A splicing lamp

By incorporating a light source into the connection module of the video wall light and ensuring that the light fixture module is flush with the side wall of the connection module, the problems of visual darkness and discontinuity in the video wall light are solved, achieving continuity and integrity of light, and improving the lighting effect and user experience.

CN224479569UActive Publication Date: 2026-07-10ZHEJIANG NVC LAMPS

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG NVC LAMPS
Filing Date
2025-07-01
Publication Date
2026-07-10

Smart Images

  • Figure CN224479569U_ABST
    Figure CN224479569U_ABST
Patent Text Reader

Abstract

The utility model provides a kind of spliced lamp, comprising: lamp tube module, for multiple, first light source is equipped in the lamp tube module, the two ends of the lamp tube module are inwardly concave and form socket, first plug is equipped in the socket;Connecting module, for multiple, second light source identical with the light emitting direction of the first light source is equipped in the connecting module, the lateral wall of the connecting module is equipped with at least two and the cross-sectional shape of the socket is identical with the plug-in part, the plug-in part can be inserted into the socket and realize connection, the end of the plug-in part is equipped with second plug, the first plug and one of the first plug are male plug, another is female plug and can realize electric connection, the lateral wall of one of the connecting module is equipped with power interface and as power access end.The utility model spliced lamp, compact structure, splicing is convenient, and lamp is good consistency.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to a lamp, and more particularly to a splicing lamp. Background Technology

[0002] Movable lighting is widely used as a flexible and versatile lighting solution. It consists of lighting modules and connection modules. The lighting modules provide the lighting function, while the connection modules are used to connect the lighting modules to each other.

[0003] Existing connection modules, acting as connectors, only connect without emitting light, causing visually dark areas or a sense of discontinuity in the spliced ​​lighting fixtures. They optically break up what should be a continuous light-emitting surface, a fundamental flaw affecting the final lighting effect and user experience, specifically manifested in the following ways:

[0004] 1. Optical tomography: Even if the edges of the two light modules are very bright, the light cannot effectively "cross" this non-luminous connection area. The human eye is extremely sensitive to the contrast between light and dark, and a thin, non-luminous line will be unusually conspicuous against a uniform light background (especially against a light-colored wall / ceiling background).

[0005] 2. Disruption of the user experience: It disrupts the "unity" and "smoothness" of the lighting design, especially in linear lights and rimless pre-installed lighting, creating a jarring and disjointed feel. Obvious dark areas make users feel that the product is poorly made and carelessly designed, resulting in a cheap impression. Furthermore, light fixtures that should "disappear" (such as the effect of seeing the light but not the lamp) become visual focal points due to the dark areas, affecting the overall lighting effect. Summary of the Invention

[0006] The technical problem to be solved by this utility model is to provide a splicing lamp that makes the light form a continuous whole, has good integration and lighting effect.

[0007] This utility model provides a splicing light, including:

[0008] There are multiple lamp tube modules 1. Each lamp tube module 1 has a first light source inside. Both ends of the lamp tube module 1 are recessed inward to form a socket. Each socket has a first plug inside.

[0009] Multiple connection modules are provided. Each connection module has a second light source with the same light emission direction as the first light source. The side wall of each connection module has at least two plug-in parts with the same cross-sectional shape as the socket. The plug-in parts can be inserted into the socket and connected. The end of each plug-in part has a second plug. One of the first plugs is a male plug and the other is a female plug and can be electrically connected. The side wall of one of the connection modules has a power interface and serves as a power input terminal.

[0010] Compared to existing technologies, by integrating a light source into the connection module, visual dark areas are eliminated, ensuring continuous light and improving lighting effects and user experience. This achieves a sense of unity and fluidity in the lighting design, resulting in excellent lighting performance.

[0011] Furthermore, the lamp module 1 and the connecting module are joined to form a rectangle; the rectangular structure has a simple and beautiful overall shape, which is more in line with modern home aesthetics, and the splicing method is flexible and can be freely combined according to space requirements.

[0012] Furthermore, the sidewall of the connecting module is flush with the sidewall of the lamp tube module 1, so that the connecting module and the lamp body module form an integral structure. On the one hand, this improves the visual integrity and structural stability of the lamp and avoids the problems of loosening and falling off at the splicing point. On the other hand, it also makes the light source after it emits light form a continuous whole, further improving the uniformity of light. Especially at the connection point between the two, it eliminates abruptness and obvious dark areas, ensuring the continuity and consistency of light.

