CN210094807U - Sports shoes - Google Patents

Abstract

The present application provides a sports shoe, comprising: sole, vamp, solar energy thin film battery and intelligent control module. The vamp is connected with the sole to wrap the foot. The solar thin film cell covers a surface of the upper away from the sole. The intelligent control module is arranged on the vamp. By arranging the intelligent control module on the shoe upper, when a sporter is in a motion state, the intelligent control device does not bear the gravity of the sporter, the impact load is reduced, and circuit elements in the intelligent control device are effectively protected. This application has not only improved intelligent control device's the degree of accuracy and stability make moreover intelligent control device's life increases. Further, the service life of the sports shoe is increased. Meanwhile, the sports shoes supply power to the intelligent control module through the solar thin film battery, and independent power supply of the sports shoes is achieved.

Description

Sports shoes

Technical Field

The application relates to the field of footwear, in particular to a sports shoe.

Background

The sports shoes are designed and manufactured according to the physical function characteristics of people participating in sports. When doing sports, the sporter wears the sports shoes more comfortably and safely. Along with the development of science and technology, intelligent sports shoes appear in the market.

The intelligent sports shoes can not only record the step number, the step frequency, the route and other information of the sporter, but also prompt the physical state, the muscle fatigue condition and the service life of the shoes of the sporter through the intelligent control module arranged in the soles. When a sporter is in sports, the intelligent control module in the intelligent sports shoe is subjected to increased impact load, wherein a part of the impact load is generated under the action of gravity. Circuit elements in the intelligent control module are subjected to large impact load for a long time and are easy to be short-circuited or broken, so that the accuracy and the stability of the intelligent control module are influenced, and the service life of the intelligent control module is influenced. Further, the service life of the sports shoe is affected.

SUMMERY OF THE UTILITY MODEL

Therefore, the sports shoes are needed to be provided aiming at the problems that the circuit elements in the intelligent control module are subjected to large impact load, short circuit or broken circuit is easy to occur, and the service life of the sports shoes is influenced.

An athletic shoe, comprising: sole, vamp, solar energy thin film battery and intelligent control module. The vamp is connected with the sole and is suitable for wrapping feet. The solar thin film cell covers a surface of the upper away from the sole. The intelligent control module is arranged on the vamp and is electrically connected with the solar thin film battery.

In one embodiment, the sports shoe further comprises an illumination device. The lighting device is arranged on the side surface of the sole and connected with the intelligent control module.

In one embodiment, the illumination device is arranged on the side surface of the sole close to the heel.

In one embodiment, the upper comprises: a first panel, a second panel, and a third panel. The first surface area is far away from the sole and covers the instep. The solar thin film cell covers the surface of the first face area far away from the sole. The second surface area is connected with the first surface area, is connected with the sole and surrounds two sides of the arch together with the sole. The third surface area is connected with the second surface area, is connected with the sole and surrounds a heel together with the sole, and the intelligent control module is arranged on the third surface area.

In one embodiment, the surface of the third panel remote from the first panel is provided with a retroreflective material.

In one embodiment, the athletic shoe further includes a wireless transmission device. The wireless transmission device is arranged on the second surface area, is electrically connected with the intelligent control module, and receives external instruction information and information such as motion parameters output by the intelligent control module.

In one embodiment, the athletic shoe further includes a stored energy device disposed in the third panel. The electric energy input end of the energy storage device is connected with the solar thin film battery, and the electric energy output end of the energy storage device is connected with the electric energy input end of the intelligent control module.

In one embodiment, the sports shoe further comprises a pressure sensor, wherein the pressure sensor is arranged on the sole and connected with the intelligent control module.

In one embodiment, the pressure sensor is disposed at a portion of the sole that is stepped on by a heel.

In one embodiment, the intelligent control module comprises: the device comprises a main control unit, an acceleration sensor, an information communication unit and a power supply management unit.

The main control unit is arranged on the third surface area. The signal output end of the main control unit is connected with the signal input end of the lighting device to control the switch of the lighting device, and the signal input end of the main control unit is connected with the signal output end of the pressure sensor to receive the pressure signal.

