Packaging box and medicine box
By setting limiting components in the packaging box to restrict the sliding of the compartment, the problem of items falling out due to compartment sliding is solved, achieving better sealing effect and ease of operation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- XIWEN GAOXIN TECH (ZHUHAI) CO LTD
- Filing Date
- 2025-07-08
- Publication Date
- 2026-06-16
Smart Images

Figure CN224361655U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of packaging technology, specifically to a packaging box and a medicine box. Background Technology
[0002] Packaging boxes are boxes used to package and protect goods. Pull-out packaging boxes are widely used for easy access and storage of items.
[0003] Commonly used pull-out packaging boxes consist of an outer shell and a compartment with a storage slot. The compartment is slidably connected to the outer shell. The compartment can slide along the outer shell until it covers the storage slot, thus sealing the items inside the storage slot. The compartment can also slide along the outer shell, exposing the storage slot to the outside of the outer shell, making it easy to retrieve items from the storage slot.
[0004] However, in existing packaging boxes, when the compartment slides to the outer shell to cover the storage compartment, the outer shell and the compartment are only restricted from sliding against each other by friction. The compartment is prone to sliding relative to the outer shell, which means that the outer shell cannot completely cover the storage compartment, causing the items in the storage compartment to fall out.
[0005] Therefore, how to solve or improve the problem that the compartment of the packaging box is prone to sliding relative to the outer shell, causing the items in the storage compartment to fall out, has become an important technical problem to be solved by those skilled in the art. Utility Model Content
[0006] In view of this, this application provides a packaging box and a medicine box to solve or improve the problem that the outer shell of the packaging box is prone to sliding relative to the compartment body, causing items in the storage compartment to fall out.
[0007] In a first aspect, this application provides a packaging box, comprising:
[0008] The outer casing is provided with a first limiting part;
[0009] The compartment body is provided with a storage slot and a second limiting part. The compartment body is slidably connected to the outer shell, and the compartment body can slide between a first position and a second position of the outer shell.
[0010] When the compartment is in the first position, the storage slot is at least partially offset from the outer shell;
[0011] When the compartment is in the second position, the outer shell covers the storage slot, and the first limiting part and the second limiting part cooperate in the upper limit of the sliding direction of the compartment to restrict the compartment from sliding to the first position.
[0012] In one alternative embodiment, at least one of the first limiting portion and the second limiting portion is elastic;
[0013] When the second limiting part and the first limiting part are not pressed together, the second limiting part and the first limiting part at least partially overlap in the sliding direction of the chamber body;
[0014] When the second limiting part and the first limiting part are squeezed together and elastically deformed, the two can be offset from each other in the sliding direction of the chamber.
[0015] In one alternative embodiment, one of the first limiting part and the second limiting part is a stop block, and the other is a spring piece.
[0016] In one optional embodiment, a first slide rail is provided on the outer shell along the sliding direction of the compartment, and a first slide groove is provided on the compartment along the sliding direction of the compartment, wherein the first slide rail and the first slide groove are slidably connected.
[0017] In one optional embodiment, the outer shell is provided with a third limiting part, and the compartment is provided with a fourth limiting part, wherein the third limiting part and the fourth limiting part at least partially overlap in the sliding direction of the compartment.
[0018] When the compartment is in the first position, the third limiting part and the fourth limiting part abut against each other in the sliding direction of the compartment to restrict the compartment from sliding away from the second position.
[0019] In one optional embodiment, the hopper body is provided with a strip groove, and a plurality of support plates are provided in the strip groove. Each support plate is arranged sequentially along the sliding direction of the hopper body. The support plate is provided with a stepped portion, and the side wall of the stepped portion and the inner wall of the strip groove form the first sliding groove.
[0020] The third limiting part is disposed in the strip groove, and the fourth limiting part is disposed on the first slide rail.
[0021] In one optional embodiment, the first slide rail is provided on both opposite sides of the outer shell, and the first slide groove is provided on both opposite sides of the compartment body, with the first slide rail and the first slide groove being slidably connected in a one-to-one correspondence.
[0022] In one optional embodiment, the outer casing includes a first plate, a second plate, and a third plate connected in sequence to form a U-shaped structure. The first plate corresponds to the side of the storage compartment with an opening, and the third plate corresponds to the side of the storage compartment away from the opening.
[0023] In one optional embodiment, the housing is provided with a first gripping portion;
[0024] When the housing is in the second position, the first grip portion is exposed outside the outer shell.
[0025] In one optional embodiment, the compartment body is further provided with a second gripping part, and the first gripping part and the second gripping part are respectively located on opposite sides of the compartment body;
[0026] When the housing is in the second position, both the first grip portion and the second grip portion are exposed outside the outer shell.
[0027] In one optional embodiment, the first limiting part is configured as a first magnetic attractor, and the second limiting part is configured as a second magnetic attractor, wherein the first magnetic attractor and the second magnetic attractor can attract each other when they come into contact.
[0028] Secondly, this application also provides a medicine box, including an outer box and a plurality of inner boxes disposed within the outer box, wherein the inner boxes are configured as any of the packaging boxes described above, and the inner boxes are used to store medicines.
[0029] In one alternative embodiment, a plurality of partitions are further included, each partition being arranged sequentially at intervals within the outer box, with a placement space for placing the inner box formed between each pair of adjacent partitions.
[0030] In one alternative implementation, a foolproof structure is provided between two adjacent partitions.
[0031] In one optional implementation, each of the inner boxes is provided with an identification area, which is used to set a prompt label.
[0032] This application provides a packaging box, including an outer shell and a compartment. The compartment has a storage slot and a second limiting part. The compartment is slidably connected to the outer shell and is capable of sliding between a first position and a second position. When the compartment is in the first position of the outer shell, the storage slot is at least partially offset from the outer shell. When the compartment is in the second position of the outer shell, the outer shell covers the storage slot, and the first limiting part and the second limiting part are engaged in an upper limit engagement in the sliding direction of the compartment to restrict the compartment from sliding towards the first position.
