Intelligent automatic on-off inflation temperature and pressure adjusting air rib membrane shoes
The intelligent automatic put-on, take-off, inflation, deflation, temperature and pressure regulating air-supported pleated shoes solve many shortcomings of existing footwear products, achieving automatic put-on and take-off, comfort adjustment, environmental adaptation and intelligent control. They also have odor-proof, antibacterial, waterproof and breathable functions, making them suitable for various scenarios.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- 曾庆雄
- Filing Date
- 2025-10-20
- Publication Date
- 2026-06-05
AI Technical Summary
Existing footwear products suffer from problems such as inconvenience in putting on and taking off, poor comfort, weak environmental adaptability, lack of intelligent sensing functions, insufficient hygiene performance, and lack of human-computer interaction.
A smart, automatic put-on, take-off, inflation, deflation, temperature and pressure regulating air-ribbed membrane shoe was designed. It adopts a multi-layer air-ribbed membrane structure, an intelligent control module, a cold and heat control component and a display screen. It automatically adjusts air pressure, temperature and humidity through air pressure sensor, temperature and humidity sensor and accelerometer gyroscope sensor. Combined with infrared sensor to sense foot dynamics, it realizes automatic or active put-on and take-off, and has the functions of odor prevention, antibacterial, waterproof and breathable.
It enables automatic or active donning and doffing, provides comfort and support, can adjust in real time according to the environment and exercise status, has odor-proof, antibacterial, waterproof and breathable functions, supports human-computer interaction, adapts to different seasons and scenarios, and is suitable for all types of people.
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Abstract
Description
Technical Field
[0001] This invention relates to the fields of footwear manufacturing and smart wearable devices, specifically to a multifunctional intelligent innovative footwear that integrates intelligent control, automatic putting on and taking off, inflation and deflation regulation, temperature and humidity control, air purification, and motion monitoring, and particularly to intelligent automatic putting on and taking off, inflation and deflation, temperature and pressure regulating pneumatic ribbed shoes. Background Technology
[0002] With technological advancements and improved living standards, users' functional demands for footwear products are becoming increasingly diverse. Existing footwear, mostly made from a single material, suffers from several shortcomings: 1. Inconvenient to put on and take off: Requires tying and untying shoelaces, which is particularly difficult for the elderly, children, and people with disabilities; 2. Poor comfort: Cannot dynamically adjust tightness according to foot shape changes, lacking cushioning and support; 3. Weak environmental adaptability: Cannot dynamically adjust temperature, humidity, and air pressure according to season or activity intensity; 4. Lack of intelligent sensing functions: Lacks recognition and feedback mechanisms for human posture and movement; 5. Insufficient hygiene: Prone to sweat accumulation and odor, lacks ventilation and sterilization design, and has shortcomings in waterproof, breathable, odor-resistant, and antibacterial properties; 6. Lack of human-computer interaction: Cannot connect with mobile phones or other devices, making personalized settings difficult. A patent search and analysis conducted by the State Intellectual Property Office (as of September 23, 2025) found no similar patent applications. Therefore, developing a new type of smart shoe that offers good support, adaptability, and a large margin of error, and features fully automatic on / off, intelligent temperature and pressure regulation, odor and antibacterial properties, waterproof and breathable design, health monitoring, and good human-computer interaction, has significant market value and social significance. Summary of the Invention
[0003] 1. Purpose of the invention The present invention aims to provide an intelligent automatic put-on, take-off, inflation, deflation, temperature and pressure regulating pneumatic pleated shoe, which solves the problems of existing shoes such as single function, inconvenient put-on and take-off, poor comfort, weak environmental adaptability, lack of intelligent sensing function, insufficient hygiene performance and lack of human-computer interaction.
[0004] 2. Technical Solution To achieve the above objectives, the present invention provides the following technical solution: The intelligent automatic put-on, take-off, inflation, deflation, temperature and pressure regulating air ribbed shoe of the present invention consists of eight parts: an inner insole, an air ribbed membrane, a protective cover, an intelligent control module, a sole, a cold and heat control component, an outer covering layer, and a display screen. Each component is stably connected by wiring, interface, sewing, gluing, or screw locking.
[0005] (1) Inner padding: Made of soft, breathable, and skin-friendly material, it tightly wraps the feet to improve wearing comfort and is combined with air rib membrane to achieve size allowance expansion.
