Shock-absorbing and skid-proof stone plastic floor
By incorporating a three-layer structure design—comprising an anti-slip panel, a shock-absorbing panel, and a base layer—into stone plastic flooring, the problems of slippery surfaces and insufficient shock absorption on stone plastic flooring are solved, achieving higher anti-slip and shock absorption effects and improving safety and comfort during use.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 常州裕丰新材料科技有限公司
- Filing Date
- 2025-07-23
- Publication Date
- 2026-06-16
AI Technical Summary
Stone plastic flooring has low surface friction, making it easy to slip and fall, and it lacks shock absorption, affecting safety and comfort.
It adopts a three-layer structure design, including an anti-slip panel, a shock-absorbing plate, and a base plate. The anti-slip panel has anti-slip strips on its surface, the base plate is made of high-strength stone-plastic material, and the shock-absorbing plate is made of rubber. The dovetail-shaped mating groove and mating seat achieve mechanical interlocking and adhesive pressing fixation, which enhances the connection strength and stability.
It improves the floor's anti-slip and shock absorption properties, enhances its stability and lifespan, reduces noise and fatigue, and is suitable for use in high-frequency activity areas.
Smart Images

Figure CN224363601U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of stone plastic flooring, specifically a shock-absorbing and anti-slip stone plastic flooring. Background Technology
[0002] Stone plastic flooring (full name "stone plastic composite flooring") is a new type of floor decoration material made from natural stone powder (mainly calcium carbonate) and PVC resin as core raw materials, with the addition of stabilizers, lubricants and other additives, through high-temperature extrusion, calendering and other processes. It combines the hard texture of stone with the flexibility of plastic and is one of the popular environmentally friendly floor materials in recent years. Stone plastic flooring is also known as stone plastic floor tiles, and its formal name should be "PVC sheet flooring". It is a high-quality, high-tech research and development of a new type of floor decoration material. It uses natural marble powder to form a solid base layer with a high-density, high-fiber mesh structure, and the surface is covered with a super wear-resistant high-molecular PVC wear-resistant layer, which is processed through hundreds of processes.
[0003] Stone plastic flooring is mainly composed of PVC and stone powder. It is essentially a mixture of "rigid plastic + stone powder". The material has high hardness (especially SPC flooring) and a relatively smooth surface molecular structure. When the floor surface comes into contact with the sole of a shoe, the basic friction is low, which makes it easy to slip and fall. Utility Model Content
[0004] The purpose of this invention is to provide a shock-absorbing and anti-slip stone-plastic flooring to solve the defects mentioned in the background art.
[0005] To achieve the above objectives, a shock-absorbing and anti-slip stone plastic flooring is provided, comprising a stone plastic flooring body, a base plate at the bottom of the stone plastic flooring body, a shock-absorbing plate fixedly covered on the surface of the base plate, an anti-slip panel fixedly provided on the surface of the shock-absorbing plate, and an anti-slip strip fixedly provided on the surface of the anti-slip panel.
[0006] Furthermore, the main body of the stone plastic floor includes an anti-slip panel, anti-slip strips, an upper connecting groove, a shock-absorbing plate, an upper connecting seat, a lower connecting seat, a base plate, a lower connecting groove, and a receiving opening. The anti-slip panel, the shock-absorbing plate, and the base plate are arranged in layers from top to bottom.
[0007] Furthermore, the thickness of the main body of the stone-plastic flooring is 6-8mm, and multiple sets of anti-slip strips are equidistantly arranged on the surface of the anti-slip panel, with the anti-slip strips in an "S" shape.
[0008] Furthermore, an anti-slip channel is formed between two adjacent sets of anti-slip strips, and the height of the anti-slip strips is 0.4 to 0.6 mm.
[0009] Furthermore, the anti-slip panel, the shock-absorbing plate, and the base plate have the same area. The shock-absorbing plate is a rectangular structure made of rubber and is clamped and fixed between the anti-slip panel and the base plate.
[0010] Furthermore, the bottom of the anti-slip panel is provided with multiple sets of upper mating grooves at equal intervals, and the surface of the shock-absorbing plate is fixed with multiple sets of upper mating seats at equal intervals. The upper mating seats and the upper mating grooves are matched in size. The upper mating seats are inserted into the interior of the upper mating grooves and fixed by adhesive pressing. The cross-sections of the upper mating seats and the upper mating grooves are dovetail-shaped.