[0033] When the storage compartment needs to be opened, slide the compartment to the first position of the outer shell, causing the storage compartment to be at least partially offset from the outer shell, thus exposing the opening of the storage compartment. In this state, items can be placed into the storage compartment. Then slide the compartment to the second position of the outer shell, causing the outer shell to cover the opening of the storage compartment, thus sealing the items inside the storage compartment. Because the compartment is in the second position of the outer shell, the first limiting part on the outer shell and the second limiting part on the compartment form a limiting engagement in the sliding direction of the compartment. The first limiting part can restrict the compartment from sliding towards the first position of the outer shell, that is, it can restrain the compartment in the second position of the outer shell. After the first and second limiting parts form a limiting engagement, the storage compartment is prevented from being offset from the outer shell, avoiding the storage compartment being exposed and items falling out. Attached Figure Description
[0034] To more clearly illustrate the technical solutions in the specific embodiments or related technologies of this application, the drawings used in the description of the specific embodiments or related technologies will be briefly introduced below. Obviously, the drawings described below are some embodiments of this application. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.
[0035] Figure 1 This is a schematic diagram of the structure of a packaging box with its storage compartment portion offset from the outer shell, according to an embodiment of this application.
[0036] Figure 2 This is a schematic diagram of the structure of a packaging box with its outer shell covering the storage compartment, according to an embodiment of this application.
[0037] Figure 3 This is a schematic diagram of the compartment structure of a packaging box according to an embodiment of this application;
[0038] Figure 4 This is a schematic diagram of the outer shell structure of a packaging box according to an embodiment of this application;
[0039] Figure 5 This is a top view of a packaging box with its outer shell covering the storage compartment, according to an embodiment of this application.
[0040] Figure 6 Examples of embodiments of this application Figure 5 AA section diagram;
[0041] Figure 7 This is a bottom view of a packaging box according to an embodiment of the present application, where the storage compartment portion is offset from the outer shell;
[0042] Figure 8 Examples of embodiments of this application Figure 7 BB section diagram;
[0043] Figure 9 for Figure 8 Enlarged view of point D in the image;
[0044] Figure 10 This is a bottom view of a packaging box with its outer shell covering the storage compartment, according to an embodiment of this application.
[0045] Figure 11 Examples of embodiments of this application Figure 10 CC section diagram in the image;
[0046] Figure 12 for Figure 11 Enlarged view of point E in the image;
[0047] Figure 13 This is a schematic diagram of the structure of a medicine box according to an embodiment of this application;
[0048] Figure 14 This is a schematic diagram of the inner box of a medicine box placed in a storage space, according to an embodiment of this application.
[0049] Explanation of reference numerals in the attached figures:
[0050] 1. Outer shell; 101. First plate; 102. Second plate; 103. Third plate; 104. Fourth plate; 11. First limiting part; 111. First inclined surface; 12. First slide rail; 13. Third limiting part; 14. Second slide groove; 2. Compartment; 21. Storage compartment; 22. Second limiting part; 221. Elastic part; 222. Abutting part; 2221. Second inclined surface; 23. First slide groove; 24. Fourth limiting part; 25. Strip groove; 251. Support plate; 252. Step part; 26. Second slide rail; 27. First grip part; 28. Second grip part; 29. Stop bar; 210. Rib; 3. Outer box; 4. Inner box; 41. Identification area; 5. Partition; 51. Protrusion. Detailed Implementation
[0051] To make the objectives, technical solutions, and advantages of the embodiments of this application clearer, the technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application.
[0052] The following is combined Figures 1 to 14 This describes an embodiment of the present application.
[0053] According to embodiments of this application, in one aspect, a packaging box is provided, such as... Figure 1 As shown, it includes an outer shell 1 and a compartment 2. A storage slot 21 is provided on one side of the compartment 2, wherein the storage slot 21 is used to place items.
[0054] The outer shell 1 has a first position and a second position, and the compartment 2 is slidably connected to the outer shell 1, so that the compartment 2 can slide between the first position and the second position of the outer shell 1.
[0055] When the compartment 2 is in the first position of the outer shell 1, as Figure 1 As shown, the storage compartment 21 is at least partially offset from the outer casing 1, so that at least part of the storage compartment 21 is exposed outside the outer casing 1, thereby allowing items to be placed into the storage compartment 21. When the compartment 2 is in the second position of the outer casing 1, as... Figure 2 As shown, the outer shell 1 covers the storage compartment 21, thereby enclosing the items inside the storage compartment 21 and realizing the storage of the items.
[0056] Where the storage compartment 21 is at least partially offset from the outer casing 1, it means that the storage compartment 21 is at least partially offset from the outer casing 1 in its depth direction, so that the storage compartment 21 is at least partially exposed outside the outer casing 1. When the storage compartment 21 is completely offset from the outer casing 1, the opening of the storage compartment 21 is fully open. When the storage compartment 21 is partially offset from the outer casing 1, the opening of the storage compartment 21 is partially exposed and partially obscured by the outer casing 1.
[0057] A first limiting part 11 is provided on the outer shell 1, and a second limiting part 22 is provided on the compartment 2. When the compartment 2 is in the second position of the outer shell 1, the first limiting part 11 and the second limiting part 22 cooperate to limit the compartment 2 from sliding to the first position.
