Splicing structure of a lamp and the lamp
By designing protrusions and recesses, and using fasteners and positioning components, the lamp assembly process is simplified, solving the problems of complex and unstable assembly of existing lamps, and achieving fast and stable lamp assembly.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YANGZHOU HUACAI OPTO ELECTRONICS
- Filing Date
- 2025-07-11
- Publication Date
- 2026-06-26
AI Technical Summary
Existing lighting fixtures have complex splicing structures, are cumbersome to install and disassemble, and have poor splicing stability, making them prone to loosening and falling off.
The design incorporates raised and recessed sections in the splicing components, allowing for initial assembly through simple alignment and pressure application. Further fixation is achieved using fasteners and positioning elements, simplifying the installation process and enhancing stability.
The design achieves a simple and quick installation of the lamp splicing structure, with a firm and stable splicing effect, preventing loosening and falling off, and improving electrical reliability and safety.
Smart Images

Figure CN224415027U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of lighting technology, and in particular to a splicing structure and a lighting fixture. Background Technology
[0002] In current lighting applications, it is often necessary to splice multiple lighting components to form larger or more specific shapes. However, current splicing methods have many problems. For example, the splicing structure is complex, the installation and disassembly process is cumbersome, requiring a large number of tools and consuming a lot of time; the splicing stability is poor, and loosening or detachment is prone to occur during use, affecting the normal use and safety of the lighting fixture. Utility Model Content
[0003] This utility model provides a splicing structure and a lamp, aiming to solve the problems of complex splicing structure components, cumbersome installation and disassembly process, and poor splicing stability of existing lamps.
[0004] This utility model embodiment provides a splicing structure for a lamp, including two splicing components. Each splicing component includes a splicing frame. The splicing frame is provided with an outwardly extending protrusion and an inwardly recessed portion. When the two splicing components are spliced, the protrusion on one splicing frame is connected to the recessed portion on the other splicing frame, and the recessed portion on one splicing frame is connected to the protrusion on the other splicing frame.
[0005] The splicing structure also includes fasteners, and the splicing frame is provided with fixing holes, in which the fasteners are installed.
[0006] Specifically, the splicing structure also includes a positioning component, and the protrusion is provided with a positioning hole, and the positioning component is installed in the positioning hole.
[0007] Specifically, the splicing structure includes an electrical spring and a fixing frame for mounting the electrical spring. The splicing frame is provided with an installation space, and the fixing frame is installed in the installation space.
[0008] Specifically, at least four electrical springs are provided, and the fixing frame is provided with identification information. Each electrical spring is installed corresponding to the identification information.
[0009] Specifically, the fixing holes include two types: one type of fixing hole is provided through the height direction of the splicing frame, and the other type of fixing hole is provided through the width direction of the splicing frame.
[0010] Specifically, the fastener includes a vertical fastener and a horizontal fastener, and the length of the vertical fastener is less than the length of the horizontal fastener.
[0011] Specifically, the splicing frame is integrally formed by die casting.
[0012] Specifically, the fixing frame is a plastic frame.
[0013] This utility model embodiment also provides a lamp, including the splicing structure described above.
[0014] Specifically, the lamp includes two lamp bodies, and the two splicing components are respectively installed on the two lamp bodies.
[0015] This utility model embodiment provides a splicing structure for a lamp and a lamp fixture. The splicing structure includes two splicing components, each of which includes a splicing frame. The splicing frame has an outwardly extending protrusion and an inwardly recessed portion. When the two splicing components are spliced, the protrusion on one splicing frame connects to the recess on the other splicing frame, and vice versa. The splicing structure also includes a fixing member, and the splicing frame has fixing holes in which the fixing member is installed. The splicing structure of this embodiment is simple and requires no complex connectors or tools. The splicing can be completed simply by aligning the protrusions and recesses of the two splicing components and applying a certain pressure. The additional fixing by the fixing member makes the splicing effect of the two splicing components more robust and stable. Attached Figure Description
[0016] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the description of the embodiments 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 based on these drawings without creative effort.
[0017] Figure 1 An exploded view of the splicing structure of a lamp provided in an embodiment of this utility model;
[0018] Figure 2 A schematic diagram of the splicing structure of a lamp provided for an embodiment of this utility model;
[0019] Figure 3 An exploded view of a lamp provided for an embodiment of this utility model.
