CN113205308A - Construction engineering project construction monitoring method and device and computer program product - Google Patents

Abstract

The invention discloses a construction monitoring method, a device and a computer program product for a construction project, which comprises the steps of automatically acquiring bulk material data, weighbridge data, mixing station data and process cycle time data required in the project construction process; integrating data related to project construction and project management into a pre-manufactured BIM model, and performing visual management on construction progress and construction quality; wherein the data relating to project construction and project management comprises the process cycle time data; and monitoring abnormal data in the bulk material data, the wagon balance data, the mixing station data and the process cycle time data, and giving an alarm when the data are abnormal. The invention can automatically collect the data required in the construction process without manually collecting the data, thereby improving the efficiency of acquiring the project construction data and the accuracy of acquiring the data; by alarming and prompting when the data is abnormal, project management personnel can find and process abnormal data in time.

Description

Construction engineering project construction monitoring method and device and computer program product

Technical Field

The invention belongs to the technical field of construction management, and particularly relates to a construction monitoring method and device for a construction engineering project and a computer program product.

Background

With the development of digitalization, the popularization and application of the building information model BIM become a future development trend. In the field of construction engineering, construction engineering project management is still in the primary stage of digitization at present. At present, project information is mainly collected by means of manual entry of project budgers and constructors, and feeding and discharging depend on manual machine accounts of material staffs. Usually, when a construction project is reported and summarized regularly, the project submits data uniformly through a project BIM platform, and the project progress is converted into a digital model.

For example, in the management of tunnel construction engineering projects, collection, arrangement and analysis of data related to project construction and project management still mainly depend on manual entry of project management personnel at present, so that project information is retained and lagged, management convenience and communication convenience brought by digitization are further reduced, the project data utilization difficulty is improved, and the project cost is increased.

Disclosure of Invention

The invention aims to provide a construction monitoring method, a construction monitoring device and a computer program product for a construction engineering project, which are used for solving at least one problem in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

in a first aspect, the present invention provides a construction monitoring method for a construction project, the method comprising:

automatically acquiring bulk material data, weighbridge data, mixing station data and process cycle time data required in the project construction process;

integrating data related to project construction and project management into a pre-manufactured BIM model, and performing visual management on construction progress and construction quality; wherein the data relating to project construction and project management comprises the process cycle time data;

and monitoring abnormal data in the bulk material data, the wagon balance data, the mixing station data and the process cycle time data, and giving an alarm when the data are abnormal.

In one possible design, the method for automatically collecting mixing station data required in the construction process of a project comprises the following steps:

receiving mixing station data sent by a mixing station manufacturer based on a docking protocol and an interface agreed with the mixing station manufacturer in advance;

and carrying out data verification, analysis and storage on the mixing station data.

In one possible design, automatically collecting process cycle time data required by a project construction process includes:

acquiring a video stream at a construction inlet or outlet through an image acquisition device, and detecting and identifying operating personnel in the video stream;

when a plurality of operators of the same work type are identified to pass through the construction inlet or outlet within a certain time range, marking the start or the end of the current working procedure corresponding to the work type;

acquiring the time interval of the beginning or the end of a process represented by the entering and leaving of a plurality of operators of the same work type;

the time interval is recorded as one process cycle time data.

In one possible design, data related to project construction and project management are integrated into a pre-manufactured BIM model, and the visual management of construction progress and construction quality comprises the following steps:

integrating the process cycle time data into the pre-fabricated BIM model;

and visually displaying the progress of the current process circulation of the project according to the process circulation time data.

In one possible design, monitoring abnormal data in the process cycle time data, and performing alarm prompt when the data is abnormal includes:

judging whether the actual construction time of the working procedure exceeds the preset standard construction time or not based on the working procedure cycle time data;

and if the number of the processes exceeds the preset value, alarming and prompting the processes with abnormal process cycle time data in the BIM model.

