CN110623638A - Engineering project supervision management method and system thereof - Google Patents

Abstract

The invention relates to a project supervision management method and a project supervision management system, and belongs to the technical field of project supervision. By acquiring the heart rate of the person to be detected, when the heart rate is greater than the overspeed heart rate and the duration is greater than the first duration, whether the person to be detected still does work with the action amplitude value greater than the action amplitude threshold value is detected, when the action amplitude value is larger than the amplitude threshold value, the detected person is reminded to stop working to carry out proper rest, if the person to be tested still works for the second duration time with the amplitude value larger than the action amplitude value, the unique identification code of the tested person is sent to the server, the server searches the altitude and the location of the corresponding tested person according to the unique identification code, and searching a corresponding floor and a corresponding position in a preset relation table of the altitude and the floor according to the altitude, and sending the identity information, the floor and the position of the detected person to a manager by the server so that the manager finds the detected person to remind the manager to rest.

Description

Engineering project supervision management method and system thereof

Technical Field

The invention relates to the technical field of project supervision, in particular to a project supervision management method and a project supervision management system.

Background

With the development of modern city construction, the construction industry occupies an increasingly important position in the national economic system. Because the building safety problem directly relates to life and property safety of constructors and users, at present, related departments also continuously manage safety systems and related laws and regulations, and construction units also improve the safety awareness of construction teams and strengthen the safety management in the construction process, but cannot supervise the safety of the constructors in real time.

The safety accidents of constructors are caused by the fact that some constructors excessively carry out high-intensity work. In the high-strength operation process, a constructor does not have a proper rest but bites to persist, and particularly in hot summer, the conditions of overwork, dizziness and even faint easily occur, and finally safety accidents can be caused.

Disclosure of Invention

The invention aims to provide an engineering project supervision and management method which has the advantage of timely reminding a tested person of stopping for rest when the heart rate of the tested person is too fast.

The above object of the present invention is achieved by the following technical solutions:

an engineering project supervision and management method, comprising the following steps applied to a detection device: s101: acquiring the heart rate of a person to be tested; s102: judging whether the heart rate is larger than the overspeed heart rate, if so, entering a step S3, otherwise, returning to the step S101; s103: recording a first duration of the heart rate being greater than the overspeed heart rate; s104: judging whether the first duration is greater than a first duration limit value, if so, entering step S5, otherwise, returning to step S101; s105: acquiring an action amplitude value of a detected person; s106: judging whether the motion amplitude value is larger than a motion amplitude threshold value, if so, entering the step S108, and if not, returning to the step S101;

s107: and sending out a reminding signal, wherein the reminding signal is used for reminding the tested person to stop the large-amplitude action, and returning to the step S101.

Further, the method comprises the following steps applied to the detection device: s201: acquiring the positioning of a tested person; s202: and sending the positioning of the tested personnel and the unique identification code corresponding to the tested personnel to a server.

Further, the method comprises the following steps applied to the detection device: s301: acquiring the altitude of a measured person; s302: and sending the poster height of the tested person and the unique identification code corresponding to the tested person to a server.

Further, the method also comprises the following steps applied to the detection device: s108: and recording a second duration when the motion amplitude value is greater than the motion amplitude threshold, and sending alarm information to the server when the second duration is greater than a second duration limit value, wherein the alarm information contains a unique identification code corresponding to the detected person.

Further, the method comprises the following steps applied to the server: s109: and searching the altitude and the location of the corresponding detected person according to the unique identification code, and searching the corresponding floor and position in a preset altitude, location-floor and position relation table according to the altitude and the location.

The invention also aims to provide an engineering project supervision and management system which has the advantage of timely reminding a tested person to stop for rest when the heart rate of the tested person is too fast.