[0006] (2) Air rib membrane: Made of TPU material with elasticity, wear resistance, waterproofness and good air tightness, it is made into a layered and interconnected air bladder structure and placed between the inner padding layer and the outer covering layer. Its upper, lower and bottom are composed of multiple arc-shaped tubular air rib tubes, forming multiple independent or connected cavities, which can avoid the overall air leakage caused by the failure of a single cavity, and ensure the air pressure stability and continuous wear of the shoe. The air rib membrane is connected to a rapid inflation and deflation system improved from the tire valve core. It is triggered by foot movement, touch screen control, wireless device operation or real-time feedback from air pressure sensor. After calculation by the intelligent control module, the air pump is started to pass through the inflation and deflation channel at a gradient of 0.05 Bar / second. After inflation and deflation to the preset pressure, the inflation system is shut off, thereby adjusting the tightness of the shoe to achieve automatic or active putting on and taking off. The putting on and taking off process takes less than 10 seconds (traditional inflatable shoes take 30-60 seconds), which improves the putting on and taking off efficiency. The automatic or active adjustment of the air pressure and size of the air rib membrane adapts to different foot shapes and various exercise scenarios, providing excellent comfort and support for the feet. This improves the sizing flexibility (1cm inflated diameter allows for four additional sizes), load-bearing capacity, and restraint of the air rib membrane shoes, enhancing shock absorption, stability, fit, and protection. The bottom air rib tubes are equipped with one-way valves and at least two air inlets, while the upper air rib tubes have ventilation recesses to facilitate air circulation within the shoe. Based on air sensor detection results, an active or intelligent control module automatically controls the air-blowing cleaning system to ensure clean air inside the shoe, improving breathability and comfort, and providing dehumidification, odor removal, and sterilization.
[0007] (3) Protective cover: It is fastened to the surface of the shoe sole compartment by screws. The screws can be made of flexible materials such as plastic to protect the rechargeable battery, circuit, control chip and various components inside the compartment.
[0008] (4) Intelligent Control Module: Located in the sole compartment below the protective cover, this module includes a microprocessor main control chip, an AI chip, a storage unit, a wireless communication unit, and an inflation / deflation module. A pressure sensor extends into the air rib diaphragm to detect pressure changes; a temperature and humidity sensor, an air sensor, and an accelerometer / gyroscope sensor are located between the outer and inner padding layers to sense the shoe's internal temperature, humidity, cleanliness, and the user's movement status, respectively; an infrared sensor is located in the inner padding layer to sense foot movement. Each sensor transmits real-time data to the intelligent control module, which, according to preset programs and user commands, controls the inflation / deflation module, the heating / cooling control components, and the air-blowing cleaning system to precisely control the shoe's internal temperature, humidity, and cleanliness. The storage unit pre-stores threshold values for parameters such as pressure and temperature, and supports user-defined settings. The battery uses a 3.7V / 4000mAh rechargeable battery pack, supporting QC3.0 fast charging and Type-C charging, and can complete 200 charge / discharge cycles. The wireless communication unit uses Bluetooth or Wi-Fi technology to connect with mobile apps, remote controls, and other devices, facilitating remote control and data viewing. The air pump system in the inflation / deflation module is connected to a tire-like valve core structure. The valve core and one-way valve enable one-way flow to prevent gas leakage; the valve core can also be replaced by a one-way valve. The intelligent control module has a safety overload protection function. When the detected air pressure is >0.5 Bar or the temperature is >50℃, the main control chip forcibly cuts off the inflation, pressurization, and heating / cooling systems, and starts deflation, depressurization, and air blowing for cooling, achieving emergency safety protection. Through an accelerometer gyroscope sensor and AI recognition of various gaits (walking, running, climbing, etc.), it can automatically adjust air pressure distribution to achieve motion monitoring functions and enhance adaptability. If the system recognizes climbing mode, it automatically increases the pressure in the forefoot chamber to 0.35 Bar to enhance grip, and decreases the pressure in the heel chamber to 0.25 Bar to improve cushioning.