[0013] Furthermore, the end of the lamp module 1 is fitted with the end of the connecting module, reducing the gap between the lamp module and the connecting module, making the light transition more natural and avoiding shadows caused by the gap.

[0014] Furthermore, the distance between the first light source and the second light source is less than or equal to 10mm to achieve seamless connection between the two light sources, ensure uniform light distribution, avoid the uneven brightness of traditional lamps, and improve the user experience.

[0015] Furthermore, the first light source and the second light source have the same width, making the overall light source more visually unified, avoiding the visual disjointedness caused by width differences, further enhancing the overall aesthetics and harmony of the lamp, and improving user satisfaction.

[0016] Furthermore, the lamp module 1 includes a strip-shaped lamp housing 11 with an open lower end. The inner wall of the lamp housing 11 has a slot 111 along its length, and an LED strip 12 facing the open end is provided in the slot 111. The lower light-emitting end of the lamp housing 11 has a light-transmitting first cover 13. Lamp holders are fixed at both ends of the lamp housing 11, and the socket and the first plug are disposed on the lamp holders. It is convenient to process, manufacture and assemble, improves the reliability and durability of the product, reduces production costs, and facilitates later maintenance and replacement.

[0017] Furthermore, the connection module includes a connection housing 21 with an open lower end. An LED light panel 26 facing the open end is provided inside the connection housing 21, and a light-transmitting second cover 25 is provided at the open end of the connection housing 21.

[0018] Furthermore, the first light source is the same as the second light source, that is, the same type of LED light strip 12 and LED light board 26 are used to ensure the consistency of the light source, that is, the brightness and color temperature are the same, avoiding visual discomfort caused by different light sources and improving the overall lighting effect.

[0019] Furthermore, the shape of the LED light panel 26 is the same as the cross-sectional shape of the connecting housing 21, thereby matching the width of the LED light panel 26 with that of the LED light strip 12 and avoiding the feeling of discontinuity at the connection caused by the width difference.

[0020] Furthermore, the connection module includes at least four main connection modules 2a. The side wall of each main connection module 2a has two plug-in parts. The angle between the two plug-in parts is 90 degrees and forms an L-shaped structure, which can be spliced ​​into a rectangular structure. This structure is suitable for lighting needs in different scenarios and enhances the flexibility and applicability of the lamp.

[0021] Furthermore, the connection module also includes a secondary connection module, which can be one or more of the following shapes: straight, T-shaped, and cross-shaped. The appropriate shape can be selected according to different lighting needs to achieve multiple combination methods, meet diverse lighting layouts, further improve the adaptability and aesthetics of the lamps, enrich the possibilities of lighting design, and optimize the user experience.

[0022] Furthermore, elastic buckles 211 are provided on both sides of the plug-in part, and the inner wall of the plug is provided with a slot 142 corresponding to the elastic buckles 211; the connection through the elastic buckles 211 ensures a firm connection and convenient disassembly and assembly, improves the stability of the overall structure, reduces the failure rate caused by loose connection, extends service life, and simplifies the installation process.

[0023] Furthermore, the top of the lamp tube housing 11 is provided with a first mounting groove 113 for installing the first connector 3 and / or the two sides of the lamp tube housing 11 are provided with second mounting grooves 114 for installing the second connector 4, which can realize hanging installation or embedded installation, with diversified installation methods to meet the needs of different scenarios and improve the convenience and aesthetics of the lamp.

[0024] This utility model of a splicing light eliminates visual dark areas by integrating a light source into the connecting module, ensuring continuous light and improving lighting effects and user experience. It achieves a unified and streamlined design, resulting in excellent lighting performance. The sidewall of the connecting module is flush with the sidewall of the lamp module, forming a unified structure with the lamp body module. This improves the overall visual integrity and structural stability of the lamp, preventing loosening and detachment at the joints. Furthermore, it ensures that the emitted light source forms a continuous whole, further enhancing the uniformity of the light. This utility model of a splicing light is compact, easy to assemble, and exhibits good consistency among the lamps. Attached Figure Description

[0025] Figure 1 This is a schematic diagram of the structure of the splicing lamp of this utility model;

