TWM515793U - Health management shoes - Google Patents

Description

Health management shoes

The present invention relates to the construction of a shoe, in particular to an integration of the left and right shoe bodies, the sensing module and the application program, which can estimate the health information of the user's steps, weight, calories burned and weight change, and avoid improper use. Health management shoes produced by posture.

Known shoes with weight sensing function, such as the approved Republic of China new patent M333810 "weight display shoe structure", is combined with a sensing element on the sole, and the upper surface of the sensing element is covered with a majority of sensing bumps. The sensing component has a control circuit and a mercury battery, so that the sensed weight can be interpreted by the control circuit and converted into an actual value, and then displayed on a liquid crystal screen that exposes the upper, and is used during measurement. A stationary station is required to apply an average weight to the sensing element to measure the weight of the user. Similar structures have been revealed in the authorized Chinese utility model patent CN 203492856 U "weight shoes" and the authorized Chinese new patent CN 202907886 U "weighing weight shoes".

In addition, shoes with step counting and weight sensing functions are known, such as the approved new Chinese patent M402625 "multi-functional shoes", which are provided with a pedometer and a weight scale respectively on the upper and the sole of the shoe body. The processing unit is further provided with a processing unit electrically connected with the pedometer and the weight scale, and a power unit provided on the sole supplies power, and the weight and the step data obtained by the pedometer and the weight measurement are transmitted through a transmission. The unit is transferred to the phone.

The aforementioned shoes having the weight sensing function have in common that they are transmitted through a single The pedometer and weight scale of the shoe body measure the weight of the user and the number of walking steps, and then calculate the user's weight and walking steps based on the data. In fact, it is not an accurate result to calculate the true weight based on the pressure or weight of the human body on a single sole. Because the user's standing posture is different, it is easy to cause the weight of the foot to be uneven. Only the user will average the weight of the body. The data measured at the time of the two feet can be quite accurate.

The shoe with the step counting and weight sensing function is also measured by the pedometer installed on a single shoe body and the weight of the user and the number of walking steps, and still with the aforementioned single shoe body. Measuring the weight of the user has the problem of inaccurate weight. On the other hand, it is known that the pedometer can be roughly classified into two types according to the configuration. The first one is to measure the number of walking steps of the user by the inertial action of the mechanical pendulum structure, or the other is to use 3D gravity sensing. The device measures the number of walking steps of the user, but the two pedometers independently measure the physical changes produced by the user during normal walking. If the user does not actually walk and only has physical vibration, It will cause miscalculation and measurement of the pedometer, and there is still room for improvement in the accuracy of the step counting function.

One of the purposes of this creation is to provide a health management shoe that can accurately measure the user's weight and the number of steps taken to improve the problem of conventional shoes.

To achieve the above objective, an embodiment of the present health management shoe includes: a pair of shoe bodies and a calculator; wherein the pair of shoe bodies comprises a left shoe body and a right shoe body, and any one of the shoe bodies is provided with: An inductive rechargeable battery module, a pedometer, a pressure sensing module, a DC power module and a radio module, the pressure sensing module is used for measuring the pressure exerted by the user on the sole of the foot The pedometer is used to measure the number of walking steps, and the radio module is used to transmit the measured pressure and step data to the calculator; wherein the calculator runs an application according to the left shoe body and the right The pressure and the number of steps obtained from the measurement of the shoe body are calculated.

In one embodiment of the present health management shoe, the calculator is a portable computing device having a display and a wireless communication module. The calculator runs an application, and the application is measured according to the left shoe body and the right shoe body. The pressure and step data are calculated and the calculated results are displayed on the display.

In an embodiment of the present invention, the calculator is a portable computing device having a display and a wireless communication module. The preferred embodiment of the portable computing device can be a smart phone. Any of a tablet PC and a wearable device.

In an embodiment of the present health management shoe, a radio module disposed in one of the left shoe body and the right shoe body (hereinafter referred to as the former) is in communication with a radio module of another shoe body (hereinafter referred to as the latter). The pressure and step data obtained by measuring the pedometer and the pressure sensing module of the former are transmitted to the radio module of the latter, and the radio module of the latter is used for sensing the pedometer and pressure of the former The pressure and step data obtained by the module measurement, as well as the pressure and step data obtained from the measurement of the shoe body of the former are transmitted to the calculator application for calculation.

In an embodiment of the present health management shoe, the application calculates and records information about health based on the measured pressure and the number of moving steps. The so-called health information includes: daily steps, weight, Any one or combination of weight changes, calories burned, and pressure on both feet.

