Traditional Chinese medicine shoe sole containing uraria and air-conditioning air bag

By integrating the airbag propulsion module and the placement module, the design utilizes the air intake control switch and the connection module to achieve the active pushing and uniform volatilization of Chinese medicine ingredients in the sole of the shoe. This solves the problems of poor flow and inconvenience of replenishing Chinese medicine ingredients in the sole of the shoe, and improves the sustainability and utilization rate of Chinese medicine efficacy.

CN224402996UActive Publication Date: 2026-06-26WULACAO (ZHEJIANG) SHOES & CLOTHING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
WULACAO (ZHEJIANG) SHOES & CLOTHING CO LTD
Filing Date
2025-09-12
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

The existing Chinese medicine shoe soles rely on natural diffusion for the volatilization of Chinese medicine ingredients, resulting in poor gas flow and difficulty in evenly distributing the Chinese medicine ingredients to the foot. Furthermore, the air bladder structure lacks effective control, leading to insufficient sustainability of the Chinese medicine's efficacy and low utilization rate.

Method used

Design a traditional Chinese medicine shoe sole containing Ula grass and air conditioning airbags. By integrating the airbag propulsion module and the placement module, the active pushing of gas and uniform volatilization of traditional Chinese medicine components are achieved by using an air intake control switch and a connecting module. Combined with a duckbill valve and ventilation grooves, a directional gas circulation path is formed to ensure the effective diffusion and replenishment of traditional Chinese medicine components.

Benefits of technology

It improves the circulation efficiency and utilization rate of Chinese medicine gas, realizes the uniform action of Chinese medicine components on the feet, facilitates the replenishment and replacement of Chinese medicine, and solves the problem of insufficient duration of Chinese medicine efficacy in Chinese medicine shoe soles.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to the technical field of shoe sole, specifically relates to a traditional chinese medicine shoe sole containing uraria and air bag, which comprises: a shoe body, the shoe body is equipped with air bag propulsion module and placing module connected in proper order, the air bag propulsion module contains air bag, first installation slot, pressure plate and air inlet control switch, the air bag is installed in the first installation slot and is matched, the air inlet control switch is installed around the first installation slot and is embedded in the surface of the shoe body, the pressure plate is connected with the air inlet control switch and the side wall is attached to the air bag, the placing module contains second installation slot, first band, second band and gauze, two bands are arranged in parallel at the opening of the second installation slot and are connected with the shoe body at both ends, and the gauze is fixed on the two bands, the utility model realizes function cooperation through air bag propulsion and traditional chinese medicine placing module, and improves the traditional chinese medicine action efficiency and use convenience.
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Description

Technical Field

[0001] This utility model relates to the field of shoe sole technology, and more specifically, to a traditional Chinese medicine shoe sole containing Ula grass and an air conditioning airbag. Background Technology

[0002] In existing technologies, herbal shoe soles typically achieve antibacterial, deodorizing, or health-promoting effects by filling the sole with herbal ingredients, utilizing the natural properties of these herbs. These soles often employ a closed-loop design, with the herbal ingredients fixed inside. The active ingredients primarily exert their effects through slow evaporation via foot heat, contacting the skin. To enhance comfort, some soles incorporate air cushioning to reduce impact during walking; however, the air cushions and herbal ingredients are often designed independently, lacking synergistic effects.

[0003] However, the volatilization of herbal ingredients in existing herbal shoe soles relies on natural diffusion, resulting in poor gas circulation. This makes it difficult for the effective components of the herbal medicine to act evenly on the foot, affecting their efficacy. After the herbal ingredients are consumed, the closed structure of the sole makes it difficult for users to easily replenish or replace the herbal ingredients, leading to insufficient sustainability of the herbal efficacy. In addition, the lack of effective control over the air intake and exhaust of the air bladder structure prevents targeted promotion of herbal gas circulation, exacerbating the problem of low utilization rate of herbal ingredients.

[0004] Therefore, there is an urgent need for a type of shoe sole containing Ula grass and air conditioning airbags, which are traditional Chinese medicine ingredients. Utility Model Content

[0005] In view of this, this utility model addresses the shortcomings of the prior art by proposing a traditional Chinese medicine shoe sole containing Ula grass and an air conditioning airbag, aiming to solve the problems of poor circulation of traditional Chinese medicine gas inside the shoe sole and inconvenience in replenishing traditional Chinese medicine in the prior art.

