CN109832715A - Intelligent insole module - Google Patents

Abstract

The present invention provides a kind of Intelligent insole module, for being placed in an insole and recording the motion state of user.Aforementioned intelligent insole module includes a sensing unit, a radio-cell, a control unit and a power supply unit.Aforementioned sensing unit is for sensing a motion information.Aforementioned radio-cell is used for transmission aforementioned movement information.Aforementioned control unit is connected to aforementioned sensing unit and aforementioned radio-cell, and controls aforementioned sensing unit and aforementioned radio-cell.Aforementioned power supply unit is connected to aforementioned control unit, gives aforementioned intelligent insole module for providing electric energy.Aforementioned power supply unit has a magnetic-type charging structure.

Description

Smart Insole Module

technical field

The present invention relates to an intelligent insole module, in particular to an intelligent insole module with a magnetic charging structure.

Background technique

With the continuous development of electronic technology and the improvement of people's quality of life, various wearable devices have emerged. In addition to recording human health information at any time, the wearable device can also record exercise information, which is convenient for users to understand their exercise volume. A smart insole is a wearable device with a sensing module set in the insole to detect the movements of the user's feet to record the user's exercise volume, which is very suitable for running, mountain climbing and other sports. Since the user's feet are prone to sweat or come into contact with a humid and dirty environment during exercise, the smart insole needs to have good waterproof and dustproof functions. However, the existing smart insole generally adopts the method of contact charging, which cannot meet the requirements of waterproof and dustproof, and is prone to failure.

Therefore, there is a need for a smart insole module, which has good waterproof and dustproof functions, and increases the reliability and service life of the product.

SUMMARY OF THE INVENTION

In view of this, the purpose of the present invention is to provide an intelligent insole module. The smart insole module of the present invention adopts a magnetic charging structure to avoid using the traditional contact charging method, and utilizes the magnetic charging structure to achieve the effect of waterproof and dustproof. At the same time, the upper cover and the lower cover of the housing are combined by means of ultrasonic waves, so that the entire smart insole module has the function of waterproof and dustproof, and the durability and service life of the smart insole module are increased. Moreover, through the connection method of magnetic charging, the user does not need precise alignment when charging the smart insole module, and can easily connect the smart insole module to the charging line for power transmission and data transmission. Meanwhile, the smart insole module of the present invention adopts a simplified antenna manufacturing process to reduce the manufacturing cost.

In order to achieve the above object, the present invention provides an intelligent insole module, which is used for placing in an insole and recording the user's movement state. The aforementioned smart insole module includes a sensing unit, a wireless unit, a control unit and a power supply unit. The aforementioned sensing unit is used for sensing motion information. The aforementioned wireless unit is used to transmit the aforementioned motion information. The control unit is connected to the sensing unit and the wireless unit, and controls the sensing unit and the wireless unit. The aforementioned power supply unit is connected to the aforementioned control unit for providing electrical energy to the aforementioned smart insole module. The aforementioned power supply unit has a magnetic charging structure.

In a preferred embodiment, the aforementioned smart insole module further includes a storage unit for storing the aforementioned exercise information.

In a preferred embodiment, the aforementioned power supply unit further includes a battery for storing and supplying electrical energy. The aforementioned power supply unit further includes a power warning device. When the power of the battery is lower than a default value, the power warning device sends out a warning signal.

In a preferred embodiment, the magnetic charging structure includes a connecting piece, a first magnet and a second magnet. The first magnet and the first magnet are fixed on the connecting piece. When the connecting piece is connected to a magnetic charging cable, the first magnet and the second magnet use magnetic force to attract the magnetic charging cable to the connecting piece.

In a preferred embodiment, the aforementioned magnetic charging structure further includes a charging interface. The aforementioned charging interface is connected to the aforementioned connecting piece. When the magnetic charging is connected to the connecting piece, the magnetic charging cable charges the battery through the connecting piece and the charging port.

In a preferred embodiment, the magnetic charging structure further includes a charging controller connected to the battery. The charging controller is used for controlling the current for charging the battery.

In a preferred embodiment, the aforementioned sensing unit includes a first sensor and a second sensor. The aforementioned first sensor is an acceleration sensor. The aforementioned second sensor is a gyro sensor.