In one possible design, the monitoring abnormal data in the wagon balance data and giving an alarm prompt when the data is abnormal includes:

judging whether the same vehicle has repeated weighing within a preset time interval or not;

if the data of the wagon balance is abnormal, the wagon balance data is considered to be abnormal, and an alarm prompt is sent to relevant management personnel.

In one possible design, data related to project construction and project management are integrated into a pre-manufactured BIM model, and construction progress and construction quality are visually managed, wherein the method comprises the following steps:

integrating the percentage data of the current construction footage and the total engineering quantity of the construction project, the current position of the tunnel face and the geological surrounding rock grade into the pre-manufactured BIM;

performing segmented display on the construction project in the BIM model, and noting the grade and actual length of the surrounding rock corresponding to each segment;

and determining the construction finished part of the construction project according to the percentage data of the current construction footage and the total engineering quantity, and distinguishing the BIM model of the finished construction part and the BIM model of the unfinished construction part by different colors.

In a second aspect, the present invention provides a construction monitoring device for a construction project, the device comprising:

the automatic data acquisition module is used for automatically acquiring bulk material data, weighbridge data, mixing station data and process cycle time data required in the project construction process;

the construction progress and quality management module is used for integrating data related to project construction and project management into a pre-manufactured BIM (building information modeling) model and visually managing the construction progress and the construction quality; wherein the data relating to project construction and project management comprises the process cycle time data;

and the abnormal data monitoring module is used for monitoring abnormal data in the bulk material data, the wagon balance data, the mixing station data and the process cycle time data and giving an alarm when the data are abnormal.

In a third aspect, the present invention provides a construction monitoring device for a construction project, the device includes a memory, a processor and a transceiver, which are sequentially connected in a communication manner, wherein the memory is used for storing a computer program, the transceiver is used for transmitting and receiving messages, and the processor is used for reading the computer program and executing the construction monitoring method for a construction project according to the first aspect.

In a fourth aspect, the present invention provides a computer program product comprising instructions which, when run on a computer, cause the computer to perform the construction monitoring method for a construction project as described in the first aspect or any one of the possible designs in the first aspect.

Has the advantages that: according to the invention, bulk material data, wagon balance data, mixing station data and process cycle time data required in the project construction process are automatically acquired without manually acquiring data, so that the project construction data acquisition efficiency and the data acquisition accuracy are improved; the data related to project construction and project management are integrated into a pre-made BIM model, and visual management is performed on the construction progress and the construction quality, so that project management personnel can know the current construction progress and construction quality information in real time and provide data support for better follow-up control of the construction progress and the construction quality; abnormal data in the bulk material data, the wagon balance data, the mixing station data and the process cycle time data are monitored, and alarm prompt is carried out when the data are abnormal, so that project management personnel can find and process the abnormal data in time, and project loss is reduced.

Drawings

FIG. 1 is a schematic flow chart of a construction monitoring method for a construction project according to the present invention;

FIG. 2 is a schematic structural diagram of a construction monitoring device for a construction project according to the present invention;

fig. 3 is a schematic structural diagram of another construction monitoring device for a construction project according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more clear, the technical solutions in the embodiments of the present disclosure will be clearly and completely described below with reference to the drawings in the embodiments of the present disclosure, and it is obvious that the described embodiments are some, but not all embodiments of the present disclosure. All other embodiments, which can be obtained by a person skilled in the art without inventive step based on the embodiments in the present description, belong to the protection scope of the present invention.

Examples

As shown in fig. 1, an application scenario of the construction monitoring method for a construction project provided in the first aspect of the embodiment of the present application includes, but is not limited to, construction monitoring management of various infrastructure projects, for example, construction management of a tunnel construction project, and the construction monitoring method for a construction project includes, but is not limited to, being implemented by steps S101 to S103.

