A clay tool box

By introducing dividers and handles into the clay toolbox, the problem of taking out clay cups one by one in the existing technology is solved, realizing quick and convenient access to clay cups and improving the user experience.

CN224428381UActive Publication Date: 2026-06-30DELI GROUP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
DELI GROUP CO LTD
Filing Date
2025-06-17
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing clay toolboxes require removing the upper clay cups one by one when using the bottom clay cups, which increases the complexity and time cost of operation, and is especially unsuitable for frequent use by children and beginners.

Method used

Design a clay toolbox that uses a combination of dividers and a handle. The handle helps to detach the dividers from the box, allowing all the clay cups in the box to be removed simultaneously, reducing the need to remove them one by one.

Benefits of technology

It enables quick and convenient access to the bottom clay cup, reduces operational complexity and time costs, and enhances the user experience, especially the creative enthusiasm of children and beginners.

✦ Generated by Eureka AI based on patent content.

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Abstract

This application discloses a clay toolbox, including a box body and a lid, which are closable. The box body is used to store clay cups. A divider is movably installed inside the box body, dividing the box body into multiple layers to allow for layered storage of clay cups. A handle is connected to the divider. When the handle is applied, it causes the divider to detach from the box body, and the clay cups on the divider detach simultaneously, exposing the area below the divider for easy access to the clay cups. Through the cooperation of the divider and the handle, users can easily remove the entire layer of dividers and the clay cups on them without having to remove the upper layer's clay cups one by one, reducing the time and labor intensity required to retrieve the bottom layer's clay cups and improving the user experience.
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Description

Technical Field

[0001] This application relates to the field of children's toy technology, and more specifically to a clay toolbox. Background Technology

[0002] With the popularization of handicrafts, clay, as a highly creative and malleable material, has received widespread attention and love. There are many types of clay materials, including polymer clay, modeling clay, paper clay, bread clay, playdough, and super light clay. These clay toolboxes each have their own characteristics and are suitable for different handicraft scenarios and needs. In the process of handicraft creation, creators usually need to use multiple colors of clay materials to meet different creative needs. For easy management and use, different colored clay materials need to be stored separately in different clay cups. Existing technology allows for the categorized storage of clay cups of different colors and types, making it convenient for users to quickly find the materials they need and improving creative efficiency.

[0003] For example, Chinese utility model patent CN222330325U discloses a bagged clay storage device with a pressing structure, including a storage box, a pressing component, and a fixing component. The pressing component is located on the top of the storage box and includes sleeves fixed to both ends of the top of the storage box. An n-shaped connecting rod is threaded through the inside of the sleeve. A pressure plate is bolted to the bottom end of the n-shaped connecting rod inside the storage box. A first spring is fitted on the outer side of the sleeve between the pressure plate and the storage box. A fixing component is located between the sleeves and includes a limiting sleeve heat-fused to one side of the sleeve. A pull pin is threaded through the limiting sleeve, and a limiting block is fitted on the outer side of the pull pin inside the limiting sleeve. A second spring is fitted on the outer side of the limiting sleeve on the side of the limiting block. This technical solution solves the problem of simultaneously storing multiple clay cups (i.e., the aforementioned bagged clay) by using springs to push the bottom plate and the pressure plate to press down the bagged clay, preventing it from shaking during transportation. However, traditional storage devices suffer from inconvenience in retrieving and placing clay cups. Users must first remove all the upper clay cups to access the bottom cup, significantly increasing complexity and time consumption, especially when frequently using multiple colors of clay, resulting in a poor user experience. This frequent retrieval can be frustrating, particularly for children and beginners, negatively impacting their creative motivation. Therefore, there is an urgent need for a storage device that allows for quick and easy access to clay cups. Summary of the Invention

[0004] The technical problem to be solved by this application is to provide a clay toolbox, which, through the cooperation of the divider and the handle, allows the user to easily remove the entire layer of dividers and the clay cups on them, without having to remove the clay cups on the upper layer one by one, thereby reducing the time and labor intensity of retrieving the clay cups on the bottom layer and improving the user experience.

[0005] This application provides a clay toolbox, including a box body and a lid, wherein the box body and the lid are closable. The box body is used to store clay cups. A divider is movably installed inside the box body, which divides the box body into multiple layers so that the clay cups can be stored in layers. A handle is connected to the divider. When the handle is subjected to force and causes the divider to detach from the box body, the clay cups on the divider detach from the box body simultaneously, and the area below the divider is exposed for the clay cups to be put on and taken off.

