TWI522052B - Smart sportswear - Google Patents

Description

Smart sportswear

The invention relates to a sportswear, in particular to a smart sportswear.

From the very beginning, sportswear was designed to keep warm and convenient. Nowadays, the demand for perspiration, ventilation, or fashion is gradually developed. How to enhance the added value and function of sportswear is the goal of various manufacturers.

Accordingly, it is an object of the present invention to provide a smart sportswear that can be used by a user for health management.

Thus, the smart sportswear of the present invention comprises: a top and a pair of pants, a rechargeable battery for providing power, a sensing unit, a wireless transmitting unit, and a control unit.

The sensing unit comprises: a temperature sensing module for measuring the temperature of the human body and outputting a corresponding temperature signal, a heartbeat sensing module for measuring the heartbeat of the human body and outputting a corresponding heartbeat signal, and a measuring body bending An angle sensing module that outputs a corresponding human body angle signal at an angle.

The wireless transmitting unit receives an output signal and outputs a corresponding Wireless transmit signal.

The control unit is electrically connected to the rechargeable battery, the temperature sensing module, the heartbeat sensing module, the angle sensing module, the wireless transmitting unit, and respectively receiving the temperature signal, the heartbeat signal, and the human body The angle signal determines the user's body temperature, heartbeat and human body posture, and outputs the corresponding output signal.

The utility model has the advantages that: by setting the temperature sensing module, the heartbeat sensing module, the angle sensing module, and performing the operation judgment together with the control unit, the user can be provided to pay attention to his or her physical condition at any time, and provide Older home care or the provision of sports enthusiasts to plan and properly implement exercise intensity programs can help users improve their health.

21‧‧‧Tops

22‧‧‧ pants

3‧‧‧Operating unit

4‧‧‧Sensor unit

41‧‧‧Temperature Sensing Module

411‧‧‧temperature sensor

42‧‧‧heartbeat sensing module

43‧‧‧Angle sensing module

431‧‧‧First direction angle sensor

432‧‧‧Second direction angle sensor

5‧‧‧Wireless transmitting unit

51‧‧‧Wireless transmitter

6‧‧‧Control unit

7‧‧‧Rechargeable battery

8‧‧‧Power generation unit

81‧‧‧ thermoelectric power generation chip module

82‧‧‧Solar power chip module

9‧‧‧External unit

91‧‧‧Mobile phones

92‧‧‧ computer

Other features and effects of the present invention will be apparent from the embodiments of the present invention. FIG. 1 is a schematic diagram of an embodiment of the smart sportswear of the present invention; FIG. 2 is a block diagram of the embodiment. FIG. 3 is a flowchart of body temperature management in the embodiment; FIG. 4 is a flowchart of heartbeat management in the embodiment; FIG. 5 is a flowchart of posture correction management in the embodiment; FIG. A neural network operation of the embodiment for performing posture correction management is illustrated; FIG. 7 is a flowchart of the step counting program in the embodiment; and FIG. 8 is a schematic diagram illustrating the embodiment when performing the step counting program. A type of neural network operation.

Referring to FIG. 1 and FIG. 2, the embodiment of the smart sportswear of the present invention is suitable for outputting a wireless transmission signal to an external unit 9. The smart sportswear includes a jacket 21 and a pair of pants 22, an operating unit 3, and a sense. The measuring unit 4, a wireless transmitting unit 5, a control unit 6, a rechargeable battery 7 for supplying power, and a power generating unit 8 electrically connected to the rechargeable battery 7.

In this embodiment, the external unit 9 is a mobile phone 91 and a computer 92, but may be a variety of electronic products according to the convenience of the user, and is not limited thereto.

The operating unit 3 is electrically connected to the control unit 6 and configured for the user to set a high temperature predetermined value, a low temperature predetermined value, and an age parameter, wherein the high temperature predetermined value and the low temperature predetermined value may also be built in the control unit in advance. 6, is not limited to this.

The power generating unit 8 is configured to generate electricity and charge the rechargeable battery 7. In the embodiment, the power generating unit 8 includes two temperature differences generated by the user's body temperature and the outside temperature. The wafer module 81 and the solar power generation chip module 82 are respectively disposed on the shoulder portion above the top garment 21 to receive sunlight to generate electricity, but other methods may be used for power generation, and are not limited thereto.

