CN212828997U - Smart Infant Swimming Ring - Google Patents

Abstract

The utility model relates to an intelligent infant swimming ring, comprising a swimming ring body and a monitoring device installed on the swimming ring body. The monitoring device comprises a vital sign detection sensor, a rollover detection sensor, a signal processing module and a wireless communication module. The detection sensor is electrically connected with the signal processing module, and is used for detecting the vital sign signal of infants and young children and sending the vital sign signal to the signal processing module; the rollover detection sensor is electrically connected with the signal processing module, and is used for detecting the state of the swimming ring body and sending the vital sign signal to the signal processing module. The status signal of the swimming ring body is sent to the signal processing module; the signal processing module is electrically connected with the wireless communication module for analyzing and processing vital signs and status signals, and sending the analysis and processing results to the intelligent terminal through the wireless communication module. The utility model has the advantages of being convenient for monitoring the physical condition of infants and young children when they are swimming, whether they slip off, roll over, and the like.

Description

Intelligent infant swim ring

Technical Field

The utility model relates to a sports equipment technical field especially relates to an intelligence infant's water wing.

Background

Swimming is a very popular exercise and fitness mode of people at present, and as a fitness exercise, a user usually wants to know the current exercise data information of the user after swimming, such as swimming time, swimming distance, consumed calories and the like, so as to adjust the exercise condition of the user. In addition, the swim ring is a swimming auxiliary tool commonly used by swimming beginners and infants, and is used for providing extra buoyancy and safety guarantee for users, but in actual use, as the infant often has irregular swimming postures, the swim ring can be turned on one's side or the infant can slide off the swim ring, and after the swim ring is turned on one's side or the infant slides off the swim ring, if the infant can not be rescued in time, great potential safety hazards are brought.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above problems, it is necessary to provide an intelligent infant swim ring capable of timely rescuing an infant after the infant slides off the swim ring.

The utility model provides an intelligent infant swim ring, which comprises a swim ring body and a monitoring device arranged on the swim ring body, wherein the monitoring device comprises a vital sign detection sensor, a side-turning detection sensor, a signal processing module and a wireless communication module; the side-turning detection sensor is electrically connected with the signal processing module and is used for detecting the state of the swim ring body and sending a state signal of the swim ring body to the signal processing module; the signal processing module is electrically connected with the wireless communication module and used for analyzing and processing the vital sign signals and the state signals and sending the analysis and processing result to the intelligent terminal through the wireless communication module.

In one embodiment, the vital sign detection sensor comprises a piezoelectric sensor mounted at an inner circumferential surface of the swim ring body such that the skin of the infant can come into contact with the piezoelectric sensor when in use.

In one embodiment, the piezoelectric sensor is a piezoelectric film sensor disposed around an inner circumferential surface of the swim ring body.

In one embodiment, the number of piezoelectric sensors is an even number, and the piezoelectric sensors are in central symmetry with respect to the geometric center of the swim ring body.

In one embodiment, the vital sign signals sensed by the piezoelectric sensor include body movement, respiration, heart rate, and blood pressure.

In one embodiment, the rollover detection sensor is at least one of an angle sensor, an attitude sensor, or a pressure sensor.

In one embodiment, the intelligent infant swim ring further comprises an air pressure sensor, wherein the air pressure sensor is electrically connected with the signal processing module and is used for detecting air pressure in the swim ring body and sending air pressure information to the signal processing module, so that the signal processing module obtains energy consumption information according to signals transmitted by the air pressure sensor and the vital sign detection sensor.

In one embodiment, the intelligent infant swim ring further comprises a positioning module, wherein the positioning module is electrically connected with the signal processing module and is used for providing position information of the infant.

In one embodiment, the intelligent infant swim ring further comprises a temperature sensor, wherein the temperature sensor is electrically connected with the signal processing module and is used for detecting the body surface temperature of the infant.

In one embodiment, the intelligent infant swim ring further comprises a heating element mounted on the swim ring body for providing heat energy.