[0006] In this technical solution, clay includes various handcrafting materials such as polymer clay, modeling clay, paper clay, bread clay, playdough, and super light clay. Clay cups are specifically designed to hold the clay, with different colors of clay categorized and stored using multiple clay cups. The toolbox consists of a body and a lid. The body can hold multiple clay cups simultaneously, and the body and lid are connected by an openable / closable mechanism, ensuring easy opening and closing during use for convenient access to the clay cups. It also allows for sealed storage when not in use. Movable dividers are installed inside the box, dividing the interior into multiple layers. This allows users to place different colors or types of clay cups in different layers for easy management and retrieval. These dividers include, but are not limited to, plate-like, mesh-like, and frame-like structures. The dividers can be placed directly on the lower clay cups for support, thus positioning the toolbox. The internal design allows for more flexible installation of the dividers. The position of the dividers can be adjusted to accommodate clay cups of varying heights, making them more versatile. Users can easily insert or remove the dividers. Handles on the dividers allow users to apply force and move them, while also providing convenient grips. The dividers can be designed to closely match the internal dimensions of the box, making more efficient use of the internal space. Dividers can hold more clay cups, increasing the overall storage capacity of the toolbox. The handles allow users to easily remove the entire layer of dividers and the clay cups on top, eliminating the need to remove the upper layer individually. The space below is fully exposed, facilitating quick access to the lower clay cups and reducing the time and effort required to retrieve them, thus improving the user experience.

[0007] As an improvement, the divider includes a first partition and a second partition, and the handle includes a first handle on the first partition and a second handle on the second partition. The first and second partitions are vertically distributed within the box, and the second handle, when subjected to force, can detach both the second and first partitions from the box. In this technical solution, the divider consists of at least a first partition and a second partition, both of which are movably installed within the box. The double-layer partition design further increases the storage hierarchy and flexibility. The first and second partitions are vertically distributed within the box, forming a multi-layer storage structure. Users can place clay cups of different colors or types in different layers for easy management and retrieval. The first partition is placed on the clay cups on the second partition and supported by the clay cups on the second partition. The second partition is placed on the clay cups in the lower layer or at the bottom of the box and supported by the clay cups in the lower layer. The bottom of the box provides support, making the installation of the first and second partitions more flexible. A first handle is provided on the first partition, which, when applied by the user, can simultaneously detach the first partition and the clay cups on it from the box. A second handle is provided on the second partition, which, when applied by the user, can simultaneously detach the second partition and the clay cups on it, as well as the first partition and the clay cups on it, from the box. This allows the user to remove both layers of clay cups at once, eliminating the need to remove the upper layer's clay cups one by one, thus greatly improving efficiency, reducing time, and enhancing the user experience.

[0008] As an improvement, the first partition is provided with a first through hole for the second handle to pass through, protruding through the first through hole for lifting operation. In this technical solution, by providing a first through hole in the first partition, the second handle can pass through and protrude above the first partition. The user can operate the first and second partitions simultaneously using one second handle, achieving synchronous removal of the two clay cups, greatly reducing operation steps and improving retrieval efficiency. Through the design of the first through hole, the second handle can stably pass through the first partition, ensuring that the first and second partitions can move synchronously during the lifting process, reducing the risk of partition displacement or damage due to improper operation, improving lifting stability, allowing the user to complete the operation with one hand, reducing operational complexity, and improving the overall user experience.

[0009] As an improvement, the partition further includes a third partition. The first, second, and third partitions are arranged vertically within the box. The handle includes a third handle on the third partition, which, when applied force, causes the third, second, and first partitions to detach from the box simultaneously. In this technical solution, the first, second, and third partitions are arranged vertically within the box, forming a multi-layered storage structure, further increasing the box's capacity. The first partition rests on a clay cup on the second partition and is supported by the clay cup on the second partition. The second partition rests on a clay cup on the third partition and is supported by the clay cup on the third partition. The third partition rests on a lower clay cup or at the bottom of the box and is supported by the lower clay cup or the bottom of the box. This makes the installation of the first, second, and third partitions more flexible. By providing a third handle on the third partition, when the user applies force through the third handle, the third partition can be moved. The clay cups on the first shelf, the second shelf, and the first shelf detach from the box simultaneously, allowing users to remove all three layers of clay cups at once. When using the bottom clay cups, there's no need to remove the upper layers one by one, significantly improving efficiency and making it more suitable for multi-colored clay cups. This reduces the time spent retrieving the bottom clay cups and enhances the user experience. Furthermore, this solution allows for the addition of a fourth or fifth shelf, based on the number of clay cups and the user's needs. The principle is the same as the first three shelves. This flexible expandability allows the toolbox to adapt to different user needs, further optimizing storage and usability.

