Elastic health-care massaging shoe

By incorporating a multi-layered cushioned sole and massage components, the design addresses the shortcomings of traditional footwear in terms of insufficient foot support and cushioning, providing comprehensive cushioning and massage effects, thereby enhancing the comfort and stability of the shoes.

CN224440519UActive Publication Date: 2026-07-03ZHEJIANG IND & TRADE VOCATIONAL & TECH COLLEGE (ZHEJIANG IND & TRADE TECHNICIAN COLLEGE)

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG IND & TRADE VOCATIONAL & TECH COLLEGE (ZHEJIANG IND & TRADE TECHNICIAN COLLEGE)
Filing Date
2025-04-08
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Traditional footwear is inadequate in terms of foot support and cushioning, and has limited massage function, making it difficult to meet the needs of foot health.

Method used

The shoe features a multi-layered cushioning outsole structure, including a first rubber layer, a second rubber layer, and an abrasion-resistant rubber layer, with a foam filling layer in between. Combined with massage components such as massage strips and ventilation holes, it provides all-around cushioning and massage effects.

Benefits of technology

It provides effective cushioning and massage for the feet, improving the comfort, anti-slip performance, and long-term stability of the shoes, thus meeting the needs of foot health.

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Abstract

This application discloses an elastic health massage shoe, relating to the field of footwear technology, comprising an upper, an insole, and a cushioning sole. Laces are threaded through the eyelets of the upper. The upper is connected to the cushioning sole, and the insole is laid on a first rubber layer of the cushioning sole. The cushioning sole further includes a second rubber layer and a wear-resistant rubber layer, with the second rubber layer connected to the bottom surface of the first rubber layer. The wear-resistant rubber layer is connected to the bottom of the second rubber layer and has several anti-slip protrusions. This application not only effectively cushions the sole of the foot but also provides ample massage, fully releasing foot pressure.
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Description

Technical Field

[0001] This application relates to the field of footwear technology, specifically to an elastic health massage shoe. Background Technology

[0002] Traditional shoes generally fall short in terms of foot support and cushioning. For example, while athletic shoes emphasize athletic performance, they often fail to provide adequate support and cushioning for prolonged walking or standing, easily leading to foot fatigue and injury. Traditional massage shoes, while offering some massage function, have a limited massage area and their effects may not be significant.

[0003] However, with the improvement of people's living standards and the enhancement of health awareness, more and more people are beginning to pay attention to foot health. As an important part of the human body, the feet bear the weight of the entire body, and their health directly affects overall health. Therefore, people are seeking shoes that combine elasticity with a massage function to meet their needs for foot health. Utility Model Content

[0004] In view of this, this application provides an elastic health massage shoe that can effectively cushion the soles of the feet and provide sufficient massage to the feet, thereby solving the above-mentioned technical problems.

[0005] To achieve the above objectives, this utility model provides the following technical solution:

[0006] A type of elastic health massage shoe, comprising:

[0007] The shoe has an upper with laces threaded through the eyelets.

[0008] A shoe insole;

[0009] A cushioned sole, with the upper connected to the cushioned sole, and the insole laid on the first rubber layer of the cushioned sole;

[0010] The cushioned sole also includes:

[0011] A second rubber layer is connected to the bottom surface of the first rubber layer;

[0012] A wear-resistant rubber layer is connected to the bottom of a second rubber layer, and several anti-slip protrusions are provided on the wear-resistant rubber layer.

[0013] Furthermore, a foamed filler layer is provided between the first rubber layer and the second rubber layer.

[0014] Furthermore, a plurality of first filling cavities are formed on the first rubber layer, and the upper protrusion of the foam filling layer is accommodated in the first filling cavity.

[0015] Furthermore, the front end of the second rubber layer is provided with several second filling cavities and several third filling cavities, the main body of the foam filling layer is accommodated in the second filling cavity, and the first lower protrusion of the foam filling layer is accommodated in the third filling cavity.

[0016] Furthermore, several fourth filling cavities are provided at the middle of the second rubber layer, and the second lower protrusion of the foam filling layer is accommodated in the fourth filling cavity.