[0011] Furthermore, the bottom surface of the damping plate is fixed with multiple sets of lower mating seats at equal intervals, and the surface of the base plate is fixed with multiple sets of lower mating grooves at equal intervals. The dimensions of the lower mating grooves and the lower mating seats are matched. The lower mating seats are inserted into the interior of the lower mating grooves and fixed by adhesive pressing. The cross-sections of the lower mating grooves and the lower mating seats are dovetail-shaped.
[0012] Furthermore, the bottom of the base plate has multiple sets of receiving openings evenly distributed, the receiving openings are rectangular, and the depth of the receiving openings is 0.3 to 0.7 mm.
[0013] Compared with the prior art, the beneficial effects of this utility model are:
[0014] 1. This solution uses an anti-slip panel as the surface layer that directly contacts the outside environment. It can be made of wear-resistant material and combined with anti-slip strips to provide both scratch resistance and slip resistance, extending the service life of the surface layer. The baseboard, as the main support layer, can use a high-strength stone-plastic substrate to ensure the overall hardness and stability of the floor and reduce warping and deformation caused by thermal expansion and contraction. This solution not only solves the problems of insufficient anti-slip properties and a hard feel underfoot in traditional stone-plastic flooring, but also retains the stability and durability of the stone-plastic material itself, resulting in significant improvements in safety, comfort, and practicality.
[0015] 2. This solution, through the design of dovetail-shaped mating grooves and mating seats, allows the anti-slip panel, shock-absorbing plate, and base plate to form a mechanical interlocking through interlocking during assembly. Combined with adhesive pressing, it achieves double fixation, which not only increases the contact area of each layer to improve the connection strength, but also uses the barbed effect of the dovetail structure to limit the vertical separation of the upper and lower layers, while avoiding lateral displacement during assembly. This ensures that the overall structure is stable and the interlayer is tightly bonded, reducing loosening or delamination caused by stress during use, and taking into account both ease of installation and long-term stability.
[0016] 3. This solution uses a rubber damping plate sandwiched between two layers. Rubber itself has good elasticity and deformation capacity, which can absorb the impact of walking and jumping, reduce footsteps and noise when objects fall, and has a better sound insulation effect than ordinary stone plastic flooring. Compared with a single hard baseboard, the rubber layer makes the floor softer to the touch and relieves fatigue from standing for a long time. Attached Figure Description
[0017] Figure 1 This is a front view schematic diagram of the structure of this utility model;
[0018] Figure 2This is a bottom view of the structural stone-plastic flooring of this utility model;
[0019] Figure 3 This is a side view of the structural stone-plastic flooring of this utility model;
[0020] Figure 4 This is an exploded view of the structural stone-plastic flooring of this utility model;
[0021] Figure 5 for Figure 4 A bottom view;
[0022] Figure 6 for Figure 5 A partial structural diagram;
[0023] Figure 7 for Figure 1 A partial structural diagram;
[0024] Figure 8 for Figure 7 A bottom view.
[0025] The diagram is labeled as follows: 100, main body of stone plastic flooring; 1, anti-slip panel; 2, anti-slip strip; 3, upper connecting groove; 4, shock-absorbing plate; 5, upper connecting seat; 6, lower connecting seat; 7, base board; 8, lower connecting groove; 9, receiving opening. Detailed Implementation
[0026] Please see Figure 1-8 This utility model provides a shock-absorbing and anti-slip stone plastic floor, including a stone plastic floor body 100, a base plate 7 at the bottom of the stone plastic floor body 100, a shock-absorbing plate 4 fixedly covered on the surface of the base plate 7, an anti-slip panel 1 fixedly disposed on the surface of the shock-absorbing plate 4, and an anti-slip strip 2 fixedly disposed on the surface of the anti-slip panel 1.
[0027] As a preferred embodiment, the stone plastic floor body 100 includes an anti-slip panel 1, an anti-slip strip 2, an upper connecting groove 3, a shock-absorbing plate 4, an upper connecting seat 5, a lower connecting seat 6, a base plate 7, a lower connecting groove 8, and a receiving opening 9. The anti-slip panel 1, the shock-absorbing plate 4, and the base plate 7 are arranged in layers from top to bottom.
