Multi-technology integrated flexible physiotherapy module layer structure
The flexible physiotherapy module, with its multi-layered structural design, integrates full-spectrum phototherapy, biomagnetic therapy, and negative ion therapy, solving the problems of limited functionality and discomfort in traditional flexible physiotherapy equipment, and enhancing the stability and comfort of the device.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN YMH INTELLIGENT TECH CO LTD
- Filing Date
- 2025-06-23
- Publication Date
- 2026-07-14
Smart Images

Figure CN224484732U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of flexible electronic physiotherapy equipment technology, and belongs to the multi-technology integrated flexible physiotherapy module stacked structure. Background Technology
[0002] Physiotherapy utilizes artificial or natural physical factors to act on the human body, producing beneficial responses to prevent and treat diseases, and is an important part of rehabilitation therapy. However, with the accelerating pace of life, people are gradually neglecting their health, leading to an increasing number of people suffering from lower back and abdominal ailments. To address this issue, for example, there is the intelligent sound wave physiotherapy mattress based on thin-film sensor technology (publication number CN213884093U). This invention uses a human body signal acquisition device and control module to detect various human body characteristics in real time, determining the user's current mood and state. The control module analyzes and matches suitable music, which is played through a speaker. Simultaneously, a sound wave transducer converts the sound waves into vibration waves for massage, allowing the user to achieve emotional relief and physical relaxation. The entire process is automatically controlled by sensors.
[0003] However, the existing technologies described above still have the following problems in use: traditional flexible physiotherapy modules usually only have massage or heat therapy functions, the equipment has a single function, and the overall texture is hard, making it uncomfortable to use. When laid flat, it is prone to shifting and wrinkling. Based on this, this utility model provides a multi-technology integrated flexible physiotherapy module stacked structure. Utility Model Content
[0004] To address this issue, this invention provides a multi-technology integrated flexible physiotherapy module stacked structure to solve the problems of traditional flexible physiotherapy equipment in the prior art, such as limited functionality, discomfort during use, and susceptibility to wrinkles.
[0005] To achieve the above objectives, this utility model provides the following technical solution:
[0006] The multi-technology integrated flexible physiotherapy module has a layered structure, including a skin layer, a soft layer, a functional layer, and a fixation layer. The skin layer includes polyurethane fabric, the soft layer includes a memory foam pad, and the memory foam pad is fixed on top of the polyurethane fabric. The functional layer includes multiple Bianstone stones, each with a full-spectrum LED embedded inside and a neodymium iron boron magnet fixedly fitted on its outer wall. The top of the memory foam pad is fixed with multiple negative oxygen ion particles and multiple far-infrared particles. The fixation layer includes an S-shaped mesh fabric, which is formed by embroidery of multiple organza strands and is fixed on top of the memory foam pad to fix the functional layer.
[0007] Furthermore, the polyurethane fabric surface is processed with an anti-slip texture, and the polyurethane fabric surface is coated with a nano-silver coating.
[0008] Furthermore, both the polyurethane fabric and the memory foam pad have multiple ventilation holes, each with a diameter of 2mm and a spacing of 1cm between adjacent ventilation holes.
[0009] Furthermore, the surface of the S-shaped mesh fabric is fixed with multiple organza tunnels, each with a spacing of 2.5cm, and the negative oxygen ion particles and far-infrared particles are located inside the organza tunnels.
[0010] Furthermore, storage slots are provided on both sides of the top of the S-shaped mesh fabric, and power-conducting female plugs are connected inside the two storage slots.
[0011] Furthermore, a fixing groove is provided on the top of the polyurethane fabric, the fixing groove is located in front of the S-shaped mesh, and a power female plug is fixedly installed inside the fixing groove.
[0012] Furthermore, zipper teeth are fixedly sewn on both sides of the top of the polyurethane fabric. The zipper teeth are located on the outside of the storage groove, and each zipper tooth is equipped with a zipper lock.
[0013] Furthermore, two grooves are provided on both outer walls of the polyurethane fabric, and a strap is connected inside each groove.
[0014] Furthermore, a rubber pad is fixedly provided at the bottom of the polyurethane fabric, and multiple massage blocks are fixedly provided at the top of the rubber pad. Multiple hemispherical grooves are hot-pressed on the bottom of the memory foam pad, and the multiple massage blocks are respectively disposed inside the multiple hemispherical grooves.
