A lamp splicing device and a lamp.
By setting slanted grooves and screw holes on the lamp splicing bracket and using locking components, fast and secure lamp splicing can be achieved, solving the problems of cumbersome and unstable splicing of existing lamps and improving installation efficiency and aesthetics.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YANGZHOU HUACAI OPTO ELECTRONICS
- Filing Date
- 2025-07-18
- Publication Date
- 2026-07-03
AI Technical Summary
Existing methods for splicing lighting fixtures are cumbersome, inefficient, and require highly skilled installers, often resulting in insecure or uneven splicing.
The system employs a splicing assembly, including a first splicing bracket and a second splicing bracket. By setting a slanted groove on the second splicing bracket and a screw hole on the first splicing bracket, the two are connected and locked using a locking device, achieving fast and secure splicing.
It simplifies the splicing process, improves the strength and stability of the splicing, reduces the skill requirements for installers, and avoids problems such as loosening and unevenness after splicing.
Smart Images

Figure CN224454485U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of lighting technology, and in particular to a lighting splicing device and a lighting fixture. Background Technology
[0002] As living standards improve, users are increasingly pursuing higher quality in their living and working environments, especially in the installation and use of lighting fixtures. This is because lighting fixtures not only provide basic illumination but also play a crucial role in decorating spaces and creating atmospheres. Therefore, users expect lighting fixtures to be installed more conveniently and efficiently, while also meeting diverse scenario needs.
[0003] However, common linear lights currently on the market cannot meet the needs of rapid installation. Specifically, ordinary linear lights use a traditional splicing strip structure to fix two light fixtures together. This splicing method involves many steps, requiring precise alignment of the splicing strip and corresponding parts of the light fixture, and then fixing them with screws and other fasteners. This process needs to be repeated at each splicing point, which is not only inefficient but also requires a high level of skill from the installer. Improper operation can easily lead to problems such as loose splicing and uneven installation of the light fixture, affecting the normal use of the light fixture and its overall aesthetics. Utility Model Content
[0004] This utility model provides a lamp splicing device and a lamp, which aims to solve the problem that existing lamps cannot be installed quickly.
[0005] This utility model provides a lamp splicing device, including a splicing component and a locking component. The splicing component includes a first splicing bracket and a second splicing bracket. The first splicing bracket is provided with a screw hole, and the second splicing bracket is provided with an inclined groove.
[0006] When the first splicing bracket and the second splicing bracket are spliced together, the screw hole and the inclined groove are connected, and the locking member extends into and locks into the screw hole and the inclined groove in sequence.
[0007] Specifically, the first splicing bracket extends in the splicing direction and has a first splicing part, and the second splicing bracket extends in the splicing direction and has a second splicing part. The screw hole is provided on the first splicing part, and the inclined groove is provided on the second splicing part. When the first splicing bracket and the second splicing bracket are spliced, the first splicing part covers the second splicing part.
[0008] Specifically, the middle part of the second splicing part is hollowed out to form a hollow area. The second splicing part includes an inclined part, and the inclined groove is formed by the inclined part tilting from the splicing front end of the second splicing part towards the depth direction of the hollow area.
[0009] Specifically, the inclination angle of the inclined groove is 60°-70°.
[0010] Specifically, the locking component is a pointed screw.
[0011] Specifically, the first splicing bracket is provided with a limiting groove, and the second splicing bracket is provided with a limiting rib, the limiting rib being embedded in the limiting groove.
[0012] Specifically, the splicing components are configured in two sets.
[0013] This utility model embodiment also provides a lamp, which includes at least two lamp bodies and a splicing device as described above. The splicing components of the splicing device are installed on the lamp bodies, and the splicing device is used to splice at least two lamp bodies.
[0014] Specifically, the splicing device also includes multiple fixing components. The first splicing bracket and the second splicing bracket are each provided with multiple fixing holes, and each fixing component passes through the corresponding fixing hole and connects to the corresponding lamp body.
[0015] Specifically, each lamp body is provided with a set of splicing components at its end, and two adjacent lamp bodies are spliced together by two sets of splicing components.
