WO2018032365A1 - Smart healthy shoe - Google Patents

Abstract

A smart healthy shoe, comprising: an upper (1), a heel (2), a battery (3), a chip box (4), a GPS chip (41), a recognition control unit (411), an LED lamp tube (5), a sole (6), an ultrasonic distance detector (7), a breathable mesh surface (8), breathable holes (9), a pressure sensor (10), a biosensor (A), an insole (11), a wireless transceiver device (12), a constant-temperature heating piece (13), a groove (14), a baffle block (15), a fixing cover (16), a humidity sensor (17), a microcontroller unit (18), a calculating unit (181), a sound production device (19), vibration devices (20), anti-sliding protrusions (21), anti-sliding stripes (22), and mobile terminal devices (23). By controlling the vibration devices (20) provided on the sole (6) and the sound production device (19) for guidance and navigation, a great help is provided for the old, children, and the blind. When the shoes are worn, the GPS chip (41) can be taken out by using a drawer structure, so that the utilization rate of the chip is improved, and the purchase costs of the shoes are reduced. The insole is capable of constant-temperature heating, thereby stimulating the operation of human body meridians. The biosensor (A) can obtain and analyze biological sign information of a user, so as to provide personalized advice for the user.

Description

Intelligent health shoes Technical field

The invention relates to the technical field of smart wearable devices, in particular to a smart health shoe.

Background technique

With the construction and improvement of traffic roads, people's activity areas are also becoming wider and wider, so that we are not limited to living in a community that we are familiar with, resulting in more out-of-way phenomena. It is common to find a destination, especially for The loss of some blind people and children is very common.

In the prior art, navigation devices, such as mobile navigation software, mostly rely on a combination of maps and voices to indicate the direction of advancement. However, many elderly or children are unfamiliar with the operation, and devices such as mobile phones are easily lost and forgotten to carry when going out. Disadvantages, for the blind, the front-end barrier is easy to cause physical harm to the blind. Therefore, equipment with intelligent navigation and convenient use has become an urgent problem to be solved.

Summary of the invention

It is an object of the present invention to provide a smart health shoe in order to solve the above problems.

The present invention achieves the above object by the following technical solutions, an intelligent health shoe including an upper, an insole, a sole and a heel, the upper surface is provided with a gas permeable mesh surface and a venting hole, and the upper end of the upper is provided with ultrasonic distance detection a bottom of the upper is provided with a heel and a sole, and the inside of the heel is provided with a battery and a chip box; a GPS chip is disposed inside the chip box, and an identification control unit is disposed inside the GPS chip; The insole is internally provided with an insole, and the surface of the insole is provided with a pressure sensor and a biosensor; the insole is internally provided with a constant temperature heating piece, and the bottom of the insole is provided with a groove at one end; and the bottom end of the insole is provided with a fixed cover. The fixed cover is provided with a stopper at one end; a wireless transceiver, a humidity sensor and a micro control unit are disposed between the fixed cover and the insole, and the wireless transceiver is connected to the mobile terminal device; a vibration device is disposed between the soles, and the sole is One end is provided with a sounding device; the sole surface is provided with non-slip protrusions and anti-slip lines.

Preferably, the chip box is a drawer structure, and the chip box is slidably connected with the heel.

Preferably, the stopper is engageable inside the groove.

Preferably, the bottom end of the heel is a wave-shaped structure.

Preferably, the anti-slip protrusions are uniformly distributed hemispherical structures.

Preferably, the fixed cover is a semi-closed curved fixed cover, and the wireless transceiver, the humidity sensor and the micro control unit are all placed inside the fixed cover.

Preferably, the mobile terminal device is provided with a plurality of, and the mobile terminal device and the wireless transceiver device are connected by a wireless network signal.

Preferably, the vibrating device is provided with four, and the four vibrating devices are all placed in four different orientations of the sole.

Preferably, the biosensor is in contact with the skin surface of the user, and can read and analyze the chemical information from the sweat to provide real-time feedback information on body fluid loss and electrolyte balance.

The invention has the beneficial effects that the smart health shoe is provided with a GPS chip placed in a drawer structure, and can be guided and guided by the vibration device and the sounding device provided in the four directions of the sole control chip to avoid loss, for the elderly and children. It is very helpful for the blind. When the shoes are worn out, the GPS chip can be taken out through the drawer structure, and the use of the chip can be repeated, which improves the utilization rate of the chip and greatly reduces the cost of purchasing the shoes. The insole can be heated at a constant temperature and can promote the blood of the user's sole. The earth circulates, at the same time, stimulates the operation of the body's meridians, making the body healthier. The biosensor is in contact with the user's skin surface and can read and analyze chemical information from its sweat to provide real-time feedback on fluid loss and electrolyte balance.