[0015] This utility model has the following advantages:
[0016] This invention comprises a flexible physiotherapy module consisting of a leather layer, a soft layer, a functional layer, and a fixing layer. The leather layer is made of polyurethane fabric with a nano-silver coating to improve antibacterial rate. The soft layer is a memory foam pad with high resilience and breathability, enhancing comfort. Furthermore, the functional layer, consisting of Bian stone, neodymium iron boron magnet, negative oxygen ion particles, and far-infrared particles, enables full-spectrum phototherapy, biomagnetic therapy, and negative oxygen ion and far-infrared physiotherapy functions, improving the therapeutic effect while solving the problems of limited functionality and uncomfortable wear associated with traditional physiotherapy equipment.
[0017] By placing a soft rubber pad at the bottom of the skin, the rubber pad can provide support and cushioning at the bottom of the polyurethane fabric. In addition, the multiple massage blocks on the rubber pad can massage acupoints on the back, which can help improve the therapeutic effect. Attached Figure Description
[0018] To more clearly illustrate the embodiments of this utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings in the following description are merely exemplary, and those skilled in the art can derive other embodiments based on the provided drawings without creative effort.
[0019] The structures, proportions, sizes, etc. illustrated in this specification are only for the purpose of assisting those skilled in the art in understanding and reading the content disclosed herein, and are not intended to limit the implementation conditions of this utility model. Therefore, they have no substantial technical significance. Any modifications to the structure, changes in the proportions, or adjustments to the size, without affecting the effects and objectives that this utility model can produce, should still fall within the scope of the technical content disclosed in this utility model.
[0020] Figure 1 A schematic diagram of the overall structure of this utility model;
[0021] Figure 2 The overall structural corrosion diagram provided for this utility model;
[0022] Figure 3 for Figure 3 Enlarged view of part A in the image;
[0023] Figure 4 A side view of the overall structure provided for this utility model;
[0024] Figure 5 A cross-sectional view of the overall structure provided for this utility model.
[0025] In the image: 1. Skin layer; 101. Polyurethane fabric; 102. Nano silver coating;
[0026] 2. Soft layer; 201. Memory foam pad;
[0027] 3. Functional layer; 301. Sishui Bian stone; 302. Full-spectrum LED; 303. Neodymium iron boron magnet; 304. Negative oxygen ion particles; 305. Far-infrared particles;
[0028] 4. Fixing layer; 401. S-shaped mesh fabric; 402. Organza tunnel;
[0029] 5. Ventilation holes; 6. Storage slots; 7. Power connector; 8. Fixing slots; 9. Power connector; 10. Zipper teeth; 11. Zipper lock; 12. Embedded grooves; 13. Straps; 14. Rubber pads; 15. Massage blocks; 16. Hemispherical grooves. Detailed Implementation
[0030] The following specific embodiments illustrate the implementation of this utility model. Those skilled in the art can easily understand other advantages and effects of this utility model from the content disclosed in this specification. Obviously, the described embodiments are only some, not all, of the embodiments of this utility model. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.
[0031] Refer to the instruction manual appendix Figures 1-5 This utility model provides a multi-technology integrated flexible physiotherapy module layered structure, including a skin layer 1, a soft layer 2, a functional layer 3 and a fixing layer 4. The skin layer 1 includes a polyurethane fabric 101, the surface of which is processed with an anti-slip texture, and the surface of the polyurethane fabric 101 is coated with a nano silver coating 102.
[0032] The soft layer 2 includes a memory foam pad 201, which is fixed on the top of the polyurethane fabric 101. Both the polyurethane fabric 101 and the memory foam pad 201 have multiple ventilation holes 5, each with a diameter of 2mm and a spacing of 1cm between two adjacent ventilation holes 5.
