A charging pile
The modular design and telescopic components of the charging pile solve the convenience and aesthetic issues of the socket module, enabling flexible configuration and stable installation of the socket module, and improving the user experience for high-end users.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HANGZHOU JOYE TECH CO LTD
- Filing Date
- 2025-06-20
- Publication Date
- 2026-06-09
AI Technical Summary
Existing charging pile products suffer from insufficient convenience, safety, and aesthetics among high-end users. In particular, the socket module is inconvenient to disassemble and replace, lacks flexibility and intelligent design, and cannot meet the comprehensive needs of efficiency, convenience, safety, and aesthetics.
By adopting a modular design and telescopic components, combined with the installation tray structure and moving components on the charging pile column, the socket module can be customized and flexibly configured, enhancing the product's adaptability and practicality.
It significantly reduces maintenance difficulty and cost, reduces user operation complexity, improves ease of use and aesthetics, provides space for items, and ensures equipment stability and safety.
Smart Images

Figure CN224335486U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of electrical equipment, and in particular to a charging pile. Background Technology
[0002] In high-end residential and commercial settings, the demand for power outlets has long surpassed basic charging functionality, with a greater emphasis on efficiency, convenience, safety, and aesthetics. Using series-connected outlets for power draw requires users to frequently bend over to plug and unplug, posing inconvenience issues. Exposed wires not only detract from the overall aesthetics but also pose potential short circuits or poor connections, as well as safety hazards. While fixed charging stations exist, current products typically have outlets directly fixed to the station, making disassembly and replacement cumbersome and relocation difficult. Damage or upgrades often require professional maintenance, resulting in high costs. Furthermore, most existing charging stations lack flexible pull-out designs, making them extremely inconvenient, especially when charging smartphones, tablets, and other smart devices. Therefore, the market urgently needs a new type of charging station that can simultaneously meet the comprehensive needs of high-end users for efficiency, convenience, safety, and aesthetics.
[0003] For example, utility model patent CN219627378U, entitled "A Charging Pile," discloses a charging pile including a mounting bracket with a cavity. At least one mounting groove is provided on the side wall of the mounting bracket, within which a socket module for charging electrical equipment is detachably connected. An inspection port for personnel access is provided on the side wall of the mounting bracket, below the socket module, and a door panel is hinged to the inspection port for sealing. This charging pile's socket module is easy to disassemble, replace, and maintain, saving time and effort. The inspection port facilitates access to the charging pile for wiring and maintenance. While this technical solution improves the maintenance convenience of the charging pile's socket module to some extent, its functional design remains relatively traditional and fails to fully meet the higher demands of high-end users for intelligence, personalization, and overall user experience. Utility Model Content
[0004] In response to the problems described in the background art, this utility model proposes a charging pile that solves the problem of personalized socket module settings through modular design and telescopic component settings. By extending the installation tray structure and moving components on the charging pile column, the practicality of the product is enhanced, making it suitable for scenarios such as schools, residences, offices, and commercial venues, and filling the gap in multi-functional integration of traditional charging pile products.
[0005] To achieve the above objectives, the present invention adopts the following technical solution: a charging pile, comprising a charging pile column and a first socket module, wherein the charging pile column is provided with an inlet end and an outlet end; the outlet end is connected to the first socket module, and the inlet end is provided with a second socket module mounting groove; the first socket module is provided with a telescopic component storage cavity at one end away from the outlet end, the telescopic component storage cavity is connected to a top cover structure, and the top cover structure is provided with a low-voltage component limiting cover.
[0006] By setting inlet and outlet terminals on the charging pile column, this utility model can easily connect to the power supply and distribute power. The design of the second socket module mounting slot allows users to flexibly configure the socket module according to their needs, enhancing the adaptability and modular expandability of the charging pile. The telescopic component storage cavity provides installation space for the telescopic component and cable storage limit. The top cover structure prevents dust from entering the interior and also prevents internal components from being damaged by external forces. The low-voltage component limit cover is used to fix and protect low-voltage components.
[0007] Preferably, the charging pile column is provided with several support columns and a grounding terminal. The second socket module mounting slot is connected to the second socket module. The support column includes a first socket module mounting column and a base mounting column. One end of the grounding terminal is connected to the first socket module, and the other end is connected to the second socket module. The support column is used to connect the first socket module and the charging pile base, and at the same time enhances the structural stability of this utility model. The grounding terminal provides grounding protection. By connecting the grounding terminal to the first socket module and the second socket module, the safety of this utility model is enhanced.
