CN214103409U - Intelligent shoes - Google Patents

Abstract

The utility model relates to an intelligent shoe, include: a shoe body; a global positioning system module receiving global positioning system satellite signals from an artificial satellite; and a communication section providing the user terminal with the global positioning system position information and the pressure information through wireless communication.

Description

Intelligent shoes

Technical Field

The utility model relates to an intelligent shoe.

Background

In general, a shoe has a sole formed on a bottom portion thereof in accordance with a foot model, and an upper disposed on an upper side thereof so as to cover a foot and be coupled to the sole. Recently, as consumers increasingly pay attention to health factors other than fashion, shoes having various functions have been proposed. For example, korean laid-open patent No. 10-2017 and 0075110 disclose smart bio-shoes, and korean granted patent No. 10-1952618 discloses smart shoes for facilitating heating.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a system of facilitating, this system utilizes an intelligent shoes, and this intelligent shoes can help the route navigation through judging user's position, or perception incident, for user's foot fatigue elimination.

Another object of the present invention is to provide an intelligent shoe and a system using the same, which has a convenient function of correcting a walking posture of a user and improving physical activities by detecting pressure of a foot of the user.

In order to achieve the above objects, the present invention provides an intelligent shoe, wherein the shoe body comprises a sole (sole) and an upper (upper), the intelligent shoe comprises: a Global Positioning System (GPS) module receiving a GPS satellite signal from a satellite; and a communication section providing the user terminal with the global positioning system position information and the pressure information through wireless communication.

According to an embodiment, the intelligent shoe may further include a speaker part for outputting a sound corresponding to the control signal provided from the user terminal.

According to an embodiment, the communication unit may receive the control signal from the user terminal when the user position of the smart shoe is away from a predetermined safe area based on the gps position information, and the speaker unit may output warning information to the user in response to the control signal.

According to an embodiment, the communication unit may receive the control information from the user terminal when a distance from a movement path set by a user through the user terminal is greater than or equal to a reference range, and the smart shoe may output voice guidance to the user in response to the control information.

According to an embodiment, the voice navigation may include voice information related to at least one of a distance from a current location to a destination, a moving direction, and detour path navigation.

According to an embodiment, the intelligent shoe may further include a power supply unit receiving and storing power from the outside to supply power to the global positioning system module and the communication unit.

According to an embodiment, the power supply unit may include a wireless charging coil in the sole to receive power from an external wireless charging module.

According to an embodiment, the power supply unit may receive power from a solar cell disposed on a surface of the upper.

According to an embodiment, the gps module and the communication unit may be detachably disposed at least one of the shoe sole and the shoe upper.

According to an embodiment, the intelligent shoe may further include an electrical stimulation module for supplying a micro current to the user's foot, and the electrical stimulation module may supply the micro current to the user's foot in response to a control signal transmitted from the user terminal.

According to an embodiment, the intelligent shoe further comprises an acceleration sensor for generating an acceleration value generated by the user's activity, and if the acceleration value is greater than a first reference acceleration value, the user terminal determines that the user has an accident and may transmit a notification message to a preset protector terminal.

And, in order to achieve the above object, the present invention provides an intelligent shoe, comprising: the shoe body part comprises a sole and an upper for wrapping the foot; a height adjusting section for adjusting the height in accordance with the control signal; a pressure detection unit for measuring pressure generated by the foot; and a control unit for generating a control signal for controlling the height adjustment unit in accordance with pressure information of the pressure detection unit.

According to an embodiment, the height adjustment part may be inserted into the sole.

According to an embodiment, the control unit may compare pressures applied by both feet based on the pressure information provided from the pressure detecting unit, and may generate a control signal for selectively adjusting the height of the sole according to the comparison result.

According to an embodiment, the control unit may calculate an average pressure applied to each of the two soles, and generate the control signal such that the height of the sole having a small pressure value is greater than the height of the sole having a large pressure value.

According to an embodiment, the sole may be divided into a plurality of regions, and the pressure detecting portions may be disposed in the plurality of regions, respectively.

According to an embodiment, the control unit may compare pressures applied to the respective areas by the foot based on the pressure information of the respective areas provided by the pressure detection unit, and may generate the control signal for selectively adjusting the heights of the respective areas according to the comparison result.