[0028] The thickness of the stone plastic flooring body 100 is 6-8mm. Multiple anti-slip strips 2 are equidistantly arranged on the surface of the anti-slip panel 1. The anti-slip strips 2 are in the shape of an "S".
[0029] An anti-slip channel is formed between two adjacent sets of anti-slip strips 2, and the height of the anti-slip strips 2 is 0.4 to 0.6 mm.
[0030] The anti-slip panel 1, the shock-absorbing plate 4, and the base plate 7 have the same area. The shock-absorbing plate 4 is a rectangular structure made of rubber and is clamped and fixed between the anti-slip panel 1 and the base plate 7.
[0031] The bottom of the anti-slip panel 1 has multiple sets of upper docking grooves 3 at equal intervals, and the surface of the shock-absorbing plate 4 has multiple sets of upper docking seats 5 at equal intervals. The upper docking seats 5 and the upper docking grooves 3 are matched in size. The upper docking seats 5 are inserted into the interior of the upper docking grooves 3 and fixed by adhesive pressing. The cross-sections of the upper docking seats 5 and the upper docking grooves 3 are dovetail-shaped.
[0032] like Figure 1 , Figure 2 , Figure 3 , Figure 4 and Figure 5 As shown: The main body 100 of the stone-plastic flooring is a three-layer composite design that takes into account different functional needs: the anti-slip panel 1, as the surface layer, is in direct contact with the outside world and can be made of wear-resistant materials, such as PVC containing wear-resistant agents. Combined with the anti-slip strip 2, it is both scratch-resistant and slip-resistant, extending the service life of the surface layer; the base layer 7, as the main support layer, can use high-strength stone-plastic substrate to ensure the overall hardness and stability of the flooring and reduce warping and deformation caused by thermal expansion and contraction; it not only solves the problems of insufficient anti-slip properties and hard feel of traditional stone-plastic flooring, but also retains the stability and durability of the stone-plastic material itself, and has significantly improved in terms of safety, comfort and practicality.
[0033] As a preferred embodiment, multiple sets of lower mating seats 6 are fixed at equal intervals on the bottom surface of the damping plate 4, and multiple sets of lower mating grooves 8 are fixed at equal intervals on the surface of the base plate 7. The dimensions of the lower mating grooves 8 and the lower mating seats 6 are matched. The lower mating seats 6 are inserted into the interior of the lower mating grooves 8 and fixed by adhesive pressing. The cross-sections of the lower mating grooves 8 and the lower mating seats 6 are dovetail-shaped.
[0034] The bottom of the base plate 7 has multiple sets of receiving openings 9 evenly distributed. The receiving openings 9 are rectangular and have a depth of 0.3 to 0.7 mm.
[0035] like Figure 6 , Figure 7 and Figure 8 As shown: When the anti-slip panel 1 and the shock-absorbing plate 4 are assembled, they are inserted into the upper docking groove 3 through the upper docking seat 5 and then bonded and pressed together. When the shock-absorbing plate 4 and the base plate 7 are assembled, they are inserted into the lower docking groove 8 through the lower docking seat 6 and then bonded and pressed together. The docking groove and the docking seat have a dovetail-shaped cross section. The design of the dovetail-shaped docking groove and the docking seat allows the anti-slip panel 1, the shock-absorbing plate 4 and the base plate 7 to form a mechanical interlocking through insertion during assembly. Combined with the bonding and pressing, a double fixation is achieved. This increases the contact area of each layer to improve the connection strength. It also uses the barbed effect of the dovetail structure to limit the vertical separation of the upper and lower layers. At the same time, it avoids lateral displacement during assembly, ensuring that the overall structure is stable and the layers are tightly bonded. This reduces loosening or delamination caused by stress during use, and takes into account both installation convenience and long-term stability.