[0058] Thus, when it is necessary to open the storage compartment 21, the limiting engagement between the first limiting part 11 and the second limiting part 22 is released, and the compartment 2 is slid to the first position of the outer shell 1, so that the storage compartment 21 is at least partially misaligned with the outer shell 1, thereby exposing the opening of the storage compartment 21. In this state, an item is placed into the storage compartment 21, and then the compartment 2 is slid to the second position of the outer shell 1, so that the outer shell 1 covers the opening of the storage compartment 21, thereby sealing the item inside the storage compartment 21. The first limiting part 11 and the second limiting part 22 are repositioned to limit each other. Since the first limiting part 11 on the outer shell 1 and the second limiting part 22 on the compartment 2 form a limiting engagement in the sliding direction of the compartment 2, the first limiting part 11 can restrict the compartment 2 from sliding in the first position direction of the outer shell 1. That is, it can restrict the compartment 2 to the second position of the outer shell 1. The first limiting part 11 and the second limiting part 22 form a limiting engagement, thereby preventing the storage compartment 21 from being misaligned with the outer shell 1 and preventing the storage compartment 21 from being exposed and causing items to fall out.
[0059] As an optional embodiment, at least one of the first limiting part 11 and the second limiting part 22 is elastic. When the first limiting part 11 and the second limiting part 22 are not pressed against each other, the second limiting part 22 and the first limiting part 11 at least partially overlap in the sliding direction of the compartment 2. When the first limiting part 11 and the second limiting part 22 are pressed against each other and undergo elastic deformation, the first limiting part 11 and the second limiting part 22 can be offset from each other in the sliding direction of the compartment 2.
[0060] In some embodiments, the second limiting part 22 is configured as an elastic structure and has elasticity. When it is necessary to open the storage slot 21, a pulling force is applied to the compartment 2, and the second limiting part 22 on the compartment 2 undergoes elastic deformation under the action of external force, so that the second limiting part 22 and the first limiting part 11 are misaligned in the sliding direction of the compartment 2, so as to release the restriction between the second limiting part 22 and the first limiting part 11. If the pulling force is continued to be applied to the compartment 2, the second limiting part 22 will disengage from the first limiting part 11, the second limiting part 22 will restore its deformation, and at the same time drive the compartment 2 to slide to the first position, thereby making the storage slot 21 at least partially exposed, that is, the storage slot 21 is opened.
[0061] When it is necessary to close the storage compartment 21, a pushing force is applied to the compartment 2, causing the compartment 2 to slide towards the second position of the outer shell 1 until the second limiting part 22 contacts the first limiting part 11. The pushing force is then applied to the compartment 2, causing the second limiting part 22 to undergo elastic deformation and pass through the first limiting part 11. After that, the second limiting part 22 rebounds to its normal state. The second limiting part 22 and the first limiting part 11 partially overlap in the sliding direction of the compartment 2, so that the first limiting part 11 and the second limiting part 22 form a limiting engagement to restrict the compartment 2 from sliding towards the first position.
[0062] When the first limiting part and the second limiting part are pressed against each other, they can generate elastic deformation so that they can be offset from each other in the sliding direction of the chamber. After they are separated, they can automatically recover their elastic deformation to restore the limiting fit between the first limiting part 11 and the second limiting part 22. There is no need to actively apply force to restore the second limiting part 22 to its normal state, making it more convenient to use.
[0063] In other embodiments, the first limiting part can be configured as an elastic structure, or both the first limiting part and the second limiting part can be configured as elastic structures. As long as they can generate elastic deformation when they are squeezed together, so that they can be offset from each other in the sliding direction of the chamber, and can recover elastic deformation after they are separated from each other, and at least partially overlap in the sliding direction of the chamber.
[0064] In an optional embodiment, one of the first limiting part 11 and the second limiting part is a stop block, and the other is a spring piece.
[0065] like Figure 3 and Figure 4As shown, the first limiting part 11 is a stop block provided on the outer shell 1, and the second limiting part 22 is a spring piece provided on the compartment 2. In the sliding direction of the compartment 2, the spring piece and the stop block partially overlap. The sliding direction of the compartment 2 includes a first direction X and a second direction Y that are opposite to each other. The first direction X is the direction in which the compartment 2 slides from the first position to the second position, and the second direction Y is the direction in which the compartment 2 slides from the second position to the first position.
[0066] When the compartment 2 is in the first position of the outer shell 1, such as Figure 1 As shown, the spring is located on the side of the stop block away from the first direction X, and there is a gap between the spring and the stop block. When the compartment 2 is in the second position of the outer shell 1, the spring is located on the side of the stop block away from the second direction Y, and the spring and the stop block abut against each other in the second direction Y, thereby locking the compartment 2 and the outer shell 1.
[0067] When the compartment 2 slides from the second position to the first position of the outer shell 1, the spring plate can undergo elastic deformation under the external force of the stop block, so that the spring plate is offset from the stop block in the sliding direction after deformation, thereby unlocking the compartment 2 and the outer shell 1. As force continues to be applied to slide the compartment 2 along the second direction Y, after the spring plate leaves the stop block, the spring plate is no longer subject to the reaction force of the stop block and returns to its original deformation. Since the spring plate is partially overlapped with the stop block in the first direction X at this time, force can continue to be applied to slide the compartment 2 along the second direction Y until the compartment 2 slides to the first position, so that the storage slot 21 is at least partially exposed. Items are placed into the storage slot 21. At this time, as the compartment 2 slides, the distance between the spring plate and the stop block continuously increases.
[0068] After placing the items inside, when it's time to close the storage compartment 21, force is applied to slide the compartment 2 from the first position to the second position, causing the outer shell 1 to gradually cover the storage compartment 21. At this time, the distance between the spring and the stop block gradually decreases until the spring abuts against the stop block in the first direction X. As force continues to be applied to slide the compartment 2 along the first direction X, the spring deforms due to the reaction force of the stop block, and gradually deforms until it is misaligned with the stop block in the first direction X. This continues until force is applied to slide the compartment 2 to the second position, such as... Figure 10 and Figure 11 As shown, after the spring leaves the stop block, it is no longer subjected to the reaction force of the stop block and returns to its original deformation. At this time, the spring is located on the side of the stop block away from the second direction Y, and the spring and the stop block abut against each other in the second direction Y. This restricts the sliding of the chamber 2 along the second direction Y, that is, restricts the sliding of the chamber 2 towards the first position.