[0008] Preferably, the first socket module is provided with several interface panels, including a high-voltage panel and a low-voltage panel. The high-voltage panel is provided with several high-voltage modules, and the low-voltage panel is provided with a USB female connector and a retractable component. The separate design of the high-voltage panel and the low-voltage panel avoids electromagnetic interference and improves electrical safety. The high-voltage panel is suitable for charging high-power devices, while the low-voltage panel is suitable for charging small electronic devices. The USB female connector meets the charging needs of electronic devices without the need for additional converters, enabling plug-and-play charging. The retractable component installed on the low-voltage panel allows for the pull-out and storage of the charging cable, facilitating user operation and keeping the cable tidy.
[0009] Preferably, the incoming line is connected to the charging pile base, and the charging pile base is provided with a column positioning structure. The charging pile column and the charging pile base are threadedly connected to the column positioning structure. The charging pile base provides a stable foundation, and the column positioning structure ensures that the column can be accurately and quickly installed on the charging pile base, simplifying the production and assembly process. The threaded connection method is firm and reliable, easy to disassemble and maintain, and at the same time provides good electrical continuity and grounding path for this utility model.
[0010] Preferably, the first socket module is provided with a first socket module mounting base, and the first socket module and the first socket module mounting base are provided with a snap-fit structure. The top cover structure includes a low-voltage component limiting cover and a cover plate connected to the low-voltage component limiting cover. The cover plate is made of transparent material. The first socket module mounting base and the snap-fit structure realize the modular quick installation and replacement of this utility model, which is convenient for maintenance and upgrades. The top cover structure facilitates the assembly and maintenance of internal low-voltage components. The use of transparent material for the cover plate allows users to see the display status of the screen, improving the user experience.
[0011] Preferably, the telescopic component is located in the telescopic component storage cavity, which is provided with a telescopic component limiting structure and a telescopic component guide groove. The telescopic component guide groove has an arc. The telescopic component limiting structure prevents the telescopic component from shaking or excessively retracting when it is pulled out. The arc design of the telescopic component guide groove increases the bending radius of the cable during the extension and retraction process, effectively reducing cable bending and wear, extending the cable's service life, and ensuring a smoother extension and retraction process.
[0012] Preferably, the low-voltage component limiting cover is equipped with a display screen opening and a telescopic cable fixing structure. The telescopic cable fixing structure is equipped with a cable outlet and a groove. The first socket module mounting base is equipped with a first socket module limiting edge and a column limiting edge. The display screen opening is used to expose the display screen, making it convenient for users to view the current power consumption information. The design of the telescopic cable fixing structure, especially the setting of the cable outlet, is used to fix and guide the cable outlet position and angle of the telescopic component when it is extended. The telescopic cable fixing structure ensures that the telescopic component can be pulled out smoothly when in use. The groove design allows the telescopic component to be quickly taken out for extension operation when it is retracted. The setting of the first socket module limiting edge and the column limiting edge enables the first socket module mounting base to be accurately positioned during the installation process with the charging pile column and the first socket module, achieving stable installation and preventing the cable outlet component from shifting during the installation process.
[0013] Preferably, the charging pile column is equipped with a tray structure, which includes a limiting ring and a storage tray. The storage tray has several positioning structures, and the limiting ring has several slot structures adapted to the positioning structures. The storage tray provides users with a convenient platform for placing small items such as mobile phones and tablets. The design of the positioning structures and slot structures allows the storage tray to be quickly assembled, disassembled, or height adjusted, enhancing the flexibility of this utility model. The limiting ring firmly fixes the storage tray to the charging pile column, preventing it from slipping or rotating.
[0014] Preferably, the first socket module mounting post is provided with a second module limiting structure. The first socket module mounting post is provided with a first socket module mounting thread at the outgoing end, and the base mounting post is provided with a base mounting thread at the incoming end. The second module limiting structure is used to ensure the reliability of electrical connection and structural stability. The first socket module mounting thread and the base mounting thread provide a firm and reliable threaded connection method, which is used to fix the installation of the first socket module and the charging pile base respectively, which is convenient and stable.