The acceleration sensor is provided on the third surface. And the signal output end of the acceleration sensor is connected with the signal input end of the main control unit and receives an acceleration signal.

The information communication unit is arranged on the third surface area. And the wireless transmission device is connected with the main control unit, transmits the external instruction information received by the wireless transmission device to the main control unit, and transmits the information such as the motion parameters output by the main control unit to the wireless transmission device.

The power management unit is arranged on the third surface area. The electric energy input end of the power management unit is connected with the electric energy output end of the solar thin-film battery, and the electric energy output end of the power management unit is connected with the electric energy input end of the main control unit, so that the main control unit provides electric energy. And the electric energy output end of the power supply management unit is connected with the electric energy input end of the wireless transmission device to provide electric energy for the wireless transmission device. And the electric energy output end of the power management unit is connected with the electric energy input end of the energy storage device, and the electric energy is stored through the energy storage device.

The utility model provides a sports shoes, through with intelligent control module set up in the vamp, when the sporter is in motion state, intelligent control device does not bear sporter's gravity, and the impact load who receives reduces, circuit element among the intelligent control device obtains effective protection. This application has not only improved intelligent control device's the degree of accuracy and stability make moreover intelligent control device's life increases. Further, the service life of the sports shoe is increased. Meanwhile, the sports shoes supply power to the intelligent control module through the solar thin film battery, and independent power supply of the sports shoes is achieved.

Drawings

Fig. 1 is a schematic structural view of a sports shoe according to an embodiment of the present invention;

fig. 2 is an electrical connection diagram of a sports shoe according to an embodiment of the present invention.

Description of reference numerals:

sports shoe 10

Sole 20

Shoe upper 30

First panel 310

Second panel 320

Third panel 330

Solar thin film cell 40

Intelligent control module 50

Main control unit 510

Acceleration sensor 520

Information communication unit 530

Power management unit 540

Lighting device 60

Wireless transmission device 70

Energy storage device 80

Pressure sensor 90

Detailed Description

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, embodiments accompanying the present application are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. This application is capable of embodiments in many different forms than those described herein and those skilled in the art will be able to make similar modifications without departing from the spirit of the application and it is therefore not intended to be limited to the embodiments disclosed below.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "electrically connected" to another element, it can be directly electrically connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, an athletic shoe 10 includes: sole 20, upper 30, solar thin-film battery 40, and intelligent control module 50. The upper 30 is attached to the sole 20 and is adapted to wrap around a foot. The solar thin film cell 40 covers the surface of the upper 30 remote from the sole 20. The intelligent control module 50 is disposed on the upper 30 and electrically connected to the solar thin film battery 40.

The form of the sole 20 is not limited as long as it is convenient to walk. The sole 20 may be integrally formed or may be formed in a layered composite manner. In one embodiment, sole 20 is integrally formed. The integrated molding is to put the sole material into a molding die and manufacture the sole through hot pressing or thermoplastic molding. The material of the sole 20 is not limited, as long as it can support the weight of the human body and facilitate walking. The sole 20 may be made of a single material or may be made of multiple materials. The material of the sole 20 may be ethylene/vinyl chloride copolymer, rubber, plastic, or the like. In one embodiment, the sole 20 is made of a thermoplastic polyurethane elastomer rubber. The thermoplastic polyurethane elastomer rubber has excellent wear resistance and repeated flexibility. The sole 20 has not only good elastic cushioning ability and stable supporting ability, but also good wear resistance and flexibility.

