An assembled decorative light strip integrated structure
Through the design of the base structure and snap-fit structure, the problem that traditional wall panel light strips cannot be used with light strips of different heights and staggered positions is solved, achieving efficient and stable light strip installation and diversified decorative effects.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- QINGDAO HAIER HOME INTEGRATION
- Filing Date
- 2025-06-12
- Publication Date
- 2026-07-03
Smart Images

Figure CN224452095U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of decoration technology, and in particular relates to an integrated structure for prefabricated decorative light strips. Background Technology
[0002] Traditional wall decoration typically relies on paint, wallpaper, and wainscoting, offering limited functionality. With advancements in decoration technology, lighting has become an important means of enhancing the ambiance of a space. Wall panel lighting strips combine light sources with wall decoration materials, satisfying both aesthetic and lighting needs.
[0003] As interior design evolves towards personalization and intelligence, users' demands for wall panel lighting strips are also diversifying, such as staggered lighting strip designs at different heights. Traditional wall panel lighting strips typically use flat wall panels for splicing, with clips securing the strips between adjacent panels. However, this structure is unsuitable for designs with staggered lighting strips at different heights, thus failing to meet users' decorative needs. Utility Model Content
[0004] Based on the above background, the purpose of this utility model is to provide an integrated structure for prefabricated decorative light strips that can be adapted to the design of staggered light strips at different heights, effectively meeting the decorative needs of users.
[0005] To achieve the above objectives, the present invention adopts the following technical solution:
[0006] An integrated structure for prefabricated decorative light strips includes: a base structure for installation on a wall, comprising a first base layer and a second and third base layers located on opposite sides of the first base layer, the second and third base layers being higher than the first base layer; a snap-fit structure including a first snap-fit component and a second snap-fit component, the first and second snap-fit components being respectively attached to the opposite sides of the second and third base layers, the two ends of the first snap-fit component being located on the surfaces of the first and second base layers respectively, the two ends of the second snap-fit component being located on the surfaces of the first and third base layers respectively, the first snap-fit component having a first groove on the side facing the first base layer, and the second snap-fit component having a second groove on the side facing away from the third base layer, both the first and second grooves being used for installing light strips; and a decorative panel assembly including a first panel, a second panel, and a third panel, the first panel being disposed on the surface of the first base layer and snap-fitted between the first and second snap-fit components, the second panel being disposed on the surface of the second base layer and snap-fitted with the first snap-fit component, and the third panel being disposed on the surface of the third base layer and snap-fitted with the second snap-fit component.
[0007] Furthermore, the first snap-fit assembly includes a first side and a first snap-fit member and a second snap-fit member disposed at both ends of the first side. The first side is attached to the side of the second base layer. The first snap-fit member is disposed on the surface of the first base layer and snaps into the first plate. The second snap-fit member is disposed on the surface of the second base layer and snaps into the second plate. The first fastening groove is disposed on the side of the second snap-fit member facing the first base layer.
[0008] Furthermore, the first snap-fit assembly includes a first snap-fit edge, which is disposed on the side of the second snap-fit member facing the first base layer, and forms the first snap-fit groove between the first snap-fit edge and the first side edge.
[0009] Furthermore, the first snap-fit component includes a first snap-fit edge and a second snap-fit edge spaced apart on the first side, and one end of the first plate snaps onto the first snap-fit edge and the second snap-fit edge.
[0010] Furthermore, the second snap-fit component includes a connecting edge and a third snap-fit edge and a fourth snap-fit edge spaced apart from the connecting edge. The third snap-fit edge is located at one end of the first side plate, and one end of the second plate is snapped into the third snap-fit edge and the fourth snap-fit edge.
[0011] Furthermore, the second snap-fit assembly includes a second side and a third snap-fit member and a fourth snap-fit member disposed at both ends of the second side. The second side is attached to the side of the third base layer. The third snap-fit member is disposed on the surface of the first base layer and snaps into the first plate. The fourth snap-fit member is disposed on the surface of the third base layer and snaps into the third plate. The second fastening groove is disposed on the side of the second side facing away from the third base layer.