[0015] Preferably, the charging pile base is provided with a movable component, which is equipped with a braking structure. The movable component uses casters to make the present invention movable, which facilitates the adjustment of the use position of the present invention and improves the flexibility of the equipment. The braking structure can reliably fix the product when needed, prevent it from moving accidentally, and ensure the safety and stability of use.
[0016] Compared with the prior art, the beneficial effects of this utility model are as follows.
[0017] 1. The modular design makes the socket module detachable and replaceable, significantly reducing maintenance difficulty and cost; the integrated telescopic component enables convenient pulling out and automatic retraction of the charging plug, effectively reducing the bending action of users when plugging and unplugging, and is especially convenient for charging portable devices such as mobile phones and tablets, improving the ease of use of this utility model.
[0018] 2. By installing retractable components on the low-voltage panel, exposed cables can be effectively avoided, enabling neat cable storage and improving the overall aesthetics of the equipment and the environment.
[0019] 3. The charging pile column is equipped with a tray structure to provide users with temporary storage space for their items, enhancing its practicality; the base is equipped with movable components to facilitate equipment position adjustment and a locking mechanism to ensure stability during use, taking into account both flexible deployment and usage needs. Attached Figure Description
[0020] Figure 1 This is a schematic diagram of the structure of this utility model.
[0021] Figure 2 This is a schematic diagram of another embodiment of the present invention.
[0022] Figure 3 This is a schematic diagram of another embodiment of the present invention.
[0023] Figure 4 This is a schematic diagram of the first socket module of this utility model.
[0024] Figure 5 This is a schematic diagram of the storage cavity of the telescopic component of this utility model.
[0025] Figure 6 This is a schematic diagram of the output end of this utility model.
[0026] Figure 7 This is a schematic diagram of the inlet end of this utility model.
[0027] Figure 8 This is a schematic diagram of the tray structure of this utility model.
[0028] Figure 9 This is a cross-sectional view of the first socket module of this utility model.
[0029] Figure 10 This is a schematic diagram of the limiting cover for the low-voltage components of this utility model.
[0030] Figure 11 This is a bottom view of the first socket module of this utility model.
[0031] Figure 12 This is a schematic diagram of the mounting base for the first socket module of this utility model.
[0032] Figure 13 This is a schematic diagram of the second socket module of this utility model.
[0033] Illustrations: 1. Charging pile column; 2. First socket module; 3. Inlet terminal; 4. Outlet terminal; 5. Second socket module mounting slot; 6. Telescopic component storage cavity; 7. Charging pile base; 8. Top cover structure; 9. Support column; 10. Grounding terminal; 11. Second socket module; 12. Interface panel; 13. High-voltage panel; 14. Low-voltage panel; 15. USB female connector; 16. Telescopic component; 17. First socket module mounting base; 18. High-voltage module; 19. Grounding wire; 20. Power cord; 21. Overload protector; 22. Surge protector; 23. Second socket module mounting structure; 1.1. Tray structure; 1.2. Limiting ring; 1.3. Storage tray; 1.4. Fixed... 1.4 Position structure, 1.5 Slot structure, 6.1 Telescopic component limiting structure, 6.2 Telescopic component guide groove, 7.1 Column positioning structure, 7.2 Moving component, 7.3 Braking structure, 8.1 Cover plate, 8.2 Low voltage component limiting cover, 8.3 Display port, 8.4 Telescopic cable head fixing structure, 8.5 Cable outlet, 8.6 Groove, 9.1 First socket module mounting post, 9.2 Base mounting post, 9.3 Second module limiting structure, 9.4 First socket module mounting thread, 9.5 Base mounting thread, 17.1 Buckle structure, 17.2 First socket module limiting edge, 17.3 Column limiting edge. Detailed Implementation
[0034] To more clearly reveal the purpose, technical solution, and advantages of this disclosure, the embodiments of this disclosure will be described in detail below with reference to the accompanying drawings. The scale and dimensions in the drawings do not limit the essential technical solution of this utility model. The embodiments described in this detail are merely examples and do not limit the scope of this utility model.
[0035] Example 1.
