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CN-121981517-A - Engineering scheduling method and system integrating mechanized construction capability evaluation

CN121981517ACN 121981517 ACN121981517 ACN 121981517ACN-121981517-A

Abstract

The invention discloses an engineering scheduling method and system for integrating mechanized construction capability evaluation, and relates to the technical field of engineering scheduling management, wherein the engineering scheduling method comprises the following steps of S1, formulating construction job ticket information, S2, performing risk management and dispatching, S3, performing real-time video monitoring and illegal behavior identification on a job site through monitoring equipment, and S4, feeding back a final mechanized construction capability evaluation result to a subcontractor management module; the engineering dispatching system comprises a core dispatching unit, a data supporting unit, an execution monitoring unit and an evaluation optimizing unit. According to the invention, through accurate dispatching, real-time video monitoring and AI violation identification based on the risk level and the quantization capability, the front prevention of safety risks and the real-time intervention in the event are realized, the occurrence of safety accidents is effectively reduced, and the intrinsic safety is realized. Through mechanized capability evaluation and data acquisition of the Internet of things, the subcontractor is promoted to actively promote the mechanized application level and the equipment efficiency.

Inventors

  • HE WEN
  • Ji Peichen
  • ZHOU FANG
  • LI YULONG
  • JIANG ZHICHEN
  • HU RUI
  • CHENG XIAOFEI
  • LI JIAN
  • Zeng Jinxuan
  • Mo Wangyi
  • QIN LIUYUN
  • LI YUAN
  • WEI SHILEI

Assignees

  • 南方电网互联网服务有限公司

Dates

Publication Date
20260505
Application Date
20251210

Claims (10)

  1. 1. The engineering scheduling method integrating mechanized construction capability evaluation is characterized by comprising the following steps of: s1, acquiring construction operation ticket information and acquiring mechanized construction capability evaluation of subcontractors, wherein the construction operation ticket information comprises risk level and tool information required by construction; S2, performing risk management and control dispatching based on the risk level of the construction operation ticket information and the mechanized construction capability evaluation of the subcontractor, and checking whether the mechanized construction capability evaluation of the subcontractor is provided with the tool information required by construction in the construction operation ticket information during dispatching; S3, constructing by an operation team according to the requirement of construction operation ticket information, carrying out video monitoring and illegal behavior identification on an operation site through monitoring equipment, and recording the application condition of mechanized construction; and S4, after the project is completed, based on the application condition of the mechanized construction, acquiring a final evaluation result of the mechanized construction capability, and updating the mechanized construction capability evaluation of the subcontractor.
  2. 2. The engineering scheduling method for integrating mechanized construction capability evaluation according to claim 1, wherein the monitoring equipment comprises a field deployment ball, an intelligent safety helmet and an execution method recorder, and is connected to a video master station through a GB/T28181 protocol, a primary monitoring point of high-risk operation and a secondary monitoring point of conventional operation are arranged in the video monitoring process, the primary monitoring point adopts configuration of high-definition shooting, infrared night vision and audio acquisition, and a feedback mode of timing spot check is adopted for the secondary monitoring point of the conventional operation.
  3. 3. The engineering scheduling method for integrating mechanized construction capability evaluation according to claim 1 is characterized by comprising the steps of automatically recording the service time of construction equipment through an Internet of things sensor, returning oil consumption or electric quantity data of the construction equipment through an onboard terminal, and scoring the construction standard rate through shooting by a handheld terminal of a supervision person.
  4. 4. The method for scheduling engineering with integrated mechanized construction capability evaluation according to claim 3, wherein in step S4, the final evaluation result of the mechanized construction capability is obtained, and the method comprises the steps of automatically adjusting the scoring weight according to the engineering type, wherein the total score of the mechanized construction capability of the subcontractor=the construction equipment configuration 0.4+the construction standard reaching rate 0.3+the history violation record (-0.2) +the supervision score 0.1.
  5. 5. The method for engineering dispatch integrated with mechanized construction capability evaluation as set forth in claim 1, wherein in step S1, the construction job ticket information further includes construction task information, construction personnel information, and construction conditions.
  6. 6. The engineering scheduling method for fusing mechanized construction capability evaluation according to claim 5, wherein in the step S1, the construction job ticket comprises a week planning task and a day planning task, wherein when the week planning task is formulated, construction task professional classification and refinement of a job task level are carried out, the job task level comprises a first-level task, a second-level task and a third-level task, after the third-level task is selected, a working condition list is automatically associated, when the day planning task is formulated, the construction task, a risk level, a construction working condition, a supplementary working position, a grouping responsible person and a necessary tool list are automatically inherited from the week planning task, and the mechanized construction capability evaluation comprises checking whether the number of devices and the model meet the standard or not according to the task type, recording the mechanized construction proportion, and calling the evaluation score and the violation record of the past same type of task of a job team.
  7. 7. The engineering scheduling method for fusing mechanized construction capability evaluation according to claim 1, wherein in step S2, the risk management dispatching comprises the steps of automatically or assisting management personnel in generating a dispatching order, assigning management personnel with corresponding risk management qualification and mechanized construction capability to the field supervision, and assigning different levels of supervision personnel to jointly supervise the jobs with different risk levels.
  8. 8. The engineering scheduling method for integrating mechanized construction capability evaluation according to claim 1, wherein in the step S3, the method further comprises the steps of digitally managing the operation, confirming that the consultant is consistent with the construction operation ticket information list through face recognition, automatically generating an electronic record with GPS positioning and time watermarking, and meeting the face recognition and the operation ticket two-dimensional code scanning simultaneously during entering and punching a card.
  9. 9. An engineering dispatching system for fusing mechanized construction capability evaluation, for implementing an engineering dispatching method for fusing mechanized construction capability evaluation according to any one of claims 1 to 8, comprising: The core scheduling unit comprises a risk management module for managing the whole life cycle and risk of the job and a progress management module for managing the project progress plan; The data support unit comprises a personnel management module, a large-scale tool management module, a packet provider management module and a warehouse management module; The execution monitoring unit comprises a video master station module for accessing monitoring equipment and identifying illegal behaviors and a violation management module for processing illegal events; The evaluation optimizing unit comprises a mechanized construction capability evaluation module for quantitatively scoring the capability of a construction team and a statistics management module for data statistics analysis.
  10. 10. A computer-readable storage medium, characterized in that a computer program is stored thereon, which computer program, when being executed by a processor, realizes the steps of an engineering scheduling method of fusion mechanized construction capability evaluation according to any one of claims 1-8.