[0016] This utility model provides a splicing device and a lamp for lamps. The splicing device includes a splicing assembly and a locking component. The splicing assembly includes a first splicing bracket and a second splicing bracket. The first splicing bracket has a screw hole, and the second splicing bracket has a slanted groove. When the first and second splicing brackets are spliced, the screw hole and the slanted groove are connected, and the locking component extends into and locks into the screw hole and the slanted groove in sequence. In this embodiment, when splicing two splicing brackets, they are aligned at the splicing position so that the screw hole and the slanted groove are connected. Then, the locking component passes through the connected screw hole and the slanted groove to lock, thus completing the splicing and fixing of the two splicing brackets. The splicing assembly of this embodiment has a simple structure. Through the cooperation of the locking component with the screw hole and the slanted groove, splicing can be quickly achieved, and the splicing firmness is improved, preventing loosening after splicing. At the same time, it is easy to operate and can be spliced without complicated tools. Attached Figure Description
[0017] 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.
[0018] Figure 1 A schematic diagram of the structure of a lamp splicing device provided in an embodiment of this utility model;
[0019] Figure 2 An exploded view of a lamp splicing device provided in an embodiment of this utility model;
[0020] Figure 3 A cross-sectional view of a lamp splicing device provided in an embodiment of this utility model;
[0021] Figure 4 This is a schematic diagram of the structure of the first splicing bracket;
[0022] Figure 5 This is a schematic diagram of the second splicing bracket;
[0023] Figure 6 This is another structural diagram of the second splicing bracket;
[0024] Figure 7 This is a structural schematic diagram of the locking component;
[0025] Figure 8 This is a schematic diagram of the structure of a lamp provided in an embodiment of the present utility model;
[0026] Figure 9 This is a schematic diagram of the internal connection of a lamp provided in an embodiment of the present utility model;
[0027] Figure 10 This is a diagram illustrating the installation process of a lamp as provided in an embodiment of the present utility model.
[0028] Explanation of the markings in the image:
[0029] 1. Splicing component; 11. First splicing bracket; 111. Screw hole; 112. First splicing part; 113. Limiting groove; 114. Locking piece; 115. First mounting part; 12. Second splicing bracket; 121. Inclined groove; 122. Second splicing part; 123. Hollowed-out area; 124. Inclined part; 125. Limiting rib; 126. Locking groove; 127. Second mounting part; 13. Locking piece; 14. Fixing piece; 15. Fixing hole;
[0030] 2. Lamp body. Detailed Implementation
[0031] 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.
[0032] 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.
[0033] 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.
[0034] 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.
[0035] Please see Figure 1-3 This utility model provides a lamp splicing device, including a splicing component 1 and a locking component 13. The splicing component 1 includes a first splicing bracket 11 and a second splicing bracket 12. The first splicing bracket 11 is provided with a screw hole 111, and the second splicing bracket 12 is provided with a slanted groove 121.
[0036] When the first splicing bracket 11 and the second splicing bracket 12 are spliced, the screw hole 111 and the inclined groove 121 are connected, and the locking member 13 extends into and locks in the screw hole 111 and the inclined groove 121 in sequence.
[0037] In this embodiment, by providing screw holes 111 on the first splicing bracket 11 and inclined grooves 121 on the second splicing bracket 12, when splicing the first splicing bracket 11 and the second splicing bracket 12 is required, the two are aligned at the splicing position, so that the screw holes 111 and inclined grooves 121 are connected. Then, the locking member 13 is used to pass through the connected screw holes 111 and inclined grooves 121 to achieve locking, thus completing the splicing and fixing of the first splicing bracket 11 and the second splicing bracket 12. Due to the structure of the inclined groove 121, during the locking process, the locking member 13 can generate a force in the splicing direction, thereby enhancing the splicing firmness. The splicing component 1 in this embodiment has a simple structure. Through the cooperation of the locking member 13 with the screw holes 111 and inclined grooves 121, the splicing firmness can be effectively improved, preventing loosening after splicing. At the same time, the operation is convenient, and splicing can be completed without complicated tools.