[0010] As an improvement, the first partition has a second through hole for the third handle to pass through, and the second partition has a third through hole for the third handle to pass through. The third handle passes through the third and second through holes sequentially to be exposed for lifting operations. In this technical solution, by providing a second through hole on the first partition and a third through hole on the second partition, the third handle can pass through the third and second through holes sequentially and finally be exposed above the first partition for the user to lift. This ensures that all partitions can move synchronously during the lifting process, reducing the risk of partition displacement or damage due to improper operation, improving the stability of lifting, and allowing the user to remove all partitions and their clay cups at once using the third handle, without having to remove the upper clay cups one by one. This allows the user to complete the operation with one hand, greatly improving the convenience of operation.

[0011] As an improvement, the first, second, and third handles are arranged in a straight line and located at the center of the first partition, with the third handle positioned between the first and second handles. In this technical solution, the first, second, and third handles are all located at the center of the first partition, allowing the user to apply force more evenly during operation and reducing the risk of partition tilting or instability due to improper handle placement. The straight-line arrangement of the handles allows the user to easily operate the corresponding partition using any handle, eliminating the need to search for different handles and making operation more convenient. With the third partition at the bottom and the third handle positioned between the first and second handles, the user can apply force more evenly when pulling the third handle, allowing it to more stably move the three partitions and improving lifting stability.

[0012] As an improvement, the first and second through holes are connected and form a straight line. In this technical solution, both the first and second through holes are located on the first partition. The first through hole is used for the second handle to pass through, and the second through hole is used for the third handle to pass through, so that both the second and third handles can pass through the first partition and finally protrude above the first partition for the user to perform a lifting operation. Setting the first and second through holes to be connected makes it easier for the second and third handles to pass through the first partition. Setting the first and second through holes to have a straight line structure makes it less likely for the second and third handles to shake during the lifting process, improving operational stability, and also making it simpler to reset the first and second handles.

[0013] As an improvement, the surfaces of the first handle, second handle, and third handle are each decorated with different colors or patterns for differentiation; the surfaces of the first handle and the first partition are decorated with the same color or pattern, the surfaces of the second handle and the second partition are decorated with the same color or pattern, and the surfaces of the third handle and the third partition are decorated with the same color or pattern. In this technical solution, by setting different colors or patterns on the surfaces of the first handle, second handle, and third handle to distinguish different handles, and by designing each handle and its corresponding partition to have the same color or pattern, users can quickly identify and operate the corresponding handles and partitions through the cues of different colors or patterns, reducing operation time and errors, making operation more intuitive and convenient, and improving operational efficiency. Especially for children and beginners, this reduces the difficulty of operation and enhances the enjoyment of creation.

[0014] As an improvement, the outer edge of the first partition is provided with a first stop; the outer edge of the second partition is provided with a second stop; and the outer edge of the third partition is provided with a third stop. In this technical solution, the outer edges of the first, second, and third partitions are respectively provided with a first stop, a second stop, and a third stop. These stops can be protrusions, edges, or any structure that can provide physical obstruction to prevent the clay cup from detaching from the partition due to shaking. When the partition moves or the toolbox tilts, the stops can provide additional stability, ensuring that the clay cup remains in a fixed position on the partition, thus improving the placement stability of the clay cup.

[0015] As an improvement, the lid and the box are connected by a snap-fit; a fourth handle is rotatably mounted on the lid. In this technical solution, the snap-fit ​​connection between the lid and the box allows the lid to be securely fixed to the box, while also facilitating quick opening and closing of the toolbox, improving operational convenience, especially in scenarios requiring frequent toolbox use. The rotatable fourth handle allows the user to easily lift and move the entire toolbox, increasing its portability. Furthermore, the rotatable fourth handle allows for more compact storage of the toolbox when not in use, improving space utilization. Attached Figure Description

[0016] Figure 1 This is a three-dimensional structural diagram of a clay toolbox according to this application.