S101, automatically acquiring bulk material data, wagon balance data, mixing station data and process cycle time data required in a project construction process;

in one possible design, the automatically collecting mixing station data required by the project construction process includes:

receiving mixing station data sent by a mixing station manufacturer based on a docking protocol and an interface agreed with the mixing station manufacturer in advance;

the determining process of the docking protocol and the interface agreed with the mixing station manufacturer in advance comprises the following steps: the method comprises the steps of communicating with a mixing station manufacturer in advance, and determining a docking scheme, a docking Protocol and an interface, wherein the docking Protocol comprises but is not limited to TCP/IP (Transmission Control Protocol/Internet Protocol ), PPP (Point-to-Point Protocol), HDLC (High level Data Link Control, High level Data Link Control) and the like, and the interface comprises but is not limited to an RS-232 interface, a USB interface, an RJ-45 interface, an RJ-11 interface, an SC fiber interface, an FDDI interface, a Console interface and the like; after the docking protocol and the interface are determined, data development and testing are carried out on the two parties, and after the testing is passed, field software of the mixing station is upgraded; when the mixing station works, mixing station control software of a mixing station manufacturer pushes the collected production records of the mixing station to an appointed cloud server in real time, and the cloud server performs data verification, analysis and storage on data.

In one possible design, the automatically collecting process cycle time data required by the project construction process includes:

acquiring a video stream at a construction inlet or outlet through an image acquisition device, and detecting and identifying operating personnel in the video stream;

for convenience of description, by taking a tunnel construction project as an example, a video stream of a tunnel portal is acquired through a high-definition camera arranged at the tunnel portal, and then, detection and identification are performed on an operator in the video stream, which specifically includes: acquiring a video stream of a tunnel portal monitoring area, and preprocessing the video stream to obtain a plurality of frame pictures; judging whether a dynamic event occurs in a plurality of frames of pictures by adopting a frame difference method, and if so, marking the frames of pictures with the dynamic event; carrying out tracking prediction on the marked frame picture by using a face detection model based on opencv and a depsort model based on deep learning; and carrying out face information recognition on the tracked operator based on a face recognition model trained by an AM-softmax algorithm.

When a plurality of operators of the same work type are identified to pass through the construction inlet or outlet within a certain time range, marking the start or the end of the current working procedure corresponding to the work type;

acquiring the time interval of the beginning or the end of a process represented by the entering and leaving of a plurality of operators of the same work type;

the time interval is recorded as one process cycle time data.

Based on the content disclosed above, the method and the device have the advantages that bulk material data, wagon balance data, mixing station data and process cycle time data required in the project construction process are automatically acquired, manual data acquisition is not needed, and the project construction data acquisition efficiency and the data acquisition accuracy are improved.

102, integrating data related to project construction and project management into a pre-manufactured BIM model, and performing visual management on construction progress and construction quality; wherein the data relating to project construction and project management comprises the process cycle time data;

in step S102, the data related to project construction and project management includes data manually acquired from a construction site and data automatically acquired by a system, and the automatically acquired data includes the process cycle time data. The data obtained manually from the construction site is illustrated by way of example as follows:

for example, in the tunnel construction process, when the construction is completed on the same day, the site constructor reports the actual construction situation on the same day through a mobile terminal, such as an application program on a mobile phone. For example, the step excavation on the same day reports the top-lead construction for 2 meters, the background management system increases the construction progress for 2 meters after receiving the data, and the construction pile number is pushed for 2 meters. When a project manager opens the BIM model on the intelligent terminal, the BIM model can inquire the construction range of the current tunnel from the background management system in real time, the current construction pile number, then a scene is rendered according to the construction direction and the progress pile number, the construction progress and construction section information are synchronously displayed, a manager can conveniently and visually know the construction progress on site, and a decision maker can conveniently conduct corresponding construction management according to the advance geological early warning of the BIM model, the embedded parts and other information.

