CN116807425A - Core body temperature test capsule device for athletes - Google Patents

Abstract

The invention discloses a capsule device for testing core body temperature of an athlete, which relates to the technical field of athlete movement state testing, and comprises: an electronic capsule and a bracelet; a temperature sensor, a first controller, a wireless transmitting chip and a ring antenna are arranged in the electronic capsule; the bracelet is provided with a wireless receiving chip, a built-in flexible antenna, a second controller and a display screen. The electronic capsule is swallowed by the athlete, the bracelet is worn on the wrist of the athlete, the core body temperature data of the athlete is collected through the electronic capsule and wirelessly transmitted to the bracelet, and the bracelet wirelessly receives the core body temperature data and displays the core body temperature data in real time. The invention not only accurately measures the actual body temperature of the athlete through the electronic capsule, but also displays the core body temperature data in real time through the display screen on the bracelet, thereby being capable of knowing the real-time actual body temperature of the athlete in time, and timely adjusting the physical state of the athlete according to the core body temperature data so as to ensure that each physical function of the athlete is normal.

Description

Core body temperature test capsule device for athletes

Technical Field

The invention relates to the technical field of athlete movement state testing, in particular to a core body temperature testing capsule device for athletes.

Background

Body temperature is one of vital signs of human body, and is particularly important for detecting body temperature during the sportsman's exercise. Therefore, the continuous and accurate monitoring of the core body temperature of the athlete has great significance in competitive sports. Body temperature is divided into peripheral body temperature (oral cavity, armpit, tympanic membrane, femoral artery) and core body temperature (pulmonary artery, rectum, bladder and rectum), which is the actual body temperature of the human body. However, at present, the detection of the human body temperature is limited to the detection of the body surface temperature, and the human body temperature regulating mechanism can maintain the core body temperature to have a gradient to the peripheral temperature, so that the detected peripheral temperature cannot well reflect the core body temperature, and the actual body temperature detection of the athlete is inaccurate.

Disclosure of Invention

The invention aims to provide a core body temperature test capsule device for athletes, which is used for solving the problem that the actual body temperature detection is inaccurate due to the fact that only the core body temperature of the athletes is detected through detecting the body surface temperature.

In order to achieve the above object, the present invention provides the following solutions:

an athlete core body temperature testing capsule device comprising:

an electronic capsule and a bracelet;

a temperature sensor, a first controller, a wireless transmitting chip and a loop antenna are arranged in the electronic capsule;

the temperature sensor is used for measuring core body temperature data of the athlete;

the first controller is connected with the temperature sensor and used for acquiring the core body temperature data and transmitting the core body temperature data to the wireless transmitting chip;

the wireless transmitting chip is connected with the first controller and is used for outputting the core body temperature data through a loop antenna conformal with the inner diameter of the electronic capsule;

a wireless receiving chip, a built-in flexible antenna, a second controller and a display screen are arranged in the bracelet;

the built-in flexible antenna is in wireless connection with the annular antenna;

the wireless receiving chip is connected with the built-in flexible antenna and is used for receiving the core body temperature data through the built-in flexible antenna;

the second controller is respectively connected with the wireless receiving chip and the display screen and is used for acquiring the core body temperature data and transmitting the core body temperature data to the display screen.

Optionally, the method further comprises: silver oxide battery and power supply;

the silver oxide battery is arranged in the electronic capsule, is respectively connected with the temperature sensor, the first controller and the wireless transmitting chip and is used for supplying power to the temperature sensor, the first controller and the wireless transmitting chip;

the power supply is arranged in the bracelet, connected with the second controller and used for supplying power to the second controller and supplying power to the display screen and the wireless receiving chip through the second controller.

Optionally, the first controller is further configured to adjust a temperature acquisition parameter of the temperature sensor; the temperature acquisition parameters include a sampling frequency.

Optionally, the method further comprises: a heart rate sensor;

the heart rate sensor is arranged in the bracelet and connected with the second controller, and is used for monitoring the heart rate value of the athlete in real time and transmitting the heart rate value to the second controller.

Optionally, the second controller is further configured to transmit the heart rate value to the display screen; the display screen is also used for displaying the heart rate value in real time.

Optionally, the method further comprises: a memory;

the memory is arranged in the bracelet, connected with the second controller, and used for storing the core body temperature data and the heart rate value, and receiving the electric energy provided by the power supply through the second controller.