[0017] Figure 2 This is a cross-sectional structural diagram of a clay toolbox according to this application.

[0018] Figure 3 This is a partial structural schematic diagram of a clay toolbox according to this application.

[0019] Figure 4 This is a schematic diagram of the exploded structure of the first partition, the second partition, and the third partition in this application.

[0020] The diagram shows: 1. Box body; 2. Lid; 21. Buckle; 22. Fourth handle; 3. Clay cup; 4. First partition; 41. First handle; 42. First through hole; 43. Second through hole; 44. First stop; 5. Second partition; 51. Second handle; 52. Third through hole; 53. Second stop; 6. Third partition; 61. Third handle; 62. Third stop. Detailed Implementation

[0021] To better understand this application, various aspects of this application will be described in more detail with reference to the accompanying drawings. It should be understood that these detailed descriptions are merely illustrative of exemplary embodiments of this application and are not intended to limit the scope of this application in any way. Throughout the specification, the same reference numerals refer to the same elements.

[0022] In the accompanying drawings, the thickness, size, and shape of the objects have been slightly exaggerated for illustrative purposes. The drawings are for illustrative purposes only and are not drawn to scale.

[0023] It should also be understood that the terms "comprising," "including," "having," "containing," and "including," when used in this specification, indicate the presence of the stated features, integrals, steps, operations, elements, and / or components, but do not exclude the presence or addition of one or more other features, integrals, steps, operations, elements, components, and / or combinations thereof. The terms "first," "second," etc., are primarily used to distinguish different devices, elements, or components (the specific types and constructions may be the same or different), and are not intended to indicate or imply the relative importance or quantity of the indicated devices, elements, or components. Unless otherwise stated, "a plurality of" means two or more.

[0024] Furthermore, it should be noted that the terms "installation," "setting," "equipped with," "connection," and "linking" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral structure; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium, or an internal connection between two devices, elements, or components; they can refer to a direct installation on another component or the possible presence of another intermediate component. The terms "vertical," "horizontal," "left," "right," and similar expressions used herein are for illustrative purposes only. Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention pertains. The terminology used herein in the specification of this invention is for the purpose of describing particular embodiments only and is not intended to limit the invention. The term "and / or" as used herein includes any and all combinations of one or more of the associated listed items.

[0025] like Figures 1 to 4 As shown, this application discloses a clay toolbox, including a box body 1 and a lid 2. The box body 1 and the lid 2 are closable. The box body 1 is used to store clay cups 3. The clay includes polymer clay, colored clay, paper clay, bread clay, modeling clay, super light clay and other handicraft sculpting materials. The clay cups 3 are specifically used to hold clay. Clay of different colors is classified and stored through multiple clay cups 3. The toolbox is composed of a box body 1 and a lid 2. The box body 1 can store multiple clay cups 3 at the same time. The box body 1 and the lid 2 are connected by an openable and closable method to ensure that the toolbox can be easily opened and closed when in use, making it convenient for users to take out and put in the clay cups 3. At the same time, it can be sealed and stored when not in use.

[0026] The box 1 is equipped with a movable divider that divides the interior of the box 1 into multiple layers to allow for the layered storage of clay cups 3. The divider includes, but is not limited to, plate-like, mesh-like, and frame-like structures. The divider is equipped with a handle. When the handle is applied and causes the divider to detach from the box 1, the clay cups 3 on the divider also detach from the box 1, and the area below the divider is exposed for the clay cups 3 to be placed and removed. The divider divides the interior of the box 1 into multiple layers, allowing users to place clay cups 3 of different colors or types in different layers for easy management and retrieval. The divider can be placed directly on the clay cups 3 in the lower layer and supported by the lower clay cups 3 to be positioned inside the box 1, making the installation of the divider more flexible. The position of the divider can be adjusted according to the different heights of the clay cups 3, making it more flexible to use. Users can easily put the divider in or take it out. By setting the handle on the divider, users can apply force and move the divider.