The second purpose of the invention is realized by the following technical scheme:

the engineering project supervision management system comprises a detection device, a monitoring module and a monitoring module, wherein the detection device comprises a heart rate detection module, a monitoring module and a monitoring module, wherein the heart rate detection module is used for acquiring the heart rate of a person to be detected; the system comprises a heart rate comparison module, a duration recording module, a first time duration module and a second time duration module, wherein the heart rate comparison module is used for judging whether the heart rate is greater than the overspeed heart rate; the device comprises a duration judgment module, an amplitude detection module, a time duration detection module and a time duration detection module, wherein the duration judgment module is used for judging whether the first duration is greater than a first duration limit value; the device comprises an action amplitude value judging module, an amplitude comparing module and a reminding module, wherein the action amplitude value judging module is used for judging whether the action amplitude value is larger than an action amplitude threshold value, and the reminding module is used for sending a reminding signal which is used for reminding a detected person to stop a large-amplitude action.

Further, the detection device further comprises: the positioning module is used for acquiring the positioning of the tested personnel; and the communication module is used for sending the positioning of the tested personnel and the unique identification code corresponding to the tested personnel to the server.

Further, the detection device further comprises: the poster height acquisition module is used for acquiring the altitude of the tested person; the communication module is further used for sending the poster height of the tested person and the unique identification code corresponding to the tested person to the server.

Further, the detection device further comprises: and the alarm module is used for recording a second duration when the action amplitude value is greater than the action amplitude threshold value, and sending alarm information to the server when the second duration is greater than a second duration limit value, wherein the alarm information contains the unique identification code corresponding to the detected personnel.

And further, the system comprises a server, wherein the server is used for searching the altitude and the location of the corresponding detected person according to the unique identification code, and searching the corresponding floor and position in a preset altitude, location-floor and position relation table according to the altitude and the location.

In conclusion, the invention has the following beneficial effects:

by acquiring the heart rate of the person to be detected, when the heart rate is greater than the overspeed heart rate and the duration is greater than the first duration, whether the person to be detected still does work with the action amplitude value greater than the action amplitude threshold value is detected, when the action amplitude value is larger than the amplitude threshold value, the detected person is reminded to stop working to carry out proper rest, if the person to be tested still works for the second duration time with the amplitude value larger than the action amplitude value, the unique identification code of the tested person is sent to the server, the server searches the altitude and the location of the corresponding tested person according to the unique identification code, and searching a corresponding floor and a corresponding position in a preset relation table of the altitude and the floor according to the altitude, and sending the identity information, the floor and the position of the detected person to a manager by the server so that the manager finds the detected person to remind the manager to rest.

Drawings

Fig. 1 is a schematic hardware structure diagram of a detection apparatus according to an embodiment of the present disclosure;

FIG. 2 is a schematic flow chart of a method of an embodiment of the present application;

fig. 3 is a schematic composition diagram of a detection apparatus according to an embodiment of the present application.

Detailed Description

The technical solutions of the embodiments of the present invention will be described below with reference to the accompanying drawings.

As described in the background section, safety accidents occur to constructors, and some of them are caused by excessive work with high intensity. In the high-strength operation process, a constructor does not have a proper rest but bites to persist, and particularly in hot summer, the conditions of overwork, dizziness and even faint easily occur, and finally safety accidents can be caused. There is therefore a need for a method and system to remind the constructor to stop to rest when his heart rate is too fast and also in high labor.

The engineering project supervision management method provided by the embodiment of the application can be applied to wearable devices such as electronic devices like smart watches and smart wristbands, and the embodiment of the application does not limit the specific types of the electronic devices.

For example, fig. 1 shows a schematic structural diagram of the detection device. The detection device comprises a processor, a heart rate sensor, an acceleration sensor, a gyroscope, a barometric sensor, a GPS, a wireless communication module, a mobile communication module, a motor, an audio module and the like.

The invention provides a project supervision management method, as shown in fig. 2, the method comprises the following steps applied to a detection device:

s101: acquiring the heart rate of a person to be tested;

specifically, the heart rate is detected by a heart rate sensor.

