Recyclable modular wooden floor
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIANGSU LONGINES NEW MATERIALS CO LTD
- Filing Date
- 2025-08-11
- Publication Date
- 2026-07-03
Smart Images

Figure CN224452149U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of wood flooring technology, and in particular to a recyclable modular wood flooring. Background Technology
[0002] Modular wood flooring is a flooring system composed of multiple independent wood flooring units combined through standardized interfaces. It adopts a multi-layer composite structure (such as birch / cork surface layer and sound insulation core material), supports quick installation, disassembly and personalized combination, and combines environmental protection (recyclable materials) and functionality (sound insulation and cold protection).
[0003] In existing technologies, some interlocking wood flooring designs have certain defects. These types of wood flooring typically use a snap-fit interlocking structure with protruding splicing parts at the edges, which extend beyond the flooring itself. This design significantly increases space occupancy during storage, handling, and handling. Especially in large-scale engineering applications, the protruding splicing parts can lead to irregular gaps when multiple layers are stacked, reducing space utilization. More importantly, the extended splicing parts are highly susceptible to breakage during handling due to collisions, compression, or improper handling. The weakest point is concentrated at the connection between the splicing part and the flooring itself, making it more prone to cracking due to material fatigue after long-term use.
[0004] Therefore, there is an urgent need to provide a recyclable modular wood flooring solution to the above problems. Utility Model Content
[0005] The technical problem to be solved by this utility model is to overcome the shortcomings of the prior art and provide a recyclable modular wood flooring.
[0006] To solve the above-mentioned technical problems, the present invention adopts the following technical solution: providing a recyclable modular wood floor, including a base plate, wherein a fixing plate is fixedly connected to the top of the base plate;
[0007] A movable plate is slidably connected between the base plate and the fixed plate, and the base plate, fixed plate and movable plate are combined to form modular wood flooring;
[0008] The movable plate is connected to a sliding mechanism to drive the movable plate to slide on the top of the base plate;
[0009] The bottom of the movable plate is connected to a positioning mechanism for positioning the extended movable plate. The top of the base plate has a groove corresponding to the positioning mechanism.
[0010] The present invention is further configured such that the base plate, the fixed plate, and the movable plate are all the same length and are all quadrilateral in shape, and an opening groove is formed between the base plate and the fixed plate for splicing wood flooring.
[0011] Through the above technical solution, the base plate, fixed plate, and movable plate form a modular wood floor. During use, multiple sets of wood flooring are spliced together, and the movable plate in one set will be inserted into the opening groove of another set. When storage, handling, and handling are required, the movable plate is slid to enter between the base plate and the fixed plate. Since the three are the same size, they are combined to form an integral cuboid, which is convenient for storage, handling, and handling. When needed, the movable plate is slid to make it protrude outwards.
[0012] The present invention is further configured such that: the sliding mechanism includes a plurality of fixed shafts fixedly connected between the base plate and the fixed plate; the movable plate has a plurality of sliding grooves; and the plurality of fixed shafts are respectively located in the plurality of sliding grooves and correspond one to one.
[0013] Through the above technical solution, the sliding mechanism allows the movable plate to slide on the base plate; when it needs to be spliced, the movable plate is slid, which drives the slide groove to slide. The fixed shaft limits and guides the slide groove, thereby limiting and guiding the movable plate. It is convenient, quick, simple and practical.
[0014] The present invention is further configured such that: each of the plurality of the sliding grooves is connected to a tension spring, and the two ends of the tension spring are respectively fixedly connected to the inside of the sliding groove and the outside of the fixed shaft.
[0015] With the above technical solution, when the moving plate, the base plate, and the fixed plate form a cuboid, the tension spring is in normal condition; when the moving plate slides, it drives the tension spring in the slide groove to stretch until the triangular plate deflects and positions the moving plate; when the positioning is released, the moving plate automatically resets under the tension of the tension spring.
[0016] The present invention is further configured such that: the positioning mechanism includes two square slots formed at the bottom of the movable plate, and the two square slots are respectively located on two adjacent sides of the base plate; a first bracket is fixedly connected in each of the two square slots; a triangular block is rotatably connected in each of the two first brackets through a rotating shaft; one side of each of the two triangular blocks corresponds to the two adjacent sides of the base plate.
[0017] Through the above technical solution, the positioning mechanism positions the protruding movable plate. The movable plate slides off the base plate to protrude, at which point the tension spring is pulled until the square groove disengages from the base plate. Then, under the influence of gravity, the triangular plate deflects downwards, perpendicular to the movable plate, with one side of the triangular plate abutting against one side of the base plate, thus resisting the tension of the tension spring and completing the positioning of the protruding movable plate. When unlocking is desired, the base plate is rotated 180 degrees, and then the triangular plate is deflected into the square groove. The movable plate then automatically resets under the action of the tension spring, achieving rapid storage.