[0027] On the other hand, the handle provides a convenient gripping point, and the dividers can be designed to be closer to the internal dimensions of the box 1, so that the dividers can make more efficient use of the internal space of the box 1. The dividers can hold more clay cups 3, thereby increasing the overall storage capacity of the toolbox. The design of the handle allows users to easily remove the entire layer of dividers and the clay cups 3 on them without having to remove the clay cups 3 on the upper layer one by one. In addition, the space below can be fully exposed, making it easy for users to quickly access the clay cups 3 below, reducing the time and labor intensity of accessing the bottom layer of clay cups 3, and improving the user experience.

[0028] More specifically, such as Figures 2 to 4As shown, the divider includes a first partition 4 and a second partition 5. The handle includes a first handle 41 on the first partition 4 and a second handle 51 on the second partition 5. The first partition 4 and the second partition 5 are arranged vertically within the box body 1. The second handle 51 is subjected to force to detach both the second partition 5 and the first partition 4 from the box body 1. The divider is composed of at least the first partition 4 and the second partition 5. Both the first partition 4 and the second partition 5 are movably installed within the box body 1. The double-layer divider design further increases the storage hierarchy and flexibility. The first partition 4 and the second partition 5 are arranged vertically within the box body 1, forming a multi-layer storage structure. Users can place clay cups 3 of different colors or types in different layers for easy management and retrieval. The first partition 4 is placed on the clay cups 3 on the second partition 5, and the first handle 51 is used to detach the clay cups 3 from the box body 1. The first partition 4 and the second partition 5 are supported by clay cups 3 on the lower layer of the partition 5 or at the bottom of the box 1. The installation of the first partition 4 and the second partition 5 is more flexible. A first handle 41 is provided on the first partition 4. When the user applies force through the first handle 41, the first partition 4 and the clay cups 3 on it can be lifted out of the box 1 at the same time. A second handle 51 is provided on the second partition 5. When the user applies force through the second handle 51, the second partition 5 and the clay cups 3 on it, as well as the first partition 4 and the clay cups 3 on it, can be lifted out of the box 1 at the same time. This allows the user to take out both layers of clay cups 3 at once, without having to take out the upper layer of clay cups 3 one by one, which greatly improves the efficiency of use, reduces the time of use, and enhances the user experience.

[0029] More specifically, such as Figure 3 and Figure 4 As shown, the first partition 4 is provided with a first through hole 42 for the second handle 51 to pass through. The second handle 51 protrudes through the first through hole 42 for lifting operation. By providing the first through hole 42 on the first partition 4, the second handle 51 can pass through and protrude above the first partition 4. The user can operate the first partition 4 and the second partition 5 simultaneously with one second handle 51 to realize the synchronous removal of the two clay cups 3, which greatly reduces the operation steps and improves the efficiency of use. Through the design of the first through hole 42, the second handle 51 can stably pass through the first partition 4, ensuring that the first partition 4 and the second partition 5 can move synchronously during the lifting process, reducing the risk of partition displacement or damage due to improper operation, improving the stability of lifting, and allowing the user to complete the operation with one hand, reducing the complexity of operation and improving the overall user experience.

[0030] More specifically, such as Figures 2 to 4As shown, the partition also includes a third partition 6. The first partition 4, the second partition 5, and the third partition 6 are arranged vertically within the box 1. The handle includes a third handle 61 disposed on the third partition 6. The third handle 61 is subjected to force to drive the third partition 6, the second partition 5, and the first partition 4 to simultaneously detach from the box 1. The first partition 4, the second partition 5, and the third partition 6 are arranged vertically within the box 1 to form a multi-layer storage structure, further increasing the capacity of the box 1. The first partition 4 is placed on the clay cup 3 on the second partition 5 and is supported by the clay cup 3 on the second partition 5. The second partition 5 is placed on the clay cup 3 on the third partition 6 and is supported by the clay cup 3 on the third partition 6. The third partition 6 is placed on the lower clay cup 3 or at the bottom of the box 1 and is supported by the lower clay cup 3 or at the bottom of the box 1, so that the first partition 4, the second partition 5, the second partition 6, the third ... The installation of the third partition 6 is more flexible. By setting a third handle 61 on the third partition 6, when the user applies force through the third handle 61, the third partition 6 and the clay cups 3 on it, the second partition 5 and the clay cups 3 on it, and the first partition 4 and the clay cups 3 on it can be simultaneously detached from the box 1. This allows the user to take out all three layers of clay cups 3 at once. When taking out the bottom clay cups 3, it is not necessary to take out the upper clay cups 3 one by one, which greatly improves the efficiency of use. It is more suitable for taking out multi-colored clay cups 3, reduces the time to take out the bottom clay cups 3, and improves the user experience. On the other hand, this solution can be further added with a fourth partition, a fifth partition, etc., according to the number of clay cups 3 and the actual needs of the user. The principle is the same as the first three partitions. This flexible expandability allows the toolbox to adapt to the needs of different users and further optimizes the storage and user experience.