The sensing unit 4 includes: a temperature sensing module 41 that measures the temperature of the human body and outputs a corresponding temperature signal, a heartbeat sensing module 42 that measures the heartbeat of the human body and outputs a corresponding heartbeat signal, and a quantity The angle sensing module 43 measures the bending angle of the human body and outputs a corresponding human body angle signal.

The temperature sensing module 41 has a top cover 21 respectively The three temperature sensors 411 of the left leg and the thigh of the pants 22 are used to measure the temperature of the human body for the temperature sensing module 41 to output the temperature signal.

The angle sensing module 43 has a plurality of first direction angle sensors 431 and a plurality of second direction angles respectively disposed on the left sleeve, the right sleeve, the trunk portion, the left and right feet of the pants 22 of the top 21 The sensor 432, and the first direction angle sensor 431 and the second direction angle sensor 432 are respectively used to sense the bending angle of the front and rear movement and the left and right motion of the human body, and the angle sensing module 43 according to the The bending angle outputs the human body angle signal.

In this embodiment, the first direction angle sensor 431 and the second direction angle sensors 432 are respectively elongated piezoelectric elements, but other components can also be used to sense the bending angle of the human body. Not limited to this.

The wireless transmitter unit 5 includes two wireless transmitters 51 respectively disposed on the top garment 21 and the pants 22 for receiving an output signal and outputting the corresponding wireless transmission signal. In this embodiment, the wireless transmission unit 5 The external unit 9 transmits using Bluetooth, but can also use Radio Frequency IDentification (RFID) or other wireless transmission technologies, and is not limited thereto.

The control unit 6 is electrically connected to the rechargeable battery 7, the temperature sensing module 41, the heartbeat sensing module 42, the angle sensing module 43, and the wireless transmitting unit 5, respectively, and receives the temperature signal, respectively. a heartbeat signal, and the human body angle signal to determine a user's body temperature, heartbeat, and human body posture, and The corresponding output signal is output.

Referring to FIG. 2 and FIG. 3, in the embodiment, when the body temperature management is performed, the control unit 6 receives and parses the temperature signal to obtain a body temperature message, and the body temperature corresponding to the temperature signal is between the set high temperature. And outputting the output signal corresponding to the normal body temperature message when the predetermined value and the low temperature predetermined value are between, and outputting the output signal corresponding to the display motion or the fever message when the body temperature corresponding to the temperature signal is higher than the high temperature predetermined value. When the temperature of the human body corresponding to the temperature signal is lower than the predetermined value of the low temperature, the output signal corresponding to the hypothermia and the recommended dressing message is output, and the wireless transmitting unit 5 receives the output signal and transmits the corresponding wireless transmitting signal. To the external unit 9, the external unit 9 then informs the user according to the corresponding message or voice feedback of the wireless transmission signal.

Referring to FIG. 2 and FIG. 4, when performing heartbeat management in this embodiment, the control unit 6 calculates an effective training maximum heart rate and an effective training minimum heart rate according to the age parameter input by the user, and receives the timeout according to the time series. The heartbeat signal is used to calculate a heart rate parameter (heartbeats/minutes).

In the present embodiment, the formula for calculating the effective training and the safe heart rate is as follows: R=220-age parameter; Rx90%=effective training maximum heart rate; Rx60%=effective training minimum heart rate.

However, different effective training and safe heart rate formulas can be designed according to actual needs, and are not limited thereto.

When the heart rate parameter is higher than the effective training maximum heart rate And outputting the output signal corresponding to the training intensity too high message, when the heartbeat rate parameter is between the effective training maximum heart rate and the effective training minimum heart rate, outputting the output signal corresponding to the effective training message, at the heart rate When the parameter is lower than the effective training minimum heart rate, the output signal corresponding to the training intensity is too low, and according to the heart rate parameter, the effective training maximum heart rate and the effective training minimum heart rate output corresponding to the effective training time The output signal, the wireless transmitting unit 5 receives the output signal, and transmits the corresponding wireless transmission signal to the external unit 9, and the external unit 9 further informs the user according to the corresponding information or voice feedback of the wireless transmission signal. .