The upper 30 is connected to the sole 20, and the size of the area for wrapping the foot is not limited, so long as the shoe is convenient for the sporter to exercise. The upper 30 may be attached to the sole 20 to wrap the entire foot or a portion of the foot. In one embodiment, the upper 30 is attached to the sole 20 and wraps around the entire foot. Since the user can move about the sole, heel, ankle, etc. during exercise, the athletic shoe 10 can cover the entire foot to help protect various parts of the foot's joints and reduce the possibility of sprain. The material of the upper 30 is not limited as long as it can wrap the foot together with the sole 20. The upper 30 may be formed from a single material or may be formed from multiple materials. The upper 30 may be a single layer or a multi-layer composite structure. The material of the upper 30 may be natural leather, PU, nylon, canvas, or the like. In one embodiment, upper 30 has a three-layer construction, with the interior and exterior surfaces of upper 30 being of a nylon construction to form an enclosed void, and upper 30 being filled with fabric in the middle. The sports shoe 10 not only has the advantages of soft touch and good air permeability, but also is not easy to decolor and durable.

The type of the solar thin film cell 40 is not limited as long as it can convert light energy into electric energy. The solar thin film battery 40 may be a silicon-based thin film battery, a copper indium gallium selenide battery, or a gallium arsenide battery. In one embodiment, the solar thin film cell 40 is a copper indium gallium selenide device. The solar thin-film battery 40 has the characteristics of vibration resistance and impact resistance, and has the characteristics of weak light power generation, humidity resistance, heat resistance and low temperature resistance. The solar thin film cell 40 can normally generate electricity even if a player wears the sports shoe 10 in a dark environment.

The position of the solar thin film cell 40 covering the surface of the sports shoe 10 is not limited as long as the solar thin film cell can receive light energy. The solar thin film cell 40 may cover the upper 30 and also the sole 20. In one embodiment, the solar thin-film cell 40 covers the upper 30, because the upper 30 does not bear the weight of the body when in motion, the solar thin-film cell 40 can be prevented from being excessively pressed to lose the power generation function. The connection form of the solar thin film cell 40 and the upper 30 is not limited as long as the solar thin film cell 40 can be fixed to the upper 30. The solar thin film cell 40 and the upper 30 can be connected by bonding, pressing, sewing, or the like. In one embodiment, the connection of the solar thin film cell 40 to the upper 30 is in the form of stitching. When the sports shoe 10 is discarded, the solar thin-film battery 40 can be separated from the upper 30, and the solar thin-film battery 40 can be recycled, so that resources are saved and the cost is reduced.

The position of the intelligent control module 50 disposed on the sports shoe 10 is not limited, as long as the normal operation of the intelligent control module 50 is not affected when the sporter is doing sports. The intelligent control module 50 may be disposed on the sole 20 or the upper 30. In one embodiment, the intelligent control module 50 is disposed on the upper 30, and the intelligent control module 50 does not bear the weight of the sporter, thereby reducing the damage rate. The connection form of the intelligent control module 50 and the solar thin film battery 40 through the electric wire is not limited as long as the electric connection can be realized. The connection form of the intelligent control module 50 and the solar thin film cell 40 through a wire can be welding or connector connection, etc. In one embodiment, the intelligent control module 50 is welded to the solar thin film cell 40. Because the intelligent control module 50 and the solar thin-film battery 40 are all in a dynamic environment, and can be vibrated and impacted, and the firmness of the connection point can be ensured by connecting in a welding mode, thereby ensuring that the solar thin-film battery 40 can convey electric energy to the intelligent control module 50.

By arranging the intelligent control module 50 on the shoe upper 30, when the sporter is in a sport state, the intelligent control device 50 does not bear the weight of the sporter, the impact load is reduced, and the circuit elements in the intelligent control device 50 are effectively protected. The accuracy and stability of the intelligent control device 50 are improved, and the service life of the intelligent control device 50 is prolonged. Further, the life span of the sports shoe 10 is increased. Meanwhile, the sports shoe 10 supplies power to the intelligent control module 50 through the solar thin film battery 40, so that the independent power supply of the sports shoe 10 is realized.

The athletic shoe 10 also includes an illumination device 60. The lighting device 60 is disposed on a side surface of the shoe sole 20, and the lighting device 60 is connected to the intelligent control module 50.