[0009] (5) Sole: The rear has a compartment for storing rechargeable lithium battery packs, micro air pump systems, intelligent control components, circuit boards, and wiring. The inside of the sole has a slot for wiring, air pipes, and component placement. The inside has a foot-operated inflation / deflation switch, a waterproof air inlet, and a Type-C charging port; the foot-operated inflation switch is located at the front of the shoe, and the foot-operated deflation switch is located at the rear of the shoe. Users can trigger the inflation / deflation of the air-supported membrane shoe by moving their feet.
[0010] (6) Heating and Cooling Control Components: Composed of a dual-mode temperature control unit and heating / cooling elements. The upper heating / cooling elements are arranged side-by-side between the air rib membrane pipes, while the bottom heating / cooling elements are located below the air rib membrane on the sole. A PTC heating film and a TEC semiconductor cooling element work together. The PTC heating element has a power of 5W / cm², and the TEC cooling element has a temperature difference ≥35℃. Temperature fluctuations are controlled to ≤±0.5℃ using a PID algorithm, with an operating temperature range of 5-45℃. The heating / cooling elements have notches at the most easily bent parts of the shoe to improve walking flexibility and comfort. Temperature sensors detect and sense temperature data, and the intelligent control module automatically or manually adjusts the temperature, working in conjunction with the heating / cooling control components to heat and cool to the target temperature, achieving a comfortable temperature inside the shoe.
[0011] (7) Outer layer: Made of breathable or waterproof membrane material, connected to the air rib membrane by stitching or bonding, providing a certain degree of support, protecting the internal structure and adapting to the deformation of the air rib membrane. The air outlet and vent of the outer layer and the air rib membrane are all equipped with composite ePTFE microporous membranes with a pore size of 0.3μm and an air permeability of 5000g / m² / 24h, achieving waterproof and breathable functions.
[0012] (8) Display Screen: A touch-sensitive flexible OLED display screen is integrated into the shoe upper and equipped with a human-computer interaction system. Connected via sensors, controllers, and data cables, it can display real-time information such as air pressure, temperature, humidity, cleanliness, steps, cadence, distance, speed, and battery level inside the shoe. It supports manual touch operation and can also wirelessly connect to a mobile app or remote control via Bluetooth for remote control, data synchronization, and detailed data viewing.
[0013] 3. Beneficial effects This invention, through its unique structure and design, provides a novel smart shoe with innovative structure, comprehensive functions, and a high degree of intelligence. It addresses many pain points of traditional footwear, featuring excellent human-shoe interaction, high intelligence, good support, strong adaptability, and large capacity. It also boasts advantages such as intelligent on / off functionality, temperature and pressure regulation, odor and antibacterial properties, and waterproof and breathable properties, making it suitable for all seasons, various groups of people, and scenarios. The deep integration of air rib membrane, multi-modal sensing, AI control, and flexible display brings new breakthroughs and innovations to the field of shoe design and manufacturing. It can be used not only for everyday wear but also in special scenarios such as rehabilitation assistance, high-altitude hiking, and extreme cold work, possessing broad application prospects and representing an important development direction for future smart wearable devices.
[0014] Automatic on and off, convenient and efficient: By sensing foot dynamics through infrared sensors and other means, combined with air pressure sensor feedback and inflation / deflation system, the air pressure and tightness inside the shoe are automatically or actively adjusted, so that the shoes can be put on and taken off without manually tying or untying the shoelaces. This makes it convenient and efficient to put on and take off, especially suitable for people with mobility impairments and special scenarios.
[0015] Customizable comfort: Multiple independent air rib chambers precisely adjust support according to foot shape and activity level, providing excellent load-bearing capacity and shock absorption when inflated; the cooling and heating system uses a PID algorithm to precisely control temperature, adapting to different seasons. An air-blowing cleaning system ensures clean air inside the shoe, preventing odor and bacteria. The notch design for the cooling and heating plates enhances walking flexibility and comfort.
[0016] Excellent intelligence and interactivity: The intelligent control module integrates an AI chip, which can learn user habits autonomously and achieve real-time monitoring and adaptive adjustment of the environment and motion status through multi-sensor collaboration; the display screen, mobile APP, remote control and active multiple control channels make it convenient for users to obtain data and customize settings. Users only need to operate to start relevant commands to adapt to user needs and provide users with a more comfortable wearing experience.
