Rechargeable magnetic hanging lamp
The chandelier features a magnetic structure and threaded connection, enabling quick assembly and disassembly. Its built-in rechargeable magnetic chandelier solves the problems of difficult assembly, disassembly, and charging of existing chandeliers, offering diverse usage options and enhancing ease of use and market competitiveness.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- DONGGUAN WISDOM ELECTRONICS CO LTD
- Filing Date
- 2025-07-02
- Publication Date
- 2026-06-12
AI Technical Summary
The existing chandelier structure is not easy to disassemble and reassemble, and it cannot be charged, which limits its scope of use and fails to meet the diverse needs of consumers.
The lamp body and lampshade are connected by a magnetic structure. It has a built-in rechargeable battery and can be quickly installed and removed using magnetic components. The hanging wire is fixed to the lampshade with threads, and the hanging wire is equipped with an automatic wire retraction device. The lamp body can be used as a portable lamp or a table lamp.
It enables quick installation and removal of the lamp body, and the built-in rechargeable battery eliminates the need for external wires. It offers diverse usage options to meet different needs and enhance market competitiveness.
Smart Images

Figure CN224352907U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of lighting product technology, and specifically to a rechargeable magnetic pendant light. Background Technology
[0002] A chandelier is a common lighting and decorative electrical appliance, which generally consists of a hanging wire and a lamp body.
[0003] Chinese utility model patent application number 202423185179.0 discloses a chandelier with a wire-out anti-pull structure, comprising a lamp body and a hanging wire. The lamp body has a wire-passing hole, and a hollow rivet screw is installed at the wire-passing hole. A silicone granule is located at the top of the hollow portion of the rivet screw, and a locking nut is located at the top of the rivet screw. A wire-passing channel is formed at the center of the locking nut and the silicone granule. The hanging wire passes through the locking nut, the silicone granule, and the rivet screw in sequence, and is positioned by the locking nut pressing against the silicone granule. The chandelier's structure is reasonable. The rivet screw increases the contact area with the lamp body, preventing the lamp body from loosening or falling off. The silicone granule, in conjunction with the locking nut, is compressed within the hollow portion of the rivet screw when the locking nut is tightened, causing deformation and achieving a seal while simultaneously clamping the hanging wire, thus securing and positioning it. This achieves anti-loosening and anti-pull effects without damaging the hanging wire's outer sheath, ensuring high safety and improving the convenience of assembly and the stability and reliability of installation.
[0004] However, the lamp body and the hanging wire are directly connected by rivet screws, silicone granules, and lock nuts, making them difficult to disassemble. Furthermore, the lamp body does not have a built-in rechargeable battery and cannot be detached from the hanging wire for independent use. It can only be used as a pendant light, which limits its application range and cannot meet the usage requirements of consumers.
[0005] In view of the above, the inventors propose the following technical solution. Utility Model Content
[0006] The purpose of this invention is to overcome the shortcomings of the existing technology and provide a rechargeable magnetic pendant light.
[0007] To solve the above-mentioned technical problems, the present invention adopts the following technical solution: a rechargeable magnetic chandelier includes: a hanging wire; a lampshade tube connected to the lower end of the hanging wire, and the lampshade tube has a mounting position; a lamp body, the lamp body having a rechargeable battery inside and a charging interface for charging the rechargeable battery outside, and the lower part of the lamp body being a light-emitting structure; the upper end of the lamp body is embedded in the mounting position of the lampshade tube, and the lamp body is magnetically fixed to the lampshade tube by a magnetic structure to form a quick-release structure.
[0008] Furthermore, in the above technical solution, the magnetic attraction structure includes: a first magnetic attraction component disposed on the upper end of the lamp body and a second magnetic attraction component disposed inside the mounting position. The first magnetic attraction component and the second magnetic attraction component are magnetically attracted and fixed. At least one of the first magnetic attraction component and the second magnetic attraction component is a magnet, and the other is a magnet or an iron component.