[0017] Furthermore, an anti-slip groove is provided between two adjacent anti-slip protrusions.

[0018] Furthermore, the surface of the insole is provided with a massage component, which includes:

[0019] Several first massage strips are placed on the sole of the insole;

[0020] Several ventilation holes are located on both sides of the arch of the insole;

[0021] Several massage bumps are spaced out along the edge of the insole.

[0022] Several second massage strips are placed at the heel of the insole.

[0023] Furthermore, each of the second massage strips is provided with multiple flanges.

[0024] As can be seen from the above technical solution, the advantages of this utility model are:

[0025] 1. The insole in this application has a massage device that can provide sufficient massage to the feet.

[0026] 2. The first rubber layer, the second rubber layer, and the wear-resistant rubber layer provided in this application can effectively cushion the soles of the feet, resulting in better health benefits. Attached Figure Description

[0027] The accompanying drawings, which form part of this application, are used to provide a further understanding of this application. The illustrative embodiments of this application and their descriptions are used to explain this application and do not constitute an undue limitation of this application.

[0028] Figure 1 This is a schematic diagram of the structure of this application.

[0029] Figure 2 This is a cross-sectional view of the cushioning sole of this application.

[0030] Figure 3 This is a cross-sectional view of the front part of the cushioned shoe sole of this application.

[0031] Figure 4This is a cross-sectional view of the middle section of the cushioning sole of this application.

[0032] Figure 5 This is a cross-sectional view of the rear part of the cushioned shoe sole of this application.

[0033] Figure 6 This is a structural diagram of the insole of this application.

[0034] Figure 7 This is a cross-sectional view of the structure of the second massage strip of this application.

[0035] Explanation of reference numerals in the attached drawings: Upper - 10, Shoelaces - 11, Insole - 20, First Massage Strip - 21, Ventilation Hole - 22, Massage Raised Points - 23, Second Massage Strip - 24, Flange - 241, Cushioning Outsole - 30, First Rubber Layer - 31, First Filling Cavity - 311, Second Rubber Layer - 32, Second Filling Cavity - 321, Third Filling Cavity - 322, Fourth Filling Cavity - 323, Abrasion-Resistant Rubber Layer - 33, Anti-Slip Groove - 331, Foamed Filling Layer - 34, Upper Convex Part - 341, First Lower Convex Part - 342, Second Lower Convex Part - 343. Detailed Implementation

[0036] To make the objectives, technical solutions, and advantages of this application clearer, the application will be further described in detail below with reference to the embodiments and accompanying drawings. Here, the illustrative embodiments and their descriptions are used to explain this application, but are not intended to limit it.

[0037] refer to Figures 1 to 7 ,like Figure 1 , Figure 2 , Figure 3 and Figure 4 As shown, this embodiment provides an elastic health massage shoe, including an upper 10, an insole 20, and a cushioning sole 30. The upper 10 is connected to the cushioning sole 30. Shoelaces 11 are threaded through the eyelets of the upper 10. The cushioning sole 30 is composed of multiple layers, including a first rubber layer 31, a second rubber layer 32, and a wear-resistant rubber layer 33. The insole 20 is laid on top of the first rubber layer 31 of the cushioning sole 30. The second rubber layer 32 is connected to the bottom surface of the first rubber layer 31. The wear-resistant rubber layer 33 is connected to the bottom of the second rubber layer 32, and has several anti-slip protrusions. The anti-slip protrusions increase the friction between the sole and the ground, improving the shoe's anti-slip performance, especially on wet or uneven surfaces.

[0038] Preferably, an anti-slip groove 331 is formed between two adjacent anti-slip protrusions.

[0039] The multi-layered cushioning sole 30 includes an insole 20 laid on a first rubber layer 31, a second rubber layer 32, and an abrasion-resistant rubber layer 33 with anti-slip protrusions. Therefore, it provides good comfort, cushioning, and anti-slip performance to meet the different needs of wearers.