Above-mentioned intelligence infant's swimming circle has following advantage at least:

firstly, the vital sign detection sensor detects the vital signs of the infants, so that the information of the infants such as exercise time, energy consumption and physical health conditions can be obtained through the mobile terminal, and the exercise condition of the infants can be adjusted. Secondly, through whether side overturning happens to the swim ring detected by the side overturning detection sensor, when the swim ring is turned on side, the intelligent terminal gives an alarm to remind a guardian, so that timely rescue can be realized. And finally, the vital sign detection sensor is matched with the side-turning detection sensor for detection, so that whether the infant slides off the swimming ring or not can be detected, the infant can be rescued in time, and the swimming safety can be improved.

Drawings

Fig. 1 is a schematic structural view of a first embodiment of the intelligent infant swim ring of the present invention;

FIG. 2 is a schematic block diagram of the monitoring device of the intelligent infant swim ring shown in FIG. 1;

fig. 3 is a schematic block diagram of a monitoring device of a second embodiment of the intelligent infant swim ring of the present invention;

fig. 4 is a schematic block diagram of a monitoring device of a third embodiment of the intelligent infant swim ring of the present invention;

fig. 5 is a schematic block diagram of a monitoring device according to a fourth embodiment of the intelligent infant swim ring of the present invention.

Detailed Description

The invention is described in further detail below with reference to the accompanying drawings:

example 1

Referring to fig. 1, the present invention provides an intelligent infant swim ring, which includes a swim ring body 1, a monitoring device 2 installed on the swim ring body 1, and a battery (not labeled in the figure) for supplying power to the monitoring device 2, wherein the swim ring body 1 is used for providing buoyancy for an infant when the infant swims, the swim ring body 1 may include one or more air bags, the air bags may be nested, and the structure thereof is not specifically limited herein. The swim ring body 1 can be a neck ring, an oxter ring and the like, when the neck ring is used, the swim ring body 1 is clamped at the neck of an infant, the head of the infant is supported away from the water surface, and the four limbs of the infant can move freely underwater. When the underarm ring is used, the swim ring body 1 is clamped at the underarm of an infant, the upper limbs and the head and neck of the infant are supported away from the water surface, and the chest and the lower part of the infant can move freely underwater. In this embodiment, the swim ring body 1 is an underarm ring.

The monitoring device 2 comprises a vital sign detection sensor 21, a rollover detection sensor 22, a positioning module 23, a signal processing module 24 and a wireless communication module 25, wherein the vital sign detection sensor 21 is electrically connected with the signal processing module 24 and is used for detecting vital sign signals of infants and sending the vital sign signals to the signal processing module 24. The vital sign detection sensor 21 may be an infrared sensor or a piezoelectric sensor, and is not limited herein, and the vital sign signal includes respiration, body movement, heart rate, body temperature, blood pressure, and the like.

In the present embodiment, the vital sign detection sensor 21 is a piezoelectric sensor that is mounted at the inner circumferential surface of the swim ring body 1 so that the skin of an infant can come into contact with the piezoelectric sensor when in use. That is to say, the piezoelectric sensor is located on the surface of the swim ring body 1 facing the infant, so that the skin of the infant can be ensured to be in contact with the piezoelectric sensor during normal use, and the accuracy of detection is improved. One or more piezoelectric sensors can be arranged on the inner peripheral surface of the swim ring body 1, specifically, the piezoelectric sensors are piezoelectric film sensors, the size of the piezoelectric film sensors is small, the piezoelectric film sensors are convenient to bond with the swim ring body 1, and the connection is stable and reliable.

The piezoelectric film sensor is arc-shaped and arranged around the inner circumferential surface of the swim ring body 1, so that the probability of contact with the waist of an infant is improved, and the detection accuracy is improved. In order to further improve the probability of the piezoelectric sensors contacting with the waist of the infant, the number of the piezoelectric sensors is even, and the piezoelectric sensors are centrosymmetric about the geometric center of the swim ring body 1, so that no matter the size of the waist of the infant, part of the piezoelectric sensors always contact with the waist of the infant, and the situation that the swim ring body 1 is not easily contacted with the waist of the infant is reduced. It can be understood that, in the present embodiment, the vital sign signals sensed by the piezoelectric sensor include body movement, respiration, heart rate and blood pressure.

