Indoor LED ceiling lamp
By designing a protective structure, including connecting components, movable components, and snap-fit structures, the problem of damage to LED ceiling lights when impacted by external objects is solved, achieving protection and rapid assembly of the ceiling lights and extending their service life.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HANGZHOU RUISHI LIGHTING TECHNOLOGY CO LTD
- Filing Date
- 2025-10-27
- Publication Date
- 2026-07-10
AI Technical Summary
Existing LED ceiling lights are easily damaged when impacted by external objects, especially in the home environment. When children play with balls or move large items, the outer casing of the light fixture may be damaged, affecting its lifespan.
A protective structure was designed, comprising connecting components, movable components, folding covers, limiting components, springs, and fixing components. Through the cooperation of these components, the impact force of external objects is absorbed, preventing direct damage to the lamps, and the snap-fit structure enables rapid assembly.
It effectively protects LED ceiling lights from impacts, extends their lifespan, and allows for quick assembly to restore them to normal operation if damaged.
Smart Images

Figure CN224479563U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of LED lighting technology, specifically relating to an indoor LED ceiling light. Background Technology
[0002] LED ceiling lights are a type of light source that uses LEDs as a light source and is installed inside a room. The light is designed to be relatively flat at the top and installed close to the ceiling, as if it is attached to the ceiling, hence the name LED ceiling light. By installing LED ceiling lights, the brightness of the room is increased and the room is clearer.
[0003] In cities, the room height in homes is generally between 2.4 and 3 meters. Children often play ball or throw things in the room. The bouncing ball or thrown object may hit the LED ceiling light fixed on the ceiling. When moving large items in the room, the large objects may also hit the LED ceiling light. Since the outer shell of the LED ceiling light is made of plastic or glass, the outer shell may be damaged by the impact of external objects, which may damage the LED light inside. Therefore, an indoor LED ceiling light is needed to solve the above problems. Utility Model Content
[0004] The purpose of this utility model is to provide an indoor LED ceiling light to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, the present invention provides the following technical solution: an indoor LED ceiling light, including a connecting component, wherein the connecting component is connected to a movable component via a folding cover, both the connecting component and the movable component are provided with two limiting components, and the two corresponding limiting components are provided with the same folding frame, the two upper limiting components are provided with springs, the two upper limiting components are connected to two snap-fit components, and the four snap-fit components are provided with the same fixing component, which is located on the connecting component.
[0006] In a preferred embodiment, the connecting assembly includes a connecting shell, the front and back of which are connected to positioning blocks. Both positioning blocks are located within a fixing assembly. Two sliding holes are provided inside the connecting shell. The connecting shell is connected to two upper limiting assemblies and to a folding cover.
[0007] In a preferred embodiment, the movable component includes a movable shell connected to a folding cover, the movable shell being connected to two limiting components below it, and pull blocks connected to both sides of the movable shell.
[0008] In a preferred embodiment, the limiting assembly includes limiting rods, with two upper limiting rods connected to the connecting shell and two lower limiting rods connected to the movable shell. Two limiting blocks are slidably connected to the limiting rods, and the corresponding connecting limiting blocks are hinged to the same folding frame via pins. The two upper limiting rods are each sleeved in a spring, and the two upper limiting blocks are each connected to a fixing assembly.
[0009] In a preferred embodiment, the snap-fit assembly includes a connecting plate that is slidably connected in a sliding hole, connected to an upper limiting block, and connected to a locking rod. All four locking rods are located within a fixing assembly.
[0010] In a preferred embodiment, the fixing component includes a fixing shell with two positioning grooves inside, two positioning blocks slidably connected in the positioning grooves, four locking holes inside the fixing shell with four locking rods engaged in the locking holes, and four fixing holes inside the fixing shell. The fixing shell is connected to the mounting base.
[0011] Compared with the prior art, the beneficial effects of this utility model are:
[0012] This utility model, by providing a movable component, a folding cover, a connecting component, a spring, a limiting component, a folding frame locking component, and a fixing component, provides a protective structure that, when the bottom of the ceiling light is impacted by an external object, can block the object from impacting it. This prevents the object from colliding with the LED light installed in the mounting base and causing damage. Simultaneously, the movable component moves upward, and through two folding frames, it drives the four locking components to move away from each other. The two springs retract, and the retracted springs absorb the impact force generated when the ceiling light is hit, making the ceiling light less susceptible to damage from external impacts and ensuring its normal service life.