[0009] Furthermore, in the above technical solution, the first magnetic component is a magnet, and the second magnetic component is a magnet or an iron component; the lamp body can be detached from the lampshade cylinder and attached to the magnetically attached component by the first magnetic component for use as a magnetic lamp, or it can be placed upright on a table for use as a table lamp.
[0010] Furthermore, in the above technical solution, the upper end of the lamp body is a flat surface that can stand upright. This flat surface is provided with several grooves, and the first magnetic suction component is fixed in each groove.
[0011] Furthermore, in the above technical solution, a threaded connector is fixed to the lower end of the suspension line, and a threaded hole is provided at the upper end of the lampshade tube. The threaded connector is screwed into the threaded hole, so that the lampshade tube is fixedly connected to the lower end of the suspension line. The threaded connector has a through hole that passes through the upper and lower ends, and a threaded hole that passes through the through hole is provided on the outer side of the threaded connector. The lower end of the suspension line passes through the through hole, and a first screw is screwed into the threaded hole. The end of the first screw passes through the through hole and presses against the outer periphery of the lower end of the suspension line to fasten the lower end of the suspension line to the through hole.
[0012] Furthermore, in the above technical solution, an automatic wire reeling and releasing device is connected to the upper end of the suspension line, and the automatic wire reeling and releasing device controls the length of the suspension line through automatic wire reeling and releasing actions to control the height of the lamp body; the automatic wire reeling and releasing device is installed in the mounting base, which is screwed and assembled with the top cover for ceiling fixing by internal threads.
[0013] Furthermore, in the above technical solution, a lampshade is provided at the lower end of the lampshade tube, which covers the outside of the lamp body and forms a gap between them.
[0014] Furthermore, in the above technical solution, the lampshade is a mesh cover.
[0015] Furthermore, in the above technical solution, the light-emitting structure includes a light-transmitting body in the shape of an inverted T, located at the lower end of the lamp body, an outer cover covering the light-transmitting body, and an LED light board fixed inside the outer cover. The LED light board is connected to the rechargeable battery via wires. The lower end of the light-transmitting body is a light-transmitting plate, and the lower end surface of the light-transmitting plate is provided with a plurality of light-guiding grooves. The LED beads on the LED light board face the light-guiding grooves to achieve upward light emission.
[0016] Furthermore, in the above technical solution, the outer cover is spherical, and multiple screw-hole pillars are formed inside the outer cover. The LED light board is screwed to the screw-hole pillars by a second screw, so that the LED light board is fixed to the upper end of the screw-hole pillars and placed inside the outer cover.
[0017] After adopting the above technical solution, the present invention has the following beneficial effects compared with the prior art: The lamp body of the present invention is magnetically fixed to the lampshade cylinder through a magnetic structure to form a quick-release structure, which is very quick and convenient to install and disassemble; In addition, the lamp body is equipped with a rechargeable battery, which can directly emit light to achieve illumination without the need for external wires, making it extremely convenient to use. Moreover, after the lamp body is detached from the lampshade cylinder, it can be used directly as a portable lamp (such as a flashlight), or it can be placed upright on a table as a desk lamp. The versatility of use can meet different usage requirements, making the present invention highly competitive in the market. Attached Figure Description
[0018] Figure 1 This is a perspective view of the present invention;
[0019] Figure 2 This is a perspective view of the present invention from another angle;
[0020] Figure 3 This is a cross-sectional view of the present invention;
[0021] Figure 4 This is a perspective view of the lamp body in this utility model;
[0022] Figure 5 This is an assembly drawing of the lampshade tube and the lampshade in this utility model. Detailed Implementation
[0023] The present invention will be further described below with reference to specific embodiments and accompanying drawings.
[0024] See Figure 1-5 As shown, a rechargeable magnetic pendant light includes: a hanging wire 1, a lampshade tube 2, and a lamp body 3.