[0069] With this configuration, only the sliding chamber 2 needs to be slid under force, and the second limiting part 22 will deform and return to its original shape accordingly. No additional operation is required on the second limiting part 22, which simplifies the operation.
[0070] The first limiting part 11 can also be a spring piece provided on the outer shell 1, and the second limiting part 22 can be a stop block provided on the compartment 2. In this way, when opening or closing the storage compartment 21, the operation method is the same as in the above embodiment. When the compartment 2 slides, the spring piece can be deformed by the reaction force of the stop block, so it will not be described again.
[0071] In some embodiments, such as Figure 11 and Figure 12 As shown, the spring piece has second inclined surfaces 2221 on both the front and rear sides in the sliding direction of the housing 2. When the housing 2 slides towards the second position of the outer shell 1, one side of the stop block cooperates with one of the second inclined surfaces 2221 for guidance. When the housing 2 slides towards the first position of the outer shell 1, the other side of the stop block cooperates with another second inclined surface 2221 for guidance. This facilitates the stop block to apply force to the spring piece to cause deformation, reduces the risk of jamming between the spring piece and the stop block when the housing 2 slides, and makes the locking and unlocking of the housing 2 smoother, improving the user experience.
[0072] In other embodiments, such as Figure 11 and Figure 12 As shown, the stop block has first inclined surfaces 111 on both the front and rear sides of the compartment 2 in the sliding direction. When the compartment 2 slides towards the second position of the outer shell 1, one side of the spring piece cooperates with one of the first inclined surfaces 111 for guidance. When the compartment 2 slides towards the first position of the outer shell 1, the other side of the spring piece cooperates with the other first inclined surface 111 for guidance. This facilitates the stop block to apply force to the spring piece to cause deformation, reduces the risk of jamming between the spring piece and the stop block when the compartment 2 slides, and makes the locking and unlocking of the compartment smoother, improving the user experience.
[0073] It is worth noting that, such as Figure 11 and Figure 12 As shown, the first inclined surface 111 and the second inclined surface 2221 can be set simultaneously as above. When the chamber 2 slides to the second position of the outer shell 1, one first inclined surface 111 cooperates with one second inclined surface 2221 for guidance. When the chamber 2 slides to the first position of the outer shell 1, the other first inclined surface 11 cooperates with the other second inclined surface 2221 for guidance.
[0074] The spring includes an elastic part 221 and an abutment part 222. In the locked state, the abutment part 222 and the stop block partially overlap in the first direction X of the compartment 2. During the unlocking process of the compartment 2, when the abutment part 222 abuts against the stop block, the elastic part 221 deforms, causing the abutment part 222 and the stop block to be misaligned in the first direction X of the compartment 2.
[0075] As an optional embodiment, the first limiting part 11 and the second limiting part 22 can also be respectively configured as a matching snap-fit protrusion and a snap-fit groove. The snap-fit protrusion is provided on the outer shell 1, and the snap-fit groove is provided on the compartment 2. When the compartment 2 slides to the second position of the outer shell 1, the snap-fit protrusion aligns with the snap-fit groove and is inserted into the snap-fit groove, so that the snap-fit protrusion and the inner wall of the snap-fit groove are engaged in a limiting fit in the sliding direction of the compartment 2, thereby restricting the compartment 2 from sliding in the direction of the first position of the outer shell 1, thereby restricting the storage compartment 21 from being misaligned with the outer shell 1, and preventing the storage compartment 21 from being exposed and causing items to fall out.
[0076] When it is necessary to open the storage compartment 21, force is applied to disengage the locking protrusion from the locking groove, releasing the limiting fit between the locking protrusion and the locking groove, so that the compartment 2 can slide in the direction of the first position of the outer shell 1, so that the opening of the storage compartment 21 is at least partially offset from the outer shell 1, so that the storage compartment 21 is at least partially exposed.
[0077] As an optional embodiment, the first limiting part 11 is a first magnetic attractor, and the second limiting part 22 is a second magnetic attractor. The first magnetic attractor and the second magnetic attractor are matched and can attract each other when in contact. The first magnetic attractor and the second magnetic attractor can be magnets. When the compartment 2 slides to the second position of the outer shell 1, the first limiting part 11 and the second limiting part 22 come into contact, thereby attracting each other to engage in a limiting fit in the sliding direction of the compartment 2, thereby restricting the compartment 2 from sliding in the direction of the first position of the outer shell 1, and further restricting the storage slot 21 from being misaligned with the outer shell 1, preventing the storage slot 21 from being exposed and causing items to fall out.
[0078] When it is necessary to open the storage compartment 21, force is applied to slide the compartment body towards the first position of the outer shell 1 to overcome the suction force and separate the first limiting part 11 and the second limiting part 22, thereby releasing the limiting fit between the first limiting part 11 and the second limiting part 22, so that the compartment body 2 can slide towards the first position of the outer shell 1, so that the opening of the storage compartment 21 is at least partially offset from the outer shell 1, so that the storage compartment 21 is at least partially exposed.
[0079] As an optional embodiment, such as Figures 7 to 9 As shown, a first slide rail 12 is provided on the outer shell 1, and the first slide rail 12 is slidably disposed along the sliding direction of the compartment 2. A first slide groove 23 is correspondingly provided on the compartment 2, and the first slide groove 23 is slidably disposed along the sliding direction of the compartment 2. The first slide rail 12 and the first slide groove 23 are slidably connected, that is, the first slide rail 12 is inserted into the first slide groove 23 and can slide along the first slide groove 23.
