Basalt fiber decorative plate splicing structure
By using a connection structure of polyurethane soft strips and spiral beryllium copper wires, the problem of spacing and gaps during splicing of basalt fiber decorative panels is solved, achieving tight connection and adjustable splicing, simplifying the operation process, and improving the applicability and sealing effect of the decorative panels.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- NANJING HENGXIANG INSULATION MATERIALS MFG CO LTD
- Filing Date
- 2023-09-20
- Publication Date
- 2026-06-05
AI Technical Summary
Existing basalt fiber decorative panels are prone to gaps and seams during splicing, and are not easy to adjust, leading to misalignment and loose connections.
The system employs a connection structure of polyurethane flexible strips and spiral beryllium copper wires. Through the cooperation of guide strips and guide rods, it achieves a tight connection of decorative panels and adjustable spacing. The design of the rotating rod and slewing bearing simplifies the process of separating and splicing decorative panels for the operator.
It achieves a tight connection between decorative panels, can adapt to decorative panels of different specifications, simplifies the operation process, improves splicing efficiency and sealing effect, and the polyurethane soft strip is reusable.
Smart Images

Figure CN117266483B_ABST
Abstract
Description
Technical Field
[0001] This invention belongs to the field of decorative panel technology, specifically relating to a splicing structure for basalt fiber decorative panels. Background Technology
[0002] Decorative panels are a type of engineered wood product. Their surfaces feature various wood grains or patterns, are smooth and glossy, and have vibrant and attractive colors. They also possess excellent physical properties such as high wear resistance, heat resistance, cold resistance, fire resistance, and thermal insulation. Decorative panels have a wide range of applications, and those made from basalt fiber exhibit outstanding corrosion resistance and thermal insulation properties.
[0003] When installing decorative panels, adjacent panels must be spliced together. However, there may be gaps between the spliced panels, requiring the operator to adjust them to ensure a tight connection between the panels and prevent gaps from forming. Otherwise, misalignment or loose connections may occur. Furthermore, current decorative panels are not easily separated and spliced. Therefore, a splicing structure for basalt fiber decorative panels is proposed. Summary of the Invention
[0004] This invention provides a basalt fiber decorative panel splicing structure, which aims to solve the problems that spliced decorative panels may have gaps, requiring operators to adjust them, ensuring a tight connection between the decorative panels and preventing gaps between them, otherwise misalignment may occur, the connection may not be firm, and the current decorative panels are inconvenient to separate and splice.
[0005] This invention provides a basalt fiber decorative panel splicing structure, including decorative panels, a pair of decorative panels, a leader receiving cavity mirrored between the pair of decorative panels, a pair of square cavities mirrored in the receiving cavity, a pair of connecting rods mirrored on one side of each decorative panel, and a supplementary and separable connecting part between the pair of decorative panels;
[0006] The connecting part includes a polyurethane flexible strip, on which a pair of through holes are mirror-mounted. A pair of guide bars are mirror-mounted at both ends of the polyurethane flexible strip. The guide bars are movably connected to a displacement cavity. The displacement cavity is located at one end of a stabilizing plate. A pair of guide rods are mirror-mounted at the other end of the stabilizing plate. Spiral beryllium copper wires are mounted on the guide rods. The stabilizing plate is located in a base, and a limiting part is installed in the base.
[0007] Furthermore, the base includes an outer box located within a receiving cavity, a pair of square openings mirror-mounted on the outer box, and a top plate mounted on the top of the outer box.
[0008] Furthermore, the limiting part includes a circular plate, a rotating rod is connected to the center of the circular plate, the rotating rod is connected to the center of the rotating plate, the rotating plate is connected to the rotating rod, a pair of traction rods are installed on one side of the circular plate, a stop platform is installed at one end of the traction rod, the stop platform is movably connected to a moving rod, and the moving rod is located in a square opening.
