Intelligent dressing table for children
By setting up storage and recycling mechanisms on children's play dressing tables, and using chip recognition and display guidance, the problem of cluttered storage of decorative items in existing dressing tables has been solved. This enables precise organization of decorative items and interactive operation, enhancing the playability and fun of the dressing table.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANGHAI YIPLAY AMUSEMENT EQUIP GRP CO LTD
- Filing Date
- 2025-07-28
- Publication Date
- 2026-07-07
Smart Images

Figure CN224462261U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of children's play facilities, and in particular to a smart dressing table for children's play. Background Technology
[0002] In recent years, with the development of the social economy and the improvement of people's living standards, people have paid increasing attention to children's education and entertainment. Childhood is a crucial stage of rapid physical and mental development. High-quality entertainment activities not only bring joy to children but also help cultivate their cognitive, creative, and social abilities. Against this backdrop, children's playgrounds, with their safe, fun, and creative environments, have gradually become a popular choice for parents to take their children out. As a core component of children's playgrounds, children's play equipment has also received unprecedented development opportunities. The market offers a wide variety of play equipment, ranging from large outdoor thrill rides to small and exquisite indoor educational toys. These equipment are constantly being innovated to meet the diverse needs of children and provide them with a richer and more colorful play experience. Existing children's play vanity tables typically include a base, multiple lockers, and decorative mirrors. By placing jewelry and items in the lockers, children can try them on one by one through the decorative mirror. When children use these vanity tables for makeup and styling, they mainly rely on their own imagination to create arbitrary combinations, exploring and experimenting on their own, which provides them with a rich and colorful play experience. However, these existing conventional methods still have obvious shortcomings in actual experience. On the one hand, this simple way of storing jewelry and matching mirrors greatly reduces the playability and fun of children's play dressing tables; on the other hand, after children have finished playing, they tend to put their jewelry and items away haphazardly in the lockers, unable to classify and organize them, which makes it difficult to fully stimulate children's creativity and enthusiasm, and fails to meet the current demand of children for diversified and fun play facilities. Utility Model Content
[0003] To meet the current demand of children for diverse and fun play facilities, improve children's hands-on ability to classify and organize jewelry and items, and avoid the messy stacking of jewelry and items, this application provides a smart dressing table for children's play.
[0004] This application provides a smart dressing table for children's play, including a base, a storage mechanism disposed on the base, a recycling and sorting mechanism, and a decorative mirror. The storage mechanism is used to store decorative items with associated chips, and the recycling and sorting mechanism is used to detect the associated chips of each decorative item to indicate the correct storage location of the decorative item associated with that chip. By adopting the above technical solution, the dressing table is equipped with a storage mechanism for storing decorative items with associated chips. Since each decorative item is associated with a chip, each decorative item has a unique identification. It is also equipped with a recycling and sorting mechanism that can detect the associated chips of each decorative item. Therefore, when a child finishes using a decorative item, they place it in the recycling and sorting mechanism, which can determine the correct storage location of the decorative item associated with that chip by detecting the chip and provide guidance. Compared to existing children's play vanity tables, this design avoids the problem of children haphazardly storing jewelry and items after play, and solves the drawback of existing vanity tables' inability to categorize and organize jewelry and items. It helps children develop good tidying habits, fully stimulates their creativity and enthusiasm, and better meets the current demand for diverse and fun play facilities, greatly enhancing the playability and enjoyment of the vanity table. Preferably, the storage mechanism includes a first storage cabinet and a second storage cabinet. The first storage cabinet is fixedly mounted on the base, and the second storage cabinet is movably mounted on the base. The first storage cabinet contains several first storage compartments, and the second storage cabinet contains several second storage compartments. Each of the first and second storage compartments is equipped with a chip identification sensor associated with each decorative item. The identification sensor interacts with the associated chip via wireless radio frequency signals to identify the relevant information of each decorative item. By adopting the above technical solution, the storage mechanism consists of a first storage cabinet fixedly mounted on the base and a second storage cabinet movably mounted on the base. The first storage cabinet contains several first storage compartments, and the second storage cabinet contains several second storage compartments. This structural design makes the storage space layout more flexible and diverse. Simultaneously, the identification sensors installed in the first and second storage compartments can interact with