In a preferred embodiment, the aforementioned smart insole module further includes a circuit board. The aforementioned wireless unit includes an antenna and a conductive rubber. The antenna is electrically connected to the circuit board through the conductive rubber.

In a preferred embodiment, the aforementioned smart insole module further includes an upper cover and a lower cover. The upper cover and the lower cover are combined by an ultrasonic process.

To sum up, the smart insole module provided by the present invention adopts a magnetic charging structure to avoid using traditional contact charging methods (such as traditional micro USB connectors or pogo pin connectors), and uses a magnetic charging structure to achieve Waterproof and dustproof effect. At the same time, the upper cover and the lower cover of the housing are combined by means of ultrasonic waves, so that the entire smart insole module has the function of waterproof and dustproof, and the durability and service life of the smart insole module are increased. Moreover, through the connection method of magnetic charging, the user does not need precise alignment when charging the smart insole module, and can easily connect the smart insole module to the charging line for power transmission and data transmission. Meanwhile, the smart insole module of the present invention adopts a simplified antenna manufacturing process to reduce the manufacturing cost.

Description of drawings

FIG. 1A is an exploded view of the smart insole; FIG. 1B is a schematic view of the combination of the smart insole.

FIG. 2 is a schematic block diagram of a smart insole module of the present invention.

FIG. 3A is an exploded schematic view of the smart insole module of the present invention; FIG. 3B is a schematic view of the assembly of the smart insole module of the present invention.

4A and 4B are schematic diagrams illustrating the assembly of the wireless unit of the smart insole module of the present invention.

Description of main component symbols

10 Smart Insole

100 Smart Insole Modules

110 Control unit

120 wireless units

130 Sensing unit

131 First sensor

132 Second sensor

140 storage units

150 Power supply unit

151 Batteries

152 Magnetic charging structure

152a connecting piece

152b First magnet

152c Second Magnet

152d charging interface

152e Charge Controller

153 Battery Alerter

161 Cover

162 Lower cover

170 circuit boards

200 insoles

210 Top structure

220 Lower structure

300 Magnetic Charging Cable

The following specific embodiments will further illustrate the present invention in conjunction with the above drawings.

Detailed ways

A smart insole module according to a preferred embodiment of the present invention will be described below with reference to the related drawings, wherein the same elements will be described with the same reference symbols.

Please refer to FIG. 1A and FIG. 1B first. FIG. 1A is an exploded schematic diagram of the smart insole. FIG. 1B is a schematic diagram of a smart insole assembly. As shown in FIGS. 1A and 1B , the smart insole 10 includes an insole 200 , a smart insole module 100 and a magnetic charging cable 300 . The aforementioned smart insole module 100 is disposed in the aforementioned insole 200 and records the user's movement state. The aforementioned magnetic charging cable 300 charges the aforementioned smart insole module 100 . The power source of the magnetic charging cable 300 can be a mobile power supply or other electronic devices (not shown). The magnetic charging cable 300 can be connected to the mobile power supply or other electronic devices using a USB connector (not shown), and is connected to the smart insole module 100 by a magnetic charging connector. to charge. The aforementioned insole 200 may include an upper sheet structure 210 and a lower sheet structure 220 . The aforementioned smart insole module 100 is disposed between the aforementioned upper sheet structure 210 and the aforementioned lower sheet structure 220 . When in use, the user can put the aforementioned smart insole 10 in the sports shoes, and the aforementioned smart insole module 100 records the user's movement state by detecting the movement information of the user's feet.