[0038] In practical implementation, the first splicing bracket 11 and the second splicing bracket 12 can be made of metal (such as aluminum alloy) or high-strength plastic (such as ABS plastic), and formed by injection molding or machining. The dimensions of the screw hole 111 and the inclined groove 121 are designed according to the specifications of the locking member 13 to ensure that the locking member 13 can be smoothly inserted and firmly locked.
[0039] Specifically, such as Figure 1-2 As shown, the first splicing bracket 11 extends in the splicing direction and is provided with a first splicing part 112, and the second splicing bracket 12 extends in the splicing direction and is provided with a second splicing part 122. A screw hole 111 is provided on the first splicing part 112, and a slanted groove 121 is provided on the second splicing part 122. When the first splicing bracket 11 and the second splicing bracket 12 are spliced, the first splicing part 112 covers the second splicing part 122.
[0040] In this embodiment, the first splicing part 112 is disposed on the side of the first splicing bracket 11 facing the splicing direction, such that the first splicing part 112 protrudes from the bracket body of the first splicing bracket 11, and the first splicing part 112 is slightly higher than its end connected to the first splicing bracket 11. The second splicing part 122 is disposed on the side of the second splicing bracket 12 facing the splicing direction, and one end of the second splicing bracket 12 is recessed downward along the height direction of the bracket body of the second splicing bracket 12 to form the second splicing part 122. The second splicing part 122 and its end connected to the second splicing bracket 12 constitute a stepped structure. Furthermore, the screw hole 111 is provided on the first splicing part 112, and the inclined groove 121 is provided on the second splicing part 122. When the first splicing bracket 11 and the second splicing bracket 12 are spliced, the first splicing part 112 of the first splicing bracket 11 moves toward the second splicing part 122 of the second splicing bracket 12 until the first splicing part 112 covers the second splicing part 122, so as to increase the contact area between the first splicing bracket 11 and the second splicing bracket 12. At this time, the screw hole 111 communicates with the inclined groove 121, and then is locked by the locking member 13.
[0041] In this embodiment, a first splicing part 112 is provided on the first splicing bracket 11, and a second splicing part 122 is provided on the second splicing bracket 12. During splicing, the first splicing part 112 covers the second splicing part 122, making the splicing more stable and reliable. At the same time, the screw hole 111 is provided on the first splicing part 112, and the inclined groove 121 is provided on the second splicing part 122, which can provide a certain degree of protection for the screw hole 111 and the inclined groove 121, avoiding damage to them from external factors. In specific implementations, the first splicing part 112 and the second splicing part 122 can adopt a structure integrally formed with the corresponding splicing bracket to ensure connection strength; or the first splicing part 112 and the first splicing bracket 11, and the second splicing part 122 and the second splicing bracket 12 can be detachably connected, such as by bolts, to facilitate later maintenance and replacement.
[0042] Specifically, such as Figure 5-6 As shown, the middle part of the second splicing part 122 is hollowed out to form a hollow area 123. The second splicing part 122 includes an inclined part 124. The inclined groove 121 is formed by the inclined part 124 tilting from the splicing front end of the second splicing part 122 toward the depth direction of the hollow area 123.
[0043] In this embodiment, the hollowed-out area 123 in the middle of the second splicing part 122 provides space for the formation of the inclined groove 121. The inclined part 124 allows the inclined groove 121 to tilt in a specific direction, so as to better cooperate with the locking member 13 and generate a suitable force when locking. Figure 5-6 It can be seen that the inclined groove 121 is actually a groove formed by the inclined portion 124 set in the hollow area 123 and the periphery of the hollow area 123 through the inclined portion 124. That is to say, the inclined groove 121 is a part of the hollow area 123, but it needs the inclined portion 124 to form the inclined groove 121. When the first splicing portion 112 is placed on the second splicing portion 122 and the locking member 13 extends into the inclined groove 121, since the inclined groove 121 is inclined in the depth direction of the hollow area 123, the locking member 13 will generate a downward locking force F during the locking process. In addition, the friction between the locking member 13 and the inclined groove 121 generates a downward frictional force f1 along the inclined direction of the inclined portion 124. The locking member 13 and the inclined groove 121 will also be squeezed during the locking process, thereby generating a tension force f2 perpendicular to the frictional force, making the splicing effect more secure. This embodiment makes the formation of the inclined groove 121 more reasonable, and the hollow area 123 avoids interference between structures. At the same time, the setting of the inclined part 124 ensures the inclined direction of the inclined groove 121, which is conducive to improving the locking effect.