the associated chips of each decorative item via wireless radio frequency signals. Because wireless radio frequency signals have stable and efficient transmission characteristics, they can accurately and quickly identify relevant information about each decorative item, such as the item's category, material, and style, instructing children to put the items to be sorted in the correct location. This avoids the problem of messy and disorderly placement of items in existing dressing tables, thus significantly improving the efficiency and fun of using a smart dressing table for children's play. Preferably, the recycling and sorting mechanism includes a recycling box and a first display. The recycling box is equipped with a detection sensor for detecting the associated chips of each decorative item, and the first display receives signals from the detection sensor and the identification sensor to display information about the decorative item associated with that chip.By adopting the above technical solution, a detection sensor is installed inside the recycling box to detect the associated chips of each decorative item. The first display receives signals from the detection and identification sensors. Since the identification sensors have interacted with the chips associated with each decorative item to obtain relevant information, the first display can summarize this information and display the information of the decorative item associated with that chip. When children finish playing, they put the decorative items into the recycling box. The detection sensor detects the chip, and the first display receives the signal, indicating the corresponding placement location of the item. This allows children to find the correct placement, achieving accurate classification and categorization of decorative items. This solves the problem that existing dressing tables cannot classify and categorize jewelry and other items, greatly improving the playability and fun of smart dressing tables for children's play, fully stimulating children's creativity and enthusiasm, and better meeting the current demand of children for diverse and fun play facilities.
[0005] Preferably, both the first and second storage compartments are equipped with light strips, and these light strips are electrically connected to the first display. By adopting the above technical solution, since both the first and second storage compartments are equipped with light strips, and these light strips are electrically connected to the first display, when the recycling and sorting mechanism detects the chip of a decorative item and determines its sorting position, the first display receives a relevant signal. Based on this signal, the first display can control the light strip of the corresponding storage compartment to turn on. This can intuitively indicate to children the accurate location where the decorative item should be placed, preventing children from randomly storing items, thereby achieving the classification and sorting of decorative items, further improving the fun and practicality of the smart dressing table for children's play, fully stimulating children's creativity and enthusiasm, and better meeting the current needs of children for diverse and fun play facilities. Preferably, the smart dressing table also includes a shooting mechanism, which is located on the base and near the decorative mirror. The recycling and sorting mechanism also includes a second display, which is used to control the shooting mechanism to take pictures and display the captured images. By adopting the above technical solution, since the shooting mechanism is located on the base and near the decorative mirror, children can easily record their look after applying makeup and styling items with the mirror. The second display of the recycling mechanism can control the shooting mechanism to take pictures and display the images, allowing children to visually see their own image, enhancing their sense of participation and accomplishment. Simultaneously, the function of displaying the images on the second display allows children to review and adjust their makeup and styling, further stimulating their creativity and aesthetic abilities. Children can also try different combinations and record them multiple times, greatly improving the fun and playability of the smart makeup table and meeting the current demand of children for diverse and fun play facilities. Preferably, the shooting mechanism includes a frame and a camera. The frame is fixedly installed on the base, and the camera is installed on the frame, with its shooting direction facing the area in front of the decorative mirror. By adopting the above technical solution, the frame is fixedly installed on the base, providing a stable mounting foundation for the camera. Because the camera is mounted on the frame and faces the area in front of the decorative mirror, when a child stands in front of the mirror to apply makeup and match accessories, the camera can clearly capture the child's complete image after applying makeup and wearing accessories. This allows the child to see their appearance in real time, recording their different looks like taking a photo. This greatly enhances the fun and interactivity of children using the makeup table, and further stimulates their creativity and enthusiasm, making them more eager to participate in makeup and matching activities. Preferably, the shooting mechanism also includes a printer, which is set on the base. The second display uploads the captured image to the printer and controls the printer to print the captured image.By adopting the above technical solution, the shooting mechanism of the smart makeup table for children's play is equipped with a printer. After a child completes their makeup and styling in front of the decorative mirror, a second display controls the shooting