An aquarium LED lamp
By combining a plug-in structure with a wireless communication module, the problems of unstable connection and complex structure of aquarium LED lights are solved, realizing a stable and convenient lighting design, and providing intelligent control and professional spectrum, thus improving the user experience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHUANGXING ELECTRICAL APPLIANCES CO LTD
- Filing Date
- 2025-07-02
- Publication Date
- 2026-06-09
AI Technical Summary
Existing aquarium LED lights have unstable brackets and lamp bodies, complex structures, are prone to corrosion in humid environments, and lack intelligent control and professional spectral design.
The end cap and heat sink are connected by a plug-in structure. The bracket can be extended and adjusted through through holes and plugs. Combined with wireless communication module and professional spectral design, it simplifies installation and improves stability.
It achieves a stable connection of the lights, simplifies the installation process, improves structural strength and ease of use, and provides intelligent control and professional spectrum to meet the growth needs of different aquatic plants.
Smart Images

Figure CN224339994U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of aquarium lighting technology, and in particular to an LED light for aquariums. Background Technology
[0002] Aquariums are common equipment for keeping and viewing aquatic life. They are usually equipped with lighting devices on the top, namely aquarium lights.
[0003] To accommodate aquariums of different sizes, commercially available aquarium LED lights typically come with extendable stands. Currently, common aquarium LED lights with extendable stands usually connect the stand to the light body by inserting it directly into a groove in the end cap of the light body, relying on friction or simple locking points for positioning. This design often lacks stability. Even worse, some lights rely on multiple screws to connect the end cap to the light body (usually an aluminum heat sink), further increasing structural complexity and potential instability. Prolonged use in the humid environment of an aquarium also poses a risk of corrosion to the metal screws.
[0004] Therefore, it is necessary to further improve and perfect the existing technology to overcome these shortcomings, and this utility model is made based on this situation. Utility Model Content
[0005] The purpose of this invention is to overcome the shortcomings of the existing technology and provide a simple and stable aquarium LED light.
[0006] This utility model is achieved through the following technical solution:
[0007] To solve the above-mentioned technical problems, this utility model provides an aquarium LED light, including a heat sink shell, a transparent plate at the bottom of the heat sink shell, an LED light board inside the heat sink shell, end caps at both ends of the heat sink shell, and a support that can extend and retract inwards and outwards. The end caps have through holes, and the support passes through the through holes on the corresponding end caps and connects to the heat sink shell. The bottom of the end caps has a support plate extending towards the middle of the heat sink shell, and the lower end of the heat sink shell has a slot, in which the support plate is inserted.
[0008] To further address the technical problems to be solved by this utility model, the present utility model provides an aquarium LED light in which the upper part of the heat dissipation shell is provided with an insertion hole extending along its length direction, and the bracket can be plugged into the insertion hole after passing through the through hole of the end cap, thereby realizing telescopic adjustment.
[0009] In order to further solve the technical problem to be solved by this utility model, the slot in the aquarium LED light provided by this utility model is formed by integrally bending the two long side edges of the lower end of the heat dissipation shell and extending towards each other.
[0010] To further address the technical problems to be solved by this utility model, the bracket of the aquarium LED light provided by this utility model is a U-shaped structure, with both free ends inserted into corresponding sockets.
[0011] To further address the technical problems addressed by this utility model, the present utility model provides an aquarium LED light in which the curved portion of the U-shaped structure is provided with a downward-bending bend for mounting on the edge of the aquarium wall.
[0012] In order to further solve the technical problems to be solved by this utility model, the present utility model provides an aquarium LED light in which a snap-fit structure is provided between the transparent plate and the heat dissipation shell.
[0013] To further address the technical problems to be solved by this utility model, the present utility model provides an aquarium LED light in which a circuit board is also provided inside the heat dissipation shell, and a wireless communication module is integrated on the circuit board.
[0014] To further address the technical problems to be solved by this utility model, the wireless communication module in the aquarium LED light provided by this utility model is a WiFi module or a Bluetooth module.