The fixing position of the lighting device 60 to the shoe sole 20 is not limited as long as the lighting device can be fixed to the shoe sole 20. The lighting device 60 may be fixed to the surface of the shoe sole 20, or may be embedded in the shoe sole 20 as long as it can emit light. In one embodiment, the lighting device 60 is embedded in the sole 20, so as to avoid colliding with the lighting device 60 in the moving state. The connection form of the lighting device 60 and the sole 20 is not limited as long as the lighting device 60 is firmly connected to the sole 20. The illumination device 60 may be attached to the sole 20 by adhesive, snap or adhesive bonding. In one embodiment, the illumination device 60 is bonded to the sole 20. The sole 20 is disposed in a corresponding recess of the lighting device 60, the recess and the surface of the lighting device 60 are glued, and the lighting device 60 is placed in the recess. Thereby, the lighting device 60 is adhered to the shoe sole 20.

The form of the illumination device 60 is not limited as long as illumination is possible. The illumination device 60 may be a fluorescent lamp, an incandescent lamp, an LED lamp, or the like. In one embodiment, the illumination device 60 employs an LED lamp. The LED lamp has the characteristic of energy conservation, and the LED lamp can be illuminated for a longer time when the electric energy is the same. The LED light also has impact resistance and can adapt to the working state of the sneaker 10.

The light emitting color of the illumination device 60 is not limited as long as it is easy to observe. The lighting device 60 may emit light of one or more colors selected from white, green, red and yellow. In one embodiment, the lighting device 60 has a mixed and gradient color, and can attract the attention of others through regular change of light color, so as to actively avoid the sporter and protect the safety of the sporter. The shape of the lighting device 60 is not limited, and may be one or more of a point shape and a curved ring shape. In one embodiment, the lighting device 60 is in the shape of a dot, because the thickness of the sole 20 is small, the lighting device 60 in the shape of a dot can be fixed on the sole 20. Gaps exist among the lighting devices 60, and when the sole 20 is bent or pressed, the gaps reduce the acting force among the lighting devices 60, so that the lighting devices 60 are effectively protected.

The illumination device 60 is disposed on a side surface of the sole 20 near the heel.

The number of the lighting devices 60 is not limited as long as a certain illumination degree can be ensured. The lighting device 60 may be one or more. In one embodiment, the number of the lighting devices 60 is three, so that when one or two of the lighting devices 60 are damaged, the remaining lighting devices 60 can still emit light, the sporter can be ensured to be noticed by others, and the safety factor is increased.

The position of the lighting device 60 on the side surface of the sole 20 is not limited as long as it is convenient to indicate the position of the sporter. The illumination device 60 may be partially provided on the side surface of the sole 20, or the illumination device 60 may be provided on the entire periphery side. The illumination device 60 may be disposed on a side surface of the sole 20 on which the sole is stepped, on a side surface of the sole 20 opposite to the arch, or on a side surface of the sole 20 near the heel.

In one embodiment, the illumination device 60 is disposed on a side surface of the sole 20 near the heel. When a sporter moves, the opposite direction of the advancing direction is a visual field blind area, and the illuminating device 60 is arranged on the side surface of the sole 20 close to the heel, so that the sole 20 can be ensured to emit light, other people can notice the sporter and actively avoid the sporter, and the safety of the sporter is ensured.

The upper 30 includes: a first panel 310, a second panel 320, and a third panel 330. The first panel 310 is distal to the sole 20 and covers the upper of the foot. The solar thin film cell 40 covers the surface of the first face region 310 away from the sole 20. The second panel 320 is connected to the first panel 310 and to the sole 20, and together with the sole 20, surrounds both sides of the arch. The third surface area 330 is connected to the second surface area 320, connected to the sole 20, and surrounds the heel together with the sole 20, and the intelligent control module 50 is disposed on the third surface area 330.

