A multi-functional charging loading box

By designing a multi-functional charging loading box, using a magnetic charging interface and pressure sensor for power supply, combined with AC/DC charging ports and solar energy utilization, the problems of damage during transport of navigation lights and the single charging method are solved, achieving convenient and reliable charging management and environmental adaptability.

CN224459336UActive Publication Date: 2026-07-03深圳安航科技有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
深圳安航科技有限公司
Filing Date
2025-08-02
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing navigation lights are subject to damage risks during transportation and charging, and cannot meet the real-time control requirements in complex environments, lacking convenience and intelligent management.

Method used

A multifunctional charging loading box was designed, which uses a magnetic charging interface and a pressure sensor in conjunction with a battery pack to achieve convenient power supply. It can adapt to different scenario needs through AC and DC charging ports, and integrates solar panels and inverters to improve the utilization rate of natural resources.

Benefits of technology

It enables convenient and reliable transportation and flexible charging of navigation lights, and improves the equipment's adaptability and intelligent management capabilities in complex environments.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224459336U_ABST
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Abstract

This utility model relates to a multifunctional charging loading box, belonging to the technical field of charging loading equipment. It includes a charging box body, with a support plate fixedly connected inside. The support plate has several mold slots, arranged in equal proportions. Each mold slot houses a portable navigation light, and a charging connector is fixedly connected to the outside of the portable navigation light. The beneficial effect of this utility model is that when the portable navigation light is inserted into a mold slot, its own weight causes the charging connector to insert into the corresponding magnetic charging interface. The magnetic charging interface then moves the connector to the optimal contact position. At this point, a pressure sensor detects a certain pressure, and a control switch controls the battery pack to supply power to the corresponding portable navigation light, making charging more convenient.
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Description

Technical Field

[0001] This utility model relates to the field of charging loading equipment technology, and in particular to a multifunctional charging loading box. Background Technology

[0002] As key equipment in transportation facilities such as airports, runways, and ports, navigation lights primarily function to provide precise guidance and warnings for aircraft or ships, ensuring flight and navigation safety. Navigation lights operate in harsh outdoor environments for extended periods, placing extremely high demands on their reliability and maintainability.

[0003] Currently, the transportation and charging of aviation lighting equipment are mostly managed in a decentralized manner. During transportation, the lights are easily damaged or the interfaces become loose due to turbulence. The charging method is simple and relies on manual operation, which cannot meet the real-time control requirements in complex environments. In recent years, with the development of the aviation industry, the requirements for the reliability, convenience and intelligent management of navigation lighting equipment have been increasing. There is an urgent need for a multi-functional charging loading box to solve the above-mentioned problems. Utility Model Content

[0004] In view of the above-mentioned problems existing in the prior art, the main objective of this utility model is to provide a multifunctional charging loading box.

[0005] The technical solution of this utility model is as follows: a multifunctional charging loading box includes a charging box body, a box cover hinged to the outside of the charging box body, a support plate fixedly connected inside the charging box body, a plurality of mold slots opened inside the support plate, the plurality of mold slots being proportionally equal, a portable navigation light being engaged inside each mold slot, a charging connector being fixedly connected to the outside of the portable navigation light, a magnetic charging interface being provided inside the support plate and below the mold slot, the magnetic charging interface being adapted to the corresponding charging connector, a pressure sensor being built inside the support plate and below the magnetic charging interface, a battery pack being fixedly installed inside the support plate, and a control switch being fixedly installed on the outside of the charging box body.

[0006] By adopting the above technical solution, the magnetic charging interface can move the charging connector to the optimal contact position. At this time, the pressure sensor will detect a certain pressure, and the control switch will control the battery pack to supply power to the corresponding portable navigation light.

[0007] In one preferred embodiment, an anti-collision buffer pad is fixedly connected to the inner wall of the mold slot, an AC charging port is fixedly installed on the outer side of the charging box body, and a DC charging port is fixedly installed on the outer side of the charging box body.