According to an embodiment, the height adjusting part may include an air circulation module to make external air flow in or out of air in correspondence to the control signal, to adjust the volume according to the air pressure.

According to the utility model discloses intelligence shoes, user's position is judged to usable intelligence shoes, can help route navigation on the basis of user's positional information, or can the perception incident, can provide and be used for eliminating tired electro photoluminescence for user's foot.

In addition, according to the intelligent shoe provided by the embodiment of the invention, the body defect of the user can be compensated by selectively adjusting the height of a specific area in a plurality of areas included in the sole of the intelligent shoe.

Furthermore, according to the intelligent shoe provided by the embodiment of the invention, the activity or the posture of a specific leg can be compensated by selectively adjusting the height of only one shoe.

Drawings

Fig. 1 is a conceptual diagram of a convenience providing system using a smart shoe according to an embodiment of the present invention;

fig. 2a to 2c are conceptual views for explaining the configuration of a plurality of devices in the intelligent shoe according to an embodiment of the present invention;

FIG. 3 is a schematic block diagram illustrating various components of a smart shoe according to an embodiment of the present invention;

fig. 4 is a conceptual diagram illustrating a solar cell unit attached to a smart shoe according to an embodiment of the present invention;

fig. 5a and 5b are conceptual views for explaining a wireless charging coil built in an intelligent shoe according to an embodiment of the present invention;

fig. 6 is a conceptual view for explaining a working method of a convenience providing system using the intelligent shoe according to an embodiment of the present invention;

fig. 7 is a conceptual view for explaining a working method of a convenience providing system using a smart shoe according to still another embodiment of the present invention;

fig. 8 is a conceptual view for explaining a working method of a convenience providing system using a smart shoe according to another embodiment of the present invention;

fig. 9 is a conceptual view for explaining a sole of an intelligent shoe according to an embodiment of the present invention;

fig. 10a to 10c are conceptual views for explaining a height adjustment method of the intelligent shoe according to an embodiment of the present invention;

fig. 11 is a view for explaining a convenience providing method using the intelligent shoe according to the embodiment of the present invention;

fig. 12 is a diagram of an intelligent shoe according to another embodiment of the present invention.

Description of reference numerals

100: the intelligent shoe 110: shoe upper

120: sole 130: electronic device

131: the control unit 132: global positioning system module

133: the communication unit 134: electrical stimulation module

135: power supply unit 136: acceleration sensor

137: the speaker section 138: height adjusting part

139: pressure detection unit 140: switch part

200: user terminal

Detailed Description

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. However, the following embodiments are only for the purpose of making the person skilled in the art easily practice the present invention, and are not meant to limit the scope of the present invention. In the description of the embodiments of the present invention, the same reference numerals are used for the components having the same technical features.

Fig. 1 is a conceptual diagram of a convenience providing system using an intelligent shoe according to an embodiment of the present invention, fig. 2a to 2c are conceptual diagrams for explaining configurations of a plurality of devices in an intelligent shoe according to an embodiment of the present invention, and fig. 3 is a schematic block diagram for explaining a plurality of devices in an intelligent shoe according to an embodiment of the present invention.

Referring to fig. 1, 2a, 2b and 2c, the convenience providing system using the intelligent shoe of the present invention includes an intelligent shoe 100 worn on a foot of a user and a user terminal 200.

The intelligent shoe 100 includes a pair of shoe bodies including a sole 120 and an upper 110 wrapping a foot of a user, and a plurality of electronic devices 130 attached to or inserted into the shoe bodies.

The shoe sole 120 is configured in such a manner that the upper side thereof supports the foot sole and the lower side thereof contacts the ground, and such a shoe sole 120 may be formed of natural rubber, synthetic resin material, thermoplastic elastomer (TPE) to increase friction force, but is not limited thereto.

The plurality of electronic components 130 can be detachably attached to the upper 110 or the sole 120 of the smart shoe 100, and can be separated from the shoe body and safely stored when the smart shoe 100 is washed.