[0009] Furthermore, a pair of swivel platforms are mirror-mounted at one end of the stabilizing plate, the guide rod is fixedly connected to the outer box, a slewing bearing three is mounted on the guide rod, and the slewing bearing three is mounted in the swivel platform.
[0010] Furthermore, a pair of receiving ports are mirror-mounted on one side of another decorative panel, the connecting rod is movably connected to the receiving ports, and the polyurethane flexible strip is located between the pair of decorative panels.
[0011] Furthermore, a slewing bearing is installed at one end of the rotating rod, which is mounted on the top plate, and a pair of slewing bearings are installed at both ends of the rotating rod, which are mounted on the outer box.
[0012] Furthermore, a pair of hinged rods are installed at both ends of the traction rod, and a slewing bearing is installed at one end of the hinged rod. One of the slewing bearings is installed on the disc and offset from the center position of the disc, and the other slewing bearing is installed on the stop platform.
[0013] Furthermore, a slewing bearing three is installed on the variable rod, and the slewing bearing three is installed on the stop platform. The stop platform is inserted into the square cavity, and a square platform is installed at one end of the stop platform. The square platform is flexibly connected to the square opening.
[0014] Furthermore, another of the aforementioned slewing bearings is mounted on a square platform.
[0015] The beneficial effects of this invention are as follows:
[0016] 1. This invention involves passing a pair of connecting rods on a decorative panel through receiving openings on a polyurethane strip, allowing the polyurethane strip to make close contact with the decorative panel. Then, a pair of bases are pulled, causing them to shift in opposite directions. The polyurethane strip, via a guide bar, pulls a stabilizing piece, which moves along the guide bar and compresses a spiral beryllium copper wire, connecting a pair of receiving openings on another decorative panel to a pair of connecting rods. The bases are then released, and due to the spiral beryllium copper wire, the pair of bases shift into matching receiving cavities, and the stop platform shifts into a square cavity, thus constraining the polyurethane strip between the two decorative panels. This fills the gap between the decorative panels and achieves the goal of pre-constraining the two panels. Furthermore, the shifting of the guide bar and connecting cavity allows the polyurethane strip and stabilizing piece to separate, facilitating the operator to adjust the matching polyurethane strip according to the distance at the decorative panel connection point. This allows the splicing structure to adapt to various sizes of decorative panels, filling gaps and connecting them, thus expanding the structure's applicability.
[0017] 2. In this invention, the workpiece rotates and a rotating rod rotates, which in turn pulls a rotating plate. The rotating plate rotates through the rotating rod, causing a circular plate to rotate. The circular plate is then pulled by a pair of traction rods, causing a pair of stop platforms to move towards each other along the moving rod. The displacement of the stop platforms will compress the square cavity, which will pull a pair of decorative panels closer together. Then, the polyurethane strip will be compressed, thus achieving the purpose of splicing a pair of decorative panels. Furthermore, the polyurethane strip bearing the compression will provide a better sealing effect between the pair of decorative panels.
[0018] 3. The limiting part of this invention is easy to operate, facilitating the separation and splicing of decorative panels by the operator. It enables efficient splicing, and the polyurethane strips are reusable, which is beneficial for installation.