mechanism to take a picture and display the captured image. Subsequently, the second display uploads the captured image to the printer and controls its printing. This technical solution greatly increases the fun and playability of the smart makeup table for children's play. Children can intuitively see their makeup results and print them out, like having a personalized commemorative photo. This satisfies children's curiosity and sense of accomplishment, and also makes them more involved and proactive. At the same time, the printed photos can also help children preserve beautiful memories or share their creative combinations with friends, further stimulating children's creativity and social interaction, thereby better meeting the current demand of children for diverse and fun play facilities. Preferably, all edges of the base are chamfered, and all corners of the base are rounded corner structures. By adopting the above technical solution, setting the edges of the base to be chamfered and the corners to rounded corner structures can effectively avoid sharp edges and corners causing scratches or bumps to children, making children safer when using the smart makeup table. Meanwhile, compared to bases with right angles and corners, this design is more rounded and smooth, enhancing the overall aesthetics of the smart vanity and making it more appealing to children, thus attracting them to use it and further enhancing their fun and enthusiasm for play. Preferably, the base has a horizontally arranged "L" shape, and the recycling box has a rectangular shape, with the recycling box movably fitted into the base. By adopting the above technical solution, the horizontally arranged "L" shape of the base can adapt to various placement spaces, allowing for flexible placement in children's playgrounds of different shapes and layouts, avoiding placement limitations due to space constraints and expanding the applicability of the smart vanity. Simultaneously, the "L" shape can divide different functional areas, providing a more reasonable layout space for storage mechanisms, recycling mechanisms, and other components. The rectangular shape of the recycling box facilitates manufacturing, reducing production costs. Furthermore, the regular internal space of the rectangular recycling box allows for more efficient use of space to store decorative items, avoiding space waste. The recycling bin is movably fitted into the base, facilitating easy placement and removal. When cleaning or replacing the recycling bin, it can be easily removed from the base or reinstalled, improving maintenance and ease of use. Overall, this design enhances the space utilization and applicability of the smart vanity, while also improving operational convenience and practicality, providing a better experience for children using the smart vanity. Preferably, the first display is positioned close to the recycling bin, and the second display is positioned close to the decorative mirror.By adopting the above technical solution, since the first display needs to receive signals from the detection sensor and the identification sensor to display information about the decorative items associated with the chip and control the activation of the corresponding storage compartment light strips, and since the recycling box is equipped with a detection sensor, placing the first display close to the recycling box can reduce the signal transmission distance, reduce signal interference, and enable the first display to obtain the detection sensor signals more timely and accurately. Furthermore, since the second display is used to control the shooting mechanism to take pictures and display the captured images, and the shooting mechanism is located near the decorative mirror, where children often do activities such as applying makeup and being photographed, placing the second display close to the decorative mirror makes it convenient for children to operate the second display to control the shooting mechanism and view the captured images, improving ease of use and user experience.
[0006] In summary, this application includes at least one of the following beneficial technical effects:
[0007] 1. Because the recycling and sorting mechanism can detect the associated chips of each decorative item and then indicate the sorting location of the decorative item associated with that chip, the decorative items can be accurately placed in the corresponding location after children finish playing. This solves the problem of children not being able to sort and sort their jewelry and items after playing, and improves the orderliness of item storage.
[0008] 2. The storage mechanism can store various decorative items with associated chips, while the recycling and sorting mechanism can detect the chips of the decorative items and indicate their sorting locations. The two work together to allow children to go beyond simple storage and mirror matching when using the dressing table. Instead, they can participate in more technologically advanced and interactive operations, such as learning about the chip information of the items and sorting the items according to the instructions. This increases the playability and fun of the children's play dressing table and meets the current demand of children for diverse and fun play facilities.
[0009] 3. Because a shooting mechanism and a monitor are set up, the monitor can control the shooting mechanism to take pictures and display the pictures. After putting on makeup and matching, children can record their results by taking pictures and see the matching effect intuitively. This instant feedback method further enriches children's play experience and stimulates their creativity and enthusiasm. Attached Figure Description
[0010] Figure 1 This is a structural schematic diagram of a smart dressing table for children's play, as described in this application.