[0012] Furthermore, the second snap-fit assembly includes a second snap-fit edge, which is disposed on the side of the second side facing away from the third base layer, and forms a second snap-fit groove with the third snap-fit member.
[0013] Furthermore, the third snap-fit component includes a fifth snap-fit edge and a sixth snap-fit edge spaced apart on the second side, and one end of the first plate snaps onto the fifth snap-fit edge and the sixth snap-fit edge.
[0014] Furthermore, the fourth snap-fit component includes a seventh snap-fit edge and an eighth snap-fit edge spaced apart on the second side, and one end of the third plate snaps onto the seventh snap-fit edge and the eighth snap-fit edge.
[0015] Furthermore, the snap-fit structure also includes a first edge clip, which is disposed on the surface of the second base layer. The surface of the first edge clip facing away from the second base layer is provided with a third snap groove for installing the light strip, and the side of the first edge clip facing the first snap-fit assembly is provided with a first slot, and one end of the second plate is snapped into the first slot.
[0016] Furthermore, the snap-fit structure also includes a second edge snap-fit and a middle snap-fit. The number of third plates is at least two, and each third plate is spaced apart on the surface of the third base layer. The middle snap-fit is snapped between two adjacent third plates. The surface of the middle snap-fit facing away from the third base layer is provided with a fourth snap-fit groove for installing the light strip. The second edge snap-fit is located at the end of the third base layer away from the first base layer. The surface of the second edge snap-fit facing away from the third base layer is provided with a fifth snap-fit groove for installing the light strip. The side of the second edge snap-fit facing the third plate is provided with a second snap-fit groove.
[0017] Furthermore, the second base layer includes a bottom plate, a top plate, and two side plates spaced apart on the bottom plate, the top plate being connected between the two side plates, and the second plate being disposed on the top plate.
[0018] This utility model has the following beneficial effects:
[0019] (1) During the installation of the light strip, the second base layer, the first base layer, and the third base layer can be installed on the wall in sequence, so that the second base layer and the third base layer are both higher than the first base layer, providing a structural basis for realizing the staggered light strip design at different heights. Next, the first snap-fit component and the second snap-fit component are respectively snapped onto the two sides of the second base layer and the third base layer facing each other, so that one end of the first snap-fit component and one end of the second snap-fit component are both set on the surface of the first base layer, and the other end of the first snap-fit component and the other end of the second snap-fit component are respectively set on the surface of the second base layer and the surface of the third base layer; then, the first plate is set on the first base layer and snapped between the first snap-fit component and the second snap-fit component, and the second plate and the third plate are respectively set on the surface of the second base layer and the third base layer, and are correspondingly snapped onto the first snap-fit component and the second snap-fit component. Since the first snap-fit component and the second snap-fit component are respectively provided with the first snap-fit groove and the second snap-fit groove, each light strip can be snapped into the first snap-fit groove and the second snap-fit groove in sequence to complete the design of staggered light strips at different heights. In this way, through this integrated structure, it is convenient to apply the design of staggered light strips at different heights, effectively meeting the user's decoration needs.
[0020] (2) The first snap-fit assembly is designed as a first side, a first snap-fit piece, and a second snap-fit piece. The first side makes it easier for the first snap-fit assembly to fit into the staggered position between the first base layer and the second base layer. At the same time, the first snap-fit piece and the second snap-fit piece are located on the surfaces of the first base layer and the second base layer, respectively, which facilitates the stable and quick fixing of the first plate and the second plate to the first base layer and the second base layer, and helps to improve the installation efficiency of the light strip.
[0021] (3) A first snap-fit edge is provided on the side of the first snap-fit component facing the first base layer, so as to facilitate the stable formation of a first snap-fit groove between the first snap-fit edge and the first side edge. In this way, the light strip can be quickly fixed on the first snap-fit component through the first snap-fit groove, which is conducive to improving the installation efficiency of the light strip; at the same time, it can realize the inward setting of the light strip at the staggered layer position, which is conducive to meeting the diverse needs of users for light strip decoration.