Optionally, the method further comprises: a peripheral interface;

the peripheral interface is arranged in the bracelet and connected with the second controller, and is used for transmitting the core body temperature data in the memory and the heart rate value in the memory to the computer equipment through the second controller.

Optionally, one of the hand rings is matched with a plurality of the electronic capsules.

Optionally, the electronic capsule is encapsulated by epoxy resin, and the outer layer of the electronic capsule is coated with a biological preservative material.

Optionally, the power source is a lithium battery.

According to the specific embodiment provided by the invention, the invention discloses the following technical effects:

the invention provides a core body temperature test capsule device for athletes, which comprises an electronic capsule and a bracelet, wherein the electronic capsule is swallowed by the athletes, the bracelet is worn on the wrists of the athletes, core body temperature data of the athletes are collected through the electronic capsule and wirelessly transmitted to the bracelet, and the bracelet wirelessly receives the core body temperature data and displays the core body temperature data in real time. The invention not only accurately measures the actual body temperature of the athlete through the electronic capsule, but also displays the core body temperature data in real time through the display screen on the bracelet, thereby being capable of knowing the real-time actual body temperature of the athlete in time, and timely adjusting the physical state of the athlete according to the core body temperature data so as to ensure that each physical function of the athlete is normal.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the drawings that are needed in the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram showing the electronic capsule end circuit composition and connection relationship of the athlete core body temperature test capsule device provided by the invention;

fig. 2 is a schematic diagram of basic components and connection relations of a bracelet-end circuit of the athlete core body temperature test capsule device provided by the invention;

fig. 3 is a flowchart of the core body temperature testing capsule device for athletes according to the present invention.

Symbol description:

the electronic capsule comprises an electronic capsule body-1, a temperature sensor-2, a wireless transmitting chip-3, a loop antenna-4, a first controller-5, a silver oxide battery-6, a bracelet-7, a wireless receiving chip-8, a built-in flexible antenna-9, a second controller-10, a display screen-11, a power supply-12, a heart rate sensor-13, a memory-14 and a peripheral interface-15.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention aims to provide a core body temperature testing capsule device for an athlete, which is used for acquiring core body temperature data of the athlete through an electronic capsule, wirelessly transmitting the core body temperature data to a bracelet, wirelessly receiving the core body temperature data by the bracelet and displaying the core body temperature data in real time, so that the real-time actual body temperature of the athlete can be known in time, and the physical state of the athlete can be adjusted in time according to the core body temperature data, so that the physical functions of the athlete are ensured to be normal.

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to the appended drawings and appended detailed description.

Example 1

As shown in fig. 1-2, the core body temperature test capsule device for athletes provided by the invention comprises: the electronic capsule 1, the temperature sensor 2, the wireless transmitting chip 3, the annular antenna 4, the first controller 5, the silver oxide battery 6, the bracelet 7, the wireless receiving chip 8, the built-in flexible antenna 9, the second controller 10, the display screen 11, the power supply 12, the heart rate sensor 13, the memory 14 and the peripheral interface 15. Wherein the wireless transmitting chip 3 and the first controller 5 are integrated on a control circuit board.

The electronic capsule 1 is internally provided with a temperature sensor 2, a first controller 5, a wireless transmitting chip 3 and a loop antenna 4 to form a flexible circuit. Wherein the temperature sensor 2 is used for measuring core body temperature data of the athlete; the first controller 5 is connected with the temperature sensor 2 and is used for acquiring core body temperature data and transmitting the core body temperature data to the wireless transmitting chip 3; the wireless transmitting chip 3 is connected with the first controller 5 and is used for outputting core body temperature data through the annular antenna 4 conformal to the inner diameter of the electronic capsule 1.

A wireless receiving chip 8, a built-in flexible antenna 9, a second controller 10 and a display screen 11 are arranged in the bracelet 7. The built-in flexible antenna 9 is in wireless connection with the annular antenna 4; the wireless receiving chip 8 is connected with the built-in flexible antenna 9 and is used for receiving core body temperature data through the built-in flexible antenna 9; the second controller 10 is connected with the wireless receiving chip 8 and the display screen 11, and is configured to obtain core body temperature data, and transmit the core body temperature data to the display screen 11, where the display screen 11 displays the core body temperature data, for example: core body temperature 36.3, wherein the core body temperature data is in units of °c.

