CN111110206A

CN111110206A - Intelligent wearable device based on data acquisition

Info

Publication number: CN111110206A
Application number: CN201911377184.2A
Authority: CN
Inventors: 沈美莲
Original assignee: Kunshan Langjietong Iot Information Co Ltd
Current assignee: Kunshan Langjietong Iot Information Co Ltd
Priority date: 2019-12-27
Filing date: 2019-12-27
Publication date: 2020-05-08

Abstract

The invention discloses an intelligent wearing device based on data acquisition, which comprises a wearing main body, wherein a display screen is embedded in the outer surface of the front end of the wearing main body, an upper belt body is arranged at the upper end of the wearing main body, and a lower belt body is arranged at the lower end of the wearing main body; the lower end of the upper belt body is fixedly provided with a belt ring, the inner surface of the belt ring is provided with a through hole, one end of the lower belt body, which is far away from the wearing main body, penetrates through the through hole, the inner surface of the upper belt body is provided with a clamping hole, the outer surface of the lower belt body is fixedly provided with a fixing column, and the fixing column penetrates through the clamping hole; a vibration motor is arranged in the middle of the inside of the wearing main body; the invention has the beneficial effects that: the collected data are better analyzed, and the nearest emergency contact person is timely notified when the body data of the user is abnormal, so that the user is better protected, and meanwhile, the device is more convenient to use.

Description

Intelligent wearable device based on data acquisition

Technical Field

The invention relates to a traffic control system, in particular to an intelligent wearable device based on data acquisition, and belongs to the technical field of traffic control.

Background

A wearable device is a portable device that is worn directly on the body or integrated into the clothing or accessories of the user. Wearable equipment is not only a hardware equipment, realizes powerful function through software support and data interaction, high in the clouds interaction more, and wearable equipment will bring very big transition to our life, perception.

The Chinese patent with publication number CN106805949A discloses an intelligent wearing bracelet system for real-time detection of the body of an old person, which comprises a bracelet body, wherein a lithium battery is arranged inside the bracelet. The physical sign detection module is arranged to detect the physical condition of the old people at any time, the data collection module and the data comparison module are arranged to detect the physical condition of the old people at any time, when the physical condition is in a problem, the buzzer can give an alarm and remind the user, meanwhile, the secondary comparison module and the second processor are arranged to accurately detect the detected data, the detection result is sent to the mobile phone of the parent through the wireless data sending module and the wireless data receiving module, the position positioned by the GPS system is displayed to the parent through the display screen, the effect of accurate detection is achieved, and the problems that the detected data of the bracelet body is often wrong, the parent is free of worry, the user is very busy, and manpower and material resources are greatly wasted are solved; the informing personnel are not accurate enough, and the situation that the informing personnel are too far away and cannot arrive in time occurs.

Device is dressed to current intelligence, the watchband is mostly fixed knot constructs to dismantle not convenient enough to it is not ventilative comfortable enough, simultaneously can't be according to when user's health is unusual, nearest urgent contact is reported to timely notice, the situation that the user took place unexpected urgent contact and can't arrive in time takes place, the use of dressing the device for intelligence brings certain influence.

Disclosure of Invention

The invention aims to solve the problems that in the existing intelligent wearing device, most watchbands are inconvenient to disassemble due to the fact that a fixed structure is not convenient enough, and the watchbands are not breathable and comfortable enough, and meanwhile, a user cannot timely inform a nearest emergency contact person according to the abnormal body of the user, and the situation that the user cannot timely arrive at an emergency contact person accidentally occurs, so that certain influence is brought to the use of the intelligent wearing device, and the intelligent wearing device based on data acquisition is provided.

