A 360-degree illuminated fan light

CN224498357UActive Publication Date: 2026-07-14ZHONGSHAN YIFAN LIGHTING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHONGSHAN YIFAN LIGHTING CO LTD
Filing Date
2025-07-14
Publication Date
2026-07-14

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Abstract

The application belongs to the technical field of fan lamps, and particularly relates to a 360-degree lighting fan lamp. The fan lamp comprises a mounting shell, a lamp ring support connected with the mounting shell, and a lamp ring assembly connected with the lamp ring support. The lamp ring assembly comprises a first transparent lamp shade, a second transparent lamp shade and an annular light-transmitting piece. The first transparent lamp shade is connected with the second transparent lamp shade to form a clamping groove for clamping the annular light-transmitting piece. The first transparent lamp shade and the second transparent lamp shade are provided with LED lamp beads. The mounting shell is connected with the lamp ring support and the lamp ring assembly. The lamp ring assembly comprises the first transparent lamp shade, the second transparent lamp shade and the annular light-transmitting piece. The two transparent lamp shades are connected to form the clamping groove for clamping the annular light-transmitting piece. The two lamp shades are provided with the LED lamp beads. When the LED lamp beads emit light, the light can be uniformly scattered to the periphery through the first transparent lamp shade and the second transparent lamp shade. In combination with the annular light-transmitting piece, the diffusion effect of the light is further enhanced, so that 360-degree omnibearing lighting is achieved.
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Description

Technical Field

[0001] This application belongs to the field of fan light technology, specifically relating to a 360-degree lighting fan light. Background Technology

[0002] Fan lights, comprising a fan and a lighting unit, are widely used in homes and commercial spaces. Traditional fan lights typically employ a unidirectional lighting design, such as placing the light source only at the bottom of the lamp body. This often results in a strong central glare in the lower lighting area while the edges are insufficiently illuminated. The lateral lighting range is narrow and has blind spots, making it difficult to achieve uniform, omnidirectional lighting. Especially when fan lights are installed at a higher position, unidirectional lighting can easily lead to insufficient light and noticeable shadows in the upper areas of the space. Utility Model Content

[0003] To address the limitations of existing fan lights in terms of illumination angle and the presence of blind spots, this application provides a fan light with 360-degree illumination.

[0004] This application is achieved through the following technical solution:

[0005] A 360-degree lighting fan light includes a mounting housing, a lamp ring bracket connected to the mounting housing, and a lamp ring assembly connected to the lamp ring bracket. The lamp ring assembly includes a first transparent lampshade, a second transparent lampshade, and an annular light-transmitting element. The first transparent lampshade and the second transparent lampshade are connected to form a slot for holding the annular light-transmitting element. The first transparent lampshade and the second transparent lampshade are provided with LED beads.

[0006] As described above, a 360-degree illuminating fan light, the lamp ring assembly further includes a light source substrate disposed between the first transparent lampshade and the second transparent lampshade for mounting LED beads, and a limiting support for holding the annular light-transmitting element on the slot. The first transparent lampshade is provided with a plurality of support holes spaced apart along its contour, and the limiting support is arranged around the outside of each of the support holes.

[0007] As described above, a 360-degree lighting fan light includes a lamp ring bracket comprising a bracket plate, bracket legs connected to the outer edge of the bracket plate, and bracket toes located at the bottom of the bracket legs. The second transparent lampshade has a first connecting hole corresponding to the support post, and the bracket toe has a second connecting hole corresponding to the first connecting hole. Fasteners pass through the second connecting hole, the first connecting hole, and the support post in sequence to connect the lamp ring bracket to the lamp ring assembly.

[0008] As described above, a 360-degree illuminating fan light has a mounting groove at the top of the bracket plate for the mounting housing to be embedded in. The inner sidewall of the mounting groove has an inwardly extending locking block, and the mounting housing has a locking platform that cooperates with the locking block; or the mounting housing has a locking block, and the inner sidewall of the mounting groove has a locking platform that cooperates with the locking block. The mounting housing rotates relative to the mounting groove, so that the locking platform is engaged below the locking block to connect the lamp ring bracket to the mounting housing.

