Rope light winding device with solar panel
By integrating solar panels and using a modular design on the wind ropes, the problems of difficult storage and limited functionality of the wind ropes have been solved, achieving convenient storage and multifunctional outdoor lighting and charging, thus improving production efficiency and ease of use.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HANGZHOU BINARY OPTOELECTRONICS & TECH CO LTD
- Filing Date
- 2025-08-06
- Publication Date
- 2026-06-23
AI Technical Summary
Existing wind rope products are difficult to store and cannot meet the needs of nighttime lighting and mobile device charging. Furthermore, independent outdoor lighting equipment and solar charging devices suffer from structural redundancy and low production efficiency.
Design a rope light winding device with a solar panel, including a top cover, a central shaft assembly and a bottom cover. The central shaft assembly is equipped with a power generation component for receiving solar energy and converting it into electrical energy to provide power to the wind rope. It integrates lighting and charging functions and adopts a modular design to improve production efficiency.
It achieves convenient storage and multi-functionality of guy ropes, reduces the size and weight of outdoor equipment, and improves production efficiency and ease of use.
Smart Images

Figure CN224397638U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of outdoor wind rope technology, and in particular to a rope light winding device with a solar panel. Background Technology
[0002] With the increasing popularity of outdoor activities, camping, adventure, and other similar scenarios place higher demands on the versatility and portability of equipment. Guy lines, as key securing components for outdoor gear such as tents and tarps, traditionally only offer basic traction and stability, typically using reflective materials for basic warning. Existing guy lines generally suffer from storage difficulties, are prone to tangling and knotting during use, and fail to meet users' expanded needs for nighttime lighting and mobile device charging. Meanwhile, outdoor lighting equipment and solar charging devices are often developed as separate products, frequently employing a separate design, requiring users to carry multiple pieces of equipment, increasing luggage volume and weight. These separate devices typically exhibit structural redundancy and low standardization of components, requiring separate molds and material preparation for different product lines during production. This not only increases the difficulty of material management for manufacturers but also extends product development and production cycles. Utility Model Content
[0003] The purpose of this invention is to provide a rope light winding device with a solar panel, so as to alleviate the technical problem of the inconvenience of using existing wind rope products.
[0004] The present invention provides a rope lamp winding device with a solar panel, comprising: a top cover, a central shaft assembly, and a bottom cover;
[0005] The top cover and the bottom cover are respectively disposed at both ends of the central shaft assembly, and an accommodating space for winding the wind rope is formed between the top cover, the outer wall of the central shaft assembly and the bottom cover.
[0006] The central axis assembly has a power generation component that receives solar energy and converts it into electrical energy to provide power to the wind rope.
[0007] In an optional implementation,
[0008] The power generation components include wafers and batteries;
[0009] The wafer is embedded in the top of the top cover, the battery is disposed in the central axis assembly, and the wafer is electrically connected to the battery.
[0010] In an optional implementation,
[0011] The central axis assembly includes an upper central axis housing and a lower central axis housing that are connected to each other.
[0012] The outer wall of the upper housing of the central shaft is detachably connected to the top cover, and the battery is disposed inside the upper housing of the central shaft;
[0013] The outer wall of the lower housing of the central axis is detachably connected to the bottom cover. A control circuit board is provided inside the lower housing of the central axis, and the control circuit board is electrically connected to the battery.
[0014] In an optional implementation,
[0015] A control button is provided on the side of the lower housing of the central shaft near the bottom cover. The control button is electrically connected to the control circuit board and is used to control the output mode of the power generation component.
[0016] In an optional implementation,
[0017] A charging port is provided on the side of the lower housing of the central shaft near the bottom cover, and the charging port is electrically connected to the control circuit board.
[0018] In an optional implementation,
[0019] An output socket is provided on the side of the lower housing of the central shaft near the bottom cover. The output socket is electrically connected to the control circuit board and is used to electrically connect to the wind rope.
[0020] In an optional implementation,
[0021] The rope light winding device with solar panels also includes a ground spike body;
[0022] The spiked body has an assembled state and a stored state;
[0023] The lower housing of the central shaft is provided with a spike mounting hole. When the spike body is in the assembled state, the spike body is detachably connected to the spike mounting hole.
[0024] In an optional implementation,
[0025] The bottom cover is provided with a spike storage buckle. When the spike body is in the storage state, the spike storage buckle is detachably connected to the spike storage buckle.
[0026] In an optional implementation,
[0027] The bottom cover is provided with a winding notch for securing the end of the wind rope.
[0028] In an optional implementation,
[0029] The top cover is rotatably connected to a hook.