[0031] More specifically, such as Figure 3 and Figure 4 As shown, the first partition 4 is provided with a second through hole 43 for the third handle 61 to pass through, and the second partition 5 is provided with a third through hole 52 for the third handle 61 to pass through. The third handle 61 passes through the third through hole 52 and the second through hole 43 in sequence to be exposed for lifting operation. By providing the second through hole 43 on the first partition 4 and the third through hole 52 on the second partition 5, the third handle 61 can pass through the third through hole 52 and the second through hole 43 in sequence, and finally be exposed above the first partition 4 for the user to lift. This ensures that all partitions can move synchronously during the lifting process, reduces the risk of partition displacement or damage due to improper operation, and improves the stability of lifting. The user can remove all partitions and the clay cups 3 on them at once through the third handle 61, without having to remove the upper clay cups 3 one by one, allowing the user to complete the operation with one hand, which greatly improves the convenience of operation.

[0032] More specifically, such as Figure 2As shown, the first handle 41, the second handle 51, and the third handle 61 are arranged in a straight line and located at the center of the first partition 4. The third handle 61 is located between the first handle 41 and the second handle 51. The fact that the first handle 41, the second handle 51, and the third handle 61 are all located at the center of the first partition 4 allows the user to apply force more evenly during operation, reducing the possibility of the partition tilting or becoming unstable due to improper handle positioning. The straight-line arrangement of the handles allows the user to easily operate the corresponding partition through any handle, eliminating the need to search for the corresponding handle in different positions, making operation more convenient. The third partition 6 is located at the bottom, with the third handle 61 positioned between the first handle 41 and the second handle 51. When the user pulls the third handle 61, they can apply force more evenly, and the third handle 61 can more stably drive the three partitions to move, improving the stability of the lifting.

[0033] More specifically, such as Figure 2 and Figure 4 As shown, the first through hole 42 and the second through hole 43 are connected and have a straight-line structure. Both the first through hole 42 and the second through hole 43 are located on the first partition 4. The first through hole 42 is used for the second handle 51 to pass through, and the second through hole 43 is used for the third handle 61 to pass through, so that both the second handle 51 and the third handle 61 can pass through the first partition 4 and finally protrude above the first partition 4 for the user to lift. The connection between the first through hole 42 and the second through hole 43 makes it easier for the second handle 51 and the third handle 61 to pass through the first partition 4. The straight-line structure of the first through hole 42 and the second through hole 43 makes it less likely for the second handle 51 and the third handle 61 to shake during the lifting process, improving the operational stability. Furthermore, the reset of the first handle 41 and the second handle 51 is also simpler.

[0034] More specifically, the surfaces of the first handle 41, the second handle 51, and the third handle 61 are each decorated with different colors or patterns for differentiation. The surfaces of the first handle 41 and the first partition 4 are decorated with the same color or pattern. The surfaces of the second handle 51 and the second partition 5 are decorated with the same color or pattern. The surfaces of the third handle 61 and the third partition 6 are decorated with the same color or pattern. By setting different colors or patterns on the surfaces of the first handle 41, the second handle 51, and the third handle 61, different handles can be distinguished. By designing that each handle and its corresponding partition have the same color or pattern, users can quickly identify and operate the corresponding handles and partitions through the prompts of different colors or patterns, reducing operation time and errors, making operation more intuitive and convenient, and improving operation efficiency. In particular, for children and beginners, it reduces the difficulty of operation and increases the fun of creation.

