CN115409488A - Flow management and control method and system for whole engineering construction process - Google Patents

Abstract

The invention provides a flow management and control method and system for the whole engineering construction process, which are applied to a cloud management and control platform, wherein the method comprises the following steps: step 1: acquiring a plurality of first process items contained in the whole process of a project of engineering construction; and 2, step: determining a second flow item currently executed by the engineering construction from the first flow item; and step 3: acquiring a process execution progress corresponding to the second process item; and 4, step 4: and correspondingly managing and controlling the second flow item based on the flow execution progress. According to the flow management and control method and system for the whole engineering construction process, management personnel are not required to follow the execution progress or execution quality of the flow executor, the labor cost is reduced, the problems that the management personnel possibly have the situations of untimely follow-up and incomplete follow-up are avoided, and the efficiency of flow management and control is improved.

Description

Flow management and control method and system for whole engineering construction process

Technical Field

The invention relates to the technical field of engineering management, in particular to a flow management and control method and system for the whole engineering construction process.

Background

Generally, the whole engineering construction process comprises the procedures of planning approval, land approval, engineering planning, engineering supervision, completion acceptance and the like; in order to ensure the progress and quality of engineering construction, the processes need to be sequentially controlled, and the execution progress or execution quality of an executor corresponding to the processes needs to be followed up during control;

therefore, a solution is needed.

Disclosure of Invention

The invention provides a flow management and control method and system for the whole engineering construction process, which are used for reducing the labor cost without the need of managers to follow up the execution progress or execution quality of the flow executors, avoiding the problems of untimely follow-up and incomplete follow-up of the managers and improving the efficiency of flow management and control.

The invention provides a flow management and control method of an engineering construction overall process, which is applied to a cloud management and control platform and is characterized by comprising the following steps:

step 1: acquiring a plurality of first process items contained in the whole process of a project of engineering construction;

step 2: determining a second flow item currently executed by engineering construction from the first flow item;

and step 3: acquiring a process execution progress corresponding to the second process item;

and 4, step 4: and correspondingly managing and controlling the second flow item based on the flow execution progress.

Preferably, the step 1: the method comprises the following steps of acquiring a plurality of first process items contained in the whole process of a project of engineering construction, wherein the method comprises the following steps:

acquiring project data of a project of engineering construction;

extracting project flow plans from the project data;

and determining a plurality of first process items of the whole engineering construction process based on the project process plan.

Preferably, the step 2: determining a second flow item currently executed by engineering construction from the first flow items, wherein the second flow item comprises the following steps:

acquiring a current time point, and determining a planned second process item corresponding to the current time point from the project process plan;

or the like, or, alternatively,

acquiring a flow execution task of the project newly dispatched on the current day;

determining a second flow item currently executed by the engineering construction from the first flow items based on the flow execution task;

or the like, or a combination thereof,

a second process item currently being executed is received input by a project manager of a project of the engineering construction.

Preferably, the step 3: acquiring a process execution progress corresponding to the second process item, including:

determining the current flow execution progress of the second flow item based on the flow execution task;

or the like, or, alternatively,

acquiring the latest historical execution progress of the second flow item;

acquiring an execution progress planning table corresponding to the second flow item, determining a next execution progress after the historical execution progress from the execution progress planning table, and taking the next execution progress as a flow execution progress;

or the like, or, alternatively,

and receiving the current process execution progress of the second process item input by the project management personnel.

Preferably, the step 4: correspondingly managing and controlling the second process item based on the process execution progress, and the method comprises the following steps:

acquiring a process type corresponding to the second process item;

when the flow type is in-situ construction, determining a construction area and a construction type based on the flow execution progress;

collecting construction behaviors of at least one first constructor in the construction area;

constructing a construction non-standard behavior library corresponding to the construction type;

based on the construction non-standard behavior library, performing standard judgment on the construction behavior;

and if the judgment result is that the construction is not standard, immediately reminding the corresponding first constructor.