Referring to FIG. 2 and FIG. 5, in the embodiment, when the posture correction management is performed, the control unit 6 receives the human body angle signal according to the time series, and calculates the user's torso, left hand, and right hand in front, back, and left and right according to the human body angle signal. Angle parameter values A (TX), A (TY), A (LX), A (LY), A (RX), A (RY) and one angular velocity parameter values W (TX), W (TY), W (LX ), W (LY), W (RX), W (RY), and use the calculated user's torso, left hand, right hand in front and rear and left and right angle parameter values A (TX), A (TY), A ( LX), A(LY), A(RX), A(RY) and angular velocity parameter values W(TX), W(TY), W(LX), W(LY), W(RX), W(RY) As a neural network input parameter, a neural network calculus is performed to obtain a human body posture result, and the output signal corresponding to the human body posture result is output, and the wireless transmitting unit 5 receives the output signal and transmits the corresponding wireless transmission. The signal is sent to the external unit 9, and the external unit 9 then informs the user according to the corresponding message or voice feedback of the wireless transmission signal.

Referring to FIG. 2 and FIG. 6 , a schematic diagram of a neural network operation. In this embodiment, the input layer is an angle parameter A (TX), A (TY) of the user's torso, left hand, and right hand in front, back, and left and right directions. , A (LX), A (LY), A (RX), A (RY) and angular velocity parameter values W (TX), W (TY), W (LX), W (LY), W (RX), W (RY) and other twelve parameters, the number of hidden layers is one layer, the number of nodes is eight, and the output layer is whether it is sitting posture, standing motion, walking or running. Because the neural network operation is familiar to the industry, Therefore, it is not described here.

Referring to FIG. 2 and FIG. 7 , when the step counting program is performed in the embodiment, the control unit 6 receives the human body angle signal according to the timing, and calculates the left and right feet of the user in front, back, and left and right according to the human body angle signal. Angle parameter values A (LX), A (LY), A (RX), A (RY) and an angular velocity parameter values W (LX), W (LY), W (RX), W (RY), and use The calculated left and right foot angle parameters A (LX), A (LY), A (RX), A (RY) and angular velocity parameter values W (LX), W (LY) W(RX) and W(RY) are used as neural network input parameters to perform a neural network calculus to obtain a step calculation result, and output the output signal corresponding to the step calculation result, the wireless transmitting unit 5 The output signal is received, and the corresponding wireless transmission signal is transmitted to the external unit 9. The external unit 9 then informs the user according to the corresponding information or voice feedback of the wireless transmission signal.

Referring to FIG. 2 and FIG. 8 , a schematic diagram of a neural network operation. In this embodiment, the input layer is an angle parameter A (LX) and A (LY) of the left and right feet of the user in front, back, and left and right directions. , A (RX), A (RY) and angular velocity Degree parameters W (LX), W (LY), W (RX), W (RY) and other eight parameters, the number of hidden layers is one layer, the node is four, the output layer is the step calculation results, due to the class The neural network operation is familiar to the industry, so it will not be described here.

Through the above description, the advantages of this embodiment can be summarized as follows:

1. The user can be reminded by setting the temperature sensing module 41, the heartbeat sensing module 42, the angle sensing module 43, and the control unit 6 and the wireless transmitting unit 5 to the external unit 9. Pay attention to whether the body temperature is too high or too low, whether the heart rate is too high or too low, whether the posture is correct, and provide step counting calculation results, so that users can pay attention to their physical condition at any time, avoiding body diseases such as bone spurs due to long-term bad posture. And can help users pay attention to heartbeat management during exercise, to achieve the set exercise intensity and avoid excessive exercise to cause the burden on the heart, can provide elderly home care or provide sports enthusiasts to plan and properly implement exercise intensity meter Painting can help users improve their health.

2. By providing the power generating unit 8 and using the rechargeable battery 7, the present embodiment can generate power by itself to supply its own needs without additional energy supply, and has environmental protection effects.

In summary, the present embodiment can not only provide user health management, but also has environmental protection effects, so that the object of the present invention can be achieved.

However, the above is only the embodiment of the present invention, and the scope of the present invention is not limited thereto, that is, the simple equivalent change and modification of the patent application scope and patent specification content of the present invention, All remain within the scope of the invention patent.