The ultrasonic distance detector can detect the distance of the obstacle at the front end, and reminds the blind person to avoid unnecessary collision damage. The stopper and the groove are matched with each other to effectively prevent the heel from being deformed during use. Crushing internal devices; non-slip bumps, anti-slip and wavy The structure of the heel can effectively achieve anti-slip, and the anti-slip protrusion increases the sole to a certain extent, effectively isolates the internal device of the shoe from the external water, and cooperates with the humidity sensor to promptly remind the life of the navigation shoe when the humidity is too high. A plurality of mobile terminal devices can realize monitoring functions, and pay attention to the geographical location of the navigation shoe users in real time; have good economic and social benefits, and are suitable for promotion and use. Biosensors can acquire and analyze user biosignal information to provide personalized recommendations for users.

DRAWINGS

Figure 1 is a schematic view of the overall structure of the present invention;

2 is a schematic view showing the internal structure of the present invention;

Figure 3 is a schematic view showing the structure of the sole of the present invention;

Figure 4 is a schematic side view showing the structure of the present invention;

Figure 5 is a schematic view showing the structure of the present invention.

In the picture: 1, upper, 2, heel, 3, battery, 4, chip box, 41, GPS chip, 411, identification control unit, 5, LED tube, 6, sole, 7, ultrasonic distance detector, 8 Breathable mesh surface, 9, venting hole, 10, pressure sensor, 11, insole, 12, wireless transceiver, 13, constant temperature heating film, 14, groove, 15, block, 16, fixed cover, 17, humidity sensor 18, micro control unit, 181, calculation unit, 19, sound device, 20, vibration device, 21, non-slip bump, 22, anti-slip, 23, mobile terminal equipment, A, biosensor.

detailed description

The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, but not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

Referring to Figures 1-5, a smart health shoe includes an upper 1, an insole 11, a sole 6 and a heel 2, a surface of the upper 1 is provided with a breathable mesh surface 8 and a venting hole 9, and the tip of the upper 1 is provided with an ultrasonic distance detector 7; the sole 1 is provided with a heel 2 and a sole 6 at the bottom end, and The inside of the heel 2 is provided with a battery 3 and a chip box 4; the chip box 4 is internally provided with a GPS chip 41, and the GPS chip 41 is internally provided with an identification control unit 411; the side surface of the insole 11 is provided with an LED The insole 1 is provided with an insole 11 , and the surface of the insole 11 is provided with a pressure sensor 10 and a biosensor A; the insole 11 is internally provided with a thermostatic heating sheet 13 , and the bottom of the insole 11 is provided at one end. The bottom surface of the insole 11 is provided with a fixed cover 16 , and one end of the fixed cover 16 is provided with a stopper 15; the wireless cover 12 and the humidity are disposed between the fixed cover 16 and the insole 11 The sensor 17 and the micro control unit 18, and the wireless transceiver device 12 is connected to the mobile terminal device 23; the vibration device 20 is disposed between the fixed cover 16 and the sole 6, and the sounding device 19 is provided at one end of the sole 6 The surface of the sole 6 is provided with a non-slip projection 21 and a non-slip pattern 22.

As a technical optimization solution of the present invention, the chip case 4 is of a drawer type structure, and the chip case 4 is slidably connected with the heel 2 to realize the recovery of the chip in the form of pulling.

As a technical optimization solution of the present invention, the stopper 15 can be engaged inside the groove 14 to prevent deformation of the heel and crush the internal device.

As a technical optimization solution of the present invention, the bottom end of the heel 2 has a wave-shaped structure and has anti-slip performance.

As a technical optimization solution of the present invention, the anti-slip protrusions 21 are uniformly distributed hemispherical structures, and the anti-slip performance is good.

As a technical optimization solution of the present invention, the fixed cover 16 is a semi-closed curved fixed cover 16, and the wireless transceiver 12, the humidity sensor 17 and the micro control unit 18 are all placed in the fixed Inside the cover 16, to avoid damage to the internal unit.

As a technical optimization solution of the present invention, the mobile terminal device 23 is provided with a plurality of, and the mobile terminal device 23 and the wireless transceiver device 12 are connected by a wireless network signal to implement effective transmission of signals.

As a technical optimization solution of the present invention, the vibration device 20 is provided with four, and the four vibration devices 20 are placed in four different orientations of the sole 6 to guide the direction.

Biosensor A can be in contact with the skin surface of the user and can read chemical information from its sweat. It is well known that people sweat when they exercise to a certain extent, and sweat contains a lot of useful data. Various biological indicators (including electrolytes, sodium, lactic acid, protein, etc.) in the sweat can be detected to obtain biometric data of the user's physical condition. Biosensors also enable rapid analysis of chemical constituents in sweat and then provide real-time feedback on hydration, fluid loss, and electrolyte balance. Give users some personalized advice about continuous exercise. For example, through the biosensor, tell the user when he needs to replenish water, how much he needs to drink, whether he should drink water or drink sports drinks, and it will generate excessive heat when the user may have a heat stroke or other means. An early warning is issued. In addition, you can measure more detailed biometric data such as muscle fatigue, physical exertion levels, respiration and skin pH.