[0018] The present invention is further configured such that: grooves are provided on both adjacent sides of the base plate, and each groove corresponds to one of the two triangular plates.
[0019] Through the above technical solution, the triangular plates of one set of wood flooring correspond to the grooves of another set, further achieving the effect of flat interlocking and further fixing the splicing between the wood flooring.
[0020] The beneficial effects of this utility model are as follows:
[0021] 1. This utility model achieves directional displacement control of the moving plate through a sliding mechanism. The cooperation between the fixed shaft and the slide groove ensures that the sliding trajectory of the moving plate is accurate and controllable. With the elastic reset function of the tension spring, the moving plate is automatically stored between the base plate and the fixed plate in the non-working state, forming a regular cuboid structure, which significantly reduces the space occupancy rate.
[0022] 2. This utility model locks the protruding state of the movable plate through a positioning mechanism. By using the mechanical limiting of the triangular block and the edge of the base plate and the embedded cooperation of another set of wood floor grooves, it not only solves the problem of collision and breakage caused by the extension of the traditional flat-lock splicing part, but also achieves rapid positioning and splicing fixation through the deflection of the gravity-driven triangular block. Ultimately, it achieves a composite technical effect of improving storage efficiency, reducing transportation losses and extending service life. Attached Figure Description
[0023] Figure 1 This is a first-view structural diagram of the present invention;
[0024] Figure 2 This is a second-view sectional view of the present invention;
[0025] Figure 3 This is a third-view sectional view of the present invention;
[0026] Figure 4 for Figure 3 A magnified view of a section at point A in the middle;
[0027] Figure 5 This is a fourth-angle sectional view of the present invention;
[0028] Figure 6 for Figure 5 A magnified view of a section at point B in the middle.
[0029] In the diagram: 1. Base plate; 2. Fixed plate; 3. Moving plate; 4. Sliding mechanism; 401. Fixed shaft; 402. Slide groove; 403. Tension spring; 5. Positioning mechanism; 501. Square groove; 502. First bracket; 503. Triangular block; 6. Groove; 7. Opening groove. Detailed Implementation
[0030] The preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, thereby making a clearer and more definite definition of the scope of protection of the present invention.
[0031] Please see Figures 1-6 This embodiment of a recyclable modular wood flooring includes a base plate 1, a fixed plate 2 fixedly connected to the top of the base plate 1, and a movable plate 3 slidably connected between the base plate 1 and the fixed plate 2. The base plate 1, the fixed plate 2, and the movable plate 3 are combined to form a modular wood flooring. A sliding mechanism 4 is connected inside the movable plate 3 to drive the movable plate 3 to slide on the top of the base plate 1. The sliding mechanism 4 includes multiple fixed shafts 401 fixedly connected between the base plate 1 and the fixed plate 2. Multiple grooves 402 are opened inside the movable plate 3. The multiple fixed shafts 401 are respectively located in the multiple grooves 402 and correspond one-to-one. The function of the sliding mechanism 4 is to allow the movable plate 3 to slide on the base plate 1. When it is necessary to use it in combination, the movable plate 3 is slid, which drives the grooves 402 to slide. The fixed shafts 401 limit and guide the grooves 402, thereby limiting and guiding the movable plate 3. It is convenient, quick, simple and practical.
[0032] like Figures 3-4 As shown, multiple slide grooves 402 are each connected to a tension spring 403. The two ends of the tension spring 403 are fixedly connected to the inside of the slide groove 402 and the outside of the fixed shaft 401, respectively. When the moving plate 3 is aligned with the base plate 1 and the fixed plate 2 to form a cuboid, the tension spring 403 is in normal condition. When the moving plate 3 is slid, it causes the tension spring 403 in the slide groove 402 to be stretched until the triangular block 503 deflects and positions the moving plate 3. When the positioning is released, the moving plate 3 automatically resets under the tension of the tension spring 403.
[0033] like Figures 5-6As shown, a positioning mechanism 5 is connected to the bottom of the movable plate 3 to position the protruding movable plate 3. A groove 6 is provided on the top of the base plate 1, and the groove 6 corresponds to the positioning mechanism 5. The positioning mechanism 5 includes two square slots 501 formed at the bottom of the movable plate 3, and the two square slots 501 are respectively located on two adjacent sides of the base plate 1. A first bracket 502 is fixedly connected in each of the two square slots 501. A triangular block 503 is rotatably connected in each of the two first brackets 502 through a rotating shaft. One side of each of the two triangular blocks 503 corresponds to two adjacent sides of the base plate 1. The function of the positioning mechanism 5 is to position the protruding... The movable plate 3 is positioned; the movable plate 3 is slid off the base plate 1 to protrude, at which point the tension spring 403 is pulled until the square groove 501 is disengaged from the base plate 1. Then, under the action of natural gravity, the triangular block 503 deflects downward and becomes perpendicular to the movable plate 3. One side of the triangular block 503 abuts against one side of the base plate 1, resisting the tension of the tension spring 403, thus completing the positioning of the protruding movable plate 3. When you want to unlock it, flip the base plate 1 180 degrees, and then deflect the triangular block 503 to make it enter the square groove 501. Then, under the action of the tension spring 403, the movable plate 3 automatically resets, achieving the function of quick storage.