Please refer to FIG. 2 for a block diagram of the smart insole module 100 of the present invention. As shown in FIG. 2 , the smart insole module 100 of the present invention includes a sensing unit 130 , a wireless unit 120 , a control unit 110 and a power supply unit 150 . The aforementioned sensing unit 130 is used to sense the motion information of the user. The aforementioned wireless unit 120 is used to transmit the aforementioned motion information. The aforementioned control unit 110 is connected to the aforementioned sensing unit 130 and the aforementioned wireless unit 120 , and controls the aforementioned sensing unit 130 and the aforementioned wireless unit 120 . The aforementioned power supply unit 150 is connected to the aforementioned control unit 110 for providing electrical energy to the aforementioned smart insole module 100 . The aforementioned power supply unit 150 includes a battery 151 , a magnetic charging structure 152 and a power warning device 153 . The aforementioned battery 151 is used to store and provide electrical energy. The aforementioned magnetic charging structure 152 is used to charge the aforementioned battery 151 . The power warning device 153 is used for detecting that the power of the battery 151 is lower than a default value, and the power warning device 152 sends out a warning signal. The aforementioned battery warning device 153 may include an LED light. When the battery 151 is being charged, the LED light is red. When the battery 151 is fully charged, the LED light is green. The aforementioned sensing unit 130 includes a first sensor 131 and a second sensor 132 . The aforementioned first sensor 131 is an acceleration sensor (G-sensor). The aforementioned acceleration sensor calculates the number of steps of walking or running by the acceleration change generated when the body is walking or running. The aforementioned second sensor 132 is a gyro sensor. The aforementioned gyro sensor is used to detect the orientation of the human body when it moves. The aforementioned gyroscope sensor and the aforementioned acceleration sensor can be used in combination to detect the motion state of the user more accurately. The aforementioned smart insole module 100 further includes a storage unit 140 for storing the aforementioned exercise information. The wireless unit 120 can transmit the motion information stored in the storage unit 140 to a hand-held device (not shown), such as a smart phone, periodically or according to a user's instruction. The user can use the smart insole APP of the aforementioned smartphone to view his exercise information.

Please refer to FIG. 3A and FIG. 3B . FIG. 3A is an exploded schematic view of the smart insole module of the present invention. FIG. 3B is a schematic diagram of the assembly of the smart insole module of the present invention. As shown in FIG. 3A and FIG. 3B , the aforementioned smart insole module 100 further has an upper cover 161 and a lower cover 162 . The control unit 110 , the wireless unit 120 , the sensing unit 130 , the storage unit 140 and the power supply unit 150 of the aforementioned smart insole module 100 are disposed before the aforementioned upper cover 161 and the lower cover 162 . The upper cover 161 and the lower cover 162 are combined by an ultrasonic process, so that the upper cover 161 and the lower cover 162 form a waterproof and dustproof casing to protect the internal components. The aforementioned smart insole module 100 further has a circuit board 170 . The aforementioned wireless unit 120 and the aforementioned power supply unit 150 are disposed on the aforementioned circuit board 170 . The aforementioned magnetic charging structure 152 includes a connecting piece 152a, a charging interface 152d, a first magnet 152b and a second magnet 152c. The first magnet 152b and the second magnet 152c are disposed on the connecting piece. The aforementioned connecting piece 152a is electrically connected to the aforementioned battery 151 . The aforementioned charging interface 152d is electrically connected to the aforementioned charging pad 152a. When the battery 151 is charged, the first magnet 152b and the second magnet 152c use magnetic force to attract the charging connector of a magnetic charging cable (such as the magnetic charging cable 300 of FIG. 1A ) to the connecting piece 152a and the battery 151 is charged by using the connecting piece 152a and the charging interface 152d. The first magnet 152b and the second magnet 152c can be made of metal with magnetic force. The first magnet 152b and the second magnet 152c not only use the magnetic force to attract the charging connector of the magnetic charging cable, but also can be electrically connected to the charging connector and the connecting piece 152a, and have the effect of conducting electricity. The aforementioned magnetic charging structure 152 may further include a charging controller 152 e connected to the aforementioned battery 151 . The charging controller 152e is used to control the current for charging the battery 151, so as to prevent the battery 151 from being damaged due to excessive current. As shown in FIG. 3B , when the aforementioned smart insole module 100 is assembled, the aforementioned upper cover 161 and the aforementioned lower cover 162 are formed into a waterproof and dustproof casing by an ultrasonic process. The connecting piece 152a, the first magnet 152b and the second magnet 152c are exposed outside the casing formed by the upper cover 161 and the lower cover 162 so as to be connected to the magnetic charging cable. The structure of the aforementioned connecting piece 152a extends into the casing formed by the aforementioned upper cover 161 and the aforementioned lower cover 162, and is electrically connected to the aforementioned charging port 152d. In this way, the magnetic charging structure 152 of the smart insole module 100 of the present invention avoids the use of traditional contact charging methods (such as conventional micro USB connectors or pogo pin connectors), and uses the magnetic charging structure to achieve waterproofing Dustproof effect. At the same time, the upper cover and the lower cover of the casing are combined by means of ultrasonic waves, so that the entire smart insole module has the function of waterproof and dustproof, and the durability and service life of the smart insole module are increased. Moreover, through the connection method of magnetic charging, the user does not need precise alignment when charging the smart insole module, and can easily connect the smart insole module to the charging line for power transmission and data transmission.