[0025] The lampshade cylinder 2 is connected at its upper end to the lower end of the suspension wire 1, and the lampshade cylinder 2 has a mounting position 21; the lamp body 3 is provided with a rechargeable battery 31 inside, and a charging interface 32 for charging the rechargeable battery 31 is provided on the outside of the lamp body 3, and the lower part of the lamp body 3 is a light-emitting structure; the upper end of the lamp body 3 is embedded in the mounting position 21 of the lampshade cylinder 2, and the lamp body 3 is magnetically fixed to the lampshade cylinder 2 by a magnetic structure to form a quick-release structure. In other words, the lamp body 3 in this utility model is magnetically fixed to the lampshade cylinder 2 through a magnetic structure to form a quick-release structure, which is very quick and convenient to install and disassemble. In addition, the lamp body 3 is equipped with a rechargeable battery 31, which can directly emit light to achieve illumination without the need for external wires, making it extremely convenient to use. Moreover, after the lamp body 3 is detached from the lampshade cylinder 2, it can be used directly as a portable lamp (such as a flashlight), or it can be placed upright on a table as a desk lamp. The versatility of use can meet different usage requirements, making this utility model highly competitive in the market.
[0026] The magnetic attraction structure will be described in detail below.
[0027] The magnetic attraction structure includes: a first magnetic attraction component 4 disposed on the upper end of the lamp body 3 and a second magnetic attraction component 22 disposed inside the mounting position 21. The first magnetic attraction component 4 and the second magnetic attraction component 22 are magnetically attracted and fixed. At least one of the first magnetic attraction component 4 and the second magnetic attraction component 22 is a magnet, and the other is a magnet or an iron part.
[0028] This embodiment is a preferred embodiment, and the following scheme is adopted: the first magnetic suction component 4 is a magnet, and the second magnetic suction component 22 is a magnet or an iron part; the lamp body 3 can be detached from the lamp cover cylinder 2 and is attracted and fixed to the magnetically attachable component by the first magnetic suction component 4 for use as a magnetic lamp, that is, it can be magnetically fixed to any magnetically attachable position to meet different usage requirements and is extremely convenient to use. For example, the lamp body 3 is magnetically fixed to the iron frame by the first magnetic suction component 4 for use on the iron frame.
[0029] To enable the lamp body 3 to stand upright more effectively, the following design was implemented: the upper end of the lamp body 3 is a flat surface 30 for standing, which has several grooves 301. Each groove 301 contains a fixed first magnetic component 4. This design simplifies the assembly structure, making installation easier, and ensures that the surface of the first magnetic component 4 does not protrude beyond the flat surface 30. This results in greater stability when the lamp body 3 stands on a table via the flat surface 30. In other embodiments, the grooves 301 and the first magnetic component 4 are also glued together, further enhancing the assembly structure and preventing separation.
[0030] The assembly structure of the suspension wire 1 and the lampshade 2 is as follows:
[0031] The lower end of the suspension wire 1 is fixed with a threaded connector 11, and the upper end of the lampshade tube 2 is provided with a threaded hole 201. The threaded connector 11 is screwed to the threaded hole 201, so that the lampshade tube 2 is fixedly connected to the lower end of the suspension wire 1. Its assembly structure is simple, and it is very convenient to install and disassemble, and it is easy to maintain.
[0032] The threaded connector 11 has a through hole 111 that passes through the upper and lower ends, and a screw hole 112 that passes through the through hole 111 is provided on the outer side of the threaded connector 11. The lower end of the suspension wire 1 passes through the through hole 111, and the first screw is screwed and fixed in the screw hole 112. The end of the first screw passes through the through hole 111 and presses against the outer periphery of the lower end of the suspension wire 1 to fasten the lower end of the suspension wire 1 in the through hole 111. It is simple to assemble, has a stable structure, and is also very easy to disassemble.
[0033] The light-emitting structure includes a light-transmitting body 33 in an inverted T-shape disposed at the lower end of the lamp body 3, an outer cover 34 surrounding the light-transmitting body 33, and an LED light panel 35 fixed inside the outer cover 34. The LED light panel 35 is connected to the rechargeable battery 31 via wires. The lower end of the light-transmitting body 33 is a light-transmitting plate 331, and the lower end surface of the light-transmitting plate 331 is provided with a plurality of light-guiding grooves 332. The LED beads 351 on the LED light panel 35 face the light-guiding grooves 332 to achieve upward light emission. When the lamp body 3 is inverted and stands upright on a table for use as a desk lamp, the light-transmitting body 33 is positioned at the lower end and stands upright on the table, with the outer cover 34 located at the upper end to achieve downward light emission.