In an embodiment of the present invention, the utility model further comprises: a charging shoe rack, the charging shoe rack comprises an inductive charging module and a power supply, the power supply can be electrically connected to an external power source, and the external power source can be inductive Inductive rechargeable battery for charging body to shoe body The module is inductively charged.

It can be understood from the above that the creative health management shoe has the following technical features and functions, wherein the creative health management shoe obtains the user's fall on the biped through the pedometer and the pressure sensing module of the left shoe body and the right shoe body. The pressure and the number of moving steps, and then use the application in the calculator to accurately estimate the number of steps the user walks based on the pressure and moving steps obtained above. The calories burned and the distance can be measured. The change can measure the pressure of the two feet and guide the posture of standing and walking. It can also measure the pressure of the user falling on the feet in different postures, thereby reminding the user to avoid the improper posture of excessive pressure.

The specific implementation manners and other advantages and effects of the present creation will be described below in conjunction with the drawings.

10‧‧‧Shoe body

10L‧‧‧left shoe body

10R‧‧‧Right shoe body

20‧‧‧Calculator

21‧‧‧Application

22‧‧‧ display

23‧‧‧Wireless communication module

30‧‧‧Inductive rechargeable battery module

31‧‧‧Rechargeable battery

32‧‧‧Induction circuit

40‧‧‧ pedometer

50‧‧‧ Pressure Sensing Module

51, 52‧‧‧ pressure sensors

60‧‧‧DC power supply module

70‧‧‧ radio module

80‧‧‧Charging shoe rack

81‧‧‧Inductive charging module

82‧‧‧Power supply

83‧‧‧Charging indicator

Fig. 1 is a structural view showing an embodiment of a creation health management shoe.

Fig. 2 is a partial structural view showing an embodiment of a creation health management shoe, showing a functional block diagram of any shoe body structure.

Fig. 3 is a configuration diagram of another embodiment of the creation health management shoe.

4 is a partial structural view of an embodiment of a creative health management shoe, showing a functional block diagram of any shoe body structure and a charging shoe frame.

FIG. 5 is a partial structural view of an embodiment of the creative health management shoe, showing the position of the pressure sensing module disposed on the sole.

FIG. 6 is a partial structural view of an embodiment of the creation of a health management shoe, showing another embodiment of the position of the pressure sensing module disposed on the sole.

First, please refer to FIG. 1 and FIG. 2, which are structural diagrams of an embodiment of the creation of a health management shoe, and a functional block diagram of any shoe body structure.

As shown in FIGS. 1 and 2, an embodiment of the present creation management shoe includes a pair of shoe bodies 10 and a calculator 20.

The pair of shoe bodies includes a left shoe body 10L and a right shoe body 10R. In the following description, the shoe body 10 generally refers to any of the left shoe body 10L and the right shoe body 10R unless otherwise specified. Referring to FIG. 2, in an embodiment of the present invention, any shoe body 10 is provided with: an inductive rechargeable battery module 30, a pedometer 40, a pressure sensing module 50, and a DC power supply. The module 60 and a radio module 70, the pressure sensing module 50 is used to measure the pressure applied by the user's weight to the sole of the foot, the pedometer 40 is used to measure the number of walking steps, and the radio module 70 is used. The pressure and step data obtained by the measurement are transmitted to the calculator 20; the calculator 20 runs an application 21, and the application 21 calculates the pressure and the step data obtained by measuring the left shoe body 10L and the right shoe body 10R. .

In an embodiment of the present invention, an embodiment of the inductive rechargeable battery module 30 includes: a rechargeable battery 31 and a sensing circuit 32, wherein the sensing circuit 32 is electrically connected to the rechargeable battery 31, and the sensing circuit The rechargeable battery 31 can be charged through the sensing mode 32. The pedometer 40 is electrically connected to the radio module 70 for measuring the number of steps of walking.

In an embodiment of the present invention, the pressure sensing module 50 is electrically connected to the radio module 70 for measuring the pressure applied by the user's weight to the sole of the foot; in an embodiment, the pressure sensing module 50 At least one pressure sensor 51 is disposed at a position corresponding to the heel of the sole (see FIG. 5); in another embodiment, the pressure sensing module 50 has two pressure sensors 51 and 52 respectively disposed The sole corresponds to the position of the heel and the sole of the foot (see Figure 6), and measures the pressure of the user's body weight on the sole and heel of the foot, and passes through the calculator 20 according to the pressure distribution at different positions. The calculation of the application 21 is more accurate in estimating the user's weight than the prior art.