Preferably, the constructing a construction non-normative behavior library corresponding to the construction type includes:

acquiring a warehousing target;

constructing a construction non-standard behavior library corresponding to the construction type based on the warehousing target;

the method for acquiring the warehousing target comprises the following steps:

acquiring construction non-standard behaviors corresponding to the construction types and recorded in historical management and control time, and taking the behaviors as a warehousing target;

and/or the presence of a gas in the atmosphere,

and acquiring construction non-standard behaviors corresponding to the construction types from a plurality of big data platforms, and taking the behaviors as warehousing targets.

Preferably, the process management and control method for the whole engineering construction process further includes:

and constructing a to-be-processed item-processing rule table, when at least one first to-be-processed item is found during the management and control of the second flow item, determining a first processing rule corresponding to the first to-be-processed item based on the to-be-processed item-processing rule table, and performing corresponding processing on the first to-be-processed item based on the first processing rule.

The invention provides a flow management and control system of an overall engineering construction process, which is applied to a cloud management and control platform and is characterized by comprising the following steps:

the system comprises a first acquisition module, a second acquisition module and a third acquisition module, wherein the first acquisition module is used for acquiring a plurality of first process items contained in the whole process of a project of engineering construction;

the determining module is used for determining a second process item currently executed by the engineering construction from the first process item;

the second acquisition module is used for acquiring the process execution progress corresponding to the second process item;

and the control module is used for correspondingly controlling the second flow item based on the flow execution progress.

Preferably, the first acquiring module acquires a plurality of first process items included in the whole process of the project of the engineering construction, and includes:

acquiring project data of a project of engineering construction;

extracting project flow plans from the project data;

and determining a plurality of first process items of the whole engineering construction process based on the project process plan.

Preferably, the determining module determines a second process item currently being executed by the engineering construction from the first process items, and includes:

acquiring a current time point, and determining a planned second process item corresponding to the current time point from the project process plan;

or the like, or a combination thereof,

acquiring a flow execution task of the project newly dispatched on the current day;

determining a second flow item currently executed by the engineering construction from the first flow items based on the flow execution task;

or the like, or a combination thereof,

a second process item currently being executed is received input by a project manager of a project of the engineering construction.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a flowchart of a flow management and control method of an overall engineering construction process according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a flow management and control system of an overall engineering construction process according to an embodiment of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it should be understood that they are presented herein only to illustrate and explain the present invention and not to limit the present invention.

The invention provides a flow management and control method of an engineering construction overall process, which is applied to a cloud management and control platform and comprises the following steps of:

step 1: acquiring a plurality of first process items contained in the whole process of a project of engineering construction;

step 2: determining a second flow item currently executed by engineering construction from the first flow item;

and step 3: acquiring a process execution progress corresponding to the second process item;

and 4, step 4: and correspondingly managing and controlling the second flow item based on the flow execution progress.

The working principle and the beneficial effects of the technical scheme are as follows:

the method can be realized based on a cloud platform, and the management and control work is finished by the cloud platform; when an engineering construction project starts, a cloud platform acquires a plurality of first process items (such as an approval process, a construction process, an acceptance process and the like) of the whole process of the engineering construction project, determines a second process item which is being executed, acquires a corresponding process execution progress (such as a piling operation), and performs corresponding control on the second process item based on the process execution progress (such as performing progress and safety supervision on a piling operation site and acquiring an image of the operation site for recognition and realization); the executive progress or executive quality of the executive people who do not need to follow the flow by the management personnel is reduced, the labor cost is reduced, the problems that the management personnel possibly have the situation that follow is not timely and not complete are avoided, and the efficiency of flow management and control is improved.

In one embodiment, the step 1: the method comprises the following steps of acquiring a plurality of first process items contained in the whole process of a project of engineering construction, wherein the first process items comprise:

acquiring project data of a project of engineering construction;

extracting project flow plans from the project data;

and determining a plurality of first process items of the whole engineering construction process based on the project process plan.

The working principle and the beneficial effects of the technical scheme are as follows:

generally, project flow plans are recorded in project data of projects of engineering construction, and a plurality of first flow items of the whole engineering construction process can be determined based on the project flow plans.