[0080] This configuration guides the chamber 2 through the sliding engagement of the first slide rail 12 and the first slide groove 23, allowing the chamber 2 to slide between the first and second positions of the outer shell 1, making the sliding connection between the chamber 2 and the outer shell 1 more stable and reliable.
[0081] like Figure 3 and Figure 4 As shown, a third limiting part 13 is provided on the outer shell 1, and a fourth limiting part 24 is provided on the compartment 2. The third limiting part 13 and the fourth limiting part 24 at least partially overlap in the sliding direction of the compartment 2.
[0082] When the compartment 2 is in the first position of the outer shell 1, the third limiting part 13 and the fourth limiting part abut against each other in the sliding direction of the compartment 2 to limit the sliding of the compartment 2 away from the second position.
[0083] With this configuration, when the compartment 2 is slid away from the second position to the first position, so that at least part of the storage compartment 21 is exposed, the third limiting part 13 and the fourth limiting part abut against each other to form a limiting engagement, which restricts the compartment 2 from continuing to slide away from the second position, thereby preventing the compartment 2 from detaching from the outer shell 1 and preventing the compartment 2 from falling out.
[0084] Specifically, as the compartment 2 slides along the second direction Y, the distance between the third limiting part 13 and the fourth limiting part 24 gradually decreases until the compartment 2 slides to the first position. At this point, the third limiting part 13 and the fourth limiting part 24 abut against each other in the second direction Y, thus restricting the compartment 2 from continuing to slide away from the second position along the second direction Y. Therefore, the compartment 2 cannot continue to slide along the second direction Y, thereby preventing the compartment 2 from detaching from the outer shell 1 and preventing it from falling out. Since the third limiting part 13 and the fourth limiting part 24 abut against each other in the second direction Y at this time, although the compartment 2 cannot continue to slide along the second direction Y, it can slide along the first direction X, ensuring that the compartment 2 can slide normally towards the second position.
[0085] The third limiting part 13 can be a protrusion provided on the outer shell 1, and the fourth limiting part 24 can be a limiting block provided on the compartment 2.
[0086] like Figure 3 and Figure 8 As shown, a strip groove 25 is provided on the hopper body 2, and the strip groove 25 is arranged along the sliding direction of the hopper body 2. Multiple support plates 251 are arranged within the strip groove 25, and each support plate 251 is arranged sequentially along the extending direction of the strip groove 25, that is, each support plate 251 is arranged along the sliding direction of the hopper body 2. A stepped portion 252 is formed by protruding upwards on each support plate 251, and the side wall of the stepped portion 252 and the inner wall of the strip groove 25 form a first sliding groove 23.
[0087] like Figure 3 and Figure 4As shown, the fourth limiting part 24 is disposed on the inner wall of the strip groove 25, and the third limiting part 13 is disposed on the first slide rail 12. When the first slide rail 12 is slidably inserted into the first slide groove 23, the first slide rail 12 is located between the step portion 252 on each support plate 251 and the inner wall of the strip groove 25. When the first slide rail 12 slides along the first slide groove 23, it slides along the strip groove 25. When the hopper 2 slides, the fourth limiting part 24 on the side wall of the strip groove 25 and the third limiting part 13 on the first slide rail 12 partially overlap in the sliding direction of the hopper 2. When the hopper 2 slides to the first position, the third limiting part 13 and the fourth limiting part 24 abut against each other and limit the movement, preventing the hopper 2 from sliding further away from the second position after sliding to the first position.
[0088] The fourth limiting part 24 can be provided on one of the step parts 252. The first slide rail 12 is partially slidably disposed in the first slide groove 23, and the third limiting part 13 is disposed on the part of the first slide rail 12 located outside the first slide groove 23. Thus, when the first slide rail 12 slides along the first slide groove 23 formed between the side wall of the step part 252 and the inner wall of the strip groove 25, the third limiting part 13 and the fourth limiting part 24 can abut against each other and limit the movement.
[0089] like Figures 4 to 6 As shown, first slide rails 12 are provided on opposite sides of the outer shell 1. Correspondingly, first slide grooves 23 are provided on opposite sides of the compartment 2. The first slide rails 12 and first slide grooves 23 are slidably connected one-to-one, that is, one first slide rail 12 is slidably connected to one first slide groove 23, and the other first slide rail 12 is slidably connected to the other first slide groove 23. In this way, the compartment 2 and the outer shell 1 are slidably connected at two points, making the sliding connection between the two more stable and reliable.
[0090] like Figures 4 to 6 As shown, the outer shell 1 includes a first plate 101, a second plate 102, and a third plate 103. The first plate 101, the second plate 102, and the third plate 103 are connected in sequence to form a U-shaped structure, such that the first plate 101, the second plate 102, and the third plate 103 form a semi-enclosed U-shaped groove.
[0091] When the compartment 2 is slidably connected to the outer shell 1, the first plate 101 corresponds to and fits against the side of the storage slot 21 on the compartment 2, the second plate 102 corresponds to and fits against the side wall of the compartment 2, and the third plate 103 corresponds to and fits against the side of the compartment 2 opposite to the storage slot 21. This arrangement positions the first plate 101 and the third plate 103 on opposite sides of the compartment 2, sandwiching the compartment 2 in the middle, thus increasing the stability of the compartment 2.
[0092] When the compartment 2 is in the first position of the outer shell 1, the storage slot 21 is at least partially offset from the first plate 101, so that at least part of the storage slot 21 is exposed. When the compartment 2 is in the second position of the outer shell 1, the first plate 101 covers the storage slot 21, so that the first plate 101 can seal the items inside the storage slot 21.