In a preferred embodiment of the present invention, the pressure sensing module 50 disposed on the left shoe body 10L and the right shoe body 10R, respectively, can measure the pressure distribution data at different positions, and the pressure is applied through the application 21 of the calculator 20. The distribution data is analyzed, and the user's posture is analyzed through the pressure distribution at different positions, thereby reminding the user to avoid an improper posture in which excessive pressure is generated; in a preferred embodiment, the application 21 is to drop the user's body weight on the foot. The pressure distribution and the posture of the human body are displayed on the display 22 through the human body motion pattern, and have the effect of reminding the user to avoid an improper posture in which excessive pressure is generated.

In an embodiment of the present invention, the DC power module 60 is electrically connected to the inductive rechargeable battery module 30 and the radio module 70. One embodiment of the DC power module 60 is a DC to DC (DC-DC). The power conversion module is configured to convert the power of the inductive rechargeable battery module 30 into power for driving the radio module 70, the pedometer 40, and the pressure sensing module 50.

In an embodiment of the present invention, the radio module 70 is electrically connected to the pedometer 40 and the pressure sensing module 50 for transmitting the pressure and the number of steps measured by the pedometer 40 and the pressure sensing module 50. In one embodiment of the present invention, the radio module 70 may be an electronic device using any one of wireless network (Wi-Fi), Bluetooth, and radio.

In an embodiment of the present invention, a radio module 70 and another shoe body (hereinafter referred to as "the former") are disposed in the left shoe body 10L and the right shoe body 10R (hereinafter referred to as the former). The latter radio module 70 is bound to transmit the pressure and step data obtained by measuring the pedometer 40 and the pressure sensing module 50 of the former to the radio module 70 of the latter, and the radio module of the latter The group is used to transfer the pressure and step data obtained by measuring the pedometer 40 and the pressure sensing module 50, and the pressure and step data obtained from the former measurement to the application 21 for calculation. For example, the left shoe body 10L transmits the pressure and step data obtained by the measurement to the right shoe body 10R, and the pressure and the step obtained by measuring the pedometer 40 and the pressure sensing module 50 by the right shoe body 10R. The number of data, as well as the pressure and step data obtained from the measurement of the left shoe body 10L, are transmitted to the application 21 for calculation.

In an embodiment of the present invention, the calculator 20 is a portable computing device having a display 22 and a wireless communication module 23. The calculator 20 communicates with the radio module 70 through the wireless communication module 23. The application 21 calculates and records the health information based on the pressure and the step data obtained by measuring the left shoe body 10L and the right shoe body 10R. The so-called health information includes: daily steps, weight, and walking distance. Any one or combination of changes in body weight and pressure on both feet, and the results of the calculations are displayed on display 22. The preferred embodiment of the calculator 20 is any one of a smart phone, a tablet PC, and a wearable device. The advantage and effect of the calculator 20 is that the application 21 can be updated. Or upgrade the way to increase its function, on the other hand, the measured pressure and step data can be compared with the calculator's time, Global Positioning System (GPS) positioning data and other portable computing devices. Data (such as heartbeats) are calculated together to record daily activity processes, such as walking, sitting or inactive, to help users achieve health management goals.

In an embodiment of the present creation, the creation health management shoe has a pressure that falls on the feet of the user and a pedometer 40 that is respectively disposed on the left shoe body 10L and the right shoe body 10R. The walking step data, according to the following calculation principle, can accurately estimate the number of steps the user walks, and the calorie consumption can measure the change of the distance from the body weight, and can measure the pressure of the two feet and guide the standing and walking. The type can also measure the pressure of the user falling on the feet in different postures, thereby reminding the user to avoid improper postures that generate excessive pressure. The calculation principle includes: 1. The pedometer 40 and the pressure sensing module 50 are calculated as one step when there is a signal in a certain number of seconds; 2. When the pressure sensing module 50 and the pedometer 40 are The weight is calculated only when the time is balanced; 3. The pressure of each pressure sensing module 50 is separately recorded; 4. If the pedometer 40 and the pressure sensing module 50 have no corresponding action when the GPS positioning recording distance is turned on, Step number and distance calculation; and 5. Estimating the pressure distribution associated with the pedometer 40, displaying the pressure distribution of the user's body weight on the foot and the posture of the human body displayed on the display 22 through the human body motion pattern, with reminder use Avoid the effects of improper postures that create excessive stress.

Referring to Figures 3 and 4, there is shown a structural view of another embodiment of the creation of a health management shoe, and a functional block diagram of the charging shoe rack.