[0044] Specifically, such as Figure 3 As shown, the inclination angle of the inclined groove 121 is 60°-70°.
[0045] In this embodiment, to improve the locking effect of the locking member 13, the inclination angle A of the inclined groove 121 is preferably set to 60°-70°. Within this range, the force generated by the locking member 13 in the splicing direction during the locking process is most suitable, ensuring the splicing firmness without causing damage to the components due to excessive force. During operation, at this inclination angle, the locking member 13 and the inclined groove 121 fit more tightly, and the force generated during locking can effectively press the first splicing part 112 and the second splicing part 122 together. In a specific implementation, the inclination angle of the inclined groove 121 can be selected as 65°, which can better balance the locking force and the bearing capacity of other components.
[0046] Specifically, such as Figure 7 As shown, the locking component 13 is a pointed screw.
[0047] In this embodiment, to cooperate with the inclined groove 121, the locking member 13 is preferably selected as a pointed screw. The pointed end of the pointed screw is adapted to the inclined surface of the inclined groove 121, which facilitates the generation of a tension force f2 perpendicular to the inclined surface during the locking process. Furthermore, the pointed end design of the pointed screw makes it easier to position and guide the pointed screw when it is inserted into the inclined groove 121. At the same time, the thread structure of the pointed screw can generate a large frictional force between the screw hole 111 and the wall of the inclined groove 121, thereby achieving a firm locking effect.
[0048] Specifically, such as Figure 4-6 As shown, the first splicing bracket 11 is provided with a limiting groove 113, and the second splicing bracket 12 is provided with a limiting rib 125, which is embedded in the limiting groove 113.
[0049] In this embodiment, the limiting groove 113 is located in the middle region of the first splicing bracket 11 facing the splicing direction, and the limiting rib 125 is located in the middle region of the second splicing bracket 12 facing the splicing direction, with the limiting rib 125 protruding from the bracket body of the second splicing bracket 12. When splicing the first splicing bracket 11 and the second splicing bracket 12, the limiting rib 125 of the second splicing bracket 12 is aligned with the limiting groove 113 of the first splicing bracket 11, so that the limiting rib 125 is embedded in the limiting groove 113, preventing the two splicing brackets from shifting vertically or horizontally, thus achieving initial positioning of the two, and then performing the locking operation. This embodiment, through the cooperation of the limiting groove 113 and the limiting rib 125, limits the splicing direction and position of the first splicing bracket 11 and the second splicing bracket 12, preventing offset during splicing, ensuring that the screw hole 111 and the inclined groove 121 can be accurately aligned, facilitating the installation of the locking component 13, and further enhancing the stability after splicing, preventing relative displacement between the two during use.
[0050] In specific implementations, the limiting rib 125 can be set as a bent structure, which can be approximately regarded as a "7" shape. The limiting groove 113 is set as a bent groove corresponding to the shape of the limiting rib 125, thereby ensuring the stability of the fit. In other implementations, the limiting groove 113 can adopt a dovetail groove structure, and the limiting rib 125 adopts a shape that matches the dovetail groove to further improve the limiting effect.
[0051] Specifically, such as Figure 4-6 As shown, the first splicing bracket 11 is also provided with a locking member 114. The locking member 114 protrudes from the bracket body of the first splicing bracket 11, and the protruding direction is consistent with the extension direction of the first splicing part 112. The second splicing bracket 12 is provided with a locking groove 126 corresponding to the position of the locking member 114. The locking groove 126 is formed by bending the locking plate toward the bottom of the second splicing bracket 12. The locking member 114 is inserted into the locking groove 126 and locked by the bending part to prevent relative displacement of the two splicing brackets during use.