The intelligent shoe 100 may generate position information, activity information, etc. of the user using the plurality of electronic devices 130 and may be provided to the user terminal 200 through wireless communication. The user terminal 200 may receive the above information from the smart shoe 100 to perform user movement path determination, dangerous area determination, etc., and may provide a control signal to the smart shoe 100 based on the determined information to provide convenience to the user.

Also, the smart shoe 100 may perform walking posture correction of the user, height adjustment of the sole, air inflow adjustment of the inside of the smart shoe 100, and the like, using the plurality of electronic devices 130, and may be provided to the user terminal 200 through wireless communication. The user terminal 200 may determine a walking posture, a physical structure characteristic, etc. of the user by receiving information from the smart shoe 100, and provide a control signal to the smart shoe 100 based on the determined information to provide convenience to the user.

The user terminal 200 may include an input unit through which a user can input information, a display unit capable of displaying a screen, and may also provide a User Interface (UI) for directly controlling the smart shoe 100 through a separately executed application.

For example, the user terminal 200 may refer to a Personal Computer (PC), a smart phone (smart phone), a tablet PC (tablet PC), a Mobile Internet Device (MID), an internet tablet PC, an internet of things (IoT) device, an internet of things (IoE) device, an internet of things (laptop) device, a desktop computer (desktop computer), a portable computer (laptop), a workstation computer, or a Personal Digital Assistant (PDA), but is not limited thereto.

Fig. 2a shows a pattern in which the electronic device 130 is disposed on the upper surface of the upper 110, fig. 2b shows a pattern in which the electronic device 130 is disposed on the side surface of the upper 110, and fig. 2c shows a pattern inserted into the interior of the shoe sole 120, which is merely illustrated for convenience of explaining the position of the electronic device 130, but is not limited thereto, and the electronic device 130 may be disposed at various positions according to design changes of a user.

Referring to fig. 3, the electronic device 130 may include a control part 131, a global positioning system module 132, a communication part 133, an electrical stimulation module 134, a power supply part 135, an acceleration sensor 136, a speaker part 137, a height adjustment part 138, a pressure detection part 139, and a switch part 140.

The control section 131 collects signals generated by other electronic devices or supplies signals supplied from the user terminal 200 to each electronic device.

The global positioning system module 132 may receive global positioning system position information from a satellite to provide to the control part 131.

The communication unit 133 may perform wireless communication with the user terminal 200, may be implemented by a bluetooth module, a zigbee (zigbee) communication module, a beacon communication module, or the like, or may be implemented by a 3G communication module, a 4G communication module, or a 5G communication module using a mobile communication network.

The electrical stimulation module 134 may generate electrical stimulation such as micro current for reducing fatigue of the user's foot, and may selectively generate electrical stimulation of a low frequency band, a middle frequency band, and a high frequency band according to a control signal of the user terminal 200. The low frequency band is a frequency band greater than or equal to 1Hz and less than 1000Hz, the medium frequency band is a frequency band greater than or equal to 1000Hz and less than 10000Hz, and the high frequency band is a frequency band greater than or equal to 10000 Hz.

If it is determined that the acceleration value is below the second reference acceleration value, which is a preset acceleration value for detecting the minimum activity of the user, the user terminal 200 may determine that the user does not move, may transmit a control signal to the smart shoe 100, and the electrical stimulation module 134 may supply a micro-current as electrical stimulation to the user's foot in a manner of responding to the control signal.

The power supply section 135 can receive and store power from the outside, and can supply the stored power to each electronic device. According to an embodiment, the power supply part 135 may incorporate a wireless charging coil in the shoe sole to receive power from an external wireless charging module.

According to another embodiment, the power supply portion 135 may receive power through a solar cell disposed on a surface of the upper.

The acceleration sensor 136 may generate an acceleration value based on the above-described user's activity and provide it to the control portion 131. For example, the acceleration sensor 136 may generate an acceleration value based on a step of the user in real time, or may generate an acceleration value of an accident such as a vehicle accident or a fall, and supply the acceleration value to the control unit 131.

The speaker unit 137 can output voice guidance, warning information, and the like to the user in accordance with a control signal provided from the user terminal 200.

The height adjusting unit 138 can adjust the height of the shoe sole 120 in accordance with control information of the control unit 131. For this, the height adjusting part 138 may be inserted into the inside of the shoe sole 120, or disposed above or below the shoe sole.