[0022] (4) The first snap-fit component is designed with a first snap-fit edge and a second snap-fit edge spaced apart on the first side, so that when the first plate is installed, only one end of the first plate needs to be inserted between the first snap-fit edge and the second snap-fit edge to fix the first plate stably on the first base layer, which is beneficial to improving the installation efficiency of the light strip. Attached Figure Description
[0023] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on the structures shown in these drawings without creative effort.
[0024] Figure 1 This is a schematic diagram of the prefabricated decorative light strip integrated structure described in one embodiment;
[0025] Figure 2 This is a schematic diagram of the base structure installed on the wall in one embodiment;
[0026] Figure 3 This is a schematic diagram of the structure between the first snap-fit component, the second snap-fit component, and the first plate as described in one embodiment;
[0027] Figure 4 This is a schematic diagram illustrating the engagement of the second plate with the first edge clip in one embodiment;
[0028] Figure 5 This is a schematic diagram illustrating the cooperation between the second plate, the second edge clip, and the middle clip in one embodiment.
[0029] Explanation of icon numbers:
[0030] 100. Base layer structure; 110. First base layer; 120. Second base layer; 121. Base plate; 122. Side plate; 123. Top plate; 130. Third base layer; 200. First snap-fit assembly; 210. First side edge; 220. First snap-fit piece; 221. First snap-fit edge; 222. Second snap-fit edge; 230. Second snap-fit piece; 231. Connecting edge; 232. Third snap-fit edge; 233. Fourth snap-fit edge; 240. First fastening edge; 250. First fastening groove; 300. Second snap-fit assembly; 310. Second side edge; 320. Three-piece fastener; 321, Fifth edge clip; 322, Sixth edge clip; 330, Fourth fastener; 331, Seventh edge clip; 332, Eighth edge clip; 340, Second snap-on edge; 350, Second snap-on groove; 400, Decorative panel assembly; 410, First panel; 420, Second panel; 430, Third panel; 500, First edge clip; 510, First slot; 520, Third slot; 600, Second edge clip; 610, Second slot; 620, Fifth slot; 700, Middle clip; 710, Fourth slot; 800, Wall.
[0031] The realization of the purpose, functional features and advantages of this utility model will be further explained in conjunction with the embodiments and with reference to the accompanying drawings. Detailed Implementation
[0032] 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, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0033] It should be noted that all directional indicators (such as up, down, left, right, front, back, etc.) in this utility model embodiment are only used to explain the relative positional relationship and movement of each component in a certain specific posture (as shown in the figure). If the specific posture changes, the directional indicator will also change accordingly.
[0034] Furthermore, in this utility model, descriptions involving "first," "second," etc., are for descriptive purposes only and should not be construed as indicating or implying their relative importance or implicitly specifying the number of technical features indicated. Therefore, a feature defined with "first" or "second" may explicitly or implicitly include at least one of that feature. Additionally, the technical solutions of the various embodiments can be combined with each other, but only on the basis of being achievable by those skilled in the art. When the combination of technical solutions is contradictory or impossible to implement, such a combination of technical solutions should be considered non-existent and not within the scope of protection claimed by this utility model.