[0035] More specifically, such as Figure 3 and Figure 4As shown, the outer edge of the first partition 4 is provided with a first stop 44, the outer edge of the second partition 5 is provided with a second stop 53, and the outer edge of the third partition 6 is provided with a third stop 62. The first stop 44, the second stop 53, and the third stop 62 are respectively provided on the outer edges of the first partition 4, the second partition 5, and the third partition 6. These stops can be protrusions, edges, or any structure that can provide physical obstruction to prevent the clay cup 3 from falling off the partition due to shaking. When the partition moves or the toolbox tilts, the stops can provide additional stability to ensure that the clay cup 3 remains in a fixed position on the partition, thereby improving the placement stability of the clay cup 3.

[0036] More specifically, such as Figure 1 As shown, the lid 2 is connected to the box 1 by a buckle 21, which allows the lid 2 to be firmly fixed to the box 1. This also makes it easy for users to quickly open and close the toolbox, improving the convenience of operation, especially in scenarios where the toolbox needs to be used frequently. A fourth handle 22 is rotatably installed on the lid 2, which allows users to easily lift and move the entire toolbox, increasing its portability. The rotatable fourth handle 22 also allows the toolbox to be stored more compactly when not in use, improving space utilization.

[0037] This application is not limited to the above-described preferred embodiments. Anyone can derive other products in various forms under the guidance of this application. However, regardless of any changes made to their shape or structure, any technical solution that is the same as or similar to that of this application falls within the protection scope of this application.

Claims

1. A clay toolbox, characterized in that, Includes a box body (1) and a lid body (2). The box body (1) and the lid body (2) can be opened and closed. The box body (1) is used to store clay cups (3). A partition is installed inside the box body (1). The partition divides the inside of the box body (1) into multiple layers so that the clay cups (3) can be stored in layers. A handle is connected to the partition. When the handle is subjected to force and drives the partition to detach from the box body (1), the clay cups (3) on the partition detach from the box body (1) at the same time, and the area below the partition is exposed for the clay cups (3) to be picked up and put down.

2. A clay toolbox according to claim 1, characterized in that, The partition includes a first partition (4) and a second partition (5). The handle includes a first handle (41) on the first partition (4) and a second handle (51) on the second partition (5). The first partition (4) and the second partition (5) are arranged vertically inside the box (1). The second handle (51) is subjected to force to drive the second partition (5) and the first partition (4) to detach from the box (1).

3. A clay toolbox according to claim 2, characterized in that, The first partition (4) is provided with a first through hole (42) through which the second handle (51) passes, and the second handle (51) is exposed through the first through hole (42) for lifting operation.

4. A clay toolbox according to claim 3, characterized in that, The partition also includes a third partition (6). The first partition (4), the second partition (5) and the third partition (6) are arranged vertically in the box (1). The handle includes a third handle (61) on the third partition (6). The third handle (61) is subjected to force to drive the third partition (6), the second partition (5) and the first partition (4) to detach from the box (1) simultaneously.

5. A clay toolbox according to claim 4, characterized in that, The first partition (4) is provided with a second through hole (43) through which the third handle (61) passes, and the second partition (5) is provided with a third through hole (52) through which the third handle (61) passes. The third handle (61) passes through the third through hole (52) and the second through hole (43) in sequence to be exposed for lifting operation.

6. A clay toolbox according to claim 5, characterized in that, The first handle (41), the second handle (51) and the third handle (61) are arranged in a straight line and located at the center of the first partition (4), with the third handle (61) located between the first handle (41) and the second handle (51).

7. A clay toolbox according to claim 6, characterized in that, The first through hole (42) and the second through hole (43) are connected and have a straight-line structure.

8. A clay toolbox according to claim 5, characterized in that, The surfaces of the first handle (41), the second handle (51), and the third handle (61) are provided with different colors or patterns for differentiation; the surfaces of the first handle (41) and the first partition (4) are provided with the same color or pattern; the surfaces of the second handle (51) and the second partition (5) are provided with the same color or pattern; and the surfaces of the third handle (61) and the third partition (6) are provided with the same color or pattern.

9. A clay toolbox according to claim 4, characterized in that, The first partition (4) has a first stop (44) on its outer edge; the second partition (5) has a second stop (53) on its outer edge; and the third partition (6) has a third stop (62) on its outer edge.

10. A clay toolbox according to claim 1, characterized in that, The cover (2) is connected to the box (1) by a buckle (21); a fourth handle (22) is rotatably installed on the cover (2).