[0011] Explanation of reference numerals in the attached drawings: 1. Base; 2. Storage mechanism; 3. Recycling and sorting mechanism; 4. Decorative mirror; 5. Camera mechanism; 21. First storage cabinet; 22. Second storage cabinet; 23. Identification sensor; 24. Light strip; 211. First storage compartment; 221. Second storage compartment; 31. Recycling box; 32. Detection sensor; 33. First display; 34. Second display; 51. Frame; 52. Camera; 53. Printer. Detailed Implementation
[0012] The following is in conjunction with the appendix Figure 1 This application will be described in further detail.
[0013] This application provides an embodiment of a smart dressing table for children's play, referring to... Figure 1 It includes a base 1 and a storage mechanism 2, a recycling and organizing mechanism 3, a decorative mirror 4, and a shooting mechanism 5, all mounted on the base 1. In this embodiment, the base 1 has a horizontally arranged "L"-shaped structure. The storage mechanism 2 is used to store decorative items with associated chips. The recycling and organizing mechanism 3 is used to detect the associated chips of each decorative item to indicate the storage location of the associated decorative item. This design enhances the fun of using the dressing table and the convenience of storage, preventing children from randomly storing items and causing chaos. This is because the chips and sensing system allow children to clearly know the specific information of the items and the specific location where they should be stored, changing the traditional way of dressing tables where children can only store items randomly.
[0014] Specifically, in this embodiment, all edges of the base 1 are chamfered, and all corners of the base 1 are rounded. This design prevents children from being scratched by sharp corners while using the vanity, improving its safety. When children move around the vanity, even if they accidentally touch the edges or corners of the base 1, the rounded design will not cause them harm. Specifically, the storage mechanism 2 in this embodiment can be divided into two storage areas, including a first storage cabinet 21 and a second storage cabinet 22. The first storage cabinet 21 is shaped like an "L" similar to the base 1. The first storage cabinet 21 is fixed to the upper surface of the "L" shaped base 1 with screws, while the second storage cabinet 22 can be movably installed below the base 1 through a slot. The first storage cabinet 21 can be used as a storage cabinet for storing decorative items, and the second storage cabinet 22 can be used as a shoe cabinet for storing shoes.
[0015] In this embodiment, the first storage cabinet 21 has several first storage compartments 211 arranged in an orderly manner, and the second storage cabinet 22 has several second storage compartments 221 arranged in an orderly manner. The first storage compartments 211 are not all the same size to accommodate items of different volumes. The inner walls of the first and second storage compartments 211 and 221 are respectively equipped with chip identification sensors 23 associated with each decorative item. The identification sensor 23 in this embodiment is a radio frequency identification (RFID) sensor. It uses radio frequency signals to interact with the associated chip to identify relevant information about each decorative item. The RFID sensor 23 emits radio frequency signals of a specific frequency. When the chip on the decorative item enters the signal range, the chip reflects the signal, and the sensor receives the reflected signal and deciphers the item information carried by the chip. Besides the RFID sensor 23, other types of sensors, such as optical identification sensors 23, can also be used to achieve similar functions. Optical identification sensors 23 can obtain item information by recognizing specific patterns or codes on the chip. By using the identification sensor 23, the specific information of each decorative item can be accurately determined, facilitating subsequent management and storage. The combination of the first storage compartment 211 and the second storage compartment 221 provides ample storage space for decorative items. Different compartments can be used to store different types of decorative items, such as hair clips, necklaces, and bracelets. This makes it easier for children to find items and cultivates their awareness of categorization and organization. Children can place items in the corresponding compartments according to their type, gradually developing good tidying habits. The identification sensor 23 is a key component of the entire storage mechanism 2. It acts like a smart manager, quickly and accurately identifying the identity information of each item, providing a foundation for subsequent operations.