When the invention is in use, the smart health shoe is wirelessly connected to the wireless transceiver device 12 of the navigation shoe through the mobile terminal device 23. After the input destination address is determined, the navigation shoe is put on, and the pressure sensor 10 senses the pressure and is controlled by the micro control unit 18. The GPS chip 41 performs navigation work, and the LED tube 5 emits light. The identification control unit 411 inside the GPS chip 41 recognizes the direction of the direction. The micro-control unit 18 controls the vibrating device 20 in different directions to vibrate to remind the user of the direction in which the user walks. The voice reminder is performed to double the direction of the advancement, avoiding the error, and guiding the user to advance. When the obstacle is detected, the ultrasonic distance detector 7 detects the distance and calculates the distance through the calculation unit 181 inside the micro control unit 18, and the sounding device is used. 19 broadcast notification, suitable for blind people; can be controlled by the mobile terminal device 23 to open the thermostatic heating sheet 13, to perform the foot heating mode, stimulate the operation of the human meridian, and make the body more healthy; the non-slip protrusion 21 and the anti-slip 22 of the sole are effectively slip resistant And to isolate a certain amount of moisture, the humidity sensor 17 monitors the internal humidity in real time when it arrives To a certain extent, the generating device 19 performs a voice reminder to increase the service life of the navigation shoe; and the plurality of mobile device devices 23 are connected to the wireless transceiver device 12 to perform positioning monitoring on the navigation shoe user.

It is apparent to those skilled in the art that the present invention is not limited to the details of the above-described exemplary embodiments, and the present invention can be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. Therefore, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the invention is defined by the appended claims instead All changes in the meaning and scope of equivalent elements are included in the present invention. Any reference signs in the claims should not be construed as limiting the claim.

In addition, it should be understood that although the description is described in terms of embodiments, not every embodiment includes only one independent technical solution. The description of the specification is merely for the sake of clarity, and those skilled in the art should regard the specification as a whole. The technical solutions in the respective embodiments may also be combined as appropriate to form other embodiments that can be understood by those skilled in the art.

Claims (9)

A smart health shoe comprising an upper (1), an insole (11), a sole (6) and a heel (2), characterized in that: the upper (1) has a gas permeable mesh surface (8) and a venting hole (9), and the tip of the upper (1) is provided with an ultrasonic distance detector (7); the upper end of the upper (1) is provided with a heel (2) and a sole (6), and the heel (2) a battery (3) and a chip box (4) are disposed inside; a chip (41) is disposed inside the chip box (4), and an identification control unit (411) is disposed inside the GPS chip (41); The side surface of the sole (6) is provided with an LED tube (5), the insole (1) is internally provided with an insole (11), and the surface of the insole (11) is provided with a pressure sensor (10) and a biosensor (A) The insole (11) is internally provided with a thermostatic heating sheet (13), and the bottom of the insole (11) is provided with a groove (14); the bottom end of the insole (11) is provided with a fixed cover (16) And a fixed block (16) is provided with a stopper (15) at one end; a wireless transceiver (12), a humidity sensor (17) and a micro between the fixed cover (16) and the insole (11) Control unit (18), and the wireless transceiver (12) is connected to the mobile terminal device (23); the fixed cover (16) and the sole (6) It provided with vibration means (20) and the sole (6) provided at one end sounding means (19); said sole (6) is provided with anti-slip surface projections (21) and a non-slip pattern (22). A smart health shoe according to claim 1, characterized in that the chip box (4) is of a drawer type and the chip box (4) is slidably coupled to the heel (2). A smart health shoe according to claim 1, characterized in that the stop (15) is engageable inside the recess (14). A smart health shoe according to claim 1, characterized in that the bottom end of the heel (2) has a wavy structure. A smart health shoe according to claim 1, wherein said non-slip projections (21) are uniformly distributed hemispherical structures. A smart health shoe according to claim 1, wherein said fixed cover (16) is a semi-closed curved fixed cover (16), and said wireless transceiver (12), humidity Both the sensor (17) and the micro control unit (18) are placed inside the fixed cover (16). A smart health shoe according to claim 1, wherein said mobile terminal device (23) is provided with a plurality of said mobile terminal devices (23) and said wireless transceiver device (12) Connect via wireless network signal. A smart health shoe according to claim 1, characterized in that said vibration device (20) is provided with four, and said four vibration devices (20) are each placed on the sole (6) of four In a different orientation. A smart health shoe according to claim 1, wherein said biosensor (A) is in contact with a skin surface of a user, and can read and analyze chemical information from the sweat to provide fluid loss and electrolyte. Balanced real-time feedback.

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