CN110801213A - Direct-reading group operation intensity monitoring system and monitoring method - Google Patents

Abstract

The invention discloses a direct-reading group operation intensity monitoring system which comprises a plurality of first network connection devices, wherein each first network connection device is in communication connection with a plurality of heart rate monitoring devices; the server is in communication connection with the first network connection devices and is used for analyzing and storing the heart rate data which is transmitted by the heart rate monitoring devices through the corresponding first network connection devices and is related to the worker; the invention relates to a data reading device which is in communication connection with a server through a second network connection device and is used for reading, analyzing and storing heart rate data which are stored in the server and are related to each operator.

Description

Direct-reading group operation intensity monitoring system and monitoring method

Technical Field

The invention relates to the technical field of human body state data monitoring, in particular to a direct-reading group operation intensity monitoring system and a monitoring method.

Background

In the exercise training and the labor operation, the pulse or the heart rate is monitored, so that the operation intensity of an operator can be evaluated in time, the operation time limit under the operation intensity is determined, and the operator is prevented from being fatigued or damaged.

Currently, monitoring the heart rate of an operator mainly adopts monitoring equipment suitable for being worn by an individual, such as a heart rate meter, a heart rate chest strap, a heart rate chest patch, a wrist type heart rate meter and the like. However, in practical applications, the conventional heart rate monitoring devices have the following disadvantages that, for example, the wearing process of the heart rate monitor is complex and inconvenient to operate, the heart rate monitor is worn in front of the chest of an operator and affects the operation of the operator, and the heart rate monitor is easy to fall off under the condition of sweating, and data monitored by the conventional heart rate monitoring devices usually needs to be connected with an external network and then downloaded through a mobile phone or a computer, so that the whole data reading process is complicated, data leakage is easy to occur, and the use requirements of some units with higher requirements on data safety cannot be met.

In addition, a conventional heart rate monitoring device can only monitor heart rate data of one operator, and if a unit needs to monitor heart rates of tens or even hundreds of operators, a single heart rate monitoring device obviously cannot meet the monitoring requirement.

Disclosure of Invention

In view of the above technical problems, the present invention provides a direct-reading group work intensity monitoring system, which can simultaneously monitor heart rates of a plurality of operators, and can directly read heart rate data of heart rate monitoring equipment worn on the operators without connecting an external network, thereby ensuring the safety of data reading.

The technical proposal adopted by the invention for solving the technical problem is to provide a direct-reading group operation intensity monitoring system, which comprises a data acquisition system and a data reading system which is in communication connection with the data acquisition system,

the data acquisition system comprises a plurality of heart rate monitoring devices, each heart rate monitoring device can be worn on a specified part of the body of an operator and is used for acquiring heart rate data of the operator;

the data reading system includes:

a plurality of first network connection devices, each of the first network connection devices being communicatively connected to a number of the heart rate monitoring devices;

the server is in communication connection with each first network connection device and is used for analyzing and storing the heart rate data which is transmitted by each heart rate monitoring device through the corresponding first network connection device and is related to the worker;

and the data reading equipment is in communication connection with the server through second network connection equipment and is used for reading, analyzing and storing the heart rate data which is stored in the server and is related to each worker.

As a preferable scheme of the present invention, the heart rate monitoring device is a happy bracelet.

As a preferable scheme of the present invention, the first network connection device is a bluetooth base station.

As a preferred scheme of the present invention, the bluetooth base station is a happy data base station with model number LS-901.

As a preferable scheme of the invention, the specific model of the server is a raspberry pi 3 generation B type.

As a preferred scheme of the present invention, the data reading device is an intelligent terminal, and the intelligent terminal includes a computer, a mobile phone, and a tablet computer.

The invention also provides a direct-reading group operation intensity monitoring method which is realized by applying the direct-reading group operation intensity monitoring system and comprises the following steps:

step S1, the heart rate monitoring equipment worn on the worker collects and stores the heart rate data of the worker in real time;

step S2, when the operator approaches the first network connection device and the approach distance is less than or equal to a preset distance, the heart rate monitoring device worn on the operator automatically establishes communication connection with the first network connection device, and transmits the stored heart rate data to the server through the first network connection device;

step S3, the data reading device reads the heart rate data associated with each worker stored in the server according to a data reading instruction of a user, and analyzes the read heart rate data to obtain the current work intensity of the corresponding worker.

