CN108741383B

CN108741383B - Sports health monitoring shoes based on flexible pressure sensor

Info

Publication number: CN108741383B
Application number: CN201810940279.XA
Authority: CN
Inventors: 张升; 吴荣照
Original assignee: Fujian Hongxing Erke Sports Goods Co ltd
Current assignee: Fujian Hongxing Erke Sports Goods Co ltd
Priority date: 2018-08-17
Filing date: 2018-08-17
Publication date: 2023-07-04
Anticipated expiration: 2038-08-17
Also published as: CN108741383A

Abstract

The invention provides a sports health monitoring shoe based on a flexible pressure sensor, which comprises a sole, an upper arranged on the sole and an insole arranged between the sole and the upper, wherein the insole comprises a shock absorption layer, an antibacterial layer arranged on the shock absorption layer and a functional layer arranged between the shock absorption layer and the antibacterial layer, and the functional layer comprises a wrapping layer and a flexible sensor arranged in the wrapping layer; the tongue layer is provided with an inverted triangle type hardware module, and the hardware module comprises a main controller, a wireless transmitting module and a sensor module; the foot biomechanics analysis, the exercise stability analysis and the exercise injury analysis are carried out by combining the exercise and the health number through the data obtained by dynamically collecting the stress condition of the sole, and the connection with clinical medicine and rehabilitation medicine is established, so that the exercise injury risk degree of the exercise crowd can be rapidly evaluated, and the problem that the existing exercise health monitoring shoes cannot provide omnibearing monitoring for users due to single function is solved.

Description

Sports health monitoring shoes based on flexible pressure sensor

Technical Field

The invention relates to the field of sports shoes, in particular to a sports health monitoring shoe based on a flexible pressure sensor.

Background

Part of athletes are injured due to congenital reasons or training, so that gait is abnormal, lower limbs are poor in stability when doing technical actions, the risk of injury is greatly increased, and the health is influenced and the competition performance is also influenced. Common lower limb injuries caused by gait abnormalities such as half sole pain (transverse arch collapse), plantar fasciitis, achilles tendon strain, ankle sprain, knee joint injury, tibia injury and iliotibial band syndrome, excessive local pressure on the sole (such as excessive varus, valgus and the like) can be conducted upwards along the kinematic chain of the lower limb, and chronic injuries of the ankle, the knee, the hip and even the waist are easily caused.

The existing sports health monitoring shoes are single in function, do not have the function of providing omnibearing monitoring for users, and cannot quickly evaluate the sports injury risk degree of sports crowd and formulate a prevention and correction scheme of injury.

Disclosure of Invention

Therefore, aiming at the problems, the invention provides the sports health monitoring shoe based on the flexible pressure sensor, which is used for carrying out the biomechanical analysis, the sports stability analysis and the sports injury analysis of feet and establishing the connection with clinical medicine and rehabilitation medicine by combining the data obtained by dynamically collecting the stress condition of the sole and the sports and health data, so that the sports injury risk degree of sports people can be rapidly evaluated.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

the utility model provides a sports health monitoring shoes based on flexible pressure sensor, includes the sole, sets up the upper of a shoe on the sole and sets up the shoe-pad between sole and upper of a shoe, the upper of a shoe includes vamp, tongue layer and shoe collar, the back group department of tongue layer is equipped with a lift-draw tape, be equipped with the shoelace on the tongue layer, the shoe collar comprises ventilative double-deck gauze layer and the memory sponge that is located ventilative double-deck gauze layer, the thickness of memory sponge is 1cm-3cm, the vamp is provided with solar film battery, the solar film battery outside is provided with the protection film;

the insole comprises a shock absorption layer, an antibacterial layer arranged on the shock absorption layer and a functional layer arranged between the shock absorption layer and the antibacterial layer, wherein the functional layer comprises a wrapping layer and a flexible sensor positioned in the wrapping layer, the wrapping layer of the insole is made of thin EVA, the flexible sensor is a full-palm flexible fabric pressure sensor, and a plurality of pressure sensing points are arranged in the full-palm flexible fabric pressure sensor; the thickness of the front sole of the shock absorption layer is 0.4cm, the thickness of the rear heel of the shock absorption layer is 0.5cm, and the shock absorption layer is arranged in a concave-convex shape according to the foot shape so as to better fit the foot arch and the heel of the foot and lighten the pressure of the foot;