[0009] As described above, in a 360-degree lighting fan light, the locking block has a first protrusion, and the locking platform has a second protrusion. The first protrusion and the second protrusion cooperate to prevent the locking platform from disengaging from the locking block.

[0010] As described above, in a 360-degree illuminating fan light, the lamp ring bracket extends from the mounting housing in a direction away from the mounting housing to form a receiving space for mounting the fan assembly.

[0011] In the 360-degree lighting fan light described above, the width of the support legs gradually increases from the area near the support plate towards the area away from the support plate.

[0012] As described above, in a 360-degree lighting fan light, the support legs gradually extend outward from the area near the support plate towards the area away from the support plate.

[0013] As described above, a 360-degree lighting fan light uses the first transparent lampshade, the second transparent lampshade, and the annular light-transmitting element to achieve a 360° lighting angle.

[0014] Compared with the prior art, this application has the following advantages:

[0015] This application discloses a 360-degree lighting fan light, which connects a lamp ring bracket and a lamp ring assembly via an installation housing. The lamp ring assembly includes a first transparent lampshade, a second transparent lampshade, and an annular light-transmitting element. The two transparent lampshades are connected to form a slot for holding the annular light-transmitting element. Both lampshades are equipped with LED beads. When the LED beads emit light, the light can be evenly scattered in all directions through the first and second transparent lampshades. Combined with the annular light-transmitting element, the light diffusion effect is further enhanced, thereby achieving 360-degree all-round lighting. This effectively avoids the problems of strong light spots at the bottom center, insufficient edge illumination, and blind spots in side lighting caused by the unidirectional lighting of traditional fan lights. Even when installed at a high position, it can ensure sufficient light in the upper area of ​​the space and reduce shadows, providing a more uniform and high-quality lighting experience for homes and commercial spaces. Attached Figure Description

[0016] To more clearly illustrate the technical solutions in the embodiments of this application, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0017] Figure 1 This is a three-dimensional perspective view of an embodiment of this application;

[0018] Figure 2 yes Figure 1 Exploded view;

[0019] Figure 3 This is a three-dimensional perspective view of the lamp ring assembly in the embodiments of this application;

[0020] Figure 4 yes Figure 3 Exploded view;

[0021] Figure 5 This is a schematic diagram of the installation of the housing and the lamp ring bracket in an embodiment of this application;

[0022] Figure 6 yes Figure 5 Exploded view. Detailed Implementation

[0023] To make the technical problems solved by this application, the technical solutions, and the beneficial effects clearer, this application will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of this application and are not intended to limit this application.

[0024] Please see Figures 1 to 6 A 360-degree lighting fan light includes a mounting housing 1, a lamp ring bracket 2 connected to the mounting housing 1, and a lamp ring assembly 3 connected to the lamp ring bracket 2. The lamp ring assembly 3 includes a first transparent lampshade 31, a second transparent lampshade 32, and an annular light-transmitting element 33. The first transparent lampshade 31 and the second transparent lampshade 32 are connected to form a slot 34 for holding the annular light-transmitting element 33. The first transparent lampshade 31 and the second transparent lampshade 32 are provided with LED beads.

[0025] This application discloses a 360-degree lighting fan light, which connects a lamp ring bracket and a lamp ring assembly via an installation housing. The lamp ring assembly includes a first transparent lampshade, a second transparent lampshade, and an annular light-transmitting element. The two transparent lampshades are connected to form a slot for holding the annular light-transmitting element. Both lampshades are equipped with LED beads. When the LED beads emit light, the light can be evenly scattered in all directions through the first and second transparent lampshades. Combined with the annular light-transmitting element, the light diffusion effect is further enhanced, thereby achieving 360-degree all-round lighting. This effectively avoids the problems of strong light spots at the bottom center, insufficient edge illumination, and blind spots in side lighting caused by the unidirectional lighting of traditional fan lights. Even when installed at a high position, it can ensure sufficient light in the upper area of ​​the space and reduce shadows, providing a more uniform and high-quality lighting experience for homes and commercial spaces.