Specifically, the temperature sensor 2 adopts a digital temperature sensor with low power consumption and high precision, the precision of the temperature sensor 2 is +/-0.1 ℃, the temperature range is-20 ℃ to 50 ℃, the power supply voltage is 3.0V, the shutdown current is less than 150nA, the size is less than 2.0mm multiplied by 2.0mm, and I is adopted between the temperature sensor 2 and the first controller 5 ² And C bus connection.

The first controller 5 adopts a high-performance 8051 core singlechip and is internally provided with a memoryThe device is connected with the peripheral equipment, the resources are rich, the chip size of the first controller 5 is smaller than 5.0mm multiplied by 5.0mm, and the device has the characteristics of low cost, small volume, integration, wireless emission, safety test and high measurement precision. I is adopted between the first controller 5 and the temperature sensor 2 ² The C bus is connected with the wireless transmitting chip 3 through an SPI bus. The first controller 5 is further configured to adjust temperature acquisition parameters of the temperature sensor 2, where the temperature acquisition parameters include parameters such as a sampling frequency.

The wireless transmitting chip 3 adopts a Lora mode, the central frequency is 433MHz, the power amplifier outputs 0-20dBm by adopting an FSK modulation mode, and the transmitting current is less than 8mA. The wireless transmitting chip 3 is connected with the first controller 5 through an SPI bus.

The center frequency of the length of the annular antenna 4 is 433MHz, the length of the annular antenna is 17cm, the annular antenna 4 is conformal with the electronic capsule 1 in order to reduce the volume of the electronic capsule 1, and the annular antenna 4 is conformal with the inner diameter of the electronic capsule 1 through encapsulating epoxy resin.

The silver oxide battery 6 is arranged in the electronic capsule 1 and is respectively connected with the temperature sensor 2, the first controller 5 and the wireless transmitting chip 3, and the electronic capsule 1 adopts 2 sections of 1.5V silver oxide batteries 6 to provide 3V voltage in series for supplying power to the temperature sensor 2, the first controller 5 and the wireless transmitting chip 3. In order to reduce the power consumption of the electronic capsule 1, the electronic capsule 1 adopts a timing starting mode, and the acquisition interval can be set to be 1s to 60s so as to ensure that the electronic capsule 1 is longer than 8 hours when working normally.

The wireless transmitting chip 3 and the silver oxide battery 6 are selected, so that the relation between the power consumption and the volume in the design of the electronic capsule 1 is integrated, the power consumption of the electronic capsule 1 is reduced as much as possible on the premise that the volume of the electronic capsule 1 is similar to the size of a normal capsule, and the data acquisition time of the electronic capsule 1 is prolonged.

In addition, in the design of electronic capsule 1, in order to reduce the volume of electronic capsule 1, each part of electronic capsule 1 all adopts flexible circuit to connect, and the inside of electronic capsule 1 is through the encapsulation of epoxy, makes electronic capsule 1 into a solid cyclic annular body, and electronic capsule 1 outer coating biological anticorrosive material guarantees the comfort level of swallowing when sportsman's temperature test. In addition, a magnetic control switch is arranged in the electronic capsule 1, when the electronic capsule 1 is not in use, a magnet is attached to the outside of the electronic capsule 1, and when the electronic capsule 1 is in use, the magnet is taken away, and the electronic capsule 1 is electrified to work. The electronic capsule 1 has a length of 15mm and a diameter of 10mm, and the size of the electronic capsule is equivalent to that of a common capsule, and it should be noted that the electronic capsule 1 is a disposable product.

Furthermore, the bracelet 7 is worn on the wrist of the athlete to complete the work of wireless receiving, heart rate collecting, data storing, data displaying and transmitting of core body temperature data of the athlete, and a circuit in the bracelet 7 is of a 4-layer board design and is square with the size of 25 mm. The bracelet 7 is internally integrated with a wireless receiving chip 8, a built-in flexible antenna 9, a heart rate sensor 13, a second controller 10, a power supply 12, a memory 14, a display screen 11 and a peripheral interface 15.

The second controller 10 adopts an STM32 processor to complete wireless receiving, storage control, display and peripheral control.

