CN110264168B - Engineering project construction period monitoring system and method - Google Patents

Abstract

The invention belongs to the technical field of engineering project management, and particularly relates to a system and a method for monitoring construction period of an engineering project, wherein the system comprises a design module, a processing unit, a display module, a mobile terminal and a wireless communication module, wherein the design module, the wireless communication module and the display module are respectively connected with the processing unit; the mobile terminal is connected with the processing unit through a wireless communication module; the design module is used for inputting the design scheme of the engineering project by a user and transmitting the design scheme to the processing unit; the design scheme is that an engineering project is decomposed into a plurality of sub-construction tasks, and planning construction attributes are set for each sub-construction task; and the mobile terminal is internally provided with an engineering project construction period monitoring system APP. The invention solves the problems of deviation, no monitoring and early warning function, and great consumption of manpower and communication cost in the traditional manual form filling mode. The invention also provides a using method of the construction period monitoring system.

Description

Engineering project construction period monitoring system and method

[ field of technology ]

The invention relates to the technical field of engineering project management, in particular to a system and a method for monitoring construction period of engineering projects.

[ background Art ]

In the project of construction engineering, the monitoring and early warning management of the project construction period and implementation progress are the main method for controlling the project progress of the construction unit. However, from the general state of the existing construction engineering management unit, the adopted main engineering progress control means is still a manual form filling mode, and the progress control means is relatively backward, so that on one hand, the traditional mode is only empirical control, deviation is easy to exist, the real-time performance is not strong, the real-time monitoring cannot be realized, and the early warning management degree cannot be achieved; on the other hand, this approach consumes significant manpower and communication costs.

[ invention ]

The invention aims at: aiming at the problems, the invention provides a monitoring system and a method for construction period of engineering projects, which solve the problems that the traditional manual form filling mode has deviation, has no monitoring and early warning function and consumes a large amount of manpower and communication cost.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

the engineering project construction period monitoring system comprises a design module, a processing unit, a display module, a mobile terminal and a wireless communication module, wherein the design module, the wireless communication module and the display module are respectively connected with the processing unit; the mobile terminal is connected with the processing unit through a wireless communication module;

the design module is used for inputting the design scheme of the engineering project by a user and transmitting the design scheme to the processing unit; the design scheme is characterized in that an engineering project is decomposed into a plurality of sub-construction tasks, and planning construction attributes are set for each sub-construction task, wherein the planning construction attributes comprise planning start date and planning completion date;

the mobile terminal is internally provided with an engineering project construction period monitoring system APP, and is used for inputting a scheme progress after a user logs in the APP, wherein the content of the scheme progress is the actual construction attribute of each sub-construction task, the actual construction attribute comprises an actual starting date and an actual finishing date, and the mobile terminal is also used for receiving project early warning information;

the processing unit is used for receiving the data transmitted by the design module and the mobile terminal, processing the received data, processing the data corresponding to each sub-construction task, generating corresponding early warning information, sending the corresponding early warning information to the display module for display, and sending the early warning information to the mobile terminal through the wireless communication module;

the display module is used for displaying the planned construction attribute, the actual construction attribute and the early warning information of each molecular construction task.

Preferably, the display module is a display screen.

Preferably, the engineering project construction period monitoring system APP comprises a login interface and a control interface, and a user enters the control interface after logging in through the login interface.

Preferably, the control interface includes a sub-construction task selection interface, a time input option box and a time display option box, after clicking any one of the sub-construction tasks in the selection interface, the time input option box and the time display option box appear, clicking the time input option box is used for inputting the actual construction attribute of the corresponding sub-construction task, clicking the time display option box is used for displaying the planning construction attribute, the actual construction attribute and the early warning information of each sub-construction task.

A method of engineering project construction period monitoring, comprising:

input of design scheme: the user divides the project into N sub-construction tasks, inputs the names of the sub-construction tasks into the system through the design module, and sets the planned start date TPS corresponding to each sub-construction task _i And planned completion date TPC _i Each sub-construction task name and corresponding planned start date TPS _i And planned completion date TPC _i Displaying through the display module, and automatically acquiring the current time T by the system;

after the design scheme is input, according to the construction progress of each sub-construction task, the actual start date TRS corresponding to each sub-construction task is input through the mobile terminal _i And actual completion date TRC _i Actual start date TRS corresponding to each sub-construction task _i And actual completion date TRC _i The data corresponding to each sub-construction task is processed by the processing unit to generate corresponding early warning information, the corresponding early warning information is sent to the mobile terminal through the wireless communication module, and the corresponding early warning information is displayed through the display module, specifically:

(1) For workersUnder the condition that all sub-construction tasks of the project are not actually started, the early warning judgment index is MaxA=max (T-TPS) _i ) When MaxA is less than or equal to 0, the early warning is that the project construction period is normal; when MaxA>When 0, screening the sub-construction tasks corresponding to the MaxA, and then early warning the sub-construction tasks as a lag MaxA in construction projects;

(2) For the case that some sub-construction tasks in the engineering project are already implemented, but are not actually completed:

for the sub-construction tasks which are not actually started to be implemented, comparing the plan start date corresponding to each sub-construction task of the part with the current time T to obtain MaxA=max (T-TPS) _i )；

For the sub-construction tasks which have been actually started, the "planned start date" and the "actual start date" corresponding to each sub-construction task of the part are compared and analyzed to obtain maxb=max (TRS) _i -TPS _i ) And comparing the planned completion date corresponding to each sub-construction task of the part with the current time to obtain MaxC=max (T-TPC) _i ). The construction period early warning judgment indexes are as follows: d=max (MaxA, maxB, maxC);

when D <0, screening the sub-construction task corresponding to D, and then early warning the sub-construction task as a project of the project in advance of D days; when d=0, the early warning is "xthe project construction period is normal"; when D >0, screening the sub-construction task corresponding to D, and then early warning is that the construction period of the sub-construction task is delayed by D days in the project;

(3) For the case that it has actually started and some has actually completed:

comparing the actual completion date corresponding to each sub-construction task with the current time to obtain MinA=min (T-TRC) _i ) Screening sub-construction tasks corresponding to MinA, and analyzing the actual completion date and planned completion date corresponding to the screened sub-construction tasks to obtain MaxB=max (TRC) _i -TPC _i )；

For sub-construction which has been started but not ended actuallyTasks, comparing the "planned completion date" and the "current time" corresponding to each sub-construction task of the part to obtain MaxC=max (T-TPC _i ) And comparing the corresponding actual start date and planned start date of each sub-construction task to obtain MaxD=max (TRS) _i -TPS _i )；

For the sub-construction tasks which are not actually started to be implemented, comparing the plan start date and the current time corresponding to each sub-construction task of the part to obtain MaxE=max (T-TPS) _i )。

The construction period early warning judgment indexes are as follows: f=max (MaxB, maxC, maxD, maxE);

when F is less than 0, screening the sub-construction task corresponding to F, and then early warning the sub-construction task to be early-timed by F days in the project; when f=0, the early warning is "xthe project construction period is normal"; when F >0, after screening the sub-construction task corresponding to F, the early warning is that the construction period of the sub-construction task in the engineering project lags by F days.

The invention has the following beneficial effects:

the project period monitoring system provided by the invention can realize monitoring and early warning of the project period, specifically, a user firstly divides the project into a plurality of sub-construction tasks, the name of each sub-construction task is input into the system through the design module, the corresponding plan starting date and the corresponding plan finishing date of each sub-construction task are set, the received plan starting date and the received plan finishing date are processed by the processing unit and then displayed through the display module, the user respectively inputs the corresponding actual starting date and the corresponding actual finishing date through the mobile terminal according to the construction progress of each sub-construction task, the received actual starting date and the received actual finishing date are processed by the processing unit and then displayed through the display module, and after the corresponding analysis of each sub-construction task plan starting date, the plan finishing date, the actual starting date and the actual finishing date is carried out, early warning information is formed, and the project period information is issued through the display module, so that real-time monitoring is realized, the project charge person and the responsible person of each sub-construction task can timely and intuitively implement early warning, the total manual schedule of implementing each sub-construction task is carried out, the conventional manual schedule is filled up, the problem of no real-time monitoring schedule is solved, and the problem of the real-time cost is solved, and the problem of the conventional manual schedule is not monitored.

[ description of the drawings ]

Fig. 1 is a block diagram of the present invention.

Fig. 2 is a flowchart of a monitoring and early warning method of the system provided by the invention.

The invention will be further described in the following detailed description in conjunction with the above-described figures.

[ detailed description ] of the invention

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. The drawings are for illustrative purposes only, are schematic representations and are not intended to be limiting of the present patent, and in order to better illustrate the embodiments of the present invention, certain elements of the drawings may be omitted, enlarged or reduced, and not represent the actual product size, it will be understood by those skilled in the art that certain well-known structures, elements and descriptions thereof may be omitted, and that all other embodiments obtained by those skilled in the art without making inventive efforts are within the scope of protection of the present invention based on the embodiments of the present invention.