In one possible design, data related to project construction and project management are integrated into a pre-manufactured BIM model, and construction progress and construction quality are visually managed, wherein the method comprises the following steps:

integrating the percentage data of the current construction footage and the total engineering quantity of the construction project, the current position of the tunnel face and the geological surrounding rock grade into the pre-manufactured BIM;

performing segmented display on the construction project in the BIM model, and noting the grade and actual length of the surrounding rock corresponding to each segment;

and determining the construction finished part of the construction project according to the percentage data of the current construction footage and the total engineering quantity, and distinguishing the BIM model of the finished construction part and the BIM model of the unfinished construction part by different colors.

By means of color distinguishing of the BIM model of the constructed part, the position of the current working face and the segmented surrounding rock grade, the distance from the current working face to the next surrounding rock grade can be visually seen on the BIM model, and project managers can be assisted to better control progress and adjust construction process schemes. For example: the progress of the nine-Huang mountain tunnel left line is 79%, the distance from the next surrounding rock grade is 25 meters, the current surrounding rock is in the IV grade surrounding rock, and the next surrounding rock grade is the V grade.

In one possible design, data related to project construction and project management are integrated into a pre-manufactured BIM model, and the visual management of construction progress and construction quality comprises the following steps:

integrating the process cycle time data into the pre-fabricated BIM model;

and visually displaying the progress of the current process circulation of the project according to the process circulation time data.

Taking tunnel construction as an example, only the selected tunnel unit engineering model is displayed in a small scene by entering the small scene of the BIM model of the tunnel, such as a small scene of a left line of a Jiuhuangshan tunnel, which contains all data of the Jiuhuangshan tunnel under the BIM full line model; in addition, the progress, the safe step pitch, the actual progress and the planned progress of the current working procedure cycle are displayed in a small scene.

Based on the disclosure, the data related to project construction and project management are integrated into the pre-manufactured BIM model, and the construction progress and construction quality are visually managed, so that project management personnel can know the current construction progress and construction quality information in real time, and data support is provided for better follow-up control of the construction progress and construction quality

And S103, monitoring abnormal data in the bulk material data, the wagon balance data, the mixing station data and the process cycle time data, and giving an alarm when the data are abnormal.

In step S103, it should be noted that, by performing feedback prompt on bulk material data, weighbridge data, mixing station data, and process cycle time data through the message center, the manager acquires relevant abnormal data through the message center, clicks the corresponding message, and the system jumps to a data list of the corresponding bulk material, weighbridge data, mixing station data, and process cycle time data, and individually displays the abnormal data.

In one possible design, monitoring abnormal data in the process cycle time data, and performing alarm prompt when the data is abnormal includes:

judging whether the actual construction time of the working procedure exceeds the preset standard construction time or not based on the working procedure cycle time data;

and if the number of the processes exceeds the preset value, alarming and prompting the processes with abnormal process cycle time data in the BIM model.

Taking tunnel construction as an example, the normal construction time of the plan of each process of the process circulation that the background management system set up, the work type, information such as personnel quantity and required equipment is as the standard, when the time of actual process construction has exceeded preset standard construction time, the system will indicate with red pilot lamp red suggestion, managers can look over the current process circulation and be in cycle several times through clicking the corresponding pilot lamp, the actual time spent of each process, the work type, information such as personnel quantity and equipment, show to marking red to the process that does not conform to standard process time, with this help construction managers to discover the problem solution, improve the efficiency and the quality of construction, reduce the cost and improve the output value.

In the prior construction management process of the capital construction project site, the management of the material in and out of a material warehouse of the capital construction project often has the following problems:

1. the manual paper form filling form or the computer form filling form is adopted for carrying out warehouse entry and warehouse exit data arrangement, the efficiency is low, a large amount of data such as material names, weighing time and weighing weight need to be repeatedly filled, and waste of human resources is caused.