[0035] In one embodiment, please refer to Figures 1 to 5 This application provides an integrated structure for prefabricated decorative light strips, comprising: a base structure 100 for installation on a wall 800, including a first base 110 and a second base 120 and a third base 130 located on opposite sides of the first base 110, wherein the second base 120 and the third base 130 are both higher than the first base 110; and a snap-fit structure including a first snap-fit component 200 and a second snap-fit component 300, the first snap-fit component 200 and the second snap-fit component 300 being respectively attached to the opposite sides of the second base 120 and the third base 130, the two ends of the first snap-fit component 200 being located on the surface of the first base 110 and the surface of the second base 120, and the two ends of the second snap-fit component 300 being located on the surface of the first base 110 and the second base 120, respectively. The surface of the first base layer 110 and the surface of the third base layer 130 are connected. The first snap-fit component 200 has a first snap-fit groove 250 on the side facing the first base layer 110, and the second snap-fit component 300 has a second snap-fit groove 350 on the side facing away from the third base layer 130. Both the first snap-fit groove 250 and the second snap-fit groove 350 are used to install light strips. The decorative panel assembly 400 includes a first panel 410, a second panel 420 and a third panel 430. The first panel 410 is disposed on the surface of the first base layer 110 and snapped between the first snap-fit component 200 and the second snap-fit component 300. The second panel 420 is disposed on the surface of the second base layer 120 and snapped with the first snap-fit component 200. The third panel 430 is disposed on the surface of the third base layer 130 and snapped with the second snap-fit component 300.
[0036] The integrated structure described above allows the second base layer 120, the first base layer 110, and the third base layer 130 to be sequentially installed on the wall 800 during the installation of the light strip. This ensures that the second base layer 120 and the third base layer 130 are both higher than the first base layer 110, providing a structural basis for achieving staggered light strip designs at different heights. Next, the first snap-fit component 200 and the second snap-fit component 300 are respectively snapped onto the two opposing sides of the second base layer 120 and the third base layer 130, such that one end of the first snap-fit component 200 and one end of the second snap-fit component 300 are both located on the surface of the first base layer 110, and the other ends of the first snap-fit component 200 and the second snap-fit component 300 are respectively located on the surfaces of the second base layer 120 and the third base layer 130. Then, the first plate 410 is placed on the first base layer 110 and snapped between the first snap-fit component 200 and the second snap-fit component 300. The second plate 420 and the third plate 430 are respectively placed on the surfaces of the second base layer 120 and the third base layer 130 and are correspondingly snapped onto the first snap-fit component 200 and the second snap-fit component 300. Since the first snap-fit component 200 and the second snap-fit component 300 are respectively provided with the first latching groove 250 and the second latching groove 350, each light strip can be sequentially snapped into the first latching groove 250 and the second latching groove 350 to complete the design of staggered light strips at different heights. Thus, this integrated structure facilitates the design of staggered light strips at different heights, effectively meeting users' decorative needs.
[0037] It should be explained that the base structure 100 refers to the supporting foundation provided for the installation of the decorative panel assembly 400 and the light strip on the wall 800. To accommodate users' designs for staggered light strips at different heights, the second base layer 120 and the third base layer 130 are both higher than the first base layer 110, creating a staggered structure between the first base layer 110 and the second base layer 120, and between the first base layer 110 and the third base layer 130. Simultaneously, to facilitate the fixing of the decorative panel assembly 400, the first snap-fit component 200 can be disposed on the side of the second base layer 120, with its two ends respectively located on the surfaces of the first base layer 110 and the second base layer 120. Thus, when the first plate 410 and the second plate 420 are respectively attached to the surfaces of the first base layer 110 and the second base layer 120, the first plate 410 and the second plate 420 are snapped into the two ends of the first snap-fit component 200. There are multiple ways in which the first plate 410 and the second plate 420 are engaged with the first snap-fit assembly 200. For example, the first snap-fit assembly 200 may have slot-shaped structures at both ends, and the first plate 410 and the second plate 420 may be inserted into the slot-shaped structures respectively; or, the first snap-fit assembly 200 may have convex structures at both ends, and the first plate 410 and the second plate 420 may have slot-shaped structures for the convex structures to be inserted into.
[0038] Similarly, when the third plate 430 is attached to the surface of the third base layer 130, the third plate 430 is snapped into both ends of the second snap-fit assembly 300. There are several ways the third plate 430 and the second snap-fit assembly 300 can be snapped together. For example, the second snap-fit assembly 300 may have a groove-like structure into which the third plate 430 is inserted; or the second snap-fit assembly 300 may have a convex structure into which the third plate 430 has a groove-like structure for the convex structure to be inserted.