In the description of the present invention, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed", "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

Referring to fig. 1-2, in a preferred embodiment of the present invention, an engineering project construction period monitoring system includes a design module, a processing unit, a display module, a mobile terminal and a wireless communication module, where the design module, the wireless communication module and the display module are respectively connected with the processing unit; the mobile terminal is connected with the processing unit through a wireless communication module; specifically, the mobile terminal is a mobile phone, and the wireless communication module is a 3G or 4G communication module.

The design module is used for inputting the design scheme of the engineering project by a user and transmitting the design scheme to the processing unit; the design scheme is characterized in that an engineering project is decomposed into a plurality of sub-construction tasks, and planning construction attributes are set for each sub-construction task, wherein the planning construction attributes comprise planning start date and planning completion date;

the mobile terminal is internally provided with an engineering project construction period monitoring system APP, and is used for inputting a scheme progress after a user logs in the APP, wherein the content of the scheme progress is the actual construction attribute of each sub-construction task, the actual construction attribute comprises an actual starting date and an actual finishing date, and the mobile terminal is also used for receiving project early warning information;

the processing unit is used for receiving the data transmitted by the design module and the mobile terminal, processing the received data, sending the processed data to the display module for display, processing the data corresponding to each sub-construction task, generating corresponding early warning information, and sending the corresponding early warning information to the mobile terminal through the wireless communication module;

the display module is used for displaying the planned construction attribute, the actual construction attribute and the early warning information of each molecular construction task. Further, the display module is a display screen.

Furthermore, the engineering project construction period monitoring system APP comprises a login interface and a control interface, and a user enters the control interface after logging in through the login interface. The control interface comprises a selection interface, an input window and a display window, wherein the selection interface is used for providing a sub-construction task pushing selection template for a user to select, the input window is used for inputting a corresponding scheme progress after the user selects the sub-construction task, and the display window is used for displaying the planned construction attribute, the actual construction attribute and the early warning information of each sub-construction task.

When the system is used, a user firstly divides an engineering project into a plurality of sub-construction tasks, inputs the names of the sub-construction tasks and the planned starting dates and the planned finishing dates corresponding to the sub-construction tasks through the design module and transmits the names of the received sub-construction tasks and the planned starting dates and the planned finishing dates corresponding to the sub-construction tasks to the display module, and displays the names, and the received sub-construction task names, the received planned starting dates and the received planned finishing dates corresponding to the sub-construction tasks are respectively input into a mobile terminal, namely a mobile phone according to the construction progress of the sub-construction tasks by the user, wherein the received sub-construction task names, the received planned starting dates and the received planned finishing dates corresponding to the sub-construction tasks are specifically as follows: after logging in through a login interface of the APP, entering the control interface, clicking any one of the sub-construction tasks in the selection interface to form the time input option box and the time display option box, clicking the time input option box to input actual construction attributes of the corresponding sub-construction tasks, sending the actual construction attributes to the processing unit, clicking the time display option box, processing the received actual construction attributes such as actual starting date and actual finishing date through the time display option box of the corresponding sub-construction tasks, comparing and analyzing the plan starting date, plan finishing date, actual starting date and actual finishing date of each sub-construction task to form early warning information, and issuing corresponding monitoring early warning to the engineering construction period through the display module by the early warning information, so that a project responsible person and responsible persons of each sub-construction task can intuitively see the implementation progress of each sub-construction task and the total implementation progress of the engineering project. The invention also provides a method for monitoring the construction period of the engineering project, which comprises the following steps:

input of design scheme: the user divides the project into N sub-construction tasks, inputs the names of the sub-construction tasks into the system through the design module, and sets the planned start date TPS corresponding to each sub-construction task _i And planned completion date TPC _i Each sub-construction task name and corresponding planned start date TPS _i And planned completion date TPC _i Displaying through the display module, and automatically acquiring the current time T by the system;

after the design scheme is input, according to the construction progress of each sub-construction task, the actual start date TRS corresponding to each sub-construction task is input through the mobile terminal _i And actual completion date TRC _i Actual start date TRS corresponding to each sub-construction task _i And actual completion date TRC _i The data corresponding to each sub-construction task is processed by the processing unit to generate corresponding early warning information, the corresponding early warning information is sent to the mobile terminal through the wireless communication module, and the corresponding early warning information is displayed through the display module, specifically:

(1) For the situation that all sub-construction tasks of the engineering project are not actually started, the early warning judgment index is MaxA=max (T-TPS) _i ) When MaxA is less than or equal to 0, the early warning is that the project construction period is normal; when MaxA>When 0, screening the sub-construction tasks corresponding to the MaxA, and then early warning is that the construction period of the sub-construction tasks in the project lags by MaxA days, and if the MaxA corresponds to a plurality of work tasks, the work tasks are expressed in the early warning at the same time;

(2) For the case that some sub-construction tasks in the engineering project are already implemented, but are not actually completed:

for the sub-construction tasks which are not actually started to be implemented, comparing the plan start date corresponding to each sub-construction task of the part with the current time T to obtain MaxA=max (T-TPS) _i )；

For the sub-construction tasks which have been actually started, the "planned start date" and the "actual start date" corresponding to each sub-construction task of the part are compared and analyzed to obtain maxb=max (TRS) _i -TPS _i ) And comparing the planned completion date corresponding to each sub-construction task of the part with the current time to obtain MaxC=max (T-TPC) _i ). The construction period early warning judgment indexes are as follows: d=max(MaxA,MaxB,MaxC)；

When D is less than 0, screening the sub-construction tasks corresponding to D, and then performing early warning for D days in advance in the construction project, wherein if D corresponds to a plurality of work tasks, the early warning is simultaneously expressed; when d=0, the early warning is "× that the project construction period is normal", if D corresponds to a plurality of work tasks, the early warning is simultaneously expressed; when D >0, screening the sub-construction tasks corresponding to D, and then early warning the sub-construction tasks with lag D days in construction projects, wherein if D corresponds to a plurality of work tasks, the early warning is simultaneously expressed;

(3) For the case that it has actually started and some has actually completed:

comparing the actual completion date corresponding to each sub-construction task with the current time to obtain MinA=min (T-TRC) _i ) Screening sub-construction tasks corresponding to MinA, and analyzing the actual completion date and planned completion date corresponding to the screened sub-construction tasks to obtain MaxB=max (TRC) _i -TPC _i )；

Comparing the planned completion date and the current time corresponding to the sub-construction tasks to obtain MaxC=max (T-TPC) _i ) And comparing the corresponding actual start date and planned start date of each sub-construction task to obtain MaxD=max (TRS) _i -TPS _i )；

For the sub-construction tasks which are not actually started to be implemented, comparing the plan start date and the current time corresponding to each sub-construction task of the part to obtain MaxE=max (T-TPS) _i )。

The construction period early warning judgment indexes are as follows: f=max (MaxB, maxC, maxD, maxE);

when F is less than 0, screening the sub-construction tasks corresponding to F, and then performing early warning for F days in advance in the construction project, wherein if F corresponds to a plurality of work tasks, the early warning is simultaneously expressed; when f=0, the early warning is "× that the project construction period is normal", if F corresponds to a plurality of work tasks, the early warning is simultaneously expressed; when F >0, after screening the sub-construction tasks corresponding to F, the early warning is that the construction period of the sub-construction tasks in the engineering project lags by F days, and if F corresponds to a plurality of work tasks, the early warning is simultaneously expressed.

The foregoing description is directed to the preferred embodiments of the present invention, but the embodiments are not intended to limit the scope of the invention, and all equivalent changes or modifications made under the technical spirit of the present invention should be construed to fall within the scope of the present invention.

Claims (4)

1. The utility model provides an engineering project construction period monitored control system which characterized in that: the mobile terminal comprises a design module, a processing unit, a display module, a mobile terminal and a wireless communication module, wherein the design module, the wireless communication module and the display module are respectively connected with the processing unit; the mobile terminal is connected with the processing unit through a wireless communication module;

the design module is used for inputting the design scheme of the engineering project by a user and transmitting the design scheme to the processing unit; the design scheme is that an engineering project is decomposed into a plurality of sub-construction tasks, and planning construction attributes are set for each sub-construction task, wherein the planning construction attributes comprise planning start date and planning completion date;

the mobile terminal is internally provided with an engineering project construction period monitoring system APP, and is used for inputting a scheme progress after a user logs in the APP, wherein the content of the scheme progress is the actual construction attribute of each sub-construction task, the actual construction attribute comprises an actual starting date and an actual finishing date, and the mobile terminal is also used for receiving project early warning information;

the processing unit is used for receiving the data transmitted by the design module and the mobile terminal, processing the received data, processing the data corresponding to each sub-construction task, generating corresponding early warning information, sending the corresponding early warning information to the display module for display, and sending the early warning information to the mobile terminal through the wireless communication module;