The purpose of the invention can be realized by the following technical scheme: an intelligent wearing device based on data acquisition comprises a wearing main body, wherein a display screen is embedded on the outer surface of the front end of the wearing main body, an upper belt body is arranged at the upper end of the wearing main body, and a lower belt body is arranged at the lower end of the wearing main body;

the lower end of the upper belt body is fixedly provided with a belt ring, the inner surface of the belt ring is provided with a through hole, one end of the lower belt body, which is far away from the wearing main body, penetrates through the through hole, the inner surface of the upper belt body is provided with a clamping hole, the outer surface of the lower belt body is fixedly provided with a fixing column, and the fixing column penetrates through the clamping hole;

a vibration motor is arranged at the middle position in the wearing main body, a battery is fixedly installed at a position close to one side in the wearing main body, and a master control mechanism is fixedly installed at a position close to the other side in the wearing main body;

a first preset groove and a second preset groove are formed in the outer surface of the rear end of the wearing main body, the first preset groove is arranged above the second preset groove, a body temperature sensor is arranged inside the first preset groove, and a pulse sensor is arranged inside the second preset groove;

the outer surface of the upper end and the outer surface of the lower end of the wearable main body are both provided with connecting grooves, the inner surfaces of the connecting grooves are provided with connecting holes, connecting columns penetrate through the connecting holes, the connecting columns further penetrate through the upper belt body and the lower belt body, one ends of the connecting columns are welded with anti-falling blocks, and the other ends of the connecting columns are sleeved with fixing sleeves;

the master control mechanism comprises a positioning module, an information prestoring module, a data receiving module, a data processing module, a master control module and an information sending module;

the data receiving module is used for receiving the user position information, the real-time user body temperature information acquired by the body temperature sensor and the real-time user pulse information acquired by the pulse sensor, and sending the real-time user body temperature information and the real-time user pulse information to the data processing module;

the data processing module processes real-time user body temperature information and real-time user pulse information, processes the body temperature information into body temperature alarm information, processes the pulse information into pulse alarm information, the data processing module sends the processed body temperature alarm information and the processed pulse alarm information to the master control module, the master control module is used for processing the body temperature alarm information and the pulse alarm information into body temperature alarm instructions and pulse alarm instructions, and the information sending module is used for sending the body temperature alarm instructions and the pulse alarm instructions to a mobile terminal of an emergency contact person closest to the user position.

Further, the method comprises the following steps: the outer surfaces of the lower ends of the upper belt body and the lower belt body are respectively provided with a magic tape, the lower end of the magic tape is provided with a breathable layer, and the lower end of the breathable layer is provided with a sweat absorbing layer.

Further, the method comprises the following steps: the quantity of calorie hole is five at least, and the card hole be the equidistance setting.

Further, the method comprises the following steps: the upper band body all is connected with the wearing main part through the spread groove with the lower area body.

Further, the method comprises the following steps: the specific processing process of the body temperature alarm information comprises the following steps:

the method comprises the following steps: the body temperature sensor continuously collects real-time user body temperature information for preset times in a preset time period;

step two: marking the user body temperature information acquired in real time as Pti, i =1 … … n, and setting a preset high-temperature threshold Qt1 and a preset low-temperature threshold Qt 2;

step three: by the formula (Pt 1-Qt 1) + (Pt 2-Qt 1) … … (Pti-Qt 1) = Pq1_{General assembly}Obtaining the sum Pq1 of the high-temperature difference_{General assembly}；

Step four: then the formula Pq1_{General assembly}/n=Pq1_{Are all made of}Obtaining the high-temperature difference mean value Pq1_{Are all made of}When Pq1_{Are all made of}Generating body temperature alarm information when the temperature is greater than a preset value;

step five: by the formula (Pt 1-Qt 2) + (Pt 2-Qt 2) … … (Pti-Qt 2) = Pq2_{General assembly}Obtaining the sum Pq2 of the high-temperature difference_{General assembly}；

Step six: then the formula Pq2_{General assembly}/n=Pq2_{Are all made of}To obtainMean value of temperature difference Pq2 at low temperature_{Are all made of}When Pq2_{Are all made of}And generating body temperature alarm information when the temperature is greater than the preset value.