[0006] This utility model provides a traditional Chinese medicine shoe sole containing Ula grass and an air conditioning airbag, comprising:

[0007] The shoe body is provided with an airbag propulsion module and a placement module connected in sequence.

[0008] The airbag propulsion module includes: an airbag, a first mounting groove, a pressure plate, and an air intake control switch. The airbag is installed in the first mounting groove and matches the first mounting groove. The air intake control switch is installed around the first mounting groove and is embedded in the surface of the shoe body. The pressure plate is connected to the air intake control switch, and the side wall of the pressure plate is in contact with the airbag.

[0009] The placement module includes: a second mounting groove, a first strap, a second strap, and a mesh. The first strap and the second strap are arranged parallel to each other at the opening of the second mounting groove. Both ends of the first strap and both ends of the second strap are connected to the shoe body. The mesh is disposed between the first strap and the second strap and is fixed to the first strap and the second strap.

[0010] Furthermore, an air outlet and an air inlet are respectively provided at both ends of the airbag. The air outlet is connected to one end of the air outlet duct, and a duckbill valve is provided at the other end of the air outlet duct. The duckbill valve is connected to the second mounting groove. The air inlet is connected to the air inlet channel, and the air inlet channel is located inside the shoe body.

[0011] Furthermore, it also includes: a communication module, the communication module being disposed on the surface of the shoe body;

[0012] The connecting module includes: a ventilation groove, an anti-slip protrusion, and a connecting groove. The ventilation groove and the anti-slip protrusion are both disposed on the surface of the shoe body. The two ends of the connecting groove are respectively connected to the first mounting groove and the second mounting groove.

[0013] Furthermore, the ventilation groove is provided with a first air inlet and a second air inlet, which are symmetrically arranged on both sides of the shoe body of the airbag, and the first air inlet and the second air inlet are respectively connected to the air intake channel.

[0014] Furthermore, the air intake control switches are respectively disposed around the first air intake, the second air intake, and the first mounting groove, and each air intake control switch is located below the pressure plate.

[0015] Furthermore, the air intake control switch includes a locking device, a rubber ball, and a first spring. The rubber ball is disposed inside the first spring and on the locking device. The two ends of the first spring are respectively attached to the locking device and the shoe body.

[0016] Furthermore, the locking device includes a connecting plate, a hollow cylinder, a fixed rod, and a telescopic rod. The connecting plate is connected to the hollow cylinder, and the fixed rod is disposed inside the hollow cylinder. One end of the fixed rod is connected to the connecting plate, and the other end of the fixed rod is connected to the telescopic rod. A second spring is provided inside both the fixed rod and the telescopic rod, and the two ends of the second spring are respectively connected to the inner sidewall of the connecting plate and the telescopic rod.

[0017] Furthermore, a first circular chuck is provided on the outer wall of the fixing rod, and the first circular chuck is disposed inside the rubber ball.

[0018] Furthermore, one end of the telescopic rod is embedded inside the fixed rod, and the other end of the telescopic rod is provided with a second circular chuck. The second circular chuck is located inside the air inlet channel and is secured inside the shoe body. The second circular chuck has several ventilation openings, which are used to prevent the air inlet channel from being blocked.

[0019] Furthermore, the side wall of the pressure plate is provided with a handle and a cloth strip, and the two ends of the cloth strip are respectively connected to the handle and the shoe body.

[0020] Compared with the prior art, the advantages of this invention are as follows: The airbag propulsion module and placement module, connected sequentially, are integrated into a functionally coordinated whole through the shoe body, avoiding the functional separation caused by the independent setting of the two modules. This allows the gas propulsion of the airbag and the effect of the traditional Chinese medicine ingredients to form an organic linkage. In the airbag propulsion module, the design of the airbag matching the first mounting groove ensures the stability of the airbag installation, effectively preventing the airbag from shifting during walking and affecting its normal function. The air intake control switch is installed around the first mounting groove and embedded in the surface of the shoe body. Combined with the pressure plate connected to the air intake control switch and with its side wall attached to the airbag, the pressure plate can compress the airbag and, in conjunction with the adjustment of the air intake control switch, allow the pressure plate to work by compressing the airbag when under pressure. The active promotion of gas flow within the airbag changes the passive circulation method of traditional Chinese medicine gas in shoe soles, which relies solely on natural diffusion, thus improving gas flow efficiency. In the placement module, the second mounting slot provides a dedicated space for Chinese medicine ingredients such as Ula grass. The first and second straps are set parallel to each other at the opening of the second mounting slot and connected to the shoe body at both ends. This not only covers the opening of the second mounting slot by fixing the mesh, but also ensures that the Chinese medicine ingredients can evaporate smoothly to the outside and come into contact with the foot due to the breathability of the mesh. Furthermore, the closable nature of the straps makes it easy for users to open the mesh, thus facilitating the replenishment or replacement of the Chinese medicine in the second mounting slot. This solves the problem of difficulty in replenishing Chinese medicine ingredients after they are consumed in traditional Chinese medicine shoe soles. Attached Figure Description