[0030] The rope light winding device with solar panels provided by this utility model has a top cover and a bottom cover respectively set at opposite ends of the central shaft assembly. The top cover, bottom cover and the outer wall of the central shaft assembly form an accommodating space, in which the wind rope can be wound. A power generation component is set on the central shaft assembly. The power generation component converts the received solar energy into electrical energy, which is convenient for providing power to the wind rope. This improves the functionality of the wind rope, and the device is smaller and easier to store, thus alleviating the technical problem of inconvenience in the use of existing wind rope products. Attached Figure Description
[0031] To more clearly illustrate the specific embodiments of this utility model or the technical solutions in the prior art, the drawings used in the description of the specific embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are some embodiments of this utility model. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.
[0032] Figure 1 A schematic diagram of the overall structure of the rope lamp winding device with a solar panel provided in an embodiment of this utility model;
[0033] Figure 2 A schematic diagram of the rope lamp winding device with a solar panel provided in an embodiment of this utility model from another perspective;
[0034] Figure 3 A schematic diagram showing the connection between the bottom cover and the lower housing of the central shaft in a rope lamp winding device with a solar panel provided in an embodiment of this utility model.
[0035] Figure 4 An exploded view of the overall structure of the rope lamp winding device with a solar panel provided in this embodiment of the utility model.
[0036] Icons: 100-Top cover; 110-Hook; 200-Central shaft assembly; 210-Chip; 220-Battery; 230-Upper housing of central shaft; 240-Lower housing of central shaft; 241-Control circuit board; 250-Control button; 260-Charging port; 270-Output socket; 280-Spiked spike mounting hole; 290-Battery circuit board; 291-Spring pin; 300-Bottom cover; 310-Spiked spike storage buckle; 311-Spiked spike storage base; 312-Closing structure; 320-Winding notch; 400-Accommodation space; 500-Wind rope; 600-Spiked spike body. Detailed Implementation
[0037] The technical solution of this utility model will now be clearly and completely described with reference to the accompanying drawings. Obviously, the described embodiments are only some, not all, of the embodiments of this utility model. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this utility model.
[0038] In the description of this utility model, it should be noted that the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," and "outer," etc., indicating the orientation or positional relationship, are based on the orientation or positional relationship shown in the accompanying drawings and are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and should not be construed as indicating or implying relative importance.
[0039] In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "joining" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.
[0040] The specific embodiments of this utility model will be described in detail below with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are for illustration and explanation only and are not intended to limit the scope of this utility model.
[0041] like Figure 1 , Figure 2 , Figure 4 As shown, the rope light winding device with solar panel provided in this embodiment includes: a top cover 100, a central shaft assembly 200, and a bottom cover 300; the central shaft assembly 200 is a cylindrical structure, and the top cover 100 and the bottom cover 300 are respectively provided on two opposite end faces of the central shaft assembly 200, so that the top cover 100 and the bottom cover 300 are arranged in parallel opposite each other. The outer wall of the top cover 100, the central shaft assembly 200, and the bottom cover 300 form a receiving space 400 for winding the wind rope 500, so that the wind rope 500 can be wound in the receiving space 400. The central shaft assembly 200 has a power generation component, which is used to receive solar energy and convert it into electrical energy to provide power for the wind rope 500.
[0042] The rope light winding device with solar panels provided in this embodiment has a top cover 100 and a bottom cover 300 respectively set at opposite ends of the central shaft assembly 200. The top cover 100, the bottom cover 300 and the outer wall of the central shaft assembly 200 form an accommodating space 400. The wind rope 500 can be wound in the accommodating space 400. A power generation component is set on the central shaft assembly 200. The power generation component converts the received solar energy into electrical energy, which is convenient for providing power to the wind rope 500. This improves the functionality of the wind rope 500, makes it smaller and easier to store, and alleviates the technical problem of inconvenience in using existing wind rope 500 products in the prior art.
[0043] Regarding power generation components, specifically:
[0044] The power generation component includes a chip 210 and a battery 220. The chip 210 is embedded in the top of the top cover 100, so that the top surface of the chip 210 is flush with the top surface of the top cover 100. The battery 220 is disposed in the central axis assembly 200, and the chip 210 and the battery 220 are electrically connected. The solar energy received by the chip 210 is converted into electrical energy and transferred to the battery 220. The battery 220 stores the electrical energy for subsequent use.
[0045] The number of batteries 220 can be determined according to the actual situation; for example, it can be set to two.