Further, the method comprises the following steps: the specific processing process of the pulse alarm information is as follows: the pulse sensor collects real-time user pulse information once every preset time within preset time, the real-time user pulse information is marked as Ki, i =1 … … n, and the pulse information is marked through a formula (K1 + K2+ K3 … … + Ki)/n = K_{Are all made of}Calculating the pulse mean value K of the user within a preset time_{Are all made of}When K is_{Are all made of}When the pulse alarm information is larger than the preset value, the pulse alarm information is generated.

Further, the method comprises the following steps: the information sending module receives the body temperature alarm instruction and the pulse alarm instruction and then selects to inform the emergency contact person to process, and the specific selection process is as follows:

the method comprises the following steps: marking the user position information as a point A, and respectively marking the position information of the emergency contact user as a point B, a point C and a point D;

step two: marking the route from the point B to the point A as Ba, marking the route from the point C to the point A with your as Ca, and marking the route from the point D to the point A as Da;

step three: obtaining routes from a point B, a point C and a point D to a point A from the Internet, and obtaining the time length of each route, namely the time length for the Ba route, the time length for the Ca route and the time length for the Da route;

step four: acquiring the quantity information of traffic lights in the Ba route, the Ca route and the Da route from the Internet;

step five: sequencing the Ba route, the Ca route and the Da route from small to large according to the time duration, extracting the shortest route in use, marking the shortest route as a route M, extracting the number of traffic lights between the route M and the route M-1, and extracting the contact corresponding to the route M-1 as an emergency contact when the difference value between the route M and the route M-1 is less than a preset value and the number of the traffic lights of the route M-1 is less than the number of the traffic lights of the route M;

step six: and when the difference value between the M and the M-1 is larger than a preset value, directly extracting the contact corresponding to the route M as an emergency contact.

Further, the method comprises the following steps: the body temperature alarm instruction is sent to the vibrations motor simultaneously after generating, the vibrations motor receives body temperature alarm instruction after and in the continuous vibrations of preset time in the time of predetermineeing the number of times, the vibrations motor is sent simultaneously after the pulse alarm instruction generates, the vibrations motor receives after the pulse alarm instruction vibrations once every preset duration in the time of predetermineeing.

Compared with the prior art, the invention has the beneficial effects that:

1. when a user needs to disassemble the upper belt body and the lower belt body, the user only needs to unscrew the fixing sleeve on the connecting column (), the anti-falling block is held by the user to pull the connecting column out of the connecting hole, and then the user can take the upper belt body and the lower belt body out of the connecting groove;

2. the invention is provided with a body temperature sensor and a pulse sensor, the body temperature sensor and the pulse sensor 13 can monitor the body temperature information and the pulse information of a user in real time, the body temperature sensor continuously collects the real-time body temperature information of the user for a preset number of times within a preset time period, the user body temperature information collected in real time is marked as Pti, a preset high temperature threshold Qt1 and a preset low temperature threshold Qt2 are set, and the formula (Pt 1-Qt 1) + (Pt 2-Qt 1) … … (Pti-Qt 1) = Pq1_{General assembly}Obtaining the sum Pq1 of the high-temperature difference_{General assembly}Then by the formula Pq1_{General assembly}/n=Pq1_{Are all made of}Obtaining the high-temperature difference mean value Pq1_{Are all made of}When Pq1_{Are all made of}When the temperature is larger than the preset value, the body temperature alarm information is generated, and the formula (Pt 1-Qt 2) + (Pt 2-Qt 2) … … (Pti-Qt 2) = Pq2_{General assembly}Obtaining the sum Pq2 of the high-temperature difference_{General assembly}By the formula Pq2_{General assembly}/n=Pq2_{Are all made of}To obtain a low temperatureMean difference value Pq2_{Are all made of}When Pq2_{Are all made of}When the pulse rate is larger than the preset value, body temperature alarm information is generated, the pulse sensor (13) collects real-time user pulse information once every preset time length in preset time, the real-time user pulse information is marked as Ki, i =1 … … n, and the real-time user pulse information is marked through a formula (K1 + K2+ K3 … … + Ki)/n = K)_{Are all made of}Calculating the pulse mean value K of the user within a preset time_{Are all made of}When K is_{Are all made of}When the body temperature alarm instruction is larger than the preset value, pulse alarm information is generated, the body temperature alarm information and the pulse alarm information are both sent to the vibration motor, the vibration motor continuously vibrates for preset times within preset time after receiving the body temperature alarm instruction, and the vibration motor vibrates once every preset time within the preset time after receiving the pulse alarm instruction, so that the wearable device can remind a user in time when body data of the user is abnormal, and the wearable device has a better warning effect;