the sole comprises an elastic TPU midsole, a rubber outsole and a 3D anti-torsion supporting sheet embedded between the elastic TPU midsole and the rubber outsole, wherein the rubber outsole consists of a thickened rubber part and a transparent rubber part positioned in the middle of the thickened rubber, and a plurality of anti-slip ribs are arranged on the transparent rubber part; the 3D anti-torsion support sheet consists of a bottom support bracket and a fixing flange, wherein the bottom support bracket is embedded between the elastic TPU midsole and the rubber outsole, and the fixing flange is embedded at the arch part of the rubber outsole; the half sole and the heel of the elastic TPU midsole are provided with two pieces of memory sponge, the thickness of the memory sponge is 2cm-3cm, and the area of the memory sponge is the same as the area of the transparent rubber part on the rubber outsole;

the shoe tongue layer is provided with an inverted triangle type hardware module, the hardware module comprises a main controller, a wireless transmitting module and a sensor module for collecting user movement and health data in real time, the sensor module is electrically connected with the main controller, the solar thin film battery and the flexible sensor are both connected with the main controller through peripheral circuits, and the wireless transmitting module is electrically connected with the main controller.

The further improvement is that: the sensor module comprises at least one of a vibration sensing module for counting steps, a heart rate sensor, a temperature sensor and an acceleration sensor.

The further improvement is that: the exercise and health data includes at least one of step count, calorie consumption, heartbeat, and temperature.

The further improvement is that: the antibacterial layer of the insole is made of non-woven nanometer anion textile mixed by hemp, cotton fiber and polypropylene anion nanometer fiber.

The further improvement is that: and the upper surface of the antibacterial layer and the lower surface of the damping layer are uniformly provided with net-shaped ventilation holes.

The further improvement is that: the main controller is connected with the client APP through the wireless transmitting module and performs data interaction, feeds back the motion and health data of the user to the client APP, and controls the motion health monitoring shoe hardware module to work according to the instruction of the client APP.

The further improvement is that: the client APP comprises a database, a health condition diagnosis module, a movement effect evaluation module and an individual movement scheme design expert system; the database includes personal basic information, disease conditions, movement information.

The further improvement is that: the client comprises at least one of a motion bracelet, a mobile phone and a computer terminal.

The further improvement is that: the main controller is an AT89C82 singlechip.

The further improvement is that: the 3D anti-torsion support sheet is made of thermoplastic plastics through 3D printing.

By adopting the technical scheme, the invention has the beneficial effects that:

a sports health monitoring shoe based on a flexible pressure sensor is characterized in that an insole is made of various natural materials and matched with a nanocomposite, and meanwhile, the multifunctional effects of keeping warm, absorbing sweat, preventing mildew, deodorizing, inhibiting bacteria, nourishing feet and the like are realized, so that the health of soles is maintained, and the multidirectional requirements of modern people on sports health are met;

the solar thin battery is adopted to supply power to the shoe body power module, so that the shoe is environment-friendly, energy-saving, strong in pressure resistance and suitable for long-term use; the flexible fabric pressure sensor is arranged, so that wearing comfort in daily activities can be guaranteed, measurement accuracy is extremely high, and meanwhile, the good fatigue resistance can guarantee long-term measurement of foot pressure, and the pressure sensor is suitable for long-term wearing of users;

the 3D anti-torsion supporting sheet is embedded between the elastic TPU midsole and the rubber outsole, so that the sports health monitoring shoe is more stable overall, the obtained data are more accurate, and the occurrence of rollover of the sole in the process of user sports can be reduced;