[0046] Regarding the structure and shape of the central axis assembly 200, specifically:
[0047] The central axis assembly 200 includes an upper central axis housing 230 and a lower central axis housing 240 connected to each other. The upper central axis housing 230 and the lower central axis housing 240 can be assembled and fixed with screws. A battery 220 is provided inside the upper central axis housing 230. The outer wall of the upper central axis housing 230 is detachably connected to the top cover 100. The upper central axis housing 230 and the top cover 100 can be connected by a snap-fit. Specifically, a groove is provided on the outer periphery of the upper central axis housing 230, and a snap-fit is provided on the inner circumferential wall of the top cover 100. The snap-fit extends into the groove to realize the detachable connection between the upper central axis housing 230 and the top cover 100. The outer wall of the lower central axis housing 240 is detachably connected to the bottom cover 300. The outer wall of the lower central axis housing 240 and the bottom cover 300 can also be connected by a snap-fit. A control circuit board 241 is provided inside the lower central axis housing 240, and the control circuit board 241 is electrically connected to the battery 220.
[0048] Additionally, a battery circuit board 290 may be provided, which is mounted on the central housing 230. The battery circuit board 290 has battery springs at both ends, with electrodes on the springs for connecting to the battery 220. A spring pin 291 is located at the center of the battery circuit board 290, with one end of the spring pin 291 abutting against the output contact of the chip 210, thereby ensuring that the electrical energy converted by the chip 210 can be smoothly transferred to the battery 220 for storage. Figure 3 As shown, in an optional embodiment, a control button 250 is provided on the side of the lower housing 240 near the bottom cover 300. The control button 250 is electrically connected to the control circuit board 241. The control button 250 is used for the output mode of the power generation component and for user operation control, such as switching the light-emitting function of the wind rope 500 and switching the light-emitting mode.
[0049] In an optional embodiment, a charging port 260 is provided on the side of the lower housing 240 near the bottom cover 300. The charging port 260 is electrically connected to the control circuit board 241, which facilitates charging the battery 220 by an external power source when solar energy is insufficient, thus increasing the flexibility of the device.
[0050] In an optional embodiment, an output socket 270 is provided on the side of the lower housing 240 near the bottom cover 300. The output socket 270 is electrically connected to the control circuit board 241 and is used to electrically connect to the wind rope 500. The power of the battery 220 is transferred to the wind rope 500 through the output socket 270. In addition, the output socket 270 adopts a waterproof output female socket with waterproof function, which can effectively prevent outdoor rainwater, dew and other water from entering the device and affecting the normal operation of electrical components, ensuring that the electrical connection between the wind rope 500 and the device is stable and reliable in various outdoor environments.
[0051] In addition, the output socket 270 is located at the bottom of the lower housing 240 of the central shaft and protrudes outwards, which facilitates the connection of the wind rope 500 and forms an electrical path with the control circuit board 241 and the battery 220, so as to smoothly transmit electrical energy to the wind rope 500 and enable it to achieve the light-emitting function.
[0052] In an optional embodiment, the rope light winding device with a solar panel also includes a ground spike body 600; the ground spike body 600 has an assembled state and a stored state; the lower housing 240 of the central shaft is provided with a ground spike mounting hole 280, and when the ground spike body 600 is in the assembled state, the ground spike body 600 is detachably connected to the ground spike mounting hole 280, so that the device can be firmly inserted into the ground.
[0053] Specifically, the spike body 600 and the spike mounting hole 280 can be detached or connected by threads. For example, the spike mounting hole 280 can be a threaded hole, and the end of the spike body 600 has external threads. The cooperation between the external threads and the threaded hole enables the detachable connection between the spike body 600 and the lower housing 240 of the central shaft, or a snap-fit connection can be used.
[0054] In an optional embodiment, a spike storage buckle 310 is provided on the bottom cover 300. When the spike body 600 is in the storage state, the spike storage buckle 310 is detachably connected to the spike storage buckle 310. When the spike is not in use, it can be stored on the bottom cover 300 for easy carrying and management.
[0055] It is important to note that, such as Figure 2 As shown, the bottom cover 300 is also provided with a spike storage seat 311, which supports the end of the spike body 600. The spike storage buckle 310 and the spike storage seat 311 together support the spike body 600. Additionally, as shown... Figure 3 As shown, the end of the spike storage base 311 may also be provided with a closing structure 312, which makes it difficult for the spike body 600 to fall off the spike storage base 311.
[0056] In an optional embodiment, the bottom cover 300 is provided with a winding notch 320 for fixing the end of the wind rope 500. When the wind rope 500 is wound on the accommodating space 400, the winding tail can be fixed at the winding notch 320 to prevent the wind rope 500 from unraveling and to facilitate storage and organization. Furthermore, the bottom cover 300 has no electrical structure and mainly serves the functions of structural support and auxiliary storage.
[0057] In an optional embodiment, the top cover 100 is rotatably connected to a hook 110, which facilitates hanging the entire device on tree branches, tents, or other locations.