Please refer to FIGS. 3A , 4A and 4B again. 4A and 4B are schematic diagrams illustrating the assembly of the wireless unit of the smart insole module of the present invention. As shown in FIG. 3A , the wireless unit 120 of the aforementioned smart insole module 100 includes an antenna 121 and a conductive rubber 122 . The aforementioned antenna 121 is electrically connected to the aforementioned circuit board 170 through the aforementioned conductive rubber 122 . In the manufacturing process, the conductive rubber 122 is firstly adhered to the backside of the circuit board 170 by conductive glue (as shown in FIG. 4A , the backside of the circuit board 170 is displayed upside down). Next, the antenna 121 is adhered to the conductive rubber 122 so that the antenna 121 is electrically connected to the circuit board 170 through the conductive rubber 122 (as shown in FIG. 4B ). In this way, the manufacturing process of the smart insole module can be simplified and the manufacturing cost can be reduced.

To sum up, the smart insole module of the present invention adopts a magnetic charging structure to avoid using traditional contact charging methods (such as a traditional micro USB connector or a pogo pin connector), and uses a magnetic charging structure to achieve waterproof and waterproof dust effect. At the same time, the upper cover and the lower cover of the housing are combined by means of ultrasonic waves, so that the entire smart insole module has the function of waterproof and dustproof, and the durability and service life of the smart insole module are increased. Moreover, through the connection method of magnetic charging, the user does not need precise alignment when charging the smart insole module, and can easily connect the smart insole module to the charging line for power transmission and data transmission. Meanwhile, the smart insole module of the present invention adopts a simplified antenna manufacturing process to reduce the manufacturing cost.

The above description is exemplary only, not limiting. Any equivalent modifications or changes without departing from the spirit and scope of the present invention should be included in the appended claims.

Claims (10)

1. A smart insole module for placing in an insole and recording motion state, comprising: a sensing unit for sensing motion information; a wireless unit for transmitting the aforementioned motion information; a control unit, connected to the sensing unit and the wireless unit, and controlling the sensing unit and the wireless unit; and a power supply unit, connected to the aforementioned control unit, for providing electrical energy to the aforementioned smart insole module; The aforementioned power supply unit has a magnetic charging structure. 2 . The smart insole module of claim 1 , further comprising a storage unit for storing the movement information. 3 . 3 . The smart insole module of claim 1 , wherein the power supply unit further comprises a battery for storing and supplying electrical energy. 4 . 4 . The smart insole module of claim 3 , wherein the power supply unit further comprises a power warning device; when the power of the battery is lower than a default value, the power warning device sends out a warning signal. 5 . 5 . The smart insole module of claim 3 , wherein the magnetic charging structure comprises a connecting piece, a first magnet and a second magnet; the first magnet and the first magnet are fixed to the on the connecting piece; when the connecting piece is connected with a magnetic charging wire, the first magnet and the second magnet use the magnetic force to attract the magnetic charging wire to the connecting piece. 6 . The smart insole module of claim 5 , wherein the magnetic charging structure further comprises a charging interface; the charging interface is connected to the connecting piece; when the magnetic charging cable is connected to the connecting piece At the time, the magnetic charging cable charges the battery through the connecting piece and the charging interface. 7 . The smart insole module of claim 5 , wherein the magnetic charging structure further comprises a charging controller connected to the battery; the charging controller is used to control the current for charging a pair of the batteries. 8 . 8. The smart insole module of claim 1, wherein the sensing unit comprises a first sensor and a second sensor; the first sensor is an acceleration sensor; the second sensor is a gyro sensor . 9 . The smart insole module of claim 1 , further comprising a circuit board; the wireless unit comprises an antenna and a conductive rubber; the antenna is electrically connected to the circuit board through the conductive rubber. 10 . 10. The smart insole module of claim 1, further comprising an upper cover and a lower cover; The upper cover and the lower cover are combined by an ultrasonic process.