The wireless receiving module adopts a Lora mode, the center frequency is 433MHz, FSK modulation is adopted, and the receiving sensitivity can be as low as-120 dBm. The wireless receiving chip 8 is connected with the second controller 10 through an SPI bus.

The built-in flexible antenna 9 adopts a flexible patch antenna, the center frequency is 433MHz, the antenna gain is 5dB, and the built-in flexible antenna 9 is internally attached to the shell of the bracelet 7.

The bracelet 7 adopts an OLED screen as a display control chip, and a 1 inch OLED screen is selected as a display screen 11.

Since heart rate is the most important index parameter in the sportsman's exercise state, a heart rate sensor 13 is also integrated in the bracelet 7. The heart rate sensor 13 is arranged in the bracelet 7 and is connected with the second controller 10 for monitoring the heart rate value of the athlete in real time and transmitting the heart rate value to the second controller 10, the second controller 10 transmits the heart rate value to the display screen 11, and the display screen 11 displays the heart rate value in real time, for example: heart rate 85, wherein the heart rate value is in units of "beats/minute". Wherein the heart rate acquisition pulse frequency is 100sps, and the heart rate sensor 13 adopts I ² The C bus is connected to the second controller 10. The display 11 displays the core body temperature data and the heart rate value, and also displays the battery power, for example: the electric quantity of the battery is 90 percent,the battery power displayed is the residual power of the battery.

The power supply 12 in the bracelet 7 is arranged in the bracelet 7, connected with the second controller 10 and used for supplying power to the second controller 10 and supplying power to the display screen 11 and the wireless receiving chip 8 through the second controller 10. The power supply 12 adopted by the bracelet 7 is a 230mAh lithium battery, and the theoretical working time is 24 hours.

The memory 14 is disposed in the bracelet 7, connected to the second controller 10, and is used for storing core body temperature data and heart rate value, and receiving the electric energy provided by the power supply 12 through the second controller 10. Specifically, the memory 14 selects a flash chip as a core body temperature data and heart rate value memory chip, and has a data memory space of 64Mbit, and the flash memory 14 uses an SPI interface to realize connection control with the second controller 10.

The peripheral interface 15 employs a Typc-C interface as a data reading and charging interface. The peripheral interface 15 is disposed in the bracelet 7, connected to the second controller 10, and used for transmitting the core body temperature data in the memory 14 and the heart rate value in the memory 14 to the computer device through the second controller 10. The computer device may be a tablet computer, a notebook computer, etc.

In particular, one bracelet 7 may be matched to a plurality of electronic capsules 1.

The electronic capsule 1 in the athlete core body temperature testing capsule device provided by the invention can realize the testing of athlete core body temperature data, and provides a powerful supporting means for athlete movement data acquisition. In addition, the electronic capsule 1 is small in size and high in safety, a player can directly swallow and measure, and the electronic capsule 1 has no influence on the sports state of the player.

In addition, the electronic capsule 1 transmits the core body temperature data in real time in a wireless transmission mode, the bracelet 7 receives, displays and stores the core body temperature data, and the size of the bracelet 7 is equivalent to that of the conventional bracelet, so that the athletic status of an athlete is not influenced. And a sportsman database can be established through sportsman core body temperature data and heart rate values, so that analysis and processing of core body temperatures and heart rate values of different sportsmen are completed.

Example two

As shown in fig. 3, the specific working process of the core body temperature test capsule device for athletes is as follows:

step one, initializing a bracelet.

In the use process of the athlete core body temperature testing capsule device, firstly, initializing comprises the following steps: the second controller 10 of the bracelet 7 is initialized, the wireless receiving chip 8 is initialized, and the memory 14 is initialized.

Step two, configuring a bracelet.

Parameter configuration of the bracelet 7 is realized through self-programming software and keys carried by the bracelet 7, and the method specifically comprises the following steps: electronic capsule ID configuration, wireless communication channel configuration, data acquisition time configuration, heart rate value acquisition parameter configuration. Furthermore, the parameter configuration of the wristband 7 further includes: the configuration of parameters such as depth, fahrenheit, or degrees Celsius are stored.