[0020] Explanation of the markings in the image:
[0021] 1. Splicing components; 11. Splicing frame; 12. Protrusions; 13. Recesses; 14. Fixing holes; 15. Positioning holes; 16. Installation space;
[0022] 2. Fasteners; 21. Vertical fasteners; 22. Horizontal fasteners;
[0023] 3. Positioning components;
[0024] 4. Electrical springs;
[0025] 5. Fix the frame;
[0026] 6. Lamp body. Detailed Implementation
[0027] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of the present utility model.
[0028] It should be understood that, when used in this specification and the appended claims, the terms "comprising" and "including" indicate the presence of the described features, integrals, steps, operations, elements and / or components, but do not exclude the presence or addition of one or more other features, integrals, steps, operations, elements, components and / or collections thereof.
[0029] It should also be understood that the terminology used in this specification is for the purpose of describing particular embodiments only and is not intended to limit the scope of the invention. As used in this specification and the appended claims, the singular forms “a,” “an,” and “the” are intended to include the plural forms unless the context clearly indicates otherwise.
[0030] It should also be further understood that the term "and / or" as used in this specification and the appended claims refers to any combination of one or more of the associated listed items and all possible combinations, and includes such combinations.
[0031] Please see Figure 1-2 This utility model provides a splicing structure for a lamp, including two splicing components 1. Each splicing component 1 includes a splicing frame 11. The splicing frame 11 is provided with an outwardly extending protrusion 12 and an inwardly recessed recess 13. When the two splicing components 1 are spliced, the protrusion 12 on one splicing frame 11 is connected to the recessed portion 13 on the other splicing frame 11, and the recessed portion 13 on one splicing frame 11 is connected to the protrusion 12 on the other splicing frame 11.
[0032] The splicing structure also includes a fastener 2, and the splicing frame 11 is also provided with a fixing hole 14, in which the fastener 2 is installed.
[0033] In this embodiment, both the protrusion 12 and the recess 13 are located at the top and bottom of the splicing frame 11, and the shapes of the protrusion 12 and the recess 13 of the two splicing frames 11 are complementary. When two splicing components 1 need to be spliced, the protrusion 12 on one splicing frame 11 is aligned with the recess 13 on the other splicing frame 11, and the recess 13 on the first splicing frame 11 will also correspond to the protrusion 12 on the second splicing frame 11. Then, the two splicing components 1 are pushed so that the protrusion 12 enters the recess 13 to complete the initial splicing. Finally, the fastener 2 is installed into the fixing hole 14 to firmly connect the two splicing components 1. The splicing structure of this embodiment is simple and does not require complex connectors and tools, greatly simplifying the splicing process. During operation, simply align the protrusions 12 and recesses 13 of the two splicing components 1 and apply a certain pressure to complete the splicing. Furthermore, the fasteners 2 provide additional fixation, making the splicing effect of the two splicing components 1 more robust and stable, effectively resisting external forces and preventing the splicing parts from loosening.
[0034] In practical implementation, the splicing frame 11 can be made of aluminum alloy, the fixing holes 14 can be circular, the fixing parts 2 can be stainless steel bolts, and the protrusions 12 and recesses 13 can be designed as dovetail grooves. This shape can provide better mechanical stability and prevent the splicing components 1 from separating in the horizontal direction. Alternatively, a trapezoidal protrusion 12 and trapezoidal recess 13 design can also achieve a stable splicing effect.
[0035] Specifically, such as Figure 1 As shown, the splicing structure also includes a positioning component 3. The protrusion 12 is provided with a positioning hole 15, and the positioning component 3 is installed in the positioning hole 15.
[0036] In this embodiment, the positioning hole 15 can be circular, and the positioning element 3 can be a positioning bead. The positioning hole 15 is set in the protrusion 12 on the top of the splicing frame 11. In specific implementation, the two splicing components 1 are respectively installed in different lamp bodies 6 of the lamp, and then the two different lamp bodies 6 are spliced together by the two splicing components 1. Then the positioning element 3 is installed in the positioning hole 15 to play a guiding and pre-fixing role. When the protrusion 12 of one splicing frame 11 is connected to the recess 13 of another splicing frame 11, the positioning element 3 will play a guiding and positioning role to ensure that the protrusion 12 and the recess 13 are accurately matched, making the splicing more precise and efficient and reducing splicing errors.
[0037] The positioning ball includes a positioning body and a positioning ball. The positioning body is a positioning cylindrical pin, and the positioning ball is located on the top of the positioning body. In other embodiments, the positioning element 3 can be a conical pin, and the positioning hole 15 is a conical hole. The conical pin has a certain self-locking property, which can further improve the stability of positioning.