[0008] By adopting the above technical solution and using the anti-collision buffer pad, the collision time can be extended through its own deformation, thereby reducing the impact force at the moment of collision.

[0009] In a preferred embodiment, a fixed box is fixedly installed on the inner wall of the box cover, and a soft pad is provided on the side of the fixed box away from the box cover, and the soft pad is in contact with the top of the portable navigation light.

[0010] By adopting the above technical solution, the AC charging port is suitable for a longer and relatively slow charging process, while the DC charging port is mainly used for fast charging scenarios.

[0011] In a preferred embodiment, the fixed box is provided with an adjustment component inside. The adjustment component is formed in a slide groove inside the fixed box. A threaded rod is rotatably connected inside the slide groove. A slider is threadedly connected to the outside of the threaded rod. A connecting rod is rotatably connected to the outside of the slider.

[0012] By adopting the above technical solution, the rotation of the threaded rod can drive the slider to move in the groove, and then the connecting rod can be used to push the solar panel to unfold.

[0013] In a preferred embodiment, the adjustment assembly further includes a solar panel rotatably mounted inside the fixed box, the solar panel being rotatably connected to the end of the connecting rod away from the slider, and the slider being slidably connected to the inner wall of the slide groove.

[0014] By adopting the above technical solution, the position of the solar panel can be adjusted according to the angle of sunlight, thereby improving the utilization rate of natural resources.

[0015] In a preferred embodiment, a drive motor is fixedly installed on the outside of the fixed box, and the output shaft of the drive motor extends into the interior of the slide groove and is fixedly connected to the threaded rod.

[0016] By adopting the above technical solution, the rotation of the output shaft of the drive motor can drive the threaded rod to rotate.

[0017] In a preferred embodiment, the outer side of the box cover is hinged with a box door, and handles are provided on both sides of the charging box body. An inverter is built into the inside of the support plate and on one side of the battery pack.

[0018] By adopting the above technical solution, the direct current (DC) in the solar panel can be converted into alternating current (AC) through an inverter.

[0019] Compared with the prior art, the advantages and positive effects of this utility model are as follows:

[0020] 1. In this utility model, when the portable navigation light is inserted into the mold slot, the weight of the portable navigation light itself causes the charging connector on the portable navigation light to be inserted into the corresponding magnetic charging interface. Through the action of the magnetic charging interface, the charging connector can be moved to the optimal contact position. At this time, the pressure sensor will detect a certain pressure, and the control switch will control the battery pack to supply power to the corresponding portable navigation light, making the charging method more convenient.

[0021] 2. In this utility model, several mold slots with equal proportions are set in the support plate, which can be used to load portable navigation lights and can be adapted to the loading volume of portable navigation lights, so that the charging box body is not easy to shake during carrying. The charging box body adopts a box design to improve the portability of the charging box body. With the setting of AC charging port, it can be used for a longer and relatively slow charging process, while with the setting of DC charging port, it is mainly used for fast charging scenarios, thus adapting to different scenario needs. Attached Figure Description

[0022] Figure 1 This utility model provides an overall perspective view of a multifunctional charging loading box;

[0023] Figure 2 A top view of a multifunctional charging loading box is provided for this utility model;

[0024] Figure 3 This utility model provides a cross-sectional view of the support plate of a multifunctional charging loading box;

[0025] Figure 4 A rear view of a multifunctional charging loading box provided by this utility model;

[0026] Figure 5 This utility model provides a schematic diagram of the adjustment component for a multifunctional charging loading box.

[0027] Legend: 1. Charging box body; 2. AC charging port; 3. DC charging port; 4. Portable navigation light; 5. Box cover; 6. Fixing box; 7. Control switch; 8. Support plate; 9. Mold slot; 10. Magnetic charging interface; 11. Charging connector; 12. Battery pack; 13. Inverter; 14. Pressure sensor; 15. Box door; 16. Solar panel; 17. Slide rail; 18. Slider; 19. Threaded rod; 20. Drive motor. Detailed Implementation

[0028] The technical solutions in the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of this application without creative effort are within the scope of protection of this application.