[0019] Other features and advantages of the invention will be set forth in the following description, and will be apparent in part from the description, or may be learned by practicing the invention. The objects and other advantages of the invention may be realized and obtained by means of the structures particularly pointed out in the description and the drawings. Attached Figure Description
[0020] The accompanying drawings are provided to further illustrate the invention and form part of the specification. They are used together with the embodiments of the invention to explain the invention and do not constitute a limitation thereof. In the drawings:
[0021] Figure 1 This is a schematic diagram of the cross-sectional structure of an embodiment of the present invention;
[0022] Figure 2 This is a schematic diagram of the decorative panel, receiving cavity, and guide rod structure according to an embodiment of the present invention;
[0023] Figure 3 This is a schematic diagram of a partial cross-sectional structure of the limiting part according to an embodiment of the present invention;
[0024] Figure 4 for Figure 3 Schematic diagram of the structure at point B;
[0025] Reference numerals: 12, decorative panel; 13, receiving cavity; 14, square cavity; 15, connecting rod; 16, connecting part; 162, polyurethane flexible strip; 163, through-hole; 164, guide strip; 165, displacement cavity; 166, stabilizing plate; 167, spiral beryllium copper wire; 168, guide rod; 169, base; 1610, limiting part; 1692, outer box; 1693, top plate; 1694, square opening; 16102, round plate; 16103, rotating rod; 16104, rotating plate; 16105, rotating rod; 16106, traction rod; 16107, stop platform; 16108, moving rod. Detailed Implementation
[0026] To make the objectives, technical solutions, and advantages of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. The same reference numerals in the drawings represent the same components. It should be noted that the described embodiments are only some, not all, of the embodiments of the present invention. All other embodiments obtained by those skilled in the art based on the described embodiments of the present invention without creative effort are within the scope of protection of the present invention.
[0027] Reference Figure 1-4This invention proposes a basalt fiber decorative panel splicing structure, comprising decorative panels 12, with a pair of decorative panels 12 mounted on each panel 12. A leader receiving cavity 13 is mirror-mounted between the pair of decorative panels 12, and a pair of square cavities 14 are mirror-mounted within each receiving cavity 13. A pair of connecting rods 15 are mirror-mounted on one side of each decorative panel 12. A connecting part 16, which can be supplemented and separated, is provided between the pair of decorative panels 12. The connecting part 16 includes a polyurethane flexible strip 162, with a pair of through-holes 163 mirror-mounted on the polyurethane flexible strip 162. A pair of guide strips 164 are mirror-mounted at both ends of the polyurethane flexible strip 162, and the guide strips 164 are flexibly connected to a displacement cavity 165. The cavity 165 is located at one end of the stabilizing plate 166. A pair of mirror-mounted guide rods 168 are movably connected to the other end of the stabilizing plate 166. Spiral beryllium copper wires 167 are mounted on the guide rods 168. The stabilizing plate 166 is located inside the base 169, where a limiting part 1610 is installed. A pair of movable platforms are mirror-mounted at one end of the stabilizing plate 166. The guide rods 168 are fixedly connected to the outer casing 1692. A slewing bearing three is mounted on the guide rods 168, and the slewing bearing three is installed within the movable platforms. A pair of receiving ports one are mirror-mounted on one side of another decorative panel 12. A connecting rod 15 is movably connected to the receiving port one. The polyurethane flexible strip 162 is located at... When splicing a pair of decorative panels 12, a pair of connecting rods 15 on one decorative panel 12 are inserted into the through-holes 163 on the polyurethane flexible strip 162, ensuring close contact between the polyurethane flexible strip 162 and the decorative panel 12. Then, a pair of bases 169 are pulled, causing them to shift in opposite directions. The polyurethane flexible strip 162, via guide bar 164, pulls the stabilizing piece 166, which shifts along guide bar 168 and compresses the spiral beryllium copper wire 167, connecting the pair of receiving holes and the pair of connecting rods 15 on the other decorative panel 12. The bases 169 are then released, and due to the spiral beryllium copper wire 167, the... A pair of bases 169 move into the matching receiving cavity 13, and the stop platform 16107 moves into the square cavity 14, so that the polyurethane soft strip 162 is constrained between a pair of decorative panels 12. This can fill the gap between the decorative panels 12 and achieve the goal of pre-constraining the pair of decorative panels 12. Furthermore, due to the change of the guide strip 164 connecting the displacement cavity 165, the polyurethane soft strip 162 and the stabilizing piece 166 can be separated from each other. This makes it easier for the operator to adjust the matching polyurethane soft strip 162 according to the distance at the connection of the decorative panels 12, so that the splicing structure can be adapted to various specifications of decorative panels 12 to fill gaps and connect, making the structure more applicable.