[0026] Furthermore, as a preferred embodiment of this solution and not a limitation thereof, the lamp ring assembly 3 further includes a light source substrate 35 disposed between the first transparent lampshade 31 and the second transparent lampshade 32 for mounting LED beads, and a limiting support member 36 for holding the annular light-transmitting member 33 on the slot 34. The first transparent lampshade 31 is provided with a plurality of support holes 311 spaced apart along its contour, and the limiting support member 36 is arranged around the outside of each of the support holes 311.

[0027] In this embodiment, the lamp ring assembly 3 uses a light source substrate 35 disposed between the first transparent lampshade 31 and the second transparent lampshade 32 to ensure uniform distribution of LED beads and provide a stable light source. Simultaneously, a limiting support 36 securely holds the annular light-transmitting element 33 within the slot 34, effectively preventing displacement or loosening of the annular light-transmitting element 33 due to vibration or thermal expansion and contraction during fan operation. Supporting post 311s are spaced along the contour of the first transparent lampshade 31, providing installation positions for the limiting support 36 and enhancing structural rigidity through the surrounding limiting support 36, further improving the overall vibration resistance and durability of the lamp ring assembly 3.

[0028] Furthermore, as a preferred embodiment of this solution and not a limitation thereof, the lamp ring bracket 2 includes a bracket plate 21, a bracket leg 22 connected to the outer edge of the bracket plate 21, and a bracket toe 23 disposed at the bottom of the bracket leg 22. The second transparent lampshade 32 is provided with a first connecting hole 321 corresponding to the support post 311, and the bracket toe 23 is provided with a second connecting hole 231 corresponding to the first connecting hole 321. Fasteners pass through the second connecting hole 231, the first connecting hole 321 and the support post 311 in sequence to connect the lamp ring bracket 2 to the lamp ring assembly 3.

[0029] In this embodiment, the second connecting hole 231 on the bracket toe 23 precisely corresponds to the first connecting hole 321 on the second transparent lampshade 32 and the support hole post 311 on the first transparent lampshade 31, allowing the fasteners to pass through these holes sequentially and firmly connect the lamp ring bracket 2 and the lamp ring assembly 3. This connection method not only simplifies the assembly process and reduces installation errors, but also achieves a rigid connection between the lamp ring bracket 2 and the lamp ring assembly 3 when the fasteners pass through the three in sequence. Furthermore, the axial support of the support hole post 311 disperses the vibration stress generated by the fan operation to the entire lamp ring assembly 3, significantly improving the structure's vibration resistance and solving the technical problem of lampshade loosening and LED solder joint breakage caused by long-term vibration in traditional fan lights. The gradually changing width design of the bracket leg 22 forms a stress buffer zone with a natural transition at the connection point, which, together with the widened bottom surface of the bracket toe 23, further disperses the local stress at the connection point, enabling the structure to withstand the centrifugal force of a higher speed fan.

[0030] Furthermore, as a preferred embodiment of this solution and not a limitation, the top of the bracket plate 21 is provided with a mounting groove 211 for the mounting housing 1 to be embedded in. The inner sidewall of the mounting groove 211 is provided with an inwardly extending locking block 12, and the mounting housing 1 is provided with a locking platform 11 that cooperates with the locking block 12; or the mounting housing 1 is provided with a locking block 12, and the inner sidewall of the mounting groove 211 is provided with a locking platform 11 that cooperates with the locking block 12. The mounting housing 1 rotates relative to the mounting groove 211, so that the locking platform 11 is locked under the locking block 12 to connect the lamp ring bracket 2 to the mounting housing 1.

[0031] In this embodiment, the lamp ring bracket 2 and the mounting housing 1 are quickly connected by the rotational snap-fit ​​structure of the mounting groove 211 and the mounting housing 1, and the snap-fit ​​platform 11 is engaged with the snap-fit ​​block 12. When the mounting housing 1 is embedded in the mounting groove 211 and rotates, the snap-fit ​​platform 11 slides under the inclined surface of the snap-fit ​​block 12 to form a self-locking mechanism. Assembly can be completed without additional tools, which significantly improves the installation efficiency and solves the problem of easy loosening of traditional threaded connections.