As a preferable aspect of the present invention, the direct-reading group operation intensity monitoring method further includes:

and step S4, the data reading device gives a suggested work time limit related to the worker under the current work intensity according to the current work intensity related to the wearer and a preset work time limit suggestion.

As a preferable mode of the present invention, the preset distance in the step S2 is 10 m.

As a preferable solution of the present invention, the first network connection device in step S2 is a bluetooth base station.

The direct-reading group operation intensity monitoring system provided by the invention can be used for monitoring the heart rate of tens of operators and even hundreds of operators in real time, the monitoring system does not need to be connected with an external network, a local area network can be built by the system, the direct reading and data analysis of the heart rate data of all operators can be realized under the local area network architecture, the data reading safety is ensured, and the direct-reading group operation intensity monitoring system is very suitable for the field monitoring and analysis of the group operation condition with the data safety requirement.

Drawings

FIG. 1 is a schematic structural diagram of a direct-reading group operation intensity monitoring system according to an embodiment of the present invention;

FIG. 2 is a diagram of the steps of a method for monitoring the operation intensity of an operator by using a direct-reading group operation intensity monitoring system provided by an embodiment of the invention;

FIG. 3 is a schematic diagram of a heart rate database stored in a server;

FIG. 4 is a schematic diagram of a sleep database stored in a server;

FIG. 5 is a first schematic diagram of a step number database stored in a server;

fig. 6 is a schematic diagram two of the step number database stored in the server.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious 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.

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

The invention is further described with reference to the following drawings and specific examples, which are not intended to be limiting.

Referring to fig. 1, a direct-reading group work intensity monitoring system according to an embodiment of the present invention includes a data acquisition system and a data reading system in communication with the data acquisition system,

the data acquisition system comprises a plurality of heart rate monitoring devices 1, wherein each heart rate monitoring device 1 can be worn on a specified part of the body of an operator and is used for acquiring heart rate data of the operator;

the data reading system includes:

the heart rate monitoring system comprises a plurality of first network connection devices 2, wherein each first network connection device 2 is in communication connection with a plurality of heart rate monitoring devices 1;

the server 3 is in communication connection with each first network connection device 2 and is used for analyzing and storing the heart rate data which is transmitted by each heart rate monitoring device 1 through the corresponding first network connection device 2 and is related to the operator;

and the data reading device 5 is in communication connection with the server 3 through a second network connection device 4 and is used for reading, analyzing and storing the heart rate data which is stored in the server 3 and is related to each worker.

In this embodiment, the heart rate monitoring device 1 is preferably a bracelet with a heart rate monitoring function. In order to realize direct reading of the heart rate data stored in the bracelet by the data reading device 5, it is more preferable that the bracelet is a happy smart bracelet (hereinafter, referred to as "happy bracelet") produced by cantonese medical electronics gmbh.

The first network connection device 2 is preferably a bluetooth base station. In order to realize the use of the happy hearts smart bracelet in cooperation with the bluetooth base station to further realize the direct reading of the heart rate data, in this embodiment, more preferably, the bluetooth base station selects the happy hearts data base station with the model LS-901 for use. This happy heart data base station possesses bluetooth signal transceiver function, can realize bluetooth data connection with the happy heart bracelet that possesses bluetooth signal transceiver function equally.

In the above technical solution, the server 3 is preferably a server existing in the prior art, for example, a raspberry pi 3 generation B type server or other type servers may be selected.

The data reading device 5 is an intelligent terminal in the prior art, and the intelligent terminal includes a computer, a mobile phone and a tablet computer. In this embodiment, the intelligent terminal is preferably a computer.

In the above technical solution, the second network connection device 4 is preferably a router existing in the prior art.