3. meanwhile, when the body temperature information and the pulse information of the user are abnormal, the device also marks the position information of the user as a point A directly through an emergency contact person preset by the user, marks the position information of the emergency contact user as a point B, a point C and a point D respectively, marks a route from the point B to the point A as Ba, marks a route from the point C to the point A as Ca, marks a route from the point D to the point A as Da, acquires routes from the point B, the point C and the point D to the point A from the Internet, acquires the duration of each route, namely the duration of the Ba route, the duration of the Ca route and the duration of the Ba route, acquires the quantity information of traffic lights in the Ba route, the Ca route and the Da route from the Internet, sorts the Ba route, the Ca route and the Da route from small to large according to the duration of the time, extracts the route with the shortest time and marks the route as a route M, the number of the traffic lights between the route M and the route M-1 is extracted, when the difference value between the route M and the route M-1 is smaller than a preset value and the number of the traffic lights of the route M-1 is smaller than the number of the traffic lights of the route M, the contact person corresponding to the route M-1 is extracted as an emergency contact person, when the difference value between the route M and the route M-1 is larger than the preset value, the contact person corresponding to the route M is directly extracted as the emergency contact person, and the setting can timely inform the contact person nearest to the user when the body of the user is abnormal, so that the personal safety of the user is further guaranteed.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is an overall block diagram of the present invention;

FIG. 2 is a connecting structure of the upper belt body and the lower belt body according to the present invention;

FIG. 3 is an interior view of the wearing body of the present invention;

FIG. 4 is an overall view of the upper and lower belts of the present invention;

fig. 5 is a block diagram of the overall control mechanism of the present invention.

In the figure: 1. a wearing body; 2. a display screen; 3. an upper belt body; 4. a lower belt body; 5. a belt ring; 6. perforating; 7. a clamping hole; 8. fixing a column; 9. a master control mechanism; 10. a first preset groove; 11. a body temperature sensor; 12. a second pre-set groove; 13. a pulse sensor; 14. connecting grooves; 15. connecting holes; 16. connecting columns; 17. an anti-drop block; 18. fixing a sleeve; 19. magic tape; 20. a breathable layer; 22. a sweat absorbing layer; 23. a vibration motor; 24. a battery.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, an intelligent wearable device based on data acquisition includes a wearable main body 1, a display screen 2 is embedded on the outer surface of the front end of the wearable main body 1, the display screen 2 is used for displaying the body temperature and pulse of a user, an upper belt body 3 is arranged at the upper end of the wearable main body 1, and a lower belt body 4 is arranged at the lower end of the wearable main body 1;

a belt ring 5 is fixedly mounted at the lower end of the upper belt body 3, a through hole 6 is formed in the inner surface of the belt ring 5, one end, far away from the wearing main body 1, of the lower belt body 4 penetrates through the through hole 6, a clamping hole 7 is formed in the inner surface of the upper belt body 3, a fixing column 8 is fixedly mounted on the outer surface of the lower belt body 4, the fixing column 8 penetrates through the clamping hole 7, and the fixing column 8 penetrates through the clamping hole 7 to fix the lower belt;

a vibration motor 23 is arranged at the middle position in the wearing main body 1, a battery 24 is fixedly arranged at the position close to one side in the wearing main body 1, the battery 24 supplies power for the whole device, and a master control mechanism 9 is fixedly arranged at the position close to the other side in the wearing main body 1;

a first preset groove 10 and a second preset groove 12 are formed in the outer surface of the rear end of the wearing main body 1, the first preset groove 10 is arranged above the second preset groove 12, a body temperature sensor 11 is arranged inside the first preset groove 10, and a pulse sensor 13 is arranged inside the second preset groove 12;