[0017] Safe, reliable, and highly adaptable: Under extreme air pressure or temperature, the main control chip forcibly cuts off the inflation, pressurization, heating, and cooling systems, and activates deflation, pressure relief, and air blowing for cooling, achieving overload emergency safety protection; the air pleated membrane has a pressure drop of only 0.008 Bar in 24 hours; the size of the air bladder changes after the air pleated membrane is inflated, increasing the size margin to fit different foot types and expanding the range of users; temperature and pressure regulation, waterproof and breathable, odor-proof and antibacterial design enhances adaptability to various usage scenarios.
[0018] 4. Instruction manual illustrations The present invention will be further described below with reference to the accompanying drawings and embodiments.
[0019] The first digit of the label (single-digit or multi-digit) represents the part number of the intelligent automatic putting on / taking off, inflation / deflation, temperature-regulating, and pressure-regulating pneumatic pleated shoe. Subsequent digits represent the component numbers. abcdefghijkmnprstu indicates the corresponding interface location of the component. Figures 7-9 The bottom right corner shows the direction of movement and unit distance of the explosion and disintegration of the part.
[0020] Figure 1 Isometric drawing of air-supported membrane shoes in Southwest China Figure 2 Isometric view of the air-supported pleated shoe in the southwest region Figure 3 Solid view of the air pleura from various angles (right view, front view, left view, rear view, southwest isometric, top view, southeast isometric, and bottom view). Figure 4 Views of the air-supported pleated shoe from various angles (right view, front view, left view, rear view, southwest isometric view, top view, southeast isometric view, and bottom view). Figure 5 Schematic diagram of cross-section of air-ribbed membrane shoe, top view, southwest isometric view of the actual object and view Figure 6 : Sectional view of the air-ribbed membrane shoe, top view, southwest isometric solid and view Figure 7 Front view of the explosion and disassembly of the air-pleated shoe Figure 8 View before the explosion and disintegration of the pneumatic pleural shoe Figure 9 Isometric physiogram of the explosive decomposition of the air-supported pleated shoe in Southwest China. Figure 10 Isometric view of the explosion and decomposition of the air-supported pleated shoe in the southwest region. Figure 11 : Air ribbed shoe, air ribbed membrane layer, southeast isometric view, slightly tilted solid figure Figure 12 : Southeast isometric view of the air ribbed membrane layer of the air ribbed shoe Figure 13 Isometric drawing of the Southeast section of the intelligent automatic putting on / taking off, charging / discharging, temperature-regulating, and pressure-regulating pneumatic pleated shoes, including the charging / discharging battery sensor controller. Figure 14 Southeast isometric view of the air-supported membrane shoe's charge / discharge battery sensor controller section. Figure 15 Isometric view of the sole of the air-supported ribbed shoe after removing the outer layer, inner padding, and protective cover. Figure 16 Southeast isometric view of the air-supported ribbed shoe after removing the outer layer, inner padding, and protective cover of the sole.
[0021] Explanation of annotations in the image:
[0022] 1. Inner cushion layer (marked in) Figures 6-10 )
[0023] 2. Pneumopleural portion (marked in) Figures 6-12 , Figure 15 , Figure 16 The following component and interface labels all appear in [the relevant section]. Figure 11 , Figure 12 Partially appearing Figure 15 , Figure 16 ) Component labeling: 21 Upper multi-layer air rib tube, 22 Upper air rib tube inflation channel, 23 Air blowing tube, 24 Sole multi-layer air rib tube, 25 Air rib tube deflation tube, 26 Inner ventilation notch.
[0024] Interface labeling: b. Upper shoe air pleat diaphragm valve core inflation outlet, c. Upper shoe air pleat diaphragm valve core inflation inlet, d. Air outlet of one-way valve on air blowing pipe, e. Air inlet of one-way valve on air blowing pipe, f. Air pump and air pleat interface, g. Air pleat and valve core deflation interface, i. Air outlet of air pleat diaphragm valve core on the bottom of shoe, j. Air inlet of air pleat diaphragm valve core on the bottom of shoe, p. Air outlet of air blowing pipe.