[0093] Furthermore, since the second plate 102 is attached to the side wall of the compartment 2, the compartment 2 slides in the U-shaped groove, which improves stability. The first plate 101, the second plate 102 and the third plate 103 can also guide the sliding of the compartment 2, increasing the reliability of the sliding of the compartment 2.
[0094] Regarding the setting of the first slide rail 12, the first slide rail 12 is provided on the side of the first plate 101 and the third plate 103 that are close to each other. Correspondingly, the first slide groove 23 is provided on the side of the compartment 2 where the storage slot 21 is located and on the side away from the storage slot 21.
[0095] Furthermore, since the first plate 101 and the third plate 103 are connected by the second plate 102, the first plate 101 and the second plate 102 cannot move away from each other. This means that after the first slide rail 12 is slidably inserted into the first slide groove 23, the first slide rail 12 can only slide along the extension direction of the first slide groove 23 and cannot be dislodged from the first slide groove 23 in other directions, thereby effectively preventing the compartment 2 from being dislodged from the outer shell 1.
[0096] like Figure 4 As shown, the outer casing 1 also includes a fourth plate 104, which is connected to the edge of the first plate 101, the edge of the second plate 102, and the edge of the third plate 103. Thus, the fourth plate 104 closes one end of the U-shaped groove.
[0097] With the compartment 2 slidably connected to the outer shell 1, as the compartment 2 slides from the first position to the second position, it gradually approaches the fourth plate 104. Thus, when the compartment 2 slides to the second position, the fourth plate 104 protects the compartment 2.
[0098] With this configuration, when the compartment 2 is in the second position of the outer shell 1, the outer shell 1 covers a larger area of the compartment 2, thus providing better protection. Furthermore, the first plate 101, the second plate 102, the third plate 103, and the fourth plate 104 also guide, limit, and lock the compartment 2, eliminating the need for a rectangular shell with five sides, resulting in a lightweight packaging box and reduced production costs.
[0099] like Figure 3 and Figure 11As shown, a stop bar 29 is provided on the side of the compartment 2 near the fourth plate 104. When the compartment 2 is in the second position of the outer shell 1, the stop bar 29 abuts against the fourth plate 104, preventing the compartment 2 from sliding further away from the first position. Simultaneously, due to the limiting cooperation of the first limiting part 11 and the second limiting part 22, the compartment 2 cannot slide closer to the first position. This fixes the compartment 2 in place, effectively preventing the compartment 2 from shaking relative to the outer shell 1.
[0100] A second slide rail 26 is provided on one of the second plate 102 and the compartment 2, and a second slide groove 14 is provided on the other. Both the second slide rail 26 and the second slide groove 14 extend along the sliding direction of the compartment 2, and the second slide rail 26 and the second slide groove 14 are slidably connected.
[0101] In some embodiments, such as Figure 3 and Figure 4 As shown, a second slide groove 14 is provided on the second plate 102, and a second slide rail 26 is provided on the side of the compartment 2 near the second plate 102. When the compartment 2 is slidably connected to the outer shell 1, the second slide rail 26 is inserted into the second slide groove 14 and can slide along the second slide groove 14. With this configuration, the compartment 2 and the outer shell 1 are slidably connected at three points, making the sliding connection between the compartment 2 and the outer shell 1 more stable and reliable.
[0102] Alternatively, in some other embodiments, a second slide rail 26 is provided on the second plate 102, and a second slide groove 14 is provided on the side of the compartment 2 near the second plate 102.
[0103] As an optional embodiment, such as Figure 11 As shown, a first gripping part 27 is provided on the chamber 2, which can be gripped by the operator. When the chamber is in the second position of the outer shell 1, the first gripping part 27 is offset from the outer shell 1, so that the first gripping part 27 is exposed outside the outer shell 1. In this way, when the operator pushes or pulls the chamber 2 to slide relative to the outer shell 1, the operator can grip the chamber 2 through the first gripping part 27, making it easier for the operator to apply force.
[0104] The first gripping part 27 being exposed outside the outer shell 1 means that the first gripping part 27 protrudes from the outer shell 1 along the sliding direction of the compartment 2, that is, in the depth direction of the storage slot 21, the first gripping part 27 is offset from the outer shell 1.
[0105] The first gripping part 27 can be a groove provided on the housing 2. When the operator pushes or pulls the housing 2 to slide relative to the outer shell 1, they can put their fingers into the groove while gripping the housing 2.
[0106] The first gripping part 27 can also be a protrusion provided on the housing 2. When the operator pushes or pulls the housing 2 to slide relative to the outer shell 1, they can hold the housing 2 while pressing their fingers on the protrusion.
[0107] like Figure 8 and Figure 11 As shown, a first gripping part 27 and a second gripping part 28 are provided on the housing 2, and the first gripping part 27 and the second gripping part 28 are respectively located on opposite sides of the housing 2. Both the first gripping part 27 and the second gripping part 28 can be gripped by the operator. When the housing 2 is in the second position of the outer shell 1, the first gripping part and the second gripping part 28 are offset from the outer shell 1, so that both the first gripping part 27 and the second gripping part 28 are exposed outside the outer shell 1.
[0108] In this way, when the operator pushes or pulls the chamber 2 to slide relative to the outer shell 1, the operator can hold the chamber 2 on both sides of the chamber 2 through the first gripping part 27 and the second gripping part 28 respectively, which makes it easier for the operator to apply force.
[0109] The second gripping part 28 being exposed outside the outer shell 1 means that the second gripping part 28 protrudes from the outer shell 1 along the sliding direction of the compartment 2, that is, in the depth direction of the storage slot 21, the second gripping part 28 is offset from the outer shell 1.