The area of the surface of the upper 30 covered by the solar thin-film battery 40 is not limited as long as the intelligent control module 50 can be supplied with electric energy. The solar thin film cell 40 may cover the entire surface of the upper 30 away from the sole, or may cover a portion of the surface of the upper 30 away from the sole. In one embodiment, the solar thin film battery 40 partially covers the surface of the upper 30 away from the sole, which saves cost on the premise of providing the intelligent control module 50 with the required electric energy. The solar thin film cell 40 may cover the surface of the first surface area 310 away from the sole 20, the surface of the second surface area 320 away from the sole, or the surface of the third surface area 330 away from the first surface area 310. In one embodiment, the solar thin film cell 40 covers the surface of the first surface area 310 away from the sole 20, because the included angle between the surface of the first surface area 310 away from the sole 20 and the sunlight irradiation is the largest, the surface of the first surface area 310 away from the sole 20 can receive more light energy in the same time, and the solar thin film cell 40 can convert more electric energy, thereby ensuring the normal operation of the intelligent control module 50.

The area of the solar thin film cell 40 covering the surface of the first surface area 310 away from the sole 20 is not limited as long as the power consumption of the intelligent control module 50 can be ensured. The solar thin film cell 40 may cover the entire surface of the first panel 310 away from the sole 20, or may cover a portion of the surface of the first panel 310 away from the sole 20. In one embodiment, the solar thin film battery 40 covers the surface of the first face area 310 away from the sole 20, and can provide sufficient power for the intelligent control module 50.

The surface of the third panel 330 remote from the first panel 310 is provided with retroreflective material.

The surface of the third panel 330 remote from the first panel 310 is attached with a fluorescent substance or a retroreflective stripe, or a retroreflective material can be used. In one embodiment, the surface of the third surface area 330 remote from the first surface area 310 is made of reflective material, and the reflective material is a part of the surface of the third surface area 330, and is firmly fixed, so that the reflective effect can be always ensured in the life cycle of the sports shoe 10. When a sporter moves, when light irradiates on the reflective material, the reflective material reflects light, other people see the reflected light, the reflective material can be actively avoided, and the safety of the sporter is ensured.

The athletic shoe 10 also includes a wireless transmission device 70. The wireless transmission device 70 is disposed in the second area 320, electrically connected to the intelligent control module 50, and configured to receive external instruction information and information such as motion parameters output by the intelligent control module 50.

The position of the wireless transmission device 70 disposed on the sports shoe 10 is not limited as long as it can transmit and receive information. The wireless transmission device 70 may be disposed on the sole 20 or the upper 30. In one embodiment, the wireless transmission device 70 is disposed on the upper 30, and the wireless transmission device 70 is in a position with a small stress, so as to effectively ensure the performance of the components of the wireless transmission device 70 and prolong the service life. The position of the wireless transmission device 70 disposed on the upper 30 is not limited as long as the quality of information transmission and reception can be ensured. The wireless transmission device 70 may be disposed on the first panel 310, the second panel 320 or the third panel 330. In one embodiment, the wireless transmission device 70 is disposed on the second panel 320, the second panel 320 extends along the arch of the foot to the legs, and the receiving angle of the transceiving port of the wireless transmission device 70 is larger, so as to better receive information. The kind of the wireless transmission device 70 is not limited as long as the communication channel can be widened. The wireless transmission device 70 may be WIFI or bluetooth. In one embodiment, the wireless transmission device 70 employs a dual low power bluetooth antenna having two antennas, and compared to a single channel bluetooth antenna, information can be transmitted through two channels simultaneously, which is faster.

The sports shoe 10 can realize rapid information transmission by arranging the wireless transmission device 70, and particularly has higher transmission efficiency when the data volume is large.

The athletic shoe 10 further includes an energy storage device 80, wherein the energy storage device 80 is disposed in the third surface area 330. The electric energy input end of the energy storage device 80 is connected with the electric energy output end of the solar thin film battery 40, and the electric energy output end of the energy storage device 80 is connected with the electric energy input end of the intelligent control module 50.

The location where the energy storage device 80 is disposed on the sports shoe 10 is not limited as long as information can be transmitted and received. The energy storage device 80 may be disposed on the sole 20 or the upper 30. In one embodiment, the energy storage device 80 is disposed on the upper 30, and the energy storage device 80 is under a low stress, so that the energy storage performance of the energy storage device 80 is effectively ensured, and the service life is prolonged. The location of the energy storage device 80 on the upper 30 is not limited as long as the quality of information transmission and reception can be ensured. The energy storage device 80 can be disposed in the first panel 310, the second panel 320, or the third panel 330. In one embodiment, the energy storage device 80 is disposed on the third surface area 330. When the exerciser is in an exercise state, the third surface area 330 is not pressed by the gravity of the exerciser, and the bending degree of the third surface area 330 is the minimum. The energy storage device 80 is located in the minimum stress area, and cannot be extruded and deformed, so that the service life is prolonged.