In one embodiment, the step 2: determining a second flow item currently executed by the engineering construction from the first flow items, wherein the second flow item comprises:

acquiring a current time point, and determining a planned second process item corresponding to the current time point from the project process plan;

or the like, or, alternatively,

acquiring a flow execution task of the project newly dispatched on the current day;

determining a second flow item currently executed by the engineering construction from the first flow items based on the flow execution task;

or the like, or, alternatively,

a second process item currently being executed is received input by a project manager of a project of the engineering construction.

The working principle and the beneficial effects of the technical scheme are as follows:

there are three ways to determine the second process item being executed by the engineering construction: firstly, determining a planned second process item corresponding to a current time point from project process plans in project data; secondly, determining a second flow item based on a flow execution task of a project newly dispatched on the same day, for example: the new distribution process execution task in the same day is 7 second-layer concrete pouring operations, and the second process item is a construction process; and thirdly, directly inputting the data to the cloud platform by project management personnel.

In one embodiment, the step 3: acquiring a process execution progress corresponding to the second process item, including:

determining the current flow execution progress of the second flow item based on the flow execution task;

or the like, or a combination thereof,

acquiring the latest historical execution progress of the second flow item;

acquiring an execution progress planning table corresponding to the second flow item, determining a next execution progress after the historical execution progress from the execution progress planning table, and taking the next execution progress as a flow execution progress;

or the like, or, alternatively,

and receiving the current process execution progress of the second process item input by the project management personnel.

The working principle and the beneficial effects of the technical scheme are as follows:

there are three ways to determine the current flow execution progress of the second flow item: firstly, the flow execution progress is determined based on the flow execution task of the project newly distributed on the current day, for example: when the new distribution process executes the task of pouring 7 second-layer concretes on the day, the process executes the progress of pouring 7 second-layer concretes; secondly, based on the latest historical execution entry of the second flow item, inquiring the execution progress plan table for determination; and thirdly, inputting the data into the cloud platform by project management personnel.

In one embodiment, the step 4: correspondingly managing and controlling the second process item based on the process execution progress, and the method comprises the following steps:

acquiring a process type corresponding to the second process item;

when the flow type is in-situ construction, determining a construction area and a construction type based on the flow execution progress;

collecting construction behaviors of at least one first constructor in the construction area;

constructing a construction non-standard behavior library corresponding to the construction type;

based on the construction non-standard behavior library, performing standard judgment on the construction behavior;

if the judgment result is not standard, immediately reminding the corresponding first constructor;

when the flow type is not the field construction, determining at least one executor and an execution task corresponding to the executor based on the flow execution progress;

and acquiring follow-up inquiry rules corresponding to the execution tasks, and performing follow-up inquiry on the corresponding executives based on the follow-up inquiry rules.

The working principle and the beneficial effects of the technical scheme are as follows:

generally, the process of engineering construction is divided into a construction type and a non-construction type, and the construction type comprises the following steps: construction process, etc., and the non-construction types include: a batch reporting flow, an acceptance checking flow and the like;

when the flow type is on-site construction, construction progress, safety and the like of construction need to be controlled, a construction area (for example, 7 second-layer concrete is poured) and a construction type (for example, concrete pouring) are determined based on the flow execution progress (for example, 7 second-layer concrete is poured), construction behaviors of at least one first constructor in the construction area are collected (for example, images are collected by a monitoring facility and are identified based on the images), a construction non-standard behavior library corresponding to the construction type is based on the construction non-standard behavior library (construction non-standard behaviors corresponding to the construction types are stored, for example, when the floor height is higher, the onsite personnel in the concrete pouring area belong to high-altitude operation, the construction non-standard behaviors can be regarded as not wearing safety ropes), the construction behaviors are subjected to standard judgment, and if the construction behaviors are judged to be not standard, corresponding first constructors are immediately reminded (for example, reminding information is sent to wearing work terminals or mobile phones of the constructors, and the like), and the construction progress and safety are fully guaranteed;

when the flow type is off-site construction, the flow execution condition needs to be followed up, based on the flow execution progress (for example, using ground for approval), the execution tasks (for example, using ground for approval, collecting and arranging data) which are executed by the corresponding executant and executor are determined, the follow-up inquiry rule corresponding to the execution tasks is obtained (for example, the completion degree of collecting and arranging the data for inquiring the executor every 3 hours), the corresponding follow-up inquiry is carried out on the executor, and when the follow-up inquiry is carried out, the cloud platform can be in butt joint with the mobile phone of the executor, and the flow execution efficiency is improved.