[0039] It should also be explained that the first snap-fit assembly 200 and the second snap-fit assembly 300 can be connected to the first base layer 110, the second base layer 120 and the third base layer 130 in various ways, such as, but not limited to, bolt connection, welding, riveting, etc.
[0040] Further, please refer to Figure 3 The first snap-fit assembly 200 includes a first side 210 and a first snap-fit member 220 and a second snap-fit member 230 disposed at both ends of the first side 210. The first side 210 is attached to the side of the second base layer 120. The first snap-fit member 220 is disposed on the surface of the first base layer 110 and snaps into the first plate 410. The second snap-fit member 230 is disposed on the surface of the second base layer 120 and snaps into the second plate 420. A first fastening groove 250 is disposed on the side of the second snap-fit member 230 facing the first base layer 110. It can be seen that by designing the first snap-fit assembly 200 as a first side 210, a first snap-fit member 220, and a second snap-fit member 230, the first side 210 makes it easier for the first snap-fit assembly 200 to fit into the staggered position between the first base layer 110 and the second base layer 120. Meanwhile, the first snap-fit component 220 and the second snap-fit component 230 are located on the surfaces of the first base layer 110 and the second base layer 120, respectively, which facilitates the stable and quick fixing of the first plate 410 and the second plate 420 onto the first base layer 110 and the second base layer 120, thereby improving the installation efficiency of the light strip.
[0041] It should be explained that, to facilitate the provision of the first snap-fit groove 250 on the side of the second snap-fit member 230 facing the first base layer 110, a portion of the second snap-fit member 230 can extend to the side of the first side edge 210 facing away from the second base layer 120. The connection method between the first snap-fit member 220 and the second snap-fit member 230 and the first side edge 210 can be, but is not limited to, bolt connection, snap-fit, welding, etc. Of course, the first snap-fit member 220, the first side edge 210, and the second snap-fit member 230 are an integrated structure.
[0042] Further, please refer to Figure 3The first snap-fit assembly 200 includes a first snap-fit edge 240, which is located on the side of the second snap-fit member 230 facing the first base layer 110 and forms a first snap-fit groove 250 with the first side edge 210. It is understood that the first snap-fit edge 240 is provided on the side of the first snap-fit member 220 facing the first base layer 110, facilitating the stable formation of the first snap-fit groove 250 between the first snap-fit edge 240 and the first side edge 210. This allows the light strip to be quickly fixed to the first snap-fit assembly 200 via the first snap-fit groove 250, improving the installation efficiency of the light strip; simultaneously, it allows the light strip to be set inwards at staggered locations, which helps meet the diverse decorative needs of users for light strips.
[0043] Optionally, the connection method between the first snap-fit edge 240 and the second snap-fit part 230 can be, but is not limited to, bolt connection, snap-fit, welding, integral molding connection, etc.
[0044] Furthermore, please refer to Figure 3 The first snap-fit component 220 includes a first snap-fit edge 221 and a second snap-fit edge 222 spaced apart on the first side 210. One end of the first plate 410 is snapped into the first snap-fit edge 221 and the second snap-fit edge 222. It can be seen that designing the first snap-fit component 220 with the first snap-fit edge 221 and the second snap-fit edge 222 spaced apart on the first side 210 allows the first plate 410 to be stably fixed to the first base layer 110 simply by inserting one end of the first plate 410 between the first snap-fit edge 221 and the second snap-fit edge 222 during installation, which helps improve the installation efficiency of the light strip.
[0045] In one embodiment, please refer to Figure 3 The second snap-fit component 230 includes a connecting edge 231 and a third snap-fit edge 232 and a fourth snap-fit edge 233 spaced apart from the connecting edge 231. The third snap-fit edge 232 is located at one end of the first side plate 122, and one end of the second plate 420 is snapped into the third snap-fit edge 232 and the fourth snap-fit edge 233. It can be seen that designing the second snap-fit component 230 to be spaced apart from the third snap-fit edge 232 and the fourth snap-fit edge 233 on the connecting edge 231 allows the second plate 420 to be stably fixed to the second base layer 120 simply by inserting one end of the second plate 420 between the third snap-fit edge 232 and the fourth snap-fit edge 233 during installation, which helps improve the installation efficiency of the light strip.