The type of the energy storage device 80 is not limited as long as the energy storage device can store electric energy. The type of the energy storage device 80 may be a lead-acid battery, a lithium ion battery, or a nickel-metal hydride battery, etc. In one embodiment, the energy storage device 80 is a lithium battery, which is fast to charge and light in weight. The shape of the energy storage device 80 is not limited as long as it is convenient to store. The shape may be a three-dimensional shape such as a rectangular parallelepiped, a cube, or a cylinder. In the above embodiment, the energy storage device 80 is a cylindrical lithium battery, and the cylindrical lithium battery has a larger volume and a larger capacity and has the same surface area. In the above embodiment, the cylindrical lithium battery has an operating voltage of 12V and a rated current of 6000 mAh.

When the electric energy generated by the solar thin film battery 40 is sufficient, the energy storage device 80 can store the electric energy, so that the intelligent control module 50 is provided with the electric energy when the light source is weak.

The sports shoe 10 further comprises a pressure sensor 90, wherein the pressure sensor 90 is arranged on the sole 20 and connected with the intelligent control module 50.

The position where the pressure sensor 90 is disposed on the sports shoe 10 is not limited as long as it can detect pressure. The pressure sensor 90 may be disposed on the sole 20 or the upper 30. In one embodiment, the pressure sensor 90 is disposed on the sole 20. Because the pressure sensor 90 is mainly used for detecting the pressure of the athlete stepping on the sole 20 in the exercise state, the athlete stepping on the sole 20 in the exercise state can accurately detect the pressure in real time by arranging the pressure sensor 90 on the sole 20.

The type of the pressure sensor 90 is not limited as long as the pressure can be accurately detected. The pressure sensor 90 may be a resistive strain gage pressure sensor, a semiconductor strain gage pressure sensor, or an inductive pressure sensor. In one embodiment, the pressure sensor 90 is a resistance strain gauge pressure sensor, which is more economical and reasonable on the basis of ensuring the detection effect.

The pressure sensor 90 is provided at a portion of the sole 20 on which the heel is stepped.

The position where the pressure sensor 90 is provided in the shoe sole 20 is not limited as long as the data can be detected. The pressure sensor 90 may be provided at a portion of the sole 20 on which the sole of a foot is stepped, or at a portion of the sole 20 on which the heel is stepped. In one embodiment, the pressure sensor 90 is disposed at a portion of the sole 20 that is stepped on by the heel, because the portion of the sole 20 that is stepped on by the heel is most stressed when the player is doing sports, and the portion of the sole 20 that is stepped on by the heel is more stressed when the player is tired. The fatigue degree of the exerciser can be judged from the magnitude of the detected value of the pressure sensor 90. The longer the sports shoe 10 is worn, the more worn and deformed the sole, the less effective the sole 20 is in absorbing shock, and the more the wearer is stressed at the portion of the sole 20 that is stepped on by the heel during sports. The wear of the sports shoe 10 can be judged from the magnitude of the detected value of the pressure sensor 90.

The sports shoe 10 is provided with the pressure sensor 90, so that not only can the fatigue degree of a sporter be judged, but also the wear condition of the sports shoe 10 can be judged.

Referring to fig. 2, the intelligent control module 50 includes: a main control unit 510, an acceleration sensor 520, an information communication unit 530, and a power management unit 540.

The main control unit 510 is disposed in the third surface area 330. The signal output end of the main control unit 510 is connected with the signal input end of the lighting device 60, and controls the on/off of the lighting device 60. The signal input end of the main control unit 510 is connected with the signal output end of the pressure sensor 90, and receives a pressure signal.

