A deformation-resistant rock wool board

By using arc-shaped locking blocks and slots for engagement and fixing with insert rods, the problem of displacement and cracking of rock wool boards caused by thermal expansion and contraction is solved, thus achieving stable connection and improved deformation resistance of rock wool boards.

CN224478664UActive Publication Date: 2026-07-10TAI STONE ENERGY SAVING (ANHUI) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
TAI STONE ENERGY SAVING (ANHUI) CO LTD
Filing Date
2025-08-06
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

During use, existing rock wool boards are prone to displacement at the joints due to thermal expansion and contraction, leading to joint cracking, deformation, and unstable splicing. Water seepage at the joints further exacerbates the deformation of the rock wool boards.

Method used

The system uses arc-shaped locking blocks and slots for engagement, and connects to fixing holes via insert rods. Combined with sealing strips and threaded connections, it enhances the stability and integrity between panels, preventing displacement and cracking of splice seams.

Benefits of technology

It effectively prevents rock wool boards from shifting in all directions, enhances the stability of splicing joints, prevents water seepage, and improves the overall installation connection and deformation resistance of rock wool boards.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of anti-deformation rock wool board, it relates to rock wool board technical field, the utility model includes plate body, the plate body one side is fixedly provided with several clamping blocks, each the clamping block is arc-shaped, plate body is far from the side of clamping block and is equipped with several arc-shaped clamping slots of clamping block adaptation, each the inner wall of clamping slot and the outer peripheral surface of clamping block are fixedly provided with sealing strip, the side of plate body is far from clamping block and each clamping block is equipped with fixed hole, and the plate body is inserted with inserting rod;By the clamping block of arc and the arc-shaped clamping slot clamping can be placed in vertical direction and horizontal direction plate body displacement is generated, two adjacent plate bodies are connected together by fixed hole and inserting rod, collocation clamping block and clamping slot, not only can effectively prevent plate body between each orientation displacement, prevent displacement, cracking between splicing joint, lead to plate body deformation, also can make increase plate body and the integrity of installation connection between plate body.
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Description

Technical Field

[0001] This utility model relates to the field of rock wool board technology, specifically to a deformation-resistant rock wool board. Background Technology

[0002] Rock wool board, also known as rock wool insulation and decorative board, is an inorganic fiber board made from natural rocks such as basalt as the main raw material and processed by high-temperature melting. It has the characteristics of fire resistance, good thermal insulation effect, strong sound absorption and noise reduction function, and stable chemical properties. It is often used for building exterior wall insulation, roof insulation, interior wall partition and sound insulation, and industrial equipment and pipeline insulation.

[0003] Existing rock wool boards are installed by splicing. During installation, there are seams between the rock wool boards. These seams are usually filled with adhesive. However, after long-term use, due to thermal expansion and contraction, the seams are prone to slight displacement, which can lead to cracking and misalignment. This can cause deformation of the rock wool board layer on the wall, making it prone to water seepage. Water seepage can further deform the rock wool boards. Utility Model Content

[0004] The purpose of this invention is to provide a deformation-resistant rock wool board to address the aforementioned shortcomings in the prior art.

[0005] To achieve the above objectives, the present invention provides the following technical solution: a deformation-resistant rock wool board, comprising a board body, wherein a plurality of locking blocks are fixedly disposed on one side of the board body, each locking block being arc-shaped, and a plurality of arc-shaped locking grooves adapted to the locking blocks are opened on the side of the board body away from the locking blocks, and sealing strips are fixedly disposed on the inner wall of each locking groove and the outer peripheral surface of the locking block, and fixing holes are opened on the side of the board body away from the locking blocks and on each locking block, and a rod is inserted into the board body.

[0006] Preferably, a plurality of fixing blocks are fixedly provided on the upper side of the plate, and a groove adapted to the fixing blocks is provided on the lower side of the plate.

[0007] Preferably, a fixing cylinder is fixedly provided at the top of the insertion rod, and a bolt is fixedly provided at the bottom of the insertion rod. The inner wall of the fixing cylinder is provided with a threaded groove that matches the bolt.

[0008] Preferably, the outer wall of the fixed cylinder is provided with several anti-slip grooves.

[0009] Preferably, the plate body consists of a waterproof coating, a mesh cloth, a resin layer, a rock wool core layer, and an adhesive layer from top to bottom.

[0010] Preferably, multiple I-beam frames are fixedly installed in the rock wool core layer.