S102: judging whether the heart rate is larger than the overspeed heart rate, if so, entering a step S3, otherwise, returning to the step S101;

specifically, the overspeed heart rate is set according to the heart rate of a person during strenuous exercise, and when the heart rate is greater than the overspeed heart rate, the person to be tested is represented to be performing relatively strenuous labor of exercise amount.

S103: recording a first duration of the heart rate being greater than the overspeed heart rate;

specifically, the first duration is recorded, that is, the duration of the labor of the person to be tested with a relatively intense amount of exercise is recorded.

S104: judging whether the first duration is greater than a first duration limit value, if so, entering step S5, otherwise, returning to step S101;

specifically, the first time limit value is set according to the rest time length that the person should stop in the process of continuously performing the strenuous exercise, and if the first duration exceeds the first time limit value, it indicates that the detected person should stop to rest for a while.

S105: acquiring an action amplitude value of a detected person;

specifically, the motion amplitude value is obtained by an acceleration sensor.

S106: judging whether the motion amplitude value is larger than a motion amplitude threshold value, if so, entering the step S108, and if not, returning to the step S101;

specifically, the action amplitude threshold is set according to the action amplitude of the person performing the large-amplitude action, and when the action amplitude value is larger than the action amplitude threshold, it indicates that the person to be tested is performing the action with a large action amplitude, or it can be determined that the person is still working.

S107: and sending out a reminding signal, wherein the reminding signal is used for reminding the tested person to stop the large-amplitude action, and returning to the step S101.

Specifically, the reminding signal can be vibrated by the motor to remind a person to be tested, or the sound module can be used for sending a sound prompt.

According to the method, when the heart rate of the detected person is larger than the overspeed heart rate and the duration is longer than the first duration, whether the detected person still works with the action amplitude value larger than the action amplitude threshold is detected, and when the action amplitude value is larger than the amplitude threshold, the detected person is reminded to stop working for appropriate rest, so that the detected person is reminded to have appropriate rest, and the occurrence of the over-labor situation is reduced.

In another embodiment of the present application, the project supervision and management method further includes the following steps applied to the detection device:

s201: acquiring the positioning of a tested person;

s202: and sending the positioning of the tested personnel and the unique identification code corresponding to the tested personnel to a server.

S301: acquiring the altitude of a measured person;

s302: and sending the poster height of the tested person and the unique identification code corresponding to the tested person to a server.

Specifically, the positioning of the person to be measured can be achieved through a GPS, and the altitude can be obtained through an air pressure sensor. The transmission altitude and the location may be realized by a wireless communication module or a mobile communication module.

Further comprising the steps of applying to a detection device: s108: and recording a second duration when the motion amplitude value is greater than the motion amplitude threshold, and sending alarm information to the server when the second duration is greater than a second duration limit value, wherein the alarm information contains a unique identification code corresponding to the detected person.

Specifically, after the detected person receives the reminding signal, the action amplitude value is detected, the detected person is still working and the working time exceeds the second duration, the warning signal is sent to the server, and the unique identification code is configured in the detection device and matched with the information of the detected person to identify the corresponding detected person.

Further comprising the steps of applying to the server: s109: and searching the altitude and the location of the corresponding detected person according to the unique identification code, and searching the corresponding floor and position in a preset altitude and floor relation table according to the altitude.

Specifically, the detection device can send the location of the person to be detected, the poster height and the unique identification code to the server in real time. Or the positioning of the tested person, the poster height and the unique identification code can be sent to the server only when the alarm signal is sent out. When the server receives the alarm signal, the server can find the positioning and poster height of the person corresponding to the detection equipment sending the alarm signal according to the unique identification code, and find the corresponding floor and position in the preset altitude, positioning-floor and position relation table according to the altitude and the positioning. And the server sends the identity information, the floor and the position of the tested person to the manager. Thereby helping the manager to find the tested personnel who are oversteered. The information of the person to be tested corresponding to the unique identification code may include the contact information of the person to be tested, such as a mobile phone number, a QQ, a WeChat and the like, so that the manager can contact the person to be tested.