The invention also provides a direct-reading group operation intensity monitoring method, which is realized by applying the direct-reading group operation intensity monitoring system provided by the embodiment, and with reference to fig. 2 and fig. 1, the method specifically comprises the following steps:

step S1, the heart rate monitoring equipment 1 worn on the operator collects and stores the heart rate data of the operator in real time;

step S2, when the operator approaches the first network connection device 2 and the approach distance is less than or equal to a preset distance, the heart rate monitoring device 1 worn on the operator automatically establishes a communication connection with the first network connection device 2, and transmits the stored heart rate data to the server 3 through the first network connection device 2;

in step S3, the data reading device 5 reads the heart rate data associated with each worker stored in the server 3 according to the data reading instruction of the user, and analyzes the current work intensity of the corresponding worker according to the read heart rate data.

In order to provide a working time limit suggestion for an operator according to the current working strength of the operator at a first time to ensure that the operator does not generate fatigue, thereby reducing the risk of working accidents caused by working fatigue, the direct-reading group working strength monitoring method further preferably comprises the following steps:

in step S4, the data reading device 5 gives a recommended work time limit associated with the operator at the current work intensity according to the analyzed current work intensity associated with the operator and according to a preset work time limit recommendation.

The manager can strictly control the working time of the operator according to the recommended working time limit related to the operator analyzed by the data reading device 5, so as to reduce the probability of occurrence of working accidents.

In the above technical solution, the heart rate monitoring device 1 in step S1 is preferably a happy bracelet with a bluetooth signal transceiving function.

The first network connection device 2 in step S2 is preferably a bluetooth base station, and more preferably, the bluetooth base station is a music center data base station with model number LS-901, and the music center data base station also has a bluetooth signal transceiving function and can transmit the heart rate data stored in the music center bracelet to the server.

The server 3 is preferably a server with a type of raspberry pi 3 generation B, the raspberry pi 3 generation B also has a bluetooth signal transceiving function, and data exchange with a bluetooth base station can be realized through bluetooth signals.

The data reading device 5 in step S3 is an intelligent terminal, and the intelligent terminal includes a computer, a mobile phone, and a tablet computer.

In the above technical solution, the data reading device 5 and the server 3 preferably establish a communication connection through a router.

In the above technical solution, the preset distance in step S2 is preferably 10 m. That is, when the distance between the operator and the bluetooth base station is less than or equal to 10m, the heart rate data stored in the joy ring is automatically transmitted to the server through the bluetooth base station for data storage. This data storage mode has removed the trouble that needs connect the computer in order to obtain the rhythm of the heart data of hand ring storage through the USB data line in the past from, also need not to pass through internet connection computer or cell-phone with the bracelet, has improved data transmission's security and privacy.

Of course, the preset distance may be set reasonably according to actual needs, for example, the preset distance may be set to 20m, and the developer may change the preset distance by changing a preset program in the bracelet or in the bluetooth base station.

The whole monitoring process of the direct-reading group operation intensity monitoring system is detailed as follows:

first, pre-developed data reading software is installed in a data reading device, such as a computer;

then, the user starts the router, the server and each Bluetooth base station, and a closed loop local area network is established among the computer, the router, the server and each Bluetooth base station. When the operator is close to the bluetooth basic station to when being close to the distance and reaching a preset distance, wear the bracelet of on the operator will establish communication connection with the bluetooth basic station automatically, and after being connected to the bluetooth basic station successfully, will save the rhythm of the heart data on the bracelet and pass through the bluetooth basic station and automatically convey to the server and save.

When the manager needs to check the heart rate data of each worker, the installed data reading software sends a data reading instruction to the server, and the computer automatically acquires the heart rate data stored in the server according to the data reading instruction input by the user.

Finally, the administrator can read the software or third-party software through the data, analyze the work intensity of the operator based on the read heart rate data, and give corresponding work suggestions.

The server is provided with a plurality of databases, such as a heart rate database for storing heart rate data of the worker, a sleep database for storing sleep data of the worker, and a step number database for storing walking data of the worker. That is, the bracelet can be used to monitor not only the heart rate data of the operator, but also at least the sleep data and the walk data of the operator.

A heart rate database for storing heart rate data, shown in fig. 3;

fig. 4 is a diagram of a sleep database for storing sleep data, shown on a computer;

a step database for storing walking data displayed on a computer is shown in fig. 5 and 6.

In addition, the invention evaluates the operation intensity by monitoring the heart rate data of operators in the operation according to the national military standard GJB1336-1992 military physical labor intensity Classification. Namely:

the heart rate of the work is less than 89 times/minute, and the work intensity is evaluated to be mild;

the operation heart rate is 90-116 times/min, and the operation intensity is evaluated to be 'moderate';

the operation heart rate is 117-142 times/minute, and the operation intensity is evaluated as 'severe';

the operation heart rate is 143-169 times/minute, and the operation intensity is evaluated to be severe;

the exercise heart rate was > 169 beats/minute, and the exercise intensity was evaluated as "very severe".

In addition, according to the army health science and related documents, the operation time limit under the 'extremely heavy' operation intensity is recommended to be not more than 4 minutes;

the working time limit under the 'very heavy' working intensity is recommended not to exceed 1 hour;

the working time limit under the 'severe' working intensity is recommended to be not more than 4 hours;

recommended work time limit at "moderate" work intensity is no more than 8 hours;

the working time limit under the "light" working intensity is not limited.

In summary, the direct-reading group work intensity monitoring system provided by the invention can simultaneously monitor heart rates of tens of or even hundreds of operators in real time, and the monitoring system does not need to be connected with an external network, and the system can construct a local area network, so that the heart rate data of all operators can be directly read and data analysis can be realized under the local area network architecture, the data reading safety is ensured, and the direct-reading group work intensity monitoring system is very suitable for field monitoring and analysis of group work conditions with data safety requirements.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims (10)

1. A direct-reading group operation intensity monitoring system is characterized by comprising a data acquisition system and a data reading system which is in communication connection with the data acquisition system,

the data acquisition system comprises a plurality of heart rate monitoring devices, each heart rate monitoring device can be worn on a specified part of the body of an operator and is used for acquiring heart rate data of the operator;

the data reading system includes:

a plurality of first network connection devices, each of the first network connection devices being communicatively connected to a number of the heart rate monitoring devices;

the server is in communication connection with each first network connection device and is used for analyzing and storing the heart rate data which is transmitted by each heart rate monitoring device through the corresponding first network connection device and is related to the worker;

and the data reading equipment is in communication connection with the server through second network connection equipment and is used for reading, analyzing and storing the heart rate data which is stored in the server and is related to each worker.

2. The direct-reading crowd operation intensity monitoring system of claim 1 wherein the heart rate monitoring device is a happy bracelet.

3. The direct-reading group operation intensity monitoring system according to claim 1, wherein the first network connection device is a bluetooth base station.

4. The direct-reading group work intensity monitoring system according to claim 3, wherein the Bluetooth base station is a Happy data base station with model number LS-901.

5. The direct-reading group work intensity monitoring system according to claim 1, wherein the specific model of the server is raspberry pi 3 generation B.

6. The direct-reading group work intensity monitoring system according to claim 1, wherein the data reading device is an intelligent terminal, and the intelligent terminal comprises a computer, a mobile phone and a tablet computer.

7. A direct-reading group operation intensity monitoring method is realized by applying the direct-reading group operation intensity monitoring system as any one of the right 1 to the right 6, and is characterized by comprising the following steps of:

step S1, the heart rate monitoring equipment worn on the worker collects and stores the heart rate data of the worker in real time;

step S2, when the operator approaches the first network connection device and the approach distance is less than or equal to a preset distance, the heart rate monitoring device worn on the operator automatically establishes communication connection with the first network connection device, and transmits the stored heart rate data to the server through the first network connection device;

step S3, the data reading device reads the heart rate data associated with each worker stored in the server according to a data reading instruction of a user, and analyzes the read heart rate data to obtain the current work intensity of the corresponding worker.

8. The direct-reading population operation intensity monitoring method according to claim 7, further comprising:

and step S4, the data reading device gives a suggested work time limit related to the operator under the current work intensity according to the current work intensity related to the operator obtained through analysis and a preset work time limit suggestion.

9. The method for monitoring population working intensity as claimed in claim 7, wherein the predetermined distance in step S2 is 10 m.

10. The method according to claim 7, wherein the first network connection device in step S2 is a bluetooth base station.

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