[0038] Specifically, such as Figure 1 As shown, the splicing structure includes an electrical spring 4 and a fixing frame 5 for installing the electrical spring 4. The splicing frame 11 is provided with an installation space 16, and the fixing frame 5 is installed in the installation space 16.
[0039] In this embodiment, the installation space 16 can be a rectangular groove, and the fixing frame 5 is a rectangular frame adapted to the rectangular groove, facilitating installation and fixation. Then, the electrical spring 4 is installed on the fixing frame 5, and the fixing frame 5 is installed into the installation space 16 of the splicing frame 11. When the two splicing components 1 are spliced, the electrical spring 4 contacts each other, enabling current conduction. This embodiment simplifies the electrical connection method of the lamp, avoids traditional complex wiring, and improves the electrical reliability and safety of the lamp.
[0040] In practical implementation, the electrical spring 4 can be made of copper material with good conductivity, and the size of the fixing frame 5 can be adapted to the installation space 16; or, the electrical spring 4 can be made of silver material.
[0041] Specifically, such as Figure 1 As shown, at least four electrical springs 4 are provided, and the fixing frame 5 is marked with identification information. Each electrical spring 4 is installed according to the corresponding identification information.
[0042] In this embodiment, to prevent incorrect installation of the electrical springs 4, identification information is set on the fixing frame 5. Specifically, this can be done by laser engraving or by affixing stickers. The identification information can be numbers, letters, or different colors. For example, using letters, such as "L", "N", "DA1", and "DA2", where "L" represents the live wire, "N" represents the neutral wire, "DA1" represents dimming channel one, and "DA2" represents dimming channel two. Then, each electrical spring 4 is installed according to its corresponding identification information. This embodiment, by setting multiple electrical springs 4 and installing them with corresponding identification information, ensures that each electrical spring 4 accurately performs its corresponding electrical function, avoiding incorrect wiring. Furthermore, during operation, multiple electrical springs 4 provide a larger contact area and more stable current transmission, reducing the occurrence of electrical faults. The identification information helps installers accurately install the electrical springs 4 to the designated positions during installation, avoiding installation errors, thereby improving the electrical performance and installation efficiency of the lamp.
[0043] Specifically, such as Figure 1 As shown, there are two types of fixing holes 14. One type of fixing hole 14 is provided through the height direction of the splicing frame 11, and the other type of fixing hole 14 is provided through the width direction of the splicing frame 11.
[0044] In this embodiment, in order to improve the overall stability of the splicing structure, it is necessary to set fixing holes 14 in different directions according to different installation requirements and stress conditions. Therefore, this embodiment sets two types of fixing holes 14. During the splicing process, the fixing holes 14 that pass through along the height direction can be used to fix the position of the splicing structure in the vertical direction to prevent it from moving up and down; the fixing holes 14 that pass through along the width direction are used to fix the position of the splicing structure in the horizontal direction to prevent it from moving left and right, so that the splicing structure can be effectively fixed in all directions, thereby enhancing the splicing firmness.
[0045] In practical implementation, multiple fixing holes 14 can be provided, and the splicing component 1 can be fixed from different directions according to the overall splicing structure. Fixing holes 14 penetrating along the height direction can be located at the four corners of the splicing frame 11, while fixing holes 14 penetrating along the width direction can be located in the middle of the splicing frame 11. It should be noted that... Figure 1-2 In the figure, only a few obvious fasteners 2 are marked, but the screws in both figures are fasteners 2 in this embodiment.
[0046] Specifically, such as Figure 1 As shown, the fastener 2 includes a vertical fastener 21 and a horizontal fastener 22, and the length of the vertical fastener 21 is less than the length of the horizontal fastener 22.
[0047] In this embodiment, fasteners 2 of different lengths are provided according to different directions of the fixing holes 14 to ensure that the fasteners 2 can be properly installed in the fixing holes 14. Specifically, the vertical fastener 21 is used to install in the fixing holes 14 that penetrate along the height direction; since the required fixing depth is shallow, its length is shorter. The horizontal fastener 22 is used to install in the fixing holes 14 that penetrate along the width direction; since the required fixing depth is deeper, its length is longer. In practical implementation, adjustable-length fasteners 2 can be used, and the lengths of different fasteners 2 can be adjusted according to actual conditions to adapt to different installation requirements.