Through the embodiment, if the detected person still works for the second duration time with the amplitude value larger than the action amplitude value, the unique identification code of the detected person is sent to the server, the server searches the altitude and the location corresponding to the detected person according to the unique identification code, searches the corresponding floor and the position in the preset altitude, location-floor and position relation table according to the altitude and the location, and then sends the identity information, the floor and the position of the detected person to the manager, so that the manager finds the detected person to remind the manager of taking a rest, or reminds the manager of taking a rest in a contact manner.

An embodiment of the present application further provides an engineering project supervision management system, as shown in fig. 3, the system includes:

the heart rate detection module is used for acquiring the heart rate of the person to be detected;

in the embodiment of the application, the sensor can be a heart rate sensor.

The heart rate comparison module is used for judging whether the heart rate is larger than the overspeed heart rate or not;

in embodiments of the present application, the module may be integrated into the process.

The duration recording module is used for recording a first duration that the heart rate is greater than the overspeed heart rate;

in embodiments of the present application, the module may be integrated into the process.

The duration judging module is used for judging whether the first duration is greater than a first duration limit value or not;

in embodiments of the present application, the module may be integrated into the process.

The amplitude detection module is used for acquiring the action amplitude value of the detected person;

in the embodiment of the present application, an acceleration sensor may be used.

The amplitude comparison module is used for judging whether the action amplitude value is larger than an action amplitude threshold value or not;

in embodiments of the present application, the module may be integrated into the process.

And the reminding module is used for sending a reminding signal, and the reminding signal is used for reminding the tested personnel to stop the action with large amplitude.

In the embodiments of the present application, it may be a motor and/or an audio module.

The positioning module is used for acquiring the positioning of the tested personnel;

in the embodiment of the present application, the GPS may be used.

And the communication module is used for sending the positioning of the tested person and the unique identification code corresponding to the tested person to the server and also used for sending the poster height of the tested person and the unique identification code corresponding to the tested person to the server.

In the embodiment of the present application, the wireless communication module or the mobile communication module may be used.

The poster height acquisition module is used for acquiring the altitude of the tested person;

in the embodiment of the application, the air pressure sensor can be realized.

And the alarm module is used for recording a second duration when the action amplitude value is greater than the action amplitude threshold value, and sending alarm information to the server when the second duration is greater than a second duration limit value, wherein the alarm information contains the unique identification code corresponding to the detected personnel.

In the embodiment of the present application, the module is implemented by a processor, a wireless communication module, and a mobile communication module.

And the server is used for searching the altitude and the location of the corresponding detected person according to the unique identification code, and searching the corresponding floor and position in a preset altitude, location-floor and position relation table according to the altitude and the location.

In this embodiment, the server may be a cloud server or a server of a large workstation.

The working principle of the above embodiment is as follows:

the heart rate sensor acquires the heart rate of a person to be tested, the processor compares the heart rate with the overspeed heart rate, and when the heart rate is greater than the overspeed heart rate, the processor records the first duration time that the heart rate is greater than the overspeed heart rate. When the first duration is longer than the first duration limit value, the acceleration sensor acquires an action amplitude value of the detected person, the processor judges whether the action amplitude value is larger than an action amplitude threshold value, and when the action amplitude value is judged to be larger than the action amplitude threshold value, the reminding module sends out a reminding signal to remind the detected person to stop large-amplitude action.

GPS and air pressure sensor collect the location and poster height of the tested person.

And the processor records a second duration when the action amplitude value is greater than the action amplitude threshold, and when the second duration is greater than a second duration limit value, the wireless communication module or the mobile communication module sends alarm information to the server, wherein the alarm information contains the unique identification code corresponding to the detected personnel. And the server searches the altitude and the location of the corresponding detected person according to the unique identification code, and searches the corresponding floor and position in a preset altitude, location-floor and position relation table according to the altitude and the location. And sending the identity information, the floor and the position of the tested person to a manager.