Description

Engineering scheduling method and system integrating mechanized construction capability evaluation Technical Field The invention relates to the technical field of engineering dispatching management, in particular to an engineering dispatching method and system integrating mechanized construction capability evaluation. Background The engineering scheduling management refers to the management activities of scientifically planning, dynamically coordinating and optimally controlling the resources such as personnel, machinery, materials, progress, risks and the like in the implementation process of engineering projects so as to ensure the safety, high efficiency and high quality completion of the engineering. The method has the core aims of maximizing construction efficiency, optimizing cost and minimizing risk through reasonable task allocation, resource allocation and process monitoring. In the traditional engineering dispatching management, construction job ticket information, risk management and field execution are relatively independent links, planning often depends on manual experience, cannot accurately match actual field risks and actual capabilities of construction teams, systems such as personnel, machines, subcontractors, progress, video monitoring and the like are generally independent of each other, data are not communicated, subjective impressions and scattered safety accident records are relied on for evaluating the subcontractors, objective and quantitative data support is lacked, and therefore, an engineering dispatching method and system for fusing mechanical construction capability evaluation are required to be provided. Disclosure of Invention In order to overcome the defects of the prior art, the invention provides the engineering scheduling method and the engineering scheduling system for fusing the mechanical construction capability evaluation, which realize the front prevention of safety risks and the real-time intervention in the past, effectively reduce the occurrence of safety accidents and realize the intrinsic safety by accurately dispatching, real-time video monitoring and AI violation identification based on the risk level and the quantitative capability. The technical scheme includes that the engineering scheduling method integrating mechanized construction capability evaluation comprises the following steps of S1, obtaining construction job ticket information, wherein the construction job ticket information comprises construction task information, risk level, construction required personnel information, construction required tool information and construction working conditions, and obtaining mechanized construction capability evaluation of a subcontractor, S2, carrying out risk management dispatching based on the risk level of the construction job ticket information and the mechanized construction capability evaluation of the subcontractor, and checking whether the mechanized construction capability evaluation of the subcontractor is provided with the tool information required by construction in the construction job ticket information or not when dispatching is carried out, S3, carrying out construction according to the requirement of the construction job ticket information by a job team, carrying out real-time video monitoring and illegal behavior identification on a job site through monitoring equipment, recording mechanized construction application conditions as evaluation basis, and after S4, carrying out project completion, obtaining a final evaluation result of the mechanized construction capability based on the mechanized construction application conditions, and updating the mechanized construction capability evaluation of the subcontractor in real time. The construction job ticket comprises a week planning task and a day planning task in the step S1, wherein the construction task is specially classified and a job task level is refined when the week planning task is formulated, the job task level comprises a primary task, a secondary task and a tertiary task, after the tertiary task is selected, a working condition list is automatically associated, and when the day planning task is formulated, the construction task, the risk level, the construction working condition, the supplementary working position, the grouping responsible person and the requisite tool list are automatically inherited from the week planning task. In step S1, the mechanized construction capability evaluation comprises the steps of checking whether the number and the model of equipment reach the standards according to the task type, recording the proportion of mechanized construction, and calling the evaluation score and the violation record of the past tasks of the same type of operation team. In step S2, the risk management dispatching comprises the steps of automatically or assisting management personnel in generating a dispatching list, assigning management personnel with corresponding risk managemen