[0028] The base 169 includes an outer box 1692, which is located inside the receiving cavity 13. A pair of square openings 1694 are mirror-mounted on the outer box 1692. A top plate 1693 is mounted on the top of the outer box 1692. The limiting part 1610 includes a circular plate 16102. A rotating rod 16103 is connected to the center of the circular plate 16102. The rotating rod 16103 is connected to the center of the rotating plate 16104. The outer circumferential surface of the rotating plate 16104 is provided with a second tooth. The rotating plate 16104 is connected to the rotating rod 16105. The outer circumferential surface of the rotating rod 16105 is provided with a first tooth. The first tooth is spiral-shaped and engages with the second tooth. One side of the circular plate 16102 is provided with... A pair of traction rods 16106, with a stop platform 16107 mounted at one end of each traction rod 16106. The stop platform 16107 is movably connected to a movable rod 16108, which is located inside a square opening 1694. A rotary rod 16103 has a slewing bearing 1 mounted at one end, which is mounted on the top plate 1693. A pair of rotary bearings 2 are mounted at both ends of the rotary rod 16105, which are mounted on the outer box 1692. A pair of hinged rods are mounted at both ends of the traction rod 16106, with a slewing bearing mounted at one end of each hinged rod. One slewing bearing is mounted on the circular plate 16102 and offset from the center position of the circular plate 16102, while the other slewing bearing is mounted on the stop platform 16104. On the stage 16107, a slewing bearing three is mounted on the moving rod 16108. The slewing bearing three is mounted on the stop stage 16107, which is inserted into the square cavity 14. A square platform is mounted on one end of the stop stage 16107, and the square platform is movably connected to the square opening 1694. Another slewing bearing is mounted on the square platform. The short side span of the stop stage 16107 is the same as the short side span of the square cavity 14. A rotating opening is mounted on one end of the rotating rod 16105. After a pair of decorative plates 12 are connected, the rotating rod 16105 is rotated via the workpiece. The rotation of the rotating rod 16105 pulls the rotating plate 16104. The rotating plate 16104, via the rotating rod 16103, causes the circular... The disc 16102 rotates, and the disc 16102, via a pair of traction rods 16106, causes a pair of stop platforms 16107 to move toward each other along the moving rod 16108. The displacement of the stop platforms 16107 will press the square cavity 14, and the square cavity 14 will pull a pair of decorative panels 12 toward each other, and then press the polyurethane soft strip 162. In this way, the purpose of splicing a pair of decorative panels 12 can be achieved, and the polyurethane soft strip 162 bearing the pressure will make the sealing effect between the pair of decorative panels 12 better. The limiting part 1610 is easy to operate, which is conducive to the operator to separate and splice the decorative panels 12. It can be spliced efficiently, and the polyurethane soft strip 162 can be reused, which is convenient for installation.
[0029] The specific implementation method is as follows: During splicing, when a pair of decorative panels 12 need to be spliced, insert a pair of connecting rods 15 on one decorative panel 12 into the through-holes 163 on the polyurethane flexible strip 162, so that the polyurethane flexible strip 162 is in close contact with the decorative panel 12. Then, pull a pair of bases 169, so that the pair of bases 169 are displaced in opposite directions. The polyurethane flexible strip 162 pulls the stabilizing piece 166 via the guide strip 164. The stabilizing piece 166 is displaced along the guide rod 168 and squeezes the spiral beryllium copper wire 167, connecting a pair of receiving holes on the other decorative panel 12 with a pair of connecting rods 15. Release the bases 169, and under the influence of the spiral beryllium copper wire 167, allow the pair of bases 169 to move into the matching receiving cavity 13. Inside, the stop stage 16107 moves into the square cavity 14, so that the polyurethane soft strip 162 is constrained between a pair of decorative panels 12. The workpiece rotates the rotating rod 16105, and the rotation of the rotating rod 16105 pulls the rotating plate 16104. The rotating plate 16104, through the rotating rod 16103, makes the circular plate 16102 rotate. The circular plate 16102, through a pair of traction rods 16106, makes a pair of stop stages 16107 move along the moving rod 16108 toward each other. The displacement of the stop stage 16107 will press the square cavity 14, and through the square cavity 14, the pair of decorative panels 12 will be pulled closer to each other, and then the polyurethane soft strip 162 will be pressed. In this way, the purpose of splicing a pair of decorative panels 12 can be achieved.