[0021] Figure 1 This is a schematic diagram of the overall structure of the herbal shoe sole containing Ula grass and an air conditioning airbag, provided in an embodiment of this utility model.

[0022] Figure 2 This is a schematic diagram of the structure of the sole of a traditional Chinese medicine shoe containing Ula grass and an air conditioning airbag, provided in an embodiment of this utility model.

[0023] Figure 3 A schematic diagram showing the connection between the air intake control switch and the first air intake provided in an embodiment of this utility model.

[0024] Figure 4 A cross-sectional view of the locking device provided in an embodiment of this utility model.

[0025] Figure 5This is a schematic diagram of the overall structure of the locking device provided in an embodiment of the present utility model.

[0026] Among them: 10. Shoe body; 101. Anti-slip protrusion; 102. Ventilation groove; 103. First strap; 104. Second strap; 105. Mesh; 106. First mounting groove; 107. Second mounting groove; 108. Connecting groove; 20. Airbag; 201. Air outlet duct; 202. Duckbill valve; 203. Air outlet; 204. Air inlet; 205. Air inlet channel; 206. First air inlet; 2 07. Second air inlet; 30. Pressure plate; 301. Handle; 302. Cloth strip; 40. Air intake control switch; 400. Locking device; 401. Connecting plate; 402. Hollow cylinder; 403. First spring; 404. Rubber ball; 405. Fixing rod; 406. Telescopic rod; 407. First circular chuck; 408. Second spring; 409. Second circular chuck; 4091. Ventilation opening. Detailed Implementation

[0027] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of this application.

[0028] In the description of this application, it should be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this application.

[0029] The terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Therefore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of this application, unless otherwise stated, "a plurality of" means two or more.

[0030] In the description of this application, it should be noted that, in some embodiments of this application, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal communication between two components. Those skilled in the art can understand the specific meaning of the above terms in this application based on the specific circumstances.

[0031] like Figure 1-5 As shown, a preferred embodiment of the present invention provides a traditional Chinese medicine shoe sole containing Ula grass and an air conditioning airbag, comprising:

[0032] The shoe body 10 is provided with an airbag propulsion module and a placement module connected in sequence.

[0033] The airbag propulsion module includes: an airbag 20, a first mounting groove 106, a pressure plate 30, and an air intake control switch 40. The airbag 20 is installed in the first mounting groove 106 and matches the first mounting groove 106. The air intake control switch 40 is installed around the first mounting groove 106 and is embedded in the surface of the shoe body 10. The pressure plate 30 is connected to the air intake control switch 40, and the side wall of the pressure plate 30 is in contact with the airbag 20.

[0034] The placement module includes: a second mounting groove 107, a first strap 103, a second strap 104, and a mesh 105. The first strap 103 and the second strap 104 are arranged parallel to each other at the opening of the second mounting groove 107. Both ends of the first strap 103 and both ends of the second strap 104 are connected to the shoe body 10. The mesh 105 is disposed between the first strap 103 and the second strap 104 and is fixed to the first strap 103 and the second strap 104.

[0035] It should be noted that the pressure plate 30 is welded together with the air intake control switch 40. The shoe body 10 connects the airbag propulsion module and the placement module in sequence, forming a functionally coordinated overall structure. This integrated design avoids the functional separation problem caused by the independent setting of the two modules. In the airbag propulsion module, the design of the airbag 20 matching the first mounting groove 106 ensures the stability of the airbag 20 installation, which can effectively prevent the airbag 20 from shifting during walking and affecting its function. The air intake control switch 40 is installed around the first mounting groove 106 and embedded in the surface of the shoe body 10. Together with the pressure plate 30 connected to the air intake control switch 40 and with its sidewall attached to the airbag 20, the pressure plate 30 can actively propel the airbag 20 by squeezing it under force, in conjunction with the regulation of the air intake control switch 40. The flow of gas within the bladder 20 solves the problem of poor circulation caused by the reliance on natural diffusion of gas in existing herbal shoe soles. In the placement module, the second mounting groove 107 provides a dedicated space for the placement of herbal ingredients such as Ula grass. The first strap 103 and the second strap 104 are arranged parallel to each other at the opening and connected to the shoe body 10 at both ends. The fixed mesh 105 forms a cover over the opening of the second mounting groove 107, and the openable nature of the straps makes it easy to open the mesh 105. The mesh 105 is fixed between the straps, and its breathable nature ensures that the herbal ingredients can evaporate smoothly to the outside and come into contact with the foot. At the same time, it is convenient for users to replenish or replace the herbal ingredients in the second mounting groove 107 by opening the straps and mesh 105. This utility model also protects the shoes made with this sole.