[0040] like Figure 3 , Figure 4 and Figure 5 As shown, a foamed filling layer 34 is disposed between the first rubber layer 31 and the second rubber layer 32. Foamed materials typically have good cushioning properties and are lightweight, and can absorb the impact force generated during walking or exercise, improving the elasticity and comfort of the shoes.

[0041] Specifically, the first rubber layer 31 and the second rubber layer 32 are connected by a foamed filler layer 34 to form an embedded composite structure. The first rubber layer 31 has a plurality of first filling cavities 311, which are concave structures with downward openings. The upper convex portion 341 of the foamed filler layer 34 accommodates and fills the first filling cavities 311, forming a "convex-concave interlocking" connection.

[0042] The second rubber layer 32 has several second filling cavities 321, third filling cavities 322, and fourth filling cavities 323, all of which are upward-opening concave structures. The main body of the foam filling layer 34 is housed within the second filling cavity 321, the first lower protrusion 342 of the foam filling layer 34 is housed within the third filling cavity 322, and the second lower protrusion 343 of the foam filling layer 34 is housed within the fourth filling cavity 323. Thus, the upper and lower surfaces of the foam filling layer 34 are respectively embedded into the corresponding filling cavities of the first rubber layer 31 and the second rubber layer 32 through multiple protrusions, forming three-dimensional positioning and fixation.

[0043] The above-described "multi-cavity, multi-convex" embedded structure design achieves the following beneficial effects:

[0044] Enhanced interlayer bonding strength: Multiple protrusions of the foam filling layer 34 are respectively embedded in the corresponding filling cavities of the first rubber layer 31 and the second rubber layer 32, increasing the contact area between the layers and forming a mechanical interlocking structure, effectively preventing relative slippage or peeling of the layers during use, thereby ensuring the structural integrity of the sole.

[0045] Improved long-term stability: Each filling cavity provides circumferential restraint to the protrusions of the foam filling layer 34. Even under repeated compression and bending loads over a long period, the foam filling layer 34 is not prone to displacement or deformation failure, ensuring the durability of the cushioning performance. Simulation tests show that after 100,000 dynamic compressions, the layers remain tightly bonded with no obvious peeling.

[0046] Optimized stress distribution: The combination of the protrusions of the foam filling layer 34 and the filling cavity can transmit foot pressure more evenly to the entire sole, avoiding structural damage caused by local stress concentration and further extending the service life of the sole.

[0047] The first rubber layer 31 has several first filling cavities 311, and the upper protrusion 341 of the foam filling layer 34 is accommodated in the first filling cavities 311. The first filling cavities 311 are used to accommodate the upper protrusion 341 of the foam filling layer 34, so as to achieve a tight bond between the two layers and enhance the cushioning effect. The front end, middle end and rear end of the second rubber layer 32 have second filling cavities 321, and the front end and rear end of the second rubber layer 32 have several third filling cavities 322. The main body of the foam filling layer 34 is accommodated in the second filling cavities 321, and the first lower protrusion 342 of the foam filling layer 34 is accommodated in the third filling cavities 322, further achieving a tight bond between the two layers and enhancing the cushioning effect.

[0048] Preferably, a plurality of fourth filling cavities 323 are provided at the middle of the second rubber layer 32, and the second lower protrusion 343 of the foam filling layer 34 is accommodated in the fourth filling cavity 323, thereby further achieving a tight bond between the two layers and enhancing the buffering effect.

[0049] By creating filling cavities in the first rubber layer 31 and the second rubber layer 32, and accommodating different portions of the foam filling layer 34, a tight bond between the multiple layers and a comprehensive enhancement of the cushioning effect are achieved. This improves the cushioning performance of the sole, enhances its structural stability and durability, and maintains its lightweight nature.

[0050] like Figure 6 and Figure 7 As shown, the insole 20 is laid on top of the first rubber layer 31 of the cushioned sole 30, directly contacting the wearer's foot. It provides the wearer with additional comfort and support, while also offering massage and breathability through integrated massage components.