[0026] Figure 2 This is an exploded structural diagram of the splicing lamp of this utility model;

[0027] Figure 3 This is an exploded structural diagram of the lamp tube module of the splicing lamp of this utility model;

[0028] Figure 4 This is a schematic diagram of the elastic buckle structure of the splicing light of this utility model;

[0029] Figure 5 This is a cross-sectional view of the lamp tube module of the splicing lamp of this utility model;

[0030] Figure 6 This is a structural schematic diagram of the main connection module of the splicing lamp of this utility model;

[0031] Figure 7 This is a schematic diagram of the main connection module of the splicing light of this utility model from another angle;

[0032] Figure 8 This is an exploded structural diagram of the main connecting module of the splicing lamp of this utility model;

[0033] Figure 9 This is a schematic diagram of the linear secondary connection module of the splicing light of this utility model;

[0034] Figure 10 This is a structural schematic diagram of the T-shaped secondary connection module of the splicing light of this utility model;

[0035] Figure 11 This is a structural schematic diagram of the cross-shaped sub-connecting module of the splicing light of this utility model;

[0036] Figure 12 This is a schematic diagram of the structure of the first connecting member of the splicing lamp of this utility model;

[0037] Figure 13This is a schematic diagram of the structure of the second connecting member of the splicing lamp of this utility model;

[0038] Figure 14 This is a schematic diagram of the splicing structure of Embodiment 2 of the splicing lamp of this utility model;

[0039] Figure 15 This is a schematic diagram of the splicing structure of Embodiment 3 of the splicing lamp of this utility model;

[0040] Figure 16 This is a schematic diagram of the splicing structure of Embodiment 4 of the splicing lamp of this utility model. Detailed Implementation

[0041] The embodiments of this utility model will now be described in detail with reference to the accompanying drawings.

[0042] See Figures 1-16 This utility model provides a splicing lamp, including a lamp tube module 1 and a connecting module. The lamp tube modules 1 are interconnected through the connecting module to form lamps of different sizes and specifications.

[0043] The lamp module 1 serves as the main light source of the lamp fixture and consists of multiple modules. Each lamp module 1 contains a first light source, which is an LED light source. Both ends of the lamp module 1 are recessed inwards to form sockets, and a first plug is located within each socket. Multiple connection modules are also present, each containing a second light source, also an LED light source, with the same light emission direction as the first light source. At least two insertion portions 23 are provided on the side wall of the connection module. The insertion portions 23 have the same cross-sectional shape as the sockets, allowing them to be inserted precisely into the sockets for a mechanical (physical) connection. To ensure quick and accurate connection, a positioning structure for radial positioning, such as a trapezoidal structure, is provided between the insertion portions and the sockets to restrict the insertion direction and prevent incorrect insertion. A second plug is located at the end of each insertion portion, allowing the first plug and the second plug to be interlocked. Specifically, the first plug… One of the first plugs is male and the other is female, thus enabling electrical connection. For example, if the first plug is male, then the corresponding second plug is female, or vice versa. One of the connection modules has a power interface 24 on its side wall as a power input terminal. The power interface 24 can be a male or female plug with the same specifications as the first or second plug. Compared with the prior art, by building a light source into the connection module, the visual dark area is eliminated, ensuring continuous light, improving the lighting effect and user experience, realizing the integration and smoothness of the lamp design, and achieving good lighting effect.

[0044] To facilitate assembly, elastic buckles 211 are provided on both sides of the plug-in part. At the same time, a corresponding slot is provided on the inner wall of the plug-in. The connection is made through the elastic buckles 211, which ensures a firm connection and convenient assembly and disassembly, improves the stability of the overall structure, reduces the failure rate caused by loose connection, extends service life, simplifies the installation process, and facilitates assembly and disassembly.

[0045] In this application, the lamp module 1 is a straight line, which forms a rectangular frame structure after being spliced ​​with the connecting module. The overall shape is simple and beautiful, which is more in line with the aesthetics of modern homes. Moreover, the splicing method is flexible and can be freely combined according to space requirements.

[0046] The connection module includes at least four main connection modules 2a. The side wall of each main connection module 2a has two plug-in parts with an included angle of 90 degrees, forming an L-shaped structure that can be assembled into a rectangular structure. Specifically, the four main connection modules 2a and four lamp modules can be assembled into the smallest unit of lighting fixture, which is a square structure. The connection module also includes secondary connection modules, which are one or more of the following shapes: straight, T-shaped, and cross-shaped.