[0036] See Figures 1 to 13 As shown, a charging pile includes a charging pile column 1 and a first socket module 2. The charging pile column 1 has an inlet end 3 and an outlet end 4. The outlet end 4 is connected to the first socket module 2, and the inlet end 3 has a second socket module mounting slot 5. The first socket module 2 has a telescopic component storage cavity 6 at the end away from the outlet end 4. The telescopic component storage cavity 6 is connected to a top cover structure 8, and the top cover structure 8 has a low-voltage component limiting cover 8.2. By setting the inlet end 3 and the outlet end 4 on the charging pile column 1, this utility model can easily connect to a power source and distribute power. The power cord 20 connects to the second socket module 11 through the inlet end 3, distributing power to the outlet end 4, thereby supplying power to the first socket module 2 and the second socket module 11. The design of the second socket module mounting slot 5 allows users to flexibly configure the socket module according to their needs, enhancing the adaptability of the charging pile. Because this utility model uses modular sockets, as shown in the figure, both the first socket module 2 and the second socket module 11 use American standard high-voltage socket modules in their high-voltage sections. Users can replace these high-voltage modules with those from other countries or regions as needed. The telescopic component storage cavity 6 provides installation space for the telescopic component 16 and limits the storage of its telescopic cable. The top cover structure 8 prevents dust from entering the interior and also prevents damage to internal components from external forces. The low-voltage component limiting cover 8.2 is used to fix and protect low-voltage components.
[0037] See Figure 6 and Figure 7 The charging pile column 1 is a hollow columnar structure. Eight support columns 9 and one grounding terminal 10 are installed on the inner wall of the charging pile column 1. The second socket module mounting slot 5 connects to the second socket module 11. During assembly, the second socket module 11 is inserted into the charging pile column 1 from the inlet end 3. For example... Figure 13 As shown, the second socket module mounting structure 23 and the second socket module mounting groove 5 form a limiting mechanism to prevent the second socket module 11 from detaching from the charging pile column 1. In this embodiment, the support column 9 includes four first socket module mounting columns 9.1 and four base mounting columns 9.2. One end of the ground wire terminal 10 is connected to the first socket module 2, and the other end is connected to the second socket module 11. The second socket module 11 has a cable outlet connected to the power cord 20. The support column 9 not only connects the first socket module 2 and the charging pile base 7, but also enhances the structural stability of this invention. As shown, the ground wire 19 is connected to the ground wire terminal 10. By connecting the ground wire terminal 10 to the first socket module 2 and the second socket module 11, grounding protection is provided. Furthermore, in this embodiment, the second socket module 11 is equipped with an overload protector 21 and a surge protector 22, enhancing the safety of this invention. Figure 6 and Figure 7 As shown, the first socket module mounting post 9.1 is provided with a second module limiting structure 9.3. The first socket module mounting post 9.1 has a first socket module mounting thread 9.4 at the outlet end 4 for fixed connection with the first socket module 2. The base mounting post 9.2 has a base mounting thread 9.5 at the inlet end 3 for fixed connection with the charging pile base 7. The use of threaded connection makes the connection of this utility model convenient and stable. Wherein, as Figure 3 , Figure 7 and Figure 11 As shown, the second module limiting structure 9.3 is used to cooperate with the second socket module mounting structure 23 and the second socket module mounting slot 5 to ensure that the second socket module 11 will not move after it is installed in place, thus ensuring the reliability of electrical connection and structural stability.
[0038] like Figures 1 to 5 As shown, in this embodiment, the first socket module 2 has a top and four sides. The first socket module 2 has interface panels 12 on the top and sides, each including a low-voltage panel 14 and two high-voltage panels 13. The low-voltage panel 14 is located on the top of the first socket module 2, while the high-voltage panels 13 are located on opposite sides of the four sides. Each high-voltage panel 13 has two high-voltage modules 18 for charging high-power devices. The low-voltage panel 14 has a USB female connector 15, providing a 1A1C charging option. A telescopic component 16 is also located on the low-voltage panel 14. The separate design of the high-voltage panel 13 and the low-voltage panel 14 avoids electromagnetic interference and improves electrical safety. The high-voltage panel 13 is suitable for charging high-power devices, while the low-voltage panel 14 is suitable for charging small electronic devices. The USB female connector allows electronic devices to be charged without additional converters, achieving plug-and-play charging. The retractable component 16 enables the charging cable to be pulled out and stored, eliminating the need for users to manually organize the cable before and after use. Simply pull it gently to use the cable, and release it after use for automatic storage. This reduces the hassle of operation and avoids the problem of traditional cables easily getting tangled, especially when multiple cables are used simultaneously. In addition, it keeps the cables neat and tidy. When not in use, the data cable can be completely stored inside the device, avoiding the mess caused by exposed cables and making the environment around the device more tidy and beautiful. This reduces cable accumulation and enhances the practicality and aesthetics of this invention.