[0052] Specifically, such as Figure 9 As shown, splicing component 1 is set in two groups.
[0053] In this embodiment, to ensure a more stable splicing effect between the two splicing brackets, two sets of splicing components 1 can be provided to increase the connection points between the two splicing brackets, thereby improving the load-bearing capacity and stability of the entire splicing device and making the spliced structure more robust and reliable. During splicing, the two sets of splicing components 1 are aligned and connected respectively. The fitting of the limiting rib 125 and the limiting member and the locking member 13 are completed according to the splicing method of the above embodiment to ensure that both sets of splicing components 1 are firmly connected.
[0054] This embodiment improves the stability and reliability of the splicing device by setting two sets of splicing components 1, so that the splicing device can withstand greater external forces and is suitable for scenarios with high splicing strength requirements.
[0055] like Figure 8-9 As shown, this utility model embodiment also provides a lamp, which includes at least two lamp bodies 2 and a splicing device as described above. The splicing component 1 of the splicing device is installed on the lamp body 2, and the splicing device is used to splice at least two lamp bodies 2.
[0056] In this embodiment, the splicing function of the splicing device is used to connect multiple lamp bodies 2 together, realizing combined lighting to meet different lighting range and effect requirements. During operation, the splicing component 1 is installed on each lamp body 2, and then adjacent lamp bodies 2 are spliced and fixed together using the splicing device to form a complete lighting fixture. This embodiment, by installing the splicing component 1 of the splicing device on the lamp bodies 2, makes the combination of lighting fixtures more flexible. Different numbers of lamp bodies 2 can be spliced according to actual needs, and the splicing is firm, ensuring the stability and safety of the lighting fixture during use.
[0057] In practice, the lamp body 2 is an LED lamp body, and the splicing component 1 of the splicing device can be installed on the lamp body 2 by welding.
[0058] Specifically, such as Figure 1-2 and Figure 8 As shown, the splicing device also includes multiple fasteners 14. Multiple fixing holes 15 are provided on the first splicing bracket 11 and the second splicing bracket 12. Each fastener 14 passes through the corresponding fixing hole 15 and is connected to the corresponding lamp body 2.
[0059] In this embodiment, to securely install the splicing device on the lamp body 2, a first mounting part 115 is provided on the first splicing bracket 11, and a second mounting part 127 is provided on the second splicing bracket 12. Both the first mounting part 115 and the second mounting part 127 are provided with slots. By aligning the slots with the corresponding positions on the lamp body, the first splicing bracket 11 and the second splicing bracket 12 can be initially installed. Multiple fixing holes 15 are provided on both the first splicing bracket 11 and the second splicing bracket 12. Fixing members 14 pass through the corresponding fixing holes 15 to achieve a secure connection with the corresponding lamp body, thereby ensuring that there is no relative displacement between the splicing component 1 and the lamp body 2, and thus ensuring the stability of the entire lamp splicing. In a specific implementation, the fixing member 14 can be a fixing screw, and the fixing hole 15 can be a threaded hole. The fixing screw is inserted into the fixing hole 15 for threaded connection, thereby achieving fixation. In other application scenarios, the fixing member 14 can be a rivet, connecting the corresponding splicing bracket to the corresponding lamp body 2 by riveting.
[0060] Specifically, each lamp body 2 is provided with a set of splicing components 1 at its end, and two adjacent lamp bodies 2 are spliced together by two sets of splicing components 1.
[0061] In this embodiment, each lamp body end is provided with a set of splicing components 1, that is, each lamp body end is provided with a first splicing bracket 11 and a second splicing bracket 12, and the first splicing bracket 11 and the second splicing bracket 12 are arranged side by side on the same top or bottom of the end of the lamp body 2. Between adjacent lamp bodies 2, the first splicing bracket 11 in one lamp body 2 is installed corresponding to the second splicing bracket 12 of the other lamp body 2, so that the corresponding first splicing bracket 11 and second splicing bracket 12 between adjacent lamp bodies 2 form two sets of splicing components 1. By splicing the two sets of splicing components 1, the connection between adjacent lamp bodies 2 is more stable and the force is more even. This embodiment improves the splicing strength and stability between adjacent lamp bodies 2, and can ensure the integrity of the overall structure of the lamp even under external impact.