2. There is illegal activity by personnel in the material transportation sector, such as: assuming that a truck with 20 tons of load limit is loaded with 15 tons of steel and 5 tons of soil before entering the warehouse for weighing, the warehouse weight is 20 tons at 10:00 in the morning (assuming that warehouse check is avoided), 5 tons of soil and 5 tons of steel are unloaded in the warehouse empty space, the remaining 10 tons of steel are left (at the moment, unloading records of 5 tons of soil and 5 tons of steel are unloaded by the train are not checked at the warehouse), then the warehouse weight of the truck is 10 tons at 10:30 in the morning, and the wagon pound data management system records the warehouse weight for 10 tons. And then, the vehicle is repeatedly loaded with soil after leaving the warehouse, and is warehoused again at 13:00 pm (assuming that the warehouse time interval of the same vehicle transportation material is 10 hours before the warehouse time interval under normal conditions), and the truck is warehoused repeatedly in a short time, or some project warehouses only record warehouse weighing data, so that the truck can be more easily repaired to be warehoused falsely.

3. Because data is mainly input and sorted in a manual mode, warehouse managers usually find that the inventory data (actual real warehouse-in data) is not matched with the weighing data records when warehouse inventory is carried out, so that when abnormal data appears, manual discovery is not timely, and abnormal data sources are not easy to find. Even if a large amount of manpower and material resources are consumed to search the relevant vehicles suspected of abnormal data, problems are not found timely, evidences are not timely, and final treatment is not timely due to the inconvenience of information search of the same vehicle information, weighing time, weight and the like.

Therefore, in order to overcome the defect of the weighing data of the existing weighing system, in one possible design of the application, the monitoring of abnormal data in the weighing data and the alarm prompt when the data is abnormal comprise:

judging whether the same vehicle has repeated weighing within a preset time interval or not;

if the data of the wagon balance is abnormal, the wagon balance data is considered to be abnormal, and an alarm prompt is sent to relevant management personnel.

Based on the above disclosure, by monitoring abnormal data in the bulk material data, the wagon balance data, the mixing station data and the process cycle time data and giving an alarm when the data is abnormal, project managers can timely find and process the abnormal data, and project loss is reduced.

In a second aspect, as shown in fig. 2, the present invention provides a construction monitoring device for a construction project, the device comprising:

the automatic data acquisition module is used for automatically acquiring bulk material data, weighbridge data, mixing station data and process cycle time data required in the project construction process;

the construction progress and quality management module is used for integrating data related to project construction and project management into a pre-manufactured BIM (building information modeling) model and visually managing the construction progress and the construction quality; wherein the data relating to project construction and project management comprises the process cycle time data;

and the abnormal data monitoring module is used for monitoring abnormal data in the bulk material data, the wagon balance data, the mixing station data and the process cycle time data and giving an alarm when the data are abnormal.

For the working process, the working details and the technical effects of the foregoing device provided in the second aspect of this embodiment, reference may be made to the construction monitoring method for a construction engineering project described in the first aspect or any one of the possible designs in the first aspect, which is not described herein again.

In a third aspect, as shown in fig. 3, the present invention provides a construction monitoring device for a construction project, the device includes a memory, a processor and a transceiver, which are connected in communication in sequence, wherein the memory is used for storing a computer program, the transceiver is used for sending and receiving messages, and the processor is used for reading the computer program and executing the construction monitoring method for a construction project according to the first aspect.

For the working process, the working details and the technical effects of the device provided in the third aspect of this embodiment, reference may be made to the construction monitoring method for a construction engineering project, which may be designed in any one of the first aspect and the first aspect, and details are not described herein again.

In a fourth aspect, the present invention provides a computer program product comprising instructions which, when run on a computer, cause the computer to perform the construction monitoring method for a construction project as described in the first aspect or any one of the possible designs in the first aspect.

For the working process, the working details and the technical effects of the foregoing apparatus provided in the fourth aspect of this embodiment, reference may be made to the first aspect or any one of the construction monitoring methods for construction engineering projects that may be designed in the first aspect, and details are not described herein again.