The acceleration sensor 520 is disposed on the third surface area 330. The signal output end of the acceleration sensor 520 is connected with the signal input end of the main control unit 510, and receives an acceleration signal.

The information communication unit 530 is disposed in the third surface area 330. Is connected with the wireless transmission device 70 and is connected with the main control unit. And transmitting the external instruction information received by the wireless transmission device to the main control unit, and transmitting the information such as the motion parameters output by the main control unit to the wireless transmission device. The power management unit 540 is disposed in the third surface area 330. The electric energy input end of the power management unit 540 is connected with the electric energy output end of the solar thin film battery 40, and the electric energy output end of the power management unit 540 is connected with the electric energy input end of the main control unit 510 to provide electric energy for the main control unit 510. The power output terminal of the power management unit 540 is connected to the power input terminal of the wireless transmission device 70 to provide power for the wireless transmission device 70. The electric energy output end of the power management unit 540 is connected with the electric energy input end of the energy storage device 80, and the electric energy is stored through the energy storage device 80.

The form of the main control unit 510 is not limited, and it is sufficient to satisfy the functional requirements. The main control unit 510 may be a main controller or a main control module, etc. In one embodiment, the main control unit 510 is a main control module integrated in the intelligent control module 50, and has a reduced size and high integration.

The acceleration sensor 520 may be a single-axis acceleration sensor or a multi-axis acceleration sensor. In one embodiment, the acceleration sensor 520 is a three-axis acceleration sensor. The acceleration generated by the triaxial acceleration sensor is in direct proportion to the change of resistance, voltage and capacitance, and is acquired through a corresponding amplifying and filtering circuit. The form of the acceleration sensor 520 is not limited as long as it can transmit an acceleration signal. The acceleration sensor 520 includes a capacitive type, an inductive type, a strain type, a piezoelectric type, or the like. In one embodiment, the acceleration sensor 520 is a piezoelectric triaxial acceleration sensor, which is small in size and accurate in measurement.

Through the cooperation of the three-axis acceleration sensor and the pressure sensor 90, the sports shoe 10 can record the number of steps and the step frequency and monitor the state of the sports shoe. The acceleration sensor 520 may record the acceleration of the forward and backward movement, the left and right movement, or the up and down movement, so as to count the number of steps and the step frequency. The acceleration sensor 520 and the pressure sensor 90 transmit data to the main control unit 510 in real time, and the main control unit 510 monitors the exercise state of the exerciser, running, walking or jumping according to a set program. The pressure sensor can be through the state that falls to the ground of record runner, and when the sportsman was in fatigue state, the height that the foot was raised can change, and the power that the shoes fell to the ground all can change, through the acceleration and the speed that detect each direction, calculates sportsman's fatigue degree.

The information communication unit 530 is connected to the wireless transmission device 70 in any form as long as it can communicate with each other. The information communication unit 530 and the wireless transmission device 70 may be connected by wire or wirelessly. In one embodiment, the information communication unit 530 is wirelessly connected to the wireless transmission device 70, so as to reduce the probability of line wear and ensure smooth communication. The information communication unit 530 is not limited in form, and may be WIFI or bluetooth. In one embodiment, the information communication unit 530 is a bluetooth communication module, and is matched with a dual low power bluetooth antenna to realize information communication, improve communication efficiency, and reduce power consumption.

The power management unit 540 automatically adjusts the operating point (dynamic relation between voltage and current) of the solar thin film battery 40 during power generation through circuit feedback, so that the solar thin film battery 40 generates power at the maximum power. The power management unit 540 adjusts the charging voltage according to the dynamic change conditions of the voltage, the current and the capacitance of the battery, so as to realize safety monitoring.

The main control unit 510, the acceleration sensor 520, the information communication unit 530, and the power management unit 540 are integrated on the intelligent control module 50, and have a small size and a light weight. The intelligent control module 50 enables monitoring of pressure and acceleration. The sports shoe 10 can judge the service life of the sports shoe 10, the fatigue state of the sporter and other sports information of the sporter through the intelligent control module 50, so as to realize intelligent monitoring of the sports shoe 10.