[0058] Alternatively, the wind rope can be replaced with a wind-wound string light, so that the string light winding device with a solar panel provided in this embodiment is not only suitable for wind ropes, but also for wind-wound string lights.
[0059] The rope light winding device with a solar panel provided in this embodiment features a modular design for the top cover 100, upper housing 230, lower housing 240, and bottom cover 300 during the factory rope lengthening process. This allows for the adaptation of different sized wafers 210 by replacing the top cover 100 and bottom cover 300. When different specifications of wafers 210 are required, only the corresponding top cover 100 and bottom cover 300 need to be replaced, eliminating the need for large-scale adjustments to the entire product structure. This modular design greatly facilitates production and material preparation. In the production process, different modules can be produced in a standardized manner, improving production efficiency. Regarding material preparation, only the corresponding number of module components need to be prepared according to different order requirements, reducing inventory pressure and making the production process more flexible and efficient.
[0060] From a user's perspective, the guy line 500 can be easily wound and stored around the storage space 400, and the ground spikes can also be conveniently stored on the winding notch 320, reducing the clutter when carrying outdoor gear and making it easier to organize and store. The guy line 500 can be used as a regular decorative or warning guy line when unwound; when wound on a reel, it can be used as a decorative light due to its solar-powered light-emitting function, meeting the user's needs in different scenarios. The top cover 100 is equipped with hooks 110, allowing the device to be fixed in the ground with ground spikes or hung on tree branches or tents, adapting to different outdoor environments and improving ease of use and flexibility. Furthermore, the waterproof output socket ensures the reliability and stability of the connection between the guy line 500 and the device, allowing the light-emitting function to function normally even in inclement weather.
[0061] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this utility model, and are not intended to limit it. Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some or all of the technical features therein. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of this utility model.
Claims
1. A rope light winding device with a solar panel, characterized in that, include: Top cover (100), central shaft assembly (200), and bottom cover (300); The top cover (100) and the bottom cover (300) are respectively disposed at both ends of the central shaft assembly (200), and a receiving space (400) for winding the wind rope (500) is formed between the top cover (100), the outer wall of the central shaft assembly (200) and the bottom cover (300). The central axis assembly (200) has a power generation component for receiving solar energy and converting it into electrical energy to provide power to the wind rope (500).
2. The rope lamp winding device with a solar panel according to claim 1, characterized in that, The power generation component includes a wafer (210) and a battery (220). The wafer (210) is embedded in the top of the top cover (100), the battery (220) is disposed in the central axis assembly (200), and the wafer (210) is electrically connected to the battery (220).
3. The rope lamp winding device with a solar panel according to claim 2, characterized in that, The central axis assembly (200) includes an upper central axis housing (230) and a lower central axis housing (240) that are connected to each other. The outer wall of the central shaft upper housing (230) is detachably connected to the top cover (100), and the battery (220) is disposed inside the central shaft upper housing (230). The outer wall of the lower housing (240) of the central shaft is detachably connected to the bottom cover (300). A control circuit board (241) is provided inside the lower housing (240), and the control circuit board (241) is electrically connected to the battery (220).
4. The rope lamp winding device with a solar panel according to claim 3, characterized in that, A control button (250) is provided on the side of the lower housing (240) near the bottom cover (300). The control button (250) is electrically connected to the control circuit board (241) and is used to control the output mode of the power generation component.
5. The rope lamp winding device with a solar panel according to claim 3, characterized in that, A charging port (260) is provided on the side of the lower housing (240) near the bottom cover (300), and the charging port (260) is electrically connected to the control circuit board (241).
6. The rope lamp winding device with a solar panel according to claim 3, characterized in that, An output socket (270) is provided on the side of the lower housing (240) near the bottom cover (300). The output socket (270) is electrically connected to the control circuit board (241) and is used to electrically connect to the wind rope (500).
7. The rope lamp winding device with a solar panel according to claim 3, characterized in that, The rope light winding device with solar panel also includes a ground spike body (600). The spike body (600) has an assembled state and a stored state; The lower housing (240) of the central shaft is provided with a spike mounting hole (280). When the spike body (600) is in the assembled state, the spike body (600) is detachably connected to the spike mounting hole (280).
8. The rope lamp winding device with a solar panel according to claim 7, characterized in that, The bottom cover (300) is provided with a spike storage buckle (310). When the spike body (600) is in the storage state, the spike storage buckle (310) is detachably connected to the spike storage buckle (310).
9. The rope lamp winding device with a solar panel according to claim 1, characterized in that, The bottom cover (300) is provided with a winding notch (320) for securing the end of the wind rope (500).
10. The rope lamp winding device with a solar panel according to claim 1, characterized in that, The top cover (100) is rotatably connected to a hook (110).