[0047] The shape is straight, see below. Figure 9 It is a straight line and is used to connect two lamp modules located on the same straight line. Its side wall has two second plugs, which are located on the same straight line.

[0048] T-shape, see reference Figure 10 It is T-shaped and used to connect three lamp modules. There are three second plugs on the side wall, which are distributed in a T-shape.

[0049] Cross shape, see reference Figure 11 It is arranged in a cross shape, connecting four lamp modules, and has four second plugs, which are evenly distributed around the perimeter to form a cross-shaped structure.

[0050] Through the different combinations of the above-mentioned connection modules, the luminaires can flexibly adapt to various spatial layouts, select appropriate shapes according to different lighting needs, realize multiple combination methods, meet diverse lighting layouts, further enhance the adaptability and aesthetics of the luminaires, enrich the possibilities of lighting design, and optimize the user experience.

[0051] For optimal visual appeal, in this application, the sidewall of the connecting module is flush with the sidewall of the lamp tube module 1, forming a unified structure between the connecting module and the lamp body module. This improves the overall visual integrity and structural stability of the lamp, preventing loosening and detachment at the joints. Furthermore, it creates a continuous light source, enhancing the uniformity of light, especially at the connection point, eliminating abruptness and noticeable dark areas, ensuring the continuity and consistency of light. Simultaneously, the end of the lamp tube module 1 fits snugly against the end of the connecting module, reducing the distance between them and allowing for a more natural light transition, avoiding shadows caused by the gap. Preferably, the distance between the first light source and the second light source is less than or equal to 10mm, achieving seamless connection between the two light sources, ensuring uniform light distribution, avoiding the uneven brightness of traditional lamps, and improving the user experience.

[0052] To further enhance the overall aesthetics and harmony, the first and second light sources are made to have the same width, making the overall light source more visually unified and avoiding the visual disjointedness caused by width differences. This further enhances the overall aesthetics and harmony of the lighting fixtures and improves user satisfaction.

[0053] In this application, the lamp module 1 includes a strip-shaped lamp housing 11 with a rectangular cross-section. The lower end (light-emitting surface) of the lamp housing 11 is open, facing downwards and serving as the light-emitting surface during use. The inner wall of the lamp housing 11 has slots 111 along its length, and an LED strip 12 is installed within these slots. The LED strip includes a strip-shaped light plate with LED beads evenly arranged on it. The light-emitting surface of the LED strip faces the open end. A light-transmitting first cover 13 is provided at the lower light-emitting end of the lamp housing 11. Lamp holders 14 are fixed at both ends of the lamp housing 11, with sockets and first plugs mounted on the lamp holders. This design facilitates processing, manufacturing, and assembly, improving product reliability and durability, reducing production costs, and facilitating subsequent maintenance and replacement.

[0054] In this embodiment, the lamp tube housing 11 is made of profile, and connection holes 112 are provided on the two inner walls of the lamp tube housing for fixing the lamp holder 14 by bolts.

[0055] The connection module includes a connection housing 21 with an open lower end (light-emitting surface). An LED light panel 26 is provided inside the connection housing 21, with LED beads facing the open end. The LED beads are evenly arranged, and the spacing is consistent with the spacing of the LED beads on the LED light strip, so that the overall light source is visually seamless and avoids uneven brightness caused by different light source spacing. The open end of the connection housing 21 is provided with a light-transmitting second cover 25. The second cover 25 is made of the same material as the first cover and has the same appearance effect and light transmittance.

[0056] In this application, the shape of the LED light board 26 is the same as the cross-sectional shape of the connecting housing 21, thereby matching the width of the LED light board 26 with that of the LED light strip 12 and avoiding the feeling of discontinuity at the connection caused by the width difference.

[0057] To further enhance the overall visual effect of the light source, the first light source in this application is the same as the second light source, that is, the same type of LED light strip 12 and LED light board 26 are used to ensure the consistency of the light source, that is, the brightness and color temperature are the same, avoiding visual discomfort caused by different light sources. At the same time, the LED beads are evenly arranged at the same distance, which improves the overall lighting effect.