In one embodiment, the collecting construction activities of at least one first constructor within the construction area comprises:

acquiring a construction site corresponding to the construction area;

constructing a distribution map of the monitoring facilities of the construction site;

determining at least one first image acquisition device with a first distance from the construction area within a preset first distance range from the distribution map;

acquiring an acquisition area corresponding to the first image acquisition equipment;

judging whether an overlapping area exists between the acquisition area and the construction area;

if so, taking the corresponding first image acquisition equipment as second image acquisition equipment, and acquiring a first image which is acquired by the second image acquisition equipment and corresponds to the overlapping area;

determining a plurality of first blind area areas in the construction area except the overlapping area;

determining at least one idle first monitoring trolley with a second distance from the first blind area within a preset second distance range from the distribution map;

planning a first driving route of the first monitoring trolley to the first blind area on the distribution map;

counting the length of a first route of the first traveling route, and meanwhile, judging whether a barrier route exists on the first traveling route or not based on a preset monitoring trolley barrier route library;

if the first route is shortest and no obstacle route exists on the corresponding first driving route, taking the corresponding first monitoring trolley as a second monitoring trolley, taking the corresponding first blind area as a second blind area, and taking the rest first blind area as a third blind area;

controlling the second monitoring trolley to move to the corresponding second blind area region;

when the second monitoring trolley reaches the corresponding second blind area, controlling the second monitoring trolley to acquire a second image of the second blind area;

determining at least one monitor in the distribution map, wherein a third distance between the at least one monitor and the third blind area is within a preset third distance range;

planning a second driving route of the monitoring instrument to the third blind area in the distribution map;

scheduling a manager wearing the monitor corresponding to the shortest second driving route to go to the corresponding third blind area;

when the monitor reaches the corresponding third blind area, acquiring a third image of the third blind area acquired by the monitor;

determining construction activities generated by at least one first constructor within the construction area based on the first image, the second image and the third image.

The working principle and the beneficial effects of the technical scheme are as follows:

when the construction behavior of constructors is collected, images of a construction area can be collected through a monitoring facility, and identification and acquisition are carried out on the basis of the images; however, in most construction sites, only cameras are generally arranged, the arrangement positions of the cameras are all outside the building, the shooting areas of the cameras are not necessarily comprehensive, and for example: the construction building body has reached 6 layers, and constructor is in the inside construction of two layers, and the inside image of two layers can't be shot to the camera, in addition, if supplementarily lay the camera in the building body, there are two shortcomings: firstly, wiring is troublesome, because the building body is in an unfinished state, places needing construction in the later period need to be avoided during wiring, the situation that the building body needs to be dismantled for construction in the later period is avoided, secondly, cameras in the building body need to be dismantled just before capping, and the labor cost is high;

therefore, the embodiment of the invention uses various monitoring facilities, namely cameras, monitoring trolleys and monitoring instruments worn by managers to cooperate with each other to acquire images of the construction area; firstly, acquiring task allocation needs to be carried out on various monitoring facilities, a distribution map of the monitoring facilities on a construction site is constructed, the distribution map is a construction site map, the positions of all the monitoring facilities are marked on the distribution map, a site image on a scaffold in a safety net on each side surface of a building body is acquired outside the building body, a site image for acquiring operation on the top layer of a stair is arranged below a tower crane cab, a plurality of monitoring trolleys are randomly distributed and arranged, a monitoring instrument is distributed to a manager, a second image acquisition device for acquiring construction area images is determined based on the overlapping condition between an acquisition area of a first image acquisition device, namely a camera and a construction area, a corresponding first image is acquired, the monitoring trolleys are controlled, the manager is scheduled to wear the monitoring instrument to go to the blind area of the camera, and a second image and a third image of the blind area are acquired; the comprehensiveness of behavior acquisition of constructors is greatly improved, and the control quality and the control efficiency are ensured;