[0036] In some embodiments of this application, the airbag 20 is provided with an air outlet 203 and an air inlet 204 at both ends. The air outlet 203 is connected to one end of the air outlet duct 201, and the other end of the air outlet duct 201 is provided with a duckbill valve 202. The duckbill valve 202 is connected to the second mounting groove 107, and the air inlet 204 is connected to the air inlet channel 205. The air inlet channel 205 is located inside the shoe body 10.

[0037] It should be noted that the air outlets 203 and air inlets 204 at both ends of the airbag 20 respectively construct channels for gas output and input, forming a complete gas circulation path. Specifically, the air outlet 203 is connected to the duckbill valve 202 via the air outlet duct 201, and the duckbill valve 202 is connected to the second mounting slot 107 where the traditional Chinese medicine is placed. This design allows the gas inside the airbag 20 to be directionally transported to the second mounting slot 107, utilizing the gas flow to carry the volatile active ingredients of the traditional Chinese medicine to diffuse to the feet, enhancing the efficacy of the medicine. Simultaneously, the one-way conduction characteristic of the duckbill valve 202 prevents traditional Chinese medicine debris or impurities in the second mounting slot 107 from reversing into the air outlet duct 201, avoiding duct blockage and affecting gas delivery. The air inlet 204 is connected to the air intake channel 205 inside the shoe body 10, which allows fresh air to be drawn in from the outside and supplied to the airbag 20 through the air intake channel 205. This ensures that the airbag 20 continuously pushes gas, solving the problem that the existing airbag 20 structure lacks a directional gas delivery design and cannot effectively cooperate with the Chinese medicine ingredients to play a role, and further improving the flow and utilization rate of Chinese medicine gas.

[0038] In some embodiments of this application, a communication module is also included, wherein the communication module is disposed on the surface of the shoe body 10;

[0039] The connecting module includes: a ventilation groove 102, an anti-slip protrusion 101, and a connecting groove 108. The ventilation groove 102 and the anti-slip protrusion 101 are both provided on the surface of the shoe body 10. The two ends of the connecting groove 108 are respectively connected to the first mounting groove 106 and the second mounting groove 107.

[0040] It should be noted that the structural design of the ventilation groove 102 and the anti-slip protrusion 101 forms a complementary and organic whole. The anti-slip protrusion 101 is located on the upper surface of the shoe body 10. When the insole is placed, its protruding structure can firmly grip the insole by increasing friction, effectively preventing the insole from shifting or slipping during walking, ensuring stability and comfort. The recessed parts between the anti-slip protrusions 101 form the ventilation groove 102. This design cleverly utilizes the gaps between the protrusions to form a natural channel for air circulation. When the airbag 20 blows out air, the air can diffuse along the ventilation groove 102 inside the shoe body 10, evenly delivering the volatile components of the traditional Chinese medicine in the second mounting groove 107 to the entire foot, ensuring that the traditional Chinese medicine components can fully act on all areas of the foot, avoiding the problem of concentrated local effects while other areas have weak effects. Meanwhile, the combination of the ventilation groove 102 and the anti-slip protrusion 101 achieves anti-slip function without affecting gas flow, maximizing the use of structural space and further improving the practicality of the sole. The connecting groove 108 connects the first mounting groove 106 and the second mounting groove 107 at both ends, creating an internal channel between the two modules. This allows the gas pushed by the airbag propulsion module to flow through the air outlet pipe 201 in the connecting groove 108 to the second mounting groove 107, enhancing the diffusion range of the herbal gas. Simultaneously, it allows the volatile herbal components in the second mounting groove 107 to act on the surrounding area of ​​the airbag 20 through the ventilation groove 102, improving the overall efficacy coverage and solving the problem of relatively independent functional areas and a single gas flow path in existing soles.