[0029] Reference Figure 1-5 A multi-functional charging loading box includes a charging box body 1. A support plate 8 is fixedly connected inside the charging box body 1. The support plate 8 has several mold slots 9, which are proportionally arranged. Each mold slot 9 houses a portable navigation light 4. A charging connector 11 is fixedly connected to the outside of the portable navigation light 4. A magnetic charging interface 10 is located inside the support plate 8, below the mold slots 9, and is compatible with the corresponding charging connector 11. A pressure sensor 14 is built into the support plate 8, below the magnetic charging interface 10. A battery pack 12 is fixedly installed inside the support plate 8. A control switch 7 is fixedly installed on the outside of the charging box body 1. Several proportionally arranged... The mold slot 9 in the space can accommodate the portable navigation light 4 and can be adapted to the loading volume of the portable navigation light 4, so that the charging box body 1 is not easy to shake during carrying. The charging box body 1 adopts a box design to improve the portability of the charging box body 1. When the portable navigation light 4 is inserted into the mold slot 9, the weight of the portable navigation light 4 can cause the charging connector 11 on the portable navigation light 4 to be inserted into the corresponding magnetic charging interface 10. Through the action of the magnetic charging interface 10, the charging connector 11 can be moved to the optimal contact position. At this time, the pressure sensor 14 will detect a certain pressure, and the control switch 7 will control the battery pack 12 to supply power to the corresponding portable navigation light 4, making the charging method more convenient.

[0030] Specifically, an anti-collision buffer pad is fixedly connected to the inner wall of the mold slot 9. The anti-collision buffer pad can extend the collision time through its own deformation, thereby reducing the impact force at the moment of collision and improving the protection of the portable navigation light 4. An AC charging port 2 and a DC charging port 3 are fixedly installed on the outer side of the charging box body 1. The AC charging port 2 is suitable for longer, relatively slow charging processes, while the DC charging port 3 is mainly used for fast charging scenarios, thus adapting to different scenario requirements. The inner wall of the box cover 5 is fixedly... The device is equipped with a fixed box 6. A soft pad is provided on the side of the fixed box 6 away from the box cover 5. The soft pad is in contact with the top of the portable navigation light 4 to improve the protection of the portable navigation light 4 during transportation. An adjustment component is provided inside the fixed box 6. The adjustment component is opened in the slide groove 17 inside the fixed box 6. A threaded rod 19 is rotatably connected inside the slide groove 17. By rotating the threaded rod 19, the slider 18 can be driven to move in the slide groove 17, and then the solar panel 16 can be pushed to unfold by means of a connecting rod. The slider 18 is threadedly connected to the outside of the threaded rod 19. The connecting rod is rotatably connected to the outside of the slider 18.

[0031] Specifically, the adjustment assembly also includes a solar panel 16 rotatably installed inside the fixed box 6. The solar panel 16 is rotatably connected to the end of the connecting rod away from the slider 18, and the position of the solar panel 16 can be adjusted according to the angle of sunlight, thereby improving the utilization rate of natural resources. The slider 18 is slidably connected to the inner wall of the slide groove 17. A drive motor 20 is fixedly installed on the outside of the fixed box 6. The rotation of the output shaft of the drive motor 20 can drive the threaded rod 19 to rotate. The output shaft of the drive motor 20 extends into the inside of the slide groove 17 and is fixedly connected to the threaded rod 19. A box door 15 is hinged to the outside of the box cover 5. Handles are provided on both sides of the charging box body 1 to facilitate the handling of the charging box body 1 by the staff. An inverter 13 is built into the inside of the bearing plate 8 and located on one side of the battery pack 12, which can convert the DC power in the solar panel 16 into AC power.