[0015] Compared with the prior art, the present invention has the following advantages:
[0016] This invention resolves the contradiction between the complexity and insufficient stability of traditional aquarium LED lights through a dual-interlocking structure. Firstly, it utilizes a sliding interlocking mechanism between the support plate at the bottom of the end cap and the slot at the bottom of the heat sink housing, enabling tool-free and rapid fixation of the end cap to the main body of the light. This not only facilitates installation but also provides a large contact surface and an extremely stable connection. Secondly, it features a connection method where a telescopic bracket passes sequentially through the through-holes in the end cap and inserts into the sockets in the heat sink housing, providing dual support points for the bracket and effectively preventing the light fixture from wobbling or sagging during use. This design significantly simplifies the number of parts and the assembly process, reduces costs, and substantially improves the overall structural strength and stability of the product, providing users with a reliable and convenient user experience. Attached Figure Description
[0017] The specific embodiments of this utility model will be further described in detail below with reference to the accompanying drawings, wherein:
[0018] Fig. 1 This is a three-dimensional structural schematic diagram of the present invention;
[0019] Fig. 2 This is an exploded view of the present invention;
[0020] Fig. 3 This is a cross-sectional schematic diagram of the present invention. Detailed Implementation
[0021] To enable those skilled in the art to better understand the technical solution of this utility model, the present utility model will be further described in detail below with reference to the accompanying drawings and specific embodiments.
[0022] like Figs. 1 to 3 As shown, this utility model provides an aquarium LED light, which aims to offer a lighting solution with a simple structure, stable connection, and extremely convenient installation and adjustment. The aquarium LED light mainly includes a heat sink 1, a transparent plate 2 located at the bottom of the heat sink 1, an LED light panel 3 housed inside the heat sink 1, two end caps 4 respectively installed at both ends of the heat sink 1, and a pair of retractable brackets 5 for mounting the light fixture on the aquarium.
[0023] In this embodiment, the heat sink 1 is preferably made of aluminum alloy through extrusion molding, and its cross-section is designed to accommodate internal components. The top of the heat sink 1 is provided with multiple heat dissipation fins (not shown in the figure) or three-dimensional textures to form a better heat dissipation channel. This ensures that the heat generated by the high-power LED beads on the LED light board 3 during long-term operation can be quickly conducted and dissipated, thereby ensuring the performance and lifespan of the LED beads.
[0024] To achieve a secure and tool-free installation between the end cap 4 and the heat sink 1, this embodiment designs a plug-in structure. Specifically, slots 11 extending towards the centerline of the housing are integrally formed on the two long side edges at the lower end of the heat sink 1. Simultaneously, each end cap 4 has an integrally formed inwardly extending support plate 42 at its bottom. During assembly, simply align the support plate 42 of the end cap 4 with the slot 11 of the heat sink 1 and slide it in along the length of the heat sink 1. A large sliding surface contact is formed between the support plate 42 and the slot 11, allowing the end cap 4 to be securely fixed to the end of the heat sink 1, effectively resisting forces from all directions and preventing shaking or loosening. Its structural stability far exceeds that of traditional screw fixing methods and greatly simplifies the installation process.
[0025] The bracket 5 supports the entire lamp body and accommodates aquariums of different widths. In this embodiment, the bracket 5 is a U-shaped metal rod. To facilitate the installation and extension of the bracket 5, the upper part of the heat sink 1 has an insertion hole 12 along its length, while the end cap 4 has a through hole 41 corresponding to the insertion hole 12. During installation, the two free ends of the bracket 5 first pass through the through holes 41 on the corresponding end cap 4, and then are inserted into the insertion hole 12 of the heat sink 1. By sliding the bracket 5 in the insertion hole 12, the total length of the lamp can be easily adjusted to fit aquariums of different sizes. This relatively long insertion hole 12 (running through the entire length of the heat sink 1) significantly enhances the stability of the bracket, preventing it from sagging or wobbling during use.
[0026] In addition, in order to be stably mounted on the glass wall of the aquarium, the U-shaped curved part of the bracket 5 is provided with one or more downward bending parts 51 to form a limit.
[0027] The light-transmitting part of the lamp is achieved by a transparent plate 2, which is preferably made of PC or acrylic material with high light transmittance. For ease of maintenance and replacement, a screwless snap-fit structure is used between the transparent plate 2 and the heat sink 1. For example, a first vertical plate can be provided on the transparent plate 2, with a protruding snap-fit edge. A second vertical plate can be provided inside the heat sink 1, with a corresponding slot on the inner wall of the second vertical plate. During installation, simply pressing the transparent plate 2 in firmly will achieve a snap-fit fixation through elastic deformation. Disassembly is equally convenient.