[0041] In some embodiments of this application, a first air inlet 206 and a second air inlet 207 are provided in the ventilation groove 102. The first air inlet 206 and the second air inlet 207 are symmetrically arranged on the shoe body 10 on both sides of the airbag 20. The first air inlet 206 and the second air inlet 207 are respectively connected to the air intake channel 205.

[0042] It should be noted that the first air inlet 206 and the second air inlet 207, located within the ventilation groove 102, serve as key entry points for gas into the sole, further enhancing the gas circulation system. Symmetrically distributed on both sides of the shoe body 10 of the airbag 20, they can draw in external air from different directions, increasing the air intake and ensuring the airbag 20 has a sufficient gas source to maintain its continuous pushing function, preventing interruption of air supply to the airbag 20 due to insufficient air intake on one side. Simultaneously, the first air inlet 206 and the second air inlet 207 are connected to the air intake channel 205, allowing the drawn-in air to be precisely delivered to the air inlet 204 of the airbag 20 through the air intake channel 205, forming a directional and efficient gas supply path. This design utilizes the space of the ventilation groove 102 to achieve a reasonable layout of the air inlet, and the symmetrical arrangement allows for more even gas intake, reducing local pressure differences in the airbag 20 caused by uneven air supply and ensuring its stable operation. In addition, the combination of the air inlet and the ventilation groove 102 allows the air inside the shoe to circulate and repeatedly act on the foot, improving the utilization rate of volatile substances in traditional Chinese medicine.

[0043] In some embodiments of this application, air intake control switches 40 are respectively disposed around the first air intake 206, the second air intake 207 and the first mounting groove 106, and each air intake control switch 40 is located below the pressure plate 30.

[0044] It should be noted that several air intake control switches 40 around the first mounting slot 106 can be installed according to actual needs. Only one is shown here as an example. This flexible arrangement can adapt to different sizes and support strength requirements of the pressure plate 30. Specifically, the primary function of the surrounding air intake control switches 40 is not to participate in air intake regulation, but rather to form a triangular structure together with the air intake control switches 40 on the first air intake 206 and the second air intake 207. This three-point support provides stable force support to the pressure plate 30. When pressure is applied to the pressure plate 30 by the foot, this triangular support structure evenly distributes the pressure to the three support points, preventing the pressure plate 30 from tilting or deforming due to uneven force, ensuring it remains stably fitted with the airbag 20. This ensures that the airbag 20 can contract and release air in an orderly manner when compressed, maintaining the continuity of gas delivery. Simultaneously, this design, while providing support, does not interfere with the air intake control function of the switches at the first air intake 206 and the second air intake 207, making the structural division of labor clearer.

[0045] In some embodiments of this application, the air intake control switch 40 includes a locking device 400, a rubber ball 404 and a first spring 403. The rubber ball 404 is disposed inside the first spring 403 and on the locking device 400. The two ends of the first spring 403 are respectively attached to the locking device 400 and the shoe body 10.

[0046] It should be noted that the rubber ball 404 is placed inside the first spring 403 and installed on the locking device 400. The two ends of the first spring 403 are respectively attached to the locking device 400 and the shoe body 10, forming an elastically stretchable integral structure. Under normal conditions, with the support of the first spring 403, a gap is maintained between the rubber ball 404 and the first air inlet 206 and the second air inlet 207, reserving a channel for gas to enter and ensuring that the airbag 20 can smoothly draw in air from the outside. When the pressure plate 30 is pressed downward, it will push the locking device 400 to compress the first spring 403, causing the rubber ball 404 to move down and tightly block the air inlet, cutting off the external air intake. At this time, the airbag 20 pushes the internal gas to the second mounting groove 107 due to the pressure. When the pressure of the pressure plate 30 is released, the elastic force of the first spring 403 will drive the locking device 400 and the rubber ball 404 to reset, and the gap between the rubber ball 404 and the air inlet will be re-formed, allowing the airbag 20 to draw in air again. This design achieves automatic air intake switching through the elastic deformation of the mechanical structure, without the need for an additional power source. It ensures orderly switching between air intake and exhaust, and enhances the sealing effect by utilizing the flexibility of the rubber ball 404. This solves the problems of complex and poor sealing of traditional switch structures. At the same time, the combination of spring and rubber ball 404 makes the switch action more sensitive, further improving the efficiency of gas circulation in the airbag 20.