According to an embodiment, the height adjusting part 138 can be implemented by an air circulation module that adjusts a volume according to air pressure by flowing external air into or discharging air in correspondence to a control signal of the control part 131. The height adjusting unit 138 can cause the inflow of the outside air into the inside in response to the control signal, and increase the volume and the height of the shoe sole by the air flowing in. Conversely, the height adjusting part 138 can discharge the internal air to the outside in correspondence to the control signal, to lower the height of the shoe sole 120 by reducing the volume.

According to another embodiment, the height adjusting parts 138 are respectively disposed at the soles divided into the plurality of regions, and the height can be selectively adjusted in correspondence with control information of different regions, for example, in the first region and the second region, the height of the first region can be individually increased or decreased.

The pressure detection part 139 may generate pressure information by measuring pressure generated by the foot of the user. The generated pressure information may be provided to the control part 131 or to the user terminal 200 through the communication part 133.

According to the embodiment, the pressure detection unit 139 is disposed in each of the regions of the sole divided into the plurality of regions, and can generate pressure information for each region.

The opening and closing part 140 may expose or block a vent hole capable of discharging heat or air inside the upper to the outside. In particular, when the user terminal 200 requests the switch unit to operate to expose the air vent in order to exercise the user, the user terminal 200 may generate a terminal signal for controlling the switch unit 140 and provide the terminal signal to the smart shoe 100. The control unit of the smart shoe 100 may generate a control signal based on the terminal signal to control the switch unit 140, and the switch unit 140 may expose the ventilation hole to the outside in response to the control signal.

Fig. 4 is a conceptual diagram illustrating a solar cell attached to a smart shoe according to an embodiment of the present invention.

Referring to fig. 4, the solar cell 135A may be attached to the upper surface of the smart shoe 100 to generate electricity using sunlight. The plurality of solar battery cells 135A may be formed in various shapes, for example, in various shapes such as a star shape, a quadrangle shape, a circle shape, and a triangle shape, and may be used for fashion use in addition to the use for generating electric power.

Since the solar battery cell 135A is detachably attached to the upper 110, the solar battery cell 135A can be separated from the upper 110 during washing of the shoes and safely stored, but the solar battery cell 135A is not limited thereto, and the penetration of moisture or the like from the outside can be blocked by a coating layer.

The solar cell 135A may be disposed on a side surface of the shoe sole 120, and may be coated or provided with a protective film to protect the solar cell from the external environment.

Fig. 5a and 5b are conceptual views for explaining the wireless charging coil built in the intelligent shoe according to the embodiment of the present invention.

Referring to fig. 5a and 5b, the wireless charging coil CO may receive power from an external wireless charging device by means of magnetic induction. The wireless charging coil CO may be built into the sole 120 of the smart shoe 100.

Although not shown in fig. 5a and 5b, a bundling member capable of bundling magnetic fields may also be inserted into the lower portion of the wireless charging coil CO.

The wireless charging coil CO may be formed of a metal having a strong conductivity, but is not limited thereto, and may be formed of any one of various dielectrics having an elastic force.

The user may receive power while standing on the wireless charging device in a state of wearing the smart shoe 100, or receive power only when the smart shoe 100 is placed on the wireless charging device. In this case, a shielding member may be further inserted at an upper portion of the wireless charging coil CO in order not to cause a magnetic field to harm the human body.

Fig. 6 is a conceptual view for explaining a working method of a convenience providing system using the intelligent shoe according to an embodiment of the present invention.

Referring to fig. 6, a first smart shoe 100A and a second smart shoe 100B may be worn by a protection object HM1 and a protector HM2, where the protection object HM1 is a person who needs protection by a protector, such as a child or an elderly person with dementia, and the protector HM2 is a person who receives and confirms information regarding the protection object.

The first smart shoe 100A of the protection object HM1 may wirelessly communicate with the user terminal 200 of the protector HM2 in real time, and when the protection object HM1 is away from a predetermined area or a distance from the protector HM2 is equal to or more than a predetermined distance, the user terminal 200 may output a notification sound or notification information to the protector HM 2. In other words, the user terminal 200 of the protection HM2 may receive real-time gps location information from the first smart shoe 100A, and output a warning sound or notification information in case that the protection HM1 is away from a predetermined area or is spaced apart from the user terminal 200 by a predetermined distance or more, based on the gps location information.