[0110] The second gripping part 28 can be a recess provided on the housing 2. When the operator pushes or pulls the housing 2 to slide relative to the outer shell 1, they can put their fingers into the recess while gripping the housing 2.
[0111] The second grip 28 can also be a protrusion provided on the housing 2. When the operator pushes or pulls the housing 2 to slide relative to the outer shell 1, they can grip the housing 2 while simultaneously placing their fingers on the protrusion.
[0112] In the case where the first gripping part 27 is a groove on the chamber body 2 and the second gripping part 28 is a recess on the chamber body 2, the operator can insert their thumb into the recess and insert one, two, or more other fingers into the groove, making it easier for the operator to apply force.
[0113] like Figure 8 As shown, the second grip 28 is provided on the side of the storage slot 21 on the compartment 2. Since the second grip 28 is exposed outside the outer shell 1, when the storage slot 21 is opened, it can be determined that the opening of the storage slot 21 is facing upward by confirming that the second grip 28 is at the top. This can prevent the items in the storage slot 21 from falling out directly when the compartment 2 slides to the first position and the opening of the storage slot 21 is facing downward.
[0114] The size of the second grip portion 28 is smaller than that of the first grip portion 27, so that the smaller second grip portion 28 can be quickly and accurately identified between the first grip portion 27 and the second grip portion 28, so as to determine that the second grip portion 28 is located at the top.
[0115] As an optional embodiment, multiple ribs 210 are provided on the silo body 2, which increases the structural strength of the silo body 2 while achieving a certain aesthetic effect.
[0116] According to embodiments of this application, in another aspect, a packaging box is provided, such as... Figure 13 As shown, the device includes an outer box 3 and multiple inner boxes 4. The outer box 3 has a storage cavity, and the inner boxes 4 are disposed in the storage cavity inside the outer box 3. The inner boxes 4 are used to store medicines.
[0117] This packaging box has the technical effects of any of the above packaging boxes.
[0118] As an optional embodiment, such as Figure 13 As shown, the medicine box also includes multiple partitions 5. Each partition 5 is sequentially arranged in the placement cavity inside the outer box 3, and the partitions 5 are spaced apart sequentially. This creates a placement space between every two adjacent partitions 5, which is used to place the inner box 4.
[0119] With this configuration, after each inner box 4 is placed in the placement cavity inside the outer box 3, a partition 5 is provided between two adjacent inner boxes 4 to separate the two inner boxes 4 and prevent them from bumping into each other during transportation.
[0120] Moreover, since each pair of adjacent inner boxes 4 is separated by a partition 5, users can more easily distinguish between different inner boxes 4, making it more convenient to use them.
[0121] For any two adjacent partitions 5, a foolproof structure is provided between the two adjacent partitions 5. Under the foolproof effect of the foolproof structure, when the inner box 4 is placed in the placement space, it can only be put in the correct direction, preventing the inner box 4 from being placed in the placement space in the wrong direction.
[0122] Specifically, such as Figure 14 As shown, the foolproof structure includes protrusions 51 on the side of two adjacent partitions 5 that are close to each other. The two protrusions 51 on the two adjacent partitions 5 are arranged opposite each other, and the distance H between the two protrusions 51 is greater than the thickness T of the compartment 2, while the distance H between the two protrusions is less than the distance L between the two opposite outer walls of the outer shell 1.
[0123] The thickness T of the storage compartment 2 is the distance between the two outer walls of the storage compartment 2 along the depth direction of the storage groove 21. The distance L between the two opposite outer walls of the outer shell 1 is the distance between the two outer walls of the outer shell 1 along the depth direction of the storage groove 21.
[0124] With the compartment 2 in the second position of the outer shell 1, part of the compartment 2 is exposed outside the outer shell 1. When the inner box 4 is placed in the placement space, the part of the compartment 2 exposed outside the outer shell 1 is located between the two protrusions 51. The thickness direction of the compartment 2 is consistent with the direction in which the two partitions 5 approach each other, that is, the direction in which the two protrusions 51 approach each other.
[0125] The phrase "the part of the storage compartment 2 exposed outside the outer shell 1" means that the part of the storage compartment 2 protrudes from the outer shell 1 in its sliding direction, that is, in the depth direction of the storage slot 21, the part of the storage compartment 2 is offset from the outer shell 1.
[0126] Because the distance H between the two protrusions 51 is greater than the thickness T of the housing 2, the portion of the housing 2 exposed outside the outer shell 1 can be placed between the two protrusions 51. However, because the distance H between the two protrusions is less than the distance L between the two opposite outer walls of the outer shell 1, the outer shell 1 cannot be placed between the two protrusions 51.
[0127] In this way, when placing the inner box 4 in the storage space, it can only be inserted in the correct orientation so that the portion of the compartment 2 exposed above the outer shell 1 is positioned between the two protrusions 51. If inserted in the wrong orientation, the outer shell 1 cannot be positioned between the two protrusions 51, preventing the inner box 4 from being placed in the storage space. This achieves a foolproof effect, preventing the inner box 4 from being placed in the storage space in the wrong orientation.
[0128] The inner box 4 is in the wrong orientation, meaning that the inner box 4 is upside down relative to the correct orientation.
[0129] The protrusion 51 can be a protrusion formed by the partition 5 rising towards the other partition 5, or it can be a block connected to the side of the partition 5 near the other partition 5.
[0130] As an optional embodiment, for multiple inner boxes 4, different medicines can be placed in each inner box 4 so that users can select them as needed.
[0131] Each inner box 4 can be provided with a labeling area 41, which is used to set prompts. Different prompts can be set on the labeling area 41 of different inner boxes 4 to make it easier for users to distinguish them and enable users to quickly and accurately take the required inner box 4.