[0047] In some embodiments of this application, the locking device 400 is provided with a connecting plate 401, a hollow cylinder 402, a fixing rod 405, and a telescopic rod 406. The connecting plate 401 is connected to the hollow cylinder 402. The fixing rod 405 is disposed inside the hollow cylinder 402. One end of the fixing rod 405 is connected to the connecting plate 401, and the other end of the fixing rod 405 is connected to the telescopic rod 406. A second spring 408 is provided inside both the fixing rod 405 and the telescopic rod 406. The two ends of the second spring 408 are respectively connected to the inner sidewalls of the connecting plate 401 and the telescopic rod 406.

[0048] It should be noted that the structural design of the locking device 400, through the coordinated operation of multiple components, further enhances the stability and operational precision of the intake control switch 40. Structurally, the connecting plate 401, as the core component for force transmission, is rigidly connected to the hollow cylinder 402, which can evenly transmit the pressure of the pressure plate 30 to the entire locking device 400. The hollow cylinder 402 fits against the rubber ball 404, providing a closed and stable movement cavity for the internal fixed rod 405 and telescopic rod 406, playing a guiding role and preventing radial displacement during extension and retraction. It can also directly provide downward pressure to the rubber ball 404 during operation, ensuring that the rubber ball 404 accurately blocks the air intake. One end of the fixed rod 405 is connected to the connecting plate 401, and the other end is connected to the telescopic rod 406, forming a telescopic rod structure. The second spring 408, which is shared with the telescopic rod 406, is connected at both ends to the inner walls of the connecting plate 401 and the telescopic rod 406, respectively, forming a two-stage elastic buffer mechanism. When the pressure plate 30 is pressed down, the connecting plate 401 pushes the hollow cylinder 402 downward, and the hollow cylinder 402 directly transmits the pressure to the rubber ball 404. At the same time, the fixing rod 405 and the telescopic rod 406 contract under the guidance of the cavity, and the second spring 408 is compressed, assisting the first spring 403 in absorbing the pressure and avoiding damage to the structure caused by rigid impact. When the pressure is released, the second spring 408 and the first spring 403 work together to reset. The extension of the fixing rod 405 and the telescopic rod 406 drives the connecting plate 401 and the hollow cylinder 402 to move upward, so that the rubber ball 404 accurately returns to its normal position. This design utilizes the guiding properties of the hollow cylinder 402 to ensure the coaxiality of the locking device 400's movement, preventing air leakage caused by misalignment of the rubber ball 404 during sealing. It also enhances pressure transmission efficiency through direct contact with the rubber ball 404. Combined with the structure of the second spring 408 and the first spring 403, it enhances the overall elastic restoring force, making the switch action smoother and the reset more precise. At the same time, the combination of rigid connection and flexible buffer of multiple components extends the service life of the device and solves the problem that a single elastic structure is prone to failure due to uneven force.

[0049] In some embodiments of this application, a first circular chuck 407 is provided on the outer wall of the fixing rod 405, and the first circular chuck 407 is disposed inside the rubber ball 404.

[0050] It should be noted that the first circular chuck 407, through its tight engagement with the rubber ball 404, firmly fixes the spatial position of the rubber ball 404, preventing it from shifting or shaking during force application or reset. This ensures that the rubber ball 404 is always aligned with the first air inlet 206 or the second air inlet 207, providing a foundation for stable sealing or ventilation. In operation, when the pressure plate 30 presses down, causing the fixing rod 405 to move, the first circular chuck 407 moves synchronously with the fixing rod 405, directly applying downward pressure to the rubber ball 404. This pressure is evenly transmitted to the entire rubber ball 404 through the chuck, causing the rubber ball 404 to tightly adhere to the air inlet for sealing, preventing seal failure due to uneven force. During pressure release, the first circular chuck 407, through its engagement with the rubber ball 404, drives the rubber ball 404 precisely back to its initial position under the action of spring restoring force, preventing the rubber ball 404 from deviating from its preset position due to deformation or inertia, ensuring accurate alignment with the air inlet during the next operation. This design strengthens the consistency of movement between the chuck and the rubber ball 404 through rigid constraint, which not only solves the problem of easy position change of the rubber ball 404, but also improves the stability of force transmission, and further ensures the reliable operation of the intake control switch 40.

[0051] In some embodiments of this application, one end of the telescopic rod 406 is embedded inside the fixed rod 405, and the other end of the telescopic rod 406 is provided with a second circular chuck 409. The second circular chuck 409 is disposed inside the air inlet channel 205 and is locked inside the shoe body 10. The second circular chuck 409 is provided with a plurality of ventilation openings 4091, which are used to prevent the air inlet channel 205 from being blocked.