[0033] Functional layer 3 includes multiple Sishui Bianstone 301 stones. These stones emit far-infrared rays with wavelengths of 8-15 micrometers, resonating with water molecules in human cells to promote local blood circulation, accelerate the excretion of metabolic waste, and relieve muscle fatigue and stiffness. 3cm Sishui Bianstone 301 stones (Fe2O3 content ≥50%) are selected. Each stone is embedded with a full-spectrum LED 302 (5W power, adjustable color temperature 2700K-6500K, phototherapy uniformity ≥92%, passed integrating sphere test) to ensure the effectiveness of the spectral therapy. Each stone is also fitted with a neodymium iron boron magnet 303 (N52, surface magnetic field strength 50mT±5mT, coercivity ≥1150kA / m). As a high-magnetic permanent magnet, its magnetic field can reduce blood viscosity, promote the deformability of red blood cells, and improve microcirculation when applied to blood vessels. It is especially suitable for discomfort caused by insufficient local blood supply. The top of the memory foam pad 201 is fixed with multiple negative oxygen ion particles 304 and multiple far-infrared particles 305. The multiple negative oxygen ion particles 304 and multiple far-infrared particles 305 are distributed alternately, with a negative oxygen ion concentration of 2000±100 particles / cm³ and a far-infrared emissivity of ≥85%.
[0034] The fixing layer 4 includes an S-shaped mesh fabric 401 (10×10mm², stitch pitch 1.2mm, tensile strength ≥200N / cm²), with a bending radius ≤3cm, and no cracks after 1000 cycles. The S-shaped mesh fabric 401 is formed by multiple 200D organza yarns using an embroidery process. The S-shaped mesh fabric 401 is fixed on top of the memory foam pad 201 to fix the functional layer 3. Multiple organza tunnels 402 are fixed on the surface of the S-shaped mesh fabric 401, with a spacing of 2.5cm between each organza tunnel 402. Negative oxygen ion particles 304 and far-infrared particles 305 are located inside the organza tunnels 402.
[0035] The flexible physiotherapy module consists of a skin layer 1, a soft layer 2, a functional layer 3, and a fixation layer 4. The skin layer 1 is made of polyurethane fabric 101, with a thickness of 0.4mm. Its surface treatment features a micron-level anti-slip texture with a friction coefficient of 0.6±0.1. Furthermore, it is coated with a nano-silver coating 102, achieving an antibacterial rate ≥99.9% (obtained via the shaking flask method), effectively inhibiting bacterial growth. The soft layer 2 is a 30D high-density memory foam pad 201, 1cm thick, with a resilience of 95% (≥98% recovery rate within 10 seconds after 50% compression). This helps prevent the soft layer from becoming too thin. 2. Excessive sagging affects usability. Meanwhile, multiple 2mm diameter ventilation holes 5 are set on the memory foam pad 201 with a spacing of 1cm, and the air permeability can reach 500mm / s. This can improve the comfort and breathability of the flexible physiotherapy module. Multiple Sishui Bianstone 301, neodymium iron boron magnet 303, negative oxygen ion particles 304 and far-infrared particles 305 between the memory foam pad and the S-mesh cloth can realize full-spectrum phototherapy, biomagnetic therapy, negative oxygen ion and far-infrared physiotherapy functions, thereby improving the physiotherapy effect and solving the problems of single function and uncomfortable wearing of traditional physiotherapy equipment.
[0036] The top two sides of the S-shaped mesh fabric 401 are provided with storage slots 6, and each storage slot 6 is connected to a power female plug 7. The top of the polyurethane fabric 101 is provided with a fixing slot 8, which is located in front of the S-shaped mesh. A power female plug 9 is fixedly installed inside the fixing slot 8. Zipper teeth 10 are fixedly sewn on both sides of the top of the polyurethane fabric 101. The zipper teeth 10 are located outside the storage slots 6, and each of the two zipper teeth 10 is provided with a zipper lock 11. The zipper teeth 10 and zipper lock 11 are provided for use in combination with other flexible physiotherapy modules.
[0037] Refer to the instruction manual appendix Figures 1-5 Two grooves 12 are provided on both outer walls of the polyurethane fabric 101. Each groove 12 is connected to a strap 13, and Velcro can be sewn onto the strap 13. When the flexible physiotherapy module is laid flat for use, the user removes the strap 13 from the groove 12 and then uses Velcro to fix the strap 13 to the side of the bed. This maintains the stability of the flexible physiotherapy module and prevents it from shifting or wrinkling, which would affect the physiotherapy effect and comfort.