generally, the building site is more complicated, and the control dolly must not go to arbitrary blind area region, consequently, when arranging the control dolly, the priority is guaranteed that the control dolly goes to the regional route of traveling of blind area shortest, promotes the acquisition promptness, reduces control dolly consumption, and does not have any obstacle route on guaranteeing the route of traveling, and the obstacle route is the route that the dolly can't travel, for example: the height of a certain temporarily built stair is not standard, the monitoring trolley can only climb the stair with the standard height, and can be determined based on a preset obstacle route library, wherein a route which cannot be driven by the trolley on site in a construction site is stored, the monitoring trolley is reasonably arranged, abnormal driving of the monitoring trolley in the half way is avoided, and the applicability is improved; in addition, when a dispatching manager wears the monitor to go to the blind area, the shortest driving route for the manager to go to the blind area is ensured, and the acquisition timeliness is improved.

In one embodiment, the constructing a construction non-specification behavior library corresponding to the construction type includes:

acquiring a warehousing target;

constructing a construction non-standard behavior library corresponding to the construction type based on the warehousing target;

wherein, obtain the warehouse entry target, include:

acquiring construction non-standard behaviors corresponding to the construction types and recorded in historical management and control time, and taking the behaviors as a warehousing target;

and/or the presence of a gas in the gas,

and acquiring construction non-standard behaviors corresponding to the construction types from a plurality of big data platforms, and taking the construction non-standard behaviors as warehousing targets.

The working principle and the beneficial effects of the technical scheme are as follows:

the warehousing target is a construction non-standard behavior corresponding to the construction type, can be obtained from a historical record, and can also be provided by a big data platform; the big data technology is more popular, the data quality provided by the big data platform is uneven, the credibility of the big data platform can be verified when the big data platform is obtained, and the data can be obtained from the corresponding big data platform when the verification is passed, so that the obtaining reliability is improved, and the construction quality of the construction non-standard behavior library is ensured; the calculation formula of the reliability of the big data platform is as follows:

wherein the content of the first and second substances,

confidence level of large data platform, alpha is credit value of large data platform, beta _j The mechanism weight corresponding to the jth guaranty mechanism, γ _j A vouching value for a jth vouching authority for vouching a large data platform, n being the total number of vouching authorities, epsilon ₁ And ε ₂ The weight value is a preset weight value; the higher the credit value of the big data platform is, the higher the data quality level obtained from the big data platform in history is, the bigger the guarantee value is, the greater the guarantee strength is, the greater the corresponding mechanism weight of the guarantee mechanism is, and the greater the guarantee capability of the guarantee mechanism is.

In one embodiment, the process control method of the whole engineering construction process further includes:

triggering and controlling the second monitoring trolley based on the first image, the second image and the third image;

the triggering control of the second monitoring trolley based on the first image, the second image and the third image comprises the following steps:

determining the overlapping area and the third blind area adjacent to the second blind area in the construction area, and taking the overlapping area and the third blind area as target areas;

determining the first image and the third image corresponding to the target area and using the first image and the third image as a fourth image;

determining whether at least one second constructor is present in the second blind area based on the second image;

if the second constructor does not exist, controlling the second monitoring trolley in the third blind area to enter a dormant mode, and meanwhile, determining the moving direction, the moving speed and the moving track in the latest preset time period of at least one third constructor in the target area based on the fourth image;

when the moving direction and the moving speed indicate that any third constructor is about to enter the second blind area and/or the moving track indicates that any third constructor is about to enter the second blind area, controlling the second monitoring trolley corresponding to the second blind area to continuously acquire a second image, and meanwhile, taking the corresponding third constructor as a fourth constructor and taking the corresponding second blind area as a third blind area;

judging whether the fourth constructors enter any one target area from the third blind area or not based on the fourth image;

if so, controlling the second monitoring trolley in the third blind area to enter a sleep mode;

if the second constructor exists, judging whether the second constructor enters any one target area from the third blind area or not based on the fourth image;

and if so, controlling the second monitoring trolley in the third blind area to enter a sleep mode.