[0132] like Figure 13 As shown, seven inner boxes 4 can be set, each containing medicine to be taken on a specific day of the week. For the labeling areas 41 on the seven inner boxes 4, each label can be set with a sign indicating "Monday," "Tuesday," "Wednesday," "Thursday," "Friday," "Saturday," and "Sunday." These signs can be text, images, or special symbols.
[0133] This allows you to prepare the medications you need for each day of the week in advance. Then, on the designated day, select the appropriate inner box (4) to retrieve the correct medication, making it more convenient.
[0134] Alternatively, three inner boxes 4 can be set up, each corresponding to the medicines needed for the morning, noon, and evening of the day. For the labeling areas 41 on the three inner boxes 4, respectively, labels indicating "morning," "noon," and "evening" can be set. These labels can be text, images, or special symbols.
[0135] This allows you to prepare the medications you need for the morning, noon, and evening of the day in advance. Then, at the designated time, select the appropriate inner box 4 to retrieve the correct medication, making it more convenient to use.
[0136] Specifically, the marking area 41 can be located on the side of the compartment 2 facing away from the second plate 102. The marking can be raised or recessed, or it can be a sticker.
[0137] Although embodiments of this application have been described in conjunction with the accompanying drawings, those skilled in the art can make various modifications and variations without departing from the spirit and scope of this application, and such modifications and variations all fall within the scope defined by this application.
Claims
1. A packaging box, characterized in that, include: The outer casing (1) is provided with a first limiting part (11); The compartment (2) is provided with a storage slot (21) and a second limiting part (22). The compartment (2) is slidably connected to the outer shell (1). The compartment (2) can slide between a first position and a second position of the outer shell (1). When the compartment (2) is in the first position, the storage compartment (21) is at least partially offset from the outer shell (1); When the compartment (2) is in the second position, the outer shell (1) covers the storage slot (21), and the first limiting part (11) and the second limiting part (22) cooperate in the upper limit of the sliding direction of the compartment (2) to restrict the compartment (2) from sliding to the first position.
2. The packaging box according to claim 1, characterized in that, At least one of the first limiting part (11) and the second limiting part (22) is elastic; When the second limiting part (22) and the first limiting part (11) are not pressed together, the second limiting part (22) and the first limiting part (11) at least partially overlap in the sliding direction of the chamber (2); When the second limiting part (22) and the first limiting part (11) are squeezed together and elastically deformed, the two can be offset in the sliding direction of the chamber (2).
3. The packaging box according to claim 2, characterized in that, One of the first limiting part (11) and the second limiting part (22) is a stop block, and the other is a spring piece.
4. The packaging box according to claim 1, characterized in that, The outer shell (1) is provided with a first slide rail (12) along the sliding direction of the compartment (2), and the compartment (2) is provided with a first slide groove (23) along the sliding direction of the compartment (2). The first slide rail (12) and the first slide groove (23) are slidably connected.
5. The packaging box according to claim 4, characterized in that, The outer shell (1) is provided with a third limiting part (13), and the compartment (2) is provided with a fourth limiting part (24). The third limiting part (13) and the fourth limiting part (24) at least partially overlap in the sliding direction of the compartment (2). When the compartment (2) is in the first position, the third limiting part (13) and the fourth limiting part (24) abut against each other in the sliding direction of the compartment (2) to restrict the compartment (2) from sliding away from the second position.
6. The packaging box according to claim 5, characterized in that, The hopper (2) is provided with a strip groove (25), and a plurality of support plates (251) are provided in the strip groove (25). Each support plate (251) is arranged sequentially along the sliding direction of the hopper (2). The support plate (251) is provided with a step portion (252). The first sliding groove (23) is formed by the side wall of the step portion (252) and the inner wall of the strip groove (25). The third limiting part (13) is disposed in the strip groove (25), and the fourth limiting part (24) is disposed on the first slide rail (12).
7. The packaging box according to claim 4, characterized in that, The outer shell (1) is provided with the first slide rail (12) on both opposite sides, and the compartment (2) is provided with the first slide groove (23) on both opposite sides. The first slide rail (12) and the first slide groove (23) are slidably connected in a one-to-one correspondence.
8. The packaging box according to claim 1, characterized in that, The outer shell (1) includes a first plate (101), a second plate (102) and a third plate (103) connected in sequence to form a U-shaped structure. The first plate (101) corresponds to the side of the storage compartment (21) with the slot, and the third plate (103) corresponds to the side of the storage compartment (21) away from the slot.
9. The packaging box according to claim 1, characterized in that, The housing (2) is provided with a first gripping part (27); When the housing (2) is in the second position, the first grip (27) is exposed outside the outer shell.
10. The packaging box according to claim 9, characterized in that, The compartment (2) is also provided with a second gripping part (28), and the first gripping part (27) and the second gripping part (28) are respectively located on opposite sides of the compartment (2); When the housing (2) is in the second position, both the first grip (27) and the second grip (28) are exposed outside the outer shell.
11. The packaging box according to claim 1, characterized in that, The first limiting part (11) is configured as a first magnetic attractor, and the second limiting part (22) is configured as a second magnetic attractor. When the first magnetic attractor and the second magnetic attractor come into contact, they can attract each other.
12. A medicine box, characterized in that, It includes an outer box (3) and a plurality of inner boxes (4) disposed within the outer box (3), wherein the inner boxes (4) are configured as the packaging boxes according to any one of claims 1-10, and the inner boxes (4) are used to store medicines.
13. The medicine box according to claim 12, characterized in that, It also includes multiple partitions (5), each of which is arranged sequentially at intervals inside the outer box (3), and a placement space for placing the inner box (4) is formed between each two adjacent partitions (5).
14. The medicine box according to claim 13, characterized in that, A foolproof structure is provided between two adjacent partitions.
15. The medicine box according to claim 12, characterized in that, Each inner box (4) is provided with an identification area (41), which is used to set a prompt sign.