[0025] 3. Protective cover section (marked on) Figures 6-10 The following component labels appear Figure 9 , Figure 10 ) Part markings: 31 Protective cover screw, 32 Protective cover
[0026] 4. Intelligent Control Module (Note appears in...) Figures 6-10 , Figure 13 , Figure 14 The following component and interface labels all appear in [the relevant section]. Figure 13 , Figure 14 Partially appearing Figure 6 , Figure 7 , Figure 15 , Figure 16 ) Component labeling: 41 Power cable for connecting the display screen; 42 Air valve core for the sole air rib; 43 Air valve core for the upper air rib; 44 One-way valve for the air inflator tube; 45 Air pump chamber; 46 Dustproof and waterproof air inlet; 47 Type-C charging port cover; 48 Type-C charging port; 49 Foot-operated inflation switch; 410 Air pump motor; 411 Air pressure sensor for the upper air rib; 412 Inner shoe temperature sensor; 413 Air pressure sensor for the sole air rib; 414 Inner shoe air sensor; 415 Accelerometer / gyroscope sensor; 416 Heat exchanger. 417 Venting motor, 418 Foot-operated venting switch, 419 Dustproof and waterproof vent, 420 Venting channel, 421 Venting fixing block, 422 Venting fixing base, 423 Venting pressure block, 424 Venting spring, 425 Venting valve core fixing ring, 426 Venting imitation valve core, 427 Rechargeable battery, 428 Power circuit intelligent control module, 429 Intelligent control module for charging / discharging, air pressure, temperature, air quality, status, and object sensing, 430 Display wireless communication intelligent control module, 431 Infrared object sensing sensor, 432 Hot / cold sheet conduction wire.
[0027] Interface labeling: a) Display screen power data cable interface; b) Upper shoe air rib diaphragm valve core inflation outlet; c) Upper shoe air rib diaphragm valve core inflation inlet; d) Air outlet of one-way valve on air blower; e) Air inlet of one-way valve on air blower; f) Air pump and air rib interface; g) Air rib diaphragm and valve core deflation interface; h) Upper rear shoe heating / cooling plate interface; i) Bottom shoe air rib diaphragm valve core inflation outlet; j) Bottom shoe air rib diaphragm valve core inflation inlet; k) Bottom shoe air rib diaphragm valve core power and data interface; m) Upper shoe air rib diaphragm valve core power supply.
[0028] 5. Sole portion (marked on) Figures 6-10 , Figure 13 , Figure 14 The following component labels all appear in Figure 9 , Figure 10 Partially appearing Figure 7 , Figure 8 ) Component labeling: 51 Valve core bottom air fin diaphragm power data empty slot, 52 Air inlet empty slot, 53 Type-C charging port empty slot, 54 Foot-operated inflation switch empty slot, 55 Foot-operated deflation switch empty slot, 56 Rechargeable battery intelligent module and other housing compartment empty slot, 57 Air outlet empty slot.
[0029] Data interface, n air pipe check valve power data interface, r shoe front bottom heating and cooling plate interface, s shoe front upper heating and cooling plate interface, t shoe rear bottom heating and cooling plate interface.
[0030] 6. Heating and cooling control section (marked in...) Figures 6-10 , Figure 15 , Figure 16 The following component and interface labels all appear in [the relevant section]. Figure 9 , Figure 10 Partially appearing Figure 6 , Figure 8 , Figure 7 , Figure 15 , Figure 16 ) Component labeling: 61 Upper rear cooling plate, 62 Upper rear heating plate, 63 Lower rear bottom cooling plate, 64 Lower rear bottom heating plate, 65 Lower front bottom cooling plate, 66 Lower front bottom heating plate, 67 Upper front cooling plate, 68 Upper front heating plate.
[0031] Interface labeling: h upper rear heat exchanger interface, r lower front bottom heat exchanger interface, s upper front heat exchanger interface, t lower rear bottom heat exchanger interface, u front and rear heat exchanger gap.
[0032] 7. Outer layer portion (marked in) Figures 6-10 ) 81 Display screen, 82 Display content, a Display screen power data cable interface.
[0033] 8. Display screen section (labeled in) Figures 6-10 , Figure 15 , Figure 16 The following component and interface labels all appear in [the relevant section]. Figure 9 , Figure 10 , Figure 15 , Figure 16 Partially appearing Figure 6 , Figure 7 , Figure 8 , Figure 13 , Figure 14 ) Component interface labeling: 81 Display screen, 82 Display content, a Display screen power data cable interface.