[0052] It should be noted that one end of the telescopic rod 406 is embedded inside the fixed rod 405, forming a flexible telescopic nested structure. This ensures that the locking device 400 can smoothly complete the compression and reset actions when under force, while also ensuring coaxiality during movement and preventing component misalignment and jamming. The second circular chuck 409 at the other end of the telescopic rod 406 serves as a reliable limiting and fixing mechanism by locking itself inside the shoe body 10. This firmly restrains the position of the entire air intake control switch 40, preventing it from loosening or even falling off due to vibration or deformation during repeated telescopic movements or long-term use. Structurally, this ensures the integrity and stability of the device. Simultaneously, the second circular chuck 409 is located inside the air intake channel 205, and the several vents 4091 on it cleverly balance the limiting function and the need for gas flow. It achieves the anti-scattering effect through the physical obstruction of the chuck, while also reserving channels for airflow through the vents 4091, preventing the chuck itself from blocking the air intake path and ensuring that the airbag 20's inhalation process is unobstructed. This design allows the second circular chuck 409 to fulfill its core structural fixing function without affecting gas circulation efficiency. In conjunction with components such as the telescopic rod 406 and the fixing rod 405, it further enhances the durability and reliability of the intake control switch 40.

[0053] In some embodiments of this application, the side wall of the pressure plate 30 is provided with a handle 301 and a cloth strip 302, and the two ends of the cloth strip 302 are respectively connected to the handle 301 and the shoe body 10.

[0054] It should be noted that the core function of the handle 301 and cloth strip 302 on the side wall of the pressure plate 30 is to further strengthen the protection against falling of the pressure plate 30 and the air intake control switch 40 connected to it. From a structural protection perspective, the two ends of the cloth strip 302 are connected to the handle 301 and the shoe body 10 respectively, forming a flexible safety rope. When the pressure plate 30 shows a tendency to loosen under repeated stress or accidental conditions, the tension of the cloth strip 302 can limit its displacement range in time, preventing the pressure plate 30 and the connected air intake control switch 40 from falling off as a whole, fundamentally preventing functional failure caused by the scattering of components.

[0055] The working process of this utility model is as follows: When a user walks wearing shoes equipped with this utility model, the foot applies pressure to the pressure plate 30, causing the pressure plate 30 to move downwards, which in turn activates the air intake control switch 40. The connecting plate 401 of the locking device 400 pushes the hollow cylinder 402 downwards, and the hollow cylinder 402 transmits pressure to the rubber ball 404. The fixing rod 405 and the telescopic rod 406 contract within the hollow cylinder 402, compressing the second spring 408 and the first spring 403. Under the action of the first circular chuck 407, the rubber ball 404 moves downwards, blocking the first air inlet 206 and the second air inlet 207, cutting off the path for external air to enter the air intake channel 205. At the same time, the side wall of the pressure plate 30 squeezes the airbag 20 in the first mounting groove 106, causing the airbag 20 to contract. The internal gas enters the air outlet duct 201 through the air outlet 203 and is then transported to the second mounting groove 107 through the duckbill valve 202. The medicinal components, such as Ula grass, in the second mounting groove 107 evaporate rapidly under the action of airflow. Part of the evaporated medicinal gas diffuses to the periphery of the first mounting groove 106 through the connecting groove 108, while the other part seeps out through the mesh 105 and diffuses inside the shoe body 10 along the ventilation groove 102. When the foot is lifted, the pressure on the bearing plate 30 is released, the first spring 403 and the second spring 408 return to their original positions, driving the locking device 400 to operate. The fixing rod 405 and the telescopic rod 406 extend, the connecting plate 401 and the hollow cylinder 402 move upward, and the rubber ball 404 returns to its original position under the action of the first circular chuck 407, forming a gap with the first air inlet 206 and the second air inlet 207. External air enters the first air inlet 206 and the second air inlet 207 through the ventilation groove 102, and is replenished into the airbag 20 through the air intake channel 205 from the air inlet 204, completing the intake. During the process, the air intake control switch 40 around the first mounting slot 106, along with two other switches, forms a triangular support to ensure that the pressure plate 30 fits snugly against the airbag 20; the second circular chuck 409 is secured inside the shoe body 10, and the ventilation opening 4091 of the second circular chuck 409 ensures unobstructed air intake channel 205; the handle 301 and the cloth strip 302 restrict the displacement of the pressure plate 30. The user can replenish or replace the traditional Chinese medicine in the second mounting slot 107 by opening the first strap 103, the second strap 104, and the mesh 105.