The embodiment of the shoe body 10 and the calculator 20, which is shown in Figs. 3 and 4, is the same as the embodiment of Figs. 1 and 2, except that the health shown in Figs. 3 and 4 is An embodiment of the management shoe further includes: a charging shoe rack 80, the charging shoe rack 80 includes an inductive charging module 81 and a power supply 82. The power supply 82 can be electrically connected to an external power source, and the external power source can be The inductive rechargeable battery module 30 of the shoe body 10 is inductively charged through the inductive charging module 81. In a preferred embodiment, the inductive charging module 81 includes a charging indicator lamp 83, which can be displayed through the lamp number. The electric quantity of the rechargeable battery 31 and its charging operation, one of the embodiments displays the electric quantity of the rechargeable battery 31 with lights of different colors, for example, charging with red light Medium, blue or green light indicates that charging is complete.

It can be understood from the above that the creative health management shoe has the following technical features and functions, wherein the creative health management shoe obtains the pressure and movement of the user on the two feet through the pedometer and the pressure sensing module of the left and right shoe body. The number of steps, and then use the application in the calculator to accurately estimate the number of steps the user walks based on the pressure and the number of steps taken. The calories can be measured and the change in body weight can be measured. The pressure of the two feet leads to the posture of standing and walking, and can also measure the pressure of the user falling on the feet in different postures, thereby reminding the user to avoid the improper posture of excessive pressure.

Although the present invention has been disclosed above through the above embodiments, it is not intended to limit the creation of the present invention. Anyone skilled in the art can make some changes and refinements without departing from the spirit and scope of the present creation. The scope of patent protection is subject to the terms of the claims attached to this specification.

20‧‧‧Calculator

21‧‧‧Application

22‧‧‧ display

23‧‧‧Wireless communication module

30‧‧‧Inductive rechargeable battery module

31‧‧‧Rechargeable battery

32‧‧‧Induction circuit

40‧‧‧ pedometer

50‧‧‧ Pressure Sensing Module

51‧‧‧ Pressure sensor

60‧‧‧DC power supply module

70‧‧‧ radio module

Claims (10)

A health management shoe comprising: a pair of shoe bodies and a calculator; any one of the shoe bodies is provided with: an inductive rechargeable battery module capable of charging and storing power through the sensing mode; and a pedometer Measuring the number of steps of walking; a pressure sensing module for measuring the pressure applied by the user's weight to the sole of the foot; a radio module electrically connected to the pedometer and the pressure sensing module And transmitting the pressure and the step data obtained by the measurement to the calculator; the DC power module is electrically connected to the inductive rechargeable battery module and the radio module, and the inductive The power of the rechargeable battery module is converted into power for driving the radio module, the pedometer and the pressure sensing module; the calculator has a display and a wireless communication module, and the wireless communication module can The radio module communicates, the calculator runs an application, and the application calculates and records health information based on the pressure and step data obtained from the measurement of the shoe body, and displays the calculated result on the display. The health management shoe of claim 1, wherein the radio module of one of the pair of shoe bodies is in communication with the radio module of the other shoe body for stepping the shoe body of the former shoe body And the pressure and step data obtained by the pressure sensing module are transmitted to the radio module of the other shoe body, and the other radio module of the shoe body is used for the pedometer of the shoe body The pressure and step data obtained by the pressure sensing module and the pressure and step data obtained from the measurement of the shoe body are transmitted to the calculator for calculation. The health management shoe of claim 1, the calculator may be any one of a smart phone, a tablet, and a wearable device. The health management shoe according to claim 1, wherein the health-related information includes any one or a combination of daily steps, weight, weight change of walking distance, calories burned, and pressure of both feet. The health management shoe according to claim 1, wherein the application comprises displaying a pressure distribution of the user's body weight on the foot and a posture of the human body displayed on the display through the human body motion pattern. The health management shoe of claim 1, wherein the pressure sensing module has at least one pressure sensor and is disposed at a position of the sole of the shoe body corresponding to the heel. The health management shoe according to claim 1, wherein the pressure sensing module has two pressure sensors respectively disposed on the sole of the shoe body corresponding to the position of the heel and the sole of the foot. The health management shoe of claim 1, wherein the radio module is an electronic device using any one of a wireless network, a Bluetooth, and a radio. The health management shoe of claim 1, further comprising: a charging shoe rack, the charging shoe rack comprising an inductive charging module and a power supply, the power supply being electrically connectable to an external power source, the external power source The inductive rechargeable battery module of the shoe body can be inductively charged through the inductive charging module. The health management shoe according to claim 9, wherein the inductive charging module comprises a charging indicator light, wherein the charging indicator light displays the electric quantity of the inductive rechargeable battery module and the charging action thereof.