[0034] A is the schematic line of the cross-section (the label appears on...). Figure 5 , Figure 6 ) Detailed Implementation The specific embodiments of the present invention will now be described in detail with reference to the accompanying drawings.
[0035] The intelligent automatic putting on / taking off, inflation / deflation, temperature-regulating, and pressure-regulating pneumatic ribbed shoe design and accompanying drawings of this invention take the right shoe as an example; the left shoe adopts a symmetrical design. The numbers in parentheses after the components are label numbers and correspond to the descriptions in the accompanying drawings.
[0036] As shown in the attached figures, the intelligent automatic put-on, take-off, inflation and deflation temperature-regulating and pressure-regulating air-supported membrane shoes of the present invention are composed of eight components: an inner pad layer (1), an air-supported membrane (2), a protective cover (3), an intelligent module for inflation and deflation batteries (4), a sole (5), a cooling and heating system (6), an outer covering layer (7), and a display screen (8).
[0037] When the foot is put on, the infrared object sensor (431) of the inner padding layer detects the foot entering the shoe and transmits the data to the intelligent control module (429) for air pressure, temperature and air state object sensing. The module sends a command to start the air pump motor (410); or the foot can be pressed to trigger the inflation by pressing the foot-operated inflation switch (49) on the front of the shoe. External air enters the air pump cavity (45) through the dustproof and waterproof air inlet (46) and inflates the upper multi-layer air rib tube (21) through the upper air rib valve core (43) and the upper air rib tube inflation channel (22). At the same time, it inflates the lower multi-layer air rib tube (24) through the lower air rib valve core (42). The upper air rib membrane pressure sensor (411) and the bottom air rib membrane pressure sensor (413) detect the air pressure in real time. When the pressure reaches the preset value or the user sets the comfort pressure value through the display screen (81), mobile APP, AI learning decision, foot movement, or wireless controller, the inflation system is turned off, the air rib membrane expands and wraps around the foot, realizing the comfort of putting on shoes without laces.
[0038] When the shoes are removed, the infrared object sensor (431) detects that the foot has left the shoe, or the foot-operated deflation switch (418) at the back of the shoe is pressed, or a command is sent via the display screen, mobile APP, wireless controller, or manual touch screen to start the deflation motor (417). The deflation motor pushes the deflation pressure block (423) to compress the deflation spring (424), which pushes open the deflation valve core (426). The gas in the air rib membrane is discharged from the dustproof and waterproof vent (419) through the air rib membrane deflation pipe (25) and deflation channel (420). The air rib membrane contracts, realizing automatic shoe removal. The deflation fixing block (421) and the deflation fixing base (422) are used to fix the deflation structure, and the deflation valve core fixing ring (425) fixes the deflation valve core (426).
[0039] When charging, open the Type-C charging port cover (47) and charge the rechargeable battery (427) through the Type-C charging port (48). The protective cover (32) is fixed by the protective cover screw (31) to protect the internal components; the slots on the sole (valve core bottom air rib membrane power data slot 51, air inlet slot 52, Type-C charging port slot 53, foot-operated inflation switch slot 54, foot-operated deflation switch slot 55, rechargeable battery intelligent module and other storage compartment slot 56, air outlet slot 57) provide installation space for the circuit, components and air rib membrane; the front and rear cold and hot plate gaps (u) between the cold and hot plates are adapted to the bending action when walking; the outer layer (7) provides structural support and protection; through the sensors and controllers inside the shoe, the display screen power data line (41) is connected to transmit data to the display screen (81) to display various parameters in real time. The display screen supports touch operation and Bluetooth connection to mobile phone APP to realize parameter setting and remote control.