The first smart shoe 100A can wirelessly communicate with the second smart shoe 100B of the protector, and when the distance between the first smart shoe 100A and the second smart shoe 100B becomes equal to or greater than a predetermined distance, the second smart shoe 100B can output a warning notification through the speaker unit 137.

For example, the first smart shoe 100A and the second smart shoe B may be communicatively connected to each other by a bluetooth method, and when the distance between the protection object HM1 and the protector HM2 becomes equal to or longer than a predetermined distance, the bluetooth connection is released. In this case, the second smart shoe 100B may issue a warning sound that the protection object HM1 has moved away while the bluetooth connection is released.

Fig. 7 is a conceptual view for explaining a working method of a convenience providing system using a smart shoe according to still another embodiment of the present invention.

Referring to fig. 7, when a user sets a movement path at the user terminal 200, the user terminal 200 can navigate the movement path for the user based on the global positioning system location information of the smart shoe. The user terminal 200 may output the navigation voice when a divergence occurs or the user moves along a path different from the moving path.

For example, in the case where the user encounters a branch divided into the first direction DR1 and the second direction DR2 while moving along the moving path, the user terminal 200 can determine the user's position based on the global positioning system position information provided from the smart shoe 100 to provide the smart shoe 100 with a control signal based on the moving path. If the first direction DR1 is the correct direction based on the moving path, the intelligent shoe 100 receives a control signal from the user terminal 200 to output voice navigation directed to the first direction DR 1.

According to an embodiment, the voice navigation output by the smart shoe 100 may include at least one of a distance from a current location to a destination, a moving direction, and a detour navigation.

Fig. 8 is a conceptual view for explaining a working method of a convenience providing system using a smart shoe according to another embodiment of the present invention.

Referring to fig. 8, the user terminal 200 can determine the danger occurring around the user based on the acceleration value provided from the smart shoe 100. The user terminal 200 may previously set a maximum acceleration reference value that may occur through human activities. If an acceleration value exceeding the maximum acceleration reference value is received from the smart shoe 100, the user terminal 200 may determine that an accident occurs to the user.

For example, when the protection object HM1 wearing the smart shoe 100 collides with the CAR, the protection object HM1 may be ejected far by the acceleration force of the CAR. In this case, the acceleration value detected by the acceleration sensor 136 may generate an acceleration value exceeding an acceleration range that can be generated by an ordinary person, and the generated value may be transmitted to the user terminal 200 of the second user through wireless communication.

The smart shoe 100 can judge the danger of the protection object HM1 based on the received acceleration value, and may provide a notification to the protector HM2 or send a distress message to a safety rescue center.

Fig. 9 is a conceptual view illustrating a sole of an intelligent shoe according to an embodiment of the present invention.

Referring to fig. 9, the sole according to the embodiment of the present invention may be divided into a plurality of regions corresponding to the foot of the user. The first region AR1 is a region where toes and a forefoot are located, the second region AR2 is a region where a lateral side of the sole is located, the third region AR3 is a region where a medial side of the sole is located, and the fourth region AR4 is a region where a heel of the sole is located.

When the user takes a walking, jumping, standing posture, etc. while wearing the smart shoe 100, the pressure applied to each area may be different. The smart shoe 100 can detect the pressure of each region to use the pressure information to correct the user's posture.

Also, the lengths of the user's feet may not be exactly the same and the muscle mass of the feet may be different, and thus, the force applied to the shoe by the right and left feet may also be different. In this case, the smart shoe 100 may adjust the height by comparing the pressure applied by both feet due to imbalance of the user's posture that may generate such as the user's body may be inclined to one side of the foot where the applied force is weak.

Further, if the user's foot is flat, pain may also occur on the medial side of the foot. In this case, when the smart shoe 100 determines that the foot is flat by detecting the applied pressure, pain caused by the flat foot may be reduced by increasing the heights of the first area AR1, the second area AR2, and the fourth area AR 4.