[0011] In the above technical solution, the present invention provides an anti-deformation rock wool board with the following beneficial effects: by using arc-shaped locking blocks and arc-shaped locking slots to engage, displacement of the board body can be generated in the vertical and horizontal directions. Adjacent two boards can be connected together through fixing holes and insert rods. With the combination of locking blocks and locking slots, it can not only effectively prevent displacement between boards in various directions and prevent displacement and cracking between splice seams, thus preventing board deformation, but also increase the overall integrity of the installation connection between boards. Attached Figure Description

[0012] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments recorded in this utility model. For those skilled in the art, other drawings can be obtained based on these drawings.

[0013] Figure 1 A schematic diagram of the structure of two plates connected together, provided for an embodiment of this utility model;

[0014] Figure 2 This is a schematic diagram of the structure of the mesh fabric provided in an embodiment of the present utility model;

[0015] Figure 3 A schematic diagram of the structure of the insertion rod provided in an embodiment of this utility model;

[0016] Figure 4 This is a structural schematic diagram of the plate cross-section provided in an embodiment of the present utility model.

[0017] Explanation of reference numerals in the attached figures:

[0018] 1. Panel; 2. Clip; 3. Slot; 4. Sealing strip; 5. Fixing hole; 6. Insert rod; 7. Bolt; 8. Fixing cylinder; 9. Threaded groove; 10. Anti-slip groove; 11. Fixing block; 12. Groove; 13. Mesh cloth; 14. Waterproof coating; 15. Resin layer; 16. Rock wool core layer; 17. Adhesive layer; 18. I-beam frame. Detailed Implementation

[0019] To enable those skilled in the art to better understand the technical solution of this utility model, the present utility model will be further described in detail below with reference to the accompanying drawings.

[0020] Please see Figure 1-4A rock wool board with deformation resistance is proposed. The technical solution includes a board body 1. Several locking blocks 2 are fixedly installed on one side of the board body 1, each block 2 being arc-shaped. Several arc-shaped slots 3 adapted to the locking blocks 2 are opened on the side of the board body 1 away from the locking blocks 2. Sealing strips 4 are fixedly installed on the inner wall of each slot 3 and the outer circumference of each locking block 2. Fixing holes 5 are opened on the side of the board body 1 away from the locking blocks 2 and on each locking block 2. Insertion rods 6 are inserted into the board body 1. The fixing holes 5 on the board body 1 away from the locking blocks 2 are located at the positions of the slots 3. The locking blocks 2 and slots 3 are respectively located on both sides of the board body 1, and the locking blocks 2 and slots 3 are adapted to each other. Sealing strips 4 are also fixedly installed on both sides of the board body 1. The diameter of the fixing holes 5 and 6 is adapted to the diameter of the insertion rods 6. In use, a rock wool board 1 is first installed on the wall. Next, the locking block 2 of another rock wool board 1 is inserted into the installed slot 3. Before locking, the insertion rod 6 on the uninstalled board 1 is pulled out. When the two boards 1 are locked together, the slot 3 and the sealing strip 4 of the locking block 2 are aligned to prevent water from entering the rock wool core layer 16 of the rock wool board. At the same time, when the locking block 2 and the slot 3 are aligned, the fixing hole 5 on the slot 3 is aligned with the fixing hole 5 on the locking block 2. At this time, the insertion rod 6 is inserted into the corresponding fixing hole 5. The cooperation between the insertion rod 6 and the fixing hole 5 further increases the connection stability between the slot 3 and the locking block 2. At the same time, the cooperation between the fixing hole 5 and the insertion rod 6 can prevent the splice seam between the boards 1 from being perpendicular to the installation wall, effectively preventing the splice seam from cracking or misaligning in the direction perpendicular to the installation wall.

[0021] Specifically, several fixing blocks 11 are fixedly installed on the upper side of the board 1, and grooves 12 adapted to the fixing blocks 11 are opened on the lower side of the board 1; the rock wool board is spliced ​​during installation, so it needs to be spliced ​​not only horizontally but also vertically, such as Figure 1 As shown, the cooperation between the arc-shaped locking block 2 and the locking groove 3 can effectively prevent the relative displacement of the horizontally adjacent plates 1 in the vertical direction. When splicing the plates 1 vertically, by inserting the fixing block 11 into the corresponding groove 12, the horizontal displacement between the two vertically adjacent plates 1 can be prevented, thereby reducing the cracking and misalignment of the splicing seam.