the parameters of the sole are obtained through the flexible pressure sensor, the collected user movement data (such as step frequency, body temperature, heart beat and the like) are displayed on corresponding APP software, meanwhile, the foot biomechanics analysis, the movement stability analysis and the movement injury analysis are carried out through the client analysis software, the connection with clinical medicine and rehabilitation medicine is established, the movement injury risk degree of the movement crowd can be rapidly evaluated, and therefore a damage prevention and correction scheme is formulated; the biomechanical properties of the shoes, such as buffer property, supporting strength, stability and the like, can be modified by dynamically collecting the pressure distribution data of the soles and the soles, so that scientific shoe selection suggestions are provided for athletes, and unnecessary damage risks caused by uncomfortable shoes are avoided; meanwhile, a personalized correction scheme can be formulated according to the pressure test data, so that the purposes of improving comfort, enhancing endurance, improving athletic level and preventing sports injury are achieved, and advice and strategy for improving physical health are provided for sports groups;

the monitor can input the height and weight information of the old or children at mobile terminals such as mobile phones and computers, and software can automatically set a proper mode switching threshold value, so that accuracy and reliability of identifying sports health monitoring are improved, and compared with the existing sports monitoring shoes in other markets, the freedom degree and interactivity of the sports health monitoring shoes are better.

Drawings

FIG. 1 is a schematic overall appearance of an embodiment of the present invention;

FIG. 2 is a schematic view of an insole according to an embodiment of the present invention;

FIG. 3 is a schematic view of a sole footprint of an embodiment of the present invention;

FIG. 4 is a schematic view of a rubber outsole in accordance with an embodiment of the present invention;

FIG. 5 is a schematic view of a 3D anti-torsion structure according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of the structure of a TPU midsole according to an embodiment of the present invention;

fig. 7 is a schematic working diagram of an electricity consumption module according to an embodiment of the invention.

Detailed Description

The following describes embodiments of the present invention in detail with reference to specific examples, so as to solve the technical problem by applying the technical means to the present invention, and the implementation process for achieving the technical effect can be fully understood and implemented accordingly.

The embodiment of the invention is as follows:

referring to fig. 1-7, a sports health monitoring shoe based on a flexible pressure sensor comprises a sole 1, an upper 2 arranged on the sole 1 and an insole 3 arranged between the sole and the upper, wherein the upper 2 comprises a vamp 21, a tongue layer 22 and a collar 23, a lifting belt 24 is arranged at the back upper of the tongue layer, shoelaces 25 are arranged on the tongue layer, the collar 23 comprises a breathable double-layer gauze layer which is a memory sponge positioned in the breathable double-layer gauze layer, and the thickness of the memory sponge is 1cm-3cm; the vamp is provided with a solar film battery 45, and the outer side of the solar film battery is provided with a protective film.

The insole 3 comprises a shock absorption layer 31, an antibacterial layer 32 arranged on the shock absorption layer 31 and a functional layer 33 arranged between the shock absorption layer 31 and the antibacterial layer 32, wherein the antibacterial layer 32 of the insole is made of non-woven nanometer anion textiles produced by mixing hemp, cotton fibers and polypropylene anion nanometer fibers, the traditional hemp and cotton shoe pad has good moisture absorption and air permeability, the hemp insole can also inhibit bacteria and resist odor, but the wear resistance of the hemp and the cotton fibers is relatively poor; the chemical fiber insole has poor moisture absorption and air permeability, is easy to generate static electricity and is unfavorable to health. The non-woven fabric insole produced by mixing the hemp and cotton fibers with the polypropylene filaments has the characteristics of absorbing moisture and ventilating, resisting and inhibiting bacteria of the hemp and cotton, and simultaneously can reduce the cost to a certain extent. The nano material has very remarkable antibacterial and deodorant effects on shoes, and the mechanism is as follows: the size of the nano-scale particles is already close to the size of atoms, so that the nano-material particles can penetrate the cell walls of bacteria, thereby achieving the purpose of killing the bacteria. Meanwhile, the nano material has a plurality of micropore structures, and can be used for filling antibacterial ions into micropores of the nano material for slow release, so that the effects of sterilization and deodorization are achieved. The particles forming the nano material have special surface effect and small-size effect, so that different physical and chemical properties from those of the conventional materials can be generated, such as high strength, high toughness, good electric conduction and electrostatic shielding effect, ultraviolet resistance, visible light and infrared absorption, aging resistance and strong antibacterial and deodorizing functions, adsorption capacity and the like, and the nano material belongs to an inorganic antibacterial agent, and has no secondary pollution problem and no toxic or harmful effect on human bodies.