The rollover detection sensor 22 is electrically connected with the signal processing module 24, and is configured to detect the state of the swim ring body 1 and send a state signal of the swim ring body 1 to the signal processing module 24. The rollover detection sensor 22 may be at least one of an angle sensor, an attitude sensor, or a pressure sensor. In the present embodiment, the rollover detection sensor 22 is an angle sensor. When the swimming ring rollover judging device is used, the angle sensor sends the angle information of the swimming ring to the signal processing module 24 in real time, and the signal processing module 24 judges whether the swimming ring rolls over or not according to the angle information. For example, when the signal processing module 24 determines that the angle between the swim ring body 1 and the horizontal plane is greater than a preset angle according to the angle information, it is determined that the swim ring is turned over. The preset angle may be 70 °, 75 °, 80 °, or the like, which may be set as needed.

The positioning module 23 is electrically connected to the signal processing module 24, and is configured to provide position information of the infant, where the position information is sent to the intelligent terminal through the wireless communication module 25, so that the motion trajectory of the infant can be viewed on the intelligent terminal. The positioning module 23 may be a GPS positioning module 23, a beidou positioning module 23, or a galileo positioning module 23, etc., and is not limited herein. The signal processing module 24 is electrically connected to the wireless communication module 25, and is configured to analyze and process the vital sign signal, the status signal, and the location information, and send an analysis and processing result to the intelligent terminal through the wireless communication module 25. The signal processing module 24 may include a single chip, an FPGA (Field Programmable gate Array, FPGA for short), and the like, the wireless communication module 25 may be a bluetooth module or a ZigBee module, and the intelligent terminal may be a mobile phone, a tablet computer, a desktop computer, and the like, which is not limited specifically herein.

The utility model discloses a theory of operation does: after putting into the swim ring with the infant of intelligence infant swim ring, pass through intelligent terminal control monitoring devices 2 open, at this moment, vital sign detection sensor 21 gathers infant's vital sign signal and will the vital sign signal send for signal processing module 24, signal processing module 24 basis the vital sign signal acquires infant's breathing, body movement, heart rate data, and will breathing, body movement, heart rate data pass through wireless communication module 25 sends for intelligent terminal, through Application (APP) on the intelligent terminal alright watch breathing, body movement, heart rate data, work as when breathing, body movement, heart rate data exceed first predetermined scope, then intelligent terminal sends unusual alarm signal of health. In addition, the signal processing module 24 can calculate how many calories are consumed by the exercise time and energy of the infant according to the vital sign signal, and send the exercise time and energy consumption to the smart terminal through the wireless communication module 25 to be displayed on the smart terminal.

When the respiration, body movement and heart rate data exceed a second preset range and the side-turning detection sensor 22 detects that the inclination angle of the swim ring body 1 is smaller than a preset angle, the signal processing module 24 judges that the infant slides from the swim ring body 1, sends a signal of the infant sliding from the swim ring body 1 to the intelligent terminal through the wireless communication module 25, and the intelligent terminal sends an infant sliding alarm signal. It is understood that the algorithm for determining the infant slipping down may be selected according to the requirement, and is not specifically limited herein. If the rollover detection sensor 22 detects that the inclination angle of the swim ring body 1 is larger than the preset angle, the intelligent terminal sends out a swim ring rollover alarm signal. When the motion trail of the swim ring exceeds a preset safe region, the intelligent terminal sends out an alarm signal exceeding the safe region, and the effect of the electronic fence is achieved.

Example 2

Referring to fig. 3, the structure of the present embodiment is similar to that of embodiment 1, and the main difference is that: the intelligent infant swim ring of this embodiment further includes an air pressure sensor 26, where the air pressure sensor 26 is electrically connected to the signal processing module 24, and is configured to detect air pressure in the swim ring body 1 and send air pressure information to the signal processing module 24, so that the signal processing module 24 obtains energy consumption information according to signals transmitted by the air pressure sensor 26 and the vital sign detection sensor 21.

That is, the energy consumed by the infant during exercise is calculated according to the signals transmitted by the air pressure sensor 26 and the vital sign detection sensor 21. Because the air pressure in the swim ring body 1 is positively correlated with the weight of the infant, when the swim ring is used, an acting force is generated on the air pressure in the swim ring when a human body presses on the swim ring, and thus the air pressure sensor 26 can always monitor weight data, so that the accuracy can be improved when the energy consumption is calculated by combining air pressure information with vital sign information.