the display module is used for displaying the planned construction attribute, the actual construction attribute and the early warning information of each sub-construction task;

the method for monitoring by adopting the monitoring system comprises the following steps:

input of design scheme: the user divides the project into a plurality of sub-construction tasks, inputs the names of the sub-construction tasks into the system through the design module, and sets the planned start date TPS corresponding to each sub-construction task _i And planned completion date TPC _i Each sub-construction task name and corresponding planned start date TPS _i And planned completion date TPC _i Displaying through the display module, and automatically acquiring the current time T by the system;

after the design scheme is input, according to the construction progress of each sub-construction task, the actual start date TRS corresponding to each sub-construction task is input through the mobile terminal _i And actual completion date TRC _i Actual start date TRS corresponding to each sub-construction task _i And actual completion date TRC _i The data corresponding to each sub-construction task is processed by the processing unit to generate corresponding early warning information, the corresponding early warning information is sent to the mobile terminal through the wireless communication module, and the corresponding early warning information is displayed through the display module, specifically:

(1) For the situation that all sub-construction tasks of the engineering project are not actually started, the early warning judgment index is MaxA=max (T-TPS) _i ) When MaxA is less than or equal to 0, the early warning is that the project construction period is normal; when MaxA is more than 0, screening sub-construction tasks corresponding to MaxA, and then early warning is that the construction period of the sub-construction tasks lags by MaxA days in the project;

(2) For the case that some sub-construction tasks in the engineering project are already implemented, but are not actually completed:

for the sub-construction tasks which are not actually started to be implemented, comparing the plan start date corresponding to each sub-construction task of the part with the current time T to obtain MaxA=max (T-TPS) _i )；

For the sub-construction tasks which have been actually started to be implemented, the comparison is madeThe "planned start date" and "actual start date" corresponding to each sub-job in the part are compared and analyzed to obtain maxb=max (TRS) _i -TPS _i ) And comparing the planned completion date corresponding to each sub-construction task of the part with the current time to obtain MaxC=max (T-TPC) _i ) The method comprises the steps of carrying out a first treatment on the surface of the The construction period early warning judgment indexes are as follows: d=max (MaxA, maxB, maxC);

when D <0, screening the sub-construction task corresponding to D, and then early warning the sub-construction task as a project of the project in advance of D days; when d=0, the early warning is "xthe project construction period is normal"; when D >0, screening the sub-construction task corresponding to D, and then early warning is that the construction period of the sub-construction task is delayed by D days in the project;

(3) For the case that it has actually started and some has actually completed:

comparing the actual completion date corresponding to each sub-construction task with the current time to obtain MinA=min (T-TRC) _i ) Screening sub-construction tasks corresponding to MinA, and analyzing the actual completion date and planned completion date corresponding to the screened sub-construction tasks to obtain MaxB=max (TRC) _i -TPC _i )；

Comparing the planned completion date and the current time corresponding to the sub-construction tasks to obtain MaxC=max (T-TPC) _i ) And comparing the corresponding actual start date and planned start date of each sub-construction task to obtain MaxD=max (TRS) _i -TPS _i )；

For the sub-construction tasks which are not actually started to be implemented, comparing the plan start date and the current time corresponding to each sub-construction task of the part to obtain MaxE=max (T-TPS) _i )；

The construction period early warning judgment indexes are as follows: f=max (MaxB, maxC, maxD, maxE);

when F is less than 0, screening the sub-construction task corresponding to F, and then early warning the sub-construction task to be early-timed by F days in the project; when f=0, the early warning is "xthe project construction period is normal"; when F >0, after screening the sub-construction task corresponding to F, the early warning is that the construction period of the sub-construction task in the engineering project lags by F days.

2. The construction period monitoring system for an engineering project according to claim 1, wherein: the display module is a display screen.

3. The construction period monitoring system for an engineering project according to claim 1, wherein: the engineering project construction period monitoring system APP comprises a login interface and a control interface, and a user enters the control interface after logging in through the login interface.

4. A construction period monitoring system for an engineering project according to claim 3, wherein: the control interface comprises a sub-construction task selection interface, a time input option box and a time display option box, wherein the time input option box and the time display option box appear after clicking any one sub-construction task in the selection interface, the time input option box is clicked to be used for inputting the actual construction attribute of the corresponding sub-construction task, and the time display option box is clicked to be used for displaying the planning construction attribute, the actual construction attribute and the early warning information of each sub-construction task.

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