21‧‧‧Tops

22‧‧‧ pants

3‧‧‧Operating unit

4‧‧‧Sensor unit

41‧‧‧Temperature Sensing Module

411‧‧‧temperature sensor

42‧‧‧heartbeat sensing module

43‧‧‧Angle sensing module

431‧‧‧First direction angle sensor

432‧‧‧Second direction angle sensor

5‧‧‧Wireless transmitting unit

51‧‧‧Wireless transmitter

6‧‧‧Control unit

7‧‧‧Rechargeable battery

8‧‧‧Power generation unit

81‧‧‧ thermoelectric power generation chip module

82‧‧‧Solar power chip module

Claims (9)

A smart sportswear comprising: a top and a pair of pants; a rechargeable battery for providing power; a sensing unit comprising: a temperature sensing module for measuring body temperature and outputting a corresponding temperature signal, a heartbeat sensing module that measures a human heartbeat and outputs a corresponding heartbeat signal, and an angle sensing module that measures a bending angle of the human body and outputs a corresponding human body angle signal; a wireless transmitting unit receives an output signal and Outputting a corresponding wireless transmission signal; a control unit electrically connecting the rechargeable battery, the temperature sensing module, the heartbeat sensing module, the angle sensing module, the wireless transmitting unit, and respectively receiving the temperature a signal, the heartbeat signal, and the human body angle signal to determine a user's body temperature, heartbeat, and human body posture, and output the corresponding output signal; and an operation unit electrically connected to the control unit and configured for the user to input an age parameter; The control unit calculates an effective training maximum heart rate and an effective training minimum heart rate according to the age parameter, and receives the heartbeat signal according to timing Calculating a heart rate parameter, when the heart rate parameter is higher than the effective training maximum heart rate, outputting the output signal corresponding to the training intensity too high message, wherein the heart rate parameter is between the effective training maximum heart rate and the effective training When the minimum heart rate is between, the output signal corresponding to the effective training message is output, and the heartbeat rate parameter is lower than the effective training minimum heart rate At the time rate, the output signal corresponding to the training intensity is too low is output, and the output signal corresponding to the effective training time is output according to the heartbeat rate parameter, the effective training maximum heart rate and the effective training minimum heart rate, R=220- Age parameter, R × 90% = effective training maximum heart rate, R × 60% = effective training minimum heart rate, parameter R is defined as an effective training and safe heart rate. The smart sportswear of claim 1 further comprising a power generating unit electrically connected to the rechargeable battery for generating electricity and charging the rechargeable battery. The smart sportswear of claim 2, wherein the power generating unit comprises at least one thermoelectric power generating chip module. The smart sportswear of claim 2, wherein the power generating unit comprises at least one solar power chip module disposed on the top. The smart sportswear of claim 1, wherein the control unit receives the temperature signal, and when the temperature of the human body corresponding to the temperature signal is between a predetermined high temperature value and a predetermined low temperature value, the output corresponding to the normal display is normal. The output signal of the body temperature message outputs the output signal corresponding to the display motion or fever message when the body temperature corresponding to the temperature signal is higher than the predetermined temperature value, and the body temperature corresponding to the temperature signal is lower than the low temperature predetermined At the time of the value, the output signal corresponding to the hypothermia message is output. The smart sportswear of claim 1, wherein the angle sensing module has a plurality of first directions disposed on the left sleeve, the right sleeve, the trunk portion, and the left and right feet of the pants. An angle sensor and a plurality of second direction angle sensors, and the first direction angle sensors and The two-direction angle sensor is respectively configured to sense a bending angle of the front and rear movement and the left and right movement of the human body, and the angle sensing module outputs the human body angle signal according to the bending angles. The smart sportswear according to claim 6, wherein the control unit receives the human body angle signal according to time series, and calculates an angle parameter value of the left hand, the right hand, and the torso of the user in front, back, and left and right according to the human body angle signal, and The angular velocity parameter value is used as the neural network input parameter of the user's left hand, right hand, and torso front and rear and left and right angle parameter values and angular velocity parameter values, and the neural network calculus is used to obtain the human body posture result. And outputting the output signal corresponding to the result of the human body posture. The smart sportswear according to claim 6, wherein the control unit receives the human body angle signal according to time series, and calculates an angle parameter value of the left and right feet of the user in front, back, left and right according to the human body angle signal, and The angular velocity parameter value is used as the neural network input parameter for the left and right and left and right angle parameter values and the angular velocity parameter values of the left and right feet of the user, and the neural network calculus is used to obtain the step calculation algorithm. As a result, the output signal corresponding to the result of the step calculation is output. The smart sportswear of claim 6, wherein the first direction angle sensor and the second direction angle sensor are respectively elongated piezoelectric elements.