[0034] The outer cover 34 is spherical, and multiple screw holes 341 are formed inside the outer cover 34. The LED light board 35 is screwed to the screw holes 341 by a second screw, so that the LED light board 35 is fixed to the upper end of the screw holes 341 and placed inside the outer cover 34.
[0035] A lampshade 6 is provided at the lower end of the lampshade cylinder 2. The lampshade 6 covers the outside of the lamp body 3 and has gaps between it. It can protect the lamp body 3 and also serve a decorative purpose. In this embodiment, the lampshade 6 is a mesh cover.
[0036] In some embodiments, the upper end of the suspension wire 1 is connected to an automatic winding and unwinding device 5. The automatic winding and unwinding device 5 controls the length of the suspension wire 1 through automatic winding and unwinding actions, thereby controlling the height of the lamp body 3 to meet different usage requirements. The automatic winding and unwinding device 5 includes a motor, a winding wheel mounted on the motor shaft, and a circuit board connected to the motor. The upper end of the suspension wire 1 is directly fixed to the winding wheel. When the motor rotates forward or backward, it drives the winding wheel to rotate clockwise or counterclockwise, thereby achieving the purpose of winding or unwinding the wire, and thus controlling the length of the suspension wire 1 to control the height of the lamp body 3. Similarly, the automatic winding and unwinding device 5 includes a motor and a circuit board connected to the motor. The upper end of the suspension wire 1 is directly fixed to the motor shaft. The forward or reverse rotation of the shaft achieves the purpose of winding or unwinding the wire, thereby controlling the length of the suspension wire 1 to control the height of the lamp body 3. Alternatively, the automatic take-up and release device 5 can also be a spring-type take-up device, which is an existing technology product, and its specific structure will not be described further. When in use, when the suspension line 1 is pulled forcefully, the suspension line 1 can be pulled down to extend the suspension line 1. When the pulling stops, the automatic take-up and release device 5 positions the suspension line 1. When the suspension line 1 is pulled again, the automatic take-up and release device 5 will wind up the suspension line 1 to shorten its length. After reaching the predetermined length, the suspension line 1 is tightened so that the automatic take-up and release device 5 positions the suspension line 1.
[0037] The automatic take-up and release device 5 is installed in the mounting base 7. The mounting base 7 is screwed and fixed to the top cover 8 for ceiling fixation by the internal thread 71. Specifically, the top cover 8 is fixed to the ceiling by a number of screws. The lower end of the top cover 8 has a downward protruding threaded section 81. The threaded section 81 is screwed and fixed to the internal thread 71 of the mounting base 7 to achieve quick installation and make installation extremely convenient.
[0038] In summary, the lamp body 3 of this utility model is magnetically fixed to the lampshade cylinder 2 through a magnetic structure to form a quick-release structure, which is very quick and convenient to install and disassemble. In addition, the lamp body 3 is equipped with a rechargeable battery 31, which can directly emit light to achieve illumination without the need for external wires, making it extremely convenient to use. Moreover, after the lamp body 3 is detached from the lampshade cylinder 2, it can be used directly as a portable lamp (such as a flashlight), or it can be placed upright on a table as a desk lamp. The versatility of use can meet different usage requirements, making this utility model highly competitive in the market.
[0039] Of course, the above description is only a specific embodiment of the present utility model and is not intended to limit the scope of the present utility model. All equivalent changes or modifications made to the structure, features and principles described in the claims of the present utility model should be included in the scope of the claims of the present utility model.