[0048] Specifically, the splicing frame 11 is integrally formed through a die-casting process.
[0049] In this embodiment, the die-casting process, which allows for one-time molding, enables the splicing frame 11 to possess high structural strength and precision, while also achieving high production efficiency. The specific process involves heating the metal material to a molten state, then injecting it into a die-casting mold, and finally cooling and solidifying it to obtain the splicing frame 11. The resulting splicing frame 11 exhibits stable structure, high dimensional accuracy, and robust connections between its components, meeting the requirements for lamp splicing.
[0050] Specifically, the fixed frame 5 is a plastic frame.
[0051] In this embodiment, as described in the previous embodiments, the fixed frame 5 is used to install the electrical springs 4. When the two splicing components 1 are spliced, the electrical springs 4 come into contact with each other. Therefore, to prevent short circuits between the electrical springs 4, the fixed frame 5 needs to be made of plastic. This is because plastic frames have good insulation and plasticity, and are easy to process and mold. In specific implementation, the fixed frame 5 can be made of plastic material using injection molding, and then the electrical springs 4 can be installed on the fixed frame 5.
[0052] like Figure 3 As shown in the figure, this utility model embodiment also provides a lamp, including the splicing structure described above.
[0053] In this embodiment, the splicing structure described in the above embodiments is applied to the lamp, enabling the lamp to be easily spliced together with multiple lamp bodies to meet different lighting needs.
[0054] Specifically, such as Figure 3 As shown, the lighting fixture includes two lamp bodies 6, and two splicing components 1 are respectively installed on the two lamp bodies 6.
[0055] In this embodiment, two splicing components 1 are respectively installed on two lamp bodies 6, enabling the two lamp bodies 6 to be quickly and stably spliced together via the splicing components 1, facilitating user combination and use according to needs. In specific implementation, splicing components 1 are installed on each of the two lamp bodies 6. When splicing is required, the protrusions 12 and recesses 13 of the two splicing components 1 are aligned and connected to join the two lamp bodies 6, achieving convenient splicing of the two lamp bodies 6. The spliced lamp structure is stable, and the lighting effect is better. Both lamp bodies 6 are rectangular, and the splicing components 1 are installed at the ends of the lamp bodies 6.
[0056] The above description is merely a specific embodiment of this utility model, but the protection scope of this utility model is not limited thereto. Any person skilled in the art can easily conceive of various equivalent modifications or substitutions within the technical scope disclosed in this utility model, and these modifications or substitutions should all be covered within the protection scope of this utility model. Therefore, the protection scope of this utility model should be determined by the scope of the claims.
Claims
1. A splicing structure of a luminaire, characterized by, It includes two splicing components, each of which includes a splicing frame. The splicing frame is provided with an outwardly extending protrusion and an inwardly recessed portion. When the two splicing components are spliced together, the protrusion on one splicing frame is connected to the recessed portion on the other splicing frame, and the recessed portion on one splicing frame is connected to the protrusion on the other splicing frame. The splicing structure also includes fasteners, and the splicing frame is provided with fixing holes, in which the fasteners are installed.
2. The splicing structure according to claim 1, characterized in that, The splicing structure also includes a positioning component, and the protrusion is provided with a positioning hole, and the positioning component is installed in the positioning hole.
3. The splicing structure according to claim 1, characterized in that, The splicing structure includes an electrical spring and a fixing frame for mounting the electrical spring. The splicing frame is provided with an installation space, and the fixing frame is installed in the installation space.
4. The splicing structure according to claim 3, characterized in that, At least four electrical springs are provided, and the fixing frame is provided with identification information. Each electrical spring is installed corresponding to the identification information.
5. The splicing structure according to claim 1, characterized in that, The fixing holes include two types: one type of fixing hole is provided through the height direction of the splicing frame, and the other type of fixing hole is provided through the width direction of the splicing frame.
6. The splicing structure according to claim 5, characterized in that, The fasteners include vertical fasteners and horizontal fasteners, and the length of the vertical fasteners is less than the length of the horizontal fasteners.
7. The splicing structure according to claim 1, characterized in that, The splicing frame is integrally formed by die casting.
8. The splicing structure according to claim 3, characterized in that, The fixed frame is a plastic frame.
9. A lamp, characterized in that, Including the splicing structure as described in any one of claims 1-8.
10. The lamp according to claim 9, characterized in that, The lighting fixture includes two lamp bodies, and the two splicing components are respectively installed on the two lamp bodies.