[0032] Working principle: Several proportionally proportioned mold slots 9 are set in the support plate 8 to load the portable navigation light 4 and adapt to the loading volume of the portable navigation light 4, making the charging box body 1 less prone to shaking during carrying. When the box lid 5 is closed, the soft pad on the fixing box 6 will abut against the portable navigation light 4, which can further improve the protection of the portable navigation light 4 during transportation. The AC charging port 2 is suitable for a longer and relatively slow charging process, while the DC charging port 3 is mainly used for fast charging scenarios, thus adapting to different scenario requirements. When the portable navigation light 4 is inserted into the mold slot 9, the charging connector 1 on the portable navigation light 4 can be moved due to its own weight. Insert the connector 11 into the corresponding magnetic charging interface 10. Through the action of the magnetic charging interface 10, the charging connector 11 can be moved to the optimal contact position. At this time, the pressure sensor 14 will detect a certain pressure, and the control switch 7 will control the battery pack 12 to supply power to the corresponding portable navigation light 4, making the charging method more convenient. Then, the staff can open the box door 15 outside the box cover 5 and control the drive motor 20 to start. Through the rotation of the threaded rod 19, the slider 18 can be moved in the slide groove 17, and then the solar panel 16 can be pushed to unfold by the connecting rod. The inverter 13 converts DC power into AC power, which is finally stored in the battery pack 12 for use by subsequent electrical equipment, thereby improving the utilization rate of natural resources.

[0033] In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "installed," "equipped with," "connected," etc., should be interpreted broadly. For example, "connection" can be a fixed connection, a detachable connection, or an integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium; it can be a connection within two components. For those skilled in the art, the specific meaning of the above terms in this utility model can be understood according to the specific circumstances.

[0034] The above description is merely a preferred embodiment of this application and is not intended to limit this application. Although this application has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this application should be included within the protection scope of this application.

Claims

1. A multifunctional charging loading box comprising a charging box body (1), characterized in that: The charging box body (1) is hinged to the outside of the box cover (5). The charging box body (1) is fixedly connected to the inside of the support plate (8). The support plate (8) has several mold slots (9) inside. The mold slots (9) are proportional. Portable navigation lights (4) are engaged inside each mold slot (9). A charging connector (11) is fixedly connected to the outside of the portable navigation lights (4). A magnetic charging interface (10) is provided inside the support plate (8) and below the mold slots (9). The magnetic charging interface (10) is compatible with the corresponding charging connector (11). A pressure sensor (14) is built inside the support plate (8) and below the magnetic charging interface (10). A battery pack (12) is fixedly installed inside the support plate (8). A control switch (7) is fixedly installed on the outside of the charging box body (1).

2. The multi-functional charging dock of claim 1, wherein: The inner wall of the mold slot (9) is fixedly connected with an anti-collision buffer pad, and the outer side of the charging box body (1) is fixedly installed with an AC charging hole (2) and a DC charging hole (3).

3. The multi-functional charging dock of claim 1, wherein: A fixed box (6) is fixedly installed on the inner wall of the box cover (5). A soft pad is provided on the side of the fixed box (6) away from the box cover (5). The soft pad is in contact with the top of the portable navigation light (4).

4. A multifunctional charging loading box according to claim 3, characterized in that: The fixed box (6) is provided with an adjustment component inside. The adjustment component is opened in a slide groove (17) inside the fixed box (6). A threaded rod (19) is rotatably connected inside the slide groove (17). A slider (18) is threadedly connected to the outside of the threaded rod (19). A connecting rod is rotatably connected to the outside of the slider (18).

5. A multi-functional charging dock as claimed in claim 4, wherein: The adjustment assembly also includes a solar panel (16) rotatably installed inside the fixed box (6), the solar panel (16) being rotatably connected to the end of the connecting rod away from the slider (18), and the slider (18) being slidably connected to the inner wall of the groove (17).

6. The multi-functional charging dock of claim 4, wherein: A drive motor (20) is fixedly installed on the outside of the fixed box (6). The output shaft of the drive motor (20) extends into the interior of the slide groove (17) and is fixedly connected to the threaded rod (19).

7. The multi-functional charging dock of claim 1, wherein: The outer side of the cover (5) is hinged with a door (15), and both sides of the charging box body (1) are provided with handles. An inverter (13) is built into the inside of the support plate (8) and located on one side of the battery pack (12).