[0040] The following is an example of the content (82) to be displayed: Battery life: Bluetooth: Steps: 8646 Voltage Adjustment: - + Calories burned: 282 calories Cleaning: ■ In-shoe pressure: 0.3 BAR Temperature regulation: ☼ ☼ Shoe interior temperature: 26 degrees Celsius; Dehumidification: □ □ Inner shoe cleanliness: 91% Stage distance: 6049 meters cadence: 188 meters / minute Switch: ◙ Setting: ۞ Confirm: OK
[0041] The following interfaces illustrate the location, function transmission, and connection relationships of each component: Display screen power data cable interface (a), upper shoe air rib diaphragm valve core inflation outlet (b), upper shoe air rib diaphragm valve core inflation inlet (c), air hose one-way valve outlet (d), air hose one-way valve inlet (e), air pump and air rib interface (f), air rib diaphragm and valve core deflation interface (g), upper rear shoe heating / cooling plate interface (h), lower shoe sole air rib diaphragm valve core inflation outlet (i), lower shoe sole air rib diaphragm valve core inflation inlet (j), lower shoe sole air rib diaphragm valve core power data interface (k), upper shoe air rib diaphragm valve core power data interface (m), air hose one-way valve power data interface (n), air hose outlet (p), upper front shoe bottom heating / cooling plate interface (r), upper front shoe top heating / cooling plate interface (s), lower rear shoe bottom heating / cooling plate interface (t), front and rear heating / cooling plate gap (u).
Claims
1. A smart, automatically put-on, take-off, inflatable, temperature-regulating, and pressure-regulating pneumatic pleated shoe, characterized in that: It includes an inner padding layer, an air rib membrane, a protective cover, an intelligent control module, a sole, a temperature control system, an outer covering layer, and a display screen assembly. The components are connected by wiring, interfaces, stitching, gluing, or screw locking.
2. The intelligent automatic putting on / taking off, inflating, deflating, temperature-regulating, and pressure-regulating pneumatic pleated shoes according to claim 1, characterized in that: The inner padding layer is made of soft, breathable, and skin-friendly material to wrap around the feet. It also works with the air rib membrane to deform and fit, allowing for size expansion and improving wearing comfort.
3. The intelligent automatic putting on / taking off, inflating, deflating, temperature-regulating, and pressure-regulating pneumatic pleated shoes according to claim 1, characterized in that: The air rib membrane is a multi-layered, arc-shaped tubular airbag structure made of elastic, wear-resistant, waterproof, and airtight TPU material. It is located between the inner padding layer and the outer covering layer and on the sole of the shoe, forming multiple independent or interconnected air chambers inside to prevent local damage from causing overall air leakage. The air rib membrane airbag is connected to the inflation and deflation pump through a structure that mimics the valve core of a car tire. Through the inflation and deflation channel, it is automatically controlled by foot movement triggering, display screen touch control, wireless control, or intelligent module calculation based on air pressure sensor feedback. This allows for rapid and controllable inflation and deflation, adjusting the air pressure and size of the air rib membrane airbag to achieve automatic and comfortable shoe putting on and taking off and size adjustment. The blowing cleaning system automatically starts the blowing system based on active settings or air sensor detection calculation results. Gas circulates inside the shoe through the one-way valve in the bottom air rib tube and the set air blowing port, as well as the ventilation recess in the upper air rib membrane tube, achieving ventilation, dehumidification, deodorization, and sterilization.
4. The intelligent automatic putting on / taking off, inflating, deflating, temperature-regulating, and pressure-regulating pneumatic pleated shoes according to claim 1, characterized in that: The protective cover is fastened to the sole of the shoe with plastic or metal screws to seal and protect the battery, circuits, control chips, and sensors inside the compartment at the back of the sole.
5. The intelligent automatic putting on / taking off, inflating, deflating, temperature-regulating, and pressure-regulating pneumatic pleated shoes according to claim 1, characterized in that: The intelligent control module includes a microprocessor main control chip, an AI learning and decision-making unit, a storage unit, a wireless communication unit, and an inflation / deflation module, located under the protective cover. A pressure sensor extends into the air pleat duct to detect real-time air pressure. Temperature, humidity, air quality, and accelerometer / gyroscope sensors are positioned between the outer and inner padding layers. An infrared sensor is embedded in the inner padding layer to detect foot movement. These sensors sense and identify the temperature, humidity, cleanliness, and the user's activity status, such as walking, running, or hiking. The intelligent control module automatically controls the shoe based on sensor input data or actively controls it via a touchscreen, wireless remote control, or foot switch, precisely and dynamically adjusting the air pressure, temperature, humidity, and cleanliness inside the shoe to adapt to different user needs and usage scenarios. The storage unit stores preset user preference data such as air pressure, temperature, and humidity, controlling the system according to user-defined data. The battery is preferably a rechargeable battery, powering the inflation / deflation system and other components. The wireless communication unit supports Bluetooth or Wi-Fi protocols, enabling communication with mobile apps, remote controls, etc., allowing users to control and manage the shoes via smartphones or other wireless devices. The air pump system in the inflation / deflation module is interconnected with the tire-like valve core structure to control the inflation and deflation of gas inside the shoe and adjust the pressure of the air pleats. The valve core and one-way valve provide one-way flow to prevent gas leakage. The intelligent control module has a safety overload protection function. When the gas pressure inside the shoe exceeds 0.5 Bar or the temperature exceeds 50°C, the main control chip forcibly cuts off the inflation and heating / cooling systems, and initiates the depressurization and cooling program to ensure safe use and implement an emergency safety protection mechanism. All operations can be linked with a mobile APP via Bluetooth to achieve remote monitoring, firmware upgrades, scene mode switching, and other functions.