[0056] Obviously, those skilled in the art can make various modifications and variations to this utility model without departing from its spirit and scope. Therefore, if these modifications and variations fall within the scope of the claims of this utility model and their equivalents, this utility model also intends to include these modifications and variations.

Claims

1. A traditional Chinese medicine shoe sole containing Ula grass and an air conditioning airbag, characterized in that, include: The shoe body is provided with an airbag propulsion module and a placement module connected in sequence. The airbag propulsion module includes: an airbag, a first mounting groove, a pressure plate, and an air intake control switch. The airbag is installed in the first mounting groove and matches the first mounting groove. The air intake control switch is installed around the first mounting groove and is embedded in the surface of the shoe body. The pressure plate is connected to the air intake control switch, and the side wall of the pressure plate is in contact with the airbag. The placement module includes: a second mounting groove, a first strap, a second strap, and a mesh. The first strap and the second strap are arranged parallel to each other at the opening of the second mounting groove. Both ends of the first strap and both ends of the second strap are connected to the shoe body. The mesh is disposed between the first strap and the second strap and is fixed to the first strap and the second strap.

2. The herbal shoe sole containing Ula grass and an air conditioning airbag according to claim 1, characterized in that, The airbag is provided with an air outlet and an air inlet at both ends. The air outlet is connected to one end of the air outlet pipe, and the other end of the air outlet pipe is provided with a duckbill valve. The duckbill valve is connected to the second mounting groove. The air inlet is connected to the air inlet channel, and the air inlet channel is located inside the shoe body.

3. The herbal shoe sole containing Ula grass and an air conditioning airbag according to claim 2, characterized in that, Also includes: A connecting module is disposed on the surface of the shoe body; The connecting module includes: a ventilation groove, an anti-slip protrusion, and a connecting groove. The ventilation groove and the anti-slip protrusion are both disposed on the surface of the shoe body. The two ends of the connecting groove are respectively connected to the first mounting groove and the second mounting groove.

4. The herbal shoe sole containing Ula grass and an air conditioning airbag according to claim 3, characterized in that, The ventilation groove is provided with a first air inlet and a second air inlet, which are symmetrically arranged on the shoe body on both sides of the airbag. The first air inlet and the second air inlet are respectively connected to the air intake channel.

5. The herbal shoe sole containing Ula grass and an air conditioning airbag according to claim 4, characterized in that, The air intake control switches are respectively disposed around the first air intake, the second air intake, and the first mounting groove, and each air intake control switch is located below the pressure plate.

6. The herbal shoe sole containing Ula grass and an air conditioning airbag according to claim 5, characterized in that, The air intake control switch includes a locking device, a rubber ball, and a first spring. The rubber ball is disposed inside the first spring and on the locking device. The two ends of the first spring are respectively attached to the locking device and the shoe body.

7. The herbal shoe sole containing Ula grass and an air conditioning airbag according to claim 6, characterized in that, The locking device includes a connecting plate, a hollow cylinder, a fixed rod, and a telescopic rod. The connecting plate is connected to the hollow cylinder, and the fixed rod is disposed inside the hollow cylinder. One end of the fixed rod is connected to the connecting plate, and the other end of the fixed rod is connected to the telescopic rod. A second spring is provided inside both the fixed rod and the telescopic rod, and the two ends of the second spring are respectively connected to the inner sidewall of the connecting plate and the telescopic rod.

8. The herbal shoe sole containing Ula grass and an air conditioning airbag according to claim 7, characterized in that, The outer wall of the fixing rod is provided with a first circular chuck, which is located inside the rubber ball.

9. The herbal shoe sole containing Ula grass and an air conditioning airbag according to claim 8, characterized in that, One end of the telescopic rod is embedded inside the fixed rod, and the other end of the telescopic rod is provided with a second circular chuck. The second circular chuck is located inside the air inlet channel and is secured inside the shoe body. The second circular chuck has several ventilation openings, which are used to prevent the air inlet channel from being blocked.

10. A traditional Chinese medicine shoe sole containing *Ula grass* and an air conditioning airbag according to claim 9, characterized in that, The side wall of the pressure plate is provided with a handle and a strip of cloth, and the two ends of the strip of cloth are respectively connected to the handle and the shoe body.