[0036] Working principle: The main body 100 of the stone-plastic flooring is composed of an anti-slip panel 1, a shock-absorbing plate 4, and a base plate 7 from top to bottom. Multiple sets of "S"-shaped anti-slip strips 2 are evenly spaced on the surface of the anti-slip panel 1. Meanwhile, the shock-absorbing plate 4 is a rectangular structure made of rubber, clamped and fixed between the anti-slip panel 1 and the base plate 7. Compared to straight or smooth surfaces, the "S"-shaped texture increases the contact area and friction with the sole of the shoe, especially in wet environments such as after sprinkling water or mopping, reducing the impact of water film on friction and lowering the risk of slipping. The evenly spaced anti-slip strips 2 evenly distribute friction, regardless of the direction of walking. Both maintain a stable anti-slip effect, making them suitable for the elderly, children, or areas with high-frequency activity. The shock-absorbing plate 4 is made of rubber and sandwiched between two layers. Rubber itself has good elasticity and deformation capacity, which can absorb the impact of walking and jumping, reducing footsteps and noise when objects fall. Its noise reduction effect is better than that of ordinary stone plastic flooring. Compared with a single hard baseboard, the rubber layer makes the floor softer to the touch, relieving fatigue from standing for a long time, making it suitable for areas with frequent foot traffic such as kitchens and bedrooms. It can cushion the pressure of furniture and heavy objects on the floor, reduce cracking or deformation of the baseboard 7 due to compression, and extend the overall service life.
Claims
1. A shock-absorbing and anti-slip stone-plastic flooring, comprising a stone-plastic flooring body (100), characterized in that: The bottom of the main body (100) of the stone plastic floor is provided with a base plate (7), the surface of the base plate (7) is fixedly covered with a shock-absorbing plate (4), the surface of the shock-absorbing plate (4) is fixedly provided with an anti-slip panel (1), and the surface of the anti-slip panel (1) is fixedly provided with an anti-slip strip (2).
2. The shock-absorbing and anti-slip stone-plastic flooring according to claim 1, characterized in that: The main body (100) of the stone plastic floor includes an anti-slip panel (1), an anti-slip strip (2), an upper connecting groove (3), a shock-absorbing plate (4), an upper connecting seat (5), a lower connecting seat (6), a base plate (7), a lower connecting groove (8), and a receiving opening (9). The anti-slip panel (1), the shock-absorbing plate (4), and the base plate (7) are arranged in layers from top to bottom.
3. The shock-absorbing and anti-slip stone-plastic flooring according to claim 2, characterized in that: The thickness of the main body (100) of the stone plastic floor is 6-8mm. Multiple anti-slip strips (2) are equidistantly arranged on the surface of the anti-slip panel (1). The anti-slip strips (2) are in the shape of "S".
4. The shock-absorbing and anti-slip stone-plastic flooring according to claim 3, characterized in that: An anti-slip channel is formed between two adjacent anti-slip strips (2), and the height of the anti-slip strips (2) is 0.4 to 0.6 mm.
5. The shock-absorbing and anti-slip stone-plastic flooring according to claim 2, characterized in that: The anti-slip panel (1), the shock-absorbing plate (4) and the base plate (7) have the same area. The shock-absorbing plate (4) is a rectangular structure made of rubber. The shock-absorbing plate (4) is clamped and fixed between the anti-slip panel (1) and the base plate (7).
6. The shock-absorbing and anti-slip stone-plastic flooring according to claim 5, characterized in that: The bottom of the anti-slip panel (1) has multiple sets of upper docking grooves (3) at equal intervals, and the surface of the shock-absorbing plate (4) has multiple sets of upper docking seats (5) at equal intervals. The upper docking seats (5) and the upper docking grooves (3) are matched in size. The upper docking seats (5) are inserted into the interior of the upper docking grooves (3) and fixed by adhesive pressing. The cross sections of the upper docking seats (5) and the upper docking grooves (3) are dovetail-shaped.
7. The shock-absorbing and anti-slip stone-plastic flooring according to claim 5, characterized in that: The bottom surface of the damping plate (4) is fixed with multiple sets of lower docking seats (6) at equal intervals, and the surface of the base plate (7) is fixed with multiple sets of lower docking grooves (8) at equal intervals. The dimensions of the lower docking grooves (8) and the lower docking seats (6) are matched. The lower docking seats (6) are inserted into the interior of the lower docking grooves (8) and fixed by adhesive pressing. The cross-sections of the lower docking grooves (8) and the lower docking seats (6) are dovetail-shaped.
8. The shock-absorbing and anti-slip stone-plastic flooring according to claim 7, characterized in that: The bottom of the base plate (7) has multiple sets of receiving openings (9) evenly distributed. The receiving openings (9) are rectangular and have a depth of 0.3 to 0.7 mm.