Claims
1. A rechargeable magnetic pendant light, characterized in that: It includes: Suspension line (1); The lampshade tube (2) is connected to the lower end of the suspension wire (1), and the lampshade tube (2) has a mounting position (21). The lamp body (3) has a rechargeable battery (31) inside and a charging interface (32) for charging the rechargeable battery (31) on the outside. The lower part of the lamp body (3) is a light-emitting structure. The upper end of the lamp body (3) is embedded in the mounting position (21) of the lamp cover cylinder (2), and the lamp body (3) is magnetically fixed to the lamp cover cylinder (2) through a magnetic structure to form a quick-release structure. The magnetic structure includes: a first magnetic component (4) disposed on the upper end of the lamp body (3) and a second magnetic component (22) disposed inside the mounting position (21). The first magnetic component (4) and the second magnetic component (22) are magnetically fixed together. At least one of the first magnetic component (4) and the second magnetic component (22) is a magnet, and the other is a magnet or an iron piece.
2. The rechargeable magnetic pendant light according to claim 1, characterized in that: The first magnetic component (4) is a magnet, and the second magnetic component (22) is a magnet or an iron piece; the lamp body (3) can be detached from the lampshade cylinder (2) and attracted to the magnetically attached component by the first magnetic component (4) for use as a magnetic lamp, or can be placed upright on the table for use as a table lamp.
3. The rechargeable magnetic pendant light according to claim 2, characterized in that: The upper end of the lamp body (3) is a flat surface (30) that can stand upright. The flat surface (30) is provided with several grooves (301), and the first magnetic suction member (4) is fixed in each groove (301).
4. The rechargeable magnetic chandelier according to claim 1, characterized in that: The lower end of the suspension wire (1) is fixed with a threaded connector (11), and the upper end of the lampshade tube (2) is provided with a threaded hole (201). The threaded connector (11) is screwed to the threaded hole (201) so that the lampshade tube (2) is fixedly connected to the lower end of the suspension wire (1). The threaded connector (11) has a through hole (111) that passes through the upper and lower ends, and a screw hole (112) that passes through the through hole (111) is provided on the outside of the threaded connector (11). The lower end of the suspension wire (1) passes through the through hole (111), and the first screw is screwed to be fixed in the screw hole (112). The end of the first screw passes through the through hole (111) and presses against the outer periphery of the lower end of the suspension wire (1) so as to fasten the lower end of the suspension wire (1) in the through hole (111).
5. The rechargeable magnetic pendant light according to any one of claims 1-4, characterized in that: The upper end of the suspension line (1) is connected to an automatic wire take-up and release device (5), and the length of the suspension line (1) is controlled by the automatic wire take-up and release device (5) through the automatic wire take-up and release action, so as to control the height of the lamp body (3); The automatic take-up and release device (5) is installed in the mounting base (7), which is screwed and fixed to the top cover (8) for ceiling fixing by internal thread.
6. The rechargeable magnetic chandelier according to claim 5, characterized in that: A lampshade (6) is provided at the lower end of the lampshade tube (2), which covers the outside of the lamp body (3) and there is a gap between them.
7. The rechargeable magnetic pendant light according to claim 6, characterized in that: The lampshade (6) is a mesh cover.
8. The rechargeable magnetic pendant light according to claim 5, characterized in that: The light-emitting structure includes a light-transmitting body (33) arranged in an inverted T shape at the lower end of the lamp body (3), an outer cover (34) covering the outer periphery of the light-transmitting body (33), and an LED lamp board (35) fixed inside the outer cover (34). The LED lamp board (35) is connected to the rechargeable battery (31) through wires. The lower end of the light-transmitting body (33) is a light-transmitting plate (331). The lower end surface of the light-transmitting plate (331) is provided with a plurality of light-guiding grooves (332). The LED beads (351) on the LED lamp board (35) face the light-guiding grooves (332) to achieve light emission from bottom to top.
9. The rechargeable magnetic pendant light according to claim 8, characterized in that: The outer cover (34) is spherical, and multiple screw holes (341) are formed inside the outer cover (34). The LED light board (35) is screwed to the screw holes (341) by a second screw, so that the LED light board (35) is fixed to the upper end of the screw holes (341) and placed inside the outer cover (34).