[0046] When the first snap-fit component 200 further includes a first snap-fit edge 240, the first snap-fit edge 240 may be provided with a side of the third snap-fit edge 232 facing away from the fourth snap-fit edge 233.
[0047] In one embodiment, please refer to Figure 3The second snap-fit assembly 300 includes a second side 310 and a third snap-fit member 320 and a fourth snap-fit member 330 disposed at both ends of the second side 310. The second side 310 is attached to the side of the third base layer 130. The third snap-fit member 320 is disposed on the surface of the first base layer 110 and snaps into the first plate 410. The fourth snap-fit member 330 is disposed on the surface of the third base layer 130 and snaps into the third plate 430. The second snap-fit groove 350 is disposed on the side of the second side 310 facing away from the third base layer 130. It can be seen that by designing the second snap-fit assembly 300 as a second side 310, a third snap-fit member 320, and a fourth snap-fit member 330, the second side 310 makes it easier for the second snap-fit assembly 300 to fit into the staggered position between the first base layer 110 and the third base layer 130. Meanwhile, the third clip 320 and the fourth clip 330 are located on the surfaces of the first base layer 110 and the third base layer 130, respectively, which facilitates the stable and quick fixing of the first plate 410 and the third plate 430 onto the first base layer 110 and the third base layer 130, thereby improving the installation efficiency of the light strip.
[0048] Further, please refer to Figure 3 The second snap-fit assembly 300 includes a second snap-fit edge 340, which is located on the side of the second side 310 facing away from the third base layer 130, and forms a second snap-fit groove 350 with the third snap-fit member 320. It is understood that the second snap-fit edge 340 is provided on the side of the second side 310 facing away from the third base layer 130 to facilitate the stable formation of the second snap-fit groove 350 between the second snap-fit edge 340 and the third snap-fit member 320. This allows the light strip to be quickly fixed to the second snap-fit assembly 300 through the second snap-fit groove 350, improving the installation efficiency of the light strip; at the same time, it allows the light strip to be set inward at staggered locations, which helps meet the diverse decorative needs of users for light strips.
[0049] Optionally, the connection method between the second snap edge 340 and the second side edge 310 may be, but is not limited to, bolt connection, snap-fit, welding, integral molding connection, etc.
[0050] Furthermore, please refer to Figure 3 The third snap-fit component 320 includes a fifth snap-fit edge 321 and a sixth snap-fit edge 322 spaced apart on the second side 310, and one end of the first plate 410 is snapped onto the fifth snap-fit edge 321 and the sixth snap-fit edge 322.
[0051] In one embodiment, please refer to Figure 3The fourth snap-fit component 330 includes a seventh snap-fit edge 331 and an eighth snap-fit edge 332 spaced apart on the second side 310. One end of the third plate 430 snaps into the seventh snap-fit edge 331 and the eighth snap-fit edge 332. It can be seen that designing the fourth snap-fit component 330 to be spaced apart on the seventh snap-fit edge 331 and the eighth snap-fit edge 332 on the connecting side 231 allows the third plate 430 to be stably fixed to the third base layer 130 simply by inserting one end of the third plate 430 between the seventh snap-fit edge 331 and the eighth snap-fit edge 332 during installation, which helps improve the installation efficiency of the light strip.
[0052] In one embodiment, please refer to Figure 4 The snap-fit structure also includes a first edge snap-fit member 500, which is disposed on the surface of the second base layer 120. The surface of the first edge snap-fit member 500 facing away from the second base layer 120 has a third snap-fit groove 520 for installing a light strip, and the side of the first edge snap-fit member 500 facing the first snap-fit assembly 200 has a first slot 510. One end of the second plate 420 is snapped into the first slot 510. It can be seen that the first edge snap-fit member 500 snaps both ends of the second plate 420 together, further improving the installation stability of the second plate 420. Simultaneously, the third snap-fit groove 520 on the first edge snap-fit member 500 facilitates quick and stable installation of the light strip at the edge of the second base layer 120.