[0039] See Figure 1 , Figure 4 and Figure 5As shown, the telescopic component 16 is located in the telescopic component storage cavity 6. The telescopic component storage cavity 6 is provided with a telescopic component limiting structure 6.1 and a telescopic component guide groove 6.2. The telescopic component guide groove 6.2 is curved. The telescopic component limiting structure 6.1 is used to prevent the telescopic component 16 from shaking or excessively retracting when it is pulled out. The curved design of the telescopic component guide groove 6.2 increases the bending radius of the cable during the extension and retraction process, effectively reducing cable bending and wear, extending the cable service life, and ensuring a smoother extension and retraction process.
[0040] like Figure 3 As shown, the inlet terminal 3 connects to the charging pile base 7. The charging pile base 7 is equipped with a column positioning structure 7.1. The charging pile column 1 and the charging pile base 7 are threadedly connected at the column positioning structure 7.1. The charging pile base 7 provides a stable foundation, and the column positioning structure 7.1 ensures that the column can be accurately and quickly installed on the charging pile base 7, simplifying the production and assembly process. This embodiment uses a threaded connection method, which is firm and reliable, easy to disassemble and maintain, and also provides a good grounding path for this utility model.
[0041] like Figure 1 As shown, the charging pile base 7 is equipped with a moving component 7.2, and the moving component is equipped with a braking structure 7.3. In this embodiment, the moving component 7.2 uses casters to make the present invention movable, which facilitates the adjustment of the use position of the present invention and improves the flexibility of equipment use; the braking structure 7.3 can reliably fix the product when needed, prevent its accidental movement, and ensure the safety and stability of use.
[0042] like Figure 9 and Figure 11 As shown, the first socket module 2 is provided with a first socket module mounting base 17, and the first socket module 2 and the first socket module mounting base 17 are provided with a snap-fit structure 17.1. The top cover structure 8 includes a low-voltage component limiting cover 8.2 and a cover plate 8.1 connected to the low-voltage component limiting cover 8.2. In this embodiment, the cover plate 8.1 is a glass cover plate. The design of the first socket module mounting base 17 and the snap-fit structure 17.1 realizes the modular quick installation and replacement of this utility model. Figure 10As shown, the low-voltage component limiting cover 8.2 has a display screen opening 8.3 and a telescopic cable fixing structure 8.4. The telescopic cable fixing structure 8.4 has a cable outlet 8.5 and a groove 8.6. In this embodiment, the first socket module 2 is equipped with an electricity monitoring module, which has a display screen. The display screen opening 8.3 is used to expose the display screen. The transparent glass cover used in conjunction with the cover plate 8.1 makes it easy for users to view the current electricity information. The design of the telescopic cable fixing structure 8.4, especially the setting of the cable outlet 8.5, is used to fix and guide the cable outlet position and angle of the telescopic component 16 when it is extended. The telescopic cable fixing structure 8.4 ensures that the telescopic component 16 can be pulled out smoothly when in use. The design of the groove 8.6 allows the telescopic component 16 to be quickly taken out for stretching operation when it is retracted. Figure 12 As shown, the first socket module mounting base 17 is provided with a first socket module limiting edge 17.2 and a column limiting edge 17.3. The setting of the first socket module limiting edge 17.2 and the column limiting edge 17.3 enables the first socket module mounting base 17 to be accurately positioned during the installation process with the charging pile column 1 and the first socket module 2, achieving stable installation and preventing the outgoing wire components from shifting during the installation process. The top cover structure 8 facilitates the assembly and maintenance of the internal low-voltage components. The cover plate 8.1 is made of transparent material, allowing users to see the display status of the screen, improving the user experience.