[0051] The surface of the insole 20 is provided with a massage component. In order to improve the wearer's comfort and foot health, the massage component includes several first massage strips 21 that are all located on the sole of the foot of the insole 20, several ventilation holes 22 that are all located on both sides of the sole of the foot of the insole 20, several massage protrusions 23 that are spaced apart on the edge of the insole 20, and several second massage strips 24 that are all located on the heel of the insole 20.

[0052] During walking or exercise, several first massage strips 21 stimulate acupoints on the soles of the feet, promoting blood circulation and relieving foot fatigue. Several ventilation holes 22 allow air circulation, reducing foot sweat and odor, and keeping feet dry and comfortable. Several massage bumps 23 provide additional foot massage while the wearer walks, stimulating acupoints on the edges of the soles of the feet, further enhancing comfort and relaxation. Several second massage strips 24 support the heels and provide a massage effect while walking or standing, relieving pressure and fatigue in the heel area.

[0053] The massage components cover multiple key areas of the insole 20, including the sole, arch, edges, and heel, providing the wearer with a comprehensive massage and comfort experience. By integrating the first massage strip 21, the second massage strip 24, the ventilation holes 22, and the massage bumps 23, the insole 20 not only provides comfortable support but also enhances blood circulation and breathability in the feet.

[0054] Preferably, each second massage strip 24 is provided with multiple flanges 241. The flanges 241 are small protrusions that extend outward from the edge of the second massage strip 24. When the flanges 241 contact the heel, they can provide additional stimulation and massage, further promoting blood circulation and relieving fatigue.

[0055] Therefore, these elastic health massage shoes not only offer comfort, cushioning, and slip resistance, but also provide a massage function, meeting the diverse needs of wearers.

[0056] The above are merely preferred embodiments of this application and are not intended to limit this application. Various modifications and variations can be made to the embodiments of this application by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this application should be included within the protection scope of this application.

Claims

1. An elastic health-care massaging shoe, characterized by, include: A shoe upper (10), on which shoelaces (11) are threaded through the eyelets; A cushioning sole (30), wherein the upper (10) is connected to the cushioning sole (30), and the cushioning sole (30) comprises: First rubber layer (31); A second rubber layer (32) is connected to the bottom surface of the first rubber layer (31); A wear-resistant rubber layer (33) is connected to the bottom of the second rubber layer (32), and a plurality of anti-slip protrusions are provided on the wear-resistant rubber layer (33); An insole (20) is laid on the first rubber layer (31) of the cushioning sole (30), and a massage component is provided on the surface of the insole (20), the massage component comprising: A plurality of first massage strips (21) are provided on the sole of the insole (20); A plurality of ventilation holes (22) are provided on both sides of the insole (20) at the center of the foot. A plurality of massage bumps (23) are provided at intervals along the edge of the insole (20); Several second massage strips (24) are provided at the heel of the insole (20).

2. The elastic health-care massaging shoe according to claim 1, wherein A foamed filler layer (34) is provided between the first rubber layer (31) and the second rubber layer (32).

3. The elastic health-care massaging shoe according to claim 2, wherein The first rubber layer (31) has a plurality of first filling cavities (311), and the upper protrusion (341) of the foam filling layer (34) is accommodated in the first filling cavity (311).

4. The elastic health-care massaging shoe according to claim 3, wherein The front end of the second rubber layer (32) is provided with a plurality of second filling cavities (321) and a plurality of third filling cavities (322). The main body of the foam filling layer (34) is accommodated in the second filling cavity (321), and the first lower protrusion (342) of the foam filling layer (34) is accommodated in the third filling cavity (322).

5. The elastic health-care massaging shoe according to claim 4, wherein The second rubber layer (32) has several fourth filling cavities (323) at its middle end, and the second lower protrusion (343) of the foam filling layer (34) is accommodated in the fourth filling cavity (323).

6. The elastic health-care massaging shoe according to claim 1, wherein An anti-slip groove (331) is provided between two adjacent anti-slip protrusions.

7. The elastic health-care massaging shoe according to claim 1, wherein Each second massage bar (24) is provided with multiple flanges (241).