[0022] Specifically, a fixing cylinder 8 is fixedly installed at the top of the insertion rod 6, and a bolt 7 is fixedly installed at the bottom of the insertion rod 6. The inner wall of the fixing cylinder 8 has a threaded groove 9 that matches the bolt 7. The threaded groove 9 of the fixing cylinder 8 matches the threaded groove 9 of the screw. When vertically installing the plate 1, one plate 1 is first installed on the wall, and then the insertion rod 6 on the other plate 1 is pulled out and installed on the upper side of the installed plate 1, so that the fixing block 11 is inserted into the groove 12. At this time, the fixing hole 5 on the upper plate 1 is aligned with the fixing hole 5 on the lower plate 1. Then, the pulled-out insertion rod 6 is reinserted into the upper fixing hole 5, and the bolt 7 at the bottom of the upper insertion rod 6 is aligned with the inner ring of the lower fixing cylinder 8. Then, rotate... The upper fixing cylinder 8 and the insertion rod 6 rotate, so that the upper bolt 7 enters the fixing cylinder 8 and forms a threaded connection with the fixing cylinder 8. At this time, the upper insertion rod 6 and the lower insertion rod 6 are fixed together. Similarly, the insertion rods 6 in the vertical direction can be connected together, thereby increasing the integrity of the rock wool board on the wall. When installing large panels 1, four panels 1 can be installed in a grid pattern. First, install the two lower rock wool boards together. Then, align and insert the two upper panels 1 with the card block 2 and the card slot 3, and the fixing block 11 and the groove 12. Then, insert the upper insertion rod 6 into the fixing hole 5 on the card slot 3 and the card block 2 connected together on the upper side and connect it with the lower insertion rod 6.

[0023] Specifically, the outer wall of the fixing cylinder 8 is provided with several anti-slip grooves 10; when the insertion rod 6 is inserted into the fixing hole 5, the fixing cylinder 8 is rotated so that the bolt 7 at the bottom of the insertion rod 6 is screwed into the corresponding fixing cylinder 8, and the fixing cylinder 8 can be rotated easily through the anti-slip grooves 10.

[0024] Specifically, from top to bottom, the board 1 consists of a waterproof coating 14, a mesh fabric 13, a resin layer 15, a rock wool core layer 16, and an adhesive layer 17. The waterproof coating 14 is a silicone waterproof coating, which has good water-repellent properties and can effectively prevent water droplets from remaining on the board 1 and prevent moisture penetration. The mesh fabric 13 is a fiberglass mesh fabric, which can effectively improve the surface strength of the board 1, reduce surface cracking caused by thermal expansion and contraction due to temperature changes or wall settlement, and improve the overall performance of the rock wool board. The resin layer 15 is a water-absorbing resin board, which can absorb a small amount of water vapor that penetrates and prevent water vapor from entering the rock wool core layer 16. The rock wool core layer 16 is the core part of the board 1 and has functions such as heat preservation, fireproofing, and noise reduction. The adhesive layer 17 provides adhesion between the board 1 and the wall and increases the stability of the connection.

[0025] Specifically, multiple I-beams 18 are fixedly installed in the rock wool core layer 16; the upper end of the I-beams 18 abuts against the bottom of the resin layer 15 and the lower end abuts against the top of the adhesive layer 17. The I-beams 18 can support the rock wool core layer 16 to move, thereby increasing the strength and deformation resistance of the board 1.

[0026] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A deformation-resistant rock wool board, comprising a board body (1), characterized in that, A number of locking blocks (2) are fixedly provided on one side of the plate (1). Each locking block (2) is arc-shaped. A number of arc-shaped slots (3) adapted to the locking blocks (2) are provided on the side of the plate (1) away from the locking blocks (2). A sealing strip (4) is fixedly provided on the inner wall of each slot (3) and the outer circumference of the locking block (2). A fixing hole (5) is provided on the side of the plate (1) away from the locking blocks (2) and on each locking block (2). A plug rod (6) is inserted into the plate (1).

2. The anti-deformation rock wool board according to claim 1, characterized in that, A number of fixing blocks (11) are fixedly provided on the upper side of the plate (1), and a groove (12) adapted to the fixing blocks (11) is provided on the lower side of the plate (1).

3. The anti-deformation rock wool board according to claim 2, characterized in that, The top of the insertion rod (6) is fixedly provided with a fixing cylinder (8), the bottom of the insertion rod (6) is fixedly provided with a bolt (7), and the inner wall of the fixing cylinder (8) is provided with a threaded groove (9) that matches the bolt (7).

4. The anti-deformation rock wool board according to claim 3, characterized in that, The outer wall of the fixed cylinder (8) is provided with several anti-slip grooves (10).

5. The anti-deformation rock wool board according to claim 4, characterized in that, The plate (1) consists of, from top to bottom, a waterproof coating (14), a mesh cloth (13), a resin layer (15), a rock wool core layer (16), and an adhesive layer (17).

6. The anti-deformation rock wool board according to claim 5, characterized in that, Multiple I-frames (18) are fixedly installed in the rock wool core layer (16).