The working principle and the beneficial effects of the technical scheme are as follows:

generally, construction in a certain construction site on a construction site needs constructors to complete in all working time periods in the daytime, a monitoring trolley needs to continuously acquire a second image, however, if the monitoring trolley always acquires the second image, the power consumption of the monitoring trolley is high, if the monitoring trolley is controlled to leave before the battery power is exhausted, not only is the position supplement of other monitoring trolleys needed to be controlled in advance, but also the electric quantity needed by the return process of the monitoring trolley cannot be accurately calculated due to the complexity of the site on the construction site, the monitoring trolley can be stopped running in a half-way power failure, and needs to be manually found back, so that the monitoring trolley needs to be triggered and controlled based on a first image, a second image and a third image, and when the monitoring trolley needs to be controlled to acquire the second image, the power consumption is saved, the daily acquisition capability of the monitoring trolley is improved, and the applicability is further improved;

when the monitoring trolley enters the corresponding blind area, acquiring a second image acquired by the monitoring trolley, determining whether constructors exist in the blind area or not based on the second image, if so, controlling the monitoring trolley to continue acquiring, judging whether the constructors leave or not, if so, controlling the monitoring trolley to enter a standby mode, and if not, controlling the monitoring trolley to enter the standby mode; after entering the corresponding blind area, a manager judges whether constructors exist in the area or not, if so, the monitor is started to collect a third image, and the camera can also collect the first image all the time, so that whether the constructors enter the blind area of the monitoring trolley for collecting the second image or not can be judged based on the first image and the third image, and if so, the monitoring trolley is controlled to exit the standby mode to collect the second image, so that the trigger control is realized;

judging whether a constructor enters a blind area of the monitoring trolley for collecting the second image or not, determining a blind area collected by a monitoring instrument adjacent to the blind area of the monitoring trolley and an overlapping area collected by an adjacent camera as a target area, and judging whether the constructor enters the blind area of the monitoring trolley for collecting the second image or not based on a fourth image corresponding to the target area, so that the triggering control resources are reduced, and the rationality is improved; based on the fourth image, confirm that the constructor's that wherein exists direction of movement, travel speed and the movement track in the most recent predetermined time quantum, the three all can be confirmed by continuous frame image, belong to the prior art category, do not do the repeated description, predetermined time quantum can be for 2.5 seconds, when judging that constructor gets into the blind area region that the monitoring dolly gathered the second image, can judge jointly based on direction of movement and travel speed, can also judge alone according to the movement track, for example: the moving direction is towards the blind area of the monitoring trolley for collecting the second image, and the moving speed is fast enough, which indicates that a constructor is about to enter, for example: the movement track is a straight line, and the end point of the movement track is very close to the blind area region where the monitoring trolley collects the second image, which shows that a constructor is about to enter, so that the accuracy of trigger control is greatly improved.

In one embodiment, the process control method of the whole engineering construction process further includes:

constructing a to-be-processed item-processing rule table, when at least one first to-be-processed item is found during the management and control of the second flow item, determining a first processing rule corresponding to the first to-be-processed item based on the to-be-processed item-processing rule table, and performing corresponding processing on the first to-be-processed item based on the first processing rule;

wherein, constructing a to-be-processed item-processing rule table comprises:

acquiring a plurality of second items to be processed which may appear in preset engineering construction;

acquiring a plurality of alternative second processing rules corresponding to the second items to be processed;

extracting at least one restriction rule from the second processing rule based on a preset restriction rule extraction template;

judging whether the project meets all the limiting rules or not based on the project data;

if so, taking the corresponding second processing rule as a third processing rule;

acquiring at least one subsequent event after the second item to be processed is processed based on the third processing rule;

based on a preset effect scoring template, according to the subsequent events, effect scoring is carried out on the third processing rule to obtain effect scores;

performing association pairing on the third processing rule corresponding to the maximum effect score and the second item to be processed to obtain a paired item;

and constructing a to-be-processed item-processing rule table based on all the pairing items.