[0032] Furthermore, as a preferred embodiment of this solution and not a limitation, the locking block 12 is provided with a first protrusion 121, and the locking platform 11 is provided with a second protrusion 111. The first protrusion 121 and the second protrusion 111 cooperate to restrict the locking platform 11 from disengaging from the locking block 12.

[0033] In this embodiment, the contact surface between the locking block 12 and the locking platform 11 adopts a stepped design. After being rotated into place, the first protrusion 2121 and the second protrusion 111 interlock to form a double anti-disengagement structure. After the mounting housing 1 is rotated into place, the double anti-disengagement mechanism is automatically triggered. When the locking platform 11 slides in along the inclined surface of the locking block 12, the arc-shaped contact surfaces of the first protrusion 121 and the second protrusion 111 undergo elastic deformation and interlock with each other, forming a double limit in the axial and radial directions. This completely solves the reliability problem of traditional rotary locking structures being prone to loosening under vibration and requiring additional locking parts.

[0034] Furthermore, as a preferred embodiment of this solution and not a limitation thereof, the lamp ring bracket 2 extends from the mounting housing 1 in a direction away from the mounting housing 1 to form a receiving space 24 for mounting the fan assembly 4.

[0035] In this embodiment, the fan assembly 4 can be securely integrated into the overall structure of the fan light, avoiding the need for external suspension or additional brackets, thereby simplifying the installation process and improving the overall aesthetics. Secondly, the design of the accommodating space 24 ensures a reasonable distance between the fan assembly 4 and the light ring assembly 3, effectively preventing vibrations or airflow generated during fan operation from interfering with the lighting effect, guaranteeing uniform and stable 360-degree lighting. The overall structure is more compact, reducing space occupation, allowing the fan light to be more flexible, adaptable to various installation environments, and more aesthetically pleasing.

[0036] Furthermore, as a preferred embodiment of this solution and not a limitation, the width of the support leg 22 gradually increases from the direction near the support plate 21 toward the direction away from the support plate 21.

[0037] In this embodiment, the support leg 22 adopts a variable cross-section design that gradually widens from the support plate 21 to the support toe 23. By utilizing the principle of equal strength beam in mechanics of materials, the stress distribution of the support leg 22 tends to be uniform along the length direction when it bears the centrifugal force of the wind turbine assembly 4 and the gravity of the lamp ring assembly 3. This avoids the fatigue crack problem caused by stress concentration at the root of the traditional equal width support.

[0038] Furthermore, as a preferred embodiment of this solution and not a limitation thereof, the support leg 22 gradually extends outward from the location near the support plate 21 toward the location away from the support plate 21.

[0039] In this embodiment, the gradually extending support legs 22 not only increase the support area but also optimize the support angle, allowing the lamp ring bracket 2 to more evenly distribute the weight and torque from the lamp ring assembly 3 and the fan assembly 4, significantly improving the overall structural stability and resistance to deformation. Secondly, this outward-extending design also helps to expand the bottom space of the fan light, providing more operating space for installation and maintenance, and improving user convenience.

[0040] Furthermore, as a preferred embodiment of this solution and not a limitation thereof, the first transparent lampshade 31, the second transparent lampshade 32, and the annular light-transmitting element 33 cooperate to achieve a 360° lighting angle.

[0041] In this embodiment, the LED beads are positioned between the first transparent lampshade 31 and the second transparent lampshade 32. The first transparent lampshade can achieve an upward light emission angle, and the second transparent lampshade can achieve a downward light emission angle. The emitted light is omnidirectionally refracted by the annular light-transmitting element 33 and diffused evenly in all directions, thereby achieving illumination coverage without blind spots. This not only improves the overall brightness of the space but also creates a more comfortable and natural lighting environment.

[0042] The working principle of this embodiment is as follows:

[0043] This application discloses a 360-degree lighting fan light, which connects a lamp ring bracket and a lamp ring assembly via an installation housing. The lamp ring assembly includes a first transparent lampshade, a second transparent lampshade, and an annular light-transmitting element. The two transparent lampshades are connected to form a slot for holding the annular light-transmitting element. Both lampshades are equipped with LED beads. When the LED beads emit light, the light can be evenly scattered in all directions through the first and second transparent lampshades. Combined with the annular light-transmitting element, the light diffusion effect is further enhanced, thereby achieving 360-degree all-round lighting. This effectively avoids the problems of strong light spots at the bottom center, insufficient edge illumination, and blind spots in side lighting caused by the unidirectional lighting of traditional fan lights. Even when installed at a high position, it can ensure sufficient light in the upper area of ​​the space and reduce shadows, providing a more uniform and high-quality lighting experience for homes and commercial spaces.