Specifically, each electronic capsule 1 is set with a fixed ID and a fixed channel before leaving the factory, and the fixed IDs and the fixed channels correspond to numbers of different athletes, and before the bracelet 7 works, the configuration of the IDs and the wireless communication channels of the bracelet 7 is realized through self-programming software or keys carried by the bracelet 7, so that the electronic capsules 1 are matched with the electronic capsules. Therefore, when the same bracelet 7 is matched with a plurality of different electronic capsules 1 through different IDs and wireless communication channels, the plurality of electronic capsules 1 work simultaneously, and signals among the plurality of wireless communication channels do not interfere with each other.

The data acquisition time is configured to be the acquisition time configuration of core body temperature data of the athlete and the transmission time configuration of the core body temperature data, specifically, the core body temperature is acquired once in default 1 second, and in the occasion with low frequency requirement, the data acquisition time can be configured to be acquired once in 5 seconds, acquired once in 10 seconds, acquired once in 30 seconds or acquired once in 60 seconds; meanwhile, the time for which the wireless transmitting chip 3 transmits the core body temperature data may also be set to 30 seconds transmission once, 60 seconds transmission once, 180 seconds transmission once, or 600 seconds transmission once.

The heart rate value acquisition parameters are specifically configured, the heart rate acquisition time is 1 minute to acquire once by default, the heart rate value acquisition time can also be configured to acquire once in 5 minutes, acquire once in 10 minutes or acquire once in 30 minutes, and the measurement can also be started by a key of the bracelet 7.

And step three, standing by the bracelet.

After the configuration of the bracelet 7 is completed, the bracelet 7 enters a standby state and waits for the starting of the electronic capsule 1. Each electronic capsule 1 is provided with a magnetic switch, before a sportsman swallows the electronic capsules 1, firstly, a magnet attached to the electronic capsules 1 is taken off, at the moment, the magnetic switch is turned on, the electronic capsules 1 are initialized, after the operations such as parameter configuration are collected, the electronic capsules 1 are started, the temperature sensor 2 starts to work, and meanwhile, the electronic capsules 1 are connected with the bracelet 7. At this time, the bracelet 7 starts to receive the core body temperature data uploaded by the electronic capsule 1, if the core body temperature data is received normally, the bracelet 7 starts to measure, at this time, the switch of the heart rate sensor 13 can be manually turned on to test the heart rate, and the process goes to the step four (athlete data acquisition); if the core body temperature data or the heart rate value is not received normally, the third step (bracelet standby) is continuously executed until the core body temperature data or the heart rate value is received normally.

It should be noted that the core body temperature data measured by the electronic capsule 1 is always sent to the bracelet 7, and the bracelet 7 can be set to stop receiving the core body temperature data sent by the electronic capsule 1 and stop testing the heart rate. After stopping, the start key is pressed again, and the bracelet 7 can start the receiving of the core body temperature data and the testing of the heart rate again. However, after each shutdown of the bracelet 7, the state is reconfigured.

And step four, data acquisition of athletes.

The athlete data acquisition specifically comprises: core body temperature data are received wirelessly and heart rate values are acquired. After the electronic capsule 1 is started, core body temperature data is acquired by default every 1 second, the wireless transmitting chip 3 is started every 30 seconds, the acquired core body temperature data is transmitted to the bracelet 7, and the bracelet 7 can control whether to receive the core body temperature data transmitted by the electronic capsule 1. Meanwhile, the bracelet 7 can also control whether the heart rate sensor 13 is started to collect heart rate values. The wristband 7 stores the received core body temperature data and heart rate values in a memory 14 onboard the wristband 7. The bracelet 7 can freely control the measurement process, after the measurement is interrupted or the measurement is finished, whether the bracelet 7 stops measuring or not is selected through keys of the bracelet 7, the step five (stored data reading) is executed when the bracelet 7 stops measuring, and the step four (athlete data acquisition) is continuously executed when the bracelet 7 does not stop measuring.

And fifthly, reading the stored data.

After the measurement is completed, the stored data in the memory 14 is read, which specifically includes: core body temperature data is read wirelessly and heart rate value is read. The bracelet 7 is connected with a computer in a wired or wireless mode, the computer reads the core body temperature data and the heart rate value stored in the bracelet 7, and the step six (data analysis and processing) is executed after the reading is finished; if not, the fifth step (stored data reading) is continued.

And step six, analyzing and processing the data.