The functional layer 33 comprises a wrapping layer and a flexible pressure sensor 44 positioned in the wrapping layer, the wrapping layer of the insole 3 is thin EVA, the flexible sensor 44 is a full-palm flexible fabric pressure sensor, and a plurality of pressure sensing points are arranged in the full-palm flexible fabric pressure sensor; the thickness of the front sole of the shock absorption layer 31 is 0.4cm, the thickness of the rear heel is 0.5cm, and the concave-convex shape of the shock absorption layer 31 is designed according to the foot shape so as to better fit the foot arch and the heel, thereby reducing the pressure of the foot; the upper surface of the antibacterial layer 32 and the lower surface of the shock-absorbing layer 31 are both provided with reticular air holes.

The sole 1 comprises an elastic TPU midsole 11, a rubber outsole 12 and a 3D anti-torsion supporting sheet 13 embedded between the elastic TPU midsole and the rubber outsole, wherein the rubber outsole consists of a thickened rubber part 121 and a transparent rubber part 122 positioned in the middle of the thickened rubber, and the transparent rubber part is provided with a strip anti-slip bead 123; the 3D anti-torsion support 13 sheet consists of a bottom support bracket 131 and a fixing flange 132, wherein the bottom support bracket 131 is embedded between the elastic TPU midsole 11 and the rubber outsole 12, and the fixing flange 132 is embedded at the arch part of the rubber outsole 12; the half sole part and the heel part of the elastic TPU midsole 11 are provided with two pieces of memory sponge 111, the thickness of the memory sponge is 2cm-3cm, and the area of the memory sponge 111 is the same as that of a transparent rubber part 122 on the rubber outsole;

the shoe tongue layer is provided with an inverted triangle-shaped hardware module 4, the hardware module comprises a main controller 41, a wireless transmitting module 42 and a sensor module 43 for collecting motion and health data of a user in real time, the sensor module 43 is electrically connected with the main controller 41, a solar thin film battery 44 and a flexible pressure sensor 45 are both connected with the main controller 41 through peripheral circuits, and the wireless transmitting module 42 is electrically connected with the main controller 41.

The main controller 41 is an AT89C82 singlechip, and realizes the overall program control of the health monitoring shoes, including data acquisition flow, analysis of acquired data, transfer to a memory or monitoring terminal and system electric quantity monitoring; the solar thin film battery 44 provides power to all the working modules of the sports health monitoring shoe.

The sensor module 43 comprises a vibration sensing module for step counting, a heart rate sensor, a temperature sensor and an acceleration sensor; the exercise and health data includes step count, calorie consumption, heartbeat, and temperature.

The main controller 41 is connected with the client APP5 through the wireless transmitting module 42 and performs data interaction, and is used for feeding back the motion and health data of a user to the client APP5 and controlling the health monitoring shoe hardware module to work according to the instruction of the client APP 5; the client comprises a motion bracelet, a mobile phone and a computer terminal; the client APP5 comprises a database 51, a health condition diagnosis module 52, a sports effect evaluation module 53 and an individual sports scheme design expert system 54, wherein the database comprises an individual basic information unit 56, a disease condition unit 57 and a sports information unit 58.

The health status diagnosing module 52 monitors the movement and health data (temperature, step frequency, heartbeat) of the user in real time, the database 51 stores the monitored movement and health data in real time, the user can query the data through the client APP5, and the user can adjust the movement amount of the user according to the information. The user can check the ranking of the exercise situation among friends while checking the exercise and health data of the user through the client APP software, and the exercise effect evaluation module 53 can push the health condition diagnosis and health level improvement strategies and suggestions to the user through the APP software.