6. The intelligent automatic putting on / taking off, inflation / deflation, temperature-regulating, and pressure-regulating pneumatic pleated shoes according to claim 1, characterized in that: The rear compartment of the sole houses the rechargeable lithium battery pack, micro air pump system, intelligent control components, circuit board, and wiring. An internal slot in the sole is used for wiring, air hoses, and other components. The inner side features a foot-operated inflation / deflation switch, a waterproof air inlet, and a Type-C charging port; the foot-operated inflation switch is located at the front of the shoe, and the foot-operated deflation switch is located at the rear. Users can trigger the inflation / deflation of the air-supported membrane shoe by moving their feet.
7. The intelligent automatic putting on / taking off, inflating, deflating, temperature-regulating, and pressure-regulating pneumatic pleated shoes according to claim 1, characterized in that: The heating and cooling control component includes a dual-mode temperature control unit and multiple PTC heating elements and TEC semiconductor cooling elements. The upper heating and cooling elements are located between the air rib membrane channels, and the bottom heating and cooling elements are located below the air rib membrane of the sole. There are notches at the bending parts to improve walking flexibility and comfort. The intelligent control module automatically or actively adjusts the temperature by detecting data in real time through temperature sensors, and coordinates with the heating and cooling control component to achieve a comfortable temperature inside the shoe.
8. The intelligent automatic putting on / taking off, inflation / deflation, temperature-regulating, and pressure-regulating pneumatic pleated shoes according to claim 1, characterized in that: The outer cladding is made of ePTFE composite membrane or other materials that combine breathability and waterproofness, and is connected to the air rib membrane internally by stitching or bonding to provide structural support and external protection.
9. The intelligent automatic putting on / taking off, inflating, deflating, temperature-regulating, and pressure-regulating pneumatic pleated shoes according to claim 1, characterized in that: The display screen is a touch-sensitive flexible OLED display integrated into the shoe upper. It incorporates a human-computer interaction system, capable of displaying real-time information such as in-shoe air pressure, temperature, humidity, cleanliness, steps, cadence, distance, speed, and battery level. It supports manual touch operation, and the display interface includes interactive elements such as pressure adjustment, temperature adjustment, cleaning, dehumidification, power on / off, and confirmation buttons. It can wirelessly connect to a mobile app and remote control via Bluetooth, RFID, or other means to achieve remote control and synchronized data viewing.
10. The intelligent automatic putting on / taking off, inflation / deflation, temperature-regulating, and pressure-regulating pneumatic pleated shoes according to claim 1, characterized in that, The shoes have a fully automatic putting on and taking off function: when the infrared sensor detects the foot entering, the control module automatically starts the air pump to inflate the air pleated membrane to the preset pressure at a rate of 0.05 Bar / s, completing the adaptive fit of the shoes; when the sensor detects the foot withdrawing or the user triggers the deflation command, the deflation valve is opened to quickly release the air and achieve automatic shoe removal.
11. The intelligent automatic putting on / taking off, inflating, deflating, temperature-regulating, and pressure-regulating pneumatic pleated shoes according to claim 1, characterized in that: The air pleural shoe can be customized by adding or removing sensor types, changing the configuration of heating and cooling plates, or adjusting the distribution of air chambers according to different usage needs. This results in air pleural shoes with different uses, functions, configurations, and prices, forming a series of products suitable for daily life, medical, sports, and outdoor scenarios, catering to users with different needs.
12. The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present invention should be included within the protection scope of the present invention.