the outer surface of the upper end and the outer surface of the lower end of the wearing main body 1 are both provided with connecting grooves 14, the inner surface of each connecting groove 14 is provided with a connecting hole 15, a connecting column 16 penetrates through the connecting hole 15, the connecting column 16 also penetrates through the upper belt body 3 and the lower belt body 4, one end of the connecting column 16 is welded with an anti-falling block 17, and the other end of the connecting column 16 is sleeved with a fixing sleeve 18;

the master control mechanism 9 comprises a positioning module, an information prestoring module, a data receiving module, a data processing module, a master control module and an information sending module;

the data receiving module is used for receiving the user position information, the real-time user body temperature information acquired by the body temperature sensor 11 and the real-time user pulse information acquired by the pulse sensor 13 and sending the real-time user body temperature information and the real-time user pulse information to the data processing module;

the data processing module processes real-time user body temperature information and real-time user pulse information, the body temperature information is processed into body temperature alarm information, the pulse information is processed into pulse alarm information, the data processing module sends the processed body temperature alarm information and the processed pulse alarm information to the master control module, the master control module is used for processing the body temperature alarm information and the pulse alarm information into body temperature alarm instructions and pulse alarm instructions, and the information sending module is used for sending the body temperature alarm instructions and the pulse alarm instructions to a mobile terminal of an emergency contact person closest to the position of a user.

The lower extreme surface of the upper band body 3 and the lower band body 4 all is provided with magic subsides 19, and the lower extreme of magic subsides 19 is provided with ventilative layer 20, and the lower extreme on ventilative layer 20 is provided with sweat-absorbing layer 22.

The number of the clamping holes 7 is at least five, and the clamping holes 7 are arranged at equal intervals.

The upper belt body 3 and the lower belt body 4 are connected with the wearing body 1 through the connecting groove 14.

The specific processing procedure of the body temperature alarm information is as follows:

the method comprises the following steps: the body temperature sensor 11 continuously collects real-time user body temperature information for preset times in a preset time period;

Step six: then the formula Pq2_{General assembly}/n=Pq2_{Are all made of}Obtaining the low-temperature difference mean value Pq2_{Are all made of}When Pq2_{Are all made of}And generating body temperature alarm information when the temperature is greater than the preset value.

The specific processing procedure of the pulse alarm information is as follows: the pulse sensor 13 collects the pulse information of the real-time user once every preset time within a preset time, marks the pulse information of the real-time user as Ki, i =1 … … n, and passes through a formula (K1 + K2+ K3 … … + Ki)/n = K_{Are all made of}Calculating the pulse mean value K of the user within a preset time_{Are all made of}When K is_{Are all made of}Is greater thanThe pulse alarm information is generated when the preset value is reached.

The information sending module receives the body temperature alarm instruction and the pulse alarm instruction and then carries out selection and notification of emergency contact persons for processing, and the specific selection process is as follows:

The body temperature alarm instruction is generated and then sent to the vibration motor 23, the vibration motor 23 receives the body temperature alarm instruction and then continuously vibrates for a preset number of times within a preset time, the pulse alarm instruction is generated and then sent to the vibration motor 23, and the vibration motor 23 vibrates once every preset time after receiving the pulse alarm instruction within the preset time.