[0013] This utility model, by comprising a movable shell, a folding frame, limiting blocks, limiting rods, a connecting plate, locking rods, and locking holes, allows the ceiling light to be quickly assembled by pulling the movable shell, which in turn moves the connecting shell away from each other. Pulling the movable shell causes the movable shell and the connecting shell to move away from each other, while the two limiting blocks at the top move the locking rods closer together. When the connecting shell moves the four locking rods to positions corresponding to the four locking holes, the movable shell is slowly released. Under the action of two springs, the four limiting blocks at the top, through the connecting plate, move the four locking rods into the four locking holes. Attached Figure Description
[0014] Figure 1 This is a schematic diagram of the three-dimensional structure of this utility model;
[0015] Figure 2This is a schematic diagram of the three-dimensional exploded structure of this utility model;
[0016] Figure 3 This is a schematic diagram of the cross-sectional structure of the present invention from a side perspective.
[0017] Figure 4 This utility model Figure 3 A magnified schematic diagram of the structure at point A in the middle;
[0018] Figure 5 This is a schematic diagram of the three-dimensional structure of the fixed shell of this utility model viewed from below.
[0019] In the diagram: 1. Connecting component; 11. Connecting shell; 12. Positioning block; 13. Sliding hole; 2. Movable component; 21. Movable shell; 22. Pull block; 3. Folding cover; 4. Limiting component; 41. Limiting rod; 42. Limiting block; 5. Folding frame; 6. Spring; 7. Snap-fit component; 71. Connecting plate; 72. Snap rod; 8. Fixing component; 81. Fixing shell; 82. Snap hole; 83. Positioning groove; 84. Fixing hole; 85. Mounting base. Detailed Implementation
[0020] The present invention will be further described below with reference to the embodiments.
[0021] The following embodiments are used to illustrate the present invention, but should not be used to limit the scope of protection of the present invention. The conditions in the embodiments can be further adjusted according to specific conditions, and simple improvements to the method of the present invention under the premise of the concept of the present invention are all within the scope of protection claimed by the present invention.
[0022] Please see Figure 1-5 This utility model provides an indoor LED ceiling light, including a connecting component 1. The connecting component 1 is connected to a movable component 2 via a folding cover 3. Both the connecting component 1 and the movable component 2 are provided with two limiting components 4. The connecting component 1 includes a connecting shell 11. The front and back of the connecting shell 11 are connected to positioning blocks 12. The two positioning blocks 12 are both located in a fixing component 8. The connecting shell 11 has two sliding holes 13. The connecting shell 11 is connected to the two limiting components 4 above it and to the folding cover 3. The movable component 2 includes a movable shell 21. The movable shell 21 is connected to the folding cover 3. By setting the folding cover 3, since the folding cover 3 is connected between the connecting shell 11 and the movable shell 21, the folding cover 3 can connect the movable shell 21 and the connecting shell 11 together.
[0023] The movable shell 21 is connected to the two limiting components 4 below. Pull blocks 22 are connected to both sides of the movable shell 21. By setting the pull blocks 22, the user can easily pull the movable shell 21 through the blocks.
[0024] A folding frame 5 is provided between two corresponding limiting components 4. Springs 6 are provided on the outside of the two upper limiting components 4. The two upper limiting components 4 are connected to two snap-fit components 7. The limiting component 4 includes a limiting rod 41. The two upper limiting rods 41 are connected in the connecting shell 11, and the two lower limiting rods 41 are connected in the movable shell 21. Two limiting blocks 42 are slidably connected to the outside of the limiting rods 41. The corresponding connecting limiting blocks 42 are hinged to the same folding frame 5 through pins. The two upper limiting rods 41 are sleeved in the springs 6. By setting the limiting rods 41 and the limiting blocks 42, since there are two limiting blocks 42 slidably connected to the outside of the limiting rods 41, the limiting rods 41 can limit the limiting blocks 42, so that the limiting blocks 42 will not shake when moving. The connecting plate 71 connected to the limiting blocks 42 can move smoothly along the axial direction of the limiting rods 41.
[0025] The two upper limiting blocks 42 are both connected to the fixing component 8. The four snap-fit components 7 are provided with the same fixing component 8. The fixing component 8 is located on the connecting component 1. The snap-fit component 7 includes a connecting plate 71, which is slidably connected in the sliding hole 13. The connecting plate 71 is connected to the upper limiting block 42 and the connecting plate 71 is connected to the locking rod 72. The four locking rods 72 are all located in the fixing component 8. The fixing component 8 includes a fixing shell 81, which has two positioning grooves 83. The two positioning blocks 12 are slidably connected in the positioning grooves 83. By setting the positioning blocks 12 and the positioning grooves 83, when the positioning blocks 12 are slidably connected in the positioning grooves 83, the positioning blocks 12 and the positioning grooves 83 cooperate with each other to limit the connecting shell 11, so that the connecting shell 11 will not shake when it moves. The four locking rods 72 on the connecting shell 11 can move precisely to the positions corresponding to the four locking holes 82.