Although fig. 9 shows a form in which the sole is divided into 4 regions, this is merely an example for convenience of explanation of the present invention, but the present invention is not limited thereto, and the plurality of regions of the sole may be divided into a plurality of regions according to the use of the smart shoe 100.

Fig. 10a to 10c are conceptual views for explaining a height adjustment method of the intelligent shoe according to an embodiment of the present invention.

Referring to fig. 10a, the pressure detection unit 139 may be disposed at the sole 120 of the smart shoe 100. The pressure detecting unit 139 may detect the pressure applied to the sole 120 of the smart shoe 100 to provide the pressure information to the control unit 131, and the control unit 131 may determine the height based on the pressure information and generate the control signal.

The height adjusting part 138 may be inserted into the inside of the shoe sole 120 and may also form a layer below or above the shoe sole, and the height can be adjusted based on a control signal provided from the control part 131.

Referring to fig. 10b, when the control signal includes information for controlling to raise third area AR3 by a predetermined height, height adjustment unit 138 may adjust the height of the sole by allowing a predetermined amount of air to flow only into third area AR3 or allowing a predetermined amount of air to be discharged from first area AR1, second area AR2, and 4 th area AR4, among first area AR1 to fourth area AR 4.

The heights of the first to fourth areas AR1 to AR4 may be individually adjusted according to control signals, and thus, the heights of the respective areas may be different from or the same as each other.

Referring to fig. 10c, when the control signal includes information for controlling fourth area AR4 to be raised by a predetermined height, height adjustment unit 138 may adjust the height of the sole by causing a predetermined amount of air to flow only into fourth area AR4 or by causing a predetermined amount of air to be discharged from first area AR1 to 3 rd area AR3 in first area AR1 to fourth area AR 4.

Even if the height of the fourth area AR4 increases, the height of the entire fourth area is not increased by the same height, but can be adjusted so that a difference in height does not occur between the area where the height does not increase.

That is, the fourth area AR4 can be adjusted in such a manner that it gradually rises from the area in contact with the second area AR2 and the third area AR3 up to the rear of the smart shoe 100.

In addition, the height of the intelligent shoe 100 may be directly adjusted according to the pressure information in accordance with a reference preset by the control unit, or may be adjusted according to a terminal signal provided from the user terminal 200. That is, when the user inputs the area and height to be adjusted to the user terminal 200, a terminal signal is transmitted from the user terminal 200 to the smart shoe 100, and the control part 131 can generate a control signal based on the terminal signal.

Fig. 11 is a view for explaining a method of providing convenience using the intelligent shoe according to the embodiment of the present invention.

Also, the lengths of the user's feet may not be exactly the same and the muscle mass of the feet may be different, and thus, the force applied to the shoe by the right and left feet may also be different. For example, when the right leg is shorter than the left leg or the muscle strength of the right leg is weaker than the muscle strength of the left leg, the body may lean to the right.

The intelligent shoe 100 can adjust the height by comparing the pressure information based on both feet, as shown in fig. 11, when the right leg is shorter than the left leg or the muscle strength of the right leg is weaker than the muscle strength of the left leg, in order to compensate for this, the height of the intelligent shoe 100 worn on the right foot can be raised.

That is, the control unit 131 of the smart shoe 100 may calculate the average pressure applied to each of the two soles 120 and generate a control signal such that the height of the sole having a small pressure value is greater than the height of the sole having a large pressure value.

Since the heights of the intelligent shoes 100 worn by both feet are different from each other, a normal user feels uncomfortable when wearing the intelligent shoes 100, but the physically handicapped user HM can take a balanced posture due to the intelligent shoes 100 having different heights, and can exercise in a stable posture even without additionally receiving posture correction. Also, the height of the intelligent shoe 100 may be adjusted at any time according to the user's control, and thus, the user HM may also adjust the height of the intelligent shoe 100 accordingly according to the muscular strength of the reinforced specific leg.

Fig. 12 is a diagram of an intelligent shoe according to another embodiment of the present invention.

The smart shoe 100 includes a switching part 140 that allows or blocks inflow of air to the inside of the upper 110 to adjust the temperature of the inside of the upper 110. The opening and closing part 140 may expose or block a vent hole capable of discharging heat or air inside the upper to the outside.