By arranging the intelligent control module 50 on the shoe upper 30, when the sporter is in a sport state, the intelligent control device 50 does not bear the weight of the sporter, the impact load is reduced, and the circuit elements in the intelligent control device 50 are effectively protected. The accuracy and stability of the intelligent control device 50 are improved, and the service life of the intelligent control device 50 is prolonged. Further, the life span of the sports shoe 10 is increased. Meanwhile, the sports shoe 10 supplies power to the intelligent control module 50 through the solar thin film battery 40, so that the independent power supply of the sports shoe 10 is realized.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present application. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. An athletic shoe, comprising:

a sole (20);

an upper (30) connected to said sole (20) and adapted to wrap the foot;

a solar thin film cell (40) covering a surface of the upper (30) remote from the sole (20);

and the intelligent control module (50) is arranged on the vamp (30) and is electrically connected with the solar thin film battery (40).

2. The athletic shoe of claim 1, further comprising:

a lighting device (60) disposed on a side surface of the sole (20), the lighting device (60) being connected to the intelligent control module (50).

3. Sports shoe according to claim 2, wherein said lighting means (60) are provided on the lateral surface of said sole (20) close to the heel.

4. Sports shoe according to claim 3, wherein said upper (30) comprises:

a first panel (310) remote from the sole (20) covering the instep of the foot, the solar thin film cell (40) covering a surface of the first panel (310) remote from the sole (20);

a second panel (320) connected to the first panel (310) and to the sole (20) and enclosing both sides of the arch together with the sole (20);

a third area (330) connected with the second area (320), connected with the sole (20), and surrounding the heel together with the sole (20), wherein the intelligent control module (50) is arranged on the third area (330).

5. The athletic shoe of claim 4, wherein the surface of the third panel (330) remote from the first panel (310) is a reflective material.

6. The athletic shoe of claim 5, further comprising:

and the wireless transmission device (70) is arranged on the second surface area (320), is electrically connected with the intelligent control module (50), and receives external instruction information and information such as motion parameters output by the intelligent control module (50).

7. The athletic shoe of claim 6, further comprising:

the energy storage device (80) is arranged on the third surface area (330), the electric energy input end of the energy storage device (80) is connected with the solar thin film battery (40), and the electric energy output end of the energy storage device (80) is connected with the electric energy input end of the intelligent control module (50).

8. The athletic shoe of claim 7, further comprising:

the pressure sensor (90) is arranged on the sole (20) and is connected with the intelligent control module (50).

9. Sports shoe according to claim 8, wherein said pressure sensor (90) is provided at the portion of the sole (20) on which the heel is pedaled.

10. Sports shoe according to claim 9, wherein said intelligent control module (50) comprises:

the main control unit (510) is arranged on the third surface area (330), a signal output end of the main control unit (510) is connected with a signal input end of the lighting device (60) to control the on and off of the lighting device (60), and a signal input end of the main control unit (510) is connected with a signal output end of the pressure sensor (90) to receive a pressure signal;

an acceleration sensor (520) disposed on the third surface area (330), wherein a signal output end of the acceleration sensor (520) is connected with a signal input end of the main control unit (510) and receives an acceleration signal;

an information communication unit (530) disposed on the third panel (330), connected to the wireless transmission device (70), and connected to the main control unit (510), for transmitting external instruction information received by the wireless transmission device (70) to the main control unit (510), and transmitting information such as motion parameters outputted by the main control unit (510) to the wireless transmission device (70);

power management unit (540), set up in third district's (330), the electric energy input of power management unit (540) with the electric energy output of solar energy film battery (40) is connected, the electric energy output of power management unit (540) with the electric energy input of main control unit (510) is connected, for main control unit (510) provides the electric energy, the electric energy output of power management unit (540) with the electric energy input of wireless transmission device (70) is connected, for wireless transmission device (70) provides the electric energy, the electric energy output of power management unit (540) with the electric energy input of energy memory (80) is connected, and passes through energy memory (80) stores the electric energy.

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