[0053] In one embodiment, please refer to Figure 5 The snap-fit structure also includes a second edge snap-fit 600 and a middle snap-fit 700. There are at least two third plates 430, each spaced apart on the surface of the third base layer 130. A middle snap-fit 700 snaps between adjacent third plates 430. The surface of the middle snap-fit 700 facing away from the third base layer 130 has a fourth groove 710 for mounting a light strip. The second edge snap-fit 600 is located at the end of the third base layer 130 furthest from the first base layer 110. The surface of the second edge snap-fit 600 facing away from the third base layer 130 has a fifth groove 620 for mounting a light strip, and the side of the second edge snap-fit 600 facing the third plate 430 has a second groove 610. It can be seen that the middle snap-fit 700 facilitates planar light strip design on the third base layer 130, simultaneously meeting the user's requirements for staggered and planar light strip design. At the same time, the second edge snap-fit 600 snaps both ends of the third plate 430, further improving the installation stability of the third plate 430. Meanwhile, a fourth groove 710 is provided on the second edge clip 600 to facilitate quick and stable installation of the light strip at the edge of the third base layer 130.
[0054] In one embodiment, please refer to Figure 2The second base layer 120 includes a base plate 121, a top plate 123, and two side plates 122 spaced apart on the base plate 121. The top plate 123 is connected between the two side plates 122, and the second plate 420 is disposed on the top plate 123. This allows the second base layer 120 to be positioned higher than the first base layer 110.
[0055] Of course, the above description is not intended to limit the present utility model, and the present utility model is not limited to the examples given above. Any changes, modifications, additions or substitutions made by those skilled in the art within the scope of the present utility model should also fall within the protection scope of the present utility model.
Claims
1. An assembled decorative light strip integrated structure, characterized in that, include: A base structure (100) is used for installation on a wall (800), and includes a first base (110) and a second base (120) and a third base (130) located on opposite sides of the first base (110), wherein the second base (120) and the third base (130) are both higher than the first base (110); The snap-fit structure includes a first snap-fit component (200) and a second snap-fit component (300). The first snap-fit component (200) and the second snap-fit component (300) are respectively attached to the two sides of the second base layer (120) and the third base layer (130) facing each other. The two ends of the first snap-fit component (200) are respectively located on the surface of the first base layer (110) and the surface of the second base layer (120). The two ends of the second snap-fit component (300) are respectively located on the surface of the first base layer (110) and the surface of the third base layer (130). The side of the first snap-fit component (200) facing the first base layer (110) is provided with a first groove (250). The side of the second snap-fit component (300) facing away from the third base layer (130) is provided with a second groove (350). Both the first groove (250) and the second groove (350) are used to install light strips. The decorative panel assembly (400) includes a first panel (410), a second panel (420) and a third panel (430). The first panel (410) is disposed on the surface of the first base layer (110) and snapped between the first snap-fit assembly (200) and the second snap-fit assembly (300). The second panel (420) is disposed on the surface of the second base layer (120) and snapped with the first snap-fit assembly (200). The third panel (430) is disposed on the surface of the third base layer (130) and snapped with the second snap-fit assembly (300).
2. The assembled decorative light strip integrated structure according to claim 1, characterized in that, The first snap-fit assembly (200) includes a first side (210) and a first snap-fit member (220) and a second snap-fit member (230) disposed at both ends of the first side (210). The first side (210) is attached to the side of the second base layer (120). The first snap-fit member (220) is disposed on the surface of the first base layer (110) and snaps with the first plate (410). The second snap-fit member (230) is disposed on the surface of the second base layer (120) and snaps with the second plate (420). The first snap-fit groove (250) is disposed on the side of the second snap-fit member (230) facing the first base layer (110).