At the same time, the individual exercise program design expert system 54 will feed back the exercise adjustment program to the product user in time: the individual exercise program design expert system 54 automatically performs foot biomechanics analysis, exercise stability analysis and exercise injury analysis by combining exercise and health data with data obtained by dynamically collecting the stress condition of the sole, evaluates the exercise injury risk degree of exercise crowd by establishing a connection with clinical medicine and rehabilitation medicine, and prepares an injury prevention and correction scheme to feed back to a product user;

preferably, the biomechanical performance of the shoe, including the cushioning performance, the supporting strength and the stability, can be improved by dynamically collecting the pressure distribution data of the sole and the sole, so that scientific shoe selection suggestions are provided for athletes, and unnecessary damage risks caused by uncomfortable shoes are avoided; meanwhile, a personalized correction scheme can be formulated according to the pressure test data, so that the aims of improving comfort level, enhancing endurance, improving athletic level and preventing sports injury are achieved.

While the invention has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The sports health monitoring shoe based on the flexible pressure sensor comprises a sole, an upper arranged on the sole and an insole arranged between the sole and the upper, and is characterized in that the upper comprises a vamp, a tongue layer and a collar, a lifting belt is arranged at the back upper of the tongue layer, shoelaces are arranged on the tongue layer, the collar consists of a breathable double-layer net cloth layer and a memory sponge positioned in the breathable double-layer net cloth layer, the thickness of the memory sponge is 1cm-3cm, the vamp is provided with a solar film battery, and a protective film is arranged on the outer side of the solar film battery;

the sole comprises an elastic TPU midsole, a rubber outsole and a 3D anti-torsion supporting sheet embedded between the elastic TPU midsole and the rubber outsole, wherein the rubber outsole consists of a rubber part and a transparent rubber part positioned in the middle of the rubber, and a plurality of anti-slip ribs are arranged on the transparent rubber part; the 3D anti-torsion support sheet consists of a bottom support bracket and a fixing flange, wherein the bottom support bracket is embedded between the elastic TPU midsole and the rubber outsole, and the fixing flange is embedded at the arch part of the rubber outsole; the half sole and the heel of the elastic TPU midsole are provided with two pieces of memory sponge, the thickness of the memory sponge is 2cm-3cm, and the area of the memory sponge is the same as the area of the transparent rubber part on the rubber outsole;

the shoe tongue layer is provided with an inverted triangle hardware module, the hardware module comprises a main controller, a wireless transmitting module and a sensor module for collecting user movement and health data in real time, the sensor module is electrically connected with the main controller, the solar thin film battery and the flexible sensor are both connected with the main controller through peripheral circuits, and the wireless transmitting module is electrically connected with the main controller;

the sensor module comprises at least one of a vibration sensing module, a heart rate sensor, a temperature sensor and an acceleration sensor for step counting; the exercise and health data includes at least one of step count, calorie consumption, heartbeat, and temperature; the antibacterial layer of the insole is made of non-woven nanometer anion textile mixed by hemp, cotton fiber and polypropylene anion nanometer fiber.

2. A sports health monitoring shoe based on flexible pressure sensors according to claim 1, characterized in that: and the upper surface of the antibacterial layer and the lower surface of the damping layer are uniformly provided with net-shaped ventilation holes.

3. A sports health monitoring shoe based on flexible pressure sensors according to claim 1, characterized in that: the main controller is connected with the client APP through the wireless transmitting module and performs data interaction, and the main controller feeds back the motion and health data of the user to the client APP and controls the motion health monitoring shoe hardware module to work according to the instruction of the client APP.

4. A sports health monitoring shoe based on flexible pressure sensors according to claim 3, characterized in that: the client APP comprises a database, a health condition diagnosis module, a movement effect evaluation module and an individual movement scheme design expert system; the database includes personal basic information, disease conditions, movement information.

5. The sports health monitoring shoe based on flexible pressure sensors as claimed in claim 4, wherein: the client comprises at least one of a motion bracelet, a mobile phone and a computer terminal.

6. A flexible pressure sensor based athletic health monitoring shoe as defined in claim 1, wherein: the main controller is an AT89C82 singlechip.

7. A flexible pressure sensor based athletic health monitoring shoe as defined in claim 1, wherein: the 3D anti-torsion support sheet is made of thermoplastic plastics through 3D printing.