Finally, it should be noted that: the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A construction monitoring method for a construction project is characterized by comprising the following steps:

automatically acquiring bulk material data, weighbridge data, mixing station data and process cycle time data required in the project construction process;

integrating data related to project construction and project management into a pre-manufactured BIM model, and performing visual management on construction progress and construction quality; wherein the data relating to project construction and project management comprises the process cycle time data;

and monitoring abnormal data in the bulk material data, the wagon balance data, the mixing station data and the process cycle time data, and giving an alarm when the data are abnormal.

2. The construction monitoring method for construction project of claim 1, wherein automatically collecting the mixing station data required in the project construction process comprises:

receiving mixing station data sent by a mixing station manufacturer based on a docking protocol and an interface agreed with the mixing station manufacturer in advance;

and carrying out data verification, analysis and storage on the mixing station data.

3. The construction monitoring method for construction project of claim 1, wherein automatically collecting process cycle time data required in the project construction process comprises:

acquiring a video stream at a construction inlet or outlet through an image acquisition device, and detecting and identifying operating personnel in the video stream;

when a plurality of operators of the same work type are identified to pass through the construction inlet or outlet within a certain time range, marking the start or the end of the current working procedure corresponding to the work type;

acquiring the time interval of the beginning or the end of a process represented by the entering and leaving of a plurality of operators of the same work type;

the time interval is recorded as one process cycle time data.

4. The construction monitoring method for construction project of claim 3, wherein the data related to project construction and project management are integrated into a pre-made BIM model, and the visual management of construction progress and construction quality comprises:

integrating the process cycle time data into the pre-fabricated BIM model;

and visually displaying the progress of the current process circulation of the project according to the process circulation time data.

5. The construction monitoring method for the construction engineering project according to claim 4, wherein the monitoring of abnormal data in the process cycle time data and the alarm prompt when the data is abnormal comprise:

judging whether the actual construction time of the working procedure exceeds the preset standard construction time or not based on the working procedure cycle time data;

and if the number of the processes exceeds the preset value, alarming and prompting the processes with abnormal process cycle time data in the BIM model.

6. The construction engineering project construction monitoring method according to claim 1, wherein the monitoring of abnormal data in the wagon balance data and the alarm prompt when the data is abnormal comprise:

judging whether the same vehicle has repeated weighing within a preset time interval or not;

if the data of the wagon balance is abnormal, the wagon balance data is considered to be abnormal, and an alarm prompt is sent to relevant management personnel.

7. The construction monitoring method for construction project of claim 1, wherein the data related to project construction and project management are integrated into a pre-made BIM model, and the visual management of construction progress and construction quality comprises:

integrating the percentage data of the current construction footage and the total engineering quantity of the construction project, the current position of the tunnel face and the geological surrounding rock grade into the pre-manufactured BIM;

performing segmented display on the construction project in the BIM model, and noting the grade and actual length of the surrounding rock corresponding to each segment;

and determining the construction finished part of the construction project according to the percentage data of the current construction footage and the total engineering quantity, and distinguishing the BIM model of the finished construction part and the BIM model of the unfinished construction part by different colors.

8. A construction monitoring device for a construction project, the device comprising:

the automatic data acquisition module is used for automatically acquiring bulk material data, weighbridge data, mixing station data and process cycle time data required in the project construction process;

the construction progress and quality management module is used for integrating data related to project construction and project management into a pre-manufactured BIM (building information modeling) model and visually managing the construction progress and the construction quality; wherein the data relating to project construction and project management comprises the process cycle time data;

and the abnormal data monitoring module is used for monitoring abnormal data in the bulk material data, the wagon balance data, the mixing station data and the process cycle time data and giving an alarm when the data are abnormal.

9. A construction monitoring device for a construction project, the device comprising a memory, a processor and a transceiver which are sequentially connected in communication, wherein the memory is used for storing a computer program, the transceiver is used for transmitting and receiving messages, and the processor is used for reading the computer program and executing the construction monitoring method for the construction project according to any one of claims 1 to 7.

10. A computer program product, characterized in that it contains instructions which, when run on a computer, cause the computer to carry out the construction monitoring method of a construction project according to any one of claims 1 to 7.

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