[0034] like Figures 3-4 As shown, grooves 6 are provided on both adjacent sides of the base plate 1, and correspond to two triangular blocks 503 respectively. The triangular blocks 503 of one set of wood flooring correspond to the grooves 6 of the other set, further realizing the effect of flat interlocking and further fixing the splicing between the wood flooring.
[0035] like Figures 1-6 As shown, the base plate 1, fixed plate 2, and movable plate 3 are all the same length and are all quadrilateral in shape. An opening groove 7 is formed between the base plate 1 and the fixed plate 2 for splicing the wood flooring. The base plate 1, fixed plate 2, and movable plate 3 form a modular wood flooring set. In use, multiple sets of wood flooring are spliced together. The movable plate 3 in one set will be inserted into the opening groove 7 of another set. When it is necessary to store, transport, or transport, the movable plate 3 is slid to enter between the base plate 1 and the fixed plate 2. Since the three are the same size, they are combined to form a whole cuboid, which is convenient for storage, transport, and transport. When it is needed, the movable plate 3 is slid to make it protrude outwards.
[0036] In use, this utility model consists of a base plate 1, a fixed plate 2, and a movable plate 3, forming a modular wooden floor. The movable plate 3 is guided to slide by the cooperation of the fixed shaft 401 and the sliding groove 402. The tension spring 403 stretches and stores energy during the sliding process. When the movable plate 3 slides out to the working position, the triangular block 503 automatically deflects downward under the action of gravity, and one side of it abuts against the edge of the base plate 1 to achieve positioning. At this time, the triangular block 503 can be embedded into the groove 6 of another set to form a flat snap-fit splicing. When storing, the base plate 1 is flipped 1180 degrees, and the triangular block 503 is pressed back into the square groove 501. The tension spring 403 pulls the movable plate 3 to automatically reset between the base plate 1 and the fixed plate 2. The three parts are combined to form a regular cuboid, which significantly reduces space occupation and avoids collision damage to the external structure, realizing convenient transportation, efficient storage and recycling.
[0037] The above description is merely an embodiment of this utility model and does not limit the patent scope of this utility model. Any equivalent structural or procedural transformations made based on the description and drawings of this utility model, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of this utility model.
Claims
1. A recyclable modular wooden floor comprising a base plate (1), characterized in that: The bottom plate (1) is fixedly connected to the top of the fixing plate (2); A movable plate (3) is slidably connected between the base plate (1) and the fixed plate (2), and the base plate (1), the fixed plate (2) and the movable plate (3) are combined to form a modular wood floor; The movable plate (3) is internally connected to a sliding mechanism (4) for driving the movable plate (3) to slide on the top of the base plate (1); The bottom of the movable plate (3) is connected to a positioning mechanism (5) for positioning the extended movable plate (3). The top of the base plate (1) is provided with a groove (6), which corresponds to the positioning mechanism (5).
2. The recyclable modular wood flooring according to claim 1, wherein: The base plate (1), the fixed plate (2), and the movable plate (3) are all the same in length and shape, and are all quadrilateral. An opening groove (7) is formed between the base plate (1) and the fixed plate (2) for splicing wood flooring.
3. The recyclable modular wood flooring according to claim 1, wherein: The sliding mechanism (4) includes multiple fixed shafts (401) fixedly connected between the base plate (1) and the fixed plate (2). The moving plate (3) has multiple sliding grooves (402) in it. The multiple fixed shafts (401) are located in the multiple sliding grooves (402) respectively, and correspond one to one.
4. The recyclable modular wood flooring according to claim 3, wherein: Each of the multiple slide grooves (402) is connected to a tension spring (403), and the two ends of the tension spring (403) are fixedly connected to the inside of the slide groove (402) and the outside of the fixed shaft (401), respectively.
5. The recyclable modular wood flooring according to claim 1, wherein: The positioning mechanism (5) includes two square slots (501) opened at the bottom of the movable plate (3), and the two square slots (501) are respectively located on the two adjacent sides of the base plate (1). A first bracket (502) is fixedly connected in each of the two square slots (501), and a triangular block (503) is rotatably connected in each of the two first brackets (502) through a rotating shaft. One side of the two triangular blocks (503) corresponds to the two adjacent sides of the base plate (1).
6. The recyclable modular wood flooring according to claim 5, wherein: The base plate (1) has grooves (6) on both adjacent sides, which correspond to two triangular blocks (503) respectively.