3. The assembled decorative light strip integrated structure according to claim 2, characterized in that, The first snap-fit assembly (200) includes a first snap-fit edge (240), which is disposed on the side of the second snap-fit member (230) facing the first base layer (110) and forms the first snap-fit groove (250) between it and the first side edge (210).
4. The assembled decorative light strip integrated structure according to claim 2, characterized in that, The first snap-fit member (220) includes a first snap-fit edge (221) and a second snap-fit edge (222) spaced apart from the first side (210), and one end of the first plate (410) snaps onto the first snap-fit edge (221) and the second snap-fit edge (222); and / or, The second snap-fit member (230) includes a connecting edge (231) and a third snap-fit edge (232) and a fourth snap-fit edge (233) spaced apart from the connecting edge (231). The third snap-fit edge (232) is located at one end of the first side plate (122), and one end of the second plate (420) is snapped into the third snap-fit edge (232) and the fourth snap-fit edge (233).
5. The assembled decorative light strip integrated structure according to claim 1, characterized in that, The second snap-fit assembly (300) includes a second side (310) and a third snap-fit member (320) and a fourth snap-fit member (330) disposed at both ends of the second side (310). The second side (310) is attached to the side of the third base layer (130). The third snap-fit member (320) is disposed on the surface of the first base layer (110) and snaps with the first plate (410). The fourth snap-fit member (330) is disposed on the surface of the third base layer (130) and snaps with the third plate (430). The second snap-fit groove (350) is disposed on the side of the second side (310) facing away from the third base layer (130).
6. The assembled decorative light strip integrated structure according to claim 5, characterized in that, The second snap-fit assembly (300) includes a second snap-fit edge (340), which is located on the side of the second side (310) facing away from the third base layer (130) and forms the second snap-fit groove (350) with the third snap-fit member (320).
7. The assembled decorative light strip integrated structure according to claim 5, characterized in that, The third latching member (320) includes a fifth latching edge (321) and a sixth latching edge (322) spaced apart from the second side edge (310), and one end of the first plate (410) is latched to the fifth latching edge (321) and the sixth latching edge (322); and / or, The fourth snap-fit member (330) includes a seventh snap-fit edge (331) and an eighth snap-fit edge (332) spaced apart from the second side edge (310), and one end of the third plate (430) is snapped into the seventh snap-fit edge (331) and the eighth snap-fit edge (332).
8. The integrated structure of the assembled decorative light strip according to any one of claims 1-7, characterized in that, The snap-fit structure further includes a first edge snap-fit (500), which is disposed on the surface of the second base layer (120). The surface of the first edge snap-fit (500) facing away from the second base layer (120) is provided with a third snap-fit groove (520) for installing the light strip. The side of the first edge snap-fit (500) facing the first snap-fit assembly (200) is provided with a first slot (510), and one end of the second plate (420) is snapped into the first slot (510).
9. The integrated structure of the assembled decorative light strip according to any one of claims 1-7, characterized in that, The snap-fit structure further includes a second edge snap-fit (600) and a middle snap-fit (700). The number of third plates (430) is at least two. Each third plate (430) is spaced apart on the surface of the third base layer (130), and the middle snap-fit (700) is snapped between two adjacent third plates (430). The surface of the middle snap-fit (700) facing away from the third base layer (130) is provided with a fourth snap-fit groove (710) for installing the light strip. The second edge snap-fit (600) is located at the end of the third base layer (130) away from the first base layer (110). The surface of the second edge snap-fit (600) facing away from the third base layer (130) is provided with a fifth snap-fit groove (620) for installing the light strip, and the side of the second edge snap-fit (600) facing the third plate (430) is provided with a second snap-fit groove (610).
10. The integrated structure of the assembled decorative light strip according to any one of claims 1-7, characterized in that, The second base layer (120) includes a bottom plate (121), a top plate (123) and two side plates (122) spaced apart on the bottom plate (121). The top plate (123) is connected between the two side plates (122), and the second plate (420) is disposed on the top plate (123).