[0038] A rubber pad 14 is fixedly provided at the bottom of the polyurethane fabric 101, and a plurality of massage blocks 15 are fixedly provided at the top of the rubber pad 14. A plurality of hemispherical grooves 16 are hot-pressed at the bottom of the memory foam pad 201, and the plurality of massage blocks 15 are respectively located inside the plurality of hemispherical grooves 16.
[0039] The rubber pad 14 is soft and can provide support and cushioning at the bottom of the polyurethane fabric 101. In addition, the multiple massage blocks 15 on the rubber pad 14 can massage acupoints on the back and help improve the therapeutic effect.
[0040] Although the present invention has been described in detail above with general descriptions and specific embodiments, some modifications or improvements can be made to it, which will be obvious to those skilled in the art. Therefore, all such modifications or improvements made without departing from the spirit of the present invention fall within the scope of protection claimed by the present invention.
Claims
1. A multi-technology integrated flexible physiotherapy module stacked structure, characterized in that: It includes the dermis (1), the soft layer (2), the functional layer (3) and the fixation layer (4); The skin layer (1) includes a polyurethane fabric (101). The soft layer (2) includes a memory foam pad (201) which is fixed to the top of the polyurethane fabric (101); The functional layer (3) includes multiple Sishui Bianstones (301), each Sishui Bianstone (301) is embedded with a full-spectrum LED (302), and each Sishui Bianstone (301) is fixedly fitted with a neodymium iron boron magnet (303) on its outer wall. The top of the memory foam pad (201) is fixedly provided with multiple negative oxygen ion particles (304) and multiple far-infrared particles (305). The fixing layer (4) includes an S-shaped mesh fabric (401), which is formed by embroidery of multiple organza yarns. The S-shaped mesh fabric (401) is fixed on top of the memory foam pad (201) to fix the functional layer (3).
2. The multi-technology integrated flexible physiotherapy module stacked structure according to claim 1, characterized in that: The polyurethane fabric (101) has an anti-slip texture on its surface and is coated with a nano silver coating (102).
3. The multi-technology integrated flexible physiotherapy module stacked structure according to claim 1, characterized in that: The polyurethane fabric (101) and memory foam pad (201) are provided with multiple ventilation holes (5), each ventilation hole (5) has a diameter of 2mm, and the distance between two adjacent ventilation holes (5) is 1cm.
4. The multi-technology integrated flexible physiotherapy module stacked structure according to claim 1, characterized in that: The surface of the S-shaped mesh fabric (401) is fixed with multiple organza tunnels (402), and the spacing between each organza tunnel (402) is 2.5cm. The negative oxygen ion particles (304) and far-infrared particles (305) are located inside the organza tunnels (402).
5. The multi-technology integrated flexible physiotherapy module stacked structure according to claim 1, characterized in that: The S-shaped mesh fabric (401) has storage slots (6) on both sides of the top, and each of the two storage slots (6) is connected to a power-conducting female plug (7).
6. The multi-technology integrated flexible physiotherapy module stacked structure according to claim 1, characterized in that: The polyurethane fabric (101) has a fixing groove (8) on the top, the fixing groove (8) is located in front of the S-shaped grid, and a power female plug (9) is fixed inside the fixing groove (8).
7. The multi-technology integrated flexible physiotherapy module stacked structure according to claim 5, characterized in that: Zipper teeth (10) are fixedly sewn on both sides of the top of the polyurethane fabric (101). The zipper teeth (10) are located outside the storage groove (6), and each of the two zipper teeth (10) is provided with a zipper lock (11).
8. The multi-technology integrated flexible physiotherapy module stacked structure according to claim 1, characterized in that: The polyurethane fabric (101) has two grooves (12) on both outer walls, and each groove (12) is connected to a strap (13).
9. The multi-technology integrated flexible physiotherapy module stacked structure according to claim 1, characterized in that: The bottom of the polyurethane fabric (101) is fixedly provided with a rubber pad (14), and the top of the rubber pad (14) is fixedly provided with a plurality of massage blocks (15) distributed at equal intervals. The bottom of the memory foam pad (201) is hot-pressed with a plurality of hemispherical grooves (16), and the plurality of massage blocks (15) are respectively located inside the plurality of hemispherical grooves (16).