After the reading of the core body temperature data and the heart rate value is finished, the data analysis and the processing are carried out through self-organizing software, and the method specifically comprises the following steps: athlete database establishment, core body temperature data wireless analysis and processing and heart rate value analysis and processing.

Specifically, core body temperature data and heart rate values acquired by athletes in different exercises and different periods are arranged in self-organizing software to establish an athlete database, the athlete database contains information such as athlete names, ages, sexes, heights and weights, meanwhile, the software can read the core body temperature data and heart rate values of athletes corresponding to the ID, and the read data are displayed, calculated and compared in the software. And meanwhile, the change of the core body temperature data and the heart rate value of the detected athlete in different exercise processes and different time periods can be counted and respectively compared with the standard body temperature and the standard heart rate value to obtain the exercise state of the athlete in the exercise process, and powerful data support is provided for improving the exercise state of the athlete.

And step seven, finishing the measurement.

After the analysis and processing of the core body temperature data and the heart rate value are finished, the measurement of the whole measurement process is finished.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other.

The principles and embodiments of the present invention have been described herein with reference to specific examples, the above examples being provided only to assist in understanding the structure of the present invention and its core ideas; also, it is within the scope of the present invention to be modified by those of ordinary skill in the art in light of the present teachings. In view of the foregoing, this description should not be construed as limiting the invention.

Claims (10)

1. A core body temperature testing capsule device for an athlete, comprising: an electronic capsule and a bracelet;

a temperature sensor, a first controller, a wireless transmitting chip and a loop antenna are arranged in the electronic capsule;

the temperature sensor is used for measuring core body temperature data of the athlete;

the first controller is connected with the temperature sensor and used for acquiring the core body temperature data and transmitting the core body temperature data to the wireless transmitting chip;

the wireless transmitting chip is connected with the first controller and is used for outputting the core body temperature data through a loop antenna conformal with the inner diameter of the electronic capsule;

a wireless receiving chip, a built-in flexible antenna, a second controller and a display screen are arranged in the bracelet;

the built-in flexible antenna is in wireless connection with the annular antenna;

the wireless receiving chip is connected with the built-in flexible antenna and is used for receiving the core body temperature data through the built-in flexible antenna;

the second controller is respectively connected with the wireless receiving chip and the display screen and is used for acquiring the core body temperature data and transmitting the core body temperature data to the display screen.

2. The athlete's core body temperature testing capsule device of claim 1, further comprising: silver oxide battery and power supply;

the silver oxide battery is arranged in the electronic capsule, is respectively connected with the temperature sensor, the first controller and the wireless transmitting chip and is used for supplying power to the temperature sensor, the first controller and the wireless transmitting chip;

the power supply is arranged in the bracelet, connected with the second controller and used for supplying power to the second controller and supplying power to the display screen and the wireless receiving chip through the second controller.

3. The athlete's core body temperature testing capsule device of claim 2, wherein the first controller is further configured to adjust a temperature acquisition parameter of the temperature sensor; the temperature acquisition parameters include a sampling frequency.

4. The athlete's core body temperature testing capsule device of claim 2, further comprising: a heart rate sensor;

the heart rate sensor is arranged in the bracelet and connected with the second controller, and is used for monitoring the heart rate value of the athlete in real time and transmitting the heart rate value to the second controller.

5. The athlete's core body temperature testing capsule device of claim 4, wherein the second controller is further configured to transmit the heart rate value to the display screen; the display screen is also used for displaying the heart rate value in real time.

6. The athlete's core body temperature testing capsule device of claim 5, further comprising: a memory;

the memory is arranged in the bracelet, connected with the second controller, and used for storing the core body temperature data and the heart rate value, and receiving the electric energy provided by the power supply through the second controller.

7. The athlete's core body temperature testing capsule device of claim 6, further comprising: a peripheral interface;

the peripheral interface is arranged in the bracelet and connected with the second controller, and is used for transmitting the core body temperature data in the memory and the heart rate value in the memory to the computer equipment through the second controller.

8. The athlete's core body temperature testing capsule device of claim 7, wherein one of the hand rings mates with a plurality of the electronic capsules.

9. The athlete's core body temperature testing capsule device of claim 8, wherein the electronic capsule is encapsulated with an epoxy resin inside and the electronic capsule is coated with a bio-preservative material on the outside.

10. The athlete's core body temperature testing capsule device of claim 9, wherein the power source is a lithium battery.