When the invention is used, a user puts the device on the arm, penetrates one end of the lower belt body 4 far away from the wearing main body 1 through the through hole 6 on the belt ring 5 on the upper belt body 3, and clamps the fixing column 8 on the lower belt body 4 on the clamp on the upper belt body 3 after the tightness is adjustedThe wearing device is well worn in the hole 7, when a user needs to detach the upper belt body 3 and the lower belt body 4, the user only needs to unscrew the fixing sleeve 18 on the connecting column 16, hold the anti-falling block 17 to pull the connecting column 16 out of the connecting hole 15, and then a braver can take the upper belt body 3 and the lower belt body 4 out of the connecting groove 14, the wearing device can be conveniently detached and cleaned by the user due to the arrangement of the upper belt body 3 and the lower belt body 4, meanwhile, the breathable layer 20 and the sweat absorbing layer 22 are arranged on the upper belt body 3 and the lower belt body 4 through the magic tapes 19, the arrangement of the breathable layer 20 and the sweat absorbing layer 22 can make the user feel more comfortable when wearing the wearing device, the comfort level of the wearing device is improved, meanwhile, the user can conveniently detach the breathable layer 20 and the sweat absorbing layer 22 for cleaning and replacing through the arrangement of the magic tapes 19, the wearing device is more comfortable when being worn, the user can clean the temperature sensor 11 and the pulse sensor 13 conveniently, the temperature sensor 11 and the pulse sensor 13 can monitor the body temperature information and the pulse information of the user in real time, the body temperature sensor 11 continuously collects the real-time body temperature information of the user for a preset number of times within a preset time period, the user body temperature information collected in real time is marked as Pti, a preset high-temperature threshold Qt1 and a preset low-temperature threshold Qt2 are set, and the formula (Pt 1-Qt 1) + (Pt 2-Qt 1) … … (Pti-Qt 1) = Pq1_{General assembly}Obtaining the sum Pq1 of the high-temperature difference_{General assembly}Then by the formula Pq1_{General assembly}/n=Pq1_{Are all made of}Obtaining the high-temperature difference mean value Pq1_{Are all made of}When Pq1_{Are all made of}When the temperature is larger than the preset value, the body temperature alarm information is generated, and the formula (Pt 1-Qt 2) + (Pt 2-Qt 2) … … (Pti-Qt 2) = Pq2_{General assembly}Obtaining the sum Pq2 of the high-temperature difference_{General assembly}By the formula Pq2_{General assembly}/n=Pq2_{Are all made of}Obtaining the low-temperature difference mean value Pq2_{Are all made of}When Pq2_{Are all made of}When the pulse rate is larger than the preset value, body temperature alarm information is generated, the pulse sensor (13) collects real-time user pulse information once every preset time length in preset time, the real-time user pulse information is marked as Ki, i =1 … … n, and the real-time user pulse information is marked through a formula (K1 + K2+ K3 … … + Ki)/n = K)_{Are all made of}Calculating the pulse mean value K of the user within a preset time_{Are all made of}When K is_{Are all made of}Greater than predeterminedWhen the temperature information and the pulse information of the user are abnormal, the device marks the position information of the user as a point A directly through an emergency contact preset by the user, marks the position information of the emergency contact user as a point B, a point C and a point D, marks a route from the point B to the point A as Ba, marks a route from the point C to the point A as Ca, and marks a route from the point D to the point A as Da, obtaining routes from a point B, a point C and a point D to a point A from the Internet, obtaining the time length of each route, namely the time length for Ba routes, the time length for Ca routes and the time length for Da routes, obtaining the quantity information of traffic lights in the Ba routes, the Ca routes and the Da routes from the Internet, sorting the Ba routes, the Ca routes and the Da routes from small to large according to the time lengths, extracting the shortest route for use, marking the shortest route as a route M, extracting the quantity of the traffic lights between the route M and the route M-1, extracting a contact corresponding to the route M-1 as an emergency contact when the difference value between M and M-1 is smaller than a preset value and the quantity of the traffic lights of the route M-1 is smaller than the quantity of the traffic lights of the route M, directly extracting the contact corresponding to the route M as the emergency contact when the difference value between M and M-1 is larger than the preset value, wherein the setting can be used when the body of a user is abnormal, the nearest contact person is notified in time, and personal safety of the user is further guaranteed.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. An intelligent wearing device based on data acquisition comprises a wearing main body (1) and is characterized in that a display screen (2) is embedded in the outer surface of the front end of the wearing main body (1), an upper belt body (3) is arranged at the upper end of the wearing main body (1), and a lower belt body (4) is arranged at the lower end of the wearing main body (1);