[0028] In terms of electrical functions, the heat sink 1 not only houses the LED light panel 3, but also a circuit board 6. This circuit board 6 is the control core of the entire lighting fixture, integrating a driver circuit and a wireless communication module. This wireless communication module can be a WiFi module or a Bluetooth module.
[0029] This design brings significant functional advantages:
[0030] 1. Smart Control: Users can connect to the lights via WiFi or Bluetooth through an app installed on their smartphones or tablets. This allows users to remotely control the aquarium lighting, adjusting the illumination from anywhere, greatly enhancing convenience.
[0031] 2. Professional-grade spectrum: The LED light panel 3 uses professional WRGBD (white, red, green, blue, dark blue) multi-color mixing LED beads. Compared to traditional RGB LED beads, its spectrum is more complete, and the mixed white or colored light is not glaring or saturated, but rather softer and more comfortable. It also boasts an extremely high color rendering index (CRI), which more naturally and realistically reproduces the true colors of aquatic plants and fish. This spectral ratio has also been optimized to fully meet the light requirements of various aquatic plants (such as light-loving and shade-loving plants) at different growth stages.
[0032] 3. Abundant dimming functions:
[0033] Manual mode: Allows enthusiasts to freely adjust the brightness ratio of each light source group (W, R, G, B) (e.g., 0-100%) to create the most aesthetically pleasing viewing effect, whether simulating the dim light of dawn or the afterglow of dusk.
[0034] Automatic Mode: With a built-in intelligent program, users can easily set timers for multiple periods of time. More advanced settings allow users to customize the light spectrum and intensity for different times of the day, thus automatically simulating the 24-hour natural light cycle from sunrise, noon, sunset to moonlit night, creating a lifestyle environment in the aquarium that is closest to its natural habitat.
[0035] Data saving: User-optimized lighting parameters can be saved as custom configuration files. When needed, they can be recalled with a single click, eliminating the hassle of repeated settings and facilitating quick switching between different scenarios (such as viewing mode and aquatic plant growth mode).
[0036] In summary, this invention, through innovative structural optimization of the connection methods between the end cap and the housing, and between the bracket and the lamp body, significantly improves the structural stability and ease of installation of the product without increasing cost or complexity. Furthermore, combined with a powerful intelligent control system and professional spectral design, it provides users with a stable, reliable, easy-to-use, and high-performance aquarium LED light.
[0037] Finally, it should be noted that the above description is merely a preferred embodiment of this utility model and is not intended to limit this utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.
Claims
1. An LED light for aquariums, characterized in that: The device includes a heat sink (1), a transparent plate (2) at the bottom of the heat sink (1), an LED light plate (3) inside the heat sink (1), end caps (4) at both ends of the heat sink (1) and a support (5) that can extend and retract inwards and outwards. The end caps (4) have through holes (41), and the support (5) passes through the through holes (41) on the corresponding end caps (4) and is connected to the heat sink (1) body. The bottom of the end caps (4) has a support plate (42) extending towards the middle of the heat sink (1), and the lower end of the heat sink (1) has a slot (11), in which the support plate (42) is inserted.
2. The aquarium LED light according to claim 1, characterized in that: The upper part of the heat sink (1) is provided with a socket (12) extending along its length direction. After the bracket (5) passes through the through hole (41) of the end cover (4), it can be inserted into the socket (12) to achieve telescopic adjustment.
3. The aquarium LED light according to claim 1, characterized in that: The slot (11) is integrally bent from the two long side edges at the lower end of the heat sink (1) and extends toward each other.
4. The aquarium LED light according to claim 1, characterized in that: The bracket (5) has a U-shaped structure, with both free ends inserted into the corresponding sockets (12).
5. An aquarium LED light according to claim 4, characterized in that: The curved part of the U-shaped structure has a downward-bending bend (51) for mounting on the wall of the aquarium.
6. An aquarium LED light according to claim 1, characterized in that: A snap-fit structure is provided between the transparent plate (2) and the heat sink (1).
7. An aquarium LED light according to claim 1, characterized in that: The heat sink (1) is also provided with a circuit board (6), and a wireless communication module is integrated on the circuit board (6).
8. An aquarium LED light according to claim 7, characterized in that: The wireless communication module is either a WiFi module or a Bluetooth module.