[0016] Specifically, both the first storage compartment 211 and the second storage compartment 221 in this embodiment are equipped with light strips 24. These light strips 24 can be LED light strips, which offer advantages such as energy saving, high brightness, and long lifespan. The LED light strips 24 use light-emitting diodes as the light source, resulting in low power consumption and high luminous efficiency. Specifically, the recycling and sorting mechanism 3 in this embodiment includes a recycling box 31, a detection sensor 32, a first display 33, and a second display 34. The first display 33 is embedded within the first storage cabinet 21. The recycling box 31 has a cuboid structure and is located close to the first storage cabinet 21 and movably fitted into an "L"-shaped base 1 for easy item recycling. The light strips 24 in both the first and second storage compartments 211 are electrically connected to the first display 33. Furthermore, the recycling box 31 is equipped with a detection sensor 32 for detecting the associated chips of each decorative item. The detection sensor 32 can also be a radio frequency identification (RFID) sensor 23, which can quickly detect the chip information of the decorative items placed in the recycling box 31. When a decorative item is placed in the recycling bin 31, the detection sensor 32 immediately emits an radio frequency signal to read the chip information within a short time. The first display 33 receives the signals from the detection sensor 32 and the identification sensor 23 to display information about the decorative item associated with the chip. The first display 33 can be an LCD screen, which can clearly display information about the item, such as its name and category. LCD screens have high resolution and vibrant colors, allowing children to clearly see the item information. When the detection sensor 32 detects the chip of a decorative item, it transmits the information to the first display 33. The first display 33 then controls the corresponding storage compartment's light strip 24 to light up based on this information, indicating to the child where the item should be placed. For example, if a hair clip is detected placed in the recycling bin 31, the first display 33 will locate the corresponding storage compartment based on the preset chip information inside the hair clip and control the light strip 24 in that compartment to light up, allowing the child to easily put the hair clip back in the correct position. Therefore, the combination of the recycling and sorting mechanism 3 makes item storage more intelligent and convenient. The collaborative work of the detection sensor 32 and the first display 33 acts like an intelligent navigation system, guiding children to accurately put items back in their proper places, preventing clutter and improving the efficiency of the dressing table. The detection sensor 32 collects information about the items, while the first display 33 processes and provides feedback on that information. Together, they provide children with accurate tidying guidance.
[0017] In this embodiment, the shooting mechanism 5 includes a frame 51 mounted on the base 1, a camera 52 mounted on the frame 51, and a printer 53 mounted on the base 1. A second display 34 is mounted on the base 1 near the decorative mirror 4. In this embodiment, the second display 34 is embedded in the first storage cabinet 21. The second display 34 is used to control the camera 52 to take pictures and to control the printer 53 to print, so as to display the captured images and upload the captured images to the printer 53. The camera 52 is aimed at the area in front of the decorative mirror 4 to capture children. The frame 51 is made of metal, which has high stability and strength, ensuring that the camera 52 is firmly installed. The metal frame 51 can be made of aluminum alloy, which is lightweight and strong. The camera 52 is a high-definition camera, which can capture clear images. The high-definition camera 52 has high pixels and good optical performance, which can capture wonderful moments of children after makeup. The printer 53 can be a thermal printer, which is small in size, fast in printing speed, and low in cost. The thermal printer 53 prints images by heating thermal paper, eliminating the need for consumables such as ink cartridges and reducing operating costs. After applying makeup and styling their outfits at the vanity, children can control the camera 52 to take photos via the second display 34 and select photos to print, capturing their beautiful moments and increasing the fun and interactivity of the vanity. The vanity's layout allows children to immediately view item information and storage instructions on the first display 33 after placing items in the recycling bin 31; after makeup application, they can easily control the taking and printing via the second display 34. The implementation principle of this embodiment is as follows: a horizontal "L"-shaped base 1 serves as the platform, with rounded edges and corners to ensure child safety. Storage is achieved by installing a storage mechanism 2 on the base 1. The storage mechanism 2 includes a first storage cabinet 21 and a second storage cabinet 22. The "L"-shaped first storage cabinet 21 is fixed to the upper surface of the base 1 with screws. The second storage cabinet 22 is movably installed below the base 1 through a slot. Several first and second storage compartments 221 are arranged in an orderly manner in the first and second storage cabinets 22 respectively. The inner wall of the compartment is equipped with a radio frequency identification sensor 23 for identifying the chip information of decorative items. Each storage compartment is also equipped with an LED light strip 24. Then, the recycling and sorting mechanism 3 is set up, the first display 33 is embedded in the first storage cabinet 21, and the rectangular recycling box 31 is movably embedded in the "L"-shaped base 1 and close to the first storage cabinet 21. The recycling box 31 is equipped with a wireless radio frequency identification detection sensor 32, which is electrically connected to the first display 33. The first display 33 is also electrically connected to the light strips 24 of each storage compartment. When decorative items are placed in the recycling box 31, the detection sensor 32 reads the chip information and transmits it to the first display 33. The first display 33 controls the corresponding storage compartment light strip 24 to light up to guide the storage.The shooting function is achieved by installing a shooting mechanism 5 near the decorative mirror 4. A metal frame 51 is installed on the base 1, and a high-definition camera 52 is installed on the frame 51 with the shooting direction facing the front of the decorative mirror 4. A thermal printer 53 is installed on the base 1, and a second display 34 is embedded in the first storage cabinet 21 and installed close to the decorative mirror 4. The second display 34 is used to control the camera 52 to shoot, control the printer 53 to print, and display the captured image and upload the image to the printer 53. The dressing table with the above layout allows children to quickly check the information to guide the storage after putting in items, and can conveniently take pictures and print after applying makeup.