The opening and closing part 140 may expose or block a vent hole capable of discharging heat or air inside the upper to the outside. In particular, when it is necessary to expose the air vent by requesting the user terminal 200 to operate the switch unit 140 for the purpose of exercising the user, the user terminal 200 may generate a terminal signal for controlling the switch unit 140 and provide the terminal signal to the smart shoe 100.

The control unit 131 of the smart shoe 100 may generate a control signal based on the terminal signal to control the switch unit 140, and the switch unit 140 may expose the ventilation hole to the outside in response to the control signal.

In addition, in order to maintain a temperature state corresponding to a temperature adjustment value input by a user through a user terminal, the intelligent shoe 100 may control the operation of the switch unit 140 based on the terminal information.

In the above, the embodiments of the present invention have been described, but it should be understood that a person having ordinary skill in the art to which the present invention pertains can implement various modifications without departing from the scope of the present invention.

Claims (12)

1. An intelligent shoe, wherein a shoe body comprises a sole and an upper, which is characterized in that,

the method comprises the following steps:

a global positioning system module receiving global positioning system satellite signals from an artificial satellite; and

a communication part providing the global positioning system position information and the pressure information to the user terminal through wireless communication,

the intelligent shoe also comprises a power supply part which receives and stores power from the outside and supplies power to the global positioning system module and the communication part,

the power supply unit receives power from a solar cell disposed on a surface of the upper.

2. The intelligent shoe according to claim 1, further comprising a speaker part for outputting a sound corresponding to the control signal provided from the user terminal.

3. The intelligent shoe according to claim 1, wherein the power supply part incorporates a wireless charging coil in the sole to receive power from an external wireless charging module.

4. An intelligent shoe, wherein a shoe body comprises a sole and an upper, which is characterized in that,

the method comprises the following steps:

a global positioning system module receiving global positioning system satellite signals from an artificial satellite; and

a communication part providing the global positioning system position information and the pressure information to the user terminal through wireless communication,

the GPS module and the communication unit are detachably disposed at least one of the shoe sole and the shoe upper.

5. An intelligent shoe, wherein a shoe body comprises a sole and an upper, which is characterized in that,

the method comprises the following steps:

a global positioning system module receiving global positioning system satellite signals from an artificial satellite; and

a communication part providing the global positioning system position information and the pressure information to the user terminal through wireless communication,

the intelligent shoe also comprises an electric stimulation module which is used for supplying micro current to the foot of the user,

the electrical stimulation module supplies the micro current to the user's feet in response to a control signal transmitted from the user terminal.

6. An intelligent shoe, wherein a shoe body comprises a sole and an upper, which is characterized in that,

the method comprises the following steps:

a global positioning system module receiving global positioning system satellite signals from an artificial satellite; and

a communication part providing the global positioning system position information and the pressure information to the user terminal through wireless communication,

the above-mentioned smart shoe further comprises an acceleration sensor for generating acceleration values resulting from the user's activities,

and if the acceleration value is greater than a first reference acceleration value, the user terminal judges that the user has an accident and sends notification information to a preset protector terminal.

7. An intelligent shoe, comprising:

the shoe body part comprises a sole and an upper for wrapping the foot;

a height adjusting section for adjusting the height in accordance with the control signal;

a pressure detection unit for measuring pressure generated by the foot; and

and a control unit for generating a control signal for controlling the height adjustment unit in accordance with the pressure information of the pressure detection unit.

8. The intelligent shoe according to claim 7, wherein the height adjustment part is inserted into the sole.

9. The intelligent shoe according to claim 7, wherein the control part compares the pressures applied by both feet based on the pressure information provided by the pressure detecting part, and generates the control signal for selectively adjusting the height of the sole according to the comparison result.

10. The intelligent shoe according to claim 9, wherein the control section calculates an average pressure applied to each of the two soles to generate a control signal for making the height of the sole having a small pressure value larger than the height of the sole having a large pressure value.

11. The intelligent shoe according to claim 7, wherein the sole is divided into a plurality of regions, and the pressure detection unit is disposed in each of the plurality of regions.

12. The intelligent shoe according to claim 7, wherein the height adjusting part includes an air circulation module to make external air flow in or out of the air in correspondence to the control signal, and the volume is adjusted according to the air pressure.

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