Example 3

Referring to fig. 4, the structure of the present embodiment is similar to that of embodiment 1, and the main difference is that: the intelligent infant swim ring of this embodiment further includes a temperature sensor 27, and the temperature sensor 27 is electrically connected with the signal processing module 24 and is used for detecting the body surface temperature of the infant. The signal processing module 24 sends the body surface temperature of the infant to the intelligent terminal through the wireless communication module 25, and when the body surface temperature of the infant exceeds a preset range, a body supercooling or overheating alarm signal is sent out, so that the infant is prevented from catching a cold or being scalded by high temperature.

Example 4

Referring to fig. 5, the structure of the present embodiment is similar to that of embodiment 3, and the main differences are: the intelligent infant swim ring of the present embodiment further includes a heating element 28, the heating element 28 is electrically connected to the signal processing module 24, and the heating element 28 is installed on the swim ring body 1 for providing heat energy. Wherein, the heating element 28 may be a heating wire or a heating sheet located in the swim ring body 1, and is not limited in this respect. When the temperature sensor 27 detects that the body surface temperature of the infant is lower than a preset temperature threshold, the signal processing module 24 controls the heating element 28 to be turned on, so that heat energy can be provided for the infant, and the infant can be protected well.

To sum up, above-mentioned intelligent infant's water wing has following advantage at least:

first, since the vital signs of the infant are detected by the vital sign detection sensor 21, information such as exercise time, energy consumption, and physical health of the infant can be known by the mobile terminal, and thus the exercise situation of the infant can be adjusted. Secondly, whether the swim ring turns over is detected through the rollover detection sensor 22, and when the swim ring turns over, the intelligent terminal gives an alarm to remind a guardian, so that rescue can be timely carried out. Finally, the vital sign detection sensor 21 and the rollover detection sensor 22 are matched for detection, so that whether the infant slides off the swimming ring or not can be detected, the infant can be rescued in time, and the swimming safety can be improved.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. An intelligent infant swim ring comprises a swim ring body and a monitoring device installed on the swim ring body, and is characterized in that the monitoring device comprises a vital sign detection sensor, a rollover detection sensor, a signal processing module and a wireless communication module, wherein the vital sign detection sensor is electrically connected with the signal processing module and used for detecting vital sign signals of infants and sending the vital sign signals to the signal processing module; the side-turning detection sensor is electrically connected with the signal processing module and is used for detecting the state of the swim ring body and sending a state signal of the swim ring body to the signal processing module; the signal processing module is electrically connected with the wireless communication module and used for analyzing and processing the vital sign signals and the state signals and sending the analysis and processing result to the intelligent terminal through the wireless communication module.

2. The intelligent swim ring of claim 1, wherein the vital sign detection sensor comprises a piezoelectric sensor mounted at an inner circumferential surface of the swim ring body such that skin of an infant can contact the piezoelectric sensor when in use.

3. The intelligent infant swim ring of claim 2, wherein the piezoelectric sensor is a piezoelectric film sensor disposed around an inner circumferential surface of the swim ring body.

4. The intelligent infant swim ring of claim 2 or 3, wherein the number of the piezoelectric sensors is an even number, and the piezoelectric sensors are centrosymmetric with respect to a geometric center of the swim ring body.

5. The intelligent infant swim ring of claim 2 or 3, wherein the vital sign signals sensed by the piezoelectric sensor comprise body movement, respiration, heart rate and blood pressure.

6. The intelligent infant swim ring of any one of claims 1-3, wherein the rollover detection sensor is at least one of an angle sensor, an attitude sensor, or a pressure sensor.

7. The intelligent infant swim ring of any one of claims 1 to 3, further comprising an air pressure sensor, wherein the air pressure sensor is electrically connected to the signal processing module, and is configured to detect air pressure inside the swim ring body and send air pressure information to the signal processing module, so that the signal processing module obtains energy consumption information according to signals transmitted by the air pressure sensor and the vital sign detection sensor.

8. The intelligent infant swim ring of any one of claims 1-3, further comprising a positioning module electrically connected to the signal processing module for providing location information of the infant.

9. The intelligent infant swim ring of any one of claims 1-3, further comprising a temperature sensor electrically connected to the signal processing module for detecting a body surface temperature of the infant.

10. The intelligent infant swim ring of claim 9, further comprising a heating element mounted on the swim ring body for providing thermal energy.

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