[0030] The foregoing has shown and described the basic principles, main features, and advantages of the present invention. Those skilled in the art should understand that the present invention is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of the invention. Various changes and modifications can be made to the invention without departing from its spirit and scope, and all such changes and modifications fall within the scope of the present invention as claimed. The scope of protection of this invention is defined by the appended claims and their equivalents.
Claims
1. A basalt fiber decorative panel splicing structure, comprising a decorative panel (12), characterized in that, The decorative panel (12) is provided with a pair of mirror-image cavities (13) between the pair of decorative panels (12), and a pair of mirror-image square cavities (14) are provided in the mirror-image cavity (13). A pair of connecting rods (15) are mirror-imagely provided on one side of each decorative panel (12), and a supplementary and separable connecting part (16) is provided between the pair of decorative panels (12). The connecting part (16) includes a polyurethane flexible strip (162), on which a pair of through holes (163) are mirror-mounted. A pair of guide strips (164) are mirror-mounted at both ends of the polyurethane flexible strip (162). The guide strips (164) are flexibly connected to a displacement cavity (165). The displacement cavity (165) is located at one end of a stabilizing plate (166). The other end of the stabilizing plate (166) is flexibly connected to a pair of mirror-mounted guide rods (168). A spiral beryllium copper wire (167) is mounted on the guide rods (168). The stabilizing plate (166) is located in a base (169). A limiting part (1610) is mounted in the base (169). The base (169) includes an outer box (1692), which is located in the receiving cavity (13). A pair of square openings (1694) are mirrored on the outer box (1692), and a top piece (1693) is installed on the top of the outer box (1692). The limiting part (1610) includes a circular plate (16102), a rotating rod (16103) is connected to the central position of the circular plate (16102), the rotating rod (16103) is connected to the central position of the rotating plate (16104), the rotating plate (16104) is connected to the rotating rod (16105), a pair of traction rods (16106) are installed on one side of the circular plate (16102), a stop platform (16107) is installed at one end of the traction rod (16106), the stop platform (16107) is movably connected to the movable rod (16108), and the movable rod (16108) is located in the square opening (1694); A pair of slewing platforms are mirror-mounted at one end of the stabilizing plate (166), the guide rod (168) is fixed in the outer box (1692), a slewing bearing three is mounted on the guide rod (168), and the slewing bearing three is mounted in the slewing platform; One end of the rotating rod (16103) is provided with a slewing bearing, which is installed on the top plate (1693). A pair of slewing bearings are installed at both ends of the rotating rod (16105), which are installed on the outer box (1692). The traction rod (16106) has a pair of hinged rods at both ends. A slewing bearing is installed at one end of the hinged rod. One of the slewing bearings is installed on the disc (16102) and is offset from the center position of the disc (16102). The other slewing bearing is installed on the stop platform (16107). The rotating rod (16108) is equipped with a slewing bearing three, which is mounted on a stop platform (16107). The stop platform (16107) is inserted into a square cavity (14). A square platform is mounted at one end of the stop platform (16107), and the square platform is flexibly connected to a square opening (1694). Another decorative panel (12) has a pair of receiving ports mirrored on one side, the connecting rod (15) being variably connected to the receiving ports, and the polyurethane strip (162) being located between the pair of decorative panels (12).