[0058] To meet different installation requirements, a first mounting groove 113 for installing the first connector 3 is provided on the top of the lamp tube housing 11. At the same time, a second mounting groove 114 for installing the second connector 4 is provided on both sides of the lamp tube housing 11. This allows for hanging or recessed installation, providing diverse installation methods to meet the needs of different scenarios and improving the ease of use and aesthetics of the lamp.

[0059] See Figure 5 and see Figure 12 The lamp tube housing 11 is made of profile material. The first mounting groove 113 is an inverted T-shaped groove set on its top. The lower end of the first connector is provided with a T-shaped locking block 31 that can be inserted into the T-shaped groove. During installation, it slides in from one end of the first mounting groove. At the same time, a screw hole 32 is passed through the center of the locking block for connecting bolts from top to bottom. The end of the bolt is pressed against the top surface of the lamp tube housing 11 to achieve fixation, which can realize the hanging installation.

[0060] See Figure 5 and Figure 13 The second connector is L-shaped and is located at the corner of the rectangle. It includes a socket groove 40 into which the top corner of the lamp fits from bottom to top. A snap-fit ​​structure 41 is provided on the side wall of the socket groove, which can be snapped into the second mounting groove 114 on the side wall of the lamp housing, thus enabling embedded installation.

[0061] This utility model of a splicing light eliminates visual dark areas by integrating a light source into the connecting module, ensuring continuous light and improving lighting effects and user experience. It achieves a unified and streamlined design, resulting in excellent lighting performance. The sidewall of the connecting module is flush with the sidewall of the lamp module, forming a unified structure with the lamp body module. This improves the overall visual integrity and structural stability of the lamp, preventing loosening and detachment at the joints. Furthermore, it ensures that the emitted light source forms a continuous whole, further enhancing the uniformity of the light. This utility model of a splicing light is compact, easy to assemble, and exhibits good consistency among the lamps.

[0062] The above description is only a preferred embodiment of the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the technical principles of the present utility model, and these improvements and modifications should also be considered within the protection scope of the present utility model.

Claims

1. A type of splicing light, characterized in that, include: The lamp module comprises multiple lamps, each containing a first light source. Both ends of the lamp module are recessed inward to form a socket, and a first plug is provided inside the socket. Multiple connection modules are provided. Each connection module has a second light source with the same light emission direction as the first light source. The side wall of each connection module has at least two plug-in parts with the same cross-sectional shape as the socket. The plug-in parts can be inserted into the socket and connected. The end of each plug-in part has a second plug. One of the first plugs is a male plug and the other is a female plug and can be electrically connected. The side wall of one of the connection modules has a power interface and serves as a power input terminal.

2. The splicing light as described in claim 1, characterized in that: The lamp module and the connecting module are joined together to form a rectangle.

3. The splicing light as described in claim 1, characterized in that: The sidewall of the connecting module is flush with the sidewall of the lamp module.

4. The splicing light as described in claim 1, characterized in that: The end of the lamp module is attached to the end of the connecting module, and the distance between the first light source and the second light source is less than or equal to 10mm.

5. The splicing light as described in claim 1, characterized in that: The first light source and the second light source have the same width.

6. The splicing light as described in claim 1, characterized in that: The lamp module includes a strip-shaped lamp housing with an open lower end. The inner wall of the lamp housing has a slot along its length, and an LED strip facing the open end is provided in the slot. The lower light-emitting end of the lamp housing has a light-transmitting first cover. Lamp holders are fixed at both ends of the lamp housing, and the socket and the first plug are disposed on the lamp holders.

7. The splicing light as described in claim 1, characterized in that: The connection module includes a connection housing with an open lower end. An LED light panel facing the open end is provided inside the connection housing, and a light-transmitting second cover is provided at the open end of the connection housing.

8. The splicing light as described in claim 7, characterized in that: The shape of the LED light panel is the same as the cross-sectional shape of the connecting housing.

9. The splicing light as described in claim 1, characterized in that: The connection module includes at least four main connection modules. The side wall of each main connection module is provided with two plug-in parts, and the included angle between the two plug-in parts is 90 degrees, forming an L-shaped structure.

10. The splicing light as described in claim 9, characterized in that: The connection module also includes a sub-connection module, which is one or more of the following: straight, T-shaped, and cross-shaped.