[0043] like Figure 1 and Figure 8 As shown, the charging pile column 1 is equipped with a tray structure 1.1, which includes a limiting ring 1.2 and a storage tray 1.3. The bottom of the storage tray 1.3 has four positioning structures 1.4, and the limiting ring 1.2 has four slot structures 1.5 that are adapted to the positioning structures 1.4. During installation, the four positioning structures 1.4 and the slot structures 1.5 are engaged to achieve rapid assembly of the tray structure 1.1. Then, the tray structure 1.1 is installed on the charging pile column 1, and the limiting ring 1.2 is adjusted to prevent it from slipping. In this embodiment, the locking structure of the limiting ring 1.2 consists of two locking screws. During the installation of the tray structure 1.1, the first socket module mounting base 17 plays a positioning role, with the lower end of the first socket module mounting base 17 being the highest position for the installation of the tray structure 1.1. The storage tray 1.3 provides users with a convenient platform for placing small items such as mobile phones and tablets, enhancing the flexibility of this utility model.
[0044] Example 2.
[0045] See Figure 3As shown, a charging pile includes a charging pile column 1 and a first socket module 2. The charging pile column 1 has an inlet end 3 and an outlet end 4. The outlet end 4 is connected to the first socket module 2, and the inlet end 3 has a second socket module mounting groove 5. The first socket module 2 has a telescopic component storage cavity 6 at the end away from the outlet end 4. The telescopic component storage cavity 6 is connected to a top cover structure 8, and the top cover structure 8 has a low-voltage component limiting cover 8.2. By setting the inlet end 3 and the outlet end 4 on the charging pile column 1, this utility model can easily connect to the power supply and distribute power. The design of the second socket module mounting groove 5 allows users to flexibly configure the socket module according to their needs, enhancing the expandability of the charging pile. The telescopic component storage cavity 6 provides installation space for the telescopic component 16, and the telescopic component limiting structure 6.1 and the arc-shaped telescopic component guide groove 6.2 ensure smooth cable extension and reduce wear during the extension and retraction process, extending the cable service life. The top cover structure 8 prevents dust from entering the interior and protects the internal components from external damage. The low-voltage component limiting cover 8.2 fixes and protects the low-voltage components. The inlet terminal 3 connects to the charging pile base 7, which has a column positioning structure 7.1. The charging pile column 1 is threadedly connected to the charging pile base 7. The charging pile base 7 adopts a cross-shaped design, providing a larger ground contact area, increasing stability, reducing the risk of tipping, and is suitable for various ground conditions. The cross-shaped base not only improves practicality but also enhances aesthetics, allowing it to better integrate into various environments. The first socket module 2 has several interface panels 12, including a high-voltage panel 13 and a low-voltage panel 14. The high-voltage panel 13 has several high-voltage modules 18, suitable for charging high-power devices; the low-voltage panel 14 has a USB female connector 15 and a telescopic component 16, meeting the charging needs of small electronic devices. The separate design of the high-voltage and low-voltage panels avoids electromagnetic interference and improves electrical safety. The pull-out storage function of the telescopic component 16 facilitates user operation and keeps cables tidy.
[0046] Example 3.
[0047] See Figure 2As shown, a charging pile includes a charging pile column 1 and a first socket module 2. The charging pile column 1 has an inlet end 3 and an outlet end 4. The outlet end 4 is connected to the first socket module 2, and the inlet end 3 has a second socket module mounting slot 5. The first socket module 2 has a telescopic component storage cavity 6 at the end away from the outlet end 4. The telescopic component storage cavity 6 is connected to a top cover structure 8, and the top cover structure 8 has a low-voltage component limiting cover 8.2. The power cord 20 is connected to the second socket module 11 through the inlet end 3, distributing power to the outlet end 4, thereby powering the first socket module 2 and the second socket module 11. The design of the second socket module mounting slot 5 allows users to flexibly configure the socket module according to their needs, enhancing the adaptability of the charging pile. In this embodiment, both the first socket module 2 and the second socket module 11 adopt a modular design, supporting multiple standard high-voltage socket modules. The inlet end 3 is connected to the charging pile base 7, and the charging pile base 7 has a column positioning structure 7.1. The charging pile column 1 and the charging pile base 7 are threadedly connected through the column positioning structure 7.1. The charging pile base 7 also includes a moving component 7.2, which uses casters. The telescopic component storage cavity 6 houses the telescopic component 16 and its cable. The charging pile base 7 is threadedly connected to the charging pile column 1 via a column positioning structure 7.1, ensuring precise, secure, and conductive installation while facilitating maintenance. The charging pile base 7 also includes the moving component 7.2 and a braking structure 7.3. The braking structure 7.3 reliably locks when needed, ensuring safe and stable operation. In this embodiment, the moving component 7.2 uses casters with a wheel diameter greater than 40mm, allowing it to easily overcome small obstacles or thresholds during movement, increasing load-bearing capacity, reducing wear caused by frequent movement, and thus extending the service life of this invention.