[0026] The fixed shell 81 has four locking holes 82, and four locking rods 72 are locked in the locking holes 82. By setting the locking rods 72 and the locking holes 82, when the locking rods 72 are locked in the locking holes 82, the locking rods 72 and the locking holes 82 cooperate with each other to fix the connecting shell 11 under the fixed shell 81.
[0027] The fixed housing 81 has four fixing holes 84 inside, and the fixed housing 81 is connected to the mounting base 85.
[0028] The working principle and usage process of this utility model are as follows: Pulling the movable shell 21 causes the distance between the movable shell 21 and the connecting shell 11 to move away from each other. The moving movable shell 21 drives the corresponding two limiting blocks 42 to move closer to each other outside the limiting rod 41 through the folding frame 5. The spring 6 contracts, and the two upper limiting blocks 42 drive the locking rods 72 to move closer to each other, pushing the connecting shell 11 upward. The connecting shell 11 drives the two positioning blocks 12 to move into the two positioning slots 83. When the connecting shell 11 drives the four locking rods 72 to the positions corresponding to the four locking holes 82, the movable shell 21 is slowly released. Under the action of the elastic force of the two springs 6, the four upper limiting blocks 42 drive the four locking rods 72 to lock into the four locking holes 82 through the connecting plate 71. When the bottom of the ceiling light is hit by an external object, the movable shell 21 moves upward, and the distance between the movable shell 21 and the connecting shell 11 moves closer to each other. The upward moving movable shell 21 drives the four upper limiting blocks 42 to move away from each other outside the two limiting rods 41 through the two folding frames 5, and the two springs 6 contract.
[0029] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. An indoor LED ceiling light, comprising a connecting component (1), characterized in that: The connecting component (1) is connected to the movable component (2) through the folding cover (3). Both the connecting component (1) and the movable component (2) are provided with two limiting components (4). The two limiting components (4) are provided with the same folding frame (5). The two upper limiting components (4) are provided with springs (6). The two upper limiting components (4) are connected to two snap-fit components (7). The four snap-fit components (7) are provided with the same fixing component (8). The fixing component (8) is provided on the connecting component (1).
2. The indoor LED ceiling light according to claim 1, characterized in that: The connecting component (1) includes a connecting shell (11), the front and back of which are connected to positioning blocks (12). Both positioning blocks (12) are located inside the fixing component (8). Two sliding holes (13) are opened inside the connecting shell (11). The connecting shell (11) is connected to two upper limiting components (4). The connecting shell (11) is connected to the folding cover (3).
3. An indoor LED ceiling light according to claim 2, characterized in that: The active component (2) includes an active shell (21), which is connected to a folding cover (3). The active shell (21) is connected to two limiting components (4) below. Pull blocks (22) are connected to both sides of the active shell (21).
4. An indoor LED ceiling light according to claim 3, characterized in that: The limiting component (4) includes limiting rods (41). The two upper limiting rods (41) are connected inside the connecting shell (11), and the two lower limiting rods (41) are connected inside the movable shell (21). Two limiting blocks (42) are slidably connected to the outside of the limiting rods (41). The corresponding connecting limiting blocks (42) are all hinged to the same folding frame (5) through pins. The two upper limiting rods (41) are all sleeved inside the spring (6), and the two upper limiting blocks (42) are all connected to the fixing component (8).
5. An indoor LED ceiling light according to claim 4, characterized in that: The snap-fit assembly (7) includes a connecting plate (71), which is slidably connected in the sliding hole (13). The connecting plate (71) is connected to the upper limiting block (42). The connecting plate (71) is connected to the snap rod (72). All four snap rods (72) are located in the fixing assembly (8).
6. An indoor LED ceiling light according to claim 5, characterized in that: The fixing component (8) includes a fixing shell (81), which has two positioning grooves (83) and two positioning blocks (12) that are slidably connected in the positioning grooves (83). The fixing shell (81) has four locking holes (82) and four locking rods (72) that are locked in the locking holes (82). The fixing shell (81) has four fixing holes (84) and is connected to the mounting base (85).