a belt ring (5) is fixedly mounted at the lower end of the upper belt body (3), a through hole (6) is formed in the inner surface of the belt ring (5), one end, far away from the wearing main body (1), of the lower belt body (4) penetrates through the through hole (6), a clamping hole (7) is formed in the inner surface of the upper belt body (3), a fixing column (8) is fixedly mounted on the outer surface of the lower belt body (4), and the fixing column (8) penetrates through the clamping hole (7);

a vibration motor (23) is arranged in the middle of the inside of the wearing main body (1), a battery (24) is fixedly mounted in the position, close to one side, of the inside of the wearing main body (1), and a master control mechanism (9) is fixedly mounted in the position, close to the other side, of the inside of the wearing main body (1);

a first preset groove (10) and a second preset groove (12) are formed in the outer surface of the rear end of the wearing main body (1), the first preset groove (10) is arranged above the second preset groove (12), a body temperature sensor (11) is arranged inside the first preset groove (10), and a pulse sensor (13) is arranged inside the second preset groove (12);

the outer surface of the upper end and the outer surface of the lower end of the wearable main body (1) are both provided with connecting grooves (14), the inner surface of each connecting groove (14) is provided with a connecting hole (15), a connecting column (16) penetrates through the inside of each connecting hole (15), the connecting column (16) also penetrates through the upper belt body (3) and the lower belt body (4), one end of each connecting column (16) is welded with an anti-falling block (17), and the other end of each connecting column (16) is sleeved with a fixing sleeve (18);

the master control mechanism (9) comprises a positioning module, an information prestoring module, a data receiving module, a data processing module, a master control module and an information sending module;

the system comprises a positioning module, an information pre-storage module, a data receiving module and a data processing module, wherein the positioning module is used for acquiring real-time user position information, the information pre-storage module is used for pre-storing contact ways of at least three emergency contact users and position information of the emergency contact users, and the data receiving module is used for receiving the user position information, the real-time user body temperature information acquired by a body temperature sensor (11) and the real-time user pulse information acquired by a pulse sensor (13) and sending the real-time user body temperature information and the real-time user pulse;

2. The intelligent wearable device based on data acquisition of claim 1, wherein magic tapes (19) are arranged on the outer surfaces of the lower ends of the upper belt body (3) and the lower belt body (4), a breathable layer (20) is arranged on the lower end of each magic tape (19), and a sweat absorbing layer (22) is arranged on the lower end of each breathable layer (20).

3. The intelligent wearable device based on data acquisition of claim 1, wherein the number of the card holes (7) is at least five, and the card holes (7) are equidistantly arranged.

4. The intelligent wearable device based on data acquisition of claim 1, wherein the upper belt body (3) and the lower belt body (4) are connected with the wearable main body (1) through connecting grooves (14).

5. The intelligent wearable device based on data acquisition of claim 1, wherein the specific processing procedure of the body temperature alarm information is as follows:

the method comprises the following steps: the body temperature sensor (11) continuously collects real-time user body temperature information for preset times in a preset time period;

6. The intelligent wearable device based on data acquisition as claimed in claim 1, wherein the specific processing procedure of the pulse alarm information is as follows: the pulse sensor (13) collects real-time user pulse information once every preset time length in preset time, marks the real-time user pulse information as Ki, i =1 … … n, and passes through a formula (K1 + K2+ K3 … … + Ki)/n = K_{Are all made of}Calculating the pulse mean value K of the user within a preset time_{Are all made of}When K is_{Are all made of}When the pulse alarm information is larger than the preset value, the pulse alarm information is generated.

7. The intelligent wearable device based on data acquisition of claim 1, wherein the information sending module receives the body temperature alarm instruction and the pulse alarm instruction and then performs a process of selecting and informing an emergency contact person, wherein the specific selection process is as follows:

8. The intelligent wearable device based on data acquisition of claim 1, wherein the body temperature alarm command is generated and then sent to the vibration motor (23), the vibration motor (23) receives the body temperature alarm command and then continuously vibrates for a preset number of times within a preset time to remind the user, the pulse alarm command is generated and then sent to the vibration motor (23), and the vibration motor (23) vibrates once every preset time within a preset time after receiving the pulse alarm command.