[0048] This utility model is not limited to the above embodiments. Any changes in shape or material made using the structural design provided by this utility model are considered variations of this utility model and are equally protected by this utility model. The use of terminology is only for describing specific embodiments and does not limit the exemplary embodiments according to this application. Within the scope of protection, all changes based on the structural design of this utility model should also be included.
Claims
1. A charging pile, characterized in that, It includes a charging pile column (1) and a first socket module (2), wherein the charging pile column (1) is provided with an inlet end (3) and an outlet end (4). The outgoing end (4) is connected to the first socket module (2), and the incoming end (3) is provided with a second socket module mounting slot (5); The first socket module (2) has a telescopic component storage cavity (6) at one end away from the outlet end (4), the telescopic component storage cavity (6) is connected to the top cover structure (8), and the top cover structure (8) is provided with a low-voltage component limiting cover (8.2).
2. A charging pile according to claim 1, characterized in that, The charging pile column (1) is provided with several support columns (9) and ground wire terminals (10). The second socket module mounting slot (5) is connected to the second socket module (11). The support column (9) includes a first socket module mounting column (9.1) and a base mounting column (9.2). One end of the ground wire terminal (10) is connected to the first socket module (2), and the other end is connected to the second socket module (11).
3. A charging pile according to claim 1, characterized in that, The first socket module (2) is provided with several interface panels (12), the interface panels (12) include a high-voltage panel (13) and a low-voltage panel (14), the high-voltage panel (13) is provided with several high-voltage modules (18), and the low-voltage panel (14) is provided with a USB female socket (15) and a telescopic component (16).
4. A charging pile according to claim 1, characterized in that, The incoming line end (3) is connected to the charging pile base (7). The charging pile base (7) is provided with a column positioning structure (7.1). The charging pile column (1) and the charging pile base (7) are threadedly connected in the column positioning structure (7.1).
5. A charging pile according to claim 1, characterized in that, The first socket module (2) is provided with a first socket module mounting base (17), and the first socket module (2) and the first socket module mounting base (17) are provided with a snap-fit structure (17.1). The top cover structure (8) includes a low-voltage component limiting cover (8.2) and a cover plate (8.1) connected to the low-voltage component limiting cover (8.2). The cover plate (8.1) is made of transparent material.
6. A charging pile according to claim 3, characterized in that, The telescopic component (16) is located in the telescopic component storage cavity (6). The telescopic component storage cavity (6) is provided with a telescopic component limiting structure (6.1) and a telescopic component guide groove (6.2). The telescopic component guide groove (6.2) is curved.
7. A charging pile according to claim 1 or 5, characterized in that, The low-voltage component limiting cover (8.2) is provided with a display screen opening (8.3) and a telescopic cable head fixing structure (8.4). The telescopic cable head fixing structure (8.4) is provided with a cable outlet (8.5) and a groove (8.6). The first socket module mounting base (17) is provided with a first socket module limiting edge (17.2) and a column limiting edge (17.3).
8. A charging pile according to claim 1, 2, or 4, characterized in that, The charging pile column (1) is provided with a tray structure (1.1). The tray structure (1.1) includes a limiting ring (1.2) and a storage tray (1.3). The storage tray (1.3) is provided with several positioning structures (1.4). The limiting ring (1.2) is provided with several slot structures (1.5) adapted to the positioning structures (1.4).
9. A charging pile according to claim 2, characterized in that, The first socket module mounting post (9.1) is provided with a second module limiting structure (9.3), the first socket module mounting post (9.1) is provided with a first socket module mounting thread (9.4) at the outlet end (4), and the base mounting post (9.2) is provided with a base mounting thread (9.5) at the inlet end (3).
10. A charging pile according to claim 4, characterized in that, The charging pile base (7) is provided with a moving component (7.2), and the moving component is provided with a braking structure (7.3).