[0062] In other specific implementations, the first splicing bracket 11 and the second splicing bracket 12 can also be positioned at different locations at the ends of the lamp body 2. Specifically, the first splicing bracket 11 can be installed at the top of the lamp body 2, and the second splicing bracket 12 at the bottom. Adjacent lamp bodies 2 can have the second splicing bracket 12 installed at the top and the first splicing bracket 11 installed at the bottom. Two lamp bodies can also be spliced together using two sets of splicing components 1. The installation position of the splicing components 1 can be adjusted according to the shape of the lamp body 2 and usage requirements.
[0063] See Figure 10 As shown, the installation process of the splicing device on the lamp is as follows: prepare two splicing brackets, locking parts 13, and fixing parts 14 in advance. Figure 10In (a) of the diagram, two splicing brackets are installed side by side on the ends of the lamp body 2. Figure 10 (b) Then insert the fastener 14 and tighten the fixing hole 15 to fix the two splicing brackets to the lamp body 2. Figure 10 (c) Next, fix the two splicing brackets for the other lamp body 2 to be spliced in the same way as described above, then align the two lamp bodies 2 and splice them according to the corresponding splicing positions. Figure 10 (d) After the assembly is complete, the locking part 13 is placed into the screw hole 111 and the inclined groove 121, and then pressed with a screwdriver. Figure 10 The arrow (e) in the diagram indicates that the locking element 13 is locked in place. This splicing device is used to splice the lamp body 2, ensuring both a stylish appearance and the ability to quickly splice multiple lamp bodies 2. By tightening the locking element 13, the inclined grooves 121 of the two splicing brackets can quickly achieve the goal of seamless splicing between adjacent lamp bodies 2 in the lamp fixture.
[0064] 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 device of a luminaire, characterized by, It includes a splicing assembly and a locking component. The splicing assembly includes a first splicing bracket and a second splicing bracket. The first splicing bracket is provided with a screw hole, and the second splicing bracket is provided with a slanted groove. When the first splicing bracket and the second splicing bracket are spliced together, the screw hole and the inclined groove are connected, and the locking member extends into and locks into the screw hole and the inclined groove in sequence.
2. The splicing device of claim 1, wherein The first splicing bracket extends in the splicing direction and has a first splicing part, and the second splicing bracket extends in the splicing direction and has a second splicing part. The screw hole is provided on the first splicing part and the inclined groove is provided on the second splicing part. When the first splicing bracket and the second splicing bracket are spliced, the first splicing part covers the second splicing part.
3. The splicing device of claim 2, wherein The middle part of the second splicing part is hollowed out to form a hollow area. The second splicing part includes an inclined part, and the inclined groove is formed by the inclined part tilting from the splicing front end of the second splicing part towards the depth direction of the hollow area.
4. The splicing device of claim 3, wherein The inclination angle of the inclined groove is 60°-70°.
5. The splicing device according to claim 1, characterized in that, The locking component is a pointed screw.
6. The splicing device of claim 1, wherein The first splicing bracket is provided with a limiting groove, and the second splicing bracket is provided with a limiting rib, the limiting rib being embedded in the limiting groove.
7. The splicing device of claim 1, wherein The splicing components are configured in two sets.
8. A luminaire comprising at least two lamp bodies, characterized in that It also includes a splicing device as described in any one of claims 1-7, wherein the splicing components of the splicing device are mounted on the lamp body, and the splicing device is used to splice at least two of the lamp bodies.
9. The luminaire of claim 8, wherein, The splicing device also includes multiple fixing components. The first splicing bracket and the second splicing bracket are each provided with multiple fixing holes. Each fixing component passes through the corresponding fixing hole and is connected to the corresponding lamp body.
10. The luminaire of claim 8, wherein, Each lamp body has a set of splicing components at its end, and two adjacent lamp bodies are spliced together by two sets of splicing components.