[0018] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.
Claims
1. A smart dressing table for children's play, characterized in that, It includes a base (1), a storage mechanism (2) disposed on the base (1), a recycling and sorting mechanism (3) and a decorative mirror (4). The storage mechanism (2) is used to store each decorative item with an associated chip. The recycling and sorting mechanism (3) is used to detect the associated chip of each decorative item to indicate the sorting position of the decorative item associated with the chip.
2. The intelligent dressing table for children's play areas according to claim 1, characterized in that, The storage mechanism (2) includes a first storage cabinet (21) and a second storage cabinet (22). The first storage cabinet (21) is fixedly installed on the base (1), and the second storage cabinet (22) is movably installed on the base (1). The first storage cabinet (21) is provided with a plurality of first storage compartments (211), and the second storage cabinet (22) is provided with a plurality of second storage compartments (221). The first storage compartment (211) and the second storage compartment (221) are respectively provided with chip identification sensors (23) associated with each decorative item. The identification sensors (23) interact with the associated chips through wireless radio frequency signals to identify the relevant information of each decorative item.
3. The intelligent dressing table for children's play areas according to claim 2, characterized in that, The recycling and sorting mechanism (3) includes a recycling box (31) and a first display (33). The recycling box (31) is equipped with a detection sensor (32) for detecting chips associated with each decorative item. The first display (33) is used to receive signals from the detection sensor (32) and the identification sensor (23) to display information about the decorative item associated with the chip.
4. The intelligent dressing table for children's play areas according to claim 3, characterized in that, Both the first storage compartment (211) and the second storage compartment (221) are equipped with light strips (24), and the light strips (24) are electrically connected to the first display (33).
5. The intelligent dressing table for children's play areas according to claim 3, characterized in that, It also includes a shooting mechanism (5), which is located on the base (1) and near the decorative mirror (4). The recycling and summarizing mechanism (3) also includes a second display (34), which is used to control the shooting mechanism (5) to take pictures and display the pictures.
6. The intelligent dressing table for children's play areas according to claim 5, characterized in that, The shooting mechanism (5) includes a frame (51) and a camera (52). The frame (51) is fixedly installed on the base (1), and the camera (52) is installed on the frame (51) with its shooting direction facing the front area of the decorative mirror (4).
7. The intelligent dressing table for children's play areas according to claim 6, characterized in that, The shooting mechanism (5) also includes a printer (53), which is disposed on the base (1). The second display (34) uploads the captured image to the printer (53) and controls the printer (53) to print the captured image.
8. The intelligent dressing table for children's play areas according to claim 1, characterized in that, The edges of the base (1) are all chamfered, and the corners of the base (1) are all arc-shaped corner structures.
9. The intelligent dressing table for children's play areas according to claim 3, characterized in that, The base (1) has a horizontally arranged "L" shaped structure, and the recycling box (31) has a cuboid structure. The recycling box (31) is movably fitted into the base (1).
10. The intelligent dressing table for children's play areas according to claim 5, characterized in that, The first display (33) is positioned near the recycling box (31), and the second display (34) is positioned near the decorative mirror (4).