide plate is an L-shaped plate, and the guide plate includes a connecting part and a limiting part. The connecting part is perpendicular to the side wall of the box and rotatably connected to the adjusting rod, and the limiting part is parallel to the side wall of the box.

5. A small adjustable smart pillbox according to claim 4, characterized in that, The upper surface of the connecting part is provided with an anti-slip pad.

6. A small adjustable smart pillbox according to claim 4, characterized in that, One end of the adjusting rod is located outside the box and is equipped with an adjusting knob.

7. A small adjustable smart pillbox according to any one of claims 1 to 3, characterized in that, Two adjacent sets of guide plates are inclined in opposite directions and are provided with buffer guide blocks. The buffer guide blocks are arc-shaped blocks with concave parts, and the concave parts face the upper set of guide plates.

8. A small adjustable smart pillbox according to claim 7, characterized in that, The buffer guide block is rotatably connected to the side wall of the box.

9. A small adjustable smart pillbox according to any one of claims 1 to 3, characterized in that, The box has a medicine inlet at the top and a medicine outlet at the bottom.

10. A small adjustable smart pillbox according to claim 9, characterized in that, The inlet and outlet of the medicine are equipped with counting sensors.