[0044] The above are implementation methods provided in conjunction with specific content, and it is not intended that the specific implementation of this application is limited to these descriptions. Any methods or structures that are similar to those of this application, or any technical deductions or substitutions made based on the concept of this application, should be considered within the scope of protection of this application.

Claims

1. A fan light with 360-degree illumination, characterized in that, The device includes a mounting housing (1), a lamp ring bracket (2) connected to the mounting housing (1), and a lamp ring assembly (3) connected to the lamp ring bracket (2). The lamp ring assembly (3) includes a first transparent lampshade (31), a second transparent lampshade (32), and an annular light-transmitting element (33). The first transparent lampshade (31) and the second transparent lampshade (32) are connected to form a slot (34) for holding the annular light-transmitting element (33). The first transparent lampshade (31) and the second transparent lampshade (32) are provided with LED beads.

2. A 360-degree illuminating fan light according to claim 1, characterized in that, The lamp ring assembly (3) further includes a light source substrate (35) disposed between the first transparent lamp cover (31) and the second transparent lamp cover (32) for mounting LED lamp beads, and a limiting support (36) for holding the annular light-transmitting member (33) on the slot (34). The first transparent lamp cover (31) is provided with a plurality of support holes (311) spaced apart along its contour, and the limiting support (36) is arranged around the outside of each of the support holes (311).

3. A 360-degree illuminating fan light according to claim 2, characterized in that, The lamp ring bracket (2) includes a bracket plate (21), a bracket leg (22) connected to the outer edge of the bracket plate (21), and a bracket toe (23) located at the bottom of the bracket leg (22). The second transparent lamp cover (32) is provided with a first connecting hole (321) corresponding to the support hole post (311), and the bracket toe (23) is provided with a second connecting hole (231) corresponding to the first connecting hole (321). Fasteners pass through the second connecting hole (231), the first connecting hole (321), and the support hole post (311) in sequence to connect the lamp ring bracket (2) to the lamp ring assembly (3).

4. A fan light with 360-degree illumination according to claim 3, characterized in that, The top of the bracket plate (21) is provided with a mounting groove (211) for the mounting housing (1) to be embedded in. The inner side wall of the mounting groove (211) is provided with an inwardly extending locking block (12), and the mounting housing (1) is provided with a locking platform (11) that cooperates with the locking block (12); or the mounting housing (1) is provided with a locking block (12), and the inner side wall of the mounting groove (211) is provided with a locking platform (11) that cooperates with the locking block (12). The mounting housing (1) rotates relative to the mounting groove (211) so that the locking platform (11) is locked under the locking block (12) to connect the lamp ring bracket (2) to the mounting housing (1).

5. A 360-degree illuminating fan light according to claim 4, characterized in that, The locking block (12) is provided with a first protrusion (121), and the locking platform (11) is provided with a second protrusion (111). The first protrusion (121) and the second protrusion (111) cooperate to restrict the locking platform (11) from being dislodged from the locking block (12).

6. A 360-degree illuminating fan light according to claim 1, characterized in that, The lamp ring bracket (2) extends from the mounting housing (1) away from the mounting housing (1) to form a receiving space (24) for the installation of the fan assembly (4).

7. A 360-degree illuminating fan light according to claim 3, characterized in that, The width of the support leg (22) gradually increases from the direction close to the support plate (21) toward the direction away from the support plate (21).

8. A 360-degree illuminating fan light according to claim 7, characterized in that, The support leg (22) extends outward from the support plate (21) away from the support plate (21).

9. A 360-degree illuminating fan light according to claim 1, characterized in that, The first transparent lampshade (31), the second transparent lampshade (32), and the annular light-transmitting element (33) work together to achieve a 360° lighting angle.