The working principle and the beneficial effects of the technical scheme are as follows:

when the second flow item is controlled, a first item to be processed (for example, the construction progress is slow, the construction is overtime, etc.) may be found; introducing an item to be processed-processing rule table, wherein the item to be processed-processing rule table is provided with the most suitable processing rules of different items to be processed appearing in the process control of the project of the current engineering construction; based on the item to be processed and the processing rule table, determining a first processing rule corresponding to the first item to be processed (for example, establishing a theme meeting room with slow construction progress, and organizing related constructors to enter the theme meeting room for online meeting), and performing corresponding processing; the coping capability of the system for the problem to be processed is improved, manual intervention is not needed, the labor cost is reduced, and the applicability is further improved;

when a to-be-processed item-processing rule table is constructed, ensuring that the processing rule is suitable for the current engineering construction project; therefore, a second processing rule corresponding to the second item to be processed is obtained, and suitability screening is performed from the second processing rule; extracting at least one restriction rule from the second processing rule based on a preset restriction rule extraction template, for example: the second processing rule is 'construction progress is slow, corresponding worker is withdrawn', the extracted restriction rule is applicable to worker, restriction conditions corresponding to different semantics are set in a restriction rule extraction template, semantic recognition is carried out on the second processing rule during extraction, and the corresponding restriction conditions are determined based on a semantic recognition result; based on the project data, it is determined whether the project satisfies all the restriction rules, such as: all construction recorded in the project data is a male-end, and the restriction rule is a point work, which is not satisfied; if all the second processing rules are met, taking the corresponding second processing rule as a third processing rule;

next, a third processing rule with the best processing effect is screened out, a subsequent event after the second item to be processed is processed based on the third processing rule is obtained, the subsequent event is a record of whether the problem is solved or improved, an effect scoring template is based on a preset effect, the third processing rule is subjected to effect scoring according to the subsequent event, and effect scores corresponding to different semantics are set in the effect scoring template, for example: the semantic meaning is that the problem of slow construction progress is completely solved, the effect score is 100, for example: the semantic is that the problem of slow construction progress is basically completely solved, and the effect score is 85; performing association pairing on the maximum effect and the corresponding third processing rule, constructing a to-be-processed item-processing rule table based on each pairing item, and storing each pairing item into a blank table during construction; the construction quality of the to-be-processed item-processing rule table is further improved.

The invention provides a flow management and control system for the whole process of engineering construction, which is applied to a cloud management and control platform and comprises the following components as shown in figure 2:

the system comprises a first acquisition module 1, a second acquisition module and a third acquisition module, wherein the first acquisition module is used for acquiring a plurality of first process items contained in the whole process of a project of engineering construction;

the determining module 2 is used for determining a second flow item currently executed by the engineering construction from the first flow item;

a second obtaining module 3, configured to obtain a process execution progress corresponding to the second process item;

and the management and control module 4 is configured to perform corresponding management and control on the second process item based on the process execution progress.

In one embodiment, the first acquiring module 1 acquires a plurality of first process items included in the overall process of a project of engineering construction, including:

acquiring project data of a project of engineering construction;

extracting project flow plans from the project data;

and determining a plurality of first process items of the whole engineering construction process based on the project process plan.

In one embodiment, the determining module 2 determines, from the first flow items, a second flow item currently being executed by the engineering construction, including:

acquiring a current time point, and determining a planned second process item corresponding to the current time point from the project process plan;

or the like, or, alternatively,

acquiring a flow execution task of the project newly dispatched on the current day;

determining a second flow item currently executed by the engineering construction from the first flow item based on the flow execution task;

or the like, or, alternatively,

a second process item currently being executed is received input by a project manager of a project of the engineering construction.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The working principle and the beneficial effects of the above technical solutions have been explained in the method right, and are not described in detail.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. A flow management and control method of an engineering construction overall process is applied to a cloud management and control platform and is characterized by comprising the following steps:

step 1: acquiring a plurality of first process items contained in the whole process of a project of engineering construction;

step 2: determining a second flow item currently executed by the engineering construction from the first flow item;

and step 3: acquiring a process execution progress corresponding to the second process item;

and 4, step 4: and correspondingly managing and controlling the second flow item based on the flow execution progress.