Claims (10)

1. A project supervision management method is characterized by comprising the following steps applied to a detection device:

s101: acquiring the heart rate of a person to be tested;

s102: judging whether the heart rate is larger than the overspeed heart rate, if so, entering a step S3, otherwise, returning to the step S101;

s103: recording a first duration of the heart rate being greater than the overspeed heart rate;

s104: judging whether the first duration is greater than a first duration limit value, if so, entering step S5, otherwise, returning to step S101;

s105: acquiring an action amplitude value of a detected person;

s106: judging whether the motion amplitude value is larger than a motion amplitude threshold value, if so, entering the step S108, and if not, returning to the step S101;

s107: and sending out a reminding signal, wherein the reminding signal is used for reminding the tested person to stop the large-amplitude action, and returning to the step S101.

2. The method for supervision and management of engineering projects as claimed in claim 1, characterized in that it further comprises the following steps applied to the detection means:

s201: acquiring the positioning of a tested person;

s202: and sending the positioning of the tested personnel and the unique identification code corresponding to the tested personnel to a server.

3. The method for supervision and management of engineering projects as claimed in claim 2, characterized in that it further comprises the following steps applied to the detection means:

s301: acquiring the altitude of a measured person;

s302: and sending the poster height of the tested person and the unique identification code corresponding to the tested person to a server.

4. The method as claimed in claim 3, further comprising the following steps applied to the inspection device:

s108: and recording a second duration when the motion amplitude value is greater than the motion amplitude threshold, and sending alarm information to the server when the second duration is greater than a second duration limit value, wherein the alarm information contains a unique identification code corresponding to the detected person.

5. The method for supervision and management of engineering projects as claimed in claim 4, characterized in that said method further comprises the following steps applied to the server:

s109: and searching the altitude and the location of the corresponding detected person according to the unique identification code, and searching the corresponding floor and position in a preset altitude, location-floor and position relation table according to the altitude and the location.

6. An engineering project supervision management system, characterized by comprising a detection device, wherein the detection device comprises:

the heart rate detection module is used for acquiring the heart rate of the person to be detected;

the heart rate comparison module is used for judging whether the heart rate is larger than the overspeed heart rate or not;

the duration recording module is used for recording a first duration that the heart rate is greater than the overspeed heart rate;

the duration judging module is used for judging whether the first duration is greater than a first duration limit value or not;

the amplitude detection module is used for acquiring the action amplitude value of the detected person;

the amplitude comparison module is used for judging whether the action amplitude value is larger than an action amplitude threshold value or not;

and the reminding module is used for sending a reminding signal, and the reminding signal is used for reminding the tested personnel to stop the action with large amplitude.

7. The system for supervising and managing engineering projects according to claim 6, wherein the detecting device further comprises:

the positioning module is used for acquiring the positioning of the tested personnel;

and the communication module is used for sending the positioning of the tested personnel and the unique identification code corresponding to the tested personnel to the server.

8. The system for supervising and managing engineering projects according to claim 7, wherein said detecting means further comprises:

the poster height acquisition module is used for acquiring the altitude of the tested person;

the communication module is further used for sending the poster height of the tested person and the unique identification code corresponding to the tested person to the server.

9. The system for supervising and managing engineering projects according to claim 8, wherein the detecting device further comprises:

and the alarm module is used for recording a second duration when the action amplitude value is greater than the action amplitude threshold value, and sending alarm information to the server when the second duration is greater than a second duration limit value, wherein the alarm information contains the unique identification code corresponding to the detected personnel.

10. The system as claimed in claim 9, wherein the system includes a server for searching for altitude and location of the corresponding person to be tested according to the unique identification code, and searching for corresponding floor and location in a preset altitude, location-floor and location relationship table according to altitude and location.