Modular floor structure that can be quickly assembled

By designing splicing grooves and trapezoidal grooves on the modular floor, and combining the interlocking of splicing blocks and trapezoidal blocks, the problem of inconvenient splicing in edge areas is solved, and a fast and stable modular floor connection is achieved.

CN224413035UActive Publication Date: 2026-06-26JIANGSU LONGINES NEW MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGSU LONGINES NEW MATERIALS CO LTD
Filing Date
2025-07-28
Publication Date
2026-06-26

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Abstract

The utility model discloses modular floor structure of quick splicing belongs to modular floor technical field, this modular floor structure of quick splicing, including module floor, the bottom of module floor is fixed with splicing floor, the bottom of splicing floor is fixed with floor bottom plate, the four corners of floor bottom plate all are established and have top pressure groove, the four corners of splicing floor all are established and have splicing groove, the inside of splicing groove and trapezoidal groove is equipped with the splicing mechanism of reducing the operation space required for construction, the inside of splicing mechanism is equipped with the combination mechanism of connecting splicing mechanism into a whole, the utility model discloses through being equipped with splicing mechanism, through shortening trapezoidal strip length, the operation space required for construction when splicing is reduced significantly, has improved construction convenience, has conveniently spliced the floor of edge area, has greatly promoted the use firmness of modular floor, can realize quick positioning and fixed simultaneously, has satisfied the use demand of user.
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Description

Technical Field

[0001] This utility model relates to the field of modular flooring technology, and in particular to a modular flooring structure that can be quickly assembled. Background Technology

[0002] Flooring refers to the surface layer of a building's floor or roof, made from wood or other materials. As a building material, flooring is used in various styles, including Chinese and European, and its application is becoming increasingly widespread.

[0003] According to the announcement number CN218714638U, a modular floor that is easy to install is provided. By setting a modular splicing mechanism at the modular floor, the two sets of boards of the modular floor can be spliced ​​together conveniently and firmly, which greatly improves the durability and longevity of the modular floor. The floor panel of the modular floor is reinforced with a composite board, and the composite board has a semi-circular through groove when it is laid on the ground, which allows some wires to pass through for concealed wiring.

[0004] Existing modular floor splicing technology mainly uses trapezoidal strips to splice two floorboards. This splicing method can meet the needs of use in most cases. However, in practical applications, especially when splicing floorboards in the edge area, the trapezoidal strips are too long, resulting in insufficient space for splicing operations. In addition, the horizontal and vertical trapezoidal strips will cross and interfere with each other during the splicing process.

[0005] Therefore, there is an urgent need to provide a modular floor structure that can be quickly assembled to solve the above problems. Utility Model Content

[0006] The technical problem to be solved by this utility model is to overcome the shortcomings of the prior art and provide a modular floor structure that can be quickly assembled.

[0007] To solve the above-mentioned technical problems, the present invention adopts a technical solution as follows: providing a modular floor structure that can be quickly assembled, including modular flooring, wherein the bottom end of the modular flooring is fixed with splicing flooring, and the bottom end of the splicing flooring is fixed with a floor base plate;

[0008] The floor base plate has top pressure grooves at all four corners, the spliced ​​floor has splicing grooves at all four corners, and trapezoidal grooves are formed on both sides of the splicing grooves.

[0009] The splicing groove and trapezoidal groove are equipped with splicing mechanisms that reduce the operating space required for construction. The splicing mechanism is equipped with a combination mechanism that connects the splicing mechanisms into a whole.

[0010] Through the above technical solution, modular flooring, interlocking flooring and floor baseboard constitute a modular floor, and two modular floorings are spliced ​​together through splicing grooves, trapezoidal grooves and top pressure grooves.

[0011] The present invention is further configured such that: the splicing mechanism includes a first trapezoidal block fitted inside the trapezoidal groove, and one end of the first trapezoidal block is fixed with a first splicing block fitted inside the splicing groove.

[0012] Through the above technical solution, the first splicing block and the first trapezoidal block are spliced ​​together to connect the two modular floorboards on the left side through splicing grooves and trapezoidal grooves.

[0013] The present invention is further configured such that: a second trapezoidal block is provided on one side of the first splicing block and is fitted into the trapezoidal groove, and a second splicing block is fixed at one end of the second trapezoidal block and fitted into the splicing groove.

[0014] Through the above technical solution, the second trapezoidal block and the second splicing block are spliced ​​together to connect the two modular floorboards on the rear side through splicing grooves and trapezoidal grooves.

[0015] The present invention is further configured such that: a third trapezoidal block is provided on one side of the second splicing block and is fitted into the trapezoidal groove, and one end of the third trapezoidal block is fixed with a third splicing block fitted into the splicing groove.

[0016] Using the above technical solution, the third trapezoidal block and the third splicing block are spliced ​​together with the two modular floorboards on the right side through splicing grooves and trapezoidal grooves.

[0017] The present invention is further configured such that: a fourth trapezoidal block is provided on one side of the third splicing block and is fitted into the trapezoidal groove, and a fourth splicing block is fixed at one end of the fourth trapezoidal block and fitted into the splicing groove.

[0018] Through the above technical solution, the fourth trapezoidal block and the fourth splicing block are spliced ​​together with the two modular floorboards on the front side through splicing grooves and trapezoidal grooves.

[0019] The present invention is further configured such that: the combined mechanism includes a first splicing trapezoidal block fixed to one end of the second splicing block, the outside of the first splicing trapezoidal block being fitted into the inside of the first splicing block; one end of the third splicing block is fixed with a second splicing trapezoidal block fitted into the inside of the second splicing block; both sides of the fourth splicing block are fixed with third splicing trapezoidal blocks, and the outside of the two third splicing trapezoidal blocks are respectively fitted into the inside of the first splicing block and the second splicing block.

[0020] Through the above technical solution, the first, second, third, and fourth splicing blocks of the four modular flooring units are combined into a whole by first, second, and third splicing trapezoidal blocks.

[0021] The present invention is further configured such that: a top pressure shell is fitted inside the top pressure groove, a columnar spring is fixed to the inner top wall of the top pressure shell, a trapezoidal insert is fixed to the top of the columnar spring, and the outside of the trapezoidal insert is fitted with the bottom of the second splicing block and the fourth splicing block.

[0022] Through the above technical solution, the cylindrical spring drives the trapezoidal insert to be inserted into the bottom end of the second and fourth splicing blocks, thereby fixing the assembled first, second, third, and fourth splicing blocks.

[0023] The beneficial effects of this utility model are as follows:

[0024] 1. This utility model, by providing a splicing mechanism and shortening the length of the trapezoidal strip, significantly reduces the operating space required for splicing, improves construction convenience, facilitates splicing of flooring in edge areas, greatly enhances the stability of modular flooring, and enables rapid positioning and fixing, thus meeting the user's needs.

[0025] 2. This utility model is designed with a combination mechanism, which consists of four independently connectable trapezoidal blocks. Each trapezoidal block has a splicing surface and a connecting structure that matches the adjacent blocks. A locking mechanism is set at the bottom of the four trapezoidal blocks. When the four trapezoidal blocks are combined into a whole, a stable connection is achieved through the locking mechanism. Attached Figure Description

[0026] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0027] Figure 2 for Figure 1 A magnified view of a section at point A in the middle;

[0028] Figure 3 This is a structural diagram of the splicing mechanism of this utility model;

[0029] Figure 4 This is a first-person exploded view of the splicing mechanism of this utility model;

[0030] Figure 5 This is a second-view exploded structural diagram of the splicing mechanism of this utility model;

[0031] Figure 6 This is a cross-sectional structural diagram of the top-pressure outer shell of this utility model.

[0032] In the diagram: 1. Modular floor; 2. Interlocking floor; 3. Floor base plate; 4. Top pressure groove; 5. Interlocking groove; 6. Trapezoidal groove; 7. Interlocking mechanism; 701. First trapezoidal block; 702. First interlocking block; 703. Second trapezoidal block; 704. Second interlocking block; 705. Third trapezoidal block; 706. Third interlocking block; 707. Fourth trapezoidal block; 708. Fourth interlocking block; 8. Combination mechanism; 801. First interlocking trapezoidal block; 802. Second interlocking trapezoidal block; 803. Third interlocking trapezoidal block; 804. Top pressure shell; 805. Columnar spring; 806. Trapezoidal insert. Detailed Implementation

[0033] 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.

[0034] Please see Figures 1-6 The modular flooring structure allows for quick assembly, comprising a modular floor 1, with interlocking floor 2 fixed to the bottom of the modular floor 1, and a floor base plate 3 fixed to the bottom of the interlocking floor 2; each of the four corners of the floor base plate 3 has a top pressure groove 4, and each of the four corners of the interlocking floor 2 has an interlocking groove 5, with trapezoidal grooves 6 on both sides of the interlocking grooves 5; the interlocking grooves 5 and trapezoidal grooves 6 are internally equipped with an assembly mechanism 7 to reduce the operating space required for construction, the assembly mechanism 7 including components that fit into the trapezoidal grooves 6. The first trapezoidal block 701 has a first splicing block 702 fixed at one end, which is fitted into the splicing groove 5. A second trapezoidal block 703 is provided on one side of the first splicing block 702, which is fitted into the trapezoidal groove 6. A second splicing block 704 is fixed at one end of the second trapezoidal block 703, which is fitted into the splicing groove 5. A third trapezoidal block 705 is provided on one side of the second splicing block 704, which is fitted into the trapezoidal groove 6. One end of the third trapezoidal block 705 is fixed into the splicing groove 5. The third splicing block 706 is fitted into the slot 5. A fourth trapezoidal block 707 is provided on one side of the third splicing block 706, fitted into the trapezoidal slot 6. One end of the fourth trapezoidal block 707 is fixed with a fourth splicing block 708, fitted into the splicing slot 5. The modular floor 1, the splicing floor 2, and the floor base plate 3 constitute a modular floor. Two modular floorboards are spliced ​​together via the splicing slot 5, the trapezoidal slot 6, and the top pressure slot 4. The first splicing block 702 and the first trapezoidal block 701 are connected... The two modular floorboards on the left are spliced ​​together via splicing groove 5 and trapezoidal groove 6. The second trapezoidal block 703 and the second splicing block 704 are spliced ​​together via splicing groove 5 and trapezoidal groove 6 to connect the two modular floorboards on the rear side. The third trapezoidal block 705 and the third splicing block 706 are spliced ​​together via splicing groove 5 and trapezoidal groove 6 to connect the two modular floorboards on the right side. The fourth trapezoidal block 707 and the fourth splicing block 708 are spliced ​​together via splicing groove 5 and trapezoidal groove 6 to connect the two modular floorboards on the front side.

[0035] like Figures 3-6 As shown, the splicing mechanism 7 has an internal assembly mechanism 8 that connects the splicing mechanisms 7 into a whole. The assembly mechanism 8 includes a first splicing trapezoidal block 801 fixed to one end of the second splicing block 704. The exterior of the first splicing trapezoidal block 801 is fitted into the interior of the first splicing block 702. One end of the third splicing block 706 is fixed with a second splicing trapezoidal block 802 that is fitted into the interior of the second splicing block 704. Both sides of the fourth splicing block 708 are fixed with third splicing trapezoidal blocks 803. The exteriors of the two third splicing trapezoidal blocks 803 are fitted into the interiors of the first splicing block 702 and the second splicing block 704, respectively. A top pressure shell 804 is fitted into the top pressure groove 4. The inner top wall of the top pressure shell 804 is fixed. A cylindrical spring 805 is fixed, and a trapezoidal insert 806 is fixed to the top of the cylindrical spring 805. The outside of the trapezoidal insert 806 is fitted into the bottom of the second splicing block 704 and the fourth splicing block 708. The first splicing block 702, the second splicing block 704, the third splicing block 706 and the fourth splicing block 708 between the four modular flooring are combined into a whole by the first splicing trapezoidal block 801, the second splicing trapezoidal block 802 and the third splicing trapezoidal block 803. The cylindrical spring 805 drives the trapezoidal insert 806 to insert into the bottom of the second splicing block 704 and the fourth splicing block 708 to fix the assembled first splicing block 702, the second splicing block 704, the third splicing block 706 and the fourth splicing block 708.

[0036] In use, this utility model comprises a modular floor 1, interlocking floor 2, and a floor base 3. Two modular floor slabs are joined together via interlocking grooves 5, trapezoidal grooves 6, and top-pressing grooves 4. First interlocking block 702 and first trapezoidal block 701 join the two modular floor slabs on the left side via interlocking grooves 5 and trapezoidal grooves 6. Second trapezoidal block 703 and second interlocking block 704 join the two modular floor slabs on the rear side via interlocking grooves 5 and trapezoidal grooves 6. Third trapezoidal block 705 and third interlocking block 706 join the two modular floor slabs on the right side via interlocking grooves 5 and trapezoidal grooves 6. Fourth trapezoidal block 70... 7 and the fourth splicing block 708 are spliced ​​together with the two modular floorboards on the front side through the splicing groove 5 and the trapezoidal groove 6. The first splicing block 702, the second splicing block 704, the third splicing block 706 and the fourth splicing block 708 between the four modular floorboards are combined into a whole by the first splicing trapezoidal block 801, the second splicing trapezoidal block 802 and the third splicing trapezoidal block 803. The columnar spring 805 drives the trapezoidal insert 806 to be inserted into the bottom end of the second splicing block 704 and the fourth splicing block 708 to fix the assembled first splicing block 702, the second splicing block 704, the third splicing block 706 and the fourth splicing block 708.

[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 modular floor structure that can be quickly assembled, comprising modular flooring (1), characterized in that: The bottom end of the modular floor (1) is fixed with a splicing floor (2), and the bottom end of the splicing floor (2) is fixed with a floor base plate (3); The floor base plate (3) has top pressure grooves (4) at all four corners, the splicing floor (2) has splicing grooves (5) at all four corners, and the splicing grooves (5) have trapezoidal grooves (6) on both sides. The splicing groove (5) and the trapezoidal groove (6) are provided with a splicing mechanism (7) to reduce the operating space required for construction. The splicing mechanism (7) is provided with a combination mechanism (8) to connect the splicing mechanism (7) into a whole.

2. The modular floor structure capable of rapid assembly according to claim 1, characterized in that: The splicing mechanism (7) includes a first trapezoidal block (701) fitted inside the trapezoidal groove (6), and one end of the first trapezoidal block (701) is fixed with a first splicing block (702) fitted into the splicing groove (5).

3. The modular floor structure capable of rapid assembly according to claim 2, characterized in that: The first splicing block (702) has a second trapezoidal block (703) on one side that is fitted into the trapezoidal groove (6), and a second splicing block (704) is fixed at one end of the second trapezoidal block (703) that is fitted into the splicing groove (5).

4. The modular floor structure capable of rapid assembly according to claim 3, characterized in that: The second splicing block (704) has a third trapezoidal block (705) on one side that is fitted into the trapezoidal groove (6), and one end of the third trapezoidal block (705) is fixed with a third splicing block (706) that is fitted into the splicing groove (5).

5. The modular floor structure capable of rapid assembly according to claim 4, characterized in that: The third splicing block (706) has a fourth trapezoidal block (707) on one side that is fitted into the trapezoidal groove (6), and one end of the fourth trapezoidal block (707) is fixed with a fourth splicing block (708) that is fitted into the splicing groove (5).

6. The modular floor structure capable of rapid assembly according to claim 5, characterized in that: The assembly mechanism (8) includes a first splicing trapezoidal block (801) fixed to one end of the second splicing block (704), the exterior of the first splicing trapezoidal block (801) being fitted into the interior of the first splicing block (702), one end of the third splicing block (706) being fixed with a second splicing trapezoidal block (802) fitted into the interior of the second splicing block (704), and both sides of the fourth splicing block (708) being fixed with third splicing trapezoidal blocks (803), the exterior of the two third splicing trapezoidal blocks (803) being fitted into the interior of the first splicing block (702) and the second splicing block (704) respectively.

7. The modular floor structure capable of rapid assembly according to claim 6, characterized in that: A top pressure shell (804) is fitted inside the top pressure groove (4). A columnar spring (805) is fixed to the inner top wall of the top pressure shell (804). A trapezoidal insert (806) is fixed to the top of the columnar spring (805). The outside of the trapezoidal insert (806) is fitted with the bottom of the second splicing block (704) and the fourth splicing block (708).