2. The process control method for the whole engineering construction process according to claim 1, wherein the step 1: the method comprises the following steps of acquiring a plurality of first process items contained in the whole process of a project of engineering construction, wherein the method comprises the following steps:

acquiring project data of a project of engineering construction;

extracting project flow plans from the project data;

and determining a plurality of first process items of the whole engineering construction process based on the project process plan.

3. The process control method for the whole engineering construction process according to claim 2, wherein the step 2: determining a second flow item currently executed by the engineering construction from the first flow items, wherein the second flow item comprises:

acquiring a current time point, and determining a planned second process item corresponding to the current time point from the project process plan;

or the like, or, alternatively,

acquiring a flow execution task of the project newly dispatched on the current day;

determining a second flow item currently executed by the engineering construction from the first flow items based on the flow execution task;

or the like, or, alternatively,

a second process item currently being executed is received input by a project manager of a project of the engineering construction.

4. The process control method for the whole engineering construction process according to claim 3, wherein the step 3: acquiring a process execution progress corresponding to the second process item, including:

determining the current flow execution progress of the second flow item based on the flow execution task;

or the like, or, alternatively,

acquiring the latest historical execution progress of the second flow item;

acquiring an execution progress planning table corresponding to the second flow item, determining a next execution progress after the historical execution progress from the execution progress planning table, and taking the next execution progress as a flow execution progress;

or the like, or, alternatively,

and receiving the current flow execution progress of the second flow item input by the project management personnel.

5. The process control method for the whole engineering construction process according to claim 1, wherein the step 4: correspondingly managing and controlling the second process item based on the process execution progress, and the method comprises the following steps:

acquiring a process type corresponding to the second process item;

when the flow type is in-site construction, determining a construction area and a construction type based on the flow execution progress;

collecting construction behaviors of at least one first constructor in the construction area;

constructing a construction non-standard behavior library corresponding to the construction type;

based on the construction non-standard behavior library, performing standard judgment on the construction behavior;

and if the judgment result is not standard, immediately reminding the corresponding first constructor.

6. The method as claimed in claim 5, wherein the constructing of the construction non-normative behavior library corresponding to the construction type includes:

acquiring a warehousing target;

constructing a construction non-standard behavior library corresponding to the construction type based on the warehousing target;

wherein, obtain the warehouse entry target, include:

acquiring construction non-standard behaviors corresponding to the construction types and recorded in historical management and control time, and taking the behaviors as a warehousing target;

and/or the presence of a gas in the gas,

and acquiring construction non-standard behaviors corresponding to the construction types from a plurality of big data platforms, and taking the construction non-standard behaviors as warehousing targets.

7. The method as claimed in claim 2, further comprising:

and constructing a to-be-processed item-processing rule table, when at least one first to-be-processed item is found during the management and control of the second flow item, determining a first processing rule corresponding to the first to-be-processed item based on the to-be-processed item-processing rule table, and performing corresponding processing on the first to-be-processed item based on the first processing rule.

8. The utility model provides a flow management and control system of engineering construction overall process, is applied to cloud management and control platform, its characterized in that includes:

the system comprises a first acquisition module, a second acquisition module and a third acquisition module, wherein the first acquisition module is used for acquiring a plurality of first process items contained in the whole process of a project of engineering construction;

the determining module is used for determining a second process item currently executed by the engineering construction from the first process item;

the second acquisition module is used for acquiring the process execution progress corresponding to the second process item;

and the control module is used for correspondingly controlling the second flow item based on the flow execution progress.

9. The system as claimed in claim 8, wherein the first acquiring module acquires a plurality of first process items included in the overall process of the project of the engineering construction, and the system includes:

acquiring project data of a project of engineering construction;

extracting project flow plans from the project data;

and determining a plurality of first process items of the whole engineering construction process based on the project process plan.

10. The system as claimed in claim 8, wherein the determining module determines a second process item currently being executed by the engineering construction from the first process items, and includes:

acquiring a current time point, and determining a planned second process item corresponding to the current time point from the project process plan;

or the like, or a combination thereof,

acquiring a flow execution task of the project newly dispatched on the current day;

determining a second flow item currently executed by the engineering construction from the first flow items based on the flow execution task;

or the like, or